TREA

Methods for identifying risk of breast cancer and treatments thereof

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  • Patent Application
  • 20050272043
  • Publication Number
    20050272043
  • Date Filed
    May 27, 2004
    20 years ago
  • Date Published
    December 08, 2005
    19 years ago
Information
Abstract
Provided herein are methods for identifying risk of breast cancer in a subject and/or a subject at risk of breast cancer, reagents and kits for carrying out the methods, methods for identifying candidate therapeutics for treating breast cancer, and therapeutic methods for treating breast cancer in a subject. These embodiments are based upon an analysis of polymorphic variations in nucleotide sequences within the human genome.
Description
FIELD OF THE INVENTION

The invention relates to genetic methods for identifying risk of breast cancer and treatments that specifically target the disease.


BACKGROUND

Breast cancer is the third most common cancer, and the most common cancer in women, as well as a cause of disability, psychological trauma, and economic loss. Breast cancer is the second most common cause of cancer death in women in the United States, in particular for women between the ages of 15 and 54, and the leading cause of cancer-related death (Forbes, Seminars in Oncology, vol. 24 (1), Suppl 1, 1997: pp. S1-20-S1-35). Indirect effects of the disease also contribute to the mortality from breast cancer including consequences of advanced disease, such as metastases to the bone or brain. Complications arising from bone marrow suppression, radiation fibrosis and neutropenic sepsis, collateral effects from therapeutic interventions, such as surgery, radiation, chemotherapy, or bone marrow transplantation-also contribute to the morbidity and mortality from this disease.


While the pathogenesis of breast cancer is unclear, transformation of normal breast epithelium to a malignant phenotype may be the result of genetic factors, especially in women under thirty (Miki, et al., Science, 266: 66-71 (1994)). However, it is likely that other, non-genetic factors also have a significant effect on the etiology of the disease. Regardless of its origin, breast cancer morbidity increases significantly if it is not detected early in its progression. Thus, considerable efforts have focused on the elucidation of early cellular events surrounding transformation in breast tissue. Such efforts have led to the identification of several potential breast cancer markers. For example, alleles of the BRCA1 and BRCA2 genes have been linked to hereditary and early-onset breast cancer (Wooster, et al., Science, 265: 2088-2090 (1994)). However, BRCA1 is limited as a cancer marker because BRCA1 mutations fail to account for the majority of breast cancers (Ford, et al., British J. Cancer, 72: 805-812 (1995)). Similarly, the BRCA2 gene, which has been linked to forms of hereditary breast cancer, accounts for only a small portion of total breast cancer cases.


SUMMARY

It has been discovered that certain polymorphic variations in human genomic DNA are associated with the occurrence of breast cancer. In particular, polymorphic variants in loci containing ICAM, MAPK10, KIAA0861, NUMA1/FLJ20625/LOC220074 (hereafter referred to as “NUMA1”), HT014/LOC148902/LYPLA2/GALE (hereafter refered to as “GALE”), DPF3 and LOC145197 regions in human genomic DNA have been associated with risk of breast cancer.


Thus, featured herein are methods for identifying a subject at risk of breast cancer and/or a risk of breast cancer in a subject, which comprises detecting the presence or absence of one or more polymorphic variations accociated with breast cancer in genomic regions described herein in a human nucleic acid sample. In an embodiment, two or more polymorphic variations are detected in two or more regions selected from the group consisting of ICAM, MAK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197. In certain embodiments, 3 or more, or 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 or 20 or more polymorphic variants are detected. In specific embodiments, the group of polymorphic variants detected comprise or consist of polymorphic variants in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and/or LOC145197, such as position 44247 in SEQ ID NO: 1 (ICAM), position 36424 in SEQ ID NO: 2 (MAPK10), position 48563 in SEQ ID NO: 3 (KIAA0861), position 49002 in SEQ ID NO: 4 (NUMA1) and position 174 in SEQ ID NO: 5 (GALE), for example.


Also featured are nucleic acids that include one or more polymorphic variations associated with the occurrence of breast cancer, as well as polypeptides encoded by these nucleic acids. Further, provided is a method for identifying a subject at risk of breast cancer and then prescribing to the subject a breast cancer detection procedure, prevention procedure and/or a treatment procedure. In addition, provided are methods for identifying candidate therapeutic molecules for treating breast cancer and related disorders, as well as methods for treating breast cancer in a subject by diagnosing breast cancer in the subject and treating the subject with a suitable treatment, such as administering a therapeutic molecule.


Also provided are compositions comprising a breast cancer cell and/or ICAM, AAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid with a RNAi, siRNA, antisense DNA or RNA, or ribozyme nucleic acid designed from a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence. In an embodiment, the nucleic acid is designed from a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence that includes one or more breast cancer associated polymorphic variations, and in some instances, specifically interacts with such a nucleotide sequence. Further, provided are arrays of nucleic acids bound to a solid surface, in which one or more nucleic acid molecules of the array have a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence, or a fragment or substantially identical nucleic acid thereof, or a complementary nucleic acid of the foregoing. Featured also are compositions comprising a breast cancer cell and/or a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, with an antibody that specifically binds to the polypeptide. In an embodiment, the antibody specifically binds to an epitope in the polypeptide that includes a non-synonymous amino acid modification associated with breast cancer (e.g., results in an amino acid substitution in the encoded polypeptide associated with breast cancer). In certain embodiments, the antibody specifically binds to an epitope that comprises a proline at amino acid position 352, an alanine at amino acid position 348, or a glycine at amino acid position 241 in an ICAM5 polypeptide.




BRIEF DESCRIPTION OF THE FIGURES


FIGS. 1A-1G show proximal SNPs in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 regions of genomic DNA, respectively. The position of each SNP on the chromosome is shown on the x-axis and the y-axis provides the negative logarithm of the p-value comparing the estimated allele to that of the control group. Also shown in the figure are exons and introns of the genes in the approximate chromosomal positions.



FIGS. 2A-2D show results of an odds-ratio meta analysis for ICAM, MAPK10, KIkA0861 NUMA1 regions.



FIG. 3 shows effects of ICAM-directed siRNA on cancer cell proliferation.




DETAILED DESCRIPTION

It has been discovered that polymorphic variations in the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 regions described herein are associated with an increased risk of breast cancer.


All ICAM proteins are type I transmembrane glycoproteins, contain 2-9 immunoglobulin-like C2-type domains, and bind to the leukocyte adhesion LFA-1 protein. The proteins are members of the intercellular adhesion molecule (ICAM) family. The gene ICAM1 (intercellular adhesion molecule-1) is also known as human rhinovirus receptor, BB2, CD54. and cell surface glycoprotein P3.58. ICAM1 has been mapped to chromosomal position 19p13.3-p13.2. ICAM1 (CD54) typically is expressed on endothelial cells and cells of the immune system. ICAM1 binds to integrins of type CD11a/CD 18, or CD11b/CD18. ICAM1 is also exploited by Rhinovirus as a receptor.


The gene ICAM4 (intercellular adhesion molecule 4) is also known as the Landsteiner-Wiener blood group or LW. ICAM4 has been mapped to 19p13.2-cen. The protein encoded by this gene is a member of the intercellular adhesion molecule (ICAM) family. A glutamine to arginine polymorphism in this protein is responsible for the Landsteiner-Wiener blood group system (GLN=WB(A); ARG=WB(B). This gene consists of 3 exons and alternative splicing generates 2 transcript variants.


The gene ICAM5 (intercellular adhesion molecule 5) is also known as telencephalin. ICAM5 has been mapped to 19p13.2. The protein encoded by the gene is expressed on the surface of telencephalic neurons and displays two types of adhesion activity, homophilic binding between neurons and heterophilic binding between neurons and leukocytes. It may be a critical component in neuron-microglial cell interactions in the course of normal development or as part of neurodegenerative diseases.


The gene MAPK10 also is known as JNK3, JNK3A, PRKM10, p493F12, FLJ12099, p54bSAPK MAP kinase, c-Jun kinase 3, JNK3 alpha protein kinase, c-Jun N-terminal kinase 3, stress activated protein kinase JNK3, stress activated protein kinase beta. MAPK10 has been mapped to chromosomal position 4q22.1-q23. The protein encoded by this gene is a member of the MAP kinase family. MAP kinases act as an integration point for multiple biochemical signals, and are involved in a wide variety of cellular processes such as proliferation, differentiation, transcription regulation and development. This protein is a neuronal-specific form of c-Jun N-terminal kinases (JNKs). Through its phosphorylation and nuclear localization, this kinase plays regulatory roles in the signaling pathways during neuronal apoptosis. Beta-arrestin 2, a receptor-regulated MAP kinase scaffold protein, is found to interact with, and stimulate the phosphorylation of this kinase by MAP kinase kinase 4 (MKK4). Cyclin-dependent kinase 5 can phosphorylate, and inhibit the activity of this kinase, which may be important in preventing neuronal apoptosis. Four alternatively spliced transcript variants encoding distinct isoforms have been reported.


The gene KIAA0861 is a Rho family guanine-nucleotide exchange factor. KIAA0861 has been mapped to chromosomal position 3q27.3. KIAA0861 is a Rho family nucleotide exchange factor homolog that modulates the activity of Rho family GTPases, which control numerous cell functions, including cell growth, adhesion, movement and shape. RhoC GTPase is overexpressed in invasive (inflammatory) breast cancers.


The gene FLJ20625 has been mapped to chromosomal position 11q13.3. The gene encoding LOC220074 also is known as Hypothetical 55.1 kDa protein F09G8.5 in chromosome III and has been mapped to chromosomal position 11q13.3.


The gene HT014 has been mapped to chromosomal position 1p36.11. The gene LYPLA2 (lysophospholipase II) also is known as APT-2, DJ886K2.4 and acyl-protein thioesterase and has been mapped to chromosomal position 1p36.12-p35.1. Lysophospholipases are enzymes that act on biological membranes to regulate the multifunctional lysophospholipids. There are alternatively spliced transcript variants described for this gene but the full length nature is not known yet.


The gene GALE (galactose-4-epimerase, UDP-) also is known as galactowaldenase UDP galactose4-epimerase and has been mapped to chromosomal position 1 p36-p35. This gene encodes UDP-galactose-4-epimerase which catalyzes 2 distinct but analogous reactions: the epimerization of UDP-glucose to UDP-galactose, and the epimerization of UDP-N-acetylglucosamine to UDP-N-acetylgalactosamine. The bifunctional nature of the enzyme has the important metabolic consequence that mutant cells (or individuals) are dependent not only on exogenous galactose, but also on exogenous N-acetylgalactosamine for necessary precursor for the synthesis of glycoproteins and glycolipids. The missense mutations in the GALE gene result in the epimerase-deficiency galactosemia.


The gene DPF3 (D4, zinc and double PHD fingers, family 3) also is known as CERD4, cer-d4, FLJ14079, and 2810403B03Rik. DPF3 is a Rho family guanine-nucleotide exchange factor. DPF3 has been mapped to chromosomal position 14q24.3-q31.1.


Breast Cancer and Sample Selection


Breast cancer is typically described as the uncontrolled growth of malignant breast tissue. Breast cancers arise most commonly in the lining of the milk ducts of the breast (ductal carcinoma), or in the lobules where breast milk is produced (lobular carcinoma). Other forms of breast cancer include Inflammatory Breast Cancer and Recurrent Breast Cancer. Inflammatory breast cancer is a rare, but very serious, aggressive type of breast cancer. The breast may look red and feel warm with ridges, welts, or hives on the breast; or the skin may look wrinkled. It is sometimes misdiagnosed as a simple infection. Recurrent disease means that the cancer has come back after it has been treated. It may come back in the breast, in the soft tissues of the chest (the chest wall), or in another part of the body.


As used herein, the term “breast cancer” refers to a condition characterized by anomalous rapid proliferation of abnormal cells in one or both breasts of a subject. The abnormal cells often are referred to as “neoplastic cells,” which are transformed cells that can form a solid tumor. The term “tumor” refers to an abnormal mass or population of cells (i.e. two or more cells) that result from excessive or abnormal cell division, whether malignant or benign, and pre-cancerous and cancerous cells. Malignant tumors are distinguished from benign growths or tumors in that, in addition to uncontrolled cellular proliferation, they can invade surrounding tissues and can metastasize. In breast cancer, neoplastic cells may be identified in one or both breasts only and not in another tissue or organ, in one or both breasts and one or more adjacent tissues or organs (e.g. lymph node), or in a breast and one or more non-adjacent tissues or organs to which the breast cancer cells have metastasized.


The term “invasion” as used herein refers to the spread of cancerous cells to adjacent surrounding tissues. The term “invasion” often is used synonymously with the term “metastasis,” which as used herein refers to a process in which cancer cells travel from one organ or tissue to another non-adjacent organ or tissue. Cancer cells in the breast(s) can spread to tissues and organs of a subject, and conversely, cancer cells from other organs or tissue can invade or metastasize to a breast. Cancerous cells from the breast(s) may invade or metastasize to any other organ or tissue of the body. Breast cancer cells often invade lymph node cells and/or metastasize to the liver, brain and/or bone and spread cancer in these tissues and organs. Breast cancers can spread to other organs and tissues and cause lung cancer, prostate cancer, colon cancer, ovarian cancer, cervical cancer, gastrointestinal cancer, pancreatic cancer, glioblastoma, bladder cancer, hepatoma, colorectal cancer, uterine cervical cancer, endometrial carcinoma, salivary gland carcinoma, kidney cancer, vulval cancer, thyroid cancer, hepatic carcinoma, skin cancer, melanoma, ovarian cancer, neuroblastoma, myeloma, various types of head and neck cancer, acute lymphoblastic leukemia, acute myeloid leukemia, Ewing sarcoma and peripheral neuroepithelioma, and other carcinomas, lymphomas, blastomas, sarcomas, and leukemias.


Breast cancers arise most commonly in the lining of the milk ducts of the breast (ductal carcinoma), or in the lobules where breast milk is produced (lobular carcinoma). Other forms of breast cancer include Inflammatory Breast Cancer and Recurrent Breast Cancer. Inflammatory Breast Cancer is a rare, but very serious, aggressive type of breast cancer. The breast may look red and feel warm with ridges, welts, or hives on the breast; or the skin may look wrinkled. It is sometimes misdiagnosed as a simple infection. Recurrent disease means that the cancer has come back after it has been treated. It may come back in the breast, in the soft tissues of the chest (the chest wall), or in another part of the body. As used herein, the term “breast cancer” may include both Inflammatory Breast Cancer and Recurrent Breast Cancer.


In an effort to detect breast cancer as early as possible, regular physical exams and screening mammograms often are prescribed and conducted. A diagnostic mammogram often is performed to evaluate a breast complaint or abnormality detected by physical exam or routine screening mammography. If an abnormality seen with diagnostic mammography is suspicious, additional breast imaging (with exams such as ultrasound) or a biopsy may be ordered. A biopsy followed by pathological (microscopic) analysis is a definitive way to determine whether a subject has breast cancer. Excised breast cancer samples often are subjected to the following analyses: diagnosis of the breast tumor and confirmation of its malignancy; maximum tumor thickness; assessment of completeness of excision of invasive and in situ components and microscopic measurements of the shortest extent of clearance; level of invasion; presence and extent of regression; presence and extent of ulceration; histological type and special variants; pre-existing lesion; mitotic rate; vascular invasion; neurotropism; cell type; tumor lymphocyte infiltration; and growth phase.


The stage of a breast cancer can be classified as a range of stages from Stage 0 to Stage IV based on its size and the extent to which it has spread. The following table summarizes the stages:

TABLE AMetastasisStageTumor SizeLymph Node Involvement(Spread)ILess than 2 cmNoNoIIBetween 2-5 cmNo or in same side of breastNoIIIMore than 5 cmYes, on same side of breastNoIVNot applicableNot applicableYes


Stage 0 cancer is a contained cancer that has not spread beyond the breast ductal system. Fifteen to twenty percent of breast cancers detected by clinical examinations or testing are in Stage 0 (the earliest form of breast cancer). Two types of Stage 0 cancer are lobular carcinoma in situ (LCIS) and ductal carcinoma in situ (DCIS). LCIS indicates high risk for breast cancer. Many physicians do not classify LCIS as a malignancy and often encounter LCIS by chance on breast biopsy while investigating another area of concern. While the microscopic features of LCIS are abnormal and are similar to malignancy, LCIS does not behave as a cancer (and therefore is not treated as a cancer). LCIS is merely a marker for a significantly increased risk of cancer anywhere in the breast. However, bilateral simple mastectomy may be occasionally performed if LCIS patients have a strong family history of breast cancer. In DCIS the cancer cells are confined to milk ducts in the breast and have not spread into the fatty breast tissue or to any other part of the body (such as the lymph nodes). DCIS may be detected on mammogram as tiny specks of calcium (known as microcalcifications) 80% of the time. Less commonly DCIS can present itself as a mass with calcifications (15% of the time); and even less likely as a mass without calcifications (<5% of the time). A breast biopsy is used to confirm DCIS. A standard DCIS treatment is breast-conserving therapy (BCT), which is lumpectomy followed by radiation treatment or mastectomy. To date, DCIS patients have chosen equally among lumpectomy and mastectomy as their treatment option, though specific cases may sometimes favor lumpectomy over mastectomy or vice versa.


In Stage I, the primary cancer is 2 cm or less in diameter and has not spread to the lymph nodes. In Stage IIA, the primary tumor is between 2 and 5 cm in diameter and has not spread to the lymph nodes. In Stage IIIB, the primary tumor is between 2 and 5 cm in diameter and has spread to the axillary (underarm) lymph nodes; or the primary tumor is over 5 cm and has not spread to the lymph nodes. In Stage 111A, the primary breast cancer of any kind that has spread to the axillary (underarm) lymph nodes and to axillary tissues. In Stage IIIB, the primary breast cancer is any size, has attached itself to the chest wall, and has spread to the pectoral (chest) lymph nodes. In Stage IV, the primary cancer has spread out of the breast to other parts of the body (such as bone, lung, liver, brain). The treatment of Stage IV breast cancer focuses on extending survival time and relieving symptoms.


Based in part upon selection criteria set forth above, individuals having breast cancer can be selected for genetic studies. Also, individuals having no history of cancer or breast cancer often are selected for genetic studies. Other selection criteria can include: a tissue or fluid sample is derived from an individual characterized as Caucasian; the sample was derived from an individual of German paternal and maternal descent; the database included relevant phenotype information for the individual; case samples were derived from individuals diagnosed with breast cancer; control samples were derived from individuals free of cancer and no family history of breast cancer; and sufficient genomic DNA was extracted from each blood sample for all allelotyping and genotyping reactions performed during the study. Phenotype information included pre- or post-menopausal, familial predisposition, country or origin of mother and father, diagnosis with breast cancer (date of primary diagnosis, age of individual as of primary diagnosis, grade or stage of development, occurrence of metastases, e.g., lymph node metastases, organ metastases), condition of body tissue (skin tissue, breast tissue, ovary tissue, peritoneum tissue and myometrium), method of treatment (surgery, chemotherapy, hormone therapy, radiation therapy).


Provided herein is a set of blood samples and a set of corresponding nucleic acid samples isolated from the blood samples, where the blood samples are donated from individuals diagnosed with breast cancer. The sample set often includes blood samples or nucleic acid samples from 100 or more, 150 or more, or 200 or more individuals having breast cancer, and sometimes from 250 or more, 300 or more, 400 or more, or 500 or more individuals. The individuals can have parents from any place of origin, and in an embodiment, the set of samples are extracted from individuals of German paternal and German maternal ancestry. The samples in each set may be selected based upon five or more criteria and/or phenotypes set forth above.


Polymorphic Variants Associated with Breast Cancer


A genetic analysis provided herein linked breast cancer with polymorphic variants in the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 regions of the human genome disclosed herein. As used herein, the term “polymorphic site” refers to a region in a nucleic acid at which two or more alternative nucleotide sequences are observed in a significant number of nucleic acid samples from a population of individuals. A polymorphic site may be a nucleotide sequence of two or more nucleotides, an inserted nucleotide or nucleotide sequence, a deleted nucleotide or nucleotide sequence, or a microsatellite, for example. A polymorphic site that is two or more nucleotides in length may be 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 or more, 20 or more, 30 or more, 50 or more, 75 or more, 100 or more, 500 or more, or about 1000 nucleotides in length, where all or some of the nucleotide sequences differ within the region. A polymorphic site is often one nucleotide in length, which is referred to herein as a “single nucleotide polymorphism” or a “SNP.”


Where there are two, three, or four alternative nucleotide sequences at a polymorphic site, each nucleotide sequence is referred to as a “polymorphic variant” or “nucleic acid variant.” Where two polymorphic variants exist, for example, the polymorphic variant represented in a minority of samples from a population is sometimes referred to as a “minor allele” and the polymorphic variant that is more prevalently represented is sometimes referred to as a “major allele.” Many organisms possess a copy of each chromosome (e.g., humans), and those individuals who possess two major alleles or two minor alleles are often referred to as being “homozygous” with respect to the polymorphism, and those individuals who possess one major allele and one minor allele are normally referred to as being “heterozygous” with respect to the polymorphism. Individuals who are homozygous with respect to one allele are sometimes predisposed to a different phenotype as compared to individuals who are heterozygous or homozygous with respect to another allele.


Furthermore, a genotype or polymorphic variant may be expressed in terms of a “haplotype,” which as used herein refers to two or more polymorphic variants occurring within genomic DNA in a group of individuals within a population. For example, two SNPs may exist within a gene where each SNP position includes a cytosine variation and an adenine variation. Certain individuals in a population may carry one allele (heterozygous) or two alleles (homozygous) having the gene with a cytosine at each SNP position. As the two cytosines corresponding to each SNP in the gene travel together on one or both alleles in these individuals, the individuals can be characterized as having a cytosine/cytosine haplotype with respect to the two SNPs in the gene.


As used herein, the term “phenotype” refers to a trait which can be compared between individuals, such as presence or absence of a condition, a visually observable difference in appearance between individuals, metabolic variations, physiological variations, variations in the function of biological molecules, and the like. An example of a phenotype is occurrence of breast cancer.


Researchers sometimes report a polymorphic variant in a database without determining whether the variant is represented in a significant fraction of a population. Because a subset of these reported polymorphic variants are not represented in a statistically significant portion of the population, some of them are sequencing errors and/or not biologically relevant. Thus, it is often not known whether a reported polymorphic variant is statistically significant or biologically relevant until the presence of the variant is detected in a population of individuals and the frequency of the variant is determined. Methods for detecting a polymorphic variant in a population are described herein, specifically in Example 2. A polymorphic variant is statistically significant and often biologically relevant if it is represented in 5% or more of a population, sometimes 10% or more, 15% or more, or 20% or more of a population, and often 25% or more, 30% or more, 35% or more, 40% or more, 45% or more, or 50% or more of a population.


A polymorphic variant may be detected on either or both strands of a double-stranded nucleic acid. For example, a thymine at a particular position in SEQ ID NO: 1 can be reported as an adenine from the complementary strand. Also, a polymorphic variant may be located within an intron or exon of a gene or within a portion of a regulatory region such as a promoter, a 5′ untranslated region (UTR), a 3′ UTR, and in DNA (e.g., genomic DNA (gDNA) and complementary DNA (cDNA)), RNA (e.g., mRNA, tRNA, and rRNA), or a polypeptide. Polymorphic variations may or may not result in detectable differences in gene expression, polypeptide structure, or polypeptide function.


In the genetic analysis that associated breast cancer with the polymorphic variants described hereafter, samples from individuals having breast cancer and individuals not having cancer were allelotyped and genotyped. The term “genotyped” as used herein refers to a process for determining a genotype of one or more individuals, where a “genotype” is a representation of one or more polymorphic variants in a population. Genotypes may be expressed in terms of a “haplotype,” which as used herein refers to two or more polymorphic variants occurring within genomic DNA in a group of individuals within a population. For example, two SNPs may exist within a gene where each SNP position includes a cytosine variation and an adenine variation. Certain individuals in a population may carry one allele (heterozygous) or two alleles (homozygous) having the gene with a cytosine at each SNP position. As the two cytosines corresponding to each SNP in the gene travel together on one or both alleles in these individuals, the individuals can be characterized as having a cytosine/cytosine haplotype with respect to the two SNPs in the gene.


It was determined that polymorphic variations associated with an increased risk of breast cancer existed in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 nucleotide sequences. Polymorphic variants in and around the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 loci were tested for association with breast cancer. In the ICAM locus, these included polymorphic variants at positions selected from the group consisting of rs2884487, rs2358580, rs2304236, rs1059840, rs1059843, rs11115, rs1059849, rs1059855, rs5030386, rs5030339, rs5030387, rs5030388, rs1799766, rs5030389, rs5490, rs11575070, rs5030340, rs5030390, rs5030391, rs3093035, rs11667983, rs5030341, rs5030342, rs5030343, rs5030344, rs5030347, rs5030348, rs5030349, rs5030350, rs5030351, rs5491, rs5030352, rs5030353, rs10420063, rs11879117, rs5030354, rs5030355, rs281428, rs5030358, rs5030359, rs5030392, rs5030393, rs5030360, rs5030394, rs281429, rs5030361, rs5030362, rs281430, rs281431, rs5030395, rs5827095, rs281432, rs5030364, rs5030365, rs5030368, rs5030369, rs3073809, rs2358581, rs7258215, rs5030371, rs5030372, rs281433, rs5030374, rs5030375, rs5030397, rs281434, rs12462944, rs5030398, rs5030378, rs12459133, rs5030399, rs5492, rs1800019, rs1799969, rs5493, rs5030381, rs5494, rs3093033, rs5495, rs1801714, rs2071441, rs5496, rs5497, rs5030382, rs5030400, rs2071440, rs5499, rs3093032, rs1057981, rs5500, rs5501, rs5030383, rs281436, rs923366, rs281437, rs3093030, rs5030384, rs5030385, rs3810159, rs281438, rs3093029, rs2735442, rs2569693, rs281439, rs281440, rs2569694, rs11575073, rs2569695, rs2075741, rs11575074, rs2569696, rs2735439, rs2569697, rs2075742, rs2569698, rs11669397, rs901886, rs885742, rs2569699, rs11549918, rs2569700, rs2228615, rs2569701, rs2569702, rs2735440, rs2569703, rs10418913, rs1056536, rs2569704, rs11673661, rs10402760, rs2569706, rs2569707, rs2436545, rs2436546, rs2916060, rs2916059, rs2916058, rs2569708, rs735747, rs885743, rs710845, rs2569709, rs2569710, rs2569711, rs2569712, rs12610026, rs4804129, rs12150978, rs439843, rs892188, rs2291473, rs281416, rs281417, rs882589, rs1048941, rs281418, rs430092, rs368835, rs2358583, rs378395, rs395782, rs1045384, rs281427, rs3745264, rs281426, rs281425, rs281424, rs281423, rs281422, rs281420, rs3745263, rs3745262, rs3745261, rs3181049, rs281412, rs3181048, rs2230399, rs2278442, rs3181047, rs3181046, rs2304237, rs281413, rs1058154, rs3176769, rs2304238, rs2304239, rs2304240, rs3176768, rs3176767, rs3176766, rs281414, rs281415, position 45003 of SEQ ID NO: 1, and position 47504 of SEQ ID NO: 1. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs11115, rs1059849, rs5030391, rs5030382, rs3093030, rs2569693, rs2075741, rs901886, rs11549918, rs2228615, rs2569702, rs2569703, rs10402760, rs710845, rs892188, and rs281426. At these positions in SEQ ID NO: 1, a cytosine at position 11942, an adenine at position 12054, a guanine at position 24037, an adenine at position 37083, a cytosine at position 38803, a cytosine at position 41304, a guanine at position 42498, a thymine at position 43531, a cytosine at position 44338, a guanine at position 44768, a thymine at position 45347, a cytosine at position 45627, a thymine at position 47265, a cytosine at position 48569, a cytosine at position 51193, a guanine at position 72451, in particular were associated with risk of breast cancer. Also, a proline at amino acid position 352 or an alanine at amino acid position 348 in SEQ ID NO: 15 were in particular associated with an increased risk of breast cancer.


In the MAPK10 locus, these included polymorphic variants at positions selected from the group consisting of rs2575681, rs2575680, rs2589505, rs2589504, rs2164538, rs2575679, rs10305, rs2869408, rs2904086, rs934648, rs2589511, rs2060589, rs2164537, rs2575678, rs2575677, rs2589510, rs2589509, rs2164536, rs2164535, rs1946734, rs2589525, rs2589523, rs3755970, rs2575675, rs1202, rs1201, rs2589516, rs2575674, rs2589515, rs3733367, rs958, rs2589506, rs1436524, rs2575672, rs2589518, rs3775164, rs2589514, rs3775166, rs3775167, rs3822035, rs3775168, rs3775169, rs2043650, rs2043649, rs3775170, rs1541998, rs2282599, rs2282598, rs2282597, rs3775171, rs3775172, rs3775173, rs3775174, rs1469870, rs1436522, rs1946733, rs983362, rs3755971, rs3822036, rs3775175, rs1436525, rs3822037, rs3775176, rs993593, rs1436527, rs1436529, rs3775180, rs3775181, rs3775182, rs3775183, rs3775184, rs733245, rs3775185, rs1561154, rs3775186, rs3775187, rs1010778, rs2282596, rs2282595, rs2118044, rs1469869, position 21751 of SEQ ID NO: 2, position 30965 of SEQ ID NO: 2, position 36838 of SEQ ID NO: 2, position 36889 of SEQ ID NO: 2, position 38639 of SEQ ID NO: 2, position 38865 of SEQ ID NO: 2, position 38885 of SEQ ID NO: 2, position 38943 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, and position 110704 of SEQ ID NO: 2. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs2575677, rs2575674, rs1436524, rs2575672, rs2589518, rs2589514, rs3775166, MAPK10-AB, rs3775168, rs2043650, rs2043649, rs1541998, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs1469870, and rs3775176. At these positions in SEQ ID NO: 2, a guanine at position 13918, an adenine at position 23841, an adenine at position 26072, a thymine at position 26376, an adenine at position 26614, an adenine at position 26827, a cytosine at position 27084, an adenine at position 30965, an adenine at position 32979, an adenine at position 35142, a thymine at position 35237, a cytosine at position 36439, a thymine at position 38865, a thymine at position 39035, a cytosine at position 39046, a cytosine at position 46191, and an adenine at position 62587, in particular were associated with risk of breast cancer.


In the KIAA0861 locus, these included polymorphic variants at positions selected from the group consisting of rs3811728, rs3811729, rs602646, rs488277, rs1629673, rs670232, rs575326, rs575386, rs684846, rs471365, rs496251, rs831246, rs831247, rs512071, rs1502761, rs681516, rs683302, rs619424, rs620722, rs529055, rs664010, rs678454, rs2653845, rs472795, rs507079, rs534333, rs535298, rs536213, rs831245, rs639690, rs684174, rs571761, rs1983421, rs4630966, rs2314415, rs6788196, rs2103062, rs9827084, rs9864865, rs6804951, rs6770548, rs1403452, rs7609994, rs9838250, rs9863404, rs903950, rs6787284, rs2017340, rs2001449, rs1317288, rs7635891, rs10704581, rs11371910, rs10937118, rs7642053, rs3821522, rs2029926, rs1390831, rs7643890, rs11925606, rs9826325, rs6800429, rs6803368, rs1353566, rs2272115, rs2272116, rs3732603, rs940055, rs2314730, rs2030578, rs2049280, rs3732602, rs2293203, rs7639705, and position 13507 of SEQ ID NO: 3. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs1403452, and rs2001449. At these positions in SEQ ID NO: 3, a cytosine at position 41716, a guanine at position 44775, a guanine at position 44962, a cytosine at position 45317, a guanine at position 45712, a thymine at position 45941, and a cytosine at position 48849, in particular were associated with risk of breast cancer. Also, an alanine at amino acid position 819 in SEQ ID NO: 22 (or position 902 in SEQ ID NO: 23) was in particular associated with an increased risk of breast cancer.


In the NUMA1 locus, these included polymorphic variants at positions corresponding to these selected from the group consisting of rs4945392, rs7938496, rs7926550, rs7945374, rs7949480, rs7102523, rs7121260, rs7131230, rs7128317, rs2276385, rs2276384, rs2276383, rs1892921, rs1892920, rs7942626, rs7124429, rs7114081, rs7125718, rs1055452, rs3829215, rs1541306, rs3814722, rs1939240, rs5743655, rs5743656, rs5743657, rs3814721, rs5743658, rs5743659, rs5743660, rs5743661, rs5743662, rs2298455, rs5743664, rs5743665, rs5743667, rs5743668, rs5743669, rs1573503, rs5743670, rs5743671, rs1892919, rs5743672, rs2735786, rs5743673, rs5743674, rs1062452, rs5743675, rs5743676, rs760246, rs11345794, rs5743677, rs5743678, rs14537, rs3168177, rs5743679, rs1541304, rs1053725, rs5743680, rs949324, rs949323, rs5743681, rs5743682, rs5743683, rs5743684, rs5743685, rs2845857, rs2852365, rs11538641, rs11538639, rs11235417, rs11538644, rs11538643, rs2845858, rs2155146, rs2852364, rs2845859, rs2845860, rs11538642, rs7949430, rs7938674, rs2735787, rs11538640, rs10736784, rs10736785, rs11826059, rs2503, rs2155145, rs4477459, position 26334 of SEQ ID NO: 4, rs5019605, rs5019604, rs5019603, rs3793941, rs11235418, rs3793940, rs2032353, rs3934448, rs7951267, rs1053603, rs1053602, rs11235419, rs1053601, rs3750913, rs3750912, rs1053600, rs1057992, rs2298789, rs10898813, position 34941 of SEQ ID NO: 4, rs949325, position 35629 of SEQ ID NO: 4, rs949326, rs2298456, rs7949845, rs7949989, rs1573500, rs4945411, rs11235422, rs10128658, rs2298457, rs3838779, rs1573501, rs11235424, rs10898814, rs7930142, rs7930544, rs7930721, rs7930722, rs6592456, rs11235425, rs6592457, rs10898815, rs11235426, rs10898816, rs1939247, rs1939246, rs1939245, rs1939244, rs1939243, rs4245463, rs4944258, rs7926751, rs12282917, rs12282918, rs7937582, rs10898817, rs7480015, rs7123992, rs1573502, rs7127865, rs4945426, rs11235428, rs7122489, rs1894003, rs1548348, rs1892923, rs5792570, rs7115200, rs4945430, rs11235429, rs1939242, rs9666346, rs7101553, rs7124000, rs12291664, rs12291778, rs12291781, rs12291787, rs12291788, rs12291833, rs10793016, rs5792571, rs12293529, rs4338555, rs11235431, rs6592458, rs4945434, rs4945435, rs11307657, rs5792573, rs1894004, rs12276164, rs4378421, rs7116495, rs7101701, rs10736786, rs11608165, rs645603, rs661290, rs7122209, rs12417471, rs541228, rs12273666, rs2511074, rs3018311, rs3018289, rs679926, rs567026, rs564294, rs678193, rs677279, rs560777, rs676721, rs7106529, rs11602304, rs585228, rs578957, rs7110215, rs3133233, rs3133230, rs12576024, rs674319, rs675185, rs5792574, rs12275272, rs10400327, rs612255, rs7101643, rs575871, rs547208, rs2511075, rs642573, rs482197, rs656640, rs671681, rs541022, rs951586, rs2511076, rs11235432, rs3018308, rs11606798, rs1791544, rs3018304, rs10751193, rs4945470, rs3018291, rs2511120, rs671132, rs4945475, rs3018292, rs642618, rs552966, rs6592459, rs607446, rs607070, rs10713307, rs3018302, rs3750909, rs3018301, rs2511114, rs12270166, rs12270241, rs11606587, rs686340, rs548961, rs549032, rs575831, rs575878, rs577435, rs579320, rs495567, rs636946, rs493065, rs597513, rs598835, rs10683614, rs610004, rs610041, rs673478, rs670802, rs505041, rs2511116, rs628025, rs517837, rs615000, rs482013, rs693391, rs2511079, rs2250866, rs2508860, rs7483267, rs2511078, rs2508859, rs2508858, rs11235435, rs11235436, rs639435, rs12285624, position 112784 of SEQ ID NO: 4, rs624363, position 113614 of SEQ ID NO: 4, rs1053573, rs1053511, rs1063863, rs12137, rs4365081, rs4466868, rs3750911, rs510925, rs595062, rs1053443, rs542752, rs3897579, rs11235437, rs2508856, rs5792575, rs659513, rs10898820, rs2276397, rs3750908, rs3793938, rs602285, rs2276396, rs2276395, rs1806778, rs4073394, rs471547, rs606136, rs605241, rs686063, rs685749, rs533207, rs476753, position 191149 of SEQ ID NO: 4, rs11278712, and rs3831387. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, and rs11278712. At these positions in SEQ ID NO: 4, a thymine at position 3146, a guanine at position 6124, an adenine at position 6925, a guanine at position 7060, an adenine at position 7090, a cytosine at position 7696, a cytosine at position 13571, a guanine at position 14830, a cytosine at position 17733, a guanine at position 20776, a guanine at position 31726, a cytosine at position 34941, an adenine at position 35214, a guanine at position 35629, a thymine at position 36273, a cytosine at position 38348, a guanine at position 38608, a cytosine at position 39077, a thymine at position 39769, a thymine at position 40555, a thymine at position 42063, a cytosine at position 42574, a cytosine at position 42912, a cytosine at position 43042, a thymine at position 46079, a cytosine at position 48293, a cytosine at position 48771, a thymine at position 48951, a thymine at position 49972, a guanine at position 52986, a guanine at position 53339, a thymine at position 55834, a guanine at position 58703, a cytosine at position 59140, a guanine at position 60621, a cytosine at position 64645, a thymine at position 75831, a thymine at position 76160, a cytosine at position 76196, a cytosine at position 78847, a thymine at position 81130, a deletion at position 81452, a thyrnine at position 85815, a guanine at position 88614, a cytosine at position 90515, a cytosine at position 93751, an adenine at position 93775, a cytosine at position 94810, a thymine at position 96500, an adenine at position 97629, a thymine at position 97705, a guanine at position 99445, a guanine at position 100512, a cytosine at position 101046, an adenine at position 102487, a cytosine at position 103497, an adenine at position 103526, a cytosine at position 104662, a thymine at position 105226, a cytosine at position 107718, a thymine at position 108510, a cytosine at position 109520, a cytosine at position 109712, a thymine at position 110071, a cytosine at position 110963, a guanine at position 129463, and a “GTCAAC” at positions 34468-34472, in particular were associated with risk of breast cancer.


In the GALE locus, these included polymorphic variants at positions selected from the group consisting of rs627451, rs12082331, rs2267960, rs7519640, rs12086741, rs3934189, rs12135415, rs12088267, rs12084665, rs550850, rs557227, rs12137502, rs12118858, rs2294495, rs12401650, rs2235541, rs520713, rs550252, position 12668 of SEQ ID NO: 5, rs12093683, rs10917421, rs2744873, rs12091764, position 15761 of SEQ ID NO: 5, rs2076345, rs2076346, rs2473379, rs6679300, rs11811395, rs8179467, rs8179468, rs10917423, rs7536699, rs3215497, rs1000213, rs1000212, rs1000211, rs1045017, rs12059520, rs2143118, rs12126804, rs533276, rs12402174, rs2864110, rs11581873, rs12062449, rs12033190, rs10157566, rs486746, rs11802707, rs6668550, rs7410946, rs7410970, rs6657558, rs2143119, rs7514394, rs11591202, rs6673991, position 37720 of SEQ ID NO: 5, rs12034848, rs2502984, rs3831910, rs11379444, rs725119, rs10917425, rs12077788, rs12077830, rs2473380, rs2473381, rs11545132, rs1046924, rs4237, rs4375317, rs11584220, rs2232975, rs2502985, rs3835423, rs2232976, rs2232977, rs2232978, rs2232979, rs2232980, rs2232981, rs2232982, rs2232983, rs2232984, rs2232985, rs2232986, rs2745, rs2744, rs11546127, rs1049988, rs1803613, rs1803612, position 55821 of SEQ ID NO: 5, rs3209973, rs3180545, rs3180383, rs3177814, rs3180546, rs3180547, rs11805398, rs760941, rs3177813, rs3180548, rs3179864, rs3177812, rs3179863, rs6692104, rs3180549, rs3179862, rs3177811, rs3177810, rs3180382, rs11546126, rs7551384, rs12141511, rs2473382, rs12038166, rs6666908, rs12041159, rs12031592, rs1062598, rs11714, rs3203593, rs1042436, rs2076343, rs12131539, rs11583935, rs12140263, rs3835225, rs2473374, rs2256179, rs974698, rs1018396, rs719399, rs719400, rs2502986, rs6679378, rs2473375, rs2473376, rs12136455, rs2502987, rs11551767, rs11591205, rs12083298, rs12138604, rs12136042, rs12138606, rs12136045, rs12116596, rs12138610, rs12136069, rs12116617, rs7540056, rs12044452, rs2076344, rs11588187, rs6696932, rs12025531, rs6682888, rs2982390, rs2179394, rs2473377, rs2179395, rs2502978, rs2502979, rs6698535, rs2502980, rs6697805, rs6424114, rs5773058, rs4649114, rs6424115 and rs10554242. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, and rs10554242. At these positions in SEQ ID NO: 5, a cytosine at position 9351, a thymine at position 15761, a thymine at position 18220, an adenine at position 35555, a thymine at position 38304, an adenine at position 39985, an adenine at position 47604, a thymine at position 53102, a guanine at position 61135, an adenine at position 62601, a thymine at position 67087, a guanine at position 77120, a cytosine at position 81305, a cytosine at position 83464, a cytosine at position 85471, and a deletion at positions 83916-83920, in particular were associated with risk of breast cancer.


In the DPF3 locus, these included polymorphic variants at positions selected from the group consisting of rs11846274, rs2526935, rs929328, rs3742840, rs9671739, rs8006208, rs8006230, rs8007836, rs8006889, rs8010823, rs8011029, rs10649920, rs2803956, rs2803957, rs2526934, rs9671558, rs2526933, rs2803959, rs2526932, rs2803960, rs12434675, rs4899435, rs2526931, rs2803961, rs2803962, rs12590634, rs11327712, rs2803963, rs11844834, rs11320415, rs8012752, rs11623878, rs11623926, rs12434442, rs2526930, rs12435306, rs10144028, rs4899436, rs7140593, rs2107687, rs991882, rs3327, rs2526928, rs7401336, rs2526926, rs994760, rs994759, rs994758, rs11848404, rs2526925, rs11844236, rs2526924, rs2803965, rs2526923, rs7152467, rs11623462, rs2803966, rs2526922, rs2526920, rs11848135, rs11629210, rs2803967, rs16455, rs757655, rs5809581, rs3057139, rs2247658, rs11625609, rs8005580, rs8010472, rs2526919, rs2803968, rs11623943, rs11623946, rs1557926, rs12434611, rs2526918, rs5809582, rs8008279, rs2803969, rs2526917, rs8008774, rs2803970, rs8010255, rs2997642, rs2803971, rs11313760, rs2803972, rs4903038, rs2526916, rs4903040, rs2803974, rs2803975, rs2803976, rs2803977, rs10139909, rs722945, rs917069, rs2803978, rs2332890, rs1989638, rs10679174, rs2526915, rs2526914, rs11158964, rs11158965, rs740081, rs740080, rs10140582, rs2526913, rs4899437, rs10145678, rs2107686, rs2107685, rs2107684, rs7154188, rs4903041, rs7159637, rs6574089, rs12589753, rs4899438, rs4903042, rs4903043, rs2803980, rs10483848, rs2240344, rs2286068, rs11339669, rs3854, rs11463, rs1383, rs1381, rs1377, rs11158966, rs11158967, rs11158968, rs11158969, rs11158970, rs11158971, rs11849782, rs10137616, rs757572, rs10140566, rs2023480, rs2526911, rs4903044, rs11845162, rs12147210, rs2997643, rs2997644, rs3814867, rs2286067, rs1060570, rs2332891, rs2021736, rs7160830, rs2526909, rs7140963, rs10143667, rs2803981, rs768840, rs5809587, rs2023479, rs4903045, rs4903046, rs5809588, rs10220555, rs2906132, rs11848482, rs10129954, rs2526921, rs4903047, rs11846357, rs10136385, rs12588242, rs11621517, rs2526910, rs2526941, rs2803944, rs12436770, rs10220279, rs10220280, rs11844112, rs12432455, rs8015338, rs3832969, rs9671972, rs9671975, rs7159986, rs11848220, rs5016369, rs1986423, rs2332909, rs8013337, rs11445680, rs4903048, rs12434793, rs2332910, rs4410017, rs4577019, rs2332911, rs4996747, rs10140820, rs12431623, rs6574090, rs8008750, rs11627420, rs10150185, rs10150218, rs9646164, rs6574091, rs2332912, rs7155359, rs2332913, rs4544184, rs4337224, rs2332914, rs4280167, rs4903049, rs3742837, rs10139937, rs12434292, rs11620671, rs10140184, rs2332915, rs2332916, rs8012759, rs10149272, rs11158973, rs4903050, rs10666445, rs2536143, rs10638231, rs12431636, rs8005904, rs11621058, rs10133224, rs12433185, rs740974, rs740973, rs740972, rs740971, rs4243642, rs4415952, rs2215589, rs4343211, rs2536142, rs11293340, rs10151620, rs2286840, rs8023089, rs8008009, rs11419089, rs10694676, rs2536141, rs765247, rs7147626, rs10132629, rs4903051, rs11158974, rs1035021, rs6574093, rs4899439, rs7155287, rs7154402, rs7154781, rs6574094, rs10132242, rs10146959, rs10147466, rs11626411, rs4899440, rs10144553, rs11627663, rs11627799, rs11851733, rs10140317, rs8007375, rs4899441, rs11158975, rs11419607, rs2109793, rs8023156, rs10140579, rs7148199, rs7146916, rs1990439, rs6574095, rs10140037, rs8007249, rs1990438, rs1990437, rs10146484, rs11627333, rs7155802, rs2109792, rs11429363, rs8004210, rs2098194, rs2109791, rs11381729, rs1160094, rs11628051, rs10136771, rs10139903, rs4903053, rs3742836, rs3742835, rs8003233, rs11621588, rs740981, rs8019492, rs8019644, rs8019646, rs8019653, rs11450794, rs11348193, rs11450793, rs11282735, rs2191823, rs12232220, rs11158976, rs4903054, rs11846755, rs12431988, rs12100526, rs11622568, rs9671230, rs12147487, rs4903055, rs12147515, rs11625092, rs4899442, rs2052146, rs10220553, rs10220565, rs2332917, rs7158910, rs8015749, rs8006812, rs8008338, rs2052145, rs2052144, rs10146692, rs11627305, rs2079989, rs8018881, rs4561387, rs11622025, rs740980, rs12433250, rs5809590, rs758915, rs758914, rs7154229, rs12437188, rs7159108, rs4903058, rs4899443, rs11848907, rs12432148, rs12435078, rs6574096, rs11158977, rs11629434, rs4378563, rs2098195, rs4633653, rs7148350, rs740979, rs740978, rs740977, rs740976, rs4903059, rs4903060, rs11852056, rs9635257, rs9635258, rs9635259, rs4899444, rs12435382, rs12435412, rs11627381, rs2052143, rs2052142, rs2052141, rs8021035, rs11158978, rs11621216, rs10130873, rs11621358, rs758913, rs11622602, rs10136931, rs740975, rs747987, rs11623819, rs12434445, rs8003375, rs10143596, rs12435321, rs12435401, rs8010609, rs11158979, rs11158980, rs11627524, rs1126160, rs10136074, rs4903061, rs10665398, rs6574097, rs9671654, rs10140024, rs10142421, rs10142593, rs11423372, rs5809592, rs2332918, rs2332919, rs8007348, rs1990443, rs8007690, rs3937455, rs8012823, rs4899445, rs4903062, rs973963, rs10149962, rs8003449, rs11620775, rs8009089, rs8008967, rs12050132, rs10133018, rs1990442, rs1990441, rs8015833, rs1990440, rs4903063, rs10139810, rs4903064, rs2159715, rs2109795, rs2159714, rs11623107, rs7152005, rs7152489, rs4479167, rs4606655, rs4606656, rs4489943, rs7142642, rs8006233, rs8007559, rs8006156, rs1468662, rs11627048, rs6574098, rs12433760, rs12433780, rs12434506, rs12434673, rs12431400, rs12431384, rs4903067, rs2332920, rs2215591, rs12433064, rs12436263, rs12433097, rs12433184, rs8015900, rs11296981, rs11344025, rs11464204, rs11441172, rs11381807, rs10873251, rs2109794, rs10873252, rs4520784, rs2877820, rs2877821, rs4569195, rs11628905, rs2191822, rs2191821, rs11464689, rs12431959, rs4903068, rs1544579, rs7155879, rs12433603, rs11351432, rs11448438, rs4243643, rs4140952, rs8005372, rs8004109, rs8008398, rs8009692, rs2332921, rs12050320, rs12050323, rs8010316, rs7154293, rs12147969, rs2215590, rs4265749, rs1004552, rs4307892, rs12431973, rs12431975, rs767874, rs11628597, rs10129371, rs4903069, rs4903070, rs4903071, rs11622224, rs10459455, rs9323577, rs10624648, rs3058953, rs11158981, rs11158982, rs11158983, rs1860750, rs1860749, rs1860748, rs1860747, rs11419679, rs8011777, rs6574099, rs8010957, rs11626895, rs10151431, rs4903072, rs4589489, rs9671327, rs4899446, rs10144501, rs5809594, rs720317, rs8014316, rs11158984, rs6420906, rs8004055, rs12434800, rs4243644, rs4899447, rs4903073, rs11848634, rs4899448, rs10131564, rs10134150, rs763388, rs11845938, rs11845946, rs11845915, rs10137463, rs6574100, rs7140344, rs10646889, rs7146287, rs5809595, rs1035099, rs7159877, rs7142579, rs12431762, rs12431764, rs10647999, rs6574101, rs6574102, rs1861162, rs12432972, rs10146134, rs10146616, rs10146769, rs8018936, rs10483849, rs2160137, rs2192595, rs2192594, rs11271695, rs10747301, rs12050363, rs12050368, rs12432949, rs7401375, rs8019682, rs8021248, rs11158985, rs10483850, rs8010875, rs11626844, rs982972, rs7161198, rs7160347, rs8007139, rs8014483, rs12437072, rs8004767, rs12588830, rs7158449, rs6574103, rs8020478, rs4903077, rs8012359, rs4899449, rs10690289, rs6574104, rs2110552, rs8008256, rs759283, rs4999177, rs2333006, rs8006178, rs11158986, rs7150625, rs8007768, rs8007058, position 284742 of SEQ ID NO: 6, rs2215901, rs3814866, rs3814864, and rs10605948. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, and rs10605948. At these positions in SEQ ID NO: 6, a thymine at position 17641, a thymine at position 19527, a thymine at position 40889, an adenine at position 44877, a cytosine at position 75061, a thymine at position 86006, a cytosine at position 106988, a guanine at position 122783, a cytosine at position 125329, an adenine at position 127544, a cytosine at position 131734, a cytosine at position 137499, an adenine at position 139319, a guanine at position 147479, a guanine at position 150798, a guanine at position 160835, a guanine at position 163447, a guanine at position 164377, a cytosine at position 171972, a guanine at position 173467, a thymine at position 177780, a guanine at position 179608, a thymine at position 179808, a cytosine at position 180041, a guanine at position 181420, a guanine at position 182248, a guanine at position 185633, a guanine at position 188352, a thymine at position 189444, a cytosine at position 196415, a cytosine at position 196417, an adenine at position 196621, a guanine at position 197612, a cytosine at position 197854, a guanine at position 201045, a cytosine at position 205135, a thymine at position 205269, a thymine at position 205323, an adenine at position 205364, an adenine at position 206786, a guanine at position 206796, a thymine at position 209750, a guanine at position 209817, a guanine at position 211659, a thymine at position 211757, an adenine at position 213029, a guanine at position 213095, a cytosine at position 214247, a cytosine at position 214807, a guanine at position 217143, a guanine at position 217725, a thymine at position 218890, a thymine at position 222234, an adenine at position 222458, an adenine at position 222749, a thymine at position 227815, an adenine at position 233670, a cytosine at position 233702, a guanine at position 237317, a thymine at position 242360, an adenine at position 243355, an adenine at position 251858, a guanine at position 267130, a cytosine at position 273399, a guanine at position 277166, and a deletion at positions 250079-250082, in particular were associated with risk of breast cancer.


In the LOC145197 locus, these included polymorphic variants at positions selected from the group consisting of rs2895907, rs2401019, rs2401020, rs2401021, rs1999611, rs1999610, rs1999609, rs2275016, rs2275015, rs3818772, rs10149458, rs7142383, rs11343023, rs11160641, rs12586334, rs10142208, rs7493230, rs5811036, rs10151926, rs12435354, rs7151007, rs11160642, rs11160643, rs11626687, rs4906112, rs8016071, rs11623698, rs7401628, rs8015995, rs10873526, rs11160644, rs10134252, rs1959030, rs9707396, rs2401022, rs4622448, rs10141019, rs10141096, rs11621063, rs12434632, rs12100901, rs12434655, rs9944103, rs7153189, rs7158860, rs12437080, rs11851768, rs12431943, rs4309341, rs4329858, rs10690268, rs2401023, rs1054745, rs8019453, rs12431510, rs7141067, rs12431547, rs7142316, rs1959029, rs1959028, rs11376292, rs11376755, rs7145420, rs8013347, rs2144070, rs11850135, rs11850138, rs1955617, rs11621899, rs4900508, rs4906116, rs4906117, rs2235972, rs2235973, rs2235974, rs2235975, rs7149416, rs11850809, rs10140476, rs12437309, rs6575852, rs4906118, rs11428825, rs11450744, rs1999612, rs1889368, rs1889367, rs1889366, rs3077388, rs1889365, rs1955615, rs1569807, rs2064491, rs2064492, rs761532, rs1955616, rs2144065, rs2144066, rs2895908, rs2401043, rs1007904, rs3891113, rs3891114, rs730812, rs1884068, and rs1884069. Polymorphic variants at the following positions in particular were associated with an increased risk of breast cancer: rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908. At these positions in SEQ ID NO: 7, a guanine at position 41414, an adenine at position 42821, an adenine at position 46344, a cytosine at position 46669, an adenine at position 47293, a guanine at position 49821, a thymine at position 49875, a thymine at position 51912, a cytosine at position 55799, a cytosine at position 55995, an adenine at position 56042, and an adenine at position 75221, in particular were associated with risk of breast cancer.


Based in part upon analyses summarized in FIGS. 1A-1G, regions with significant association have been identified in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 regions associated with increased risk of breast cancer. Any polymorphic variants associated with an increased risk of breast cancer in a region of significant association can be utilized for embodiments described herein. The following reports such a region, where “begin” and “end” designate the boundaries of the region according to chromosome positions within NCBI's Genome Build 34. For example, a region spanning positions 184215647 to 184249849 in the KIAA0861 locus was significantly associated with an increased risk of breast cancer.

rs #RegionRegion of AssociationDistance4237HT014 region2354535123622196768452001449KIAA0861184215647184249849342021541998MAPK10873860188744287456856673478NUMA171423896715317131078171054745LOC1451979989556499929371338071990440DPF3710783277134331626498911549918ICAM1,4,5102315421026816936627


The embodiments described hereafter may be directed to any of the polymorphic variants described herein. Sometimes, embodiments are directed to any of the polymorphic variants described herein with the proviso that the embodiments are not directed to a polymorphic variant at one or more positions selected from the group consisting of rs11549918, rs1541998, rs2001449, rs673478, rs4237, rs1990440 and rs1054745.


Additional Polymorphic Variants Associated with Breast Cancer


Also provided is a method for identifying polymorphic variants proximal to an incident, founder polymorphic variant associated with breast cancer. Thus, featured herein are methods for identifying a polymorphic variation associated with breast cancer that is proximal to an incident polymorphic variation associated with breast cancer, which comprises identifying a polymorphic variant proximal to the incident polymorphic variant associated with breast cancer, where the incident polymorphic variant is in a nucleotide sequence set forth in SEQ ID NO: 1-7. The nucleotide sequence often comprises a polynucleotide sequence selected from the group consisting of (a) a nucleotide sequence set forth in SEQ ID NO: 1-7; (b) a nucleotide sequence which encodes a polypeptide having an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7; (c) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7 or a nucleotide sequence about 90% or more identical to the nucleotide sequence set forth in SEQ ID NO: 1-7; and (d) a fragment of a nucleotide sequence of (a), (b), or (c), often a fragment that includes a polymorphic site associated with breast cancer. The presence or absence of an association of the proximal polymorphic variant with breast cancer then is determined using a known association method, such as a method described in the Examples hereafter. In an embodiment, the incident polymorphic variant is described in SEQ ID NO: 1-7. In another embodiment, the proximal polymorphic variant identified sometimes is a publicly disclosed polymorphic variant, which for example, sometimes is published in a publicly available database. In other embodiments, the polymorphic variant identified is not publicly disclosed and is discovered using a known method, including, but not limited to, sequencing a region surrounding the incident polymorphic variant in a group of nucleic acid samples. Thus, multiple polymorphic variants proximal to an incident polymorphic variant are associated with breast cancer using this method.


The proximal polymorphic variant often is identified in a region surrounding the incident polymorphic variant. In certain embodiments, this surrounding region is about 50 kb flanking the first polymorphic variant (e.g. about 50 kb 5′ of the first polymorphic variant and about 50 kb 3′ of the first polymorphic variant), and the region sometimes is composed of shorter flanking sequences, such as flanking sequences of about 40 kb, about 30 kb, about 25 kb, about 20 kb, about 15 kb, about 10 kb, about 7 kb, about 5 kb, or about 2 kb 5′ and 3′ of the incident polymorphic variant. In other embodiments, the region is composed of longer flanking sequences, such as flanking sequences of about 55 kb, about 60 kb, about 65 kb, about 70 kb, about 75 kb, about 80 kb, about 85 kb, about 90 kb, about 95 kb, or about 100 kb 5′ and 3′ of the incident polymorphic variant.


In certain embodiments, polymorphic variants associated with breast cancer are identified iteratively. For example, a first proximal polymorphic variant is associated with breast cancer using the methods described above and then another polymorphic variant proximal to the first proximal polymorphic variant is identified (e.g., publicly disclosed or discovered) and the presence or absence of an association of one or more other polymorphic variants proximal to the first proximal polymorphic variant with breast cancer is determined.


The methods described herein are useful for identifying or discovering additional polymorphic variants that may be used to further characterize a gene, region or loci associated with a condition, a disease (e.g., breast cancer), or a disorder. For example, allelotyping or genotyping data from the additional polymorphic variants may be used to identify a functional mutation or a region of linkage disequilibrium.


In certain embodiments, polymorphic variants identified or discovered within a region comprising the first polymorphic variant associated with breast cancer are genotyped using the genetic methods and sample selection techniques described herein, and it can be determined whether those polymorphic variants are in linkage disequilibrium with the first polymorphic variant. The size of the region in linkage disequilibrium with the first polymorphic variant also can be assessed using these genotyping methods. Thus, provided herein are methods for determining whether a polymorphic variant is in linkage disequilibrium with a first polymorphic variant associated with breast cancer, and such information can be used in prognosis methods described herein.


Isolated ICAM, MAPK10, KIAA0861. NUMA1. GALE, DPF3 and LOC145197 Nucleic Acids


Featured herein are isolated ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acids, which include the nucleic acid having the nucleotide sequence of SEQ ID NO: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or 11, nucleic acid variants, and substantially identical nucleic acids of the foregoing. Nucleotide sequences of the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acids sometimes are referred to herein as “ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequences.” An “ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid variant” refers to one allele that may have one or more different polymorphic variations as compared to another allele in another subject or the same subject. A polymorphic variation in the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid variant may be represented on one or both strands in a double-stranded nucleic acid or on one chromosomal complement (heterozygous) or both chromosomal complements (homozygous).


As used herein, the term “nucleic acid” includes DNA molecules (e.g., a complementary DNA (cDNA) and genomic DNA (gDNA)) and RNA molecules (e.g., mRNA, rRNA, and tRNA) and analogs of DNA or RNA, for example, by use of nucleotide analogs. The nucleic acid molecule can be single-stranded and it is often double-stranded. The term “isolated or purified nucleic acid” refers to nucleic acids that are separated from other nucleic acids present in the natural source of the nucleic acid. For example, with regard to genomic DNA, the term “isolated” includes nucleic acids which are separated from the chromosome with which the genomic DNA is naturally associated. An “isolated” nucleic acid is often free of sequences which naturally flank the nucleic acid (i.e., sequences located at the 5′ and/or 3′ ends of the nucleic acid) in the genomic DNA of the organism from which the nucleic acid is derived. For example, in various embodiments, the isolated nucleic acid molecule can contain less than about 5 kb, 4 kb, 3 kb, 2 kb, 1 kb, 0.5 kb or 0.1 kb of 5′ and/or 3′ nucleotide sequences which flank the nucleic acid molecule in genomic DNA of the cell from which the nucleic acid is derived. Moreover, an “isolated” nucleic acid molecule, such as a cDNA molecule, can be substantially free of other cellular material, or culture medium when produced by recombinant techniques, or substantially free of chemical precursors or other chemicals when chemically synthesized. As used herein, the term “ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene” refers to a nucleotide sequence that encodes a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide.


Also included herein are nucleic acid fragments. These fragments typically are a nucleotide sequence identical to a nucleotide sequence in SEQ ID NO: 1-17, a nucleotide sequence substantially identical to a nucleotide sequence in SEQ ID NO: 1-17, or a nucleotide sequence that is complementary to the foregoing. The nucleic acid fragment may be identical, substantially identical or homologous to a nucleotide sequence in an exon or an intron in SEQ ID NO: 1-7, and may encode a domain or part of a domain or motif of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Sometimes, the fragment will comprises the polymorphic variation described herein as being associated with breast cancer. The nucleic acid fragment sometimes is 50, 100, or 200 or fewer base pairs in length, and is sometimes about 300, 400, 500, 600, 700, 800, 900, 1000, 1100, 1200, 1300, 1400, 1500, 1600, 1700, 1800, 1900, 2000, 2100, 2200, 2300, 2400, 2500, 2600, 2700, 2800, 2900, 3000, 3100, 3200, 3300, 3400, 3500, 3600, 3800, 4000, 5000, 6000, 7000, 8000, 9000, 10000, 15000, 20000, 30000, 40000, 50000, 60000, 70000, 80000, 90000, 100000, 110000, 120000, 130000, 140000, 150000 or 160000 base pairs in length. A nucleic acid fragment complementary to a nucleotide sequence identical or substantially identical to the nucleotide sequence of SEQ ID NO: 1-17 and hybridizes to such a nucleotide sequence under stringent conditions often is referred to as a “probe.” Nucleic acid fragments often include one or more polymorphic sites, or sometimes have an end that is adjacent to a polymorphic site as described hereafter.


An example of a nucleic acid fragment is an oligonucleotide. As used herein, the term “oligonucleotide” refers to a nucleic acid comprising about 8 to about 50 covalently linked nucleotides, often comprising from about 8 to about 35 nucleotides, and more often from about 10 to about 25 nucleotides. The backbone and nucleotides within an oligonucleotide may be the same as those of naturally occurring nucleic acids, or analogs or derivatives of naturally occurring nucleic acids, provided that oligonucleotides having such analogs or derivatives retain the ability to hybridize specifically to a nucleic acid comprising a targeted polymorphism. Oligonucleotides described herein may be used as hybridization probes or as components of prognostic or diagnostic assays, for example, as described herein.


Oligonucleotides are typically synthesized using standard methods and equipment, such as the ABI 3900 High Throughput DNA Synthesizer and the EXPEDITE™ 8909 Nucleic Acid Synthesizer, both of which are available from Applied Biosystems (Foster City, Calif.). Analogs and derivatives are exemplified in U.S. Pat. Nos. 4,469,863; 5,536,821; 5,541,306; 5,637,683; 5,637,684; 5,700,922; 5,717,083; 5,719,262; 5,739,308; 5,773,601; 5,886,165; 5,929,226; 5,977,296; 6,140,482; WO 00/56746; WO 01/14398, and related publications. Methods for synthesizing oligonucleotides comprising such analogs or derivatives are disclosed, for example, in the patent publications cited above and in U.S. Pat. Nos. 5,614,622; 5,739,314; 5,955,599; 5,962,674; 6,117,992; in WO 00/75372; and in related publications.


Oligonucleotides also may be linked to a second moiety. The second moiety may be an additional nucleotide sequence such as a tail sequence (e.g., a polyadenosine tail), an adapter sequence (e.g., phage M13 universal tail sequence), and others. Alternatively, the second moiety may be a non-nucleotide moiety such as a moiety which facilitates linkage to a solid support or a label to facilitate detection of the oligonucleotide. Such labels include, without limitation, a radioactive label, a fluorescent label, a chemiluminescent label, a paramagnetic label, and the like. The second moiety may be attached to any position of the oligonucleotide, provided the oligonucleotide can hybridize to the nucleic acid comprising the polymorphism.


Uses for Nucleic Acid Sequences


Nucleic acid coding sequences depicted in SEQ ID NO: 1-17 may be used for diagnostic purposes for detection and control of polypeptide expression. Also, included herein are oligonucleotide sequences such as antisense RNA, small-interfering RNA (siRNA) and DNA molecules and ribozymes that function to inhibit translation of a polypeptide. Antisense techniques and RNA interference techniques are known in the art and are described herein.


Ribozymes are enzymatic RNA molecules capable of catalyzing the specific cleavage of RNA. The mechanism of ribozyme action involves sequence specific hybridization of the ribozyme molecule to complementary target RNA, followed by a endonucleolytic cleavage. Ribozymes may be engineered hammerhead motif ribozyme molecules that specifically and efficiently catalyze endonucleolytic cleavage of RNA sequences corresponding to or complementary to the nucleotide sequences set forth in SEQ ID NO: 1-17. Specific ribozyme cleavage sites within any potential RNA target are initially identified by scanning the target molecule for ribozyme cleavage sites which include the following sequences, GUA, GUU and GUC. Once identified, short RNA sequences of between fifteen (15) and twenty (20) ribonucleotides corresponding to the region of the target gene containing the cleavage site may be evaluated for predicted structural features such as secondary structure that may render the oligonucleotide sequence unsuitable. The suitability of candidate targets may also be evaluated by testing their accessibility to hybridization with complementary oligonucleotides, using ribonuclease protection assays.


Antisense RNA and DNA molecules, siRNA and ribozymes may be prepared by any method known in the art for the synthesis of RNA molecules. These include techniques for chemically synthesizing oligodeoxyribonucleotides well known in the art such as solid phase phosphoramidite chemical synthesis. Alternatively, RNA molecules may be generated by in vitro and in vivo transcription of DNA sequences encoding the antisense RNA molecule. Such DNA sequences may be incorporated into a wide variety of vectors which incorporate suitable RNA polymerase promoters such as the T7 or SP6 polymerase promoters. Alternatively, antisense cDNA constructs that synthesize antisense RNA constitutively or inducibly, depending on the promoter used, can be introduced stably into cell lines.


DNA encoding a polypeptide also may have a number of uses for the diagnosis of diseases, including breast cancer, resulting from aberrant expression of a target gene described herein. For example, the nucleic acid sequence may be used in hybridization assays of biopsies or autopsies to diagnose abnormalities of expression or function (e.g., Southern or Northern blot analysis, in situ hybridization assays).


In addition, the expression of a polypeptide during embryonic development may also be determined using nucleic acid encoding the polypeptide. As addressed, infra, production of functionally impaired polypeptide can be the cause of various disease states, such as breast cancer. In situ hybridizations using polynucleotide probes may be employed to predict problems related to breast cancer. Further, as indicated, infra, administration of human active polypeptide, recombinantly produced as described herein, may be used to treat disease states related to functionally impaired polypeptide. Alternatively, gene therapy approaches may be employed to remedy deficiencies of functional polypeptide or to replace or compete with dysfunctional polypeptide.


Expression Vectors. Host Cells, and Genetically Engineered Cells


Provided herein are nucleic acid vectors, often expression vectors, which contain a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid. As used herein, the term “vector” refers to a nucleic acid molecule capable of transporting another nucleic acid to which it has been linked and can include a plasmid, cosmid, or viral vector. The vector can be capable of autonomous replication or it can integrate into a host DNA. Viral vectors may include replication defective retroviruses, adenoviruses and adeno-associated viruses for example.


A vector can include a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid in a form suitable for expression of the nucleic acid in a host cell. The recombinant expression vector typically includes one or more regulatory sequences operatively linked to the nucleic acid sequence to be expressed. The term “regulatory sequence” includes promoters, enhancers and other expression control elements (e.g., polyadenylation signals). Regulatory sequences include those that direct constitutive expression of a nucleotide sequence, as well as tissue-specific regulatory and/or inducible sequences. The design of the expression vector can depend on such factors as the choice of the host cell to be transformed, the level of expression of polypeptide desired, and the like. Expression vectors can be introduced into host cells to produce ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides, including fusion polypeptides, encoded by ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acids.


Recombinant expression vectors can be designed for expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides in prokaryotic or eukaryotic cells. For example, ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides can be expressed in E. coli, insect cells (e.g., using baculovirus expression vectors), yeast cells, or mammalian cells. Suitable host cells are discussed further in Goeddel, Gene Expression Technology: Methods in Enzymology 185, Academic Press, San Diego, Calif. (1990). Alternatively, the recombinant expression vector can be transcribed and translated in vitro, for example using T7 promoter regulatory sequences and T7 polymerase.


Expression of polypeptides in prokaryotes is most often carried out in E. coli with vectors containing constitutive or inducible promoters directing the expression of either fusion or non-fusion polypeptides. Fusion vectors add a number of amino acids to a polypeptide encoded therein, usually to the amino terminus of the recombinant polypeptide. Such fusion vectors typically serve three purposes: 1) to increase expression of recombinant polypeptide; 2) to increase the solubility of the recombinant polypeptide; and 3) to aid in the purification of the recombinant polypeptide by acting as a ligand in affinity purification. Often, a proteolytic cleavage site is introduced at the junction of the fusion moiety and the recombinant polypeptide to enable separation of the recombinant polypeptide from the fusion moiety subsequent to purification of the fusion polypeptide. Such enzymes, and their cognate recognition sequences, include Factor Xa, thrombin and enterokinase. Typical fusion expression vectors include pGEX (Pharmacia Biotech Inc; Smith & Johnson, Gene 67: 3140 (1988)), pMAL (New England Biolabs, Beverly, Mass.) and pRIT5 (Pharmacia, Piscataway, N.J.) which fuse glutathione S-transferase (GST), maltose E binding polypeptide, or polypeptide A, respectively, to the target recombinant polypeptide.


Purified fusion polypeptides can be used in screening assays and to generate antibodies specific for ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides. In a therapeutic embodiment, fusion polypeptide expressed in a retroviral expression vector is used to infect bone marrow cells that are subsequently transplanted into irradiated recipients. The pathology of the subject recipient is then examined after sufficient time has passed (e.g., six (6) weeks).


Expressing the polypeptide in host bacteria with an impaired capacity to proteolytically cleave the recombinant polypeptide is often used to maximize recombinant polypeptide expression (Gottesman, S., Gene Expression Technology: Methods in Enzymology, Academic Press, San Diego, Calif. 185: 119-128 (1990)). Another strategy is to alter the nucleotide sequence of the nucleic acid to be inserted into an expression vector so that the individual codons for each amino acid are those preferentially utilized in E. coli (Wada et al., Nucleic Acids Res. 20: 2111-2118 (1992)). Such alteration of nucleotide sequences can be carried out by standard DNA synthesis techniques.


When used in mammalian cells, the expression vector's control functions are often provided by viral regulatory elements. For example, commonly used promoters are derived from polyoma, Adenovirus 2, cytomegalovirus and Simian Virus 40. Recombinant mammalian expression vectors are often capable of directing expression of the nucleic acid in a particular cell type (e.g., tissue-specific regulatory elements are used to express the nucleic acid). Non-limiting examples of suitable tissue-specific promoters include an albumin promoter (liver-specific; Pinkert et al., Genes Dev. 1: 268-277 (1987)), lymphoid-specific promoters (Calame & Eaton, Adv. Immunol. 43: 235-275 (1988)), promoters of T cell receptors (Winoto & Baltimore, EMBO J. 8: 729-733 (1989)) promoters of immunoglobulins (Banerji et al., Cell 33: 729-740 (1983); Queen & Baltimore, Cell 33: 741-748 (1983)), neuron-specific promoters (e.g., the neurofilament promoter; Byrne & Ruddle, Proc. Natl. Acad. Sci. USA 86: 5473-5477 (1989)), pancreas-specific promoters (Edlund et al., Science 230: 912-916 (1985)), and mammary gland-specific promoters (e.g., milk whey promoter; U.S. Pat. No. 4,873,316 and European Application Publication No. 264,166). Developmentally-regulated promoters are sometimes utilized, for example, the murine hox promoters (Kessel & Gruss, Science 249: 374-379 (1990)) and the a-fetopolypeptide promoter (Campes & Tilghman, Genes Dev. 3: 537-546 (1989)).


A ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid may also be cloned into an expression vector in an antisense orientation. Regulatory sequences (e.g., viral promoters and/or enhancers) operatively linked to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid cloned in the antisense orientation can be chosen for directing constitutive, tissue specific or cell type specific expression of antisense RNA in a variety of cell types. Antisense expression vectors can be in the form of a recombinant plasmid, phagemid or attenuated virus. For a discussion of the regulation of gene expression using antisense genes see Weintraub et al., Antisense RNA as a molecular tool for genetic analysis, Reviews—Trends in Genetics, Vol. 1(1) (1986).


Also provided herein are host cells that include a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid within a recombinant expression vector or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid sequence fragments which allow it to homologously recombine into a specific site of the host cell genome. The terms “host cell” and “recombinant host cell” are used interchangeably herein. Such terms refer not only to the particular subject cell but rather also to the progeny or potential progeny of such a cell. Because certain modifications may occur in succeeding generations due to either mutation or environmental influences, such progeny may not, in fact, be identical to the parent cell, but are still included within the scope of the term as used herein. A host cell can be any prokaryotic or eukaryotic cell. For example, a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide can be expressed in bacterial cells such as E. coli, insect cells, yeast or mammalian cells (such as Chinese hamster ovary cells (CHO) or COS cells). Other suitable host cells are known to those skilled in the art.


Vectors can be introduced into host cells via conventional transformation or transfection techniques. As used herein, the terms “transformation” and “transfection” are intended to refer to a variety of art-recognized techniques for introducing foreign nucleic acid (e.g., DNA) into a host cell, including calcium phosphate or calcium chloride co-precipitation, transduction/infection, DEAE-dextran-mediated transfection, lipofection, or electroporation.


A host cell provided herein can be used to produce (i.e., express) a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Accordingly, further provided are methods for producing a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide using the host cells described herein. In one embodiment, the method includes culturing host cells into which a recombinant expression vector encoding a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide has been introduced in a suitable medium such that a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide is produced. In another embodiment, the method further includes isolating a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide from the medium or the host cell.


Also provided are cells or purified preparations of cells which include a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene, or which otherwise misexpress ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Cell preparations can consist of human or non-human cells, e.g., rodent cells, e.g., mouse or rat cells, rabbit cells, or pig cells. In certain embodiments, the cell or cells include a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene (e.g., a heterologous form of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 such as a human gene expressed in non-human cells). The ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene can be misexpressed, e.g., overexpressed or underexpressed. In other embodiments, the cell or cells include a gene which misexpress an endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide (e.g., expression of a gene is disrupted, also known as a knockout). Such cells can serve as a model for studying disorders which are related to mutated or mis-expressed ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 alleles or for use in drug screening. Also provided are human cells (e.g., a hematopoietic stem cells) transformed with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid.


Also provided are cells or a purified preparation thereof (e.g., human cells) in which an endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid is under the control of a regulatory sequence that does not normally control the expression of the endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene. The expression characteristics of an endogenous gene within a cell (e.g., a cell line or microorganism) can be modified by inserting a heterologous DNA regulatory element into the genome of the cell such that the inserted regulatory element is operably linked to the endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene. For example, an endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene (e.g., a gene which is “transcriptionally silent,” not normally expressed, or expressed only at very low levels) may be activated by inserting a regulatory element which is capable of promoting the expression of a normally expressed gene product in that cell. Techniques such as targeted homologous recombinations, can be used to insert the heterologous DNA as described in, e.g., Chappel, U.S. Pat. No. 5,272,071; WO 91/06667, published on May 16, 1991.


Transgenic Animals


Non-human transgenic animals that express a heterologous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide (e.g., expressed from a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid isolated from another organism) can be generated. Such animals are useful for studying the function and/or activity of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide and for identifying and/or evaluating modulators of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid and ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide activity. As used herein, a “transgenic animal” is a non-human animal such as a mammal (e.g., a non-human primate such as chimpanzee, baboon, or macaque; an ungulate such as an equine, bovine, or caprine; or a rodent such as a rat, a mouse, or an Israeli sand rat), a bird (e.g., a chicken or a turkey), an amphibian (e.g., a frog, salamander, or newt), or an insect (e.g., Drosophila melanogaster), in which one or more of the cells of the animal includes a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene. A transgene is exogenous DNA or a rearrangement (e.g., a deletion of endogenous chromosomal DNA) that is often integrated into or occurs in the genome of cells in a transgenic animal. A transgene can direct expression of an encoded gene product in one or more cell types or tissues of the transgenic animal, and other transgenes can reduce expression (e.g., a knockout). Thus, a transgenic animal can be one in which an endogenous ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene has been altered by homologous recombination between the endogenous gene and an exogenous DNA molecule introduced into a cell of the animal (e.g., an embryonic cell of the animal) prior to development of the animal.


Intronic sequences and polyadenylation signals can also be included in the transgene to increase expression efficiency of the transgene. One or more tissue-specific regulatory sequences can be operably linked to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene to direct expression of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide to particular cells. A transgenic founder animal can be identified based upon the presence of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 transgene in its genome and/or expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA in tissues or cells of the animals. A transgenic founder animal can then be used to breed additional animals carrying the transgene. Moreover, transgenic animals carrying a transgene encoding a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide can further be bred to other transgenic animals carrying other transgenes.


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides can be expressed in transgenic animals or plants by introducing, for example, a nucleic acid encoding the polypeptide into the genome of an animal. In certain embodiments the nucleic acid is placed under the control of a tissue specific promoter, e.g., a milk or egg specific promoter, and recovered from the milk or eggs produced by the animal. Also included is a population of cells from a transgenic animal.


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 Polypeptides


Featured herein are isolated ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides, which include polypeptides having amino acid sequences set forth in SEQ ID NO: 18-27, and substantially identical polypeptides thereof. Such polypeptides sometimes are proteins or peptides. A ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide is a polypeptide encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid, where one nucleic acid can encode one or more different polypeptides. An “isolated” or “purified” polypeptide or protein is substantially free of cellular material or other contaminating proteins from the cell or tissue source from which the protein is derived, or substantially free from chemical precursors or other chemicals when chemically synthesized. In one embodiment, the language “substantially free” means preparation of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide variant having less than about 30%, 20%, 10% and sometimes 5% (by dry weight), of non-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide (also referred to herein as a “contaminating protein”), or of chemical precursors or non-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 chemicals. When the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or a biologically active portion thereof is recombinantly produced, it is also often substantially free of culture medium, specifically, where culture medium represents less than about 20%, sometimes less than about 10%, and often less than about 5% of the volume of the polypeptide preparation. Isolated or purified ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide preparations are sometimes 0.01 milligrams or more or 0.1 milligrams or more, and often 1.0 milligrams or more and 10 milligrams or more in dry weight. In specific embodiments, a polypeptide comprises leucine at amino acid position 359 in SEQ ID NO: 23, a leucine at amino acid position 378 in SEQ ID NO: 23, an alanine at amino acid position 857 in SEQ ID NO: 23, an alanine at position 902 in SEQ ID NO: 23 a proline at amino acid position 352 in SEQ ID NO: 20 and/or an alanine at amino acid position 348 in SEQ ID NO: 20. A polypeptide encoded by a nucleotide sequence in a NUMA1 region (e.g., NUMA1 polypeptide (e.g., SEQ ID NO: 24), FLJ20625 polypeptide (e.g., accession no. NM0L7907) and IL18BP polypeptide (e.g., accession nos. NM173042, NM173043 or NM173044)) sometimes includes one or more of the following amino acid variations: a leucine at a position corresponding to amino acid position 73 in an NM017907 polypeptide, a glutamine at a position corresponding to amino acid position 772 in SEQ ID NO: 24, a glutamate at a position corresponding to amino acid position 873 in SEQ ID NO: 24, a glycine at a position corresponding to amino acid position 794 in SEQ ID NO: 24, an arginine at a position corresponding to amino acid position 89 in an IL18BP polypeptide, an argenine at a position corresponding to amino acid position 119 in an IL18BP polypeptide, a cysteine at a position corresponding to amino acid position 195 in a IL18BP polypeptide, an alanine at a position corresponding to amino acid position 2049 in SEQ ID NO: 24, a methionine at a position corresponding to amino acid position 1825 in SEQ ID NO: 24, and a glycine at a position corresponding to amino acid position 978 in SEQ ID NO: 24. A polypeptide encoded by a nucleotide sequence in a GALE region (e.g., GALE (e.g., SEQ ID NO: 25), TCEB3 (e.g., accession no. NM003198) and HT014 (e.g., accession no. NM020362)) sometimes includes one or more of the following amino acid variations: a valine at a position corresponding to amino acid position 298 in a TCEB3 polypeptide, a valine at a position corresponding to amino acid position 490 in a TCEB3 polypeptide, a methionine at a position corresponding to amino acid position 119 in a TCEB3 polypeptide, a glycine at a position corresponding to amino acid position 227 in SEQ ID NO: 25, an aspartate at a position corresponding to amino acid position 231 in SEQ ID NO: 25, an asparagine at a position corresponding to amino acid position 268 in SEQ ID NO: 25, a valine at a position corresponding to amino acid position 283 in SEQ ID NO: 25, a leucine at a position corresponding to amino acid position 215 in SEQ ID NO: 25, a glycine at a position corresponding to amino acid position 235 in SEQ ID NO: 25, a glutamate at a position corresponding to amino acid position 331 in SEQ ID NO: 25, a serine at a position corresponding to amino acid position 191 in a HT014 polypeptide and a tyrosine at a position corresponding to amino acid position 141 in SEQ ID NO: 25.


In another aspect, featured herein are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides and biologically active or antigenic fragments thereof that are useful as reagents or targets in assays applicable to prevention, treatment or diagnosis of breast cancer. In another embodiment, provided herein are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides having a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity or activities.


Further included herein are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide fragments. The polypeptide fragment may be a domain or part of a domain of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. The polypeptide fragment is often 50 or fewer, 100 or fewer, or 200 or fewer amino acids in length, and is sometimes 300, 400, 500, 600, 700, or 900 or fewer amino acids in length. In certain embodiments, the polypeptide fragment comprises, consists essentially of, or consists of, at least 6 consecutive amino acids and not more than 121I consecutive amino acids of SEQ ID NO: 18-27, or the polypeptide fragment comprises, consists essentially of, or consists of, at least 6 consecutive amino acids and not more than 543 consecutive amino acids of SEQ ID NO: 18-27.


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides described herein can be used as immunogens to produce anti-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 antibodies in a subject, to purify ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 ligands or binding partners, and in screening assays to identify molecules which inhibit or enhance the interaction of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 substrate. Full-length ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides and polynucleotides encoding the same may be specifically substituted for a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide fragment or polynucleotide encoding the same in any embodiment described herein.


Substantially identical polypeptides may depart from the amino acid sequences set forth in SEQ ID NO: 18-27 in different manners. For example, conservative amino acid modifications may be introduced at one or more positions in the amino acid sequences of SEQ ID NO: 18-27. A “conservative amino acid substitution” is one in which the amino acid is replaced by another amino acid having a similar structure and/or chemical function. Families of amino acid residues having similar structures and functions are well known. These families include amino acids with basic side chains (e.g., lysine, arginine, histidine), acidic side chains (e.g., aspartic acid, glutamic acid), uncharged polar side chains (e.g., glycine, asparagine, glutamine, serine, threonine, tyrosine, cysteine), nonpolar side chains (e.g., alanine, valine, leucine, isoleucine, proline, phenylalanine, methionine, tryptophan), beta-branched side chains (e.g., threonine, valine, isoleucine) and aromatic side chains (e.g., tyrosine, phenylalanine, tryptophan, histidine). Also, essential and non-essential amino acids may be replaced. A “non-essential” amino acid is one that can be altered without abolishing or substantially altering the biological function of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, whereas altering an “essential” amino acid abolishes or substantially alters the biological function of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Amino acids that are conserved among ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides are typically essential amino acids.


Also, ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides and polypeptide variants may exist as chimeric or fusion polypeptides. As used herein, a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 “chimeric polypeptide” or “fusion polypeptide” includes a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide linked to a non-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. A “non-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide” refers to a polypeptide having an amino acid sequence corresponding to a polypeptide which is not substantially identical to the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, which includes, for example, a polypeptide that is different from the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide and derived from the same or a different organism. The ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide in the fusion polypeptide can correspond to an entire or nearly entire ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or a fragment thereof. The non-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide can be fused to the N-terminus or C-terminus of the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide.


Fusion polypeptides can include a moiety having high affinity for a ligand. For example, the fusion polypeptide can be a GST-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 fusion polypeptide in which the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 sequences are fused to the C-terminus of the GST sequences, or a polyhistidine-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 fusion polypeptide in which the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide is fused at the N- or C-terminus to a string of histidine residues. Such fusion polypeptides can facilitate purification of recombinant ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197. Expression vectors are commercially available that already encode a fusion moiety (e.g., a GST polypeptide), and a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid can be cloned into an expression vector such that the fusion moiety is linked in-frame to the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Further, the fusion polypeptide can be a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide containing a heterologous signal sequence at its N-terminus. In certain host cells (e.g., mammalian host cells), expression, secretion, cellular internalization, and cellular localization of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide can be increased through use of a heterologous signal sequence. Fusion polypeptides can also include all or a part of a serum polypeptide (e.g., an IgG constant region or human serum albumin).


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197polypeptides or fragments thereof can be incorporated into pharmaceutical compositions and administered to a subject in vivo. Administration of these ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides can be used to affect the bioavailability of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 substrate and may effectively increase or decrease ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 biological activity in a cell or effectively supplement dysfunctional or hyperactive ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 fusion polypeptides may be useful therapeutically for the treatment of disorders caused by, for example, (i) aberrant modification or mutation of a gene encoding a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide; (ii) mis-regulation of the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 gene; and (iii) aberrant post-translational modification of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Also, ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides can be used as immunogens to produce anti-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 antibodies in a subject, to purify ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 ligands or binding partners, and in screening assays to identify molecules which inhibit or enhance the interaction of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 substrate.


In addition, polypeptides can be chemically synthesized using techniques known in the art (See, e.g., Creighton, 1983 Proteins. New York, N.Y.: W.H. Freeman and Company; and Hunkapiller et al., (1984) Nature July 12-18; 310(5973): 105-11). For example, a relative short polypeptide fragment can be synthesized by use of a peptide synthesizer. Furthermore, if desired, non-classical amino acids or chemical amino acid analogs can be introduced as a substitution or addition into the fragment sequence. Non-classical amino acids include, but are not limited to, to the D-isomers of the common amino acids, 2,4-diaminobutyric acid, a-amino isobutyric acid, 4-aminobutyric acid, Abu, 2-amino butyric acid, g-Abu, e-Ahx, 6-amino hexanoic acid, Aib, 2-amino isobutyric acid, 3-amino propionic acid, ornithine, norleucine, norvaline, hydroxyproline, sarcosine, citrulline, homocitrulline, cysteic acid, t-butylglycine, t-butylalanine, phenylglycine, cyclohexylalanine, b-alanine, fluoroamino acids, designer amino acids such as b-methyl amino acids, Ca-methyl amino acids, Na-methyl amino acids, and amino acid analogs in general. Furthermore, the amino acid can be D (dextrorotary) or L (levorotary).


Also included are polypeptide fragments which are differentially modified during or after translation, e.g., by glycosylation, acetylation, phosphorylation, amidation, derivatization by known protecting/blocking groups, proteolytic cleavage, linkage to an antibody molecule or other cellular ligand, and the like. Any of numerous chemical modifications may be carried out by known techniques, including but not limited, to specific chemical cleavage by cyanogen bromide, trypsin, chymotrypsin, papain, V8 protease, NaBH4; acetylation, formylation, oxidation, reduction; metabolic synthesis in the presence of tunicamycin; and the like.


Additional post-translational modifications include, for example, N-linked or O-linked carbohydrate chains, processing of N-terminal or C-terminal ends), attachment of chemical moieties to the amino acid backbone, chemical modifications of N-linked or O-linked carbohydrate chains, and addition or deletion of an N-terminal methionine residue as a result of prokaryotic host cell expression. The polypeptide fragments may also be modified with a detectable label, such as an enzymatic, fluorescent, isotopic or affinity label to allow for detection and isolation of the polypeptide.


Also provided are chemically modified polypeptide derivatives that may provide additional advantages such as increased solubility, stability and circulating time of the polypeptide, or decreased immunogenicity. See U.S. Pat. No. 4,179,337. The chemical moieties for derivitization may be selected from water soluble polymers such as polyethylene glycol, ethylene glycol/propylene glycol copolymers, carboxymethylcellulose, dextran, polyvinyl alcohol and the like. The polypeptides may be modified at random positions within the molecule, or at predetermined positions within the molecule and may include one, two, three or more attached chemical moieties.


The polymer may be of any molecular weight, and may be branched or unbranched. For polyethylene glycol, the molecular weight is between about 1 kDa and about 100 kDa (the term “about” indicating that in preparations of polyethylene glycol, some molecules will weigh more, some less, than the stated molecular weight) for ease in handling and manufacturing. Other sizes may be used, depending on the desired therapeutic profile (e.g., the duration of sustained release desired, the effects, if any on biological activity, the ease in handling, the degree or lack of antigenicity and other known effects of the polyethylene glycol to a therapeutic protein or analog).


The polyethylene glycol molecules (or other chemical moieties) should be attached to the polypeptide with consideration of effects on functional or antigenic domains of the polypeptide. There are a number of attachment methods available to those skilled in the art, e.g., EP 0 401 384, herein incorporated by reference (coupling PEG to G-CSF), see also Malik et al. (1992) Exp Hematol. September; 20 (8): 1028-35, reporting pegylation of GM-CSF using tresyl chloride). For example, polyethylene glycol may be covalently bound through amino acid residues via a reactive group, such as, a free amino or carboxyl group. Reactive groups are those to which an activated polyethylene glycol molecule may be bound. The amino acid residues having a free amino group may include lysine residues and the N-terminal amino acid residues; those having a free carboxyl group may include aspartic acid residues, glutamic acid residues and the C-terminal amino acid residue. Sulfhydryl groups may also be used as a reactive group for attaching the polyethylene glycol molecules. A polymer sometimes is attached at an amino group, such as attachment at the N-terminus or lysine group.


One may specifically desire proteins chemically modified at the N-terminus. Using polyethylene glycol as an illustration of the present composition, one may select from a variety of polyethylene glycol molecules (by molecular weight, branching, and the like), the proportion of polyethylene glycol molecules to protein (polypeptide) molecules in the reaction mix, the type of pegylation reaction to be performed, and the method of obtaining the selected N-terminally pegylated protein. The method of obtaining the N-terminally pegylated preparation (i.e., separating this moiety from other monopegylated moieties if necessary) may be by purification of the N-terminally pegylated material from a population of pegylated protein molecules. Selective proteins chemically modified at the N-terminus may be accomplished by reductive alkylation, which exploits differential reactivity of different types of primary amino groups (lysine versus the N-terminal) available for derivatization in a particular protein. Under the appropriate reaction conditions, substantially selective derivatization of the protein at the N-terminus with a carbonyl group containing polymer is achieved.


Substantially Identical Nucleic Acids and Polypeptides


Nucleotide sequences and polypeptide sequences that are substantially identical to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence and the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide sequences encoded by those nucleotide sequences are included herein. The term “substantially identical” as used herein refers to two or more nucleic acids or polypeptides sharing one or more identical nucleotide sequences or polypeptide sequences, respectively. Included are nucleotide sequences or polypeptide sequences that are 55% or more, 60% or more, 65% or more, 70% or more, 75% or more, 80% or more, 85% or more, 90% or more, 95% or more (each often within a 1%, 2%, 3% or 4% variability) or more identical to the nucleotide sequences in SEQ ID NO: 1-17 or the encoded ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide amino acid sequences. One test for determining whether two nucleic acids are substantially identical is to determine the percent of identical nucleotide sequences or polypeptide sequences shared between the nucleic acids or polypeptides.


Calculations of sequence identity are often performed as follows. Sequences are aligned for optimal comparison purposes (e.g., gaps can be introduced in one or both of a first and a second amino acid or nucleic acid sequence for optimal alignment and non-homologous sequences can be disregarded for comparison purposes). The length of a reference sequence aligned for comparison purposes is sometimes 30% or more, 40% or more, 50% or more, often 60% or more, and more often 70% or more, 80% or more, 90% or more, 90% or more, or 100% of the length of the reference sequence. The nucleotides or amino acids at corresponding nucleotide or polypeptide positions, respectively, are then compared among the two sequences. When a position in the first sequence is occupied by the same nucleotide or amino acid as the corresponding position in the second sequence, the nucleotides or amino acids are deemed to be identical at that position. The percent identity between the two sequences is a function of the number of identical positions shared by the sequences, taking into account the number of gaps, and the length of each gap, introduced for optimal alignment of the two sequences.


Comparison of sequences and determination of percent identity between two sequences can be accomplished using a mathematical algorithm. Percent identity between two amino acid or nucleotide sequences can be determined using the algorithm of Meyers & Miller, CABIOS 4: 11-17 (1989), which has been incorporated into the ALIGN program (version 2.0), using a PAM120 weight residue table, a gap length penalty of 12 and a gap penalty of 4. Also, percent identity between two amino acid sequences can be determined using the Needleman & Wunsch, J. Mol. Biol. 48: 444-453 (1970) algorithm which has been incorporated into the GAP program in the GCG software package (available at the http address www.gcg.com), using either a Blossum 62 matrix or a PAM250 matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a length weight of 1, 2, 3, 4, 5, or 6. Percent identity between two nucleotide sequences can be determined using the GAP program in the GCG software package (available at http address www.gcg.com), using a NWSgapdna.CMP matrix and a gap weight of 40, 50, 60, 70, or 80 and a length weight of 1, 2, 3, 4, 5, or 6. A set of parameters often used is a Blossum 62 scoring matrix with a gap open penalty of 12, a gap extend penalty of 4, and a frameshift gap penalty of 5.


Another manner for determining if two nucleic acids are substantially identical is to assess whether a polynucleotide homologous to one nucleic acid will hybridize to the other nucleic acid under stringent conditions. As use herein, the term “stringent conditions” refers to conditions for hybridization and washing. Stringent conditions are known to those skilled in the art and can be found in Current Protocols in Molecular Biology, John Wiley & Sons, N.Y., 6.3.1-6.3.6 (1989). Aqueous and non-aqueous methods are described in that reference and either can be used. An example of stringent hybridization conditions is hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 50° C. Another example of stringent hybridization conditions are hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 55° C. A further example of stringent hybridization conditions is hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 60° C. Often, stringent hybridization conditions are hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45° C., followed by one or more washes in 0.2×SSC, 0.1% SDS at 65° C. More often, stringency conditions are 0.5M sodium phosphate, 7% SDS at 65° C., followed by one or more washes at 0.2×SSC, 1% SDS at 65° C.


An example of a substantially identical nucleotide sequence to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence is one that has a different nucleotide sequence but still encodes the same polypeptide sequence encoded by the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence. Another example is a nucleotide sequence that encodes a polypeptide having a polypeptide sequence that is more than 70% or more identical to, sometimes 75% or more, 80% or more, or 85% or more identical to, and often 90% or more and 95% or more identical to a polypeptide sequence encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence.


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequences and ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 amino acid sequences can be used as “query sequences” to perform a search against public databases to identify other family members or related sequences, for example. Such searches can be performed using the NBLAST and XBLAST programs (version 2.0) of Altschul et al., J. Mol. Biol. 215: 403-10 (1990). BLAST nucleotide searches can be performed with the NBLAST program, score=100, wordlength=12 to obtain nucleotide sequences homologous to nucleotide sequences from SEQ ID NO: 1-17. BLAST polypeptide searches can be performed with the XBLAST program, score=50, wordlength=3 to obtain amino acid sequences homologous to polypeptides encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence. To obtain gapped alignments for comparison purposes, Gapped BLAST can be utilized as described in Altschul et al., Nucleic Acids Res. 25(17): 3389-3402 (1997). When utilizing BLAST and Gapped BLAST programs, default parameters of the respective programs (e.g., XBLAST and NBLAST) can be used (see the http address www.ncbi.nlm.nih.gov).


A nucleic acid that is substantially identical to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence may include polymorphic sites at positions equivalent to those described herein when the sequences are aligned. For example, using the alignment procedures described herein, SNPs in a sequence substantially identical to a sequence in SEQ ID NO: 1-17 can be identified at nucleotide positions that match (i.e., align) with nucleotides at SNP positions in the nucleotide sequence of SEQ ID NO: 1-17. Also, where a polymorphic variation results in an insertion or deletion, insertion or deletion of a nucleotide sequence from a reference sequence can change the relative positions of other polymorphic sites in the nucleotide sequence.


Substantially identical nucleotide and polypeptide sequences include those that are naturally occurring, such as allelic variants (same locus), splice variants, homologs (different locus), and orthologs (different organism) or can be non-naturally occurring. Non-naturally occurring variants can be generated by mutagenesis techniques, including those applied to polynucleotides, cells, or organisms. The variants can contain nucleotide substitutions, deletions, inversions and insertions. Variation can occur in either or both the coding and non-coding regions. The variations can produce both conservative. and non-conservative amino acid substitutions (as compared in the encoded product). Orthologs, homologs, allelic variants, and splice variants can be identified using methods known in the art. These variants normally comprise a nucleotide sequence encoding a polypeptide that is 50% or more, about 55% or more, often about 70-75% or more, more often about 80-85% or more, and typically about 90-95% or more identical to the amino acid sequences of target polypeptides or a fragment thereof. Such nucleic acid molecules readily can be identified as being able to hybridize under stringent conditions to a nucleotide sequence in SEQ ID NO: 1-17 or a fragment thereof. Nucleic acid molecules corresponding to orthologs, homologs, and allelic variants of a nucleotide sequence in SEQ ID NO: 1-17 can be identified by mapping the sequence to the same chromosome or locus as the nucleotide sequence in SEQ ID NO: 1-17.


Also, substantially identical nucleotide sequences may include codons that are altered with respect to the naturally occurring sequence for enhancing expression of a target polypeptide in a particular expression system. For example, the nucleic acid can be one in which one or more codons are altered, and often 10% or more or 20% or more of the codons are altered for optimized expression in bacteria (e.g., E. coli), yeast (e.g., S. cervesiae), human (e.g., 293 cells), insect, or rodent (e.g., hamster) cells.


Methods for Identifying Subjects at Risk of Breast Cancer and Breast Cancer Risk in a Subject


Methods for prognosing and diagnosing breast cancer in subjects are provided herein. These methods include detecting the presence or absence of one or more polymorphic variations associated with breast cancer in a nucleotide sequence set forth in SEQ ID NO: 1-7, or substantially identical sequence thereof, in a sample from a subject, where the presence of a polymorphic variant is indicative of a risk of breast cancer.


Thus, featured herein is a method for detecting a subject at risk of breast cancer or the risk of breast cancer in a subject, which comprises detecting the presence or absence of a polymorphic variation associated with breast cancer at a polymorphic site in a nucleic acid sample from a subject, where the nucleotide sequence comprises a polynucleotide sequence selected from the group consisting of: (a) a nucleotide sequence set forth in SEQ ID NO: 1-7; (b) a nucleotide sequence which encodes a polypeptide having an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7; (c) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7 or a nucleotide sequence about 90% or more identical to the nucleotide sequence set forth in SEQ ID NO: 1-7; and (d) a fragment of a nucleotide sequence of (a), (b), or (c), often a fragment that includes a polymorphic site associated with breast cancer; whereby the presence of the polymorphic variation is indicative of a risk of breast cancer in the subject. In certain embodiments, the polymorphic variant is detected at a position described herein. The term “SEQ ID NO: 1-7” as used herein refers to one or more of SEQ ID NO: 1, 2, 3, 4, 5, 6 or 7.


In certain embodiments, determining the presence of a combination of two or more polymorphic variants associated with breast cancer in one or more genetic loci (e.g., one or more genes) of the sample is determined to identify, quantify and/or estimate, risk of breast cancer. The risk often is the probability of having or developing breast cancer. The risk sometimes is expressed as a relative risk with respect to a population average risk of breast cancer, and sometimes is expressed as a relative risk with resepect to the lowest risk group. Such relative risk assessments often are based upon penetrance values determined by statistical methods (see e.g., statistical analysis Example 9), and are particularly useful to clinicians and insurance companies for assessing risk of breast cancer (e.g., a clinician can target appropriate detection, prevention and therapeutic regimens to a partient after determining the patient's risk of breast cancer, and an insurance company can fine tune actuarial tables based upon population genotype assessments of breast cancer risk). Risk of breast cancer sometimes is expressed as an odds ratio, which is the odds of a particular person having a genotype has or will develop breast cancer with respect to another genotype group (e.g., the most disease protective genotype or population average). In related embodiments, the determination is utilized to identify a subject at risk of breast cancer. In an embodiment, two or more polymorphic variations are detected in two or more regions in human genomic DNA associated with increased risk of breast cancer, such as regions selected from the group of loci consisting of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197, for example. In certain embodiments, 3 or more, or 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 or 20 or more polymorphic variants are detected in the sample. In specific embodiments, polymorphic variants are detected in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 loci, such as at positions 44247 in SEQ ID NO: 1 (ICAM), position 36424 in SEQ ID NO: 2 (MAPK10), position 48563 in SEQ ID NO: 3 (KIAA0861), position 49002 in SEQ ID NO: 4 (NUMA1) and position 174 in SEQ ID NO: 5 (GALE), for example. In certain embodiments, polymorphic variants are detected at other genetic loci (e.g., the polymorphic variants can be detected in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and/or LOC145197 in addition to other loci or only in other loci), where the other loci include but are not limited to RAD21, KLF12, SPUVE, GRIN3A, PFTK1, SERPINA5, LOC115209, HRMT1L3, DLG1, KIAA0783, DPF3, CENPC1, GP6, LAMA4, CHCB/C20ORF154, LOC338749, and TTN/LOC351327, which are described in patent applications Nos. 10/723,670, 10/723,518, 10/722,939 and 10/723,683, having attorney docket numbers524592006700, 524592006800, 524592007100 and 524592007200, respectively, and any others disclosed in patent application Nos. 60/429,136 (filed Nov. 25, 2002) and 60/490,234 (filed Jul. 24, 2003).


A risk of developing aggressive forms of breast cancer likely to metastasize or invade surrounding tissues (e.g., Stage IIIA, IIIB, and IV breast cancers), and subjects at risk of developing aggressive forms of breast cancer also may be identified by the methods described herein. These methods include collecting phenotype information from subjects having breast cancer, which includes the stage of progression of the breast cancer, and performing a secondary phenotype analysis to detect the presence or absence of one or more polymorphic variations associated with a particular stage form of breast cancer. Thus, detecting the presence or absence of one or more polymorphic variations in a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence associated with a late stage form of breast cancer often is prognostic and/or diagnostic of an aggressive form of the cancer.


Results from prognostic tests may be combined with other test results to diagnose breast cancer. For example, prognostic results may be gathered, a patient sample may be ordered based on a determined predisposition to breast cancer, the patient sample is analyzed, and the results of the analysis may be utilized to diagnose breast cancer. Also breast cancer diagnostic methods can be developed from studies used to generate prognostic/diagnostic methods in which populations are stratified into subpopulations having different progressions of breast cancer. In another embodiment, prognostic results may be gathered; a patient's risk factors for developing breast cancer analyzed (e.g., age, race, family history, age of first menstrual cycle, age at birth of first child); and a patient sample may be ordered based on a determined predisposition to breast cancer. In an alternative embodiment, the results from predisposition analyses described herein may be combined with other test results indicative of breast cancer, which were previously, concurrently, or subsequently gathered with respect to the predisposition testing. In these embodiments, the combination of the prognostic test results with other test results can be probative of breast cancer, and the combination can be utilized as a breast cancer diagnostic. The results of any test indicative of breast cancer known in the art may be combined with the methods described herein. Examples of such tests are mammography (e.g., a more frequent and/or earlier mammography regimen may be prescribed); breast biopsy and optionally a biopsy from another tissue; breast ultrasound and optionally an ultrasound analysis of another tissue; breast magnetic resonance imaging (MRI) and optionally an MRI analysis of another tissue; electrical impedance (T-scan) analysis of breast and optionally of another tissue; ductal lavage; nuclear medicine analysis (e.g., scintimammography); BRCA1 and/or BRCA2 sequence analysis results; and thermal imaging of the breast and optionally of another tissue. Testing may be performed on tissue other than breast to diagnose the occurrence of metastasis (e.g., testing of the lymph node).


Risk of breast cancer sometimes is expressed as a probability, such as an odds ratio, percentage, or risk factor. The risk is based upon the presence or absence of one or more polymorphic variants described herein, and also may be based in part upon phenotypic traits of the individual being tested. Methods for calculating predispositions based upon patient data are well known (see, e.g., Agresti, Categorical Data Analysis, 2nd Ed. 2002. Wiley). Allelotyping and genotyping analyses may be carried out in populations other than those exemplified herein to enhance the predictive power of the prognostic method. These further analyses are executed in view of the exemplified procedures described herein, and may be based upon the same polymorphic variations or additional polymorphic variations. Risk determinations for breast cancer are useful in a variety of applications. In one embodiment, breast cancer risk determinations are used by clinicians to direct appropriate detection, preventative and treatment procedures to subjects who most require these. In another embodiment, breast cancer risk determinations are used by health insurers for preparing actuarial tables and for calculating insurance premiums.


The nucleic acid sample typically is isolated from a biological sample obtained from a subject. For example, nucleic acid can be isolated from blood, saliva, sputum, urine, cell scrapings, and biopsy tissue. The nucleic acid sample can be isolated from a biological sample using standard techniques, such as the technique described in Example 2. As used herein, the term “subject” refers primarily to humans but also refers to other mammals such as dogs, cats, and ungulates (e.g., cattle, sheep, and swine). Subjects also include avians (e.g., chickens and turkeys), reptiles, and fish (e.g., salmon), as embodiments described herein can be adapted to nucleic acid samples isolated from any of these organisms. The nucleic acid sample may be isolated from the subject and then directly utilized in a method for determining the presence of a polymorphic variant, or alternatively, the sample may be isolated and then stored (e.g., frozen) for a period of time before being subjected to analysis.


The presence or absence of a polymorphic variant is determined using one or both chromosomal complements represented in the nucleic acid sample. Determining the presence or absence of a polymorphic variant in both chromosomal complements represented in a nucleic acid sample from a subject having a copy of each chromosome is useful for determining the zygosity of an individual for the polymorphic variant (i.e., whether the individual is homozygous or heterozygous for the polymorphic variant). Any oligonucleotide-based diagnostic may be utilized to determine whether a sample includes the presence or absence of a polymorphic variant in a sample. For example, primer extension methods, ligase sequence determination methods (e.g., U.S. Pat. Nos. 5,679,524 and 5,952,174, and WO 01/27326), mismatch sequence determination methods (e.g., U.S. Pat. Nos. 5,851,770; 5,958,692; 6,110,684; and 6,183,958), microarray sequence determination methods, restriction fragment length polymorphism (RFLP), single strand conformation polymorphism detection (SSCP) (e.g., U.S. Pat. Nos. 5,891,625 and 6,013,499), PCR-based assays (e.g., TAQMAN® PCR System (Applied Biosystems)), and nucleotide sequencing methods may be used.


Oligonucleotide extension methods typically involve providing a pair of oligonucleotide primers in a polymerase chain reaction (PCR) or in other nucleic acid amplification methods for the purpose of amplifying a region from the nucleic acid sample that comprises the polymorphic variation. One oligonucleotide primer is complementary to a region 3′ of the polymorphism and the other is complementary to a region 5′ of the polymorphism. A PCR primer pair may be used in methods disclosed in U.S. Pat. Nos. 4,683,195; 4,683,202, 4,965,188; 5,656,493; 5,998,143; 6,140,054; WO 01/27327; and WO 01/27329 for example. PCR primer pairs may also be used in any commercially available machines that perform PCR, such as any of the GENEAMP® Systems available from Applied Biosystems. Also, those of ordinary skill in the art will be able to design oligonucleotide primers based upon a nucleotide sequence set forth in SEQ ID NO: 1-7 without undue experimentation using knowledge readily available in the art.


Also provided is an extension oligonucleotide that hybridizes to the amplified fragment adjacent to the polymorphic variation. As used herein, the term “adjacent” refers to the 3′ end of the extension oligonucleotide being often 1 nucleotide from the 5′ end of the polymorphic site, and sometimes 2, 3, 4, 5, 6, 7, 8, 9, or 10 nucleotides from the 5′ end of the polymorphic site, in the nucleic acid when the extension oligonucleotide is hybridized to the nucleic acid. The extension oligonucleotide then is extended by one or more nucleotides, and the number and/or type of nucleotides that are added to the extension oligonucleotide determine whether the polymorphic variant is present. Oligonucleotide extension methods are disclosed, for example, in U.S. Pat. Nos. 4,656,127; 4,851,331; 5,679,524; 5,834,189; 5,876,934; 5,908,755; 5,912,118; 5,976,802; 5,981,186; 6,004,744; 6,013,431; 6,017,702; 6,046,005; 6,087,095; 6,210,891; and WO 01/20039. Oligonucleotide extension methods using mass spectrometry are described, for example, in U.S. Pat. Nos. 5,547,835; 5,605,798; 5,691,141; 5,849,542; 5,869,242; 5,928,906; 6,043,031; and 6,194,144, and a method often utilized is described herein in Example 2. Multiple extension oligonucleotides may be utilized in one reaction, which is referred to herein as “multiplexing.”


A microarray can be utilized for determining whether a polymorphic variant is present or absent in a nucleic acid sample. A microarray may include any oligonucleotides described herein, and methods for making and using oligonucleotide microarrays suitable for diagnostic use are disclosed in U.S. Pat. Nos. 5,492,806; 5,525,464; 5,589,330; 5,695,940; 5,849,483; 6,018,041; 6,045,996; 6,136,541; 6,142,681; 6,156,501; 6,197,506; 6,223,127; 6,225,625; 6,229,911; 6,239,273; WO 00/52625; WO 01/25485; and WO 01/29259. The microarray typically comprises a solid support and the oligonucleotides may be linked to this solid support by covalent bonds or by non-covalent interactions. The oligonucleotides may also be linked to the solid support directly or by a spacer molecule. A microarray may comprise one or more oligonucleotides complementary to a polymorphic site set forth in SEQ ID NO: 1-7 or below.


A kit also may be utilized for determining whether a polymorphic variant is present or absent in a nucleic acid sample. A kit often comprises one or more pairs of oligonucleotide primers useful for amplifying a fragment of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence or a substantially identical sequence thereof, where the fragment includes a polymorphic site. The kit sometimes comprises a polymerizing agent, for example, a thermostable nucleic acid polymerase such as one disclosed in U.S. Pat. No. 4,889,818 or 6,077,664. Also, the kit often comprises an elongation oligonucleotide that hybridizes to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence in a nucleic acid sample adjacent to the polymorphic site. Where the kit includes an elongation oligonucleotide, it also often comprises chain elongating nucleotides, such as dATP, dTTP, dGTP, dCTP, and dTTP, including analogs of dATP, dTTP, dGTP, dCTP and dTTP, provided that such analogs are substrates for a thermostable nucleic acid polymerase and can be incorporated into a nucleic acid chain elongated from the extension oligonucleotide. Along with chain elongating nucleotides would be one or more chain terminating nucleotides such as ddATP, ddTTP, ddGTP, ddCTP, and the like. In an embodiment, the kit comprises one or more oligonucleotide primer pairs, a polymerizing agent, chain elongating nucleotides, at least one elongation oligonucleotide, and one or more chain terminating nucleotides. Kits optionally include buffers, vials, microtiter plates, and instructions for use.


An individual identified as being at risk of breast cancer may be heterozygous or homozygous with respect to the allele associated with a higher risk of breast cancer. A subject homozygous for an allele associated with an increased risk of breast cancer is at a comparatively high risk of breast cancer, a subject heterozygous for an allele associated with an increased risk of breast cancer is at a comparatively intermediate risk of breast cancer, and a subject homozygous for an allele associated with a decreased risk of breast cancer is at a comparatively low risk of breast cancer. A genotype may be assessed for a complementary strand, such that the complementary nucleotide at a particular position is detected.


Also featured are methods for determining risk of breast cancer and/or identifying a subject at risk of breast cancer by contacting a polypeptide or protein encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence from a subject with an antibody that specifically binds to an epitope associated with increased risk of breast cancer in the polypeptide. In certain embodiments, the antibody specifically binds to an epitope that comprises a leucine at amino acid position 359 in SEQ ID NO: 23, a leucine at amino acid position 378 in SEQ ID NO: 23, an alanine at amino acid position 857 in SEQ ID NO: 23, an alanine at position 902 in SEQ ID NO: 23 a proline at amino acid position 352 in SEQ ID NO: 20 or an alanine at amino acid position 348 in SEQ ID NO: 20.


Applications of Prognostic and Diagnostic Results to Pharmacogenomic Methods


Pharmacogenomics is a discipline that involves tailoring a treatment for a subject according to the subject's genotype. For example, based upon the outcome of a prognostic test described herein, a clinician or physician may target pertinent information and preventative or therapeutic treatments to a subject who would be benefited by the information or treatment and avoid directing such information and treatments to a subject who would not be benefited (e.g., the treatment has no therapeutic effect and/or the subject experiences adverse side effects). As therapeutic approaches for breast cancer continue to evolve and improve, the goal of treatments for breast cancer related disorders is to intervene even before clinical signs (e.g., identification of lump in the breast) first manifest. Thus, genetic markers associated with susceptibility to breast cancer prove useful for early diagnosis, prevention and treatment of breast cancer.


The following is an example of a pharmacogenomic embodiment. A particular treatment regimen can exert a differential effect depending upon the subject's genotype. Where a candidate therapeutic exhibits a significant interaction with a major allele and a comparatively weak interaction with a minor allele (e.g., an order of magnitude or greater difference in the interaction), such a therapeutic typically would not be administered to a subject genotyped as being homozygous for the minor allele, and sometimes not administered to a subject genotyped as being heterozygous for the minor allele. In another example, where a candidate therapeutic is not significantly toxic when administered to subjects who are homozygous for a major allele but is comparatively toxic when administered to subjects heterozygous or homozygous for a minor allele, the candidate therapeutic is not typically administered to subjects who are genotyped as being heterozygous or homozygous with respect to the minor allele.


The methods described herein are applicable to pharmacogenomic methods for detecting, preventing, alleviating and/or treating breast cancer. For example, a nucleic acid sample from an individual may be subjected to a genetic test described herein. Where one or more polymorphic variations associated with increased risk of breast cancer are identified in a subject, information for detecting, preventing or treating breast cancer and/or one or more breast cancer detection, prevention and/or treatment regimens then may be directed to and/or prescribed to that subject.


In certain embodiments, a detection, prevenative and/or treatment regimen is specifically prescribed and/or administered to individuals who will most benefit from it based upon their risk of developing breast cancer assessed by the methods described herein. Thus, provided are methods for identifying a subject at risk of breast cancer and then prescribing a detection, therapeutic or preventative regimen to individuals identified as being at risk of breast cancer. Thus, certain embodiments are directed to methods for treating breast cancer in a subject, reducing risk of breast cancer in a subject, or early detection of breast cancer in a subject, which comprise: detecting the presence or absence of a polymorphic variant associated with breast cancer in a nucleotide sequence in a nucleic acid sample from a subject, where the nucleotide sequence comprises a polynucleotide sequence selected from the group consisting of: (a) a nucleotide sequence set forth in SEQ ID NO: 1-7; (b) a nucleotide sequence which encodes a polypeptide having an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7; (c) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7 or a nucleotide sequence about 90% or more identical to the nucleotide sequence set forth in SEQ ID NO: 1-7; and (d) a fragment of a nucleotide sequence of (a), (b), or (c), sometimes comprising a polymorphic site associated with breast cancer; and prescribing or administering a breast cancer treatment regimen, preventative regimen and/or detection regimen to a subject from whom the sample originated where the presence of one or more polymorphic variations associated with breast cancer are detected in the nucleotide sequence. In these methods, genetic results may be utilized in combination with other test results to diagnose breast cancer as described above. Other test results include but are not limited to mammography results, imaging results, biopsy results and results from BRCA1 or BRAC2 test results, as described above.


Detection regimens include one or more mammography procedures, a regular mammography regimen (e.g., once a year, or once every six, four, three or two months); an early mammography regimen (e.g., mammography tests are performed beginning at age 25, 30, or 35); one or more biopsy procedures (e.g., a regular biopsy regimen beginning at age 40); breast biopsy and biopsy from other tissue; breast ultrasound and optionally ultrasound analysis of another tissue; breast magnetic resonance imaging (MRI) and optionally MRI analysis of another tissue; electrical impedance (T-scan) analysis of breast and optionally another tissue; ductal lavage; nuclear medicine analysis (e.g., scintimammography); BRCA1 and/or BRCA2 sequence analysis results; and/or thermal imaging of the breast and optionally another tissue.


Treatments sometimes are preventative (e.g., is prescribed or administered to reduce the probability that a breast cancer associated condition arises or progresses), sometimes are therapeutic, and sometimes delay, alleviate or halt the progression of breast cancer. Any known preventative or therapeutic treatment for alleviating or preventing the occurrence of breast cancer is prescribed and/or administered. For example, certain preventative treatments often are prescribed to subjects having a predisposition to breast cancer and where the subject is not diagnosed with breast cancer or is diagnosed as having symptoms indicative of early stage breast cancer (e.g., stage I). For subjects not diagnosed as having breast cancer, any preventative treatments known in the art can be prescribed and administered, which include selective hormone receptor modulators (e.g., selective estrogen receptor modulators (SERMs) such as tamoxifen, reloxifene, and toremifene); compositions that prevent production of hormones (e.g., aramotase inhibitors that prevent the production of estrogen in the adrenal gland, such as exemestane, letrozole, anastrozol, groserelin, and megestrol); other hormonal treatments (e.g., goserelin acetate and fulvestrant); biologic response modifiers such as antibodies (e.g., trastuzumab (herceptin/HER2)); surgery (e.g., lumpectomy and mastectomy); drugs that delay or halt metastasis (e.g., pamidronate disodium); and alternative/complementary medicine (e.g., acupuncture, acupressure, moxibustion, qi gong, reiki, ayurveda, vitamins, minerals, and herbs (e.g., astragalus root, burdock root, garlic, green tea, and licorice root)).


The use of breast cancer treatments are well known in the art, and include surgery, chemotherapy and/or radiation therapy. Any of the treatments may be used in combination to treat or prevent breast cancer (e.g., surgery followed by radiation therapy or chemotherapy). Examples of chemotherapeutics are taxanes (e.g., docetaxel or paclitaxel), and examples of chemotherapy combinations used to treat breast cancer include: cyclophosphamide (Cytoxan), methotrexate (Amethopterin, Mexate, Folex), and fluorouracil (Fluorouracil, 5-Fu, Adrucil), which is referred to as CMF; cyclophosphamide, doxorubicin (Adriamycin), and fluorouracil, which is referred to as CAF; and doxorubicin (Adriamycin) and cyclophosphamide, which is referred to as AC.


As breast cancer preventative and treatment information can be specifically targeted to subjects in need thereof (e.g., those at risk of developing breast cancer or those that have early signs of breast cancer), provided herein is a method for preventing or reducing the risk of developing breast cancer in a subject, which comprises: (a) detecting the presence or absence of a polymorphic variation associated with breast cancer at a polymorphic site in a nucleotide sequence in a nucleic acid sample from a subject; (b) identifying a subject with a predisposition to breast cancer, whereby the presence of the polymorphic variation is indicative of a predisposition to breast cancer in the subject; and (c) if such a predisposition is identified, providing the subject with information about methods or products to prevent or reduce breast cancer or to delay the onset of breast cancer. Also provided is a method of targeting information or advertising to a subpopulation of a human population based on the subpopulation being genetically predisposed to a disease or condition, which comprises: (a) detecting the presence or absence of a polymorphic variation associated with breast cancer at a polymorphic site in a nucleotide sequence in a nucleic acid sample from a subject; (b) identifying the subpopulation of subjects in which the polymorphic variation is associated with breast cancer; and (c) providing information only to the subpopulation of subjects about a particular product which may be obtained and consumed or applied by the subject to help prevent or delay onset of the disease or condition.


Pharmacogenomics methods also may be used to analyze and predict a response to a breast cancer treatment or a drug. For example, if pharmacogenomics analysis indicates a likelihood that an individual will respond positively to a breast cancer treatment with a particular drug, the drug may be administered to the individual. Conversely, if the analysis indicates that an individual is likely to respond negatively to treatment with a particular drug, an alternative course of treatment may be prescribed. A negative response may be defined as either the absence of an efficacious response or the presence of toxic side effects. The response to a therapeutic treatment can be predicted in a background study in which subjects in any of the following populations are genotyped: a population that responds favorably to a treatment regimen, a population that does not respond significantly to a treatment regimen, and a population that responds adversely to a treatment regiment (e.g., exhibits one or more side effects). These populations are provided as examples and other populations and subpopulations may be analyzed. Based upon the results of these analyses, a subject is genotyped to predict whether he or she will respond favorably to a treatment regimen, not respond significantly to a treatment regimen, or respond adversely to a treatment regimen.


The methods described herein also are applicable to clinical drug trials. One or more polymorphic variants indicative of response to an agent for treating breast cancer or to side effects to an agent for treating breast cancer may be identified using the methods described herein. Thereafter, potential participants in clinical trials of such an agent may be screened to identify those individuals most likely to respond favorably to the drug and exclude those likely to experience side effects. In that way, the effectiveness of drug treatment may be measured in individuals who respond positively to the drug, without lowering the measurement as a result of the inclusion of individuals who are unlikely to respond positively in the study and without risking undesirable safety problems. In certain embodiments, the agent for treating breast cancer described herein targets ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 or a target in the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 pathway.


Thus, another embodiment is a method of selecting an individual for inclusion in a clinical trial of a treatment or drug comprising the steps of: (a) obtaining a nucleic acid sample from an individual; (b) determining the identity of a polymorphic variation which is associated with a positive response to the treatment or the drug, or at least one polymorphic variation which is associated with a negative response to the treatment or the drug in the nucleic acid sample, and (c) including the individual in the clinical trial if the nucleic acid sample contains said polymorphic variation associated with a positive response to the treatment or the drug or if the nucleic acid sample lacks said polymorphic variation associated with a negative response to the treatment or the drug. In addition, the methods for selecting an individual for inclusion in a clinical trial of a treatment or drug encompass methods with any further limitation described in this disclosure, or those following, specified alone or in any combination. The polymorphic variation may be in a sequence selected individually or in any combination from the group consisting of (i) a polynucleotide sequence set forth in SEQ ID NO: 1-7; (ii) a polynucleotide sequence that is 90% or more identical to a nucleotide sequence set forth in SEQ ID NO: 1-7; (iii) a polynucleotide sequence that encodes a polypeptide having an amino acid sequence identical to or 90% or more identical to an amino acid sequence encoded by a nucleotide sequence set forth in SEQ ID NO: 1-7; and (iv) a fragment of a polynucleotide sequence of (i), (ii), or (iii) comprising the polymorphic site. The including step (c) optionally comprises administering the drug or the treatment to the individual if the nucleic acid sample contains the polymorphic variation associated with a positive response to the treatment or the drug and the nucleic acid sample lacks said biallelic marker associated with a negative response to the treatment or the drug.


Also provided herein is a method of partnering between a diagnostic/prognostic testing provider and a provider of a consumable product, which comprises: (a) the diagnostic/prognostic testing provider detects the presence or absence of a polymorphic variation associated with breast cancer at a polymorphic site in a nucleotide sequence in a nucleic acid sample from a subject; (b) the diagnostic/prognostic testing provider identifies the subpopulation of subjects in which the polymorphic variation is associated with breast cancer; (c) the diagnostic/prognostic testing provider forwards information to the subpopulation of subjects about a particular product which may be obtained and consumed or applied by the subject to help prevent or delay onset of the disease or condition; and (d) the provider of a consumable product forwards to the diagnostic test provider a fee every time the diagnostic/prognostic test provider forwards information to the subject as set forth in step (c) above.


Compositions Comprising Breast Cancer-Directed Molecules


Featured herein is a composition comprising a breast cancer cell and one or more molecules specifically directed and targeted to a nucleic acid comprising a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence or a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Such directed molecules include, but are not limited to, a compound that binds to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid or a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide; a RNA1 or siRNA molecule having a strand complementary to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence; an antisense nucleic acid complementary to an RNA encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 DNA sequence; a ribozyme that hybridizes to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence; a nucleic acid aptamer that specifically binds a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide; and an antibody that specifically binds to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or binds to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid. In certain embodiments, the antibody specifically binds to an epitope that comprises a leucine at amino acid position 359 in SEQ ID NO: 23, a leucine at amino acid position 378 in SEQ ID NO: 23, an alanine at amino acid position 857 in SEQ ID NO: 23, an alanine at position 902 in SEQ ID NO: 23 a proline at amino acid position 352 in SEQ ID NO: 20 or an alanine at amino acid position 348 in SEQ ID NO: 20. In specific embodiments, the breast cancer directed molecule interacts with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid or polypeptide variant associated with breast cancer. In other embodiments, the breast cancer directed molecule interacts with a polypeptide involved in the ICAM, MAPK10, KIAA 0861, NUMA1, GALE, DPF3 or LOC145197 signal pathway, or a nucleic acid encoding such a polypeptide. Polypeptides involved in the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 signal pathway are discussed herein.


Compositions sometimes include an adjuvant known to stimulate an immune response, and in certain embodiments, an adjuvant that stimulates a T-cell lymphocyte response. Adjuvants are known, including but not limited to an aluminum adjuvant (e.g., aluminum hydroxide); a cytokine adjuvant or adjuvant that stimulates a cytokine response (e.g., interleukin (IL)-12 and/or gamma-interferon cytokines); a Freund-type mineral oil adjuvant emulsion (e.g., Freund's complete or incomplete adjuvant); a synthetic lipoid compound; a copolymer adjuvant (e.g., TitreMax); a saponin; Quil A; a liposome; an oil-in-water emulsion (e.g., an emulsion stabilized by Tween 80 and pluronic polyoxyethlene/polyoxypropylene block copolymer (Syntex Adjuvant Formulation); TitreMax; detoxified endotoxin (MPL) and mycobacterial cell wall components (TDW, CWS) in 2% squalene (Ribi Adjuvant System)); a muramyl dipeptide; an immune-stimulating complex (ISCOM, e.g., an Ag-modified saponin/cholesterol micelle that forms stable cage-like structure); an aqueous phase adjuvant that does not have a depot effect (e.g., Gerbu adjuvant); a carbohydrate polymer (e.g., AdjuPrime); L-tyrosine; a manide-oleate compound (e.g., Montanide); an ethylene-vinyl acetate copolymer (e.g., Elvax 40W1,2); or lipid A, for example. Such compositions are useful for generating an immune response against a breast cancer directed molecule (e.g., an HLA-binding subsequence within a polypeptide encoded by a nucleotide sequence in SEQ ID NO: 1). In such methods, a peptide having an amino acid subsequence of a polypeptide encoded by a nucleotide sequence in SEQ ID NO: 1-7 is delivered to a subject, where the subsequence binds to an HLA molecule and induces a CTL lymphocyte response. The peptide sometimes is delivered to the subject as an isolated peptide or as a minigene in a plasmid that encodes the peptide. Methods for identifying HLA-binding subsequences in such polypeptides are known (see e.g., publication WO02/20616 and PCT application U.S.98/01373 for methods of identifying such sequences).


The breast cancer cell may be in a group of breast cancer cells and/or other types of cells cultured in vitro or in a tissue having breast cancer cells (e.g., a melanocytic lesion) maintained in vitro or present in an animal in vivo (e.g., a rat, mouse, ape or human). In certain embodiments, a composition comprises a component from a breast cancer cell or from a subject having a breast cancer cell instead of the breast cancer cell or in addition to the breast cancer cell, where the component sometimes is a nucleic acid molecule (e.g., genomic DNA), a protein mixture or isolated protein, for example. The aforementioned compositions have utility in diagnostic, prognostic and pharmacogenomic methods described previously and in breast cancer therapeutics described hereafter. Certain breast cancer molecules are described in greater detail below.


Compounds


Compounds can be obtained using any of the numerous approaches in combinatorial library methods known in the art, including: biological libraries; peptoid libraries (libraries of molecules having the functionalities of peptides, but with a novel, non-peptide backbone which are resistant to enzymatic degradation but which nevertheless remain bioactive (see, e.g., Zuckermann et al., J. Med. Chem. 37: 2678-85 (1994)); spatially addressable parallel solid phase or solution phase libraries; synthetic library methods requiring deconvolution; “one-bead one-compound” library methods; and synthetic library methods using affinity chromatography selection. Biological library and peptoid library approaches are typically limited to peptide libraries, while the other approaches are applicable to peptide, non-peptide oligomer or small molecule libraries of compounds (Lam, Anticancer Drug Des. 12: 145, (1997)). Examples of methods for synthesizing molecular libraries are described, for example, in DeWitt et al., Proc. Natl. Acad. Sci. U.S.A. 90: 6909 (1993); Erb et al., Proc. Natl. Acad. Sci. USA 91: 11422 (1994); Zuckermann et al., J. Med. Chem. 37: 2678 (1994); Cho et al., Science 261: 1303 (1993); Carrell et al., Angew. Chem. Int. Ed. Engl. 33: 2059 (1994); Carell et al., Angew. Chem. Int. Ed. Engl. 33: 2061 (1994); and in Gallop et al., J. Med. Chem. 37: 1233 (1994).


Libraries of compounds may be presented in solution (e.g., Houghten, Biotechniques 13: 412-421 (1992)), or on beads (Lam, Nature 354: 82-84 (1991)), chips (Fodor, Nature 364: 555-556 (1993)), bacteria or spores (Ladner, U.S. Pat. No. 5,223,409), plasmids (Cull et al., Proc. Natl. Acad. Sci. USA 89: 1865-1869 (1992)) or on phage (Scott and Smith, Science 249: 386-390 (1990); Devlin, Science 249: 404-406 (1990); Cwirla et al., Proc. Natl. Acad. Sci. 87: 6378-6382 (1990); Felici, J. Mol. Biol. 222: 301-310 (1991); Ladner supra.).


A compound sometimes alters expression and sometimes alters activity of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide and may be a small molecule. Small molecules include, but are not limited to, peptides, peptidomimetics (e.g., peptoids), amino acids, amino acid analogs, polynucleotides, polynucleotide analogs, nucleotides, nucleotide analogs, organic or inorganic compounds (i.e., including heteroorganic and organometallic compounds) having a molecular weight less than about 10,000 grams per mole, organic or inorganic compounds having a molecular weight less than about 5,000 grams per mole, organic or inorganic compounds having a molecular weight less than about 1,000 grams per mole, organic or inorganic compounds having a molecular weight less than about 500 grams per mole, and salts, esters, and other pharmaceutically acceptable forms of such compounds.


Antisense Nucleic Acid Molecules, Ribozymes. RNAi, siRNA and Modified Nucleic Acid Molecules


An “antisense” nucleic acid refers to a nucleotide sequence complementary to a “sense” nucleic acid encoding a polypeptide, e.g., complementary to the coding strand of a double-stranded cDNA molecule or complementary to an mRNA sequence. The antisense nucleic acid can be complementary to an entire coding strand in SEQ ID NO: 1-17, or to a portion thereof or a substantially identical sequence thereof. In another embodiment, the antisense nucleic acid molecule is antisense to a “noncoding region” of the coding strand of a nucleotide sequence in SEQ ID NO: 1-17 (e.g., 5′ and 3′ untranslated regions).


An antisense nucleic acid can be designed such that it is complementary to the entire coding region of an mRNA encoded by a nucleotide sequence in SEQ ID NO: 1-7 (e.g., SEQ ID NO: 8-14), and often the antisense nucleic acid is an oligonucleotide antisense to only a portion of a coding or noncoding region of the mRNA. For example, the antisense oligonucleotide can be complementary to the region surrounding the translation start site of the mRNA, e.g., between the −10 and +10 regions of the target gene nucleotide sequence of interest. An antisense oligonucleotide can be, for example, about 7, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, or more nucleotides in length. The antisense nucleic acids, which include the ribozymes described hereafter, can be designed to target a nucleotide sequence in SEQ ID NO: 1-17, often a variant associated with breast cancer, or a substantially identical sequence thereof. Among the variants, minor alleles and major alleles can be targeted, and those associated with a higher risk of breast cancer are often designed, tested, and administered to subjects.


An antisense nucleic acid can be constructed using chemical synthesis and enzymatic ligation reactions using standard procedures. For example, an antisense nucleic acid (e.g., an antisense oligonucleotide) can be chemically synthesized using naturally occurring nucleotides or variously modified nucleotides designed to increase the biological stability of the molecules or to increase the physical stability of the duplex formed between the antisense and sense nucleic acids, e.g., phosphorothioate derivatives and acridine substituted nucleotides can be used. Antisense nucleic acid also can be produced biologically using an expression vector into which a nucleic acid has been subcloned in an antisense orientation (i.e., RNA transcribed from the inserted nucleic acid will be of an antisense orientation to a target nucleic acid of interest, described further in the following subsection).


When utilized as therapeutics, antisense nucleic acids typically are administered to a subject (e.g., by direct injection at a tissue site) or generated in situ such that they hybridize with or bind to cellular mRNA and/or genomic DNA encoding a polypeptide and thereby inhibit expression of the polypeptide, for example, by inhibiting transcription and/or translation. Alternatively, antisense nucleic acid molecules can be modified to target selected cells and then are administered systemically. For systemic administration, antisense molecules can be modified such that they specifically bind to receptors or antigens expressed on a selected cell surface, for example, by linking antisense nucleic acid molecules to peptides or antibodies which bind to cell surface receptors or antigens. Antisense nucleic acid molecules can also be delivered to cells using the vectors described herein. Sufficient intracellular concentrations of antisense molecules are achieved by incorporating a strong promoter, such as a pol II or pol III promoter, in the vector construct.


Antisense nucleic acid molecules sometimes are alpha-anomeric nucleic acid molecules. An alpha-anomeric nucleic acid molecule forms specific double-stranded hybrids with complementary RNA in which, contrary to the usual beta-units, the strands run parallel to each other (Gaultier et al., Nucleic Acids. Res. 15: 6625-6641 (1987)). Antisense nucleic acid molecules can also comprise a 2′-o-methylribonucleotide (Inoue et al., Nucleic Acids Res. 15: 6131-6148 (1987)) or a chimeric RNA-DNA analogue (Inoue et al., FEBS Lett. 215: 327-330 (1987)). Antisense nucleic acids sometimes are composed of DNA or PNA or any other nucleic acid derivatives described previously.


In another embodiment, an antisense nucleic acid is a ribozyme. A ribozyme having specificity for a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence can include one or more sequences complementary to such a nucleotide sequence, and a sequence having a known catalytic region responsible for mRNA cleavage (see e.g., U.S. Pat. No. 5,093,246 or Haselhoff and Gerlach, Nature 334: 585-591(1988)). For example, a derivative of a Tetrahymena L-19 IVS RNA is sometimes utilized in which the nucleotide sequence of the active site is complementary to the nucleotide sequence to be cleaved in a mRNA (see e.g., Cech et al., U.S. Pat. No. 4,987,071; and Cech et al. U.S. Pat. No. 5,116,742). Also, target mRNA sequences can be used to select a catalytic RNA having a specific ribonuclease activity from a pool of RNA molecules (see e.g., Bartel & Szostak, Science 261: 1411-1418(1993)).


Breast cancer directed molecules include in certain embodiments nucleic acids that can form triple helix structures with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence or a substantially identical sequence thereof, especially one that includes a regulatory region that controls expression of a polypeptide. Gene expression can be inhibited by targeting nucleotide sequences complementary to the regulatory region of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence or a substantially identical sequence (e.g., promoter and/or enhancers) to form triple helical structures that prevent transcription of a gene in target cells (see e.g., Helene, Anticancer Drug Des. 6(6): 569-84 (1991); Helene et al., Ann. N.Y. Acad. Sci. 660: 27-36 (1992); and Maher, Bioassays 14(12): 807-15 (1992). Potential sequences that can be targeted for triple helix formation can be increased by creating a so-called “switchback” nucleic acid molecule. Switchback molecules are synthesized in an alternating 5′-3′,3′-5′ manner, such that they base pair with first one strand of a duplex and then the other, eliminating the necessity for a sizeable stretch of either purines or pyrimidines to be present on one strand of a duplex.


Breast cancer directed molecules include RNAi and siRNA nucleic acids. Gene expression may be inhibited by the introduction of double-stranded RNA (dsRNA), which induces potent and specific gene silencing, a phenomenon called RNA interference or RNAi. See, e.g., Fire et al., U.S. Pat. No. 6,506,559; Tuschl et al. PCT International Publication No. WO 01/75164; Kay et al. PCT International Publication No. WO 03/010180A1; or Bosher J M, Labouesse, Nat Cell Biol 2000 February; 2(2): E31-6. This process has been improved by decreasing the size of the double-stranded RNA to 20-24 base pairs (to create small-interfering RNAs or siRNAs) that “switched off” genes in mammalian cells without initiating an acute phase response, i.e., a host defense mechanism that often results in cell death (see, e.g., Caplen et al. Proc Natl Acad Sci USA. 2001 Aug. 14; 98(17): 9742-7 and Elbashir et al. Methods 2002 February; 26(2): 199-213). There is increasing evidence of post-transcriptional gene silencing by RNA interference (RNAi) for inhibiting targeted expression in mammalian cells at the mRNA level, in human cells. There is additional evidence of effective methods for inhibiting the proliferation and migration of tumor cells in human patients, and for inhibiting metastatic cancer development (see, e.g., U.S. Patent Application No. U.S. 2001000993183; Caplen et al. Proc Natl Acad Sci USA; and Abderrahmani et al. Mol Cell Biol 2001 November 21(21): 7256-67).


An “siRNA” or “RNAi” refers to a nucleic acid that forms a double stranded RNA and has the ability to reduce or inhibit expression of a gene or target gene when the siRNA is delivered to or expressed in the same cell as the gene or target gene. “siRNA” refers to short double-stranded RNA formed by the complementary strands. Complementary portions of the siRNA that hybridize to form the double stranded molecule often have substantial or complete identity to the target molecule sequence. In one embodiment, an siRNA refers to a nucleic acid that has substantial or complete identity to a target gene and forms a double stranded siRNA.


When designing the siRNA molecules, the targeted region often is selected from a given DNA sequence beginning 50 to 100 nucleotides downstream of the start codon. See, e.g., Elbashir et al.,. Methods 26: 199-213 (2002). Initially, 5′ or 3′ UTRs and regions nearby the start codon were avoided assuming that UTR-binding proteins and/or translation initiation complexes may interfere with binding of the siRNP or RISC endonuclease complex. Sometimes regions of the target 23 nucleotides in length conforming to the sequence motif AA(N19)TT (N, an nucleotide), and regions with approximately 30% to 70% G/C-content (often about 50% G/C-content) often are selected. If no suitable sequences are found, the search often is extended using the motif NA(N21). The sequence of the sense siRNA sometimes corresponds to (N 9) TT or N21 (position 3 to 23 of the 23-nt motif), respectively. In the latter case, the 3′ end of the sense siRNA often is converted to TT. The rationale for this sequence conversion is to generate a symmetric duplex with respect to the sequence composition of the sense and antisense 3′ overhangs. The antisense siRNA is synthesized as the complement to position 1 to 21 of the 23-nt motif. Because position 1 of the 23-nt motif is not recognized sequence-specifically by the antisense siRNA, the 3′-most nucleotide residue of the antisense siRNA can be chosen deliberately. However, the penultimate nucleotide of the antisense siRNA (complementary to position 2 of the 23-nt motif) often is complementary to the targeted sequence. For simplifying chemical synthesis, TT often is utilized. siRNAs corresponding to the target motif NAR(N17)YNN, where R is purine (A,G) and Y is pyrimidine (C,U), often are selected. Respective 21 nucleotide sense and antisense siRNAs often begin with a purine nucleotide and can also be expressed from pol III expression vectors without a change in targeting site. Expression of RNAs from pol III promoters often is efficient when the first transcribed nucleotide is a purine.


The sequence of the siRNA can correspond to the full length target gene, or a subsequence thereof. Often, the siRNA is about 15 to about 50 nucleotides in length (e.g., each complementary sequence of the double stranded siRNA is 15-50 nucleotides in length, and the double stranded siRNA is about 15-50 base pairs in length, sometimes about 20-30 nucleotides in length or about 20-25 nucleotides in length, e.g., 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30 nucleotides in length. The siRNA sometimes is about 21 nucleotides in length. Methods of using siRNA are well known in the art, and specific siRNA molecules may be purchased from a number of companies including Dharmacon Research, Inc.


Antisense, ribozyme, RNAi and siRNA nucleic acids can be altered to form modified nucleic acid molecules. The nucleic acids can be altered at base moieties, sugar moieties or phosphate backbone moieties to improve stability, hybridization, or solubility of the molecule. For example, the deoxyribose phosphate backbone of nucleic acid molecules can be modified to generate peptide nucleic acids (see Hyrup et al., Bioorganic & Medicinal Chemistry 4 (1): 5-23 (1996)). As used herein, the terms “peptide nucleic acid” or “PNA” refers to a nucleic acid mimic such as a DNA mimic, in which the deoxyribose phosphate backbone is replaced by a pseudopeptide backbone and only the four natural nucleobases are retained. The neutral backbone of a PNA can allow for specific hybridization to DNA and RNA under conditions of low ionic strength. Synthesis of PNA oligomers can be performed using standard solid phase peptide synthesis protocols as described, for example, in Hyrup et al., (1996) supra and Perry-O'Keefe et al., Proc. Natl. Acad. Sci. 93: 14670-675 (1996).


PNA nucleic acids can be used in prognostic, diagnostic, and therapeutic applications. For example, PNAs can be used as antisense or antigene agents for sequence-specific modulation of gene expression by, for example, inducing transcription or translation arrest or inhibiting replication. PNA nucleic acid molecules can also be used in the analysis of single base pair mutations in a gene, (e.g., by PNA-directed PCR clamping); as “artificial restriction enzymes” when used in combination with other enzymes, (e.g., S1 nucleases (Hyrup (1996) supra)); or as probes or primers for DNA sequencing or hybridization (Hyrup et al., (1996) supra; Perry-O'Keefe supra).


In other embodiments, oligonucleotides may include other appended groups such as peptides (e.g., for targeting host cell receptors in vivo), or agents facilitating transport across cell membranes (see e.g., Letsinger et al., Proc. Natl. Acad. Sci. USA 86: 6553-6556 (1989); Lemaitre et al., Proc. Natl. Acad. Sci. USA 84: 648-652 (1987); PCT Publication No. WO88/09810) or the blood-brain barrier (see, e.g., PCT Publication No. WO89/10134). In addition, oligonucleotides can be modified with hybridization-triggered cleavage agents (See, e.g., Krol et al., Bio-Techniques 6: 958-976 (1988)) or intercalating agents. (See, e.g., Zon, Pharm. Res. 5: 539-549 (1988)). To this end, the oligonucleotide may be conjugated to another molecule, (e.g., a peptide, hybridization triggered cross-linking agent, transport agent, or hybridization-triggered cleavage agent).


Also included herein are molecular beacon oligonucleotide primer and probe molecules having one or more regions complementary to a nucleotide sequence of SEQ ID NO: 1-17 or a substantially identical sequence thereof, two complementary regions one having a fluorophore and one a quencher such that the molecular beacon is useful for quantifying the presence of the nucleic acid in a sample. Molecular beacon nucleic acids are described, for example, in Lizardi et al., U.S. Pat. No. 5,854,033; Nazarenko et al., U.S. Pat. No. 5,866,336, and Livak et al., U.S. Pat. No. 5,876,930.


Antibodies


The term “antibody” as used herein refers to an immunoglobulin molecule or immunologically active portion thereof, i.e., an antigen-binding portion. Examples of immunologically active portions of immunoglobulin molecules include F(ab) and F(ab′)2 fragments which can be generated by treating the antibody with an enzyme such as pepsin. An antibody sometimes is a polyclonal, monoclonal, recombinant (e.g, a chimeric or humanized), fully human, non-human (e.g., murine), or a single chain antibody. For example, antibodies that specifically bind to ICAM1 are disclosed in U.S. Pat. Nos. 5,475,091 and 5,773,293. An antibody may have effector function and can fix complement, and is sometimes coupled to a toxin or imaging agent.


A full-length polypeptide or antigenic peptide fragment encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleotide sequence can be used as an immunogen or can be used to identify antibodies made with other immunogens, e.g., cells, membrane preparations, and the like. An antigenic peptide often includes at least 8 amino acid residues of the amino acid sequences encoded by a nucleotide sequence of SEQ ID NO: 1-17, or substantially identical sequence thereof, and encompasses an epitope. Antigenic peptides sometimes include 10 or more amino acids, 15 or more amino acids, 20 or more amino acids, or 30 or more amino acids. Hydrophilic and hydrophobic fragments of polypeptides sometimes are used as immunogens.


Epitopes encompassed by the antigenic peptide are regions located on the surface of the polypeptide (e.g., hydrophilic regions) as well as regions with high antigenicity. For example, an Emini surface probability analysis of the human polypeptide sequence can be used to indicate the regions that have a particularly high probability of being localized to the surface of the polypeptide and are thus likely to constitute surface residues useful for targeting antibody production. The antibody may bind an epitope on any domain or region on polypeptides described herein.


Also, chimeric, humanized, and completely human antibodies are useful for applications which include repeated administration to subjects. Chimeric and humanized monoclonal antibodies, comprising both human and non-human portions, can be made using standard recombinant DNA techniques. Such chimeric and humanized monoclonal antibodies can be produced by recombinant DNA techniques known in the art, for example using methods described in Robinson et al. International Application No. PCT/US86/02269; Akira, et al. European Patent Application 184,187; Taniguchi, M., European Patent Application 171,496; Morrison et al. European Patent Application 173,494; Neuberger et al. PCT International Publication No. WO 86/01533; Cabilly et al. U.S. Pat. No. 4,816,567; Cabilly et al. European Patent Application 125,023; Better et al., Science 240: 1041-1043 (1988); Liu et al., Proc. Natl. Acad. Sci. USA 84: 3439-3443 (1987); Liu et al., J. Immunol. 139: 3521-3526 (1987); Sun et al., Proc. Natl. Acad. Sci. USA 84: 214-218 (1987); Nishimura et al., Canc. Res. 47: 999-1005 (1987); Wood et al., Nature 314: 446-449 (1985); and Shaw et al., J. Natl. Cancer Inst. 80: 1553-1559 (1988); Morrison, S. L., Science 229: 1202-1207 (1985); Oi et al., BioTechniques 4: 214 (1986); Winter U.S. Pat. No. 5,225,539; Jones et al., Nature 321: 552-525 (1986); Verhoeyan et al., Science 239: 1534; and Beidler et al., J. Immunol. 141: 4053-4060 (1988).


Completely human antibodies are particularly desirable for therapeutic treatment of human patients. Such antibodies can be produced using transgenic mice that are incapable of expressing endogenous immunoglobulin heavy and light chains genes, but which can express human heavy and light chain genes. See, for example, Lonberg and Huszar, Int. Rev. Immunol. 13: 65-93 (1995); and U.S. Pat. Nos. 5,625,126; 5,633,425; 5,569,825; 5,661,016; and 5,545,806. In addition, companies such as Abgenix, Inc. (Fremont, Calif.) and Medarex, Inc. (Princeton, N.J.), can be engaged to provide human antibodies directed against a selected antigen using technology similar to that described above. Completely human antibodies that recognize a selected epitope also can be generated using a technique referred to as “guided selection.” In this approach a selected non-human monoclonal antibody (e.g., a murine antibody) is used to guide the selection of a completely human antibody recognizing the same epitope. This technology is described for example by Jespers et al., Bio/Technology 12: 899-903 (1994).


Antibody can be a single chain antibody. A single chain antibody (scFV) can be engineered (see, e.g., Colcher et al., Ann. N Y Acad. Sci. 880: 263-80 (1999); and Reiter, Clin. Cancer Res. 2: 245-52 (1996)). Single chain antibodies can be dimerized or multimerized to generate multivalent antibodies having specificities for different epitopes of the same target polypeptide.


Antibodies also may be selected or modified so that they exhibit reduced or no ability to bind an Fc receptor. For example, an antibody may be an isotype or subtype, fragment or other mutant, which does not support binding to an Fc receptor (e.g., it has a mutagenized or deleted Fc receptor binding region).


Also, an antibody (or fragment thereof) may be conjugated to a therapeutic moiety such as a cytotoxin, a therapeutic agent or a radioactive metal ion. A cytotoxin or cytotoxic agent includes any agent that is detrimental to cells. Examples include taxol, cytochalasin B, gramicidin D, ethidium bromide, emetine, mitomycin, etoposide, tenoposide, vincristine, vinblastine, colchicin, doxorubicin, daunorubicin, dihydroxy anthracin dione, mitoxantrone, mithramycin, actinomycin D, 1 dehydrotestosterone, glucocorticoids, procaine, tetracaine, lidocaine, propranolol, and puromycin and analogs or homologs thereof. Therapeutic agents include, but are not limited to, antimetabolites (e.g., methotrexate, 6-mercaptopurine, 6-thioguanine, cytarabine, 5-fluorouracil decarbazine), alkylating agents (e.g., mechlorethamine, thiotepa chlorambucil, melphalan, carmustine (BCNU) and lomustine (CCNU), cyclophosphamide, busulfan, dibromomannitol, streptozotocin, mitomycin C, and cis-dichlorodiamine platinum (II) (DDP) cisplatin), anthracyclines (e.g., daunorubicin (formerly daunomycin) and doxorubicin), antibiotics (e.g., dactinomycin (formerly actinomycin), bleomycin, mithramycin, and anthramycin (AMC)), and anti-mitotic agents (e.g., vincristine and vinblastine).


Antibody conjugates can be used for modifying a given biological response. For example, the drug moiety may be a protein or polypeptide possessing a desired biological activity. Such proteins may include, for example, a toxin such as abrin, ricin A, pseudomonas exotoxin, or diphtheria toxin; a polypeptide such as tumor necrosis factor, ?-interferon, a-interferon, nerve growth factor, platelet derived growth factor, tissue plasminogen activator; or, biological response modifiers such as, for example, lymphokines, interleukin-1 (“IL-1”), interleukin-2 (“IL-2”), interleukin-6 (“1L-6”), granulocyte macrophage colony stimulating factor (“GM-CSF”), granulocyte colony stimulating factor (“G-CSF”), or other growth factors. Also, an antibody can be conjugated to a second antibody to form an antibody heteroconjugate as described by Segal in U.S. Pat. No. 4,676,980, for example.


An antibody (e.g., monoclonal antibody) can be used to isolate target polypeptides by standard techniques, such as affinity chromatography or immunoprecipitation. Moreover, an antibody can be used to detect a target polypeptide (e.g., in a cellular lysate or cell supernatant) in order to evaluate the abundance and pattern of expression of the polypeptide. Antibodies can be used diagnostically to monitor polypeptide levels in tissue as part of a clinical testing procedure, e.g., to determine the efficacy of a given treatment regimen. Detection can be facilitated by coupling (i.e., physically linking) the antibody to a detectable substance (i.e., antibody labeling). Examples of detectable substances include various enzymes, prosthetic groups, fluorescent materials, luminescent materials, bioluminescent materials, and radioactive materials. Examples of suitable enzymes include horseradish peroxidase, alkaline phosphatase, β-galactosidase, or acetylcholinesterase; examples of suitable prosthetic group complexes include streptavidin/biotin and avidin/biotin; examples of suitable fluorescent materials include umbelliferone, fluorescein, fluorescein isothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansyl chloride or phycoerythrin; an example of a luminescent material includes luminol; examples of bioluminescent materials include luciferase, luciferin, and aequorin, and examples of suitable radioactive material include 125I, 131I, 35S or 3H. Also, an antibody can be utilized as a test molecule for determining whether it can treat breast cancer, and as a therapeutic for administration to a subject for treating breast cancer.


An antibody can be made by immunizing with a purified antigen, or a fragment thereof, e.g., a fragment described herein, a membrane associated antigen, tissues, e.g., crude tissue preparations, whole cells, preferably living cells, lysed cells, or cell fractions.


Included herein are antibodies which bind only a native polypeptide, only denatured or otherwise non-native polypeptide, or which bind both, as well as those having linear or conformational epitopes. Conformational epitopes sometimes can be identified by selecting antibodies that bind to native but not denatured polypeptide. Also featured are antibodies that specifically bind to a polypeptide variant associated with breast cancer.


Screening Assays


Featured herein are methods for identifying a candidate therapeutic for treating breast cancer. The methods comprise contacting a test molecule with a target molecule in a system. A “target molecule” as used herein refers to a nucleic acid of SEQ ID NO: 1-17, a substantially identical nucleic acid thereof, or a fragment thereof, and an encoded polypeptide of the foregoing. The method also comprises determining the presence or absence of an interaction between the test molecule and the target molecule, where the presence of an interaction between the test molecule and the nucleic acid or polypeptide identifies the test molecule as a candidate breast cancer therapeutic. The interaction between the test molecule and the target molecule may be quantified.


Test molecules and candidate therapeutics include, but are not limited to, compounds, antisense nucleic acids, siRNA molecules, ribozymes, polypeptides or proteins encoded by a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acids, or a substantially identical sequence or fragment thereof, and immunotherapeutics (e.g., antibodies and HLA-presented polypeptide fragments). A test molecule or candidate therapeutic may act as a modulator of target molecule concentration or target molecule function in a system. A “modulator” may agonize (i.e., up-regulates) or antagonize (i.e., down-regulates) a target molecule concentration partially or completely in a system by affecting such cellular functions as DNA replication and/or DNA processing (e.g., DNA methylation or DNA repair), RNA transcription and/or RNA processing (e.g., removal of intronic sequences and/or translocation of spliced mRNA from the nucleus), polypeptide production (e.g., translation of the polypeptide from mRNA), and/or polypeptide post-translational modification (e.g., glycosylation, phosphorylation, and proteolysis of pro-polypeptides). A modulator may also agonize or antagonize a biological function of a target molecule partially or completely, where the function may include adopting a certain structural conformation, interacting with one or more binding partners, ligand binding, catalysis (e.g., phosphorylation, dephosphorylation, hydrolysis, methylation, and isomerization), and an effect upon a cellular event (e.g., effecting progression of breast cancer).


As used herein, the term “system” refers to a cell free in vitro environment and a cell-based environment such as a collection of cells, a tissue, an organ, or an organism. A system is “contacted” with a test molecule in a variety of manners, including adding molecules in solution and allowing them to interact with one another by diffusion, cell injection, and any administration routes in an animal. As used herein, the term “interaction” refers to an effect of a test molecule on test molecule, where the effect sometimes is binding between the test molecule and the target molecule, and sometimes is an observable change in cells, tissue, or organism.


There are many standard methods for detecting the presence or absence of an interaction between a test molecule and a target molecule. For example, titrametric, acidimetric, radiometric, NMR, monolayer, polarographic, spectrophotometric, fluorescent, and ESR assays probative of a target molecule interaction may be utilized.


In general, an interaction can be determined by labeling the test molecule and/or the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule, where the label is covalently or non-covalently attached to the test molecule or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule. The label is sometimes a radioactive molecule such as 125I, 131I, 35S or 3H, which can be detected by direct counting of radioemission or by scintillation counting. Also, enzymatic labels such as horseradish peroxidase, alkaline phosphatase, or luciferase may be utilized where the enzymatic label can be detected by determining conversion of an appropriate substrate to product. Also, presence or absence of an interaction can be determined without labeling. For example, a microphysiometer (e.g., Cytosensor) is an analytical instrument that measures the rate at which a cell acidifies its environment using a light-addressable potentiometric sensor (LAPS). Changes in this acidification rate can be used as an indication of an interaction between a test molecule and ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 (McConnell, H. M. et al., Science 257: 1906-1912 (1992)).


In cell-based systems, cells typically include a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid or polypeptide or variants thereof and are often of mammalian origin, although the cell can be of any origin. Whole cells, cell homogenates, and cell fractions (e.g., cell membrane fractions) can be subjected to analysis. Where interactions between a test molecule with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or variant thereof are monitored, soluble and/or membrane bound forms of the polypeptide or variant may be utilized. Where membrane-bound forms of the polypeptide are used, it may be desirable to utilize a solubilizing agent. Examples of such solubilizing agents include non-ionic detergents such as n-octylglucoside, n-dodecylglucoside, n-dodecylmaltoside, octanoyl-N-methylglucamide, decanoyl-N-methylglucamide, Triton® X-100, Triton® X-114, Thesit®, Isotridecypoly(ethylene glycol ether)n, 3-[(3-cholamidopropyl)dimethylamminio]-1-propane sulfonate (CHAPS), 3-[(3-cholamidopropyl)dimethylamminio]-2-hydroxy-1-propane sulfonate (CHAPSO), or N-dodecyl-N,N-dimethyl-3-ammonio-1-propane sulfonate.


An interaction between two molecules also can be detected by monitoring fluorescence energy transfer (FET) (see, for example, Lakowicz et al., U.S. Pat. No. 5,631,169; Stavrianopoulos et al. U.S. Pat. No. 4,868,103). A fluorophore label on a first, “donor” molecule is selected such that its emitted fluorescent energy will be absorbed by a fluorescent label on a second, “acceptor” molecule, which in turn is able to fluoresce due to the absorbed energy. Alternately, the “donor” polypeptide molecule may simply utilize the natural fluorescent energy of tryptophan residues. Labels are chosen that emit different wavelengths of light, such that the “acceptor” molecule label may be differentiated from that of the “donor”. Since the efficiency of energy transfer between the labels is related to the distance separating the molecules, the spatial relationship between the molecules can be assessed. In a situation in which binding occurs between the molecules, the fluorescent emission of the “acceptor” molecule label in the assay should be maximal. A FET binding event can be conveniently measured through standard fluorometric detection means well known in the art (e.g., using a fluorimeter).


In another embodiment, determining the presence or absence of an interaction between a test molecule and a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule can be effected by using real-time Biomolecular Interaction Analysis (BIA) (see, e.g., Sjolander & Urbaniczk, Anal. Chem. 63: 2338-2345 (1991) and Szabo et al., Curr. Opin. Struct. Biol. 5: 699-705 (1995)). “Surface plasmon resonance” or “BIA” detects biospecific interactions in real time, without labeling any of the interactants (e.g., BIAcore). Changes in the mass at the binding surface (indicative of a binding event) result in alterations of the refractive index of light near the surface (the optical phenomenon of surface plasmon resonance (SPR)), resulting in a detectable signal which can be used as an indication of real-time reactions between biological molecules.


In another embodiment, the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule or test molecules are anchored to a solid phase. The ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule/test molecule complexes anchored to the solid phase can be detected at the end of the reaction. The target ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule is often anchored to a solid surface, and the test molecule, which is not anchored, can be labeled, either directly or indirectly, with detectable labels discussed herein.


It may be desirable to immobilize a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule, an anti-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 antibody, or test molecules to facilitate separation of complexed from uncomplexed forms of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules and test molecules, as well as to accommodate automation of the assay. Binding of a test molecule to a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule can be accomplished in any vessel suitable for containing the reactants. Examples of such vessels include microtiter plates, test tubes, and micro-centrifuge tubes. In one embodiment, a fusion polypeptide can be provided which adds a domain that allows a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule to be bound to a matrix. For example, glutathione-S-transferase/ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 fusion polypeptides or glutathione-S-transferase/target fusion polypeptides can be adsorbed onto glutathione sepharose beads (Sigma Chemical, St. Louis, Mo.) or glutathione derivitized microtiter plates, which are then combined with the test compound or the test compound and either the non-adsorbed target polypeptide or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, and the mixture incubated under conditions conducive to complex formation (e.g., at physiological conditions for salt and pH). Following incubation, the beads or microtiter plate wells are washed to remove any unbound components, the matrix immobilized in the case of beads, complex determined either directly or indirectly, for example, as described above. Alternatively, the complexes can be dissociated from the matrix, and the level of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 binding or activity determined using standard techniques.


Other techniques for immobilizing a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule on matrices include using biotin and streptavidin. For example, biotinylated ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or target molecules can be prepared from biotin-NHS(N-hydroxy-succinimide) using techniques known in the art (e.g., biotinylation kit, Pierce Chemicals, Rockford, Ill.), and immobilized in the wells of streptavidin-coated 96 well plates (Pierce Chemical).


In order to conduct the assay, the non-immobilized component is added to the coated surface containing the anchored component. After the reaction is complete, unreacted components are removed (e.g., by washing) under conditions such that any complexes formed will remain immobilized on the solid surface. The detection of complexes anchored on the solid surface can be accomplished in a number of ways. Where the previously non-immobilized component is pre-labeled, the detection of label immobilized on the surface indicates that complexes were formed. Where the previously non-immobilized component is not pre-labeled, an indirect label can be used to detect complexes anchored on the surface; e.g., using a labeled antibody specific for the immobilized component (the antibody, in turn, can be directly labeled or indirectly labeled with, e.g., a labeled anti-Ig antibody).


In one embodiment, this assay is performed utilizing antibodies reactive with ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or test molecules but which do not interfere with binding of the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide to its test molecule. Such antibodies can be derivitized to the wells of the plate, and unbound target or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide trapped in the wells by antibody conjugation. Methods for detecting such complexes, in addition to those described above for the GST-immobilized complexes, include immunodetection of complexes using antibodies reactive with the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or target molecule, as well as enzyme-linked assays which rely on detecting an enzymatic activity associated with the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or test molecule.


Alternatively, cell free assays can be conducted in a liquid phase. In such an assay, the reaction products are separated from unreacted components, by any of a number of standard techniques, including but not limited to: differential centrifugation (see, for example, Rivas, G., and Minton, A. P., Trends Biochem Sci August; 18(8): 284-7 (1993)); chromatography (gel filtration chromatography, ion-exchange chromatography); electrophoresis (see, e.g., Ausubel et al., eds. Current Protocols in Molecular Biology, J. Wiley: New York (1999)); and immunoprecipitation (see, for example, Ausubel, F. et al., eds. Current Protocols in Molecular Biology, J. Wiley: New York (1999)). Such resins and chromatographic techniques are known to one skilled in the art (see, e.g., Heegaard, J. Mol. Recognit. Winter; 11(1-6): 141-8 (1998); Hage & Tweed, J. Chromatogr. B Biomed. Sci. Appl. October 10; 699 (1-2): 499-525 (1997)). Further, fluorescence energy transfer may also be conveniently utilized, as described herein, to detect binding without further purification of the complex from solution.


In another embodiment, modulators of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression are identified. For example, a cell or cell free mixture is contacted with a candidate compound and the expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide evaluated relative to the level of expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide in the absence of the candidate compound. When expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide is greater in the presence of the candidate compound than in its absence, the candidate compound is identified as a stimulator of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide expression. Alternatively, when expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide is less (statistically significantly less) in the presence of the candidate compound than in its absence, the candidate compound is identified as an inhibitor of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide expression. The level of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide expression can be determined by methods described herein for detecting ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 mRNA or polypeptide.


In another embodiment, binding partners that interact with a ICAM, MAPK1, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule are detected. The ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules can interact with one or more cellular or extracellular macromolecules, such as polypeptides, in vivo, and these molecules that interact with ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules are referred to herein as “binding partners.” Molecules that disrupt such interactions can be useful in regulating the activity of the target gene product. Such molecules can include, but are not limited to molecules such as antibodies, peptides, and small molecules. Target genes/products for use in this embodiment often are the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 genes herein identified. In an alternative embodiment, provided is a method for determining the ability of the test compound to modulate the activity of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide through modulation of the activity of a downstream effector of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 target molecule. For example, the activity of the effector molecule on an appropriate target can be determined, or the binding of the effector to an appropriate target can be determined, as previously described.


To identify compounds that interfere with the interaction between the target gene product and its cellular or extracellular binding partner(s), e.g., a substrate, a reaction mixture containing the target gene product and the binding partner is prepared, under conditions and for a time sufficient, to allow the two products to form complex. In order to test an inhibitory agent, the reaction mixture is provided in the presence and absence of the test compound. The test compound can be initially included in the reaction mixture, or can be added at a time subsequent to the addition of the target gene and its cellular or extracellular binding partner. Control reaction mixtures are incubated without the test compound or with a placebo. The formation of any complexes between the target gene product and the cellular or extracellular binding partner is then detected. The formation of a complex in the control reaction, but not in the reaction mixture containing the test compound, indicates that the compound interferes with the interaction of the target gene product and the interactive binding partner. Additionally, complex formation within reaction mixtures containing the test compound and normal target gene product can also be compared to complex formation within reaction mixtures containing the test compound and mutant target gene product. This comparison can be important in those cases where it is desirable to identify compounds that disrupt interactions of mutant but not normal target gene products. Examples of ICAM1 inhibitors are Actimid and Bortezomib, and U.S. Pat. No. 6,436,403 describes a conjugate between ICAM1 and a virus for ICAM1 delivery. Examples of MAPK10 and JUNK modulators are beta arrestin (ARBB2), which is an agonist, CC-401 (Celgene), which is an inhibitor, and other modulators disclosed in WO0246184A1, WO02083667A2, WO02079197A1, WO0112621A1, WO04005283A1, WO0210137A2, WO0112609A1, WO03099221A2, WO02066450A2, WO03102151A2, U.S. 20020160397A1. Examples of MAPK1 screening methods are disclosed in U.S. Pat. No. 6,610,505.


These assays can be conducted in a heterogeneous or homogeneous format. Heterogeneous assays involve anchoring either the target gene product or the binding partner onto a solid phase, and detecting complexes anchored on the solid phase at the end of the reaction. In homogeneous assays, the entire reaction is carried out in a liquid phase. In either approach, the order of addition of reactants can be varied to obtain different information about the compounds being tested. For example, test compounds that interfere with the interaction between the target gene products and the binding partners, e.g., by competition, can be identified by conducting the reaction in the presence of the test substance. Alternatively, test compounds that disrupt preformed complexes, e.g., compounds with higher binding constants that displace one of the components from the complex, can be tested by adding the test compound to the reaction mixture after complexes have been formed. The various formats are briefly described below.


In a heterogeneous assay system, either the target gene product or the interactive cellular or extracellular binding partner, is anchored onto a solid surface (e.g., a microtiter plate), while the non-anchored species is labeled, either directly or indirectly. The anchored species can be immobilized by non-covalent or covalent attachments. Alternatively, an immobilized antibody specific for the species to be anchored can be used to anchor the species to the solid surface.


In order to conduct the assay, the partner of the immobilized species is exposed to the coated surface with or without the test compound. After the reaction is complete, unreacted components are removed (e.g., by washing) and any complexes formed will remain immobilized on the solid surface. Where the non-immobilized species is pre-labeled, the detection of label immobilized on the surface indicates that complexes were formed. Where the non-immobilized species is not pre-labeled, an indirect label can be used to detect complexes anchored on the surface; e.g., using a labeled antibody specific for the initially non-immobilized species (the antibody, in turn, can be directly labeled or indirectly labeled with, e.g., a labeled anti-Ig antibody). Depending upon the order of addition of reaction components, test compounds that inhibit complex formation or that disrupt preformed complexes can be detected.


Alternatively, the reaction can be conducted in a liquid phase in the presence or absence of the test compound, the reaction products separated from unreacted components, and complexes detected; e.g., using an immobilized antibody specific for one of the binding components to anchor any complexes formed in solution, and a labeled antibody specific for the other partner to detect anchored complexes. Again, depending upon the order of addition of reactants to the liquid phase, test compounds that inhibit complex or that disrupt preformed complexes can be identified.


In an alternate embodiment, a homogeneous assay can be used. For example, a preformed complex of the target gene product and the interactive cellular or extracellular binding partner product is prepared in that either the target gene products or their binding partners are labeled, but the signal generated by the label is quenched due to complex formation (see, e.g., U.S. Pat. No. 4,109,496 that utilizes this approach for immunoassays). The addition of a test substance that competes with and displaces one of the species from the preformed complex will result in the generation of a signal above background. In this way, test substances that disrupt target gene product-binding partner interaction can be identified.


Also, binding partners of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules can be identified in a two-hybrid assay or three-hybrid assay (see, e.g., U.S. Pat. No. 5,283,317; Zervos et al., Cell 72: 223-232 (1993); Madura et al., J. Biol. Chem. 268: 12046-12054 (1993); Bartel et al., Biotechniques 14: 920-924 (1993); Iwabuchi et al., Oncogene 8: 1693-1696 (1993); and Brent WO94/10300), to identify other polypeptides, which bind to or interact with ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 (“ICAM, MAPK10, KIAA0861, NUAM1, GALE, DPF3 or LOC145197-binding polypeptides” or “ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197-bp”) and are involved in ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity. Such ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197-bps can be activators or inhibitors of signals by the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptides or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 targets as, for example, downstream elements of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197-mediated signaling pathway.


A two-hybrid system is based on the modular nature of most transcription factors, which consist of separable DNA-binding and activation domains. Briefly, the assay utilizes two different DNA constructs. In one construct, the gene that codes for a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide is fused to a gene encoding the DNA binding domain of a known transcription factor (e.g., GAL-4). In the other construct, a DNA sequence, from a library of DNA sequences, that encodes an unidentified polypeptide (“prey” or “sample”) is fused to a gene that codes for the activation domain of the known transcription factor. (Alternatively the: ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide can be the fused to the activator domain.) If the “bait” and the “prey” polypeptides are able to interact, in vivo, forming a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197-dependent complex, the DNA-binding and activation domains of the transcription factor are brought into close proximity. This proximity allows transcription of a reporter gene (e.g., LacZ) which is operably linked to a transcriptional regulatory site responsive to the transcription factor. Expression of the reporter gene can be detected and cell colonies containing the functional transcription factor can be isolated and used to obtain the cloned gene which encodes the polypeptide which interacts with the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide.


Candidate therapeutics for treating breast cancer are identified from a group of test molecules that interact with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid or polypeptide. Test molecules are normally ranked according to the degree with which they interact or modulate (e.g., agonize or antagonize) DNA replication and/or processing, RNA transcription and/or processing, polypeptide production and/or processing, and/or function of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules, for example, and then top ranking modulators are selected. In a preferred embodiment, the candidate therapeutic (i.e., test molecule) acts as a ICAM, MAPK10, KIAA0861, NUAM1, GALE, DPF3 or LOC145197 antagonist. Also, pharmacogenomic information described herein can determine the rank of a modulator. Candidate therapeutics typically are formulated for administration to a subject.


Therapeutic Treatments


Formulations or pharmaceutical compositions typically include in combination with a pharmaceutically acceptable carrier, a compound, an antisense nucleic acid, a ribozyme, an antibody, a binding partner that interacts with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid, or a fragment thereof. The formulated molecule may be one that is identified by a screening method described above. As used herein, the term “pharmaceutically acceptable carrier” includes solvents, dispersion media, coatings, antibacterial and antifungal agents, isotonic and absorption delaying agents, and the like, compatible with pharmaceutical administration. Supplementary active compounds can also be incorporated into the compositions.


A pharmaceutical composition is formulated to be compatible with its intended route of administration. Examples of routes of administration include parenteral, e.g., intravenous, intradermal, subcutaneous, oral (e.g., inhalation), transdermal (topical), transmucosal, and rectal administration. Solutions or suspensions used for parenteral, intradermal, or subcutaneous application can include the following components: a sterile diluent such as water for injection, saline solution, fixed oils, polyethylene glycols, glycerin, propylene glycol or other synthetic solvents; antibacterial agents such as benzyl alcohol or methyl parabens; antioxidants such as ascorbic acid or sodium bisulfite; chelating agents such as ethylenediaminetetraacetic acid; buffers such as acetates, citrates or phosphates and agents for the adjustment of tonicity such as sodium chloride or dextrose. pH can be adjusted with acids or bases, such as hydrochloric acid or sodium hydroxide. The parenteral preparation can be enclosed in ampoules, disposable syringes or multiple dose vials made of glass or plastic.


Oral compositions generally include an inert diluent or an edible carrier. For the purpose of oral therapeutic administration, the active compound can be incorporated with excipients and used in the form of tablets, troches, or capsules, e.g., gelatin capsules. Oral compositions can also be prepared using a fluid carrier for use as a mouthwash. Pharmaceutically compatible binding agents, and/or adjuvant materials can be included as part of the composition. The tablets, pills, capsules, troches and the like can contain any of the following ingredients, or compounds of a similar nature: a binder such as microcrystalline cellulose, gum tragacanth or gelatin; an excipient such as starch or lactose, a disintegrating agent such as alginic acid, Primogel, or corn starch; a lubricant such as magnesium stearate or Sterotes; a glidant such as colloidal silicon dioxide; a sweetening agent such as sucrose or saccharin; or a flavoring agent such as peppermint, methyl salicylate, or orange flavoring.


Pharmaceutical compositions suitable for injectable use include sterile aqueous solutions (where water soluble) or dispersions and sterile powders for the extemporaneous preparation of sterile injectable solutions or dispersion. For intravenous administration, suitable carriers include physiological saline, bacteriostatic water, Cremophor E™ (BASF, Parsippany, N.J.) or phosphate buffered saline (PBS). In all cases, the composition must be sterile and should be fluid to the extent that easy syringability exists. It should be stable under the conditions of manufacture and storage and must be preserved against the contaminating action of microorganisms such as bacteria and fungi. The carrier can be a solvent or dispersion medium containing, for example, water, ethanol, polyol (for example, glycerol, propylene glycol, and liquid polyethylene glycol, and the like), and suitable mixtures thereof. The proper fluidity can be maintained, for example, by the use of a coating such as lecithin, by the maintenance of the required particle size in the case of dispersion and by the use of surfactants. Prevention of the action of microorganisms can be achieved by various antibacterial and antifungal agents, for example, parabens, chlorobutanol, phenol, ascorbic acid, thimerosal, and the like. In many cases, isotonic agents, for example, sugars, polyalcohols such as mannitol, sorbitol, sodium chloride sometimes are included in the composition. Prolonged absorption of the injectable compositions can be brought about by including in the composition an agent which delays absorption, for example, aluminum monostearate and gelatin.


Sterile injectable solutions can be prepared by incorporating the active compound in the required amount in an appropriate solvent with one or a combination of ingredients enumerated above, as required, followed by filtered sterilization. Generally, dispersions are prepared by incorporating the active compound into a sterile vehicle which contains a basic dispersion medium and the required other ingredients from those enumerated above. In the case of sterile powders for the preparation of sterile injectable solutions, methods of preparation often utilized are vacuum drying and freeze-drying which yields a powder of the active ingredient plus any additional desired ingredient from a previously sterile-filtered solution thereof.


For administration by inhalation, the compounds are delivered in the form of an aerosol spray from pressured container or dispenser which contains a suitable propellant, e.g., a gas such as carbon dioxide, or a nebulizer.


Systemic administration can also be by transmucosal or transdermal means. For transmucosal or transdermal administration, penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art, and include, for example, for transmucosal administration, detergents, bile salts, and fusidic acid derivatives. Transmucosal administration can be accomplished through the use of nasal sprays or suppositories. For transdermal administration, the active compounds are formulated into ointments, salves, gels, or creams as generally known in the art. Molecules can also be prepared in the form of suppositories (e.g., with conventional suppository bases such as cocoa butter and other glycerides) or retention enemas for rectal delivery.


In one embodiment, active molecules are prepared with carriers that will protect the compound against rapid elimination from the body, such as a controlled release formulation, including implants and microencapsulated delivery systems. Biodegradable, biocompatible polymers can be used, such as ethylene vinyl acetate, polyanhydrides, polyglycolic acid, collagen, polyorthoesters, and polylactic acid. Methods for preparation of such formulations will be apparent to those skilled in the art. Materials can also be obtained commercially from Alza Corporation and Nova Pharmaceuticals, Inc. Liposomal suspensions (including liposomes targeted to infected cells with monoclonal antibodies to viral antigens) can also be used as pharmaceutically acceptable carriers. These can be prepared according to methods known to those skilled in the art, for example, as described in U.S. Pat. No. 4,522,811.


It is advantageous to formulate oral or parenteral compositions in dosage unit form for ease of administration and uniformity of dosage. Dosage unit form as used herein refers to physically discrete units suited as unitary dosages for the subject to be treated; each unit containing a predetermined quantity of active compound calculated to produce the desired therapeutic effect in association with the required pharmaceutical carrier.


Toxicity and therapeutic efficacy of such compounds can be determined by standard pharmaceutical procedures in cell cultures or experimental animals, e.g., for determining the LD50 (the dose lethal to 50% of the population) and the ED50 (the dose therapeutically effective in 50% of the population). The dose ratio between toxic and therapeutic effects is the therapeutic index and it can be expressed as the ratio LD50/ED50. Molecules which exhibit high therapeutic indices often are utilized. While molecules that exhibit toxic side effects may be used, care should be taken to design a delivery system that targets such compounds to the site of affected tissue in order to minimize potential damage to uninfected cells and, thereby, reduce side effects.


The data obtained from the cell culture assays and animal studies can be used in formulating a range of dosage for use in humans. The dosage of such molecules often lies within a range of circulating concentrations that include the ED50 with little or no toxicity. The dosage may vary within this range depending upon the dosage form employed and the route of administration utilized. For any molecules used in the methods described herein, the therapeutically effective dose can be estimated initially from cell culture assays. A dose may be formulated in animal models to achieve a circulating plasma concentration range that includes the IC50 (i.e., the concentration of the test compound which achieves a half-maximal inhibition of symptoms) as determined in cell culture. Such information can be used to more accurately determine useful doses in humans. Levels in plasma may be measured, for example, by high performance liquid chromatography.


As defined herein, a therapeutically effective amount of protein or polypeptide (i.e., an effective dosage) ranges from about 0.001 to 30 mg/kg body weight, sometimes about 0.01 to 25 mg/kg body weight, often about 0.1 to 20 mg/kg body weight, and more often about 1 to 10 mg/kg, 2 to 9 mg/kg, 3 to 8 mg/kg, 4 to 7 mg/kg, or 5 to 6 mg/kg body weight. The protein or polypeptide can be administered one time per week for between about 1 to 10 weeks, sometimes between 2 to 8 weeks, often between about 3 to 7 weeks, and more often for about 4, 5, or 6 weeks. The skilled artisan will appreciate that certain factors may influence the dosage and timing required to effectively treat a subject, including but not limited to the severity of the disease or disorder, previous treatments, the general health and/or age of the subject, and other diseases present. Moreover, treatment of a subject with a therapeutically effective amount of a protein, polypeptide, or antibody can include a single treatment, or sometimes can include a series of treatments.


With regard to polypeptide formulations, featured herein is a method for treating breast cancer in a subject, which comprises contacting one or more cells in the subject with a first ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide, where the subject comprises a second ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide having one or more polymorphic variations associated with cancer, and where the first polypeptide comprises fewer polymorphic variations associated with cancer than the second polypeptide. The first and second polypeptides are encoded by a nucleic acid which comprises a nucleotide sequence selected from the group consisting of the nucleotide sequence of SEQ ID NO: 1-17; a nucleotide sequence which encodes a polypeptide consisting of an amino acid sequence encoded by a nucleotide sequence of SEQ ID NO: 1-17; a nucleotide sequence which encodes a polypeptide that is 90% or more identical to an amino acid sequence encoded by a nucleotide sequence of SEQ ID NO: 1-17 and a nucleotide sequence 90% or more identical to a nucleotide sequence of SEQ ID NO: 1-17. The subject is often a human.


For antibodies, a dosage of 0.1 mg/kg of body weight (generally 10 mg/kg to 20 mg/kg) is often utilized. If the antibody is to act in the brain, a dosage of 50 mg/kg to 100 mg/kg is often appropriate. Generally, partially human antibodies and fully human antibodies have a longer half-life within the human body than other antibodies. Accordingly, lower dosages and less frequent administration is often possible. Modifications such as lipidation can be used to stabilize antibodies and to enhance uptake and tissue penetration (e.g., into the brain). A method for lipidation of antibodies is described by Cruikshank et al., J. Acquired Immune Deficiency Syndromes and Human Retrovirology 14: 193 (1997).


Antibody conjugates can be used for modifying a given biological response, the drug moiety is not to be construed as limited to classical chemical therapeutic agents. For example, the drug moiety may be a protein or polypeptide possessing a desired biological activity. Such proteins may include, for example, a toxin such as abrin, ricin A, pseudomonas exotoxin, or diphtheria toxin; a polypeptide such as tumor necrosis factor, .alpha.-interferon, .beta.-interferon, nerve growth factor, platelet derived growth factor, tissue plasminogen activator; or, biological response modifiers such as, for example, lymphokines, interleukin-1 (“IL-1”), interleukin-2 (“IL-2”), interleukin-6 (“IL-6”), granulocyte macrophage colony stimulating factor (“GM-CSF”), granulocyte colony stimulating factor (“G-CSF”), or other growth factors. Alternatively, an antibody can be conjugated to a second antibody to form an antibody heteroconjugate as described by Segal in U.S. Pat. No. 4,676,980.


For compounds, exemplary doses include milligram or microgram amounts of the compound per kilogram of subject or sample weight, for example, about 1 microgram per kilogram to about 500 milligrams per kilogram, about 100 micrograms per kilogram to about 5 milligrams per kilogram, or about 1 microgram per kilogram to about 50 micrograms per kilogram. It is understood that appropriate doses of a small molecule depend upon the potency of the small molecule with respect to the expression or activity to be modulated. When one or more of these small molecules is to be administered to an animal (e.g., a human) in order to modulate expression or activity of a polypeptide or nucleic acid described herein, a physician, veterinarian, or researcher may, for example, prescribe a relatively low dose at first, subsequently increasing the dose until an appropriate response is obtained. In addition, it is understood that the specific dose level for any particular animal subject will depend upon a variety of factors including the activity of the specific compound employed, the age, body weight, general health, gender, and diet of the subject, the time of administration, the route of administration, the rate of excretion, any drug combination, and the degree of expression or activity to be modulated.


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid molecules can be inserted into vectors and used in gene therapy methods for treating breast cancer. Featured herein is a method for treating breast cancer in a subject, which comprises contacting one or more cells in the subject with a first ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid, where genomic DNA in the subject comprises a second ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid comprising one or more polymorphic variations associated with breast cancer, and where the first nucleic acid comprises fewer polymorphic variations associated with breast cancer. The first and second nucleic acids typically comprise a nucleotide sequence selected from the group consisting of the nucleotide sequence of SEQ ID NO: 1-7; a nucleotide sequence which encodes a polypeptide consisting of an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7; a nucleotide sequence that is 90% or more identical to the nucleotide sequence of SEQ ID NO: 1-7, and a nucleotide sequence which encodes a polypeptide that is 90% or more identical to an amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-7. The subject often is a human.


Gene therapy vectors can be delivered to a subject by, for example, intravenous injection, local administration (see U.S. Pat. No. 5,328,470) or by stereotactic injection (see e.g., Chen et al., (1994) Proc. Natl. Acad. Sci. USA 91: 3054-3057). Pharmaceutical preparations of gene therapy vectors can include a gene therapy vector in an acceptable diluent, or can comprise a slow release matrix in which the gene delivery vehicle is imbedded. Alternatively, where the complete gene delivery vector can be produced intact from recombinant cells (e.g., retroviral vectors) the pharmaceutical preparation can include one or more cells which produce the gene delivery system. Examples of gene delivery vectors are described herein.


Pharmaceutical compositions can be included in a container, pack, or dispenser together with instructions for administration.


Pharmaceutical compositions of active ingredients can be administered by any of the paths described herein for therapeutic and prophylactic methods for treating breast cancer. With regard to both prophylactic and therapeutic methods of treatment, such treatments may be specifically tailored or modified, based on knowledge obtained from pharmacogenomic analyses described herein. As used herein, the term “treatment” is defined as the application or administration of a therapeutic agent to a patient, or application or administration of a therapeutic agent to an isolated tissue or cell line from a patient, who has a disease, a symptom of disease or a predisposition toward a disease, with the purpose to cure, heal, alleviate, relieve, alter, remedy, ameliorate, improve or affect the disease, the symptoms of disease or the predisposition toward disease. A therapeutic agent includes, but is not limited to, small molecules, peptides, antibodies, ribozymes and antisense oligonucleotides.


Administration of a prophylactic agent can occur prior to the manifestation of symptoms characteristic of the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 aberrance, such that a disease or disorder is prevented or, alternatively, delayed in its progression. Depending on the type of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 aberrance, for example, a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecule, ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 agonist, or ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 antagonist agent can be used for treating the subject. The appropriate agent can be determined based on screening assays described herein.


As discussed, successful treatment of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 disorders can be brought about by techniques that serve to inhibit the expression or activity of target gene products. For example, compounds (e.g., an agent identified using an assays described above) that exhibit negative modulatory activity can be used to prevent and/or treat breast cancer. Such molecules can include, but are not limited to peptides, phosphopeptides, small organic or inorganic molecules, or antibodies (including, for example, polyclonal, monoclonal, humanized, anti-idiotypic, chimeric or single chain antibodies, and FAb, F(ab′)2 and FAb expression library fragments, scFV molecules, and epitope-binding fragments thereof).


Further, antisense and ribozyme molecules that inhibit expression of the target gene can also be used to reduce the level of target gene expression, thus effectively reducing the level of target gene activity. Still further, triple helix molecules can be utilized in reducing the level of target gene activity. Antisense, ribozyme and triple helix molecules are discussed above.


It is possible that the use of antisense, ribozyme, and/or triple helix molecules to reduce or inhibit mutant gene expression can also reduce or inhibit the transcription (triple helix) and/or translation (antisense, ribozyme) of mRNA produced by normal target gene alleles, such that the concentration of normal target gene product present can be lower than is necessary for a normal phenotype. In such cases, nucleic acid molecules that encode and express target gene polypeptides exhibiting normal target gene activity can be introduced into cells via gene therapy method. Alternatively, in instances where the target gene encodes an extracellular polypeptide, normal target gene polypeptide often is co-administered into the cell or tissue to maintain the requisite level of cellular or tissue target gene activity.


Another method by which nucleic acid molecules may be utilized in treating or preventing a disease characterized by ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression is through the use of aptamer molecules specific for ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Aptamers are nucleic acid molecules having a tertiary structure which permits them to specifically bind to polypeptide ligands (see, e.g., Osborne, et al., Curr. Opin. Chem. Biol. 1(1): 5-9 (1997); and Patel, D. J., Curr. Opin. Chem. Biol. June; 1(1): 32-46 (1997)). Since nucleic acid molecules may in many cases be more conveniently introduced into target cells than therapeutic polypeptide molecules may be, aptamers offer a method by which ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide activity may be specifically decreased without the introduction of drugs or other molecules which may have pluripotent effects.


Antibodies can be generated that are both specific for target gene product and that reduce target gene product activity. Such antibodies may, therefore, by administered in instances whereby negative modulatory techniques are appropriate for the treatment of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 disorders. For a description of antibodies, see the Antibody section above.


In circumstances where injection of an animal or a human subject with a ICAM, MAPK10, KIAA0861, NUMA1; GALE, DPF3 or LOC145197 polypeptide or epitope for stimulating antibody production is harmful to the subject, it is possible to generate an immune response against ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 through the use of anti-idiotypic antibodies (see, for example, Herlyn, D., Ann. Med.; 31(1): 66-78 (1999); and Bhattacharya-Chatterjee & Foon, Cancer Treat. Res.; 94: 51-68 (1998)). If an anti-idiotypic antibody is introduced into a mammal or human subject, it should stimulate the production of anti-anti-idiotypic antibodies, which should be specific to the ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide. Vaccines directed to a disease characterized by ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression may also be generated in this fashion.


In instances where the target antigen is intracellular and whole antibodies are used, internalizing antibodies may be utilized. Lipofectin or liposomes can be used to deliver the antibody or a fragment of the Fab region that binds to the target antigen into cells. Where fragments of the antibody are used, the smallest inhibitory fragment that binds to the target antigen often is utilized. For example, peptides having an amino acid sequence corresponding to the Fv region of the antibody can be used. Alternatively, single chain neutralizing antibodies that bind to intracellular target antigens can also be administered. Such single chain antibodies can be administered, for example, by expressing nucleotide sequences encoding single-chain antibodies within the target cell population (see e.g., Marasco et al., Proc. Natl. Acad. Sci. USA 90: 7889-7893 (1993)).


ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 molecules and compounds that inhibit target gene expression, synthesis and/or activity can be administered to a patient at therapeutically effective doses to prevent, treat or ameliorate ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 disorders. A therapeutically effective dose refers to that amount of the compound sufficient to result in amelioration of symptoms of the disorders.


Toxicity and therapeutic efficacy of such compounds can be determined by standard pharmaceutical procedures in cell cultures or experimental animals, e.g., for determining the LD50 (the dose lethal to 50% of the population) and the ED50 (the dose therapeutically effective in 50% of the population). The dose ratio between toxic and therapeutic effects is the therapeutic index and it can be expressed as the ratio LD50/ED50. Compounds that exhibit large therapeutic indices often are utilized. While compounds that exhibit toxic side effects can be used, care should be taken to design a delivery system that targets such compounds to the site of affected tissue in order to minimize potential damage to uninfected cells and, thereby, reduce side effects.


Data obtained from cell culture assays and animal studies can be used in formulating a range of dosage for use in humans. The dosage of such compounds often lies within a range of circulating concentrations that include the ED50 with little or no toxicity. The dosage can vary within this range depending upon the dosage form employed and the route of administration utilized. For any compound used in a method described herein, the therapeutically effective dose can be estimated initially from cell culture assays. A dose can be formulated in animal models to achieve a circulating plasma concentration range that includes the IC50 (i.e., the concentration of the test compound that achieves a half-maximal inhibition of symptoms) as determined in cell culture. Such information can be used to more accurately determine useful doses in humans. Levels in plasma can be measured, for example, by high performance liquid chromatography.


Another example of effective dose determination for an individual is the ability to directly assay levels of “free” and “bound” compound in the serum of the test subject. Such assays may utilize antibody mimics and/or “biosensors” that have been created through molecular imprinting techniques.


The compound which is able to modulate ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is used as a template, or “imprinting molecule”, to spatially organize polymerizable monomers prior to their polymerization with catalytic reagents. The subsequent removal of the imprinted molecule leaves a polymer matrix which contains a repeated “negative image” of the compound and is able to selectively rebind the molecule under biological assay conditions. A detailed review of this technique can be seen in Ansell et al., Current Opinion in Biotechnology 7: 89-94 (1996) and in Shea, Trends in Polymer Science 2: 166-173 (1994). Such “imprinted” affinity matrixes are amenable to ligand-binding assays, whereby the immobilized monoclonal antibody component is replaced by an appropriately imprinted matrix. An example of the use of such matrixes in this way can be seen in Vlatakis, et al., Nature 361: 645-647 (1993). Through the use of isotope-labeling, the “free” concentration of compound which modulates the expression or activity of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 can be readily monitored and used in calculations of IC50. Such “imprinted” affinity matrixes can also be designed to include fluorescent groups whose photon-emitting properties measurably change upon local and selective binding of target compound. These changes can be readily assayed in real time using appropriate fiberoptic devices, in turn allowing the dose in a test subject to be quickly optimized based on its individual IC50. A rudimentary example of such a “biosensor” is discussed in Kriz et al., Analytical Chemistry 67: 2142-2144 (1995).


Provided herein are methods of modulating ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression or activity for therapeutic purposes. Accordingly, in an exemplary embodiment, the modulatory method involves contacting a cell with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 or agent that modulates one or more of the activities of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide activity associated with the cell. An agent that modulates ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide activity can be an agent as described herein, such as a nucleic acid or a polypeptide, a naturally-occurring target molecule of a ICAM, MAPK10, KIAA0861, NUMA41, GALE, DPF3 or LOC145197 polypeptide (e.g., a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 substrate or receptor), a ICAM, MAPK10, KIAA0861, NUMA41, GALE, DPF3 or LOC145197 antibody, a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 agonist or antagonist, a peptidomimetic of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 agonist or antagonist, or other small molecule.


In one embodiment, the agent stimulates one or more ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activities. Examples of such stimulatory agents include active ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide and a nucleic acid molecule encoding ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197. In another embodiment, the agent inhibits one or more ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activities. Examples of such inhibitory agents include antisense ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 nucleic acid molecules, anti-ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 antibodies, and ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 inhibitors, and competitive inhibitors that target ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197. These modulatory methods can be performed in vitro (e.g., by culturing the cell with the agent) or, alternatively, in vivo (e.g., by administering the agent to a subject). As such, provided are methods of treating an individual afflicted with a disease or disorder characterized by aberrant or unwanted expression or activity of a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or nucleic acid molecule. In one embodiment, the method involves administering an agent (e.g., an agent identified by a screening assay described herein), or combination of agents that modulates (e.g., upregulates or downregulates) ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression or activity. In another embodiment, the method involves administering a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polypeptide or nucleic acid molecule as therapy to compensate for reduced, aberrant, or unwanted ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 expression or activity.


Stimulation of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is desirable in situations in which ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 is abnormally downregulated and/or in which increased ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is likely to have a beneficial effect. For example, stimulation of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is desirable in situations in which a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 is downregulated and/or in which increased ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is likely to have a beneficial effect. Likewise, inhibition of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is desirable in situations in which ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 is abnormally upregulated and/or in which decreased ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 activity is likely to have a beneficial effect.


Methods of Treatment


In another aspect, provided are methods for identifying a risk of cancer in an individual as described herein and, if a genetic predisposition is identified, treating that individual to delay or reduce or prevent the development of cancer. Such a procedure can be used to treat breast cancer. Optionally, treating an individual for cancer may include inhibiting cellular proliferation, inhibiting metastasis, inhibiting invasion, or preventing tumor formation or growth as defined herein. Suitable treatments to prevent or reduce or delay breast cancer focus on inhibiting additional cellular proliferation, inhibiting metastasis, inhibiting invasion, and preventing further tumor formation or growth. Treatment usually includes surgery followed by radiation therapy. Surgery may be a lumpectomy or a mastectomy (e.g., total, simple or radical). Even if the doctor removes all of the cancer that can be seen at the time of surgery, the patient may be given radiation therapy, chemotherapy, or hormone therapy after surgery to try to kill any cancer cells that may be left. Radiation therapy is the use of x-rays or other types of radiation to kill cancer cells and shrink tumors. Radiation therapy may use external radiation (using a machine outside the body) or internal radiation. Chemotherapy is the use of drugs to kill cancer cells. Chemotherapy may be taken by mouth, or it may be put into the body by inserting a needle into a vein or muscle. Hormone therapy often focuses on estrogen and progesterone, which are hormones that affect the way some cancers grow. If tests show that the cancer cells have estrogen and progesterone receptors (molecules found in some cancer cells to which estrogen and progesterone will attach), hormone therapy is used to block the way these hormones help the cancer grow. Hormone therapy with tamoxifen is often given to patients with early stages of breast cancer and those with metastatic breast cancer. Other types of treatment being tested in clinical trials include sentinel lymph node biopsy followed by surgery and high-dose chemotherapy with bone marrow transplantation and peripheral blood stem cell transplantation. Any preventative/therapeutic treatment known in the art may be prescribed and/or administered, including, for example, surgery, chemotherapy and/or radiation treatment, and any of the treatments may be used in combination with one another to treat or prevent breast cancer (e.g., surgery followed by radiation therapy).


Also provided are methods of preventing or treating cancer comprising providing an individual in need of such treatment with a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 inhibitor that reduces or inhibits the overexpression of mutant ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 (e.g., a ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 polynucleotide with an allele that is associated with cancer). Included herein are methods of reducing or blocking the expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 comprising providing or administering to individuals in need of reducing or blocking the expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 a pharmaceutical or physiologically acceptable composition comprising a molecule capable of inhibiting expression of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197, e.g., a siRNA molecule. Also included herein are methods of reducing or blocking the expression of secondary regulatory genes regulated by ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 that play a role in oncogenesis which comprises introducing competitive inhibitors that target the effect of ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 or LOC145197 on these regulatory genes or that block the binding of positive factors necessary for the expression of these regulatory genes.


The examples set forth below are intended to illustrate but not limit the invention.


EXAMPLES

In the following studies a group of subjects were selected according to specific parameters relating to breast cancer. Nucleic acid samples obtained from individuals in the study group were subjected to genetic analysis, which identified associations between breast cancer and certain polymorphic variants in ICAM region, MAPK10, KIAA0861, NUMA1/FLJ20625/LOC220074 region, and HT014/LOC148902/LYPLA2/GALE region loci (herein referred to as “target genes”, “target nucleotides”, “target polypeptides” or simply “targets”). In addition, methods are described for combining information from multiple SNPs from the target genes found to be independently associated with breast cancer status in a case-control study. The resulting model permits a powerful, more informative quantitation of the combined value of the SNPs for predicting breast cancer susceptibility.


Example 1
Samples and Pooling Strategies

Sample Selection


Blood samples were collected from individuals diagnosed with breast cancer, which were referred to as case samples. Also, blood samples were collected from individuals not diagnosed with breast cancer as gender and age-matched controls. All of the samples were of German/German descent. A database was created that listed all phenotypic trait information gathered from individuals for each case and control sample. Genomic DNA was extracted from each of the blood samples for genetic analyses.


DNA Extraction from Blood Samples


Six to ten milliliters of whole blood was transferred to a 50 ml tube containing 27 ml of red cell lysis solution (RCL). The tube was inverted until the contents were mixed. Each tube was incubated for 10 minutes at room temperature and inverted once during the incubation. The tubes were then centrifuged for 20 minutes at 3000×g and the supernatant was carefully poured off. 100-200 μl of residual liquid was left in the tube and was pipetted repeatedly to resuspend the pellet in the residual supernatant. White cell lysis solution (WCL) was added to the tube and pipetted repeatedly until completely mixed. While no incubation was normally required, the solution was incubated at 37° C. or room temperature if cell clumps were visible after mixing until the solution was homogeneous. 2 ml of protein precipitation was added to the cell lysate. The mixtures were vortexed vigorously at high speed for 20 sec to mix the protein precipitation solution uniformly with the cell lysate, and then centrifuged for 10 minutes at 3000×g. The supernatant containing the DNA was then poured into a clean 15 ml tube, which contained 7 ml of 100% isopropanol. The samples were mixed by inverting the tubes gently until white threads of DNA were visible. Samples were centrifuged for 3 minutes at 2000×g and the DNA was visible as a small white pellet. The supernatant was decanted and 5 ml of 70% ethanol was added to each tube. Each tube was inverted several times to wash the DNA pellet, and then centrifuged for 1 minute at 2000×g. The ethanol was decanted and each tube was drained on clean absorbent paper. The DNA was dried in the tube by inversion for 10 minutes, and then 1000 μl of 1×TE was added. The size of each sample was estimated, and less TE buffer was added during the following DNA hydration step if the sample was smaller. The DNA was allowed to rehydrate overnight at room temperature, and DNA samples were stored at 2-8° C.


DNA was quantified by placing samples on a hematology mixer for at least 1 hour. DNA was serially diluted (typically 1: 80, 1: 160, 1: 320, and 1: 640 dilutions) so that it would be within the measurable range of standards. 125 μl of diluted DNA was transferred to a clear U-bottom microtitre plate, and 125 μl of 1×TE buffer was transferred into each well using a multichannel pipette. The DNA and 1×TE were mixed by repeated pipetting at least 15 times, and then the plates were sealed. 50 μl of diluted DNA was added to wells A5-H12 of a black flat bottom microtitre plate. Standards were inverted six times to mix them, and then 50 μl of 1×TE buffer was pipetted into well A1, 1000 ng/ml of standard was pipetted into well A2, 500 ng/ml of standard was pipetted into well A3, and 250 ng/ml of standard was pipetted into well A4. PicoGreen (Molecular Probes, Eugene, Oreg.) was thawed and freshly diluted 1: 200 according to the number of plates that were being measured. PicoGreen was vortexed and then 50 μl was pipetted into all wells of the black plate with the diluted DNA. DNA and PicoGreen were mixed by pipetting repeatedly at least 10 times with the multichannel pipette. The plate was placed into a Fluoroskan Ascent Machine (microplate fluorometer produced by Labsystems) and the samples were allowed to incubate for 3 minutes before the machine was run using filter pairs485 nm excitation and 538 nm emission wavelengths. Samples having measured DNA concentrations of greater than 450 ng/μl were re-measured for conformation. Samples having measured DNA concentrations of 20 ng/μl or less were re-measured for confirmation.


Pooling Strategies


Samples were placed into one of two groups based on disease status. The two groups were female case groups and female control groups. A select set of samples from each group were utilized to generate pools, and one pool was created for each group. Each individual sample in a pool was represented by an equal amount of genomic DNA. For example, where 25 ng of genomic DNA was utilized in each PCR reaction and there were 200 individuals in each pool, each individual would provide 125 pg of genomic DNA. Inclusion or exclusion of samples for a pool was based upon the following criteria: the sample was derived from an individual characterized as Caucasian; the sample was derived from an individual of German paternal and maternal descent; the database included relevant phenotype information for the individual; case samples were derived from individuals diagnosed with breast cancer; control samples were derived from individuals free of cancer and no family history of breast cancer; and sufficient genomic DNA was extracted from each blood sample for all allelotyping and genotyping reactions performed during the study. Phenotype information included pre- or post-menopausal, familial predisposition, country or origin of mother and father, diagnosis with breast cancer (date of primary diagnosis, age of individual as of primary diagnosis, grade or stage of development, occurrence of metastases, e.g., lymph node metastases, organ metastases), condition of body tissue (skin tissue, breast tissue, ovary tissue, peritoneum tissue and myometrium), method of treatment (surgery, chemotherapy, hormone therapy, radiation therapy). Samples that met these criteria were added to appropriate pools based on gender and disease status.


The selection process yielded the pools set forth in Table 1, which were used in the studies that follow:

TABLE 1Female CASEFemale CONTROLPool size272276(Number)Pool Criteriacasecontrol(ex: case/control)Mean Age59.655.4(ex: years)


Example 2
Association of Polymorphic Variants with Breast cancer

A whole-genome screen was performed to identify particular SNPs associated with occurrence of breast cancer. As described in Example 1, two sets of samples were utilized, which included samples from female individuals having breast cancer (breast cancer cases) and samples from female individuals not having cancer (female controls). The initial screen of each pool was performed in an allelotyping study, in which certain samples in each group were pooled. By pooling DNA from each group, an allele frequency for each SNP in each group was calculated. These allele frequencies were then compared to one another. Particular SNPs were considered as being associated with breast cancer when allele frequency differences calculated between case and control pools were statistically significant. SNP disease association results obtained from the allelotyping study were then validated by genotyping each associated SNP across all samples from each pool. The results of the genotyping were then analyzed, allele frequencies for each group were calculated from the individual genotyping results, and a p-value was calculated to determine whether the case and control groups had statistically significantly differences in allele frequencies for a particular SNP. When the genotyping results agreed with the original allelotyping results, the SNP disease association was considered validated at the genetic level.


SNP Panel Used for Genetic Analyses


A whole-genome SNP screen began with an initial screen of approximately 25,000 SNPs over each set of disease and control samples using a pooling approach. The pools studied in the screen are described in Example 1. The SNPs analyzed in this study were part of a set of 25,488 SNPs confirmed as being statistically polymorphic as each is characterized as having a minor allele frequency of greater than 10%. The SNPs in the set reside in genes or in close proximity to genes, and many reside in gene exons. Specifically, SNPs in the set are located in exons, introns, and within 5,000 base-pairs upstream of a transcription start site of a gene. In addition, SNPs were selected according to the following criteria: they are located in ESTs; they are located in Locuslink or Ensemble genes; and they are located in Genomatix promoter predictions. SNPs in the set also were selected on the basis of even spacing across the genome, as depicted in Table 2.


A case-control study design using a whole genome association strategy involving approximately 28,000 single nucleotide polymorphisms (SNPs) was employed. Approximately 25,000 SNPs were evenly spaced in gene-based regions of the human genome with a median inter-marker distance of about 40,000 base pairs. Additionally, approximately 3,000 SNPs causing amino acid substitutions in genes described in the literature as candidates for various diseases were used. The case-control study samples were of female German origin (German paternal and maternal descent) 548 individuals were equally distributed in two groups (female controls and female cases). The whole genome association approach was first conducted on 2 DNA pools representing the 2 groups. Significant markers were confirmed by individual genotyping.

TABLE 2General StatisticsSpacing StatisticsTotal # of SNPs28,532Median34,424bp# of Exonic SNPs8,497(30%)Minimum*1,000bp# SNPs with26,625(93%)Maximum*3,000,000bprefSNP IDGene Coverage23,874Mean122,412bpChromosomeAllStd Deviation354,bpCoverage
*Excludes outliers


Allelotyping and Genotyping Results


The genetic studies summarized above and described in more detail below identified allelic variants associated with breast cancer. The allelic variants identified from the SNP panel described in Table 2 are summarized below in Table 3.

TABLE 3Chromo-PositionSNPChromo-somein SEQ IDContigContigSequenceSequenceAllelicReferencesomePositionNO: 1-7IdentificationPositionIdentificationLocusPositionVariability11549918191026393844247NT_0112951665740NM_003259ICAM regionExonC/T(I301V) 154199848740853936424NT_01635411444849NM_002753MAPK10intronC/T 2001449318404984948563NT_00561289424094NM_015078KIAA0861intronG/CNM_006185NUMA1upstreamT/C 673478117152541249002NT_0339271998133NM_017907FLJ20625downstreamNM_145309LOC220074intronNM_000403GALEdownstreamA/G  423712358360487877NT_0046104917379NM_020362HT0143′utrNM_007260LYPLA2upstream 1990440147126719540095NT_02643753197195NM_012074DPF3intronG/C 10547451499900494NT_02643781830494XM_096734LOC145197upstreamG/A


Table 3 includes information pertaining to the incident polymorphic variant associated with breast cancer identified herein. Public information pertaining to the polymorphism and the genomic sequence that includes the polymorphism are indicated. The genomic sequences identified in Table 3 may be accessed at the http address www.ncbi.nih.gov/entrez/query.fcgi, for example, by using the publicly available SNP reference number (e.g., rs1541998). The chromosome position refers to the position of the SNP within NCBI's Genome Build 34, which may be accessed at the following http address: www.ncbi.nlm.nih.gov/mapview/map_search.cgi?chr=hum_chr.inf&query=. The “Contig Position” provided in Table 3 corresponds to a nucleotide position set forth in the contig sequence, and designates the polymorphic site corresponding to the SNP reference number. The sequence containing the polymorphisms also may be referenced by the “Sequence Identification” set forth in Table 3. The “Sequence Identification” corresponds to cDNA sequence that encodes associated target polypeptides (e.g., NUMA1) of the invention. The position of the SNP within the cDNA sequence is provided in the “Sequence Position” column of Table 3. Also, the allelic variation at the polymorphic site and the allelic variant identified as associated with breast cancer is specified in Table 3. All nucleotide sequences referenced and accessed by the parameters set forth in Table 3 are incorporated herein by reference. The positions for these SNPs are indicated in the tables below and in SEQ ID NO: 1-7.


Assay for Verifying, Allelotyping, and Genotyping SNPs


A MassARRAY™ system (Sequenom, Inc.) was utilized to perform SNP genotyping in a high-throughput fashion. This genotyping platform was complemented by a homogeneous, single-tube assay method (hME™ or homogeneous MassEXTEND™ (Sequenom, Inc.)) in which two genotyping primers anneal to and amplify a genomic target surrounding a polymorphic site of interest. A third primer (the MassEXTEND™ primer), which is complementary to the amplified target up to but not including the polymorphism, was then enzymatically extended one or a few bases through the polymorphic site and then terminated.


For each polymorphism, SpectroDESIGNER™ software (Sequenom, Inc.) was used to generate a set of PCR primers and a MassEXTEND™ primer was used to genotype the polymorphism. Table 4 shows PCR primers and Table 5 shows extension primers used for analyzing polymorphisms. The initial PCR amplification reaction was performed in a 5 μl total volume containing 1×PCR buffer with 1.5 mM MgCl2 (Qiagen), 200 μM each of dATP, dGTP, dCTP, dTTP (Gibco-BRL), 2.5 ng of genomic DNA, 0.1 units of HotStar DNA polymerase (Qiagen), and 200 nM each of forward and reverse PCR primers specific for the polymorphic region of interest.

TABLE 4PCR PrimersRefer-enceForwardReverseSNP IDPCR primerPCR primer11549918GACAGCCACAGCTAGCGCAGATGTTTTCGCCCCCCAGGGTGAC1541998CTGATTATTCTGATGGTAATGGCCCATGTTAACATTTTCTTC2001449ATGTCAAGTGCACCCACATGAGGAAGAAACTGACGGAAGG673478TAATACAAAGGTGGCAGCAGTTGACAAGGATAAGGACAAG4237GCACATGGCCACATTAACTGGTGGCTGTGGAAATTGGGTCTTG1990440CCAGGGTGTGTTCTAATACGAAGTCACTAACCCCACACAC1054745GACTTTTAGGTCTGAGTTGGCTTCCTCTAGCAGTGTATTTC


Samples were incubated at 95° C. for 15 minutes, followed by 45 cycles of 95° C. for 20 seconds, 56° C. for 30 seconds, and 72° C. for 1 minute, finishing with a 3 minute final extension at 72° C. Following amplification, shrimp alkaline phosphatase (SAP) (0.3 units in a 2 μl volume) (Amersham Pharmacia) was added to each reaction (total reaction volume was 7 μl) to remove any residual dNTPs that were not consumed in the PCR step. Samples were incubated for 20 minutes at 37° C., followed by 5 minutes at 85° C. to denature SAP.


Once the SAP reaction was complete, a primer extension reaction was initiated by adding a polymorphism-specific MassEXTEND™ primer cocktail to each sample. Each MassEXTEND™ cocktail included a specific combination of dideoxynucleotides (ddNTPs) and deoxynucleotides (dNTPs) used to distinguish polymorphic alleles from one another. In Table 5, ddNTPs are shown and the fourth nucleotide not shown is the dNTP.

TABLE 5Extend PrimersReferenceExtendTermSNP IDProbeMix11549918CCCAGGGTGACGTTGCAGAACG1541998ATTATTCTGATGGTAATGATCCAGACG2001449CACATGCCTGCTCGCCCCCACT673478AAGGGGAGGTCGACTGGGACT4237GGCATCTGGCAGTCATGGACT1990440CGTCAGCAAATGTGTACCGAACT10547457TTGGTCCATTAGGGAATTAGAACG


The Mass EXTEND™ reaction was performed in a total volume of 9 μl, with the addition of 1× ThermoSequenase buffer, 0.576 units of ThermoSequenase (Arnersham Pharmacia), 600 nM MassEXTEND™ primer, 2 mM of ddATP and/or ddCTP and/or ddGTP and/or ddTTP, and 2 mM of dATP or dCTP or dGTP or dTTP. The deoxy nucleotide (dNTP) used in the assay normally was complementary to the nucleotide at the polymorphic site in the amplicon. Samples were incubated at 94° C. for 2 minutes, followed by 55 cycles of 5 seconds at 94° C., 5 seconds at 52° C., and 5 seconds at 72° C.


Following incubation, samples were desalted by adding 16 μl of water (total reaction volume was 25 μl), 3 mg of SpectroCLEAN™ sample cleaning beads (Sequenom, Inc.) and allowed to incubate for 3 minutes with rotation. Samples were then robotically dispensed using a piezoelectric dispensing device (SpectroJET™ (Sequenom, Inc.)) onto either 96-spot or 384-spot silicon chips containing a matrix that crystallized each sample (SpectroCHIP® (Sequenom, Inc.)). Subsequently, MALDI-TOF mass spectrometry (Biflex and Autoflex MALDI-TOF mass spectrometers (Bruker Daltonics) can be used) and SpectroTYPER RT™ software (Sequenom, Inc.) were used to analyze and interpret the SNP genotype for each sample.


Genetic Analysis


Variations identified in the target genes are provided in their respective genomic sequences (see FIGS. 1-7) Minor allelic frequencies for these polymorphisms was verified as being 10% or greater by determining the allelic frequencies using the extension assay described above in a group of samples isolated from 92 individuals originating from the state of Utah in the United States, Venezuela and France (Coriell cell repositories).


Genotyping results are shown for female pools in Table 6A and 6B. Table 6A shows the orginal genotyping results and Table 6B shows the genotyped results re-analyzed to remove duplicate individuals from the cases and controls (i.e., individuals who were erroneously included more than once as either cases or controls). Therefore, Table 6B represents a more accurate measure of the allele frequencies for this particular SNP. In the subsequent tables, “AF” refers to allelic frequency; and “F case” and “F control” refer to female case and female control groups, respectively.

TABLE 6ABreastCancerReferenceAF FAF FAssoc.SNP IDcasecontrolp-valueOdds RatioAllele11549918C = 0.651C = 0.5640.00380.69CT = 0.349T = 0.436 1541998T = 0.780T = 0.8390.01530.69CC = 0.220C = 0.161 2001449G = 0.703G = 0.7800.00401.49CC = 0.297C = 0.220 673478T = 0.919T = 0.9530.02381.74CC = 0.081C = 0.047  4237A = 0.590A = 0.5300.04310.78AG = 0.410G = 0.470 1990440C = 0.876C = 0.9260.00270.65GG = 0.124G = 0.074 1054745A = 0.871A = 0.8050.0039AG = 0.129G = 0.195














TABLE 6B













Breast







Cancer


Reference
AF F
AF F


Assoc.


SNP ID
case
control
p-value
Odds Ratio
Allele







11549918
C = 0.658
C = 0.556

0.0012

0.65
C



T = 0.342
T = 0.444


 1541998

T = 0.771

T = 0.839

0.0070

0.65
C



C = 0.229
C = 0.161


 2001449

G = 0.693

G = 0.782

0.0012

1.59
C



C = 0.307
C = 0.218


 673478

T = 0.916

T = 0.953

0.0171

1.85
C



C = 0.084
C = 0.047


  4237
A = 0.584
A = 0.527
0.0704
0.79
A



G = 0.416
G = 0.473


 1990440
C = 0.879
C = 0.915

0.0692

0.67
G



G = 0.121
G = 0.085


 1054745

A = 0.866

A = 0.801

0.0061

1.60
A



G = 0.134
G = 0.199









The single marker alleles set forth in Table 3 were considered validated, since the genotyping data for the females, males or both pools were significantly associated with breast cancer, and because the genotyping results agreed with the original allelotyping results. Particularly significant associations with breast cancer are indicated by a calculated p-value of less than 0.05 for genotype results, which are set forth in bold text.


Odds ratio results are shown in Tables 6A and 6B. An odds ratio is an unbiased estimate of relative risk which can be obtained from most case-control studies. Relative risk (RR) is an estimate of the likelihood of disease in the exposed group (susceptibility allele or genotype carriers) compared to the unexposed group (not carriers). It can be calculated by the following equation:

RR=IA/Ia

    • IA is the incidence of disease in the A carriers and Ia is the incidence of disease in the non-carriers.
    • RR>1 indicates the A allele increases disease susceptibility.
    • RR≦1 indicates the a allele increases disease susceptibility.


For example, RR=1.5 indicates that carriers of the A allele have 1.5 times the risk of disease than 50% more likely to get the disease.


Case-control studies do not allow the direct estimation of IA and Ia, therefore relative risk cannot be directly estimated. However, the odds ratio (OR) can be calculated using the following equation:

OR=(nDAnda)/(ndAnDa)=pDA(1−pdA)/pdA(131 pDA), or

    • OR=((case f)/(1−case f))/((control f)/(1−control f)), where f=susceptibility allele frequency.


An odds ratio can be interpreted in the same way a relative risk is interpreted and can be directly estimated using the data from case-control studies, i.e., case and control allele frequencies. The higher the odds ratio value, the larger the effect that particular allele has on the development of breast cancer. Possessing an allele associated with a relatively high odds ratio translates to having a higher risk of developing or having breast cancer.


Example 3
Samples and Pooling Strategies for the Replication Samples

The SNPs of Table 3 were genotyped again in a collection of replication samples to further validate its association with breast cancer. Like the original study population described in Examples 1 and 2, the replication samples consisted of females diagnosed with breast cancer (cases) and females without cancer (controls). The case and control samples were selected and genotyped as described below.


Pooling Strategies


Samples were placed into one of two groups based on disease status. The two groups were female case groups and female control groups. A select set of samples from each group were utilized to generate pools, and one pool was created for each group. Each individual sample in a pool was represented by an equal amount of genomic DNA. For example, where 25 ng of genomic DNA was utilized in each PCR reaction and there were 190 individuals in each pool (i.e., 190 cases and 190 controls), each individual would provide 125 pg of genomic DNA. Inclusion or exclusion of samples for a pool was based upon the following criteria: the sample was derived from a female individual characterized as Caucasian from Australia; case samples were derived from individuals diagnosed with breast cancer; control samples were derived from individuals free of cancer and no family history of breast cancer; and sufficient genomic DNA was extracted from each blood sample for all allelotyping and genotyping reactions performed during the study. Samples in the pools also were age-matched. Samples that met these criteria were added to appropriate pools based on gender and disease status.


The selection process yielded the “Griffith” samples set forth in Table 7A and the “Kiechle” samples set forth in Table 7B, which were used in the studies that follow:

TABLE 7AFemale CASEFemale CONTROLPool size190190(Number)Pool Criteriacasecontrol(ex: case/control)Mean Age64.5**(ex: years)
** Each case was matched by a control within 5 years of age of the case.












TABLE 7B











Female CASE
Female CONTROL




















Pool size
195
153



(Number)



Pool Criteria
case
control



(ex: case/control)










The replication genotyping results are shown in Table 8A for the Griffith samples and in Table 8B for the Kiechle samples. The odds ratio was calculated as described in Example 2.

TABLE 8AReferenceAFAFSNP IDF caseF controlp-valueOdds Ratio11549918C = 0.650C = 0.5840.06240.75T = 0.350T = 0.4161541998T = 0.820T = 0.8640.10100.72C = 0.180C = 0.1362001449G = 0.685G = 0.7770.0051.59C = 0.315C = 0.223673478T = 0.927T = 0.9570.0771.76C = 0.073C = 0.0434237A = 0.632A = 0.5770.12601.26G = 0.368G = 0.4231990440C = 0.822C = 0.8600.1720.756G = 0.178G = 0.1401054745A = 0.894A = 0.9210.2240.726G = 0.106G = 0.079













TABLE 8B








Reference
AF
AF




SNP ID
F case
F control
p-value
Odds Ratio



















11549918

C = 0.641

C = 0.570

0.066

0.74



T = 0.359
T = 0.430


1541998

T = 0.811

T = 0.791
0.521
1.14



C = 0.189
C = 0.209


2001449

G = 0.754

G = 0.716
0.267
0.82



C = 0.246
C = 0.284


673478
T = 0.942
T = 0.955
0.474
1.30




C = 0.058

C = 0.045


4237

A = 0.618

A = 0.587
0.429
0.88



G = 0.382
G = 0.413


1990440
C = 0.889
C = 0.924
0.124
0.66




G = 0.111

G = 0.076


1054745

A = 0.877

A = 0.819

0.0396

1.57



G = 0.123
G = 0.181









The absence of a statistically significant association in the replication cohort should not be interpreted as minimizing the value of the original finding. There are many reasons why a biologically derived association identified in a sample from one population would not replicate in a sample from another population. The most important reason is differences in population history. Due to bottlenecks and founder effects, there may be common disease predisposing alleles present in one population that are relatively rare in another, leading to a lack of association in the candidate region. Also, because common diseases such as breast cancer are the result of susceptibilities in many genes and many environmental risk factors, differences in population-specific genetic and environmental backgrounds could mask the effects of a biologically relevant allele. For these and other reasons, statistically strong results in the original, discovery sample that did not replicate in the replication sample may be further evaluated in additional replication cohorts and experimental systems.


Example 4
ICAM Region Proximal SNPs

It has been discovered that a polymorphic variation (rs11549918) in a region that encodes ICAM1, ICAM2 and ICAM5 is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs1549918) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately 195 allelic variants located within the ICAM region were identified and allelotyped. The polymorphic variants are set forth in Table 9. The chromosome position provided in column four of Table 9 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 9Position inChromosomeAlleleGenomeDeduceddbSNP rs#SEQ ID NO: 1ChromosomePositionVariantsLetterIupac28844872301910219830t/ccY235858042821910223882a/ggR2304236118441910231444a/caM1059840118901910231490a/ttW1059843119051910231505c/tcY11115119421910231542t/ccY1059849120541910231654g/aaR1059855120701910231670t/ccY5030386214971910241097c/gcS5030339215371910241137a/ggR5030387216821910241282t/gtK5030388220731910241673a/ggR1799766223931910241993c/—cN5030389223941910241994a/—aN5490232271910242827c/aaM11575070236141910243214c/ggS5030340236811910243281c/tcY5030390239371910243537a/ggR5030391240371910243637a/ggR3093035243731910243973a/ggR11667983245891910244189c/tcY503034124675-246761910244275{circumflex over ( )}ct/—ctNN102442765030342246801910244280t/ggK5030343247541910244354t/ccY5030344250531910244653g/agR5030347260041910245604a/ccM5030348260231910245623a/gaR5030349260461910245646t/ccY5030350261001910245700a/taW5030351268171910246417t/ccY5491269401910246540t/aaW5030352271431910246743g/ccS5030353271621910246762a/ggR10420063283281910247928g/aaR11879117287991910248399g/cgS5030354291661910248766a/caM5030355293311910248931a/caM281428297241910249324c/tcY5030358297731910249373g/aaR5030359298621910249462a/ggR5030392298771910249477t/ccY5030393301941910249794t/ggK5030360302581910249858t/ggK5030394305491910250149a/ggR281429306481910250248t/ccY5030361309091910250509t/ccY5030362309621910250562a/ccM281430313371910250937g/aaR281431313451910250945t/ctY5030395315341910251134c/tcY5827095319421910251542a/—aN281432320581910251658g/ccS5030364321091910251709a/ttW5030365324011910252001a/gaR5030368328451910252445g/aaR5030369328641910252464t/ccY307380932965-329661910252565{circumflex over ( )}tt/—ttNN102525662358581330111910252611g/ttK7258215331701910252770c/ttY5030371335161910253116a/ggR5030372336081910253208t/ctY281433336231910253223a/caM5030374336721910253272c/aaM5030375337241910253324a/—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-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


Assay for Verifying and Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 9 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 10 and Table 11, respectively.

TABLE 10dbSNP rs#Forward PCR primerReverse PCR primer2884487ACGTTGGATGTGTGGCAAATGATGGAACAGACGTTGGATGCCAGAAGTTTGAGATCTGCC2358580ACGTTGGATGTCGCGTGCGTGACGTCATCCACGTTGGATGCGGGAGGTCAAGGCCACTG2304236ACGTTGGATGTCACATCAACAGTGGTACGGACGTTGGATGAGCCTGCCCTACAGCGACTT1059840ACGTTGGATGTCGGCCTGGCTCAGAAGAGGACGTTGGATGACCCCTACCCCACGCTACCCA1059843ACGTTGGATGCCACCCCGTACCACTGTTGAACGTTGGATGTGAGGCTCCCAAGTCGGCCA11115ACGTTGGATGAGGTGACACCTTCCTCGAAGACGTTGGATGTGTGAAGCACCTCTTCTGAG1059849ACGTTGGATGGGAATGGATGCAGAAGCCCGACGTTGGATGAAGCTGAGGCCACAGGGAG1059855ACGTTGGATGAAAAACAAAAAGAGGGAATGACGTTGGATGGGCCATCGCCATTGGGAAG5030386ACGTTGGATGTTGAACTCCTGGGCTCAAGTACGTTGGATGAGACAAAAATCCACCTGGGC5030339ACGTTGGATGTCAAGTGATCCTCCCATCTCACGTTGGATGGGACACAGGAATGAACAGAG5030387ACGTTGGATGAAGAACGGCACCATTGTGGCACGTTGGATGTTCCACTGAGCTCTTGCCCC5030388ACGTTGGATGTCGGAGATCTCCATGGCGAACGTTGGATGACCACGTCGAGGCTGGGTAC1799766ACGTTGGATGGTTTCCCCGCGGAGCCTGGACGTTGGATGTCCCTACGCGCCGAGCCCC5030389ACGTTGGATGAAAAGGAAGGAAGCTGCGTGACGTTGGATGAAGCTAGCTGCCTCAGTTTC5490ACGTTGGATGCCTCTGCTACTCAGAGTTGCACGTTGGATGACTCACCTGGGAACAGAGC11575070ACGTTGGATGTAGCCTTACCTCCTGCCTCAACGTTGGATGACGCAATCTAGCCAAGCAAG5030340ACGTTGGATGATGAGAGGTGTGAACCACCGACGTTGGATGTGGCCGCTATAACGTTTCCC5030390ACGTTGGATGTTATCCGTGGCCCAAAGCTGACGTTGGATGAAAGACCCTCTGACCCCTTC5030391ACGTTGGATGTGTAAGTTTGGGGAACCAGGACGTTGGATGCTGGATCTCAGGCTTTGTTG3093035ACGTTGGATGGGAGACATAGCGAGATTCTGACGTTGGATGTAGAAAGCAGTGCGATCTGG11667983ACGTTGGATGATCTTTGAGTGAGGCAGTGCACGTTGGATGAGGGGCTTATTTGGATCAGG5030341ACGTTGGATGGAATCTGAGGGACCTGATCCACGTTGGATGTTGCAGTGAGCCGAGATCAC5030342ACGTTGGATGTTTTTGAGACGGAGTCTCACACGTTGGATGAGGAGAATCGTTTGAACCTG5030343ACGTTGGATGTGTAGTCCCAGCTACTCAGGACGTTGGATGTGATCTCGGCTCACTGCAAC5030344ACGTTGGATGAAGAAGTCAGGTGGAGACAGACGTTGGATGAAATTGAGGCCCAAAGAGGG5030347ACGTTGGATGAATCTCAGCTCACTGCAACCACGTTGGATGGCCTGTAATCCCAGATACTC5030348ACGTTGGATGGGAGAATCACTTGAACCCGGACGTTGGATGAGTCTCGCTTTGTCACTCAG5030349ACGTTGGATGTCTCGCTTTGTCACTCAGACACGTTGGATGAATCACTTGAACCCGGGAGG5030350ACGTTGGATGCACTGAAGGCCATGCTAAAGACGTTGGATGACTCCAGTCTGAGTGACAAA5030351ACGTTGGATGTGCCAGGTCCTAGAAGAAACACGTTGGATGCGCACATTCCCTTGATGAAC5491ACGTTGGATGTGACATGCAGCACCTCCTGTACGTTGGATGGGAGCAACTCCTTTTTAGGC5030352ACGTTGGATGTACGAGCAAGTGGCAAAGATTACGTTGGATGTGAGTAACTGAGCCCGGAGG5030353ACGTTGGATGTACTGTGAGTAACTGAGCCCACGTTGGATGAGCAAGTGGCAAAGATTCCC10420063ACGTTGGATGATCTCCTGACCTTGTGATCCACGTTGGATGGCCCTGGGATGGCATTTTTC11879117ACGTTGGATGTGGTCAGGCTGGTCTCGAACTACGTTGGATGAAATGTCATGGGCTGGGCAC5030354ACGTTGGATGCTCTCTTCTCATAGCCAGCTACGTTGGATGATTAGGGAAGGGCAGTTTCG5030355ACGTTGGATGGGCCGGAGAATCACTTAAACACGTTGGATGAGAGTTTCACTCTTGTTGCC281428ACGTTGGATGAGTAGCTGGAATTACAGGCGACGTTGGATGGCCAACATGATGAAATCCCG5030358ACGTTGGATGCACAAGGTCAGGAGATCAAGACGTTGGATGCCACGCCTGGCTAATTTTTG5030359ACGTTGGATGCCAAAGTGCTGGGATTACAGACGTTGGATGAAGTCCCCAAAGTAGGAAGG5030392ACGTTGGATGTTCGAAGTCCCCAAAGTAGGACGTTGGATGAAAGTGCTGGGATTACAGGC5030393ACGTTGGATGTAGTCCCAGCTACTCAGGAGACGTTGGATGTGTCATCACGGCTCACTACA5030360ACGTTGGATGTGTAGTGAGCCGTGATGACAACGTTGGATGTCCCAAAGCTACTTGGCCAG5030394ACGTTGGATGTGAGCAGATGCTGACCTTCCACGTTGGATGAAGACCTTCAAAGAGGTTTC281429ACGTTGGATGCGACAGAGCAAGACTGTGTGACGTTGGATGCTTTTCTGCATCTCTGCCTG5030361ACGTTGGATGTATGCTCTCAGCTATCAGGCACGTTGGATGACTCTAGACCTCTGGTGATC5030362ACGTTGGATGCCACAGTCATAGAGGGAGAAACGTTGGATGCCTGATAGCTGAGAGCATAG281430ACGTTGGATGATTACAGGTGTGAGCCACTGACGTTGGATGGCAGGGAGAAATCTTGATGG281431ACGTTGGATGACTGGGATTACAGGTGTGAGACGTTGGATGGGAGAAATCTTGATGGAGGC5030395ACGTTGGATGAACTACTCTGGAGGCTCAAGACGTTGGATGCAGAGTGAGACTCCATCTCA5827095ACGTTGGATGCCCTTCCTCCCATCAATCAAACGTTGGATGATTGCACCACTGCATTCCAG281432ACGTTGGATGTCAGCTATCTAATCCCTGGCACGTTGGATGAGCTGGGACTTTCCTTCTTG5030364ACGTTGGATGTTCTTGAATACGGTCACTGCACGTTGGATGCTGAAGGCTGGATTTACTGG5030365ACGTTGGATGAGCTGGAGGTCAGAGTTTTCACGTTGGATGCCTGAGACCCTGTCTCTAAA5030368ACGTTGGATGTCATCTGAGGTTGGGAGTTCACGTTGGATGCGACACCACACAAGGCTAAT5030369ACGTTGGATGAGGTGGATCATCTGAGGTTGACGTTGGATGGACAGGGTTTCTCCATGTTG3073809ACGTTGGATGACCGTGCCCGGCCTTTTTTTACGTTGGATGATCGAACCACTGCACTCCTG2358581ACGTTGGATGTAAGGCAGGAGGATGGAGTGACGTTGGATGGACAGAGTCTCACTCTGTCG7258215ACGTTGGATGGTTTCACCGTGTTAGCCAGGACGTTGGATGACATGGTGGCTCACGCCTGTA5030371ACGTTGGATGACTGGGATTACAGATGTGAGACGTTGGATGGTGCTTAAAAGGGATGAATC5030372ACGTTGGATGGTACATAAGCAGGAGGTTTCACGTTGGATGTCTGTACAAACAACCATGAC281433ACGTTGGATGACAGAGTCGCTGTACATAAGACGTTGGATGGTACAAACAACCATGACTAC5030374ACGTTGGATGTGTACAGCGACTCTGTCTACACGTTGGATGCTCTGAACCTCAGTTTCCTG5030375ACGTTGGATGTCTCCTACCTTTAATAGCCCACGTTGGATGTTCTTTGCTGTGGGTAAGTG5030397ACGTTGGATGCTGGGTATCAAATGCAGGACACGTTGGATGAGAGTGAGAGTCTCTCTCAG281434ACGTTGGATGTAATCCCAACACTTTGGGGGACGTTGGATGAACACCACGCCTGGCTAATT12462944ACGTTGGATGTTTCACTATATTGGCCAGGCACGTTGGATGTGTAATCCCAACACTTTGGG5030398ACGTTGGATGCCACACGCAGCCTTTTTGTTACGTTGGATGGAACTGTGATCATGCCACTG5030378ACGTTGGATGAGGCTTGTCTTGAACTCCTGACGTTGGATGTGATGGCTCAGGCTGTAATC12459133ACGTTGGATGAAAGTGCTAGGATTACAGCCACGTTGGATGTAAATGAGCCTGGCCTAGAC5030399ACGTTGGATGAGGTCCACTTCACCAGACACACGTTGGATGTAAGGTTCTTGCCCACTGGC5492ACGTTGGATGACCGTGGTCGTGACCTCAGACGTTGGATGAACCTCACCGTGGTGCTGCT1800019ACGTTGGATGACAGCCCGTCCAGGGAACAACGTTGGATGTCCTAGAGGTGGACACGCA1799969ACGTTGGATGTCAACCTCTGGTCCCCCAGTGACGTTGGATGAGGGGACCGTGGTCTGTTC5493ACGTTGGATGTCCTAGAGGTGGACACGCAGACGTTGGATGTGGACCTGGGCCTCCGAGACT5030381ACGTTGGATGTATGGCAACGACTCCTTCTCACGTTGGATGTATTACTGCACACGTCAGCC5494ACGTTGGATGTAAGGCCTCAGTCAGTGTGAACGTTGGATGAGTATTACTGCACACGTCAG3093033ACGTTGGATGAAAGCCTGGAATAGGCACACACGTTGGATGTGCAGACAGTGACCATCTAC5495ACGTTGGATGTCACACTTCACTGTCACCTCACGTTGGATGTGTGCCTATTCCAGGCTTTC1801714ACGTTGGATGCTAGAGCCAAGGTGACGCTGACGTTGGATGTGGCCTTCAGCAGGAGCTGG2071441ACGTTGGATGAGCTTCTCCTGCTCTGCAACACGTTGGATGTCACACAGGACACGAAGCTC5496ACGTTGGATGAAGGTCTTGCCTCCAAGTCCACGTTGGATGACAATCCCTCTCGTCCAGTC5497ACGTTGGATGCTCCATGTCATCTCATCGTGACGTTGGATGAATTTTCTGGCCACGTCCAG5030382ACGTTGGATGCTCACAGAGCACATTCACGGACGTTGGATGAGATCTTGAGGGCACCTACC5030400ACGTTGGATGGGACCTAATGCAATCCTCACACGTTGGATGGCTACCACAGTGATGATGAC2071440ACGTTGGATGACTGCCACCAATATGGGAAGACGTTGGATGAAACCGAACACACAAGCCAC5499ACGTTGGATGGGAAGACATATGCCATGCAGACGTTGGATGATCTGACTGAGGACAATGCC3093032ACGTTGGATGGGCCACTTCTTCTGTAAGTCACGTTGGATGCATGAGGACATACAACTGGG1057981ACGTTGGATGGTACAACTGTACCTGGTGACACGTTGGATGAATGAACATAGGTCTCTGGC5500ACGTTGGATGTTGTACAGGTTGTACACTGCACGTTGGATGAGGTTGGCCAATGAGAAGTC5501ACGTTGGATGCTGTGAACCATTACCAGTCCACGTTGGATGACTTCTCATTGGCCAACCTG5030383ACGTTGGATGATATTCCCTGGGCACTCATGACGTTGGATGTCCCCACCCACATACATTTC281436ACGTTGGATGCATGGTTCACTGCAGTCTTGACGTTGGATGTGTGGTGTTGTGAGCCTATG923366ACGTTGGATGAGGAAGTCTGGGCAATGTTGACGTTGGATGATAGGCTCACAACACCACAC281437ACGTTGGATGATAGGCTCACAACACCACACACGTTGGATGAACACAAAGGAAGTCTGGGC3093030ACGTTGGATGAGAGACCCAGAAGGTCATAGACGTTGGATGCCTCCCCCAAGAAAACATTG5030384ACGTTGGATGTGCGCAGGAAAAACACGCTGACGTTGGATGACTGTCAACTACCCTTCCCC5030385ACGTTGGATGATTAGGAACGGAACACAGGGACGTTGGATGAGAGAGTTATGACCCCGAGA3810159ACGTTGGATGTTGCGATCACTTTCTCCAAGACGTTGGATGCTGAGTGAGGAAACCTCAGG281438ACGTTGGATGACCTGAGGTTTCCTCACTCAGACGTTGGATGAGAGGTTTCTGTGACACCCG3093029ACGTTGGATGGGCAGCTCTGATTGGATGTTACGTTGGATGCTCCACAGTTGTTTGGCCTC2735442ACGTTGGATGATGCTTTTGACTCCGCTTCCACGTTGGATGATGTTCTGGTAGTCACCCAG2569693ACGTTGGATGCTTGTTCTCGCGTGGATGTCACGTTGGATGTACTCAGCGTGTGTGAGCTC281439ACGTTGGATGGCGGAGCCATACCTCTAAGCACGTTGGATGTCGCTGGCACTTTCGTCCC281440ACGTTGGATGCTGGCTGAGATGCCATGATAACGTTGGATGATGGTGGGAGGAGCTAAATG2569694ACGTTGGATGCGCCCCCTCCTTGGAAACCACGTTGGATGGCGCGGCGGGTGGGGTGTG11575073ACGTTGGATGGCTCTTCGGCCTCTCAGGTACGTTGGATGAGGCCGTTTCTCAGGTCCAG2569695ACGTTGGATGAGTCCCTGGACCTGAGAAACACGTTGGATGAGAAGACTCAGGCTCGAGGT2075741ACGTTGGATGAAGATGCCAGTCCGTGGACCACGTTGGATGAGTGTCTCTCCTGTCCGCTC11575074ACGTTGGATGTACCTCCTTACGCTGTGCTGACGTTGGATGAGTTGGAGAGATGGAGTCTT2569696ACGTTGGATGAACTACCCTGACTCAGAGGCACGTTGGATGCTGGGCTCATGGAAGGAACC2735439ACGTTGGATGTTCCTTCCATGAGCCCAGCCACGTTGGATGGGTCAAGGATCAGGAAGGAC2569697ACGTTGGATGTGTCTCTGGGACGTGGTAGCACGTTGGATGTTTCCTCTCCTCTACGCCCT2075742ACGTTGGATGAGCCAGGGAAAGAACCCAGGACGTTGGATGTTTAGACTCTGGGAGTGCGC2569698ACGTTGGATGTTTAAACCGGAGGCCTGGGCACGTTGGATGTCAAGGGTTCTCAGAGGGCG11669397ACGTTGGATGGGCTGAATTGCAGCACCAACACGTTGGATGAACCAACGCAAACCCCTCTG901886ACGTTGGATGATCAGCTCTACGCGATCTGGACGTTGGATGTTCAGGCCCCACCTTCTGTTC885742ACGTTGGATGCCTAAGCACTTGACATGCACACGTTGGATGATGCTGACCCCGACTTCAAC2569699ACGTTGGATGAATGCTGACCCCGACTTCAAACGTTGGATGGCACTTGACATGCACTATCT11549918ACGTTGGATGTTTTCGCCCCCCAGGGTGACACGTTGGATGACAGCCACAGCTAGCGCAGA2569700ACGTTGGATGGGGACCTCAGTACCGGAACAACGTTGGATGCTCCCCAGCGATTACGTCTC2228615ACGTTGGATGGGGCAGATGGTGACAGTAACACGTTGGATGTGGAACTCCCTCCAGTGTGAICAM-AAACGTTGGATGACCTTCTGGTGACTTCCAAGACGTTGGATGAGACGTAAGAAATGGCTCCG2569701ACGTTGGATGCCAGACCTTGAACCAGATAGACGTTGGATGTCAAGGACGTAACGCTAACG2569702ACGTTGGATGACCCTCCAGACCTTGAACCAACGTTGGATGACGTAACGCTAACGGTGGAG2735440ACGTTGGATGTAGTCGAGCCATGCACTCTGACGTTGGATGGGCAGTCCAGAGTGTTTAAG2569703ACGTTGGATGTCAGGAAGCTCCCAGACAGAACGTTGGATGATAACCCTTGGACGCCGATC10418913ACGTTGGATGCCAAAGCCAACAATACACTCACGTTGGATGCAGCCAAGTAATGCGTTCTG1056536ACGTTGGATGATTCTGGGAGCTCTGGGACTACGTTGGATGAGCCAAGCGTGAAGTGCGTG2569704ACGTTGGATGGATTCATCCATCTCCGGTGGACGTTGGATGTCCAGGCACTCCCTGACATC11673661ACGTTGGATGAAGCGATTCTCCTGCCTCAGACGTTGGATGTGGCGAAAACCCGTCTCTAC10402760ACGTTGGATGAAGAGGATCCTGCCTCCTATACGTTGGATGGAAGGGCGAGGAATTTTAGCACGTTGGATGTGCGCCCAGGAGGAAACTTCACGTTGGATGCAGCTGATCTGGGCTGGAG2569706ACGTTGGATGCTGTTGTTGCTCGACAGGCCACGTTGGATGTGGCCTCCAGCCCAGATCA2569707ACGTTGGATGTGAGCGTGGCAGGCGCCATGACGTTGGATGGCGTGGCGCCCGTGCGCGT2436545ACGTTGGATGGGCGCATCACGGTGCGCGTACGTTGGATGAAGACCCAGGTCACGCCCCC2436546ACGTTGGATGTCTCAGATACCTCGCCCCGCACGTTGGATGCGCATCACGGTGCGCGTGG2916060ACGTTGGATGGGCGAGGTATCTGAGAGGGACGTTGGATGTACTCTGTCCCACTTCCGTC2916059ACGTTGGATGGGGCGAGGTATCTGAGAGGACGTTGGATGCTTTGACTTCTACTCTGTCC2916058ACGTTGGATGTCAAAGTGCGATCAACAGCCACGTTGGATGCTCTCGGTCCCGGTAGACT2569708ACGTTGGATGCGGTAGACTAGACGGAAGTGACGTTGGATGAAAGTGCGATCAACAGCCCC735747ACGTTGGATGATCTTCCCCACAGTGGATTGACGTTGGATGACTGCTGCAGGAAAGGACTT885743ACGTTGGATGTGAGAGAAGGCGATCTTGACACGTTGGATGCCAATTCACAATCCACTGTG710845ACGTTGGATGAGGCCGAGAGCTCAGGCGAGACGTTGGATGTCGGGTCCGCCCTCCGCGCCT2569709ACGTTGGATGTATTCAACTCCAAGGGCGTCACGTTGGATGAGAAACAGAAGCGGAGACAG2569710ACGTTGGATGACCCCCATTTTCTACCCATCACGTTGGATGTTGCAGAAACAGAAGCGGAG2569711ACGTTGGATGTGTCTCCGCTTCTGTTTCTGACGTTGGATGTGAATAACTCGGGAGGTCAC2569712ACGTTGGATGACCCCAGGCCCTCTCAAAAAACGTTGGATGTCTGCAAGGTGGAACAAGCC12610026ACGTTGGATGCGGTGGCTCATGCGTGTAATACGTTGGATGCTCCCGAATAGCTGGGACTA4804129ACGTTGGATGTAACACGGTGAAACCCCGTCACGTTGGATGTGAGTAGCTGGGACTACAGG12150978ACGTTGGATGAGACAGCAAGACTCCGTCTCACGTTGGATGCCCGCCTTAGTTTCCCAAAG439843ACGTTGGATGTGGCTAACATGGTGAAACCCACGTTGGATGTTGAGTAGCTGGGACTACAG892188ACGTTGGATGGTTTGTTTTTAGAGACAGGGACGTTGGATGGTCAAAGCCACTTCCAGCTA2291473ACGTTGGATGAAGAGGCTATGTGGCAGATGACGTTGGATGAGGGTGAAGCTGGGTTTAAC281416ACGTTGGATGTAACGTAGAGCACAGGTGAGACGTTGGATGCAACGCAAACACCAGTGTGG281417ACGTTGGATGAAGAGACAGTGGAGAGGCTGACGTTGGATGAGAGCCATCGGGTCCCAGCAA882589ACGTTGGATGTCGATAACCCCAGCAAAGAGACGTTGGATGTAAGGCCAAACCCCATTCCC1048941ACGTTGGATGAGATTGTGCTGACACCGGAGACGTTGGATGCCACGTAGAAGTTCCTGGTG281418ACGTTGGATGTGCGCTCAGTCAGCTTCCTCACGTTGGATGAGTGTTAGCCGAGGGCAAGC430092ACGTTGGATGGTTGGGATTACAGGCATGAGACGTTGGATGATCTGTTGCCTGTCAAGATG368835ACGTTGGATGGGTGGGAAAAAGACGTGAAGACGTTGGATGAGAGGGAATTAAGGAGGTCC2358583ACGTTGGATGAAGACGTGAAGAGACACACCACGTTGGATGAGAGGGAATTAAGGAGGTCC378395ACGTTGGATGACTTGGCCCCCTGCACTCACAACGTTGGATGACCGTGTTTTCCAGGCTCGCG395782ACGTTGGATGATGCATGTCATGGCCGCCTCACGTTGGATGTTCCACCAGGTGCCCCTGGCA1045384ACGTTGGATGTTCAACAAGCGAGTGACAGCACGTTGGATGGTGCAGAGATGGGCTTTCTC281427ACGTTGGATGGACAATTGTAGTACCCAGCCACGTTGGATGAGGAGAATCGCTTGAACCTG3745264ACGTTGGATGCAAAGTGCTAGGATCACAGGACGTTGGATGACTGCCCCATAGAGTGGCAA281426ACGTTGGATGATCCTCACACCTCAGTCTCCACGTTGGATGAATGAGACTCCGTCTCTACC281425ACGTTGGATGCCAGCGGCCCAGCTCACTCACGTTGGATGTCTGAGGCCAGAGCCTCGGA281424ACGTTGGATGACCTGTGTTTCTAGGTGTGCACGTTGGATGCATGCCTGGGAAAAAACTCC281423ACGTTGGATGAACCTCAAGCTGCTTCACTGACGTTGGATGGAGGAGCCCACCTTTAATGT281422ACGTTGGATGAGAAATCCTCCTACCTTGGCACGTTGGATGGCCCGGCCTCTACATAAAAT281420ACGTTGGATGCCAGGACTGTCTCTCTGTTTACGTTGGATGATGACACTACAGCCTGAGCA3745263ACGTTGGATGTACATGAAGAAGGACTCGGCACGTTGGATGATCCGTCCAGTGCACGTAGA3745262ACGTTGGATGGCAGCCGAGTCCTTCTTCATACGTTGGATGTTCCTGGTCTACAGTGAGCG3745261ACGTTGGATGACACACAGCAGGGCATCCGTACGTTGGATGCGCAATCAATGCTTTCCACC3181049ACGTTGGATGATCTTCAGGGATGGTCACTCACGTTGGATGGACAAATACAAAGGGACAGG281412ACGTTGGATGTGACCTCAGGTGATTCACCCACGTTGGATGGGTATACCTTTAGCTGGCTG3181048ACGTTGGATGCTTTTCTCCACCCACTCTACACGTTGGATGTAAACGCGTGATATGGAGGG2230399ACGTTGGATGAGCGGCAGTTACCATGTTAGACGTTGGATGTTCTTCCCCCATTGCTTCTG2278442ACGTTGGATGGGTGATGGACATTGAGGGTGACGTTGGATGTCCCTTCTGTCTCCAACCC3181047ACGTTGGATGGAATGCGACAGTCATGAACCACGTTGGATGCCCCTAGGGTCACGTTGCA3181046ACGTTGGATGTATCTTGCTGACTGGGTCACACGTTGGATGCGTGGGATCTTTGAAGAAGG2304237ACGTTGGATGTGGGCCAGAACTTCACCCTGACGTTGGATGAAGCAGCACCACCGTGAGG281413ACGTTGGATGTCAAAGCTCACAGTTCTCGGACGTTGGATGACTTAGCGGGTCCTGCAAAC1058154ACGTTGGATGTCCCTTCCATCCTCATTTTTACGTTGGATGTGCAAGGCGCTAAACAAAAC3176769ACGTTGGATGTTCCTGTTTATGGCCAGACGACGTTGGATGGTCTGAACCTGATTGGAGAG2304238ACGTTGGATGCCTGGACATTTGTGTGTGAGACGTTGGATGCATGAGATTGAGATGCGTC2304239ACGTTGGATGCAGGCTCCTCTAACATCACCACGTTGGATGACACCACTACCCAAGACCAG2304240ACGTTGGATGAATCTCAGCAACGTGACTGGACGTTGGATGACACGGTGATGTTAGAGGAG3176768ACGTTGGATGGAGAGGTGTTAAATGGTGGGACGTTGGATGGGAACATGAAGAAGTCCTGG3176767ACGTTGGATGCGGTCTCTGATGGATTCTACACGTTGGATGAACAGGCCCCACCATTTAAC3176766ACGTTGGATGTTTCGGGCTGCAATGGTCCCACGTTGGATGTAACACCTCTCTCCTTGTGC281414ACGTTGGATGAAGGCACCTTCCTCTGTCAGACGTTGGATGTGGGCCACAACACGGATGGTA281415ACGTTGGATGGCACAAAGAGCTAAGGTAGGACGTTGGATGGAATCCTGGATAGACAGTGG











TABLE 11








dbSNP rs#
Extend Primer
Term Mix


















2884487
AGAGACAGGGTCTCGCC
ACT






2358580
TCATCCAGCGGCGCCTCGC
ACT





2304236
GCCCTGGGTAGCGTGGGG
ACT





1059840
GCTCAGAAGAGGTGCTTCAC
CGT





1059843
CTGTTGATGTGAAGCACCTCTT
ACG





11115
AAGGGTGGGCGTGGGCCT
ACT





1059849
CAGAAGCCCGTCTGGGCT
ACG





1059855
AAAAAGAGGGAATGGATGCA
ACT





5030386
CCTGGGCTCAAGTGATCCT
ACT





5030339
GCTGGGATTACAGGTGGGA
ACT





5030387
TTGTGGCTGCAAGTGGGAC
ACT





5030388
CGCGCCCCACAACAGGAAA
ACT





1799766
GCGGAGCCTGGGACGCC
CGT





5030389
GCGCCGAGCCCCTCCGC
ACT





5490
CTACTCAGAGTTGCAACCTC
CGT





11575070
CCTGCCTCAGCCTCCCGA
ACT





5030340
GCGTCTCTTACAGTTTCTCAG
ACG





5030390
CCAAAGCTGAGAAGTGGGAC
ACT





5030391
GGGGAACCAGGAGGGTGG
ACT





3093035
TTCTGTCTCAAAAAACAAAGC
ACT





11667983
CCTTCGGAGGCAGCAGAAT
ACG





5030341
TTTTTGAGACGGAGTCTCACT
ACT





5030342
GACGGAGTCTCACTCTGTC
ACT





5030343
GCTACTCAGGGAGGCTGAG
ACT





5030344
CTCCTCACTCCCTGAGACA
ACG





5030347
CTGCCTCCCGGGTTCAAGT
ACT





5030348
CACTTGAACCCGGGAGGCA
ACT





5030349
CAGACTGGAGTGCAGTGGC
ACT





5030350
TGCTAAAGATGTGTTCTTTTATTT
CGT





5030351
GAAGAAACGAGGGAAGAGGC
ACT





5491
CCTCCTGTGACCAGCCCA
CGT





5030352
CTGCACGTCTCTCCCACC
ACT





5030353
GGTGGGAGAGACGTGCAG
ACT





10420063
CGCCCGGCCATCAATTCTTT
ACG





11879117
CCCTCAGCCTCCCAAAGTG
ACT





5030354
TGTCATTTCTCCCACTTCCTT
ACT





5030355
CAGGAGGTGAAGGTTGCGG
ACT





281428
GCGCCCAGCACCACGCC
ACG





5030358
CAGGAGATCAAGACCAGCC
ACG





5030359
AGCCACTGCCCCCAGCC
ACT





5030392
GTCCCCAAAGTAGGAAGGAC
ACT





5030393
AGGTGGGAGGATCACCTGA
ACT





5030360
CTCCAGCCTGGGTGACAGA
ACT





5030394
CAGGTGAGGGAAGTCCCC
ACT





281429
GACTGTGTGTCAAAAAAAA
ACT





5030361
TATCAGGCAGAGCCGCGC
ACT





5030362
AGAGGGAGAAATGTGGCAGA
ACT





281430
GAGCCACTGCACCTGGCC
ACG





281431
ACAGGTGTGAGCCACTGC
ACT





5030395
GGCTCAAGTGGGAGGATCA
ACG





5827095
CCATCAATCAATTTTTTTTTTTTTTT
CGT





281432
CTAATCCCTGGCCTGCTCA
ACT





5030364
GGACCATAGCCAACTGCTC
CGT





5030365
GGTCAGAGTTTTCTTGACTATAT
ACT





5030368
GAGACCAGCCTGACCAACA
ACG





5030369
TCATCTGAGGTTGGGAGTTC
ACT





3073809
CGGCCTTTTTTTTTTTTTTTTTTTTT
ACT





2358581
CTTGCAGTGAGCCCAGATCG
CGT





7258215
CGTGTTAGCCAGGATGGTCT
ACG





5030371
AGCCTVGCTTTCTTGAGATAC
ACT





5030372
GGTTTCTTTTTTAGAGTGATTGA
ACT





281433
GTACATAAGCAGGAGGTTTCTT
ACT





5030374
CTCTGTCTACCTCTTAAGTGA
CGT





5030375
GTTCAGGAAACTGAGGTTCAG
ACT





5030397
CAAATGCAGGACCCCCCC
ACT





281434
TCAAGACCAGCCTGGCCAA
ACG





12462944
ATATTGGCCAGGCTGGTCTT
ACT





5030398
CAGGGTCTTTCTTTCCCAGG
ACT





5030378
CCTGGCCTCAAGTGACCCT
ACT





12459133
CTGGCCAACAGGTTTTTTTTTTT
ACT





5030399
CCCCCACCTCTGTTTTCCT
ACT





5492
CTGGCTCCCGTTTCAGCTC
ACT





1800019
CGTCCAGGGAACAGACCAC
ACT





1799969
CCGAGACTGGGAACAGCC
ACG





5493
GGTCTGTTCCCTGGACGG
ACT





5030381
AGGCCTCAGTCAGTGTGAC
ACG





5494
TCAGTGTGACCGCAGAGGA
ACG





3093033
GGGTTCAGGTCACACCC
ACG





5495
CTCTGGCTTCGTCAGAATCA
ACG





1801714
CCAGCCCAGCCACTGGGCC
ACG





2071441
CGGCCAGCTTATACACAAGAA
ACG





5496
CACCTCCATGTCATCTCATC
ACT





5497
GTTTTTCCAGATGGCCCCC
ACT





5030382
CAGAGCACATTCACGGTCACCT
ACG





5030400
TCCTCCCCACAGCCCCC
ACG





2071440
GAGGAAGAGGCCCTGTCC
ACG





5499
GCCATGCAGCTACACCTAC
ACG





3093032
CTTCTGTAAGTCTGTGGG
ACT





105798
TTACCTGGTGACCTTGAATGTGAT
ACG





5500
GAGTGCCTGGCAAAAAGATCA
ACT





5501
CCATATAGTGCTTTTGTGCCG
ACT





5030383
ACTCATGTCCAGACATGACC
ACT





281436
ACTGCAGTCTTGACCTTTTG
ACT





923366
TGCGAGACCCCGTCTCTG
ACT





281437
TTTTTTTTCCAGAGACGGGGTCT
ACG





3093030
CCAGAACCTCAGGGTATG
ACT





5030384
ATCACCGCCTACAGTGAGG
ACT





5030385
AGGGAGGTCTGTCGACCC
ACT





3810159
CCAAGTTCCTTGTCTCCCT
ACT





281438
CGAAGCCCCAGACTCTGTGTA
ACT





3093029
AGTTTCCTATCCCAGCC
ACT





2735442
GCTTTGACACCCCCCACC
ACT





2569693
CGCGTGGATGTCAGGGCC
ACG





281439
ACCCCTCCGGGTCAGCTCC
ACT





281440
TAATAAGCTGGACTCCGAGC
ACG





2569694
ATCCCCAAGCGCAACTCTG
ACG





11575073
CGGCCTCTCAGGTAAGAGC
ACG





2569695
CTCTGCCCTCGCCTCGCT
ACT





2075741
GTGGACCATGGTGCACAGCA
ACT





11575074
CTGTGCACCATGGTCCACG
ACT





2569696
TGTTCCCGCTCCACCCAGA
ACT





2735439
CAGCCTTGCGTCCCGGC
ACT





2569697
GGGACGTGGTAGCAGAGAG
ACT





2075742
AACCCAGGCGTCCCGCGTC
ACT





2569698
TGGGTTCTTTCCCTGGCTG
ACT





11669397
TTGCAGCACCAACTGCCCT
ACG





901886
AGAGTCCGCAGCTCTTTGAAC
ACT





885742
TGCACTATCTTATCGTATTATCA
ACG





2569699
CCCTCCGTGCCTTGAGGA
ACT





11549918
CCCAGGGTGACGTTGCAGA
ACG





2569700
TCAGTACCGGAACAGGCGTG
ACT





2228615
AGTAACCTGCGCAGCTGGG
ACT





ICAM-AA
TCCAAGGACCCGCCTGCT
ACG





2569701
CTTGAACCAGATAGAAATGCAC
ACG





2569702
CAGACCTTGAACCAGATAGAA
ACT





2735440
ACCAGTGGCGCCTTTTTCG
ACG





2569703
CTCCCAGACAGAGTGCATG
ACT





10418913
GCACCAGCGCTGGACAGC
ACT





1056536
GCAGCAGCACCCCCTCAGTGG
ACG





2569704
CTCCGGTGGCGCTGCAAA
ACT





11673661
GGACCACAGGCGCCCAC
ACT





10402760
CTCCTTCCCCGACAATCAG
ACT






CACGTTGACCTGCCGCGC
ACT





2569706
GGCCGATGTTGAGGGCCC
ACG





2569707
GGCGAGTACGAGTGCGCA
ACT





2436545
ACGGTGCGCGTGGCCGGT
CGT





2436546
CCTCTCCCCAGCTGCCAC
ACT





2916060
CTCCCTCTCGGTCCCGG
ACT





2916059
CGGTCCCGGTAGACTAG
ACT





2916058
TTCTACTCTGTCCCACT
CGT





2569708
CTAGACGGAAGTGGGACAGA
ACT





735747
TGTGAATTGGGTCAAGTTTCC
ACT





885743
GACCCCTCTCTCCCTCCA
CGT





710845
AGGCGAGGCCGTGTGTCT
ACT





2569709
GGCGTCACCCCCATTTTCTA
ACT





2569710
TTTCTACCCATCCCCTCAATA
ACT





2569711
GTTTCTGCAAGGTGGAACAAG
ACT





2569712
GGCCCTCTCAAAAATCGCTT
CGT





12610026
AGCTGGGCATGGTGGTGC
ACT





4804129
AAACCCCGTCTCTACTAAAAAT
CGT





12150978
GCCAGGGCCGAGCACAGT
ACT





439843
ATGGTGAAACCCCGTCACTA
CGT





892188
TGGGCTGGAGCACAATGAC
ACT





2291473
GGAGTGTCCCTGGACCCC
ACT





281416
GGTCCACACCGACGCCAG
ACT





281417
CCCCTGCCCAGGACACCCC
ACT





882589
CCCCAGCAAAGAGAGGTCAT
ACT





1048941
GGAAGGAGCGGAATTCACCCT
ACT





281418
TCAGCTTCCTCCCTCCCC
ACT





430092
ATTACAGGCATGAGCCACTG
ACG





368835
AGACGTGAAGAGACACACCT
ACT





2358583
AAGAGACACACCTAATTTGTGG
ACT





378395
GCCCGCGTCCTCCTCTCC
CGT





395782
GCGTGAGTGCCAGGGTTCT
ACT





1045384
ACAATGTCCGACTCCCACA
ACT





281427
CTTTGTATACAATCTTCCCTC
ACG





3745264
ATACCATGCCAGGCATT
ACT





281426
GAGCTGGGACCACAGGCA
ACG





281425
CCAGCTCACTCCTCCCCC
CGT





281424
TAGGTGTGCGTGTGTGTGTG
ACG





281423
GCCCACCCTCCATTCAGC
ACG





281422
CTGGGGAACTACAGGAATGC
ACT





281420
ACTGTCTCTCTGTTTTTGAGAT
ACT





3745263
TCGGCTGCCCGTGCCAAGTC
ACT





3745262
GAGTCCTTCTTCATGTACTC
ACT





3745261
GCAGCTGCACCGACAGTTC
ACT





3181049
ACTCCCTGCCCTGGCCC
ACT





281412
GCTGGGATTATAAGCGTG
ACT





3181048
TACCACAGGGTGGCGGG
ACT





2230399
GTTACCATGTTAGGGAGGAGA
ACT





2278442
GGACATTGAGGGTGAGCTAA
ACG





3181047
CAGGAGGGTGCCCGGGA
ACT





3181046
ACTGGGTCACCCTTCTTC
ACT





2304237
TGCGCTGCCAAGTGGAGG
ACT





281413
GCTCACAGTTCTCGGCAGGAC
ACG





1058154
CTTCCATCCTCATTTTTTTTTATT
ACT





3176769
CGGGGTGGGTGGATCAA
ACT





2304238
CATTTGTGTGTGAGATACAAAGA
ACG





2304239
ATCACCGTGTACAGTGAGTC
ACT





2304240
GCTCAGTGTACTGCAATGGCTC
ACG





3176768
TGTTGATGCGTGGGTTGGGG
ACT





3176767
TGGATTCTACCTTTCCC
CGT





3176766
TCCTTCTGAGTTCTCCC
ACG





281414
CCTTCCTCTGTCAGAATGGC
ACG





281415
GGTGATTTGGGGACAGCTGA
ACT










Genetic Analysis of Allelotyping Results


Allelotyping results are shown for cases and controls in Table 12. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 12BreastPosition inCancerSEQ IDChromosomeA1/A2AssociateddbSNP rs#NO: 1PositionAlleleCase AFControl AFp-ValueORAllele2884487 23010219830T/CT = 0.788T = 0.760.3070.85TC = 0.212C = 0.2402358580 428210223882A/GA =A = 0.474G =G = 0.52623042361184410231444A/CA = 0.986A = 0.9950.3352.92CC = 0.014C = 0.00510598401189010231490A/TA = 0.19A = 0.2030.6021.09TT = 0.810T = 0.79710598431190510231505C/TC = 0.999C = 0.9990.961.26TT = 0.001T = 0.001111151194210231542T/CT = 0.566T = 0.6340.04011.33CC = 0.434C = 0.36610598491205410231654G/AG = 0.754G = 0.8040.06491.34AA = 0.246A = 0.19610598551207010231670T/CT = 0.001T = 0.0030.8383.25CC = 0.999C = 0.99750303862149710241097C/GC = 0.999C = 0.9990.9871.12GG = 0.001G = 0.00150303392153710241137A/GA = 0.002A = 0.0020.9930.93AG = 0.998G = 0.99850303872168210241282T/GT = 0.999T = 0.9950.7060.27TG = 0.001G = 0.00550303882207310241673A/GA = 0.001A = 0.0010.9683.66GG = 0.999G = 0.99917997662239310241993C/—C = 0.001C = 0.0020.9521.46— = 0.999— = 0.99850303892239410241994A/—A = 0.983A = 0.9790.7570.80A— = 0.017— = 0.02154902322710242827C/AC = 0.001C = 0.00111.00A = 0.999A = 0.999115750702361410243214C/GC = 0.001C = 0.0010.9861.58GG = 0.999G = 0.99950303402368110243281C/TC = 0.963C = 0.9670.8291.13TT = 0.037T = 0.03350303902393710243537A/GA = 0.191A = 0.1450.07480.72AG = 0.809G = 0.85550303912403710243637A/GA = 0.012A = 0.0440.03733.95GG = 0.988G = 0.95630930352437310243973A/GA = 0.113A = 0.0850.2230.73AG = 0.887G = 0.915116679832458910244189C/TC = 1.000C = 0.9980.840.36CT = 0.000T = 0.002503034124675-10244275{circumflex over ( )}CT/—CT = 0.691CT = 0.7450.07461.302467610244276— = 0.309— = 0.25550303422468010244280T/GT = 0.373T = 0.3890.6341.07GG = 0.627G = 0.61150303432475410244354T/CT = 0.674T =C = 0.326C =50303442505310244653G/AG = 1.000G = 1.0000.9520.35GA = 0.000A = 0.00050303472600410245604A/CA = 0A = 01C = 1.000C = 1.00050303482602310245623A/GA = 0.076A = 0.0720.8430.95AG = 0.924G = 0.92850303492604610245646T/CT = 0.832T = 0.8190.6180.92TC = 0.168C = 0.18150303502610010245700A/TA = 1.000A = 1.0001T = 0T = 050303512681710246417T/CT = 0.002T = 0.0020.9981.02CC = 0.998C = 0.99854912694010246540T/AT = 0.001T = 0.0020.8533.82AA = 0.999A = 0.99850303522714310246743G/CG = 0.631G = 0.620.7320.96GC = 0.369C = 0.38050303532716210246762A/GA = 0.002A = 0.0040.8582.12GG = 0.998G = 0.996104200632832810247928G/AG = 0.001G = 0.0020.8646.56AA = 0.999A = 0.998118791172879910248399G/CG = 0.998G = 1.0000.8443.03CC = 0.002C = 0.00050303542916610248766A/CA = 0.999A = 1.0000.9891.15CC = 0.001C = 0.00050303552933110248931A/CA = 0.999A = 0.9990.9851.12CC = 0.001C = 0.0012814282972410249324C/TC = 0.821C = 0.8230.9511.01TT = 0.179T = 0.17750303582977310249373G/AG = 0.006G = 0.0070.9661.12AA = 0.994A = 0.99350303592986210249462A/GA = 0.001A = 0.0030.8584.75GG = 0.999G = 0.99750303922987710249477T/CT = 0.002T = 0.0010.9580.59TC = 0.998C = 0.99950303933019410249794T/GT = 0T = 0.0050.836GG = 1.000G = 0.99550303603025810249858T/GT = 0T = 0.0010.972GG = 1.000G = 0.99950303943054910250149A/GA = 0.005A = 0.0060.9261.23GG = 0.995G = 0.9942814293064810250248T/CT = 0.999T = 1.0000.9382.63CC = 0.001C = 0.00050303613090910250509T/CT = 0.002T = 0.0020.9891.10CC = 0.998C = 0.99850303623096210250562A/CA = 0.004A = 0.0020.7910.29AC = 0.996C = 0.9982814303133710250937G/AG = 0.015G = 0.0080.4980.51GA = 0.985A = 0.9922814313134510250945T/CT =T = 0.886TC =C = 0.11450303953153410251134C/TC = 0.998C = 0.9980.9731.11TT = 0.002T = 0.00258270953194210251542A/—A = 0.532A = 0.5320.9861.00A— = 0.468— = 0.4682814323205810251658G/CG = 0.51G = 0.5530.1941.19CC = 0.490C = 0.44750303643210910251709A/TA = 0.001A = 0.0020.9024.40TT = 0.999T = 0.99850303653240110252001A/GA = 1.000A = 1.00011.03G = 0.000G = 0.00050303683284510252445G/AG = 0.099G = 0.0970.9010.97GA = 0.901A = 0.90350303693286410252464T/CT = 0.506T = 0.4870.5410.92TC = 0.494C = 0.513307380932965-10252565{circumflex over ( )}TT/—T = 0.848T = 0.8590.691.103296610252566— = 0.152— = 0.14123585813301110252611G/TG = 0.904G = 0.9190.5251.20TT = 0.096T = 0.08172582153317010252770C/TC = 0.85C = 0.8470.880.97CT = 0.150T = 0.15350303713351610253116A/GA = 0.001A = 0.0010.9690.58AG = 0.999G = 0.99950303723360810253208T/CT = 1.000T = 1.0000.9971.08CC = 0.000C = 0.0002814333362310253223A/CA = 1.000A = 1.0000.9891.34CC = 0.000C = 0.00050303743367210253272C/AC = 0.156C =AA = 0.844A =50303753372410253324A/—A = 0.999A = 1.0000.942.17— = 0.001— = 0.00050303973378710253387T/GT = 0.231T = 0.180.06970.73TG = 0.769G = 0.8202814343402010253620G/AG = 0.932G = 0.930.9020.97GA = 0.068A = 0.070124629443403810253638C/GC = 0.004C = 0.0060.8881.32GG = 0.996G = 0.99450303983419010253790C/GC = 0.959C = 0.9930.0645.64GG = 0.041G = 0.00750303783470610254306C/GC = 0.993C = 0.9950.9181.25GG = 0.007G = 0.005124591333477810254378T/GT = 0.376T = 0.3470.3650.88TG = 0.624G = 0.65350303993555310255153A/GA = 0.002A = 0.0010.9220.23AG = 0.998G = 0.99954923569010255290G/CG = 1.000G = 1.0000.9930.00GC = 0C = 0.00018000193617310255773A/CA = 0.002A = 0.0010.9140.47AC = 0.998C = 0.99917999693619210255792G/AG = 0.882G = 0.8490.1340.75GA = 0.118A = 0.15154933619410255794T/GT = 0.001T = 00.990.00TG = 0.999G = 1.00050303813630810255908C/TC = 0.877C =T = 0.123T =54943631710255917C/TC = 0.999C = 1.0000.8735.90TT = 0.001T = 0.00030930333643110256031G/AG = 0.991G = 0.9690.1130.30GA = 0.009A = 0.03154953649610256096G/AG = 1.000G = 0.9990.8880.19GA = 0.000A = 0.00118017143660810256208C/TC = 0.995C = 0.980.1290.25CT = 0.005T = 0.02020714413670810256308C/TC = 1.000C = 1.0000.9931.25TT = 0.000T = 0.00054963684710256447A/GA = 0.003A = 0.0090.4694.06GG = 0.997G = 0.99154973686810256468A/GA = 0.004A = 0.0060.8131.61GG = 0.996G = 0.99450303823708310256683G/AG = 0.449G = 0.5120.04841.29AA = 0.551A = 0.48850304003719610256796C/TC = 1.000C = 0.9990.9690.76CT = 0.000T = 0.00120714403737310256973G/AG = 0.999G = 1.0000.8755.74AA = 0.001A = 0.00054993746510257065C/TC = 0.994C = 1.0000.478.13TT = 0.006T = 0.00030930323773610257336T/CT = 0.322T = 0.2670.06620.77TC = 0.678C = 0.73310579813795910257559G/AG = 0.032G = 0.0260.6930.80GA = 0.968A = 0.97455003803110257631A/GA = 0.995A = 0.9960.8681.35GG = 0.005G = 0.00455013809110257691T/CT = 1.000T = 0.9990.8620.06TC = 0.000C = 0.00150303833824310257843T/CT = 0.002T = 0.0010.9640.58TC = 0.998C = 0.9992814363853110258131A/GA = 0.501A = 0.4520.1320.82AG = 0.499G = 0.5489233663862310258223T/CT = 0.517T = 0.5620.1611.20CC = 0.483C = 0.4382814373863810258238C/TC = 0.804C = 0.8520.07931.39TT = 0.196T = 0.14830930303880310258403T/CT = 0.553T = 0.6060.1371.24CC = 0.447C = 0.39450303843948910259089A/GA = 0.001A = 0.0010.9880.80AG = 0.999G = 0.99950303854000810259608G/CG = 0.002G = 0.0020.9740.79GC = 0.998C = 0.99838101594071110260311T/CT = 0.001T = 0.0010.91568.31CC = 0.999C = 0.9992814384077510260375T/GT = 0.767T = 0.8020.311.23GG = 0.233G = 0.19830930294095110260551C/GC = 0.912C = 0.920.6831.11GG = 0.088G = 0.08027354424121810260818G/CG = 0.999G = 0.9990.970.79GC = 0.001C = 0.00125696934130410260904C/TC = 0.703C = 0.6410.04790.75CT = 0.297T = 0.3592814394151010261110G/CG = 0.471G = 0.4180.1110.81GC = 0.529C = 0.5822814404170410261304G/AG = 0.268G = 0.2550.6760.94GA = 0.732A = 0.74525696944202010261620C/TC = 0.999C = 0.9990.9721.20TT = 0.001T = 0.001115750734221010261810C/TC = 0.924C =TT = 0.076T =25696954230210261902C/GC = 1.000C = 0.9980.8150.02CG = 0.000G = 0.00220757414249810262098G/CG = 0.715G = 0.6310.01120.68GC = 0.285C = 0.369115750744252010262120A/GA = 0.088A = 0.0970.7021.11GG = 0.912G = 0.90325696964260710262207A/GA = 0.005A = 0.0040.9090.69AG = 0.995G = 0.99627354394267410262274T/GT = 1.000T = 1.0000.928GG = 0.000G = 025696974292910262529G/CG = 1.000G = 1.0000.973.84CC = 0.000C = 0.00020757424300710262607G/CG =G = 0.638GC =C = 0.36225696984304010262640C/GC = 1.000C = 1.0000.98GG = 0.000G = 0116693974324610262846C/TC = 1.000C = 1.0000.9620.00CT = 0T = 0.0009018864353110263131T/CT = 0.667T = 0.6450.5440.90TC = 0.333C = 0.3558857424402310263623G/AG = 0.012G = 0.0160.6331.46AA = 0.988A = 0.98425696994402410263624T/GT = 0.999T = 1.0000.9621.82GG = 0.001G = 0.000115499184433810263938C/TC = 0.635C = 0.5620.02930.74CT = 0.365T = 0.43825697004449910264099T/GT = 0.006T = 0.0110.7031.80GG = 0.994G = 0.98922286154476810264368A/GA = 0.402A = 0.4840.03181.40GG = 0.598G = 0.516ICAM-AA4500310264603C/TC = 0.934C = 0.9580.3091.59TT = 0.066T = 0.04225697014534110264941G/AG = 1.000G = 1.0000.91710.14AA = 0.000A = 0.00025697024534710264947T/CT = 0.709T = 0.6460.06810.75TC = 0.291C = 0.35427354404557710265177G/AG = 0.01G = 0.0060.6240.52GA = 0.990A = 0.99425697034562710265227C/GC = 0.563C = 0.5270.2740.86CG = 0.437G = 0.473104189134579410265394A/GA = 0.001A = 0.0020.9232.09GG = 0.999G = 0.99810565364624410265844C/TC = 1.000C = 1.0000.9892.49TT = 0.000T = 0.00025697044646910266069T/CT = 0.003T = 0.0010.9050.24TC = 0.997C = 0.999116736614699910266599G/CG = 0.997G = 0.9990.8742.39CC = 0.003C = 0.001104027604726510266865T/CT = 0.168T = 0.1040.02760.58TC = 0.832C = 0.896ICAM-AB4750410267104A/GA = 0.264A =G = 0.736G =25697064754710267147G/AG = 0.997G = 1.0000.66645.64AA = 0.003A = 0.00025697074763710267237C/GC = 0.173C = 0.1710.9420.99CG = 0.827G = 0.82924365454769110267291C/AC = 0.001C = 0.0010.9910.86CA = 0.999A = 0.99924365464769210267292A/CA = 1.000A = 0.9980.8660.26AC = 0.000C = 0.00229160604778810267388A/CA = 0.99A = 0.9930.8031.39CC = 0.010C = 0.00729160594779610267396T/CT = 0.999T = 0.9990.9680.73TC = 0.001C = 0.00129160584780010267400T/AT = 1.000T = 0.9990.8690.30TA = 0.000A = 0.00125697084781210267412A/GA = 0.004A = 0.0030.9360.73AG = 0.996G = 0.9977357474796910267569T/CT = 0.999T = 1.0000.912.15CC = 0.001C = 0.0008857434803510267635A/TA = 0.661A = 0.6760.6981.07TT = 0.339T = 0.3247108454856910268169C/GC = 0.744C = 0.6650.01560.68CG = 0.256G = 0.33525697094882310268423C/GC = 0.999C = 1.0000.9671.45GG = 0.001G = 0.00025697104883810268438A/GA = 0.999A = 0.9980.9430.71AG = 0.001G = 0.00225697114889410268494C/GC = 1.000C = 1.0000.980.60CG = 0.000G = 0.00025697124893410268534A/TA = 1.000A = 1.0000.9831.93TT = 0.000T = 0.000126100264924910268849A/GA = 0.992A =GG = 0.008G =48041294950910269109C/AC = 0.002C = 0.0020.9780.83CA = 0.998A = 0.998121509784971810269318A/GA = 0.8A = 0.7820.5990.90AG = 0.200G = 0.2184398434996310269563C/AC = 1.000C = 0.9990.9810.82CA = 0.000A = 0.0018921885119310270793T/CT = 0.487T = 0.5670.01221.38CC = 0.513C = 0.43322914735718110276781T/CT = 0.913T = 0.9090.830.95TC = 0.087C = 0.0912814166018410279784A/GA = 0.456A = 0.4960.2211.18GG = 0.544G = 0.5042814176053010280130T/CT = 0.532T = 0.5260.860.98TC = 0.468C = 0.4748825896135410280954T/CT = 0T = 0.0020.865CC = 1.000C = 0.99810489416261610282216T/GT = 0.304T =G = 0.696G =2814186278510282385G/CG = 0.088G = 0.06800.3690.76GC = 0.912C = 0.9324300926635110285951C/TC = 0.764C = 0.7440.5880.90CT = 0.236T = 0.2563688356738610286986A/GA = 0.303A = 0.2740.3470.86AG = 0.697G = 0.72623585836739510286995T/GT = 0.696T = 0.6740.5050.90TG = 0.304G = 0.3263783956782210287422C/AC = 0.323C =AA = 0.677A =3957826802810287628T/CT = 0.726T = 0.6560.1150.72TC = 0.274C = 0.34410453846864610288246T/GT = 0.326T = 0.3020.4240.89TG = 0.674G = 0.6982814277052010290120C/TC = 0.785C = 0.8230.2261.27TT = 0.215T = 0.17737452647096610290566T/GT = 0.156T = 0.1640.761.06GG = 0.844G = 0.8362814267245110292051G/AG = 0.437G = 0.3210.0001960.61GA = 0.563A = 0.6792814257319910292799G/TG = 0.806G =T = 0.194T =2814247431910293919C/TC = 0.753C = 0.7480.8610.97CT = 0.247T = 0.2522814237689310296493C/TC = 0.804C = 0.8040.9931.00TT = 0.196T = 0.1962814227775510297355T/CT = 0.372T = 0.3640.8290.97TC = 0.628C = 0.6362814207935410298954A/GA = 0.608A = 0.5670.2130.85AG = 0.392G = 0.43337452638090110300501A/GA = 0.064A = 0.080.5131.27GG = 0.936G = 0.92037452628094010300540T/CT = 0.996T = 0.9990.7314.38CC = 0.004C = 0.00137452618111110300711T/CT = 0.987T = 0.9830.7520.76TC = 0.013C = 0.01731810498251710302117T/CT = 0.353T = 0.3630.7611.04CC = 0.647C = 0.6372814128287410302474T/CT = 0.846T = 0.8410.8230.96TC = 0.154C = 0.15931810488497810304578A/GA = 1.000A = 1.0000.980.46AG = 0.000G = 0.00022303998600310305603C/GC = 0.171C = 0.1610.7080.93CG = 0.829G = 0.83922784428622610305826G/AG = 0.42G = 0.4050.6740.94GA = 0.580A = 0.59531810478720610306806A/GA = 0.008A = 0.0030.6540.30AG = 0.992G = 0.99731810468753510307135T/CT = 0.999T = 1.0000.9462.38CC = 0.001C = 0.00023042378796810307568T/CT = 0.898T = 0.9070.7261.10CC = 0.102C = 0.0932814138813410307734G/AG = 0.697G = 0.7020.8771.03AA = 0.303A = 0.29810581548829710307897A/CA = 0.22A = 0.1860.310.81AC = 0.780C = 0.81431767698843410308034T/CT = 0.801T = 0.7860.5930.91TC = 0.199C = 0.21423042389060210310202G/AG = 0.002G = 0.0010.9540.62GA = 0.998A = 0.99923042399075010310350T/CT = 0.001T = 0.0030.8762.50CC = 0.999C = 0.99723042409079210310392G/AG = 0.828G = 0.7970.2610.82GA = 0.172A = 0.20331767689106510310665A/GA = 0.355A = 0.350.8710.98AG = 0.645G = 0.65031767679115110310751C/AC = 0.278C = 0.2770.9510.99CA = 0.722A = 0.72331767669117810310778C/TC = 0.768C = 0.7650.9370.99CT = 0.232T = 0.2352814149168510311285G/AG = 0.697G = 0.720.471.12AA = 0.303A = 0.2802814159239310311993T/GT = 0.341T = 0.3120.3430.88TG = 0.659G = 0.688



FIG. 1A shows proximal SNPs in and around the ICAM region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs FIG. 1A can be determined by consulting Table 12. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Additional Genotyping


In addition to the ICAM region incident SNP, fourteen other SNPs were genotyped in the discovery cohort. The discovery cohort is described in Example 1. The SNP rs2228615 is located in the ICAM5 encoding portion of the sequence, and is associated with breast cancer with a p-value of 0. .00236, and encoded non-synonymous amino acids (see Table 15).


The methods used to verify and genotype the two proximal SNPs of Table 15 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 13 and Table 14, respectively.

TABLE 13dbSNP rs#Forward PCR primerReverse PCR primer1801714ACGTTGGATGAGGGTTGCAGAGCAGGAGAAACGTTGGATGAGCCAAGGTGACGCTGAATG2228615ACGTTGGATGAGATGGTGACAGTAACCTGCACGTTGGATGTGGCATTTAGCTGAAGCTGG2569703ACGTTGGATGATAACCCTTGGACGCCGATCACGTTGGATGTTAGACGAAAAAGGCGCCAC1799969ACGTTGGATGAACCTCTGGTCCCCCAGTGCACGTTGGATGTCCTAGAGGTGGACACGCAG1059849ACGTTGGATGAAGCTGAGGCCACAGGGAGACGTTGGATGAGAGGGAATGGATGCAGAAG3093035ACGTTGGATGTAGAAAGCAGTGCGATCTGGACGTTGGATGGGAGACATAGCGAGATTCTG281439ACGTTGGATGGCTCGCTGGCACTTTCGTCACGTTGGATGGAGCCATACCTCTAAGCACC281432ACGTTGGATGAGCTGGGACTTTCCTTCTTGACGTTGGATGGCCTTCAGCTATCTAATCCC901886ACGTTGGATGTACGCGATCTGGTCGCTCTGACGTTGGATGTTCAGGCCCCACCTTCTGTT5030382ACGTTGGATGACTCACAGAGCACATTCACGACGTTGGATGAGATCTTGAGGGCACCTACC2569693ACGTTGGATGGTGTCTACTCAGCGTGTGTGACGTTGGATGCTTGTTCTCGCGTGGATGTC2569702ACGTTGGATGACCCTCCAGACCTTGAACCAACGTTGGATGGTCAAGGACGTAACGCTAAC3093030ACGTTGGATGACTTCCTCCCCCAAGAAAACACGTTGGATGAGAGACCCAGAAGGTCATAG2075741ACGTTGGATGAGACCCAGTGTCTCTCCTGTACGTTGGATGAAGATGCCAGTCCGTGGACC11549918ACGTTGGATGTAGATGGTCACGTTCTCCCGACGTTGGATGACAGCTAGCGCAGAGCAGGA











TABLE 14








dbSNP rs#
Extend Primer
Term Mix


















1801714
CCTTCAGCAGGAGCTGGGCCCTC
ACT






2228615
TAACCTGCGCAGCTGGG
ACT





2569703
GAGGTGTCACGCTAGTCGAG
ACT





1799969
CTCCGAGACTGGGAACAGCC
ACG





1059849
AGGGGCGACTCCACGGA
ACT





3093035
CTGAGTCCGGATCAGAA
ACG





281439
GTCCCGCCCCCTCCGTCGCGTGC
ACT





281432
GGAGTCATGGAGGGTTT
ACT





901886
TCCGCAGCTCTTTGAAC
ACT





5030382
CACATTCACGGTCACCT
ACG





2569693
CCTTCTGCTCGGTGGGTGG
ACT





2569702
ACCTTGAACCAGATAGAA
ACT





3093030
AAACATTGTGGGTTGATGG
ACG





2075741
CCCGGGTACCTCCTTACGCT
ACT





11549918
CCCCAGGGTGACGTTGCAGA
ACG









Table 15, below, shows the case and control allele frequencies along with the p-values for the SNPs genotyped. The disease associated allele of column 4 is in bold and the disease associated amino acid of column 5 is also in bold. The chromosome positions provided correspond to NCBI's Build 34.

TABLE 15Genotyping ResultsBreastPosition inAminoCancerSEQ IDChromosomeAllelesAcidAF FOddsAssociateddbSNP rs#NO: 1Position(A1/A2)ChangeAF F casecontrolp-valueRatioAllele18017143660810240417T/CL352PT = 0.010T = 0.0300.07342.26CC = 0.990C = 0.09722286154476810248577A/GT348AA = 0.340A = 0.4300.002361.47GG = 0.660G = 0.57025697034562710265227G/CG = 0.508G = 0.5810.0191.34CC = 0.492C = 0.41917999693619210255792G/AG241RG = 0.912G = 0.8830.120.723GA = 0.088A = 0.11710598491205410231654A/GA = 0.443A = 0.3640.009960.719AG = 0.557G = 0.63630930352437310243973G/AG = 0.941G = 0.9510.4661.22AA = 0.059A = 0.0492814394151010261110C/GC = 0.765C = 0.7810.5631.09GG = 0.235G = 0.2192814323205810251658C/GC = 0.549C = 0.5540.8761.02GG = 0.451G = 0.4469018864353110263131T/CT = 0.557T = 0.4830.01770.741TC = 0.443C = 0.51750303823708310256683G/AG = 0.616G = 0.5360.01020.721GA = 0.384A = 0.46425696934130410260904T/CT = 0.35T = 0.4510.00121.53CC = 0.65C = 0.54925697024534710264947T/CT = 0.667T = 0.5620.0008290.643TC = 0.333C = 0.43830930303880310258403C/TC = 0.613C = 0.5410.02350.745CT = 0.387T = 0.45920757414249810262098C/GC = 0.392C = 0.4660.01681.35GG = 0.608G = 0.534115499184433810263938G/AG = 0.663G = 0.5580.0006130.642GA = 0.337A = 0.442


Example 5
MAPK10 Proximal SNPs

It has been discovered that a polymorphic variation (rs1541998) in a region that encodes MAPK10 is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs1541998) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately ninety-two allelic variants located within the MAPK10 region were identified and allelotyped. The polymorphic variants are set forth in Table 16. The chromosome position provided in column four of Table 16 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 16Position inSEQ IDChromosomeAlleleGenomeDeduceddbSNP rs#NO: 2ChromosomePositionVariantsLetterIupac2575681206487372306c/tgR25756801505487373605a/gtY25895053796487375896c/taR25895043950487376050g/atY21645384527487376627t/caR25756797588487379688a/gtY103058482487380582a/taW28694089016487381116c/ggS29040869018487381118c/ttY9346489747487381847t/cgR258951112207487384307g/agR206058913040487385140g/atY216453713492487385592t/cgR257567813802487385902a/ctK257567713918487386018g/cgS258951014153487386253a/gcY258950914370487386470t/gcM216453615068487387168a/ctK216453515474487387574t/aaW194673417117487389217c/gcS258952517777487389877g/agR258952319497487391597c/taR375597019646487391746a/caMMAPK10-AA21751487393851a/cgK257567522185487394285g/atY120222703487394803t/ccY120122763487394863a/gaR258951623391487395491g/taM257567423841487395941a/taW258951523883487395983g/cgS373336724132487396232c/tcY95824169487396269c/tcY258950625987487398087g/atY143652426072487398172a/gcY257567226376487398476c/tgR258951826614487398714g/acY377516426727487398827t/gtK258951426827487398927g/acY377516627084487399184t/ctYMAPK10-AB30965487403065g/acY377516732436487404536c/tcY382203532821487404921t/atW377516832979487405079a/ttW377516933572487405672t/ctY204365035142487407242a/gcY204364935237487407337t/gcM377517036014487408114t/atW154199836439487408539c/taRMAPK10-AC36838487408938g/aaRMAPK10-AD36889487408989g/agRMAPK10-AE38639487410739t/ctY228259938657487410757t/gaMMAPK10-AF38865487410965t/ctYMAPK10-AG38885487410985a/ggRMAPK10-AH38943487411043t/ctYMAPK10-AI39035487411135t/ccYMAPK10-AJ39046487411146t/ctY228259839218487411318c/tgR228259739241487411341g/atY377517140105487412205a/caM377517240240487412340c/ttY377517341162487413262t/ctY377517442477487414577a/caM146987046191487418291g/ccS143652250467487422567t/caR194673352934487425034g/acY98336254730487426830t/ccY375597158283487430383c/ttY382203658378487430478c/ggS377517559505487431605g/aaR143652560229487432329g/agR382203761108487433208c/gcS377517662587487434687g/aaR99359363133487435233c/tcY143652763616487435716c/tcY143652965377487437477t/ccY377518065442487437542a/caM377518165548487437648t/ggK377518265878487437978t/ggK377518366222487438322g/aaR377518466354487438454a/gaR73324567224487439324a/taW377518568198487440298t/ggK156115468729487440829t/ccY377518669058487441158a/ccM377518769527487441627t/ctY101077870774487442874a/gtY228259671232487443332t/atW228259571943487444043a/ctK211804473397487445497a/taW146986976322487448422c/tcYMAPK10-AK110704487482804a/gtY


Assay for Verifing and Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 16 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 17 and Table 18, respectively.

TABLE 17dbSNP rs#Forward PCR primerReverse PCR primer2575681ACGTTGGATGTTATATAGCCTTCTTTTCTCACGTTGGATGTTCACTGCTAACATGCATGG2575680ACGTTGGATGGAGCCCAATACAATCAGGTGACGTTGGATGGCCCTGAAGTTTTTGAATGG2589505ACGTTGGATGCATTTTATGAGAAGATGCACACGTTGGATGAGACTGTAGCCTAAATGAGG2589504ACGTTGGATGCTGTGTGATTTGGACAACCCACGTTGGATGGGATAGGAAACATATTAAGG2164538ACGTTGGATGAGAGGTCATCTTAATGGGCCACGTTGGATGTACTGCAGAGCTCTCCCTTG2575679ACGTTGGATGTAAGCCAGTAACACATGCCGACGTTGGATGCTTTCCTGCTGCATTTAGTG10305ACGTTGGATGGGTGAAGCTTGAAAGCAAGCACGTTGGATGTTCAAGAATTATTTTATTGCAAGTC2869408ACGTTGGATGGCTTTGAATTACTCTGTCCCACGTTGGATGTCCCAGTACCTAAGTAGCAG2904086ACGTTGGATGGCTTTGAATTACTCTGTCCCACGTTGGATGTCCCAGTACCTAAGTAGCAG934648ACGTTGGATGTGTACTGCTTTCATCCTTGCACGTTGGATGACTGGTTGATACCATAGGAC2589511ACGTTGGATGGTAGAGCTGACATCATAGGCACGTTGGATGCCTACTGTGTTAGCCTCACT2060589ACGTTGGATGACAACTACGTGTAACTGTCCACGTTGGATGCCAATACCTTTAACACCCAAC2164537ACGTTGGATGAACACACTTAGTACCCACGCACGTTGGATGCAAGGCAAAATGTTTCCAGC2575678ACGTTGGATGAAGCACCATTTGTGGCTCAGACGTTGGATGCTTCAAGAGGCCATACAGAC2575677ACGTTGGATGGAAGGATAAGCCACAGTGAGACGTTGGATGGATGCCAATTTGGTTTGCCC2589510ACGTTGGATGAATGGCATGGGAACTTGGACACGTTGGATGTGCACCACACTGAAGTGATC2589509ACGTTGGATGATACGCAGGTTGTAGAGAGGACGTTGGATGTGAATCATGGTTGCCTCCTG2164536ACGTTGGATGCTGGAGAACAAAAGACCACCACGTTGGATGGTGATGAAAACCATGTGAGC2164535ACGTTGGATGGAATGATGTAAACGTTGGAGACGTTGGATGACCAGCACTATTACCCATGC1946734ACGTTGGATGGTCAGCAAATCTGCCTTCACACGTTGGATGAACCTGCTTTGTGGTCTTCG2589525ACGTTGGATGGTATTTAAATTAGTGGTGTGACGTTGGATGAAGAACATTGAAAGAAGCAG2589523ACGTTGGATGAGCAGGGTTAAATTTCCCAGACGTTGGATGTCATGTAGCTAAACAAAGGC3755970ACGTTGGATGGTGACCATGTAGAAATCTGTGACGTTGGATGTACAACTAGTATCTACAGACMAPK10-AAACGTTGGATGCTTGGGAAATAACAGGTGACACGTTGGATGCACTTGTCTGTCTTAACACAC2575675ACGTTGGATGTTGGGAAGGTACTAACAGCGACGTTGGATGTCGTACCTGCATAAGTGGTG1202ACGTTGGATGTCAAGCAATAGAGACCACAGACGTTGGATGTAATCTCAGAATGGCAGCAC1201ACGTTGGATGCCTGTGGTCTCTATTGCTTGACGTTGGATGTGCCAGTGCTCTGAAAACTG2589516ACGTTGGATGACTCACACTGTGGTTTGGGGACGTTGGATGCATACTCTGCCAAAGTTTTA2575674ACGTTGGATGCTCTCCTACTCTTTACTGTCACGTTGGATGGTGGGTAACAGTTTTCAGGC2589515ACGTTGGATGGCCAAACCATTTTGTGCCTGACGTTGGATGCACCTGTATACCAATTTGTAG3733367ACGTTGGATGCAGATGGGTTTATGTCAGAGACGTTGGATGGGCTCTACCAAGACATAATG958ACGTTGGATGCCCAGTGCATTATGTCTTGGACGTTGGATGATCCGCATGTGTCTGTATTC2589506ACGTTGGATGTGTTATGCGGGAGTATAAGGACGTTGGATGGCAACTCAGCTAGCCTTTAC1436524ACGTTGGATGATTGTTTCCAGGGTGCTCTGACGTTGGATGGAGTTGCCAGTAGCTTTGAG2575672ACGTTGGATGCTCCAGGAGCAAGGATTATGACGTTGGATGATAGTGTTATCACATAGACC2589518ACGTTGGATGAATGATATGCACCGATCTTCACGTTGGATGCCAGGCAAAAAGAATGACCG3775164ACGTTGGATGAAGTTTCCCTGGTCGTGATCACGTTGGATGGAACATGAAAAATTCATAAGC2589514ACGTTGGATGCTTAAATGTCTCTAGAAAAGGACGTTGGATGTATACATTGTCCTGATAGAG3775166ACGTTGGATGCTGAGGAGTCCATCATAGTGACGTTGGATGCTGTTTTTCACCCCCGATTCMAPK10-ABACGTTGGATGGATAAGTATTGGCTTAATCTGACGTTGGATGTTTCATTGCTCATGGATTAG3775167ACGTTGGATGGCTTCTGATTTTATATGGCACACGTTGGATGGAAACAAGCAGATGTCATGG3822035ACGTTGGATGATAAATGCCTCCTTGCCTGCACGTTGGATGGAACTCCTGTTTATTGCCTAC3775168ACGTTGGATGTCTCACATTGACTGGACAACACGTTGGATGCCAAGCAGTTTGCGAAAATC3775169ACGTTGGATGATGCTGAACAACAGGATGGGACGTTGGATGGGGAGAGAATGGTTGCATAT2043650ACGTTGGATGCTGTGCCTTGCACATAGTAGACGTTGGATGGCTGAGGGAGAAATTGAGTG2043649ACGTTGGATGGTCCTACTAGTCCCTGTATGACGTTGGATGGCACTACATGGGACACAAAG3775170ACGTTGGATGCCCATTTTTGCTAGCAGGAGACGTTGGATGCCTAAGACCTATGCTCTCAC1541998ACGTTGGATGCTGATTATTCTGATGGTAATGACGTTGGATGGCCCATGTTAACATTTTCTTCMAPK10-ACACGTTGGATGCTCTCTGCTAATTACAAGGCACGTTGGATGTACGTTTTGATGGGGTTGAGMAPK10-ADACGTTGGATGAGATACCTATTTGTGCCAGGACGTTGGATGTACGTTTTGATGGGGTTGAGMAPK10-AEACGTTGGATGTGTCTTTTCATGCCGAAAGCACGTTGGATGCGACAAACACTGACAATCAG2282599ACGTTGGATGGACTGCTATTCTCTTAGACCACGTTGGATGCATTCTTGAGCAAATGTGACMAPK10-AFACGTTGGATGGTCATATATCTGAGGTGGAGACGTTGGATGCAAGGTATTCTCGTGCATTGMAPK10-AGACGTTGGATGGTCATATATCTGAGGTGGAGACGTTGGATGCAAGGTATTCTCGTGCATTGMAPK10-AHACGTTGGATGCGAAATAAATGAGGGCAAGGACGTTGGATGGGAGGCTGCCGAATAAAAACMAPK10-AIACGTTGGATGTGGGTCAGCAGCAAATATTGACGTTGGATGTGCCCTCATTTATTTCGGTGMAPK10-AJACGTTGGATGTGGGTCAGCAGCAAATATTGACGTTGGATGTGCCCTCATTTATTTCGGTG2282598ACGTTGGATGGTGAATGAAGGAAAAGTAGCACGTTGGATGCACGCCTAAGCAATTAATGAC2282597ACGTTGGATGACACTTGATTACAATGGCCCACGTTGGATGGCATGGTTCTGTTATAAGGC3775171ACGTTGGATGCTGTCATGATTCAAGCTACCACGTTGGATGTTTGGCTCATGAACAGCACC3775172ACGTTGGATGCTGCAAAGTATCTGGCTATGACGTTGGATGGCTCCGTGAGTAGTTATTTC3775173ACGTTGGATGTAAATTTGCAGAGGCCGTCGACGTTGGATGCAAGAGGGCTGCTTTAAACC3775174ACGTTGGATGCATCCTTGATCCACCCTTTGACGTTGGATGCATGTCGTCAGAAGTGACAA1469870ACGTTGGATGATGGCACAGTTTAGCATGTCACGTTGGATGATACTGAGCTCCATTTTGGG1436522ACGTTGGATGATTGGAAGGAGGAAGCATAGACGTTGGATGGGAATTGAAATTGGCATTGC1946733ACGTTGGATGTAGCTTCTAAACATCTCTTGACGTTGGATGGCAGGAGGATAGATCTGTAG983362ACGTTGGATGCACATTGCTCCCTCCTTTACACGTTGGATGGCGGCCGAAGAGTACTATTT3755971ACGTTGGATGGTGGTAACAGATTGCTGTACACGTTGGATGGCGTAAAGAACTTTTGGTGAC3822036ACGTTGGATGCAACACATACCTTAGGTAAGAACGTTGGATGCTGAATTCCTTCGATGTTCC3775175ACGTTGGATGCATTATAAAAACAGTTTCTTGACGTTGGATGGAGTAGACAGTGGCTATTAA1436525ACGTTGGATGGCTTACACTAGCTACTTGGGACGTTGGATGGTGCAATCTTGGTTCACTGC3822037ACGTTGGATGTCCCACCCTGACTTCTTTGCACGTTGGATGGTAATCCATAAACTGTGGGAG3775176ACGTTGGATGTAGTCCAAGTATTTCCCAAGACGTTGGATGAAAAGGTCACCAGTGACCTG993593ACGTTGGATGTAGGCACTGCAGATCTTTTCACGTTGGATGCACTAAAATAATAAGAAAGCTC1436527ACGTTGGATGCTGTATAGAGAGCTGTTTGCACGTTGGATGAGCACTGTGAGTTAAACCTG1436529ACGTTGGATGAATGTTGGACCACATGTACGACGTTGGATGCTATGGCAGCAGAAGAGTAG3775180ACGTTGGATGTCCACTGAATGTGCACTTCCACGTTGGATGCAAGACTGTAGCCCTACAAC3775181ACGTTGGATGCTTCTGCCAAGACTATCAGGACGTTGGATGGTAAGCATCCCCCTAATAAT3775182ACGTTGGATGGCTGGACTCTATTAGGCCATACGTTGGATGGATATCTCCCTCCTATTGGC3775183ACGTTGGATGTGCAGATATGTAGGCCAAGCACGTTGGATGGATCTCTGATCTTAGACCAC3775184ACGTTGGATGGTTCTACTTTGACCACAGGCACGTTGGATGGACCAGCAACCATGATGAAG733245ACGTTGGATGTAGTCTAGTGGAGGATGTCGACGTTGGATGCCAGCTATAATGTAGACCAC3775185ACGTTGGATGTGTGGAATCTATAATGTGTCACGTTGGATGACCTACCTCTTCTTTGCCAG1561154ACGTTGGATGAATAGAAGATGCTCTAACTCACGTTGGATGGAAGATGCAAATAAGTCAACC3775186ACGTTGGATGGATATGCTATGTGTGCTAAGACGTTGGATGTTGTACTTTGGTAGTTTGGG3775187ACGTTGGATGAATCATGATCCCAGGGCAAGACGTTGGATGTAGCACCTTCAGGATCTTTC1010778ACGTTGGATGGGATTTGTTCTTAATCTTTCACGTTGGATGCAGAGGAAAGAAAACTGAAAG2282596ACGTTGGATGGGTGGCTTTGTGAAACCTTGACGTTGGATGTCATACTGATCAACCTGAAG2282595ACGTTGGATGAAGGAAATTTGTCAGAGAGGACGTTGGATGCTTTTCCATCACATCAAGGG2118044ACGTTGGATGGTCATTGCCTCTAGCTAGTGACGTTGGATGAACAACTTGGCTAATTCTAC1469869ACGTTGGATGTTCGATATATCAGAGCCTTGACGTTGGATGCATGGCGAGGAAATCTGTTTMAPK10-AKACGTTGGATGTTTCTCTCGTTTCCTCTGTCACGTTGGATGACTTACACATCTTGGAACTC











TABLE 18








dbSNP rs#
Extend Primer
Term Mix


















257568
TTTCTTTTCTCTTTTAGGAATCT
ACG






2575680
GGATGCATGGTTTCTCTAAT
ACT





2589505
GTTTTAGCATAATTGCTTCTTTA
ACG





2589504
GTGCTAGGATCCTCAGT
ACG





2164538
GTCACATTCTTACCCTC
ACT





2575679
CTTCCTGGACATTAAATTGT
ACT





10305
AGCTAAATTGCAACAACA
ACG





2869408
CGAATCTCTTTAACTGCTG
ACT





2904086
GAATCTCTTTAACTGCTGGA
ACG





934648
ACTCTCCCACTGAGCAAGC
ACT





2589511
CTCCAAAGGATACCCAGA
ACG





2060589
ACTCTATCCATGTCTACAC
ACG





2164537
CGGCTTCTACTCTCTTATTCA
ACT





2575678
TGTGGCTCAGGTCCAGG
ACT





2575677
GGAATGAGGGCAACAGGA
ACT





2589510
TTTGGCAACAGGTAACCAGC
ACT





2589509
AGGGCTGCAGGGAAGAT
ACT





2164536
CCTGTGTTCCTTTGTATTTATAT
ACT





2164535
GATAAATGTGAGATTGAGAGA
CGT





1946734
GCATTCTAGTGGAGAAGTCA
ACT





2589525
TTAGTGGTGTGACTTGCA
ACG





2589523
TTTCCCAGATTAATTATCAGATT
ACG





3755970
GGTTTCTTCTAAAACTGACCT
ACT





MAPK10-AA
GGTGACTATTTAAGAAATATTTGG
ACT





2575675
GTTCTTGCCTGGTTTAC
ACG





1202
CCACCTGCACCATCGCCAT
ACT





1201
TTCTATTGCTTGAAGAGAGAAAG
ACT





2589516
GGTTTGGGGGTTTCATT
CGT





2575674
TATTCACACCTGCCTTC
CGT





2589515
GAAAACTGTTACCCACTC
ACT





3733367
GTAATAGATCACATGAAATGGAC
ACG





958
TTATGTCTTGGTAGAGCC
ACG





2589506
GAGAAGAAACCTGCCCA
ACG





1436524
CCAGGGTGCTCTGGTTTAATT
ACT





2575672
CAAGGATTATGTTAACCACT
ACG





2589518
TGCACCGATCTTCAAATAAA
ACG





3775164
TTTTTTGGGATCTTGATATTTTTA
ACT





2589514
AGAAAAGGTTTTTAAAGTCCTC
ACG





3775166
AACTTATGAAAGAATATGAAGGAT
ACT





MAPK10-AB
ATTGGCTTAATCTGTACATCAATT
ACG





3775167
TAAGAGAAGTCTTCAGTGCTT
ACG





3822035
CTGGATGATCCATTCAAG
CGT





3775168
ACTGGACAACTGAACAC
CGT





3775169
GCAGAGATTTTTCAAAATCTCTAA
ACT





2043650
GCACATAGTAGTAGCTCA
ACT





2043649
CCTCTTGTCTTATTATCCC
ACT





3775170
TTTTTAAAGCTGAAAATAAACCA
CGT





1541998
ATTATTCTGATGGTAATGATCCAG
ACG





MAPK10-AC
TAGAGCAGTAAAGGAATCTCAA
ACG





MAPK10-AD
TATTTGTGCCAGGCTCTCTG
ACG





MAPK10-AE
CATGCCGAAAGCAATGTCAC
ACT





2282599
CTAAAACTTCATCTGTCTTTTCA
ACT





MAPK10-AF
TCTGAGGTGGAGGCTGCC
ACT





MAPK10-AG
TCTGAGGTGGAGGCTGCC
ACT





MAPK10-AH
GGGCAAGGTATTCTCGTGC
ACT





MAPK10-AI
AATGAATCCTCCATAAGTTTACA
ACT





MAPK10-AJ
TTGCAATATGAATGAATCCTCC
ACT





2282598
AGGAAAAGTAGCTTCTGGG
ACG





2282597
CAGAAGCTACTTTTCCTTCA
ACG





3775171
GAATTAGAGAAGGGTCACT
ACT





3775172
TATGAAAATAGAAGACTTTGCC
ACG





3775173
GCCGTCGAACAAATACT
ACT





3775174
GCTTCTCTAAGTACAGCTC
ACT





1469870
CTTATATTCTCTGTGGCACCAA
ACT





1436522
GAGGAAGCATAGATTTGGTGT
ACT





1946733
CTAAACATCTCTTGAATATTCTG
ACG





983362
GCTCAAATGTTACCTTCTCAAA
ACT





3755971
AACAGCATTCTGGCATATA
ACG





3822036
CAGAAAAAGTGCTTGAGG
ACT





3775175
CAGTTTCTTGTGGTCCC
ACG





1436525
GGCTTAAACCTGGGAGG
ACG





3822037
TTTGCTTATTTCATAGAAGGAAT
ACT





3775176
TATTTCCCAAGTGCCCA
ACG





993593
AGCAACAGAGGCTTTTTCTA
ACG





1436527
GAGCTGTTTGCATTTATAACTCA
ACG





1436529
ACCACATGTACGTAAGGGGA
ACT





3775180
TATGTGTTGATGTCACTCTT
ACT





3775181
GGTTGGTATAGTACTTGCGAT
ACT





3775182
CTGTCAGTTGCCTTAGG
ACT





3775183
AGTCAAGACCAGCTGGG
ACG





3775184
CTCTTTCTTCTGATCCC
ACT





733245
CCTTAGATTCCCAAACAAAAC CGT





3775185
TTTGGTTTAAACTAATGACACTA
ACT





1561154
AGATGCTCTAACTCTGGTTCA ACT





3775186
GCTAAGCTAUAGTTATACTACGA
ACT





3775187
AGTGCATTACAGTGGTC
ACT





1010778
TTGAAATACTGTTTGTTTCCCCAA
ACT





2282596
GAAACCTTGCATGAACT
CGT





2282595
AAGTATGGAATAGTATCTTCCT ACT





2118044
GTGGGGTTAGATATTATTTCCTGA
CGT





1469869
AAACACCATCTACTCTGAAGAA ACG





MAPK10-AK
CGTTTCCTCTGTCCCTTCC
ACT










Genetic Analysis of Allelotyping Results


Allelotyping results are shown for cases and controls in Table 19. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 19Position inBreast CancerSEQ IDChromosomeA1/A2AssociateddbSNP rs#NO: 2PositionAlleleCase AFControl AFp-ValueORAllele257568120687372306C/TC = 0.610C = 0.6310.4991.09TT = 0.390T = 0.3692575680150587373605A/GA = 0.404A = 0.4110.841.03GG = 0.596G = 0.5892589505379687375896C/TC = 0.515C = 0.5000.6550.94CT = 0.485T = 0.5002589504395087376050G/AG = 0.744G = 0.7250.5060.91GA = 0.256A = 0.2752164538452787376627T/CT = 0.595T = 0.5860.7750.96TC = 0.405C = 0.4142575679758887379688A/GA = 0.968A = 0.9880.1852.68GG = 0.032G = 0.01210305848287380582A/TA = 0.303A =T = 0.697T =2869408901687381116C/GC = 0.292C = 0.2870.8790.98CG = 0.708G = 0.7132904086901887381118C/TC = 0.003C = 0.0020.8220.40CT = 0.997T = 0.998934648974787381847T/CT = 0.345T = 0.3370.7860.96TC = 0.655C = 0.66325895111220787384307G/AG = 0.599G =A = 0.401A =20605891304087385140G/AG = 0.001G = 0.0080.43113.10AA = 0.999A = 0.99221645371349287385592T/CT = 0.737T = 0.6950.1970.81TC = 0.263C = 0.30525756781380287385902A/CA = 0.886A = 0.9280.1811.66CC = 0.114C = 0.07225756771391887386018G/CG = 0.080G = 0.0270.002520.32GC = 0.920C = 0.97325895101415387386253A/GA = 0.592A = 0.5820.7670.96AG = 0.408G = 0.41825895091437087386470T/GT = 0.799T = 0.7850.5990.92TG = 0.201G = 0.21521645361506887387168A/CA = 0.378A = 0.3980.5091.09CC = 0.622C = 0.60221645351547487387574T/AT = 0.430T = 0.4260.8910.98TA = 0.570A = 0.57419467341711787389217C/GC = 0.003C = 0.0010.7820.22CG = 0.997G = 0.99925895251777787389877G/AG = 0.607G = 0.6060.9831.00GA = 0.393A = 0.39425895231949787391597C/TC = 0.225C = 0.1860.1390.79CT = 0.775T = 0.81437559701964687391746A/CA = 0.880A = 0.8940.5251.15CC = 0.120C = 0.106MAPK10-AA2175187393851A/CA = 0.014A =C = 0.986C =25756752218587394285G/AG = 0.347G = 0.3050.1540.83GA = 0.653A = 0.69512022270387394803T/CT = 0.238T = 0.2410.9091.02CC = 0.762C = 0.75912012276387394863A/GA = 0.872A = 0.8830.6111.11GG = 0.128G = 0.11725895162339187395491G/TG = 0.575G = 0.5190.07080.80GT = 0.425T = 0.48125756742384187395941A/TA = 0.419A = 0.3400.01070.71AT = 0.581T = 0.66025895152388387395983G/CG = 0.586G = 0.5440.2110.84GC = 0.414C = 0.45637333672413287396232C/TC = 1.000C = 1.0000.9570.54CT = 0.000T = 0.0009582416987396269C/TC = 0.833C = 0.8420.691.07TT = 0.167T = 0.15825895062598787398087G/AG = 0.568G = 0.510.06570.79GA = 0.432A = 0.49014365242607287398172A/GA = 0.341A = 0.2480.001260.64AG = 0.659G = 0.75225756722637687398476C/TC = 0.726C = 0.8140.001251.65TT = 0.274T = 0.18625895182661487398714G/AG = 0.806G = 0.8680.009841.58AA = 0.194A = 0.13237751642672787398827T/GT = 0.934T = 0.9210.5230.83TG = 0.066G = 0.07925895142682787398927G/AG = 0.556G = 0.6390.01991.41AA = 0.444A = 0.36137751662708487399184T/CT = 0.751T = 0.8330.003511.65CC = 0.249C = 0.167MAPK10-AB3096587403065G/AG = 0.814G = 0.8610.04531.42AA = 0.186A = 0.13937751673243687404536C/TC = 0.845C = 0.8500.8581.04TT = 0.155T = 0.15038220353282187404921T/AT = 0.998T = 1.0000.761AA = 0.002A = 037751683297987405079A/TA = 0.380A = 0.2610.002520.57AT = 0.620T = 0.73937751693357287405672T/CT = 0.829T = 0.8700.1061.38CC = 0.171C = 0.13020436503514287407242A/GA = 0.308A = 0.2150.001020.62AG = 0.692G = 0.78520436493523787407337T/GT = 0.302T = 0.2410.03050.73TG = 0.698G = 0.75937751703601487408114T/AT = 0.791T = 0.7840.7820.96TA = 0.209A = 0.21615419983643987408539C/TC = 0.283C = 0.2280.06040.75CT = 0.717T = 0.772MAPK10-AC3683887408938G/AG = 0.034G = 0.0130.1760.36GA = 0.966A = 0.987MAPK10-AD3688987408989G/AG = 0.923G = 0.9580.0811.90AA = 0.077A = 0.042MAPK10-AE3863987410739T/CT = 0.919T = 0.9310.4911.20CC = 0.081C = 0.06922825993865787410757T/GT = 1.000T = 1.0000.9760.64TG = 0.000G = 0.000MAPK10-AF3886587410965T/CT = 0.300T = 0.2220.005360.66TC = 0.700C = 0.778MAPK10-AG3888587410985A/GA = 0.249A = 0.1920.06260.71AG = 0.751G = 0.808MAPK10-AH3894387411043T/CT = 0.945T = 0.9530.6491.17CC = 0.055C = 0.047MAPK10-AI3903587411135T/CT = 0.128T = 0.0580.0004130.41TC = 0.872C = 0.942MAPK10-AJ3904687411146T/CT = 0.823T = 0.8770.02411.53CC = 0.177C = 0.12322825983921887411318C/TC = 0.971C = 0.9660.7350.86CT = 0.029T = 0.03422825973924187411341G/AG = 0.184G = 0.1970.6131.09AA = 0.816A = 0.80337751714010587412205A/CA = 1.000A = 1.0000.9980.94AC = 0.000C = 0.00037751724024087412340C/TC = 0.003C = 0.0030.9950.98CT = 0.997T = 0.99737751734116287413262T/CT = 0.841T = 0.8520.6521.09CC = 0.159C = 0.14837751744247787414577A/CA = 1.000A = 0.9990.9470.55AC = 0.000C = 0.00114698704619187418291G/CG = 0.884G = 0.9340.0131.85CC = 0.116C = 0.06614365225046787422567T/CT = 0.84T = 0.8760.1221.34CC = 0.160C = 0.12419467335293487425034G/AG = 0.763G = 0.7730.7091.06AA = 0.237A = 0.2279833625473087426830T/CT = 0.002T = 0.0030.9341.40CC = 0.998C = 0.99737559715828387430383C/TC = 0.001C = 0.0020.8783.66TT = 0.999T = 0.99838220365837887430478C/GC = 0C = 0.0010.944GG = 1.000G = 0.99937751755950587431605G/AG = 0.001G = 0.0050.674.64AA = 0.999A = 0.99514365256022987432329G/AG = 0.945G = 0.9610.2971.43AA = 0.055A = 0.03938220376110887433208C/GC = 0.054C = 0.0850.1021.61GG = 0.946G = 0.91537751766258787434687G/AG = 0.034G = 0.0880.02832.78AA = 0.966A = 0.9129935936313387435233C/TC = 0.998C = 1.0000.78999.16TT = 0.002T = 0.00014365276361687435716C/TC = 0.709C = 0.750.1551.23TT = 0.291T = 0.25014365296537787437477T/CT = 0.448T = 0.4630.6421.06CC = 0.552C = 0.53737751806544287437542A/CA = 1.000A = 1.0000.9574.50CC = 0.000C = 0.00037751816554887437648T/GT = 0.758T = 0.7290.360.86TG = 0.242G = 0.27137751826587887437978T/GT = 0.143T = 0.130.5920.90TG = 0.857G = 0.87037751836622287438322G/AG = 0.446G = 0.3920.130.80GA = 0.554A = 0.60837751846635487438454A/GA = 0.828A = 0.8180.7150.94AG = 0.172G = 0.1827332456722487439324A/TA = 0.002A = 0.0030.872.02TT = 0.998T = 0.99737751856819887440298T/GT = 0.003T = 0.0010.8460.32TG = 0.997G = 0.99915611546872987440829T/CT = 0.009T = 0.0080.9180.88TC = 0.991C = 0.99237751866905887441158A/CA = 0.005A = 0.0050.9810.95AC = 0.995C = 0.99537751876952787441627T/CT = 0.698T = 0.710.6921.06CC = 0.302C = 0.29010107787077487442874A/GA = 0.668A = 0.7240.07211.31GG = 0.332G = 0.27622825967123287443332T/AT = 0.265T = 0.2670.941.01AA = 0.735A = 0.73322825957194387444043A/CA = 1.000A = 1.0000.9840.00AC = 0.000C = 0.00021180447339787445497A/TA = 0.656A = 0.6810.4441.12TT = 0.344T = 0.31914698697632287448422C/TC = 0.615C = 0.6660.1031.24TT = 0.385T = 0.334MAPK10-AK11070487482804A/GA = 0.526A = 0.4880.2360.86AG = 0.474G = 0.512



FIG. 1B shows proximal SNPs in and around the MAPK10 region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1B can be determined by consulting Table 19. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Example 6
KIAA0861 Proximal SNPs

It has been discovered that a polymorphic variation (rs2001449) in a gene encoding KIAA0861 is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNP's proximal to the incident SNP (rs2001449) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. A total of seventy-five allelic variants located within or nearby the KIAA0861 gene were identified and fifty-severn allelic variants were allelotyped. The polymorphic variants are set forth in Table 20. The chromosome position provided in column four of Table 20 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 20Position inSEQ IDChromosomeAlleleGenomeDeduceddbSNP rs#NO: 3ChromosomePositionVariantsLetterIupac38117282463184201246t/ccY38117293933184201393a/gaR6026466283184201628c/gcS48827775863184208586t/ccY162967392233184210223a/ggR67023299333184210933a/taW575326101543184211154t/ccY575386101753184211175c/gcS684846108773184211877t/ccY471365109073184211907g/cgS496251112893184212289g/aaR831246117933184212793t/ctY831247118133184212813g/cgSKIAA0861-AA135073184214507c/ggS512071142493184215249c/tcY1502761145863184215586a/caM681516146473184215647c/ttY683302150043184216004c/ttY619424165733184217573t/ggK620722168113184217811a/gaR529055189213184219921a/gaR664010196513184220651t/ggK678454205653184221565c/tcY2653845252393184226239g/aaR472795257213184226721g/aaR507079271333184228133g/agR534333277783184228778t/ctY535298279063184228906t/ctY536213280003184229000g/aaR831245300053184231005a/ggR639690305203184231520t/ccY684174321953184233195t/ccY571761324393184233439c/gcS1983421338583184234858t/ctY4630966417163184242716c/ttY2314415424503184243450t/gcM6788196435543184244554g/agR2103062442113184245211a/ggR9827084447753184245775g/ccS9864865449623184245962a/gaR6804951453173184246317c/ttY6770548457123184246712a/gaR1403452459413184246941t/ccY7609994465203184247520g/ttK9838250471753184248175c/tcY9863404480453184249045g/ttK903950486363184249636c/atK6787284486893184249689g/agR2017340487043184249704a/gcY2001449488493184249849g/cgS1317288488503184249850g/agR7635891499313184250931t/ggK10704581515103184252510—/tttN11371910515263184252526—/acN10937118517583184252758a/gaR7642053519753184252975c/ggS3821522534753184254475a/gcY2029926555243184256524t/cgR1390831567543184257754t/gaM7643890574733184258473a/ggR11925606574973184258497a/ccM9826325576133184258613g/aaR6800429580233184259023g/agR6803368588213184259821t/ccY1353566596443184260644c/agK2272115662173184267217g/aaR2272116663443184267344g/agR3732603673263184268326g/ccS940055697773184270777a/caM2314730835943184284594a/ggR2030578845793184285579g/cgS2049280856233184286623c/ttY37326021268313184327831c/taR22932031378783184338878a/ttW76397051474553184348455g/ttK


Assays for Verifying and Allelotyping SNPs


The methods used to verify and allelotype the seventy-five proximal SNPs of Table 20 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 21 and Table 22, respectively.

TABLE 21dbSNP rs#Forward PCR primerReverse PCR primer3811728ACGTTGGATGACGTGTCGGTCCCCTTTCATACGTTGGATGACGCGCCACACCTCCCTAC3811729ACGTTGGATGTGGGCGAGGTTCTGCAGCGTACGTTGGATGGTTTCGTTTCTCCGGCACAG602646ACGTTGGATGGAGGAGACCCAGGGTATGAGACGTTGGATGTCTGGGACCGTTTACCGCA488277ACGTTGGATGCACACATTCTTCTCAAGTGCACGTTGGATGGGAGGGACACAATTTAACTC1629673ACGTTGGATGGGCACCATGTGTGGCTAATTACGTTGGATGAAGGATCACGTGAAGTCAGG670232ACGTTGGATGGAAGGTGGAGCAGACATTAGACGTTGGATGACCTTAGTTATACCAGGCAC575326ACGTTGGATGACAGAGAGGCTTGGTCATACACGTTGGATGGGTGCTTGGTTGTGATTCTC575386ACGTTGGATGATTCCTGCAGGTACTGTGTCACGTTGGATGTGAGCCCAAAACTACTGCTG684846ACGTTGGATGACCACCAGATAAAATCCCTCACGTTGGATGAAGTTCCTCTGGTGGACAAC471365ACGTTGGATGTGAGTGACATTTGTGTCACCACGTTGGATGCGGAGGATCTGAACAACTTC496251ACGTTGGATGGGGAGTCATTCCAATACCAGACGTTGGATGGGAGTGAAAGGTCATATTGG831246ACGTTGGATGCACAATCTGTTAGAATGGTGGACGTTGGATGCGTCAAGACTGAATGCATAG831247ACGTTGGATGGAAAATATAGTCCTACACAAACGTTGGATGCGTCAAGACTGAATGCATAGKIAA0861-AAACGTTGGATGGTTCTAATGTCACCCCTTCCACGTTGGATGCAATGTGGCAAATTCTCTGG512071ACGTTGGATGCAAATCACCCCTGACAATTCACGTTGGATGACCAGCACACTCAGCTTTAG1502761ACGTTGGATGCAGAAATATGAAGGTGGCCCACGTTGGATGACCTTGAGCTCTGAGCCCTT681516ACGTTGGATGCTCCTCCTCAGAGGACTAACACGTTGGATGAGCCCAAGGACTCATACAAC683302ACGTTGGATGAAACATGGCGAAACCCGGTCACGTTGGATGACCACGCCTGGCTAATTTTG619424ACGTTGGATGACCGGGAGCTCCCAGTCTGACGTTGGATGTGGGAATCGGTTGAGAGCCG620722ACGTTGGATGGCAGCAAAGAATTGCCCGGCACGTTGGATGTAAGGCGCCTGCAGAGGCGA529055ACGTTGGATGCTGCAGTTATCTGGGTGAGCACGTTGGATGCCAGAACGTGGCTTGTTGGG664010ACGTTGGATGTGGTACCTCCAGGTAAAATGACGTTGGATGTCCAGGCAGTCATTTTACCC678454ACGTTGGATGTTCTCTGCGGAGGAAAGTGCACGTTGGATGTTAAGCCAGTCCCCACAAGG2653845ACGTTGGATGATCACTTGGACTCAGGAAGCACGTTGGATGAGTCTTGCTCTGTTTCCAGG472795ACGTTGGATGTCACCTGAGCATCAGACATGACGTTGGATGATAGTGGAAGGAGAAACGGG507079ACGUGGATGAAGCCTCAGATGAGGCATACACGTTGGATGTCTGAAAGGGTTCAGGAAGG534333ACGTTGGATGCGTTGATGCACTGAAGGGAGACGTTGGATGAGAGGCTAAATGTTGGCAGG535298ACGTTGGATGCAATTGCTCAGACCTTCACCACGTTGGATGAATGCTAGAGACATTGCACC536213ACGTTGGATGTGAGGACCTCATTATTGGTGACGTTGGATGCTGAGCAATCGAACTGCTAC831245ACGTTGGATGCTAGAATTACAGGTGCACACACGTTGGATGGCCAAGATGGTGAAACCTTG639690ACGTTGGATGGCATTTTACCACCATGTGGTTACGTTGGATGCCTTCATGTTAATTCTGCCC684174ACGTTGGATGCTTTACTGAGTGGGCAAACGACGTTGGATGTCTAAGTGGAACTCAGCAGC571761ACGTTGGATGAATATCCTAGGCTAGCAGTGACGTTGGATGGTGCATAAATACATGAATAG1983421ACGTTGGATGTCCAGGTGTTATGGAGTCAGACGTTGGATGGGCTTCTTGTGCTGCTGTGT4630966ACGTTGGATGTCAACAAAGATGCCAAGACCACGTTGGATGGTGGATATCCATTGTCCTAG2314415ACGTTGGATGGGCTGAGTAACAGTCCATTGACGTTGGATGCTTACAGTATCCAAAAAGGG6788196ACGTTGGATGTCAAAGGTAGGTTACCCCTGACGTTGGATGATCCCCAATTTGCACATCCC2103062ACGTTGGATGTGCAGCCCTCAACCTTTCAGACGTTGGATGCCTTATTCAGTTACTATTACG9827084ACGTTGGATGAAACACACACACCCACATACACGTTGGATGGGGAGAAAGAAAACAAAGGC9864865ACGTTGGATGCAATGCCTGCACTTAGACACACGTTGGATGAGTGATGAGAACATGGGCTG6804951ACGTTGGATGGCAATAGGACTCCCTTTACCACGTTGGATGAAGATACGAATGGAGCCTGG6770548ACGTTGGATGTTTTTGAGCTTCACTGAGCGACGTTGGATGCGTATCTCTAGCTCAAGCAT1403452ACGTTGGATGCAGAAGTTAGGATGCAGATGACGTTGGATGCCAGTAGAGATAGAATTTTGG7609994ACGTTGGATGATACCTAGAGTTTGCCCAACACGTTGGATGAGCTGAGATCAATCCCTATG9838250ACGTTGGATGGTGGCAGTCAAAACACAGTCACGTTGGATGACAGAGTAAGACTCCGTCTC9863404ACGTTGGATGGCTATTAGAAAGTCAGAGCCACGTTGGATGTGTTCCAGAAGGTGTAGAAG903950ACGTTGGATGCTTCAGTTCAGGGAGAGATCACGTTGGATGATAGGGCCCCCAGCATAAAA6787284ACGTTGGATGGCTTTCCCCTAAAGCATCTCACGTTGGATGGATCTCTCCCTGAACTGAAG2017340ACGTTGGATGTATTCCACTGCCTGCTTTCCACGTTGGATGGAAAACAGGAGGAAGTGGTG2001449ACGTTGGATGATGTCAAGTGCACCCACATGACGTTGGATGAGGAAGAAACTGACGGAAGG1317288ACGTTGGATGATGTCAAGTGCACCCACATGACGTTGGATGAGGAAGAAACTGACGGAAGG7635891ACGTTGGATGTCTCACCTTGCCTTTGGACGACGTTGGATGCTGATGTCGCAAGGAACCAC10704581ACGTTGGATGCCTGTTGAATTATGGAGGAGACGTTGGATGCTCTTCTTTCCATGGATCTTC11371910ACGTTGGATGCTCTTCTTTCCATGGATCTTCACGTTGGATGCAGCTAATTTCTCCTGACAG10937118ACGTTGGATGATGCAAACTGGCTGGGAATGACGTTGGATGGAGGAGGCTGTGAGAAAAGA7642053ACGTTGGATGATGCCCTGGATTGACCTAACACGTTGGATGGGGTTAGGGTGTGTATAAGG3821522ACGTTGGATGAACCCGCACTACAAGATTCCACGTTGGATGGTCAGTCCCACATTCAGAAC2029926ACGTTGGATGTCCCGAACATAAAGACTCAGACGTTGGATGGGTTGTAATTGGAACATTGG1390831ACGTTGGATGGTCTGCCAAAGTTCCCTTAGACGTTGGATGAGGAAAGGGAAGAGAAACCG7643890ACGTTGGATGGACTGTGAGTTATAGGATACACGTTGGATGATGGGTCGGAGGATTTATAG11925606ACGTTGGATGCTCGGCTAAGGTACTCAATAACGTTGGATGAGACCACCAAGTAAAATTGC9826325ACGTTGGATGTTGGGTTAATGCAGGGTCTGACGTTGGATGCTAGTTCACCTGGGTCTATC6800429ACGTTGGATGCCAAAGCCCATGTTTTAAAAAACGTTGGATGGTTTTTCTAAAATATGGGCT6803368ACGTTGGATGAAACCAGCTCAGGCCATTACACGTTGGATGATGCAAAATAAGCTCTGCCC1353566ACGTTGGATGGGTGTACTCTGCCATTTGTCACGTTGGATGTGGAGGAGGTTCTAGTACCC2272115ACGTTGGATGAGTTGTGAGTGATTTCAGGGACGTTGGATGCAGGCCTTCTTGCTCTTATC2272116ACGTTGGATGCTGTGCCTTCTGAGTAGTTCACGTTGGATGATCTGTTGCCTTAGGTTCAC3732603ACGTTGGATGCTCTCAATTCCATCAGTCTCACGTTGGATGCTTTACGAATTTCACAACAGG940055ACGTTGGATGTATGCTTCCAGTCTCTGACCACGTTGGATGATAGGTAATCCAGTTGGGCC2314730ACGTTGGATGCTCAGGTAATCTGCCTTCTCACGTTGGATGCAGGGATAATGAGAACAAATC2030578ACGTTGGATGAACAACCTTACTTCATGCCCACGTTGGATGTTCTCCACTTTCTGGTCAAC2049280ACGTTGGATGTGGATACTGAGGGTCAACTGACGTTGGATGCTTCCCAACATTTTCGGCTC











TABLE 22








dbSNP rs#
Extend Primer
Term Mix


















3811728
GTCCCCTTTCATCTAAAC
ACT






3811729
TCTGCAGCGTGCGGCGA
ACT





602646
CCAGGGTATGAGCGGAGGA
ACT





488277
AGTGCACACAGAACATTTAACA
ACT





1629673
TGTGGAGACAAGGTCTCACT
ACT





670232
TGGGCAAACAAGCCCAT
CGT





575326
TGGTCATACCCTTCAAG
ACT





575386
GAAGGGTATGACCAAGC
ACT





684846
AGTTGTTCAGATCCTCC
ACT





471365
TCCAAAACCACCAGATAAAATC
ACT





496251
GTATTGTCCTCCAGTGA
ACG





831246
AGAATGGTGGTGTATTTTTAC
ACT





831247
TAGTCCTACACAATCTGTTA
ACT





KIAA0861-AA
GGTATCAGGAAGAGTCA
ACT





512071
CCCTGACAATTCCAAAACTAA
ACG





1502761
GGAGGAGGCACTATTAAT
ACT





681516
GGCCACCTTCATATTTC
ACG





683302
CAGGAGATCCAGACCATCC
ACG





619424
TGCGGCCCCCGCCGGGTT
ACT





620722
GAATTGCCCGGCTCCGAAT
ACT





529055
GAGCAGGCAGCACAAGT
ACT





664010
ACCTCCAGGTAAAATGATTAGTT
ACT





678454
CAGGGATGGTAATTGAC
ACG





2653845
AAGCGGAGGTTGCAGTGAGC
ACG





472795
GACATGTCCCTCTCGGCCT
ACG





507079
GGCAATGTTTGCCCTTT
ACG





534333
GGGAGAAAGTAACAGGGTC
ACT





535298
CAGGTGGATGGGGACAC
ACT





536213
TGGTGTTAAGTGGCGTG
ACG





831245
CACACCACCACGCCCGGCT
ACT





639690
CTGCTATTCATTTGTGTAGA
ACT





684174
CTCTGATGTTACCTCCTCC
ACT





571761
CTAGGCTAGCAGTGGGGTTG
ACT





1983421
GGCAGGGAAGAGAAGAGC
ACT





4630966
AGATGCCAAGACCATTCAAAG
ACG





2314415
TAGTTGATGAAGATTTGGG
ACT





6788196
AGGTTACCCCTGCTGACTTT
ACG





2103062
GAGATCATTTCTCCTTCAAC
ACT





9827084
CCACACCCATATATATTTATGCT
ACT





9864865
AAAGATACACCGTTGAGAAGG
ACT





6804951
GACTCCCTTTACCTTCATGG
ACG





6770548
CTTCACTGAGCGTGGTGCC
ACT





1403452
CACAGATGCTCATGGGTCC
ACT





7609994
GTTTGCCCAACATATAAACAATAA
CGT





9838250
AACACAGTCAAAATTTTGCTTCA
ACG





9863404
GAGCCAAGTTTACATCAAGTTTA
CGT





903950
AGATCACATTGCCAACCCCCA
CGT





6787284
CCCGTCTCCTGCTGGTCA
ACG





2017340
CCCTAAAGCATCTCACAGCCCC
ACT





2001449
CACATGCCTGCTCGCCCCC
ACT





1317288
CACATGCCTGCTCGCCCC
ACG





7635891
TGCCTTTGGACGTCTAGCC
ACT





10704581
TATGGAGGAGTAGATATTGGAA
CGT





11371910
GAAAATTCCAATATCTACTCCTC
CGT





10937118
CTGGGAATGAAATTAGGGCAG
ACT





7642053
GTTCCCTTGACTTTCCTCAG
ACT





3821522
GCATCTTCAGGAATCTTG
ACT





2029926
CATAAAGACTCAGCATTCAGC
ACT





1390831
GGTTAGGAAGAAATCTGTG
ACT





7643890
ATCTAGATAATAAAGACCACCAA
ACT





11925606
CTATTAATGGTGTTTGTCTATGG
ACT





9826325
TAATGCAGGGTCTGCTGGAT
ACG





6800429
ATCTCTAAGATATAACACTCTAC
ACG





6803368
GTGCCTGCAAAGAAAGGAAC
ACT





1353566
TTGTCAGTTATGAGACCTTG
CGT





2272115
ATACCTCAGAATACAGCTTTTTTT
ACG





2272116
TCTCATTTCTCCTCTCTTTC
ACG





3732603
CTCATTTCCACCCTTCT
ACT





940055
GTCTCTGACCACTTGACCCA
ACT





2314730
TCCTTCTTCTCTGCTTT
ACT





2030578
TCATGCCCATTGGGTTAG
ACT





2049280
GGGTCAACTGTACCAAG
ACG









Genetic Analysis of Allelotyping Results

Allelotyping results are shown for cases and controls in Table 23. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped (“not AT”).

TABLE 23Position inBreast CancerSEQ IDChromosomeA1/A2AssociateddbSNP rs#NO: 3PositionAlleleCase AFControl AFp-ValueORAllele3811728246184201246T/CT = 0.002T = 0.0030.9521.28CC = 0.998C = 0.9973811729393184201393A/GA = 0.968A = 0.9470.2680.61AG = 0.032G = 0.053602646628184201628C/GC =C = 0.344G =G = 0.6564882777586184208586T/CT = 0.9T = 0.8980.920.98TC = 0.100C = 0.10216296739223184210223A/GA = 0.93A = 0.9110.4590.78AG = 0.070G = 0.0896702329933184210933A/TA = 0.138A = 0.1370.9510.99AT = 0.862T = 0.86357532610154184211154T/CT = 0.876T = 0.8690.7530.94TC = 0.124C = 0.13157538610175184211175C/GC = 0.224C = 0.2210.9210.98CG = 0.776G = 0.77968484610877184211877T/CT = 0.202T =C = 0.798C =47136510907184211907G/CG = 0.258G = 0.2620.881.02CC = 0.742C = 0.73849625111289184212289G/AG = 0.841G = 0.8390.9670.99GA = 0.159A = 0.16183124611793184212793T/CT = 0.229T = 0.2030.3730.86TC = 0.771C = 0.79783124711813184212813G/CG = 0.17G = 0.1780.7551.06CC = 0.830C = 0.822KIAA0861-13507184214507C/GC = 0.745C = 0.7620.5571.10GAAG = 0.255G = 0.23851207114249184215249C/TC = 0.391C = 0.3630.3760.89CT = 0.609T = 0.637150276114586184215586A/CA = 0.417A = 0.4090.7990.97AC = 0.583C = 0.59168151614647184215647C/TC = 0.762C = 0.8170.09061.39TT = 0.238T = 0.18368330215004184216004C/TC = 0.729C =T = 0.271T =61942416573184217573T/GT = 0.925T = 0.9290.8121.06GG = 0.075G = 0.07162072216811184217811A/GT =A = 0.181G =G = 0.81952905518921184219921A/GA = 0.398A = 0.3640.3250.86AG = 0.602G = 0.63666401019651184220651T/GT = 0.549T = 0.6070.1451.27GG = 0.451G = 0.39367845420565184221565C/TC = 1.000C = 0.9850.09980.00CT = 0.000T = 0.015265384525239184226239G/AG = 0.825G = 0.8270.941.01AA = 0.175A = 0.17347279525721184226721G/AG = 0.921G = 0.9210.9830.99GA = 0.079A = 0.07950707927133184228133G/AG = 0.166G = 0.1670.9791.00AA = 0.834A = 0.83353433327778184228778T/CT = 0.502T = 0.4910.730.96TC = 0.498C = 0.50953529827906184228906T/CT = 0.275T = 0.2280.1270.78TC = 0.725C = 0.77253621328000184229000G/AG = 0.726G = 0.7170.7810.96GA = 0.274A = 0.28383124530005184231005A/GA = 0.979A = 0.9810.8431.12GG = 0.021G = 0.01963969030520184231520T/CT = 0.882T = 0.8920.651.10CC = 0.118C = 0.10868417432195184233195T/CT = 0.698T = 0.7080.7561.05CC = 0.302C = 0.29257176132439184233439C/GC = 0.601C = 0.5760.4990.90CG = 0.399G = 0.424198342133858184234858T/CT = 0.566T = 0.580.6691.06CC = 0.434C = 0.420463096641716184242716C/TC = 0.359C = 0.2710.002470.66CT = 0.641T = 0.729231441542450184243450T/GT = 0.974T = 0.9510.1240.53TG = 0.026G = 0.049678819643554184244554G/AG = 1.000G = 1.0000.9670.00GA = 0A = 0.000210306244211184245211A/GA = 0.674A = 0.6420.3810.87AG = 0.326G = 0.358982708444775184245775G/CG = 0.966G = 0.9280.04030.46GC = 0.034C = 0.072986486544962184245962A/GA = 0.106A = 0.1850.0005291.93GG = 0.894G = 0.815680495145317184246317C/TC = 0.96C = 0.9040.005730.40CT = 0.040T = 0.096677054845712184246712A/GA = 0.062A = 0.1591.12E−052.86GG = 0.938G = 0.841140345245941184246941T/CT = 0.97T = 0.9320.01440.43TC = 0.030C = 0.068760999446520184247520G/TG = 0.001G = 0.0020.9182.34TT = 0.999T = 0.998983825047175184248175C/TC = 0.52C = 0.5240.9091.01TT = 0.480T = 0.476986340448045184249045G/TG = 0.001G = 0.0020.8872.58TT = 0.999T = 0.99890395048636184249636C/AC = 0.417C = 0.4060.7390.96CA = 0.583A = 0.594678728448689184249689G/AG = 0.475G = 0.5010.4161.11AA = 0.525A = 0.499201734048704184249704A/GA = 0.965A = 0.9450.1950.63AG = 0.035G = 0.055200144948849184249849G/CG = 0.738G = 0.7970.02851.39CC = 0.262C = 0.203131728848850184249850G/AG = 1.000G = 1.0000.9670.51GA = 0.000A = 0.000763589149931184250931T/GT = 0.973T = 0.9470.1210.49TG = 0.027G = 0.0531070458151510184252510—/TT— = 0.998— = 0.9970.9490.83TT = 0.002TT = 0.0031137191051526184252526—/A— = 1.000— = 1.0000.9770.00A = 0A = 0.0001093711851758184252758A/GA = 0.495A = 0.510.6291.06GG = 0.505G = 0.490764205351975184252975C/GC = 0.002C = 0.0030.9081.85GG = 0.998G = 0.997382152253475184254475A/GA = 0.504A = 0.520.621.07GG = 0.496G = 0.480202992655524184256524T/CT = 0.001T = 0.0010.9752.52CC = 0.999C = 0.999139083156754184257754T/GT = 0.057T = 0.0760.2841.36GG = 0.943G = 0.924764389057473184258473A/GA = 0.001A = 0.0020.9342.30GG = 0.999G = 0.9981192560657497184258497A/CA = 0A = 0.0010.956CC = 1.000C = 0.999982632557613184258613G/AG = 0.002G = 0.0030.8871.85AA = 0.998A = 0.997680042958023184259023G/AG = 0.605G = 0.590.6620.94GA = 0.395A = 0.410680336858821184259821T/CT = 0.002T = 0.0010.8850.20TC = 0.998C = 0.999135356659644184260644C/AC = 0.452C = 0.4690.6041.07AA = 0.548A = 0.531227211566217184267217G/AG = 0.673G = 0.6340.2240.84GA = 0.327A = 0.366227211666344184267344G/AG = 0.999G = 1.0000.8768.14AA = 0.001A = 0.000373260367326184268326G/CG = 0.773G = 0.7920.4951.11CC = 0.227C = 0.20894005569777184270777A/CA = 0.778A = 0.8030.3561.17CC = 0.222C = 0.197231473083594184284594A/GA = 0.352A = 0.3110.1830.83AG = 0.648G = 0.689203057884579184285579G/CG = 1.000G = 1.0000.9630.33GC = 0.000C = 0.000204928085623184286623C/TC = 0.001C = 0.0050.57630.94TT = 0.999T = 0.995



FIG. 1C shows proximal SNPs in and around the KIAA0861 gene for females. As indicated, some of the SNPs were untyped. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1C can be determined by consulting Table 23. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Additional Genotyping


A total of fourteen SNPs, including the incident SNP, were genotyped in the discovery cohort. The discovery cohort is described in Example 1. Four of the SNPs are non-synonomous, coding SNPs. Two of the SNPs (rs2001449 and rs6804951) were found to be significantly associated with breast cancer with a p-value of 0.001 and 0.007, respectively. See Table 26.


The methods used to verify and genotype the five proximal SNPs of Table 26 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 24 and Table 25, respectively.

TABLE 24dbSNP #Forward PCR primerRevee PCR primer7639705ACGTTGGATGTGTCAGAAAGCAAACCTGGCACGTTGGATGTTACAGGCATTGGAGACAGC2293203ACGTTGGATGCTGCATAATGGTGGCTTTGGACGTTGGATGTGTGGGTGTTCACTTTGCAG3732602ACGTTGGATGCCCTCTTGTCAGGAAGTTCTACGTTGGATGGAGACAGAGTTGAACTCCCG2001449ACGTTGGATGAGGAAGAAACTGACGGAAGGACGTTGGATGATGTCAAGTGCACCCACATG6804951ACGTTGGATGAAGATACGAATGGAGCCTGGACGTTGGATGGCAATAGGACTCCCTTTACC3821522ACGTTGGATGCGCACTACAAGATTCCAAGCACGTTGGATGTCAGTCCCACATTCAGAACC2293203ACGTTGGATGTGTGGGTGTTCACTTTGCAGACGTTGGATGCTGCATAATGGTGGCTTTGG3811729ACGTTGGATGTGGGCGAGGTTCTGCAGCGTACGTTGGATGGTTTCGTTTCTCCGGCACAG534333ACGTTGGATGGATGCACTGAAGGGAGAAAGACGTTGGATGAGAGGCTAAATGTTGGCAGG575326ACGTTGGATGTGAGCCCAAAACTACTGCTGACGTTGGATGATTCCTGCAGGTACTGTGTC2272115ACGTTGGATGCAGGCCTTCTTGCTCTTATCACGTTGGATGAGTTGTGAGTGATTTCAGGG940055ACGTTGGATGTATGCTTCCAGTCTCTGACCACGTTGGATGGATAGGTAATCCAGTTGGGC2017340ACGTTGGATGGATCTCTCCCTGAACTGAAGACGTTGGATGGCTTTCCCCTAAAGCATCTC571761ACGTTGGATGAATATCCTAGGCTAGCAGTGACGTTGGATGGTGCATAAATACATGAATAG












TABLE 25








dbSNP #
Extend Primer
Term Mix


















7639705
TGATGCACGTGGAGCAG
CGT






2293203
GCCCCTGGAAAAGGCCC
CGT





3732602
GGAAGATGATGAGACTAAAT
ACG





2001449
CACATGCCTGCTCGCCCCC
ACT





6804951
TCCCTTTACCTTCATGG
ACG





3821522
GCATCTTCAGGAATCTTG
ACT





2293203
GCCCCTGGAAAAGGCCC
CGT





3811729
GGTTCTGCAGCGTGCGGCGA
ACT





534333
GAAGGGAGAAAGTAACAGGGTC
ACT





575326
TGGTCATACCCTTCAAG
ACT





2272115
ATCTTCTACACATTGATTCAG
ACT





940055
TCTCTGACCACTTGACCCA
ACT





2017340
TGGTGACCAGCAGGAGA
ACG





571761
GGCTAGCAGTGGGGTTG
ACT









Table 26, below, shows the case and control allele frequencies along with the p-values for all of the SNPs genotyped. The disease associated allele of column 4 is in bold and the disease associated amino acid of column 5 is also in bold. The chromosome positions provided correspond to NCBI's Build 34. The amino acid change positions provided in column 5 correspond to KIAA0861 polypeptide sequence of SEQ ID NO: 22. The corresponding amino acid position in the alternative KIAA0861 polypeptide sequence (NP055893) can be easily calculated by adding 83 amino acids to the positions provided in column 5.

TABLE 26Genotyping ResultsBreastPosition inAminoCancerSEQ IDChromosomeAllelesAcidAF FOddsAssociateddbSNP rs#NO: 3Position(A1/A2)ChangeAF F casecontrolp-valueRatioAllele3811729393184201393A/GA = 0.917A = 0.9480.05421.65GG = 0.083G = 0.05257532610154184211154T/CT = 0.897T = 0.8850.5450.88TC = 0.103C = 0.11553433327778184228778T/CT = 0.254T = 0.2490.850.97TC = 0.746C = 0.75157176132439184233439C/GC = 0.487C = 0.4650.4920.92CG = 0.513G = 0.535680495145317184246317C/TA819TC = 0.956C = 0.9150.0072.02CT = 0.044T = 0.085201734048704184249704G/AG = 0.027G = 0.0420.2031.57AA = 0.973A = 0.958200144948849184249849G/CG = 0.693G = 0.7820.0011.59CC = 0.307C = 0.218382152253475184254475A/GA = 0.372A = 0.3910.5391.08GG = 0.628G = 0.609227211566217184267217A/GA = 0.407A = 0.4440.2461.16GG = 0.593G = 0.55694005569777184270777A/CA = 0.702A = 0.7530.07211.29CC = 0.298C = 0.2473732602126831184327831C/TS506FC = 0.008C = 0.0120.5971.41TT = 0.992T = 0.9882293203137878184338878A/TL295QA = 0.012A = 0.0150.6901.24TT = 0.988T = 0.9857639705147455184348455G/TI276LG = 0.195G = 0.1890.7941.04GT = 0.805T = 0.811


Example 7
NUMA1 Region Proximal SNPs

It has been discovered that a polymorphic variation (rs673478) in the NUMA1/FLJ20625/LOC220074 region is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs673478) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately 327 allelic variants located within the NUMA1/FLJ20625/LOC220074 region were identified and allelotyped. The polymorphic variants are set forth in Table 27. The chromosome position provided in column four of Table 27 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 27Position inChromosomeAlleleGenomeDeduceddbSNP rs#SEQ ID NO: 4ChromosomePositionVariantsLetterIupac49453922031171420953t/ccY793849612361171421986g/aaR792655017681171422518c/ggS794537421011171422851a/ttW794948031461171423896t/ctY710252344761171425226t/ctY712126061241171426874a/ggR713123067191171427469c/ttY712831769251171427675g/aaR227638570601171427810c/ggS227638470811171427831t/cgR227638370901171427840a/gcY189292176961171428446c/tgR189292079891171428739c/taR794262694071171430157g/agR712442996991171430449t/ggK711408199051171430655a/ttW712571899841171430734c/tcY1055452130231171433773t/ctY3829215130471171433797g/atY1541306135711171434321c/tgR3814722140861171434836c/agK1939240143371171435087t/atW5743655144621171435212t/ccY5743656145181171435268a/ggR5743657146951171435445a/ggR3814721148301171435580g/acY5743658152821171436032c/aaM5743659154361171436186a/ggR5743660157451171436495g/agR5743661157481171436498g/tgK5743662157971171436547t/ctY2298455160361171436786t/gaM5743664166461171437396g/agR5743665167131171437463a/gaR5743667168591171437609g/agR5743668169141171437664g/—cN5743669174221171438172c/tcY1573503174991171438249a/gtY5743670176461171438396g/ccS5743671176811171438431g/agR1892919177331171438483c/tgR5743672178411171438591g/agR2735786179631171438713a/ggR5743673180111171438761g/agR5743674182381171438988a/taW1062452185691171439319c/acM5743675186721171439422t/ccY5743676187151171439465a/ggR760246189271171439677c/ttY11345794192661171440016t/—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-AA263341171447084t/—tN5019605263371171447087c/gcS5019604263381171447088a/ttW5019603263391171447089c/gcS3793941269651171447715g/acY11235418272781171448028c/gcS3793940280421171448792a/gcY2032353285201171449270g/tcM3934448285331171449283g/tcM7951267287641171449514a/ggR1053603296851171450435g/acY1053602307381171451488a/gcY11235419311751171451925t/ccY1053601314901171452240a/gcY3750913317261171452476g/cgS3750912317701171452520a/gcY1053600317921171452542t/atW1057992329801171453730c/aaM2298789333981171454148a/gtY10898813335801171454330t/atW1127871234468-344721171455218{circumflex over ( )}—/gtcaacgtcaacNNNNN71455222NUMA1-AB349411171455691c/ttY949325352141171455964g/aaRNUMA1-AC356291171456379g/ccS949326358641171456614t/ccY2298456362731171457023a/ttW7949845372811171458031a/gaR7949989373781171458128a/gaR1573500383481171459098c/gcS4945411386081171459358a/ggR383138738627-386281171459377{circumflex over ( )}ca/—caNN7145937811235422390491171459799c/acM10128658390771171459827c/tcY2298457397691171460519t/ctY3838779405551171461305t/—cN1573501412511171462001t/ccY11235424412701171462020c/tcY10898814420631171462813t/ctY7930142425741171463324t/ccY7930544429121171463662c/tcY7930721430391171463789a/ccM7930722430421171463792c/gcS6592456432211171463971a/ggR11235425435181171464268t/ccY6592457436441171464394g/cgS10898815449811171465731a/ggR11235426450131171465763t/ccY10898816450381171465788c/tcY1939247460791171466829t/aaW1939246478481171468598t/gaM1939245480901171468840a/gcY1939244481471171468897g/tcM1939243482931171469043c/tgR4245463487711171469521c/acM4944258489511171469701a/ttW7926751499721171470722t/gtK12282917501611171470911g/agR12282918501631171470913g/agR7937582501711171470921t/ccY10898817512891171472039t/ccY7480015516991171472449g/aaR7123992520051171472755c/tcY1573502529861171473736g/acY7127865533391171474089g/cgS4945426537041171474454c/acM11235428546151171475365g/cgS7122489553071171476057a/caM1894003558341171476584t/caR1548348564751171477225g/aaR1892923570531171477803g/acY5792570573551171478105—/ggN7115200577181171478468t/gtK4945430587031171479453g/cgS11235429587721171479522c/ttY1939242591401171479890c/tgR9666346594501171480200g/ccS7101553594611171480211t/ccY7124000598961171480646c/ttY12291664601571171480907g/agR12291778603691171481119a/ggR12291781603951171481145a/ggR12291787604241171481174g/agR12291788604261171481176g/agR12291833604561171481206a/ggR10793016606211171481371g/agR5792571612071171481957g/—gN12293529612091171481959g/cgS4338555612541171482004c/ttY11235431618541171482604c/ggS6592458631031171483853a/ggR4945434646451171485395c/tcY4945435647771171485527t/ccY11307657649801171485730t/—tN5792573649871171485737t/—tN1894004653751171486125t/cgR12276164655611171486311a/ggR4378421675541171488304c/ttY7116495676431171488393c/tcY7101701677131171488463a/gaR10736786688321171489582t/ccY11608165701841171490934t/gtK645603704151171491165g/aaR661290715721171492322a/gaR7122209717321171492482t/ctY12417471728291171493579a/gaR541228731541171493904c/gcS12273666732211171493971a/gaR2511074743431171495093t/cgR3018311744621171495212t/ggK3018289744711171495221t/ctY679926754941171496244a/gcY567026755101171496260g/atY564294758271171496577g/atY678193758311171496581t/gaM677279760271171496777t/cgR560777761601171496910c/taR676721761961171496946c/tgR7106529763781171497128a/taW11602304773061171498056g/agR585228788471171499597c/ggS578957789181171499668c/aaM7110215791171171499867a/ggR3133233798111171500561c/ggS3133230798431171500593t/ccY12576024804481171501198g/tgK674319809491171501699c/ttY675185811301171501880t/gtK5792574814521171502202—/caN12275272825951171503345c/tcY10400327836331171504383c/ttY612255842221171504972c/taR7101643843781171505128g/agR575871843801171505130a/gtY547208852261171505976c/taR2511075858151171506565t/ctY642573864121171507162c/ggS482197868051171507555g/aaR656640872681171508018t/ctY671681883701171509120c/ttY541022886141171509364a/ggR951586892231171509973a/gcY2511076893851171510135g/aaR11235432895001171510250g/cgS3018308895021171510252t/ctY11606798899291171510679g/cgS1791544905151171511265c/tgR3018304906591171511409c/atK10751193909141171511664a/caM4945470915941171512344c/ttY3018291916031171512353a/caM2511120917691171512519a/gcY671132920051171512755g/acY4945475933351171514085g/cgS3018292934431171514193t/gtK642618937511171514501c/tgR552966937751171514525a/caM6592459943511171515101t/ggK607446948101171515560c/tgR607070948561171515606a/gcY10713307958931171516643c/—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—/tagttN6100041034971171524247t/ccY6100411035261171524276a/gaR6734781046621171525412t/cgR6708021052261171525976t/gaM5050411059501171526700t/atW25111161077181171528468c/tgR6280251079091171528659a/caM5178371079171171528667c/taR6150001085101171529260t/gaM4820131095201171530270c/tgR6933911096761171530426t/gcM25110791097121171530462t/ccY22508661100711171530821t/cgR25088601106101171531360a/gcY74832671107571171531507a/ggR25110781107581171531508g/acY25088591109231171531673t/gaM25088581109631171531713c/gcS112354351112451171531995t/ggK112354361114371171532187a/ggR6394351121741171532924a/ctK122856241126461171533396a/gaRNUMA1-AD1127841171533534g/ttK6243631132751171534025t/cgRNUMA1-AE1136141171534364t/ctY10535731139651171534715g/taM10535111140951171534845c/tgR10638631141251171534875g/acY121371142131171534963c/tcY43650811142781171535028a/ggR44668681143211171535071g/cgS37509111144651171535215a/ggR5109251150581171535808t/ccY5950621151931171535943a/gcY10534431154331171536183c/tgR5427521162021171536952a/ttW38975791163281171537078t/cgR112354371168121171537562t/ccY25088561172011171537951c/tgR57925751175651171538315a/—aN6595131179691171538719g/agR108988201181501171538900a/ggR22763971277291171548479c/taR37509081279591171548709c/taR37939381286911171549441c/tgR6022851290861171549836c/ggS22763961294631171550213g/cgS22763951299001171550650t/cgR18067781366101171557360t/caR40733941377971171558547a/gaR4715471517371171572487g/tgK6061361521301171572880a/gcY6052411523321171573082t/cgR6860631537891171574539g/atY6857491538131171574563t/cgR5332071538441171574594a/caM4767531886121171609362a/ggRNUMA1-AF1911491171611899g/tgK


Assay for Verifving and Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 27 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 28 and Table 29, respectively.

TABLE 28dbSNP rs#Forward PCR primerReverse PCR primer4945392ACGTTGGATGGGCACACAGTAGGTGCTTATACGTTGGATGCCACCAGCTTGTGAGGTAAT7938496ACGTTGGATGTGCAGTGAACTGCACTCCAGACGTTGGATGCTGGCCAGTAACTACTAGCT7926550ACGTTGGATGTTACTGAGTTTCCTAGGCTGACGTTGGATGGAATCCCAACACTTTGGGAG7945374ACGTTGGATGGAACACACACAGCTCTATTCACGTTGGATGCACATCCTTTTCACCGTGTC7949480ACGTTGGATGGGTTTCACCATATTGGCCAGACGTTGGATGCACGCCTATAATCCAAACAC7102523ACGTTGGATGAAACTGGATGTGTTCCTGGGACG1TGGATGGTAGACTCAGAGCTTAGGTG7121260ACGTTGGATGGCTACTGATCAAATTAAGTGGACGTTGGATGGCTGCATTTGCTTATGAACC7131230ACGTTGGATGAGACAATCTCAGAAAGAGGGACGTTGGATGATCCATAAGGAGGAAAGGGC7128317ACGTTGGATGAGACCAAGCTACAGTATCCCACGTTGGATGGGTAGCTGCAAGTCATTGTC2276385ACGTTGGATGAAGTGCGGGCAAACTATGACACGTTGGATGTCCTCAAGAGGTGTTCATGG2276384ACGTTGGATGAGACAGCAGACTGGATTTGGACGTTGGATGACTACTCTGGGACACACAAG2276383ACGTTGGATGACTACTCTGGGACACACAAGACGTTGGATGTTTGGTCATAGTTTGCCCGC1892921ACGTTGGATGCCTGTTGCCCATGTAATGAGACGTTGGATGTACAAGAGGAGGAGGGAGTG1892920ACGTTGGATGAGTTTATCTGGGCAAAAACCACGTTGGATGAATGCCTGCTATGTGTCTAG7942626ACGTTGGATGGAAATATTTACTTGCGTTTCTCACGTTGGATGTGGACATCACGGAGAGATGC7124429ACGTTGGATGCTGGATCAAATTGAAAACAGACGTTGGATGGAAGGTAAAGCACAAGACAG7114081ACGTTGGATGTGGGCAGAGTTTCTGTTTGGACGTTGGATGGCATTAATTACATTTGCAGTG7125718ACGTTGGATGTCCCAAACAGAAACTCTGCCACGTTGGATGAGGCATGTTCACAGAGATGG1055452ACGTTGGATGATCATATCCCTCCCCAGTCCACGTTGGATGAAGACCTCCTGGGTGGGAAA3829215ACGTTGGATGTGGGTGGGAAAGACTCAAAGACGTTGGATGTCCATCATATCCCTCCCCAG1541306ACGTTGGATGCTGATTCTTCCAGTTGTCCCACGTTGGATGACCTTATCAGTGACTTGGCC3814722ACGTTGGATGATCCTGCTTCGTTCTTGCTGACGTTGGATGAAGTGGGAGGTCAAACATGG1939240ACGTTGGATGATTCCACCACTCCTAGGGATACGTTGGATGTTAACCCCCATCGGAGACCT5743655ACGTTGGATGTGAGTGTGGTCCTCAGGAAGACGTTGGATGCAGACTGAGGTTGCTCTATG5743656ACGTTGGATGACTCAGGCTCGGCTTCTCTTACGTTGGATGACAGGTGGCATAAGCAGCAG5743657ACGTTGGATGTGTCAGGCTCAGGTGAGAAGACGTTGGATGGAGGTCAAGGGACTCAGAAC3814721ACGTTGGATGGACTGTCTCTCTCAGAAACCACGTTGGATGATTCCTCCCAAGAACACCAG5743658ACGTTGGATGCCTCCTTAGATTTAGCATCCACGTTGGATGTCACTGATGGGACAAATGGC5743659ACGTTGGATGTTGCCAGAGCCAGTGTTGAGACGTTGGATGAGGAACTGGCACACAAGCTC5743660ACGTTGGATGTTCAGGCTCAATGCCATACCACGTTGGATGTGGGAGATGTAGCCGACCTT5743661ACGTTGGATGTTCAGGCTCAATGCCATACCACGTTGGATGTGGGAGATGTAGCCGACCTT5743662ACGTTGGATGGACAACTTTCCTAGGCACTGACGTTGGATGAAAGGCCAGGATGTGGACGG2298455ACGTTGGATGTCCTACTCTCCAGAGGATACACGTTGGATGAGTTCATACCCTAGGTGACC5743664ACGTTGGATGCCCATTGCTCCATTCTGTTCACGTTGGATGCATGAGACACAACTGGACAC5743665ACGTTGGATGGAATGGAGCAATGGGCTAACACGTTGGATGGCCCAGGTTCTTAAAGCAAC5743667ACGTTGGATGTAAGGATGTAACTCCAGCCCACGTTGGATGGTTCAATAAAGGGCTAAGGG5743668ACGTTGGATGGAGGAAAGGACAGTTACAGGACGTTGGATGGGCTGGAGTTACATCCTTAC5743669ACGTTGGATGAGTAATGGTCACAGGACCTCACGTTGGATGTGCTCCTCTGAGATGGCCAG1573503ACGTTGGATGGATGACCTTTTCTAGTGCCCACGTTGGATGTCAGAGGAGCAGCAGCCATC5743670ACGTTGGATGTAGAGAACTGCTCTGCACACACGTTGGATGCTCACATTCCCCGTGTTTAG5743671ACGTTGGATGCATGCATCTGGAACCTAGAGACGTTGGATGACTGCACTTCTGTAACGGAC1892919ACGTTGGATGTAGCTCTTCAGAAGAGCAGGACGTTGGATGGTTCTCTAGGTTCCAGATGC5743672ACGTTGGATGATGAAGGAACCATTGCCCAGACGTTGGATGATGGAACGCTGAGCTTATCC2735786ACGTTGGATGAGCACCAGGTGAGGGTCGCAACGTTGGATGAGGGAAGGAAAGGTCATGAG5743673ACGTTGGATGAGCACCAAGGCCTTGCACAGACGTTGGATGTCTCATGACCTTTCCTTCCC5743674ACGTTGGATGTGAGGAATGCTGGGCATTAGACGTTGGATGGAGCTCTGCTTCCATATGTG1062452ACGTTGGATGTGTCTACCTGGAGTGAACAGACGTTGGATGGACCCAAAGCAGAGAAGGAG5743675ACGTTGGATGGATAGGTGGAGAGAGAATGGACGTTGGATGCAAACTCCATTCCCACCTAC5743676ACGTTGGATGCATTCTCTCTCCACCTATCCACGTTGGATGAGTCTTGGTGGTTTCTGAGC760246ACGTTGGATGTTTAGTCCCGTCTTCCTCACACGTTGGATGGATGACTTCACTGAAGAGGC11345794ACGTTGGATGCAGAAGCTGAAGACAACACCACGTTGGATGGAGCATTATGGGCTGTTCTC5743677ACGTTGGATGAACACAGGCGCTTGAAAAAGACGTTGGATGCTCTTCCCACTCTCCATTAG5743678ACGTTGGATGACTCAGCAGGAACAAGGTAGACGTTGGATGCTATTTTTCTCCCGTGAGTAC14537ACGTTGGATGTGGGAAGGTTTTTAAGGGCCACGTTGGATGAGTCAACTCAGTACTCACGG3168177ACGTTGGATGCCTTCCCATCACTCCAAATCACGTTGGATGACAGCCTTCAGCAGCAGCTC5743679ACGTTGGATGATGGGCCCTATGTCTCAGGAACGTTGGATGAAATCCCACCCCAGTGCAAG1541304ACGTTGGATGAAGGTAGGGTGTGAGCTGCTGACGTTGGATGAGGATGCTCTTTCCCAGGAC1053725ACGTTGGATGTAGCCTCTGGATCTAGAAGGACGTTGGATGTCCTGGACTTCAAGAGTGAG5743680ACGTTGGATGAACAGTAGCCAAACCCCTAGACGTTGGATGAGAAGGCGCCAGTGAAGGAC949324ACGTTGGATGTGAGAGAAGGCACTGAGAGGACGTTGGATGAAGCACTAAAGGGCCAGTAC949323ACGTTGGATGTGAGAGAAGGCACTGAGAGGACGTTGGATGAAGCACTAAAGGGCCAGTAC5743681ACGTTGGATGACAGCCAGCAACTGATAACCACGTTGGATGCTGGGAAGATCTCTTCCTGC5743682ACGTTGGATGACAGCCAGCAACTGATAACCACGTTGGATGCTGGGAAGATCTCTTCCTGC5743683ACGTTGGATGTCTCCAAGGAGAGAAGACAGACGTTGGATGTTATCAGTTGCTGGCTGTGC5743684ACGTTGGATGTTCTCCGCGCATTGCCACCAACGTTGGATGAGTGCCTCTACCTTGCCCTT5743685ACGTTGGATGCTAGCTTCTTGGGTGTGTTGACGTTGGATGTCTGACAGCCCTTCCTTGCA2845857ACGTTGGATGTACTAAACAGGTGAGGCTGGACGTTGGATGTTCCCAGGCCAGCGTGCTGT2852365ACGTTGGATGTTCCCAGGCCAGCGTGCTGTACGTTGGATGTACTAAACAGGTGAGGCTGG11538641ACGTTGGATGACTCCTGAGTCTAAGAAGGCACGTTGGATGTCAGTAGTGCTCTGTTTGCG11538639ACGTTGGATGACTCCTGAGTCTAAGAAGGCACGTTGGATGTCTGTTTGCGCCCTTCATGT11235417ACGTTGGATGGGTGGCCTTCTTAGACTATGACGTTGGATGAAGACACCTGGCTTCAGATG11538644ACGTTGGATGAGCAGCGCAAACGGGTCTCACGTTGGATGGGAAACAGCTGGTGGCCTTC11538643ACGTTGGATGCCATCACAGATGAGGAGATGACGTTGGATGCTATCTGGATTGGCTGCATG2845858ACGTTGGATGAAGGGTCCCGACCATAAGTGACGTTGGATGTAGCTGTATGGAGATGGAGG2155146ACGTTGGATGGATTCCTCTCTGAGCTCCTGACGTTGGATGTGTTTCCAGGTGGAACAGAC2852364ACGTTGGATGCTAGATCAGCAGGTGGGATTACGTTGGATGTGAAGACCTGCTATCCCCTG2845859ACGTTGGATGCCACCTACCCCATAAACTTGACGTTGGATGATAGTCTGTGTGCCGTACTC2845860ACGTTGGATGCCCGGTCCTTAATTTGTTCCACGTTGGATGCACGCAGAGACTGCTACTAC11538642ACGTTGGATGAGGCTAGCCTGGGAAGCAGGAACGTTGGATGGCTAGATGTGGAAGAGCCAG7949430ACGTTGGATGGTACACTGCAACAGATTCACACGTTGGATGGCTGTAGAACGATGAGTTGG7938674ACGTTGGATGAAGGGAATGGGAAGCTTCTGACGTTGGATGCTAGCTTCTGGAAGACAGAG2735787ACGTTGGATGCAAACCTCCCCTTCAAGATGACGTTGGATGATTGTTGCTGCCCAGTGGAC11538640ACGTTGGATGAACCAGCCTCACCTATCTCCACGTTGGATGCAGGGATGGGAGTGAAGTAG10736784ACGTTGGATGATCCAATGTCGTCCTGCTTGACGTTGGATGAAGGACATGAGCATGGAGTG10736785ACGTTGGATGAAGGACATGAGCATGGAGTGACGTTGGATGATCCAATGTCGTCCTGCTTG11826059ACGTTGGATGAGGAACCTTGGAAGAATTTGACGTTGGATGGTCTTAACTTCTATACTAGC2503ACGTTGGATGACTAAGCTGAGATGTGAGGCACGTTGGATGCACCAAGGTTTCCTCAATGC2155145ACGTTGGATGGATATCTGGTATAATACCCGACGTTGGATGTCAGGCTGTATCCTAGTGAG4477459ACGTTGGATGAGAAGGCAAAGATAGGGCAGACGTTGGATGCGACTACAGTCTACTAAACCNUMA1-AAACGTTGGATGAAGTTCCCCTGTCCTAAGAGACGTTGGATGAACCAATCCTCAGGGAACAC5019605ACGTTGGATGTAGGAGGAAGGGAACCAATCACGTTGGATGAAGAGAGCTCACATGCCAAG5019604ACGTTGGATGAAGTTCCCCTGTCCTAAGAGACGTTGGATGAACCAATCCTCAGGGAACAC5019603ACGTTGGATGAACCAATCCTCAGGGAACACACGTTGGATGAAGTTCCCCTGTCCTAAGAG3793941ACGTTGGATGAAGGTGACACAGTTGAAAGCACGTTGGATGTCTAGATAGTCTGGGCAGGG11235418ACGTTGGATGTCTAAGCCACAGGCTTCCTAACGTTGGATGGCTATTCTCTAAGCTCTGGG3793940ACGTTGGATGTCTCTCTTTTCCCCTACTCCACGTTGGATGGCAGCACATGTACTCCAAAG2032353ACGTTGGATGTAGAGCCCCAGAAAGTGATGACGTTGGATGCTTGAAGGTGATATGCGAGG3934448ACGTTGGATGTAGAGCCCCAGAAAGTGATGACGTTGGATGCTTGAAGGTGATATGCGAGG7951267ACGTTGGATGATTGGTTCAGGGTGGGAAAGACGTTGGATGACCCTTCTGCACCTTCTCTC1053603ACGTTGGATGGTCTCAGCATCAGCACGTACACGTTGGATGGTTTCTGGAAGTGGAGTTGG1053602ACGTTGGATGTGGCAGGACAGAGCCAACAGACGTTGGATGTGCTGCTTCTGGCATTGCTG11235419ACGTTGGATGAGGCAGCGCTGCAGGCTATGACGTTGGATGGCCCGCAGCCGTTCCAGCT1053601ACGTTGGATGCACAGCGAGCTCCAGATAAGACGTTGGATGACTTCCTTCTCTTGGACCTG3750913ACGTTGGATGCACACTCACTCTCAGCTGTGACGTTGGATGCCATCAGGCTGAGACTGAAG3750912ACGTTGGATGCTCGATTACAGCAGCTTGGGACGTTGGATGTCACTCTCAGCTGTGTGCTGG1053600ACGTTGGATGAAGGAGCTGGAAGAAGAGAGACGTTGGATGACTTCAGTCTCAGCCTGATG1057992ACGTTGGATGGAACACCAGGAACCCAAATGACGTTGGATGTTGCAGGTAGGAATGCACAG2298789ACGTTGGATGCAAGACTTATCTGAGGAAGGACGTTGGATGAACCTGCTTACTACTTCCCC10898813ACGTTGGATGGCACCTACAATAGGCTATGCACGTTGGATGTAGAGCGAGACTCTGTCTCA11278712ACGTTGGATGGGCAAGTGAGAATCCCCATCACGTTGGATGATAATTGGAGGCATCCAGCCNUMA1-ABACGTTGGATGGGGAAGCAGTGAGAAGAGAGACGTTGGATGAGCTCTCCCTGCATTCCTTC949325ACGTTGGATGTGTCCCCATCTTCTCTTTCCACGTTGGATGCAGAACTATGTGCACAAGGGNUMA1-ACACGTTGGATGTAGTGCGCACTTCCATAGACACGTTGGATGCATATGCATTGGTAAGCGCC949326ACGTTGGATGCCCTCAAAAGCTGTTCCCTGACGTTGGATGCTGCAGAGATGTGCTAAGAG2298456ACGTTGGATGGTTCTCAAATTGCATAAAGGACGTTGGATGTAGAAGGCACAGGAGCTGGG7949845ACGTTGGATGTCACCTGATGTCAGGAGTTCACGTTGGATGCCACCACACCTGGCTAATTT7949989ACGTTGGATGAAATTAGCCAGGTGTGGTGGACGTTGGATGAATCTCCACTTCCCGTGTTC1573500ACGTTGGATGCTATAACCTCCAACTCCTGGACGTTGGATGAAAAATGAGCTGGGTGTGGC4945411ACGTTGGATGGAGGAAAGGATGAGATAAATGACGTTGGATGCTCTGTTCCTATATGTGTTTC3831387ACGTTGGATGATGAAGTGAAAGTTCTGTGGACGTTGGATGCGTAGAAATTATTCTCTGTTCC11235422ACGTTGGATGTCTAGAAGCCAAACAGGAGGACGTTGGATGAAGAGTCACCGGAATAGCTC10128658ACGTTGGATGTCTAGAAGCCAAACAGGAGGACGTTGGATGAAGAGTCACCGGAATAGCTC2298457ACGTTGGATGTGGTTTCCAGGAAGTTCACCACGTTGGATGTGTGCAGATACCAGGCATTC3838779ACGTTGGATGCTGTTTCCCCGAACTTCAAGACGTTGGATGCTTGCAAGGGAAAGAGACTC1573501ACGTTGGATGTAGCTTCCCGTTCATCTGTGACGTTGGATGCTGCCACCCTATTTGCAAAC11235424ACGTTGGATGCTGCCACCCTATTTGCAAACACGTTGGATGTTGAGCCATTCCAGATGGTG10898814ACGTTGGATGTGGAACTGCAGTTAGCTAGGACGTTGGATGAATACTAGTCCCTGGGATCC7930142ACGTTGGATGACATTTCACCTGAGAACCTCACGTTGGATGATGTTGTGACTCCTTGGCTC7930544ACGTTGGATGGCAGCACTCATGAATGCAACACGTTGGATGGCACCTACTTTATTCCTGGC7930721ACGTTGGATGTAGTGGAGGCATTTTGCCAGACGTTGGATGGAGGGATGCTTTTTACTGAG7930722ACGTTGGATGGAGGGATGCTTTTTACTGAGACGTTGGATGTAGTGGAGGCATTTTGCCAG6592456ACGTTGGATGAAGGGAAACTTGTCAGAGGGACGTTGGATGATAAGCTGTGGGAGTTGAGG11235425ACGTTGGATGCTTGGAGGTAGGCGATATTGACGTTGGATGAAGGAAGCTGGTCTGCATTG6592457ACGTTGGATGGTGTGTTGTCCTTGGGTTAGACGTTGGATGGCATCTTGAATTTTTGGCCC10898815ACGTTGGATGTGAGTCCCTGATACCAGTTCACGTTGGATGAGGCCAAGGATAGACTGAAG11235426ACGTTGGATGTTAGATTGTTTGCCCCAGGCACGTTGGATGTGATACCAGTTCCTAACTGC10898816ACGTTGGATGTTCAGTCTATCCTTGGCCTGACGTTGGATGCCAAGCATAGGTCAGTTGTC1939247ACGTTGGATGAAAGGAAGGGCTCTCTGATGACGTTGGATGTAATTTCAGGAAGGAGTGCC1939246ACGTTGGATGCACAGTGCAGGGACACTATCACGTTGGATGATAAGAGGCTGAGGTAGGTG1939245ACGTTGGATGTGCGCCTGGCCTAAAAGTTGACGTTGGATGTCAATGATTTCTCTACAGAC1939244ACGTTGGATGAACAACTTTTAGGCCAGGCGACGTTGGATGTCAAGCAGTCCTTCCACCTC1939243ACGTTGGATGCTCAAGCGATCTTCCCACGTACGTTGGATGTTTTTAGCTGGGTGAGGTGG4245463ACGTTGGATGTGAAGCTGCAACTGCATTCCACGTTGGATGCTGTTTTAACTGGGATTCATC4944258ACGTTGGATGGTCTCTTCATTTTCTGCAGGACGTTGGATGTTGGTCAGGACAGGTCATTG7926751ACGTTGGATGCTGATCCCAGCACATATAACACGTTGGATGATAGAGTGAAAGCCTGTGTC12282917ACGTTGGATGTCAGAAGTTTGCAACCACCCACGTTGGATGCCACCACACCCAGCTAATTT12282918ACGTTGGATGTCAGAAGTTTGCAACCACCCACGTTGGATGCCACCACACCCAGCTAATTT7937582ACGTTGGATGGAGCTCAGAAGTTTGCAACCACGTTGGATGCCACACCCAGCTAATTTTTG10898817ACGTTGGATGTCTCTGACCCAGGGCAAGTTACGTTGGATGTTGCAGTGAGCCGAGATCAC7480015ACGTTGGATGTAATCCCAGCACTTTGGGAGACGTTGGATGACAGGTTTTTGCCATGTTGC7123992ACGTTGGATGGACCAAAGTCCCTGCATATGACGTTGGATGCAGAGCAAGACTCGGTCTAA1573502ACGTTGGATGTGCTGATTTAATGTGACCAGACGTTGGATGCATTTTTGCAGATAAAGAAA7127865ACGTTGGATGAGGTGGCAGAATCTCAATGGACGTTGGATGGGAGATCCCATGGGACATTT4945426ACGTTGGATGACACCATTCTTGCCCAGAAGACGTTGGATGTGGATAGGAAGGACCAAGAG11235428ACGTTGGATGAGAAACCCCAGTTGAGTGTCACGTTGGATGGCTGACAAGACTAAAGCTCG7122489ACGTTGGATGTCTCAGCAGATCCTTCTGTGACGTTGGATGAGTACACTGGGTGATGCTGA1894003ACGTTGGATGGCCTAGCCATGATTTCCTACACGTTGGATGTTGACCCTCTGGTCCTGC1548348ACGTTGGATGTCGGTGTTTGCTTGCATGTGACGTTGGATGGTGAAAACCCTGATCTTGGG1892923ACGTTGGATGTGCAGCCATGTATTGTACTGACGTTGGATGTGTGTGAATATAGTGGTGGG5792570ACGTTGGATGGAAAGCAACCCTTTGCTCTGACGTTGGATGATACTCAGAAACAGGCGCTG7115200ACGTTGGATGTTGGTTTTCTTCTCAGTCTGACGTTGGATGAAAGAAAGCAGACTCCTGGC4945430ACGTTGGATGCAGCCATGTAGGAGAAGCAGACGTTGGATGCTGCAGCCCTTAACAGACG11235429ACGTTGGATGACTCTGCTTCTCCTACATGGACGTTGGATGGAAGTTCGCTATTCAGTGGG1939242ACGTTGGATGCTCCTCTCTGCTTTCTCTTCACGTTGGATGCCTTGAAACACACAGGTAGC9666346ACGTTGGATGAAGTGCTGGGATTACAGGTGACGTTGGATGTAATGAGGGCACACAAGAGG7101553ACGTTGGATGAAGTGCTGGGATTACAGGTGACGTTGGATGTAATGAGGGCACACAAGAGG7124000ACGTTGGATGTAATCCCAGCACTTTGAGAGACGTTGGATGAGAACTCCGCCTGGCTAATT12291664ACGTTGGATGGCTGTGCCTAGGCAACATAGACGTTGGATGTACAGGTGTGTGCCACCATG12291778ACGTTGGATGGTCACAATCATTGGCTACAGACGTTGGATGGGGACTCTGACACTAAAAAAG12291781ACGTTGGATGGTCACAATCATTGGCTACAGACGTTGGATGGGGACTCTGACACTAAAAAAG12291787ACGTTGGATGAAGGAATTCTCCCACCCTAGACGTTGGATGGTCACAATCATTGGCTACAG12291788ACGTTGGATGAAGGAATTCTCCCACCCTAGACGTTGGATGGTCACAATCATTGGCTACAG12291833ACGTTGGATGTTTAGTGTCAGAGTCCCAGCACGTTGGATGGGCATGATCTCTGCTCATTC10793016ACGTTGGATGGGTACCTACTTCATTAAGGGACGTTGGATGAGCTAATGCTTACTGAGTGC5792571ACGTTGGATGCCTACAATCTAACTCCTCCCACGTTGGATGCATCAGTCTGCCTCTCTAGA12293529ACGTTGGATGTCCCTACAATCTAACTCCTCACGTTGGATGTTTACTTTAGGGTCCAGCTC4338555ACGTTGGATGGGAGGAGTTAGATTGTAGGGACGTTGGATGAGGGCAAGACTCCATCTCAA11235431ACGTTGGATGTCTGGCCACCAGAGAATGACACGTTGGATGTACAGCAATGAGCCTTGGTC6592458ACGTTGGATGGGAGAATTGCTTGAATCCTGGACGTTGGATGTTGTTACCCAGGGTGTAGTG4945434ACGTTGGATGGAAGAAATCTGAGGCTCAGGACGTTGGATGATAGGGACAAGGTAGACAAC4945435ACGTTGGATGAAGAATCACATGAACCCGGGACGTTGGATGTTCAAGATGGAGTCTCGCTC11307657ACGTTGGATGGCCGTGTGCTTTTCCTCATGACGTTGGATGTGAGGTCGTGCCATTGTACT5792573ACGTTGGATGGCCGTGTGCTTTTCCTCATGACGTTGGATGTGAGGTCGTGCCATTGTACT1894004ACGTTGGATGTGAGGATCCGAGAGCTTTACACGTTGGATGCATCCCTCCTAGTACAAGAC12276164ACGTTGGATGTTACCATGGCCTCATTGTCCACGTTGGATGGAAGCCTCAGACTTACCAAC4378421ACGTTGGATGTTTTTGAGACAGGGTCTTGCACGTTGGATGAGAAGTTTGAGGTTGCAGCG7116495ACGTTGGATGCAAGTAGCTGCTGCTACAACACGTTGGATGTAGCGAGACTTCATCGCTAC7101701ACGTTGGATGATGAAGTCTCGCTATGTTGCACGTTGGATGACACTTTGGGAGGTCAATGC10736786ACGTTGGATGCGCTCCTTTAAACCAGTACCACGTTGGATGTGGGGAGCTAAAGAGAACAC11608165ACGTTGGATGTTGGAGACTTGTTCCCTCTGACGTTGGATGTTGCACTGCATTCTGTAAAG645603ACGTTGGATGTACATCTTCAGTACAGATGCACGTTGGATGCCACATGTGTGGATTCAACC661290ACGTTGGATGGTCTCTGCCTTGCATAGATCACGTTGGATGAACAGGAATCCCCAGAGATC7122209ACGTTGGATGAGCTGTGGAATCTCAAGCAGACGTTGGATGGAAAGACAGTGACACCAATG12417471ACGTTGGATGCTGAAGTCTCAGCTACTCAGACGTTGGATGAATCGTAGCTCACTGAAGCC541228ACGTTGGATGTAATCCCAGCACTTTGGGAGACGTTGGATGTTTTACTATGTTGGCCAGGC12273666ACGTTGGATGATTACTGGCATGAGCCATCGACGTTGGATGGATTATCAGTTTGGCTTGCC2511074ACGTTGGATGTCCAGCCTAAGAAACAGAGCACGTTGGATGACCGCACCCAGCTTAGTTTT3018311ACGTTGGATGAAAACAAACTAAGCTGGGTGACGTTGGATGAGAGACAGGGTTTCACTATG3018289ACGTTGGATGAGAGACAGGGTTTCACTATGACGTTGGATGAAAACAAACTAAGCTGGGTG679926ACGTTGGATGACTTGCCAGGATTAGGAGTGACGTTGGATGAGCTGCTTCCAACTCAACTG567026ACGTTGGATGATGTGAGCACAGCTAGCTACACGTTGGATGTTGTTTGGAGAGCTCCTGGG564294ACGTTGGATGATATGTTCTGCAACTTGCCCACGTTGGATGTGCTGGTATGGAAACATGTC678193ACGTTGGATGTGCTGGTATGGAAACATGTCACGTTGGATGATATGTTCTGCAACTTGCCC677279ACGTTGGATGCTCCTGGTAGCTGGGACTAAACGTTGGATGGAACAGTTTGGGCAACATGG560777ACGTTGGATGGTGGCACATTCTTACATAGGACGTTGGATGCAAAGTGCTGGGATTACAGG676721ACGTTGGATGTCCAGATGTAGCAAAATGGGACGTTGGATGTGGCTGGCAATTCCTTAAAC7106529ACGTTGGATGATTTGGGAATATCTGTTGACACGTTGGATGCAAGCTAATATTTCTCTAGG11602304ACGTTGGATGATTGCAGGTATGAGCCACTGACGTTGGATGCAGAGTGAGACTCCATGTCG585228ACGTTGGATGATTTGGGAGAGAATGCGAGGACGTTGGATGGTGGAGGAACTCAGTGTAAC578957ACGTTGGATGTCTTTTTAATTTCTCCTCGCACGTTGGATGTTCGTGGAGAGTATGATAGC7110215ACGTTGGATGGCTATCATACTCTCCACGAAACGTTGGATGGGTTTCACCATGTTGGCCAG3133233ACGTTGGATGAGGTGAAAGGATTGCTTGAGACGTTGGATGCACCACCATGCCTAGCTAAT3133230ACGTTGGATGTCAAGTGATCCTCTCACATCACGTTGGATGCAACATAGTGAGACCTCATC12576024ACGTTGGATGCAGCTTATTATGGCTTCAGCACGTTGGATGTATAGTCCCAGCTACTCAGG674319ACGTTGGATGAAATAGCTGGGCATGATGGCACGTTGGATGATCTTCCCGCTTTAGCTTCC675185ACGTTGGATGAATGACATGGGGAAATACTCACGTTGGATGCACCCAGCCTATATCCTGC5792574ACGTTGGATGTTCAAAAATGGGGCCATACCACGTTGGATGAGAGTGAGACCCTGTCTCAA12275272ACGTTGGATGGTACTGTAAGAACCAGGACCACGTTGGATGGCCCGGTCTTGTCTATTCTT10400327ACGTTGGATGCTGCCACTTTAAGAGGACTGACGTTGGATGTCTTCTTTCCCTCATTGCCC612255ACGTTGGATGGTTTGACTACTGGACTTGGGACGTTGGATGTCTGATCACCCAGCTGTGAC7101643ACGTTGGATGGATTCTGTGACTAAGTTACTGACGTTGGATGTAGCATCTCTTAACTCTTTC575871ACGTTGGATGAGCCTGGTCAAAAGATTCTGACGTTGGATGTAGCATCTCTTAACTCTTTC547208ACGTTGGATGGATAATGGAGAAAACTGGCCACGTTGGATGAGTCTGGGTGACAGAGAGAG2511075ACGTTGGATGTTGAAGATTTCTTCCAGGGCACGTTGGATGGGGCAAGACATGTACAATATC642573ACGTTGGATGAGATCCTGCTCAGGACAAAGACGTTGGATGTCCACCAGGAGGTAAGTCAA482197ACGTTGGATGGAAAATGAGAGTGGTGTGGGACGTTGGATGCTGCCCTGTTAGGATTTCAG656640ACGTTGGATGTGGGACCCAGGCACACTCCAACGTTGGATGCTTGAGCTCAGGAGTTCCAG671681ACGTTGGATGGAAATACTTGCTGAAATAGGGACGTTGGATGACATTTTGCCAAATTTGCTG541022ACGTTGGATGACTACCTAAGGAAACTGGGCACGTTGGATGCTACTATACCCCTCATGAGC951586ACGTTGGATGAACCAAGGTAAAGGGTTGGCACGTTGGATGCTACAGCCATCAGATACCTC2511076ACGTTGGATGCAAAGTGCTGGGATTACAGGACGTTGGATGTTTCTAGACAGCTCCTCCTC1123543ACGTTGGATGAGTAGCTGGGACTACAGGCAACGTTGGATGAGGAGATAGAGACCACGGTG3018308ACGTTGGATGAGTAGCTGGGACTACAGGCAACGTTGGATGAGGAGATAGAGACCACGGTG11606798ACGTTGGATGATAATGGCCTCTCCTCTACCACGTTGGATGAGCGAGACCCTGTCTCAAAA1791544ACGTTGGATGATTACAGGCCTGATCCACCACGTTGGATGTAGAACTTAGCTCACAGAGC3018304ACGTTGGATGCCTCCTGGGTTCAAGCGATTACGTTGGATGAGACCAGACTGGCCAACATG10751193ACGTTGGATGTCTCTCTATCACCCAGACTGACGTTGGATGTTGAACCTGGGAGGTGGAAG4945470ACGTTGGATGAATCACTTGAGCCCGAGAGGACGTTGGATGATGGAGTCTCACTCTGTCG3018291ACGTTGGATGAGATGGAGTCTCACTCTGTCACGTTGGATGACAGGAGAATCACTTGAGCC2511120ACGTTGGATGGGTAGATTTGGAGCTGAGAGACGTTGGATGATATGCCTAGAAGTGCTCAG671132ACGTTGGATGAACAGAAGTTGGTTCTTCCCACGTTGGATGGCCTTACTTAGCTGATGCTG4945475ACGTTGGATGTTATTCTCCAGGCTGGAGTCACGTTGGATGAGGCAGGAGAATCGCTTGAA3018292ACGTTGGATGAGCATGAGAAATCTTTTGGGACGTTGGATGCTACACCTGTAAACAGCAGC642618ACGTTGGATGTCTCAGATCTCATGCGTAACACGTTGGATGCCAGAAGTTAACACAGAAAG552966ACGTTGGATGCCCAATCATTACCTCTTTACCACGTTGGATGATGTAGACGACAGAATGAGG6592459ACGTTGGATGGGAGAATGGTGTGAACCTGGACGTTGGATGAGATGGAGTCTCACTCTGTT607446ACGTTGGATGGATCATTCCCAAAGTCAATCCACGTTGGATGCATGCCCAGCTACAAAATAAT607070ACGTTGGATGCATACCAAAAGGTGTTGTCCACGTTGGATGAGAGATGGATTGACTTTGGG10713307ACGTTGGATGTAAAATACCAGATGGCAGGCACGTTGGATGAACTCTTGACCTCGTGATCC3018302ACGTTGGATGTTTGGGTTTATGGGTTGGGCACGTTGGATGACTGACCAGTCCAAGACAAC3750909ACGTTGGATGGTTGTATCTTGTTCGCCGTGACGTTGGATGGCACTCACAGAACGACTAAG3018301ACGTTGGATGACTAAGAACCTTCCTGCTCGACGTTGGATGTCTGTCCCATGTGAGTGTTG2511114ACGTTGGATGAACACTCACATGGGACAGACACGTTGGATGGGGTGGTTCTTAAGCATCCC12270166ACGTTGGATGTGAGGTAGAAGGATCGCTTGACGTTGGATGTGGAGTGTAGTTGCGTGATC12270241ACGTTGGATGTTCTGAGGGCGTTTCTGATCACGTTGGATGCCCCAACGCAAACATAAAGC11606587ACGTTGGATGCGCTACTCAAAGCTCTACAGACGTTGGATGGAAAGCACTGGGTAGGTTAC686340ACGTTGGATGGTCTCATTGTCTTAGTCTCTCACGTTGGATGGCTGGAATGAATTTCAGATCC548961ACGTTGGATGAAAAAAAAATTGGGGGTGGGACGTTGGATGTATTTGCGCACTGCAACCAG549032ACGTTGGATGTACTGTTCACTCTCTACCCCACGTTGGATGCAAGAGCGAAACTCTGTCTC575831ACGTTGGATGATTACAGCAACCTCATGGCCACGTTGGATGATAGTGCCGGCAAGTAGTAG575878ACGTTGGATGATAGTGCCGGCAAGTAGTAGACGTTGGATGATTACAGCAACCTCATGGCC577435ACGTTGGATGGATTGCCATGGTAGCACTCGACGTTGGATGCCCTGCTGGTGTTTATGGAC579320ACGTTGGATGAAGATTCAACCTGGCTCCTGACGTTGGATGTGCATTTGGCTAGACTGCAG495567ACGTTGGATGTTCTGTCAACTTGGGATTGGACGTTGGATGATTGTTGTAGACTATTACCC636946ACGTTGGATGAGACCAGCCTAAGCAACATGACGTTGGATGTTAGCTTCCTGAGTAGCTGG493065ACGTTGGATGTGATCAGCTGGAGGGTTATGACGTTGGATGATGGCTTCAGCTGGTATCTC597513ACGTTGGATGCATTTCTTCTGGTCAGGCACACGTTGGATGAGTCCACACCTTGTTCACAG598835ACGTTGGATGTTTTGTGTAGCACCAGCTCCACGTTGGATGTTTAACCAGCTTCTTGGGGC10683614ACGTTGGATGTTAGGAACTGCACTGGGTTGACGTTGGATGTTGGTACCCCAGAGTTATGC610004ACGTTGGATGAGAAGCTCATCCCACTTCAGACGTTGGATGGGTACCAACCCAGTATTTAC610041ACGTTGGATGCTGTTGTAGGTGCTGAAGTGACGTTGGATGCTGGCTGTCTACTACAGAAC673478ACGTTGGATGTAATACAAAGGTGGCAGCAGACGTTGGATGTTGACAAGGATAAGGACAAG670802ACGTTGGATGGAGACTGTCTTGATACCCACACGTTGGATGCAGGCCCTCAAGGATTTGTT505041ACGTTGGATGATAGCCCCCTGTTTCCTTTCACGTTGGATGGGAGAGTGAGAGGTTTTTTTC2511116ACGTTGGATGGGGACAGAGTTGCCTAAAACACGTTGGATGCTGTGGCAGCCTGGATATAC628025ACGTTGGATGTTCCTAATCCTGCTTCCCTCACGTTGGATGCTGCTACCTTATCACATGGG517837ACGTTGGATGGAATTCCTAATCCTGCTTCCACGTTGGATGCTGTGTCATTCTGTTTCAGG615000ACGTTGGATGTGCTTCAGTGGAATGGCAAGACGTTGGATGAAACCAGCCTCCATTCACTC482013ACGTTGGATGGCCTTGGAGGAGCTTATATGACGTTGGATGCTCTTCTGTGCTGCTACAAC693391ACGTTGGATGCACTTTGATATCCTGTCTCTCACGTTGGATGATCACTGTATATCCAGTACC2511079ACGTTGGATGAGCTGAGTAGATGATAGCACACGTTGGATGGGAAAGAGAGACAGGATATC2250866ACGTTGGATGCCCCCTAAAGCCAAAAAAGCACGTTGGATGTCCTTGGCTCCTCATTTACC2508860ACGTTGGATGAAGTGCTGGGATTACAGGCGACGTTGGATGCTCCCTGTCGGAAAAATGGG7483267ACGTTGGATGGAAACCCCGCCTCTACTAAAACGTTGGATGAAGTGATTCTCCTGCCTCAG2511078ACGTTGGATGGAAACCCCGCCTCTACTAAAACGTTGGATGAAGTGATTCTCCTGCCTCAG2508859ACGTTGGATGAGCCTCTGATGTACCAGTTGACGTTGGATGTGGCAACAGAGTGAGACTCC2508858ACGTTGGATGTACCTCTTCCACAGGAGAACACGTTGGATGACAACTGGTACATCAGAGGC11235435ACGTTGGATGAGCATGATGCTCTGTCTTCCACGTTGGATGCCCTTCACTGAAGACCTTTC11235436ACGTTGGATGGTCATACAGTATGGCTGTGGACGTTGGATGTGGGCAGAGAAGGAAGAATG639435ACGTTGGATGGACCCTAGTAGTCCTAAAGGACGTTGGATGCTTCTCATCTGCTCAACAGC12285624ACGTTGGATGTTTTTGAGACGGAGTCTCGCACGTTGGATGTGAACCTGGAAGGCGGAGTTTNUMA1-ADACGTTGGATGCCTGGCTAACATGGTGAAACACGTTGGATGGGACTATAGGCACCTACTAC624363ACGTTGGATGTTATCTAACTCTCTGGGCCCACGTTGGATGCCTGGTACTCTGTGAAGAGTNUMA1-AEACGTTGGATGAGGCAGCTTTGATTCTTGGGACGTTGGATGTGGTCTGCTTTCTCTCTCCA1053573ACGTTGGATGTATCGAGGGTGACAAACCAAACGTTGGATGGTCTGGATGAGCTTGAATTTG1053511ACGTTGGATGGACCTAGGGAGATCCCCTTCACGTTGGATGTGAGCACCAAGTCAGGGAGA1063863ACGTTGGATGTGAGGCCAACAGAGAGGGTGACGTTGGATGTGGAGATACCAGTTTGGGTG12137ACGTTGGATGTGAAGACATACCAGGCTCTGACGTTGGATGGGTAGAACC1TTTGGGACTG4365081ACGTTGGATGTTCTACCCTCACTTGCTCAGACGTTGGATGACAGTACCCTAACCTGCTAC4466868ACGTTGGATGACTGCGGCTTATACAGTACCACGTTGGATGTTCTAGCCTTCCTCTTCTCC3750911ACGTTGGATGGGATCCCAAACTGTACAACCACGTTGGATGGGATAGCTGCTTATGCCTAC510925ACGTTGGATGGATGAGGCTTACCTGGGCTGACGTTGGATGGGGTGCTGACCAAGAGAGAG595062ACGTTGGATGTCATGTCAGCCCTGTTTACCACGTTGGATGAGACTCAATCTAGGCCCATC1053443ACGTTGGATGTCTCTTCCATCCTTGCCAAGACGTTGGATGTGTACTCATGCTGCTCCATG542752ACGTTGGATGCCTTTAGATCCCAGTGCTTGACGTTGGATGCTAGGACCTGGCAAAGAAAG3897579ACGTTGGATGCAAGAACAGCCTTCCTCATCACGTTGGATGTAGGGCTTTGTCTGGACTCG11235437ACGTTGGATGAACAGCGCCATTGTTGTTTGACGTTGGATGTATGAACCCAGGGTTTGAGG2508856ACGTTGGATGTTGGTGAGTCAGCATTAGCCACGTTGGATGCATAAAGAGCAAGAGTGCCC5792575ACGTTGGATGATGGAGCCAGCTTTCCTTAGACGTTGGATGCACCCTTCCTCCCTAAATAC659513ACGTTGGATGCCATGTACTTTATCCATGGGACGTTGGATGCTTAGCACAGACATAGCAGC10898820ACGTTGGATGAACCCACACTAATATGACGGACGTTGGATGCGTTACAGTTTACAAAGGGC2276397ACGTTGGATGTGGGTGAGTGAGCAGCTAGACGTTGGATGGATTTCTGGAGTAAGGCTGG3750908ACGTTGGATGGCTTTCCTGCTGTCTTCCACACGTTGGATGAAGGGTCAAGTGAATGTGTT3793938ACGTTGGATGAAAAGCAGGACCAGGCATCGACGTTGGATGTAGGTCATACAGTGTGTCGG602285ACGTTGGATGAACCCTTAAAGAGCTCCAGCACGTTGGATGGTGACACCAATGAATGACGG2276396ACGTTGGATGTTAGGGAAGGAAGTGTGCCGACGTTGGATGTAAACGAGACCGTAGTGCTG2276395ACGTTGGATGACAGTCCAGGGAAGCCAAACACGTTGGATGGTCAAAACTCAACAAGCAACC1806778ACGTTGGATGAGCTTGCAGTGATCCGAGATACGTTGGATGGTGTTGTTCATGGTCAATGG4073394ACGTTGGATGTCCTTCTTCTTTACTGGGTCACGTTGGATGTCCTTGCACCAGAGCTAATC471547ACGTTGGATGCAGGGCCTTACCTCCATTCTACGTTGGATGTCCTAGACAAAGCCTTGTGC606136ACGTTGGATGAGGAGTGAGACTCTAGACAGACGTTGGATGAGCTTCCCTGGGCATCTAAA605241ACGTTGGATGACTGGAGAAATCCAAGAGGGACGTTGGATGCTCCACCAACAGCGCTGTAG686063ACGTTGGATGCATCACTTGACCCTAGGTGCACGTTGGATGTCTTGGGAAGTCACTCTAGG685749ACGTTGGATGCATCACTTGACCCTAGGTGCACGTTGGATGTCTTGGGAAGTCACTCTAGG533207ACGTTGGATGACAAGGCAGGTAAGACAAGCACGTTGGATGCTCAGGTTTTCTGAGTCCTG476753ACGTTGGATGTCCCTGGGCATCTAAACCTCACGTTGGATGAGGAGTGAGACTCTAGACAGNUMA1-AFACGTTGGATGCAGGATGCAGAAAACCTGAGACGTTGGATGCATCACTTGACCCTAGGTGC












TABLE 29








dbSNP rs#
Extend Primer
Term Mix


















4945392
AAATCTCTTTTTCTGTTGAGT
ACT






7938496
CTGCACTCCAGCCTGGG
ACG





7926550
GAACTCCTGAGCTCAAA
ACT





7945374
AGCTCTATTCTCCAGGG
CGT





7949480
TCCTGACCACATGATCC
ACT





7102523
CCACACCCATCTGTGTC
ACT





7121260
AATTAAGTGGTGTAAGATCAAT
ACT





7131230
CACCGGAGTAATTTTCAG
ACG





7128317
TTAGTCCTTGCCTCCCC
ACG





2276385
GGCAAACTATGACCAAATC
ACT





2276384
TTGGTCATAGTTTGCCC
ACT





2276383
AGAAGGCCCAAAGGCTA
ACT





1892921
CCTAACAGATAGTTTTTCAAC
ACG





1892920
CACTTTTGTAATTCTGGCA
ACG





7942626
TGCGTTTCTCAGATTGG
ACG





7124429
TCAAATTGAAAACAGTACATTG
ACT





711408
TTTTGGAATTAGACAGTGAAA
CGT





7125718
GTAACTCATTACCCCTTC
ACG





1055452
TCCTGAGTGGCCCAAGC
ACT





3829215
GCCACTCAGGACCCCTC
ACG





1541306
AGTTGTCCCAAAACAAAT
ACG





3814722
CCATATTCCCTAGAAACC
CGT





1939240
CTCCTAGGGATGTCAGC
CGT





5743655
GGAAGGCAGGTGGTGGC
ACT





5743656
GCTTCTCTTCCCCAGCT
ACT





5743657
GTCCAAAGCTCTTTTCAT
ACT





3814721
ACCCCAGGCAGCCTTGC
ACG





5743658
CATCCTAGGTTCCTCAC
CGT





5743659
CCCTTCCCTCCTGTTAG
ACT





5743660
CAGGCTACCCACTCCCC
ACG





5743661
TCCCAGGCTACCCACTC
CGT





5743662
GGACCACTTCAGGCTCA
ACT





2298455
GATACCAGACTGGGATC
ACT





5743664
TAGACCTCACCCTACCC
ACG





5743665
CCTTCACTCCAAGGCAA
ACT





5743667
GAGATGTCTGGGTTCTAG
ACG





5743668
CAGCGGCTCTGGAGACA
ACT





5743669
CCTTGGTTGCAGTGGAC
ACG





1573503
TGGGAGCCCAGGTGACA
ACT





5743670
ACGTCCGTTACAGAAGT
ACT





5743671
CCTAGAGAACTGCTCTG
ACG





1892919
TGCTCTGCTGTGCCCTC
ACG





5743672
TGCTGAAGTTGGGGAAG
ACG





2735786
CAGGTGGGTGGGAAGGA
ACT





5743673
CTGTGCTCCCACGTTCC
ACG





5743674
ATTAGTTCACAGGCTGC
CGT





1062452
TGTAGGCTGCGTGGATG
CGT





5743675
AGAGAGAATGGCAGGAG
ACT





5743676
CCATTAGCCTTCCTAAC
ACT





760246
GAACGCTCAAGCCTGGT
ACG





11345794
CAGGGGAACACAGGCGCT
ACT





5743677
AAAGAAAAGAGAGAACAGC
ACG





5743678
TTCCCACACCGATCAAG
ACT





14537
CCGGGGATGGATCTTTT
ACG





3168177
CCCACCCCAGTGCAAGT
ACG





5743679
CCTTCAGCAGCAGCTCA
ACG





1541304
ACCCCACTCCTGAGACA
ACG





1053725
GATCTAGAAGGGACCATAA
ACT





5743680
CAAACCCCTAGAGACAG
ACG





949324
GGCGGAGGACCAGGTGA
ACT





949323
CGGAGGACCAGGTGAGG
ACT





5743681
TGGGGCTCACAAGGGAG
ACT





5743682
ATAACCCTGGGGCTCAC
ACT





5743683
ATTCTCATGGAGAGCAC
ACG





5743684
GCCACCACCACAGCCAG
ACG





5743685
GTTGAGGATGCTGAAGG
ACG





2845857
GCGGGACCTTGCTGATA
ACT





2852365
TGCTGTGCCACGCTCTA
ACG





11538641
CCCACGCCCCATGACTCC
CGT





11538639
GGCCACCAGCTGTTTCCCA
ACG





11235417
GGACAGTTAGGCAGACAGTA
ACT





11538644
AAACGGGTCTCCCTAGAGC
CGT





11538643
GACCCCCAAGAGACCCTG
ACG





2845858
CGAGTGTAGAGTTCTGG
ACT





2155146
GAGCTCCTGCCTACCCC
CGT





2852364
CAGGTGGGATTCCAAGG
ACT





2845859
CCATAAACTTGAAGCCC
ACT





2845860
CAAGCCTTGGCAGGTGA
ACT





11538642
CTGGGAAGCAGGAGCAGAC
CGT





7949430
GTCTTCCAGAAGCTAGAT
ACT





7938674
AGTGCCAGGGACTGTAC
ACT





2735787
ACAAAGGCAAGGGCCTG
ACG





11538640
CACCTATCTCCCAGCGCC
ACG





10736784
CACCAAGCTTCCTGAACAGC
CGT





10736785
TGGAGTGGGGTGTGGTTAG
ACT





11826059
AAGAATTTGAAACTGAAGAGTAC
ACT





2503
AGGCCCATTGGAGACCG
ACT





2155145
TGGTATAATACCCGTTTTTC
ACT





4477459
GATGTGGACTGAAGGGC
ACT





NUMA1-AA
CCAAGTGCCTTAGAGTA
ACT





5019605
ACCCAGGTGCAGAGCCTTA
ACT





5019604
CATGCCAAGTGCCTTAG
CGT





5019603
AGGTGCAGAGCCTTACT
ACT





3793941
AACACTGGTGACACTCT
ACG





11235418
GGCTTCCTAGGAGGGCTAC
ACT





3793940
GCTCTTCCTCTTTGTAG
ACT





2032353
TGGGCAAGTGTCCTAAG
CGT





3934448
TAAGCCCACAATCCTCC
CGT





7951267
ACCCCTTGTCCCTGATA
ACT





1053603
CCAACTCTTGGACATACTT
ACG





1053602
ACAGGCCCCAAGCTGGA
ACT





11235419
CGGGAGGCAGAGCAGATG
ACT





1053601
TAAGCCGGCAGCAGAAC
ACT





3750913
CTCAGCTGTGTGCTGGGCA
ACT





3750912
CTTGGGGAGGCCCATCA
ACT





1053600
GCTGGAGGCTCGATTAC
CGT





1057992
GTGAGTCCACACCAACC
CGT





2298789
GAGGAAGGGTATACGGT
ACT





10898813
CTATGCTGGGTTCATCCCTAA
CGT





11278712
GAATCCCCATCACCCAGAG
ACG





NUMA1-AB
CAGTGAGAAGAGAGTATGGG
ACG





949325
TCCTCTTCCCTATGCCG
ACG





NUMA1-AC
GCCTGTTGCTGATTGCTTCA
ACT





949326
GAATACCCTTCTTCCTC
ACT





2298456
GCATAAAGGTGCAAATCTTT
CGT





7949845
GATGTCAGGAGTTCGAGACC
ACT





7949989
CCAGCTACTCGGGAGGCT
ACT





1573500
CCCAAGTAGCTAGAACTA
ACT





4945411
GAAGTGAAAGTTCTGTGGGG
ACT





3831387
GGGAAAAAAAAACACACACACA
ACT





11235422
GCCAAACAGGAGGCAGTCA
CGT





10128658
GGCTGTCTCTCTTCTCAGTG
ACG





2298457
AGTTCACCCTGTTTTCT
ACT





3838779
CCGAACTTCAAGGAGACAGAA
ACT





1573501
TCATCTGTGCTGCCTCC
ACT





11235424
CGGAGGCAGCACAGATGAA
ACG





10898814
GTTGAAGGCTGAGATGGCAAA
ACT





7930142
CTGAGAACCTCTTTTTATTTTA
ACT





7930544
CCATTTACAACTGCCCA
ACG





7930721
TTTGCCAGAAAACTTAGAG
ACT





7930722
GACAAAAATGTCAGACCT
ACT





6592456
GGCCAAGTGGCCAAGCA
ACT





11235425
GTAGGCGATATTGAAATCCCA
ACT





6592457
CACTGTAGGTTTATAACCTG
ACT





10898815
TACCAGTTCCTAACTGCCAC
ACT





11235426
TTGCCCCAGGCCAAGGATA
ACT





10898816
CTTGGCCTGGGGCAAACAAT
ACG





1939247
GGGCTCTCTGATGGTTGCAT
CGT





1939246
GGACACTATCATAGCTCAT
ACT





1939245
AAGTTGTTTTTAAATGTGAAAGT
ACT





1939244
GGCCCATGCCTGTAATC
CGT





1939243
GAGTAGCAGGGACTACG
ACG





4245463
CAAGACCCTATCTCAAAAAG
CGT





4944258
GGCCTGAAGTTTTCAGA
CGT





7926751
TCATGCATGTTCTTTGTTT
ACT





12282917
ACGTGGTGAGACCCTGTCT
ACG





12282918
CAACGTGGTGAGACCCTGT
ACG





7937582
CCTGGGCAACGTGGTGA
ACT





10898817
AGATGGAGTCTTGCTCTGTC
ACT





7480015
GAGGCTGAGGCAGGAGGAT
ACG





7123992
CATTAAGGTCAGCATTTACCAC
ACG





1573502
AGACAAGCAACATAACCTCTTT
ACG





7127865
AGAACACCAGGACAGGTGC
ACT





4945426
GAAGGTGCTCACTGTCTAGTA
CGT





11235428
GTCTGGCTGTTGCCGCCC
ACT





7122489
GCTACAATCGCAAGGATCTG
ACT





1894003
AAACCACCTGCTCAGAC
ACT





1548348
CTCCTGGCCTATCCGTCC
ACG





1892923
TGGGGCGCGTACACATACA
ACG





5792570
AACCCTTTGCTCTGAAAGGC
ACT





7115200
TGCCTGGCAGGAGCGATC
ACT





4945430
AAGCAGAGTCTACAAGTCCC
ACT





11235429
GTCTGACTCTTAGAAGACAAAA
ACG





1939242
CCACACCTCTCTGTTTC
ACG





9666346
GTGAGCCGTCGTGCCAAG
ACT





7101553
GGGATTACAGGTGTGAGCC
ACT





7124000
GCAACATGGCGAAACCCTG
ACG





12291664
CAACATAGTGAGAGCCTGTCT
ACG





12291778
ATAGGCTAAAATGTTTTACATATAA
ACT





12291781
TAACCAGTAAAACTTCATGATTTA
ACT





12291787
CTCCTGAGTAGCTGGGACT
ACG





12291788
GCCTCCTGAGTAGCTGGGA
ACG





12291833
CAGGAGGCTAGGGTGGGA
ACT





10793016
TAGGTCAGTAGAATAGTGTCG
ACG





5792571
CTAACTCCTCCCCCCCCC
CGT





12293529
AATCTAACTCCTCCCCCCC
ACT





4338555
GGAACATTCACTTGGGGACTT
ACG





11235431
TGGTGGGTGGTTGGGATGA
ACT





6592458
GTTGTGGTGAGCCGAGATC
ACT





4945434
AGGCTCAGGAATTAGGTGAC
ACG





4945435
CCGGGAGGCAGAGGTTGC
ACT





11307657
TCCTCATGAAAATCAACTTTTTTT
CGT





5792573
TCCTCATGAAAATCAACTTTTTTT
CGT





1894004
GATCCGAGAGCTTTACAAACACT
ACT





12276164
CCTCATTGTCCCTCTCCAGA
ACT





4378421
GGCTGGAGTGCAGTGGCA
ACG





7116495
TGCTGCTACAACAGGCACG
ACG





7101701
TGTTGCCTAGGCTGGTCTC
ACT





10736786
CAGTACCTACTCTTATTTTCTC
ACT





11608165
CCCTCTGCTTCCCCCTGG
ACT





645603
CAGATGCTTTTTTTTCCC
ACG





661290
CATAGATCTAGTGGGCATC
ACT





7122209
GAAAATGATGATCCCCAAATCT
ACT





12417471
CTCAGCTACTCAGGAGGCT
ACT





541228
GGCAGGCGGATCACAAGGT
ACT





12273666
CATGAGCCATCGCGCCTG
ACT





2511074
AAGAAACAGAGCGAGACACC
ACT





3018311
CAGGTGGATCGCCTGAGG
ACT





3018289
TGTTGGCCAGGCTGTTCTC
ACT





679926
CCAGGATTAGGAGTGTGACAA
ACT





567026
CCTTGTCACACTCCTAA
ACG





564294
TCTGCAACTTGCCCTTTTCA
ACG





678193
ATGGAAACATGTCAAATAAATTT
ACT





677279
GTAGCTGGGACTAAAGGTGC
ACT





560777
TAAGGAATTGCCAGCCATGA
ACG





676721
CACATTCTTACATAGGATTTTTT
ACG





7106529
AATACACAAGCTTTTCAACCCA
CGT





11602304
GAGCCACTGTGCCCAGAC
ACG





585228
GACCCTATTACTTAAAATGAC
ACT





578957
TCTCCTCGCATTCTCTCCC
CGT





7110215
ACCTGAGGTCAGGAGTTTGA
ACT





3133233
CAGCCTGGGCAACATAGTGA
ACT





3133230
GGTGTGCACCACCATGCCT
ACT





12576024
TGGCTTCAGCCTCCCAGG
CGT





674319
TGGCATGCGCCTGTAGT
ACG





675185
ATGGGGAAATACTCAAGAAA
ACT





5792574
ATAATAGTTTTATCCTGCCTTTTT
ACT





12275272
CACCTTCTCTCAACCTAACCT
ACG





10400327
ACTTTAAGAGGACTGGCAAGA
ACG





612255
GGAGTGGAATTTCTTTTTTAC
ACG





7101643
GCAATTCTCTTTCTTACTCTAAA
ACG





575871
GCAATTCTCTTTCTTACTCTA
ACT





547208
GCCTTTCTTTTCTTTTTTTTT
ACG





2511075
CCAGGGCCAAAATTTATCATTAT
ACT





642573
CTCAGGACAAAGCTGACCTAT
ACT





482197
GGGCCTCCTGAGGAAGAAG
ACG





656640
GGCACACTCCACCACACCT
ACT





671681
AAAGATTCAGAAAATGAAGGA
ACG





541022
AACTGGGCATTTGGAGGTCA
ACT





951586
GGGGCCATTTGGCAGAA
ACT





2511076
ATTACAGGCGTGAGCCACCG
ACG





11235432
CCCGCCACCGCGCCCAG
ACT





3018308
CACCCGCCACCGCGCCC
ACT





11606798
CTACCTCCTACTGTGGGCAA
ACT





1791544
CTGATCCACCGCAGCCAG
ACG





3018304
TTACAGGCATGCGCCACCA
CGT





10751193
CCAGACTGGAGTACAGTGG
ACT





4945470
GTTGCAGTGAGCCAAGACTG
ACG





3018291
CTGTCGCCCAGGCTGGAG
ACT





2511120
TTAATAGCTGGCACAGTCTA
ACT





671132
GTTGGTTCTTCCCAGTTGC
ACG





4945475
TCCAGTGGTGCAATCTCGG
ACT





3018292
GAGAGAAATCCTCTGTATCT
ACT





642618
ATGTTGAACTTCCTCATTCTGT
ACG





552966
TCTCAGATCTCATGCGTAAC
ACT





6592459
GTGTGAACCTGGGAGGCG
ACT





607446
TCCCAAAGTCAATCCATCTCTAAG
ACG





607070
GTCCAGACTCAAAATGA
ACT





10713307
TGGCTCACGCCTGTAATCC
CGT





3018302
TGGGGACGGGGAAGGTGCT
ACT





3750909
TGGGGGAAATCTCAGATCCC
ACT





3018301
CCCTCATCACCTTTCAC
ACT





2511114
GGGATAGGCGTTGAGATATA
ACG





12270166
CCCGGAGATTGAAGCTGCA
ACT





12270241
TCTGATCTCCCAGGTTATGC
ACG





11606587
TCATTTTTTTTAGTACTCACGAC
ACT





686340
CTAGTTCCTTTTCCCCATTAAAA
ACT





548961
GTGGGGTAGAGAGTGAA
ACG





549032
CTCTCTACCCCACCCCC
CGT





575831
GCCCTCTCCTTTGTAGT
ACT





575878
GGTGCTTAACAAACACATTAA
CGT





577435
ATGGTAGCACTCGTAACACT
ACT





579320
GGCTCCTGTCCACCCCC
CGT





495567
AGTGAATAACATTAAAGTACGATA
ACG





636946
GCCTAAGCAACATGGCAAAAC
ACG





493065
GATGTGTAGGTGAGAGACATGC
ACT





597513
AGGCACAGAGCAGCAAGCAC
CGT





598835
CTCCTGTTGCATTTTCTGAATG
ACT





10683614
CTGCACTGGGTTGCTCTGT
ACG





610004
ATCCCACTTCAGCACCTACA
ACT





61004
TTGCTGAAGTGGGATGAGCTTCT
ACT





673478
AAGGGGAGGTCGACTGGG
ACT





670802
GTCTTGATACCCACCCTCTG
ACT





505041
ATCGGGGCAAAATCAAA
CGT





2511116
GGCTGGAGCTGCTCTTA
ACG





628025
TCCCTCCCCATACCTCCT
ACT





517837
AATCCTGCTTCCCTCCCCA
ACG





615000
GGAGGCAGAAGCCAGAT
ACT





482013
AAGATGGGAGCAAGCTGGCAA
ACG





693391
GATATCCTGTCTCTCTTTCCAT
ACT





2511079
GCCTATAGAATTCACTTCA
ACT





2250866
TAAAGCCAAAAAAGCAAAGAT
ACT





2508860
CGTGAGCCGCTGTGCCC
ACT





7483267
AAAATTAGCTGGGCGTGGTG
ACT





2511078
AATTAGCTGGGCGTGGTGG
ACG





2508859
GTACCAGTTGTTTGTTGG
ACT





2508858
GTGCGCAGTGACAGTTA
ACT





11235435
GCTTGCTGTGATAGAATCGTA
ACT





11235436
GTATGGCTGTGGAGGGTTG
ACT





639435
CCTAAGCATAGACAGCATGG
ACT





12285624
GACGGAGTCTCGCTCTGTC
ACT





NUMA1-AD
TGAAACCCCGTCTCTACTAAA
CGT





624363
GGGCCCCTTTGTACTTTTCA
ACT





NUMA1-AE
GGCCCTGCCTCAGACTCA
ACT





1053573
ACCAAACATGTAAAAACCC
CGT





1053511
GATCCCCTTCCCACCCT
ACG





1063863
GGATCTCCCTAGGTCCC
ACG





12137
TCCTTTTGGCCCCCACCC
ACG





4365081
CTCACTTGCTCAGGCTTCTA
ACT





4466868
ATACAGTACCCTAACCTGCTA
ACT





3750911
ACCAGCTCCTCTTTTGC
ACT





510925
CTGGGCAGGGCAGACTGT
ACT





595062
CTGTGACACTCTTGAGGGC
ACT





1053443
ATGTGTCTGCTGCAGACT
ACG





542752
TGCTATGTCTCAGCTCC
CGT





3897579
TGTTCGCTTCCAAGATG
ACT





11235437
AGTACAGTGGCACAGTCCTA
ACT





2508856
GGATGTCCCCCTGGGCC
ACG





5792575
TAGTTTTATCTTTGGCAAACATTT
ACT





659513
CCCTAGACCAGGTGGCCAGTCA
ACG





10898820
CACACTAATATGACGGATGTCT
ACT





2276397
GCTAGCACAGCACAGAGACC
ACG





3750908
GCTGTCTTCCACCCTATCCC
ACG





3793938
ATCGATTATTTTCTCCTGCT
ACG





602285
CTCGAGACTAAGCCCCACCC
ACT





2276396
GCCTACCTATCTGCCCC
ACT





2276395
AGACATGCAGTAGACTTAGT
ACT





1806778
CGACAGAGCCAGACTCC
ACT





4073394
TTACTGGGTCAGCTCCCTCC
ACT





471547
TGGTTAGACCCTCTGTT
CGT





606136
TGTCCTCCTACCCCATGGCA
ACT





605241
AGCAAGCTGGTGTCAGA
ACT





686063
AGCCCAGAAATTTTATGCAATTGA
ACG





685749
CATGATTTCTCAGGTTTTCTGA
ACT





533207
AAGACAAGCAGAAATGGTGGAG
ACT





476753
TCTAAACCTCAGTTGCC
ACT





NUMA1-AF
GAAATCATGAGTCAATTGCATAA
CGT










Genetic Analysis of Allelotyping Results


Allelotyping results are shown for cases and controls in Table 30. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 30BreastCancerPosition inChromosomeA1/A2AssociateddbSNP rs#SEQ ID NO: 4PositionAlleleCase AFControl AFp-ValueORAllele494539220371420953T/CT = 0.999T = 0.9980.9360.74TC = 0.001C = 0.0027938496123671421986G/AG = 0.988G = 0.9660.2330.34GA = 0.012A = 0.0347926550176871422518C/GC = 1C = 10.9560.00CG = 0G = 0.0007945374210171422851A/TA = 1A = 0.9990.9640.72AT = 0.000T = 0.0017949480314671423896T/CT = 0.126T = 00.00001660.00TC = 0.874C = 17102523447671425226T/CT = 0.046T = 0.0310.3370.67TC = 0.954C = 0.9697121260612471426874A/GA = 0.954A = 0.9940.003066.99GG = 0.046G = 0.0067131230671971427469C/TC = 0.319C = 0.3680.1061.24TT = 0.681T = 0.6327128317692571427675G/AG = 0.906G = 0.9580.002392.33AA = 0.094A = 0.0422276385706071427810C/GC = 0.962C = 0.9960.003159.57GG = 0.038G = 0.0042276384708171427831T/CT = 0.996T = 0.9940.8640.74TC = 0.004C = 0.0062276383709071427840A/GA = 0.0660A = 0.0150.001940.21AG = 0.934G = 0.9851892921769671428446C/TC = 0.091C = 0.0360.00150.37CT = 0.909T = 0.9641892920798971428739C/TC = 0.997C = 0.9970.9731.09TT = 0.003T = 0.0037942626940771430157G/AG = 0.061G = 0.0260.09290.41GA = 0.939A = 0.9747124429969971430449T/GT = 0.001T = 0.0010.9560.25TG = 0.999G = 0.9997114081990571430655A/TA = 0.001A = 0.0010.9520.53AT = 0.999T = 0.9997125718998471430734C/TC = 1C = 10.9440.39CT = 0.000T = 0.00010554521302371433773T/CT = 0.106T = 0.0810.2110.75TC = 0.894C = 0.91938292151304771433797G/AG = 0.968G = 0.9840.221.95AA = 0.032A = 0.01615413061357171434321C/TC = 0.2C = 0.1310.003980.60CT = 0.800T = 0.86938147221408671434836C/AC = 0.999C = 0.9980.9530.79CA = 0.001A = 0.00219392401433771435087T/AT = 0.001T = 0.0020.88622.72AA = 0.999A = 0.99857436551446271435212T/CT = 0.007T =C = 0.993C =57436561451871435268A/GA = 0.003A = 0.0010.8190.29AG = 0.997G = 0.99957436571469571435445A/GA = 0.002A = 0.0020.9430.70AG = 0.998G = 0.99838147211483071435580G/AG = 0.152G = 0.0870.002110.53GA = 0.848A = 0.91357436581528271436032C/AC = 0.038C = 0.0210.3860.54CA = 0.962A = 0.97957436591543671436186A/GA = 0.004A = 0.0030.8920.67AG = 0.996G = 0.99757436601574571436495G/AG = 1G = 10.9670.62GA = 0.000A = 0.00057436611574871436498G/TG = 1G = 10.9810.40GT = 0.000T = 0.00057436621579771436547T/CT = 1T = 10.9980.96TC = 0.000C = 0.00022984551603671436786T/GT = 0.908T = 0.9190.571.15GG = 0.092G = 0.08157436641664671437396G/AG = 1G = 0.9990.9470.56GA = 0.000A = 0.00157436651671371437463A/GA = 1A = 10.9712.04GG = 0.000G = 0.00057436671685971437609G/AG = 0.999G = 0.9980.9240.64GA = 0.001A = 0.00257436681691471437664G/—G = 0.002G = 0.0020.9490.69G— = 0.998— = 0.99857436691742271438172C/TC = 1C = 0.9990.910.40CT = 0.000T = 0.00115735031749971438249A/GA = 0.044A = 0.0190.08080.42AG = 0.956G = 0.98157436701764671438396G/CG = 0.005G = 0.0040.9350.84GC = 0.995C = 0.99657436711768171438431G/AG = 0.999G = 0.9990.9391.51AA = 0.001A = 0.00118929191773371438483C/TC = 0.085C = 0.0460.02690.52CT = 0.915T = 0.95457436721784171438591G/AG = 0.999G = 0.9990.9340.64GA = 0.001A = 0.00127357861796371438713A/GA = 0.004A = 0.0040.9351.23GG = 0.996G = 0.99657436731801171438761G/AG = 1G = 0.9990.9070.46GA = 0.000A = 0.00157436741823871438988A/TA = 1A = 10.9216.24TT = 0.000T = 0.00010624521856971439319C/AC = 1C = 0.9980.8620.41CA = 0.000A = 0.00257436751867271439422T/CT = 0.003T = 0.0020.9570.79TC = 0.997C = 0.99857436761871571439465A/GA = 0.003A = 0.0030.9541.22GG = 0.997G = 0.9977602461892771439677C/TC = 0.001C = 0.0010.9950.92CT = 0.999T = 0.999113457941926671440016T/—T = 1T = 0.9990.8610.00T— = 0— = 0.00157436771929071440040C/TC = 1C = 10.9960.96CT = 0.000T = 0.00057436781945671440206T/GT = 0.999T = 0.9990.9951.05GG = 0.001G = 0.001145371951171440261C/TC = 0.999C = 10.9261.86TT = 0.001T = 0.00031681771957571440325G/AG = 1G = 10.9640.59GA = 0.000A = 0.00057436791959171440341G/AG = 1G = 0.9990.9050.42GA = 0.000A = 0.00115413041963671440386G/AG = 0.994G = 0.9940.9690.92GA = 0.006A = 0.00610537251977071440520A/GA = 0.002A = 0.0010.8670.02AG = 0.998G = 0.99957436802000271440752G/AG = 0.001G = 0.0020.9411.82AA = 0.999A = 0.9989493242008471440834G/CG = 0.998G = 0.9960.8210.57GC = 0.002C = 0.0049493232008671440836A/CA = 0.573A = 0.5550.6130.93AC = 0.427C = 0.44557436812024671440996T/CT = 0.005T = 0.0050.9820.92TC = 0.995C = 0.99557436822025371441003T/CT = 0.999T = 0.9990.9870.92TC = 0.001C = 0.00157436832030071441050G/AG = 0.999G = 10.9331.90AA = 0.001A = 0.00057436842053971441289G/AG = 1G = 10.9851.59AA = 0.000A = 0.00057436852068271441432C/TC = 0.999C = 0.9980.9270.67CT = 0.001T = 0.00228458572077371441523G/CG = 0.603G = 0.6320.4031.13CC = 0.397C = 0.36828523652077671441526G/AG = 0.717G = 0.5840.00005570.55GA = 0.283A = 0.416115386412090471441654C/AC = 1C = 10.988AA = 0.000A = 0115386392091871441668C/TC = 1C = 0.9990.8660.12CT = 0.000T = 0.001112354172097871441728A/GA = 0.001A = 0.0020.9421.83GG = 0.999G = 0.998115386442126971442019C/AC = 0.992C = 0.9990.7095.16AA = 0.008A = 0.001115386432135471442104C/TC = 1C = 0.9990.860.10CT = 0.000T = 0.00128458582148871442238T/CT = 0.002T = 0.0010.9690.74TC = 0.998C = 0.99921551462165671442406G/TG = 0.985G = 0.9880.8431.25TT = 0.015T = 0.01228523642179371442543T/CT = 0.001T = 0.0010.9570.50TC = 0.999C = 0.99928458592208471442834A/GA = 0.999A = 0.9990.9911.06GG = 0.001G = 0.00128458602221971442969T/CT = 0.998T = 0.9960.7890.51TC = 0.002C = 0.004115386422281571443565G/TG = 1G = 10.9862.89TT = 0.000T = 0.00079494302285871443608T/CT = 0.003T = 0.0010.7670.20TC = 0.997C = 0.99979386742289571443645T/CT = 1T = 0.9990.9820.83TC = 0.000C = 0.00127357872343171444181C/TC = 0.976C = 0.9980.32310.97TT = 0.024T = 0.002115386402396871444718C/TC = 0.001C = 0.0020.9033.80TT = 0.999T = 0.998107367842446971445219T/AT = 1T = 0.9920.6850.11TA = 0.000A = 0.008107367852447071445220A/CA = 0.995A = 0.9980.7442.15CC = 0.005C = 0.002118260592485371445603T/CT = 1T = 11C = 0C = 025032496171445711T/CT = 0.071T = 0.0410.06580.55TC = 0.929C = 0.95921551452517771445927A/CA = 0.994A = 0.9950.8941.36CC = 0.006C = 0.00544774592617471446924T/CT = 0.047T = 0.0220.1120.46TC = 0.953C = 0.978NUMA1-AA2633471447084T/—T = 0.993T =— = 0.007— =50196052633771447087C/GC = 0.996C = 0.9920.8550.49CG = 0.004G = 0.00850196042633871447088A/TA = 0.001A =T = 0.999T =50196032633971447089C/GC = 0.993C = 0.9930.9790.93CG = 0.007G = 0.00737939412696571447715G/AG = 0.551G = 0.5650.6451.06AA = 0.449A = 0.435112354182727871448028C/GC = 1C = 10.98GG = 0.000G = 037939402804271448792A/GA = 0.003A = 0.0020.920.62AG = 0.997G = 0.99820323532852071449270G/TG = 1G = 0.9990.9370.53GT = 0.000T = 0.00139344482853371449283G/TG = 1G = 10.9760.60GT = 0.000T = 0.00079512672876471449514A/GA = 0.003A = 0.0020.9450.75AG = 0.997G = 0.99810536032968571450435G/AG = 0.999G = 0.9990.9770.84GA = 0.001A = 0.00110536023073871451488A/GA = 0.003A = 0.0020.9740.87AG = 0.997G = 0.998112354193117571451925T/CT = 0.002T = 0.0020.9571.28CC = 0.998C = 0.99810536013149071452240A/GA = 0.002A = 0.0020.9871.12GG = 0.998G = 0.99837509133172671452476G/CG = 0.114G = 0.0370.001360.29GC = 0.886C = 0.96337509123177071452520A/GA = 0.006A = 0.0030.8250.49AG = 0.994G = 0.99710536003179271452542T/AT = 0.001T = 0.0010.9322.89AA = 0.999A = 0.99910579923298071453730C/AC = 0.982C = 0.9970.385.78AA = 0.018A = 0.00322987893339871454148A/GA = 0.998A = 10.8333.32GG = 0.002G = 0.000108988133358071454330T/AT = 0.075T = 0.0490.1740.63TA = 0.925A = 0.951NUMA1-AB3494171455691C/TC = 0.098C = 0.0090.000004490.08CT = 0.902T = 0.9919493253521471455964G/AG = 0.875G = 0.9320.01081.96AA = 0.125A = 0.068NUMA1-AC3562971456379G/CG = 0.061G = 0.0070.0002440.10GC = 0.939C = 0.9939493263586471456614T/CT = 0.975T = 0.9890.2332.28CC = 0.025C = 0.01122984563627371457023A/TA = 0.89A = 0.9960.000054128.64TT = 0.110T = 0.00479498453728171458031A/GA = 0.998A = 0.9980.9951.04GG = 0.002G = 0.00279499893737871458128A/GA = 0.036A = 0.030.7640.83AG = 0.964G = 0.97015735003834871459098C/GC = 0.172C = 0.1160.02350.63CG = 0.828G = 0.88449454113860871459358A/GA = 0.938A = 0.9840.009314.04GG = 0.062G = 0.016112354223904971459799C/AC = 1C = 10.9582.79AA = 0.000A = 0.000101286583907771459827C/TC = 0.168C = 0.1020.00270.56CT = 0.832T = 0.89822984573976971460519T/CT = 0.192T = 0.0890.000008540.41TC = 0.808C = 0.91138387794055571461305T/—T = 0.071T = 0.0290.01180.38T— = 0.929— = 0.97115735014125171462001T/CT = 0.996T = 0.9960.9251.20CC = 0.004C = 0.004112354244127071462020C/TC = 1C = 10.9659.18TT = 0.000T = 0.000108988144206371462813T/CT = 0.193T = 0.1080.0003530.50TC = 0.807C = 0.89279301424257471463324T/CT = 0.945T = 0.9960.002412.18CC = 0.055C = 0.00479305444291271463662C/TC = 0.149C = 0.0820.002240.50CT = 0.851T = 0.91879307214303971463789A/CA = 0.759A = 0.8060.1981.31CC = 0.241C = 0.19479307224304271463792C/GC = 0.504C = 0.4190.01870.71CG = 0.496G = 0.58165924564322171463971A/GA = 0.994A = 0.9970.7341.91GG = 0.006G = 0.003112354254351871464268T/CT = 0.001T = 0.0010.9921.17CC = 0.999C = 0.99965924574364471464394G/CG = 0.0640G = 0.0410.2160.61GC = 0.936C = 0.959108988154498171465731A/GA = 0.578A = 0.5770.981.00AG = 0.422G = 0.423112354264501371465763T/CT = 0T = 0.0020.884CC = 1C = 0.998108988164503871465788C/TC = 0.999C = 0.9980.9480.77CT = 0.001T = 0.00219392474607971466829T/AT = 0.098T = 0.0540.03130.52TA = 0.902A = 0.94619392464784871468598T/GT = 1T = 0.9990.9460.65TG = 0.000G = 0.00119392454809071468840A/GA = 0.984A = 0.9980.2546.60GG = 0.016G = 0.00219392444814771468897G/TG = 0.664G = 0.6350.3470.88GT = 0.336T = 0.36519392434829371469043C/TC = 0.073C = 0.0050.001050.06CT = 0.927T = 0.99542454634877171469521C/AC = 0.038C = 0.0110.03690.28CA = 0.962A = 0.98949442584895171469701A/TA = 0.943A = 0.9940.001848.94TT = 0.057T = 0.00679267514997271470722T/GT = 0.103T = 0.0460.002050.42TG = 0.897G = 0.954122829175016171470911G/AG = 0.999G = 0.9980.8710.46GA = 0.001A = 0.002122829185016371470913G/AG = 0.999G = 0.9960.7920.46GA = 0.001A = 0.00479375825017171470921T/CT = 0.992T = 0.9960.6452.05CC = 0.008C = 0.004108988175128971472039T/CT = 0.957T = 0.9760.3831.80CC = 0.043C = 0.02474800155169971472449G/AG = 0.848G = 0.8410.7710.95GA = 0.152A = 0.15971239925200571472755C/TC = 0.083C = 0.0490.05250.56CT = 0.917T = 0.95115735025298671473736G/AG = 0.111G = 0.0490.0006640.40GA = 0.889A = 0.95171278655333971474089G/CG = 0.146G = 0.0770.001430.49GC = 0.854C = 0.92349454265370471474454C/AC = 0.113C = 0.06400.05630.54CA = 0.887A = 0.936112354285461571475365G/CG = 1G = 0.9990.920.33GC = 0.000C = 0.00171224895530771476057A/CA = 1A = 0.9990.9570.53AC = 0.000C = 0.00118940035583471476584T/CT = 0.195T = 0.1180.001120.55TC = 0.805C = 0.88215483485647571477225G/AG = 0.977G = 0.9850.511.52AA = 0.023A = 0.01518929235705371477803G/AG = 0.022G = 0.0070.4440.28GA = 0.978A = 0.99357925705735571478105—/G— = 0— = 0.0010.962GG = 1G = 0.99971152005771871478468T/GT = 0.541T = 0.5240.6140.93TG = 0.459G = 0.47649454305870371479453G/CG = 0.279G = 0.1910.002330.61GC = 0.721C = 0.809112354295877271479522C/TC = 0.001C = 0.0010.9452.60TT = 0.999T = 0.99919392425914071479890C/TC = 0.097C = 0.0580.02680.57CT = 0.903T = 0.94296663465945071480200G/CG = 0.939G = 0.9580.2511.49CC = 0.061C = 0.04271015535946171480211T/CT = 0.999T = 0.9990.9780.84TC = 0.001C = 0.00171240005989671480646C/TC = 0.938C = 0.9550.4371.38TT = 0.062T = 0.045122916646015771480907G/AG = 0.93G = 0.9580.2131.73AA = 0.070A = 0.042122917786036971481119A/GA = 0A = 01G = 1G = 1122917816039571481145A/GA = 0.004A = 0.0030.9280.58AG = 0.996G = 0.997122917876042471481174G/AG = 0.997G = 0.9980.9791.08AA = 0.003A = 0.002122917886042671481176G/AG = 0.998G = 0.9970.9440.81GA = 0.002A = 0.003122918336045671481206A/GA = 0.002A = 0.0030.8412.31GG = 0.998G = 0.997107930166062171481371G/AG = 0.097G = 0.0540.02190.53GA = 0.903A = 0.94657925716120771481957G/—G = 0.202G = 0.1550.05430.72G— = 0.798— = 0.845122935296120971481959G/CG = 1G = 10.990.84GC = 0.000C = 0.00043385556125471482004C/TC = 0.949C = 0.9790.07332.50TT = 0.051T = 0.021112354316185471482604C/GC = 0.003C = 0.0040.9721.10GG = 0.997G = 0.99665924586310371483853A/GA = 0.986A = 0.9950.6012.43GG = 0.014G = 0.00549454346464571485395C/TC = 0.14C = 0.0830.00630.55CT = 0.860T = 0.91749454356477771485527T/CT = 0.998T = 0.9960.8530.55TC = 0.002C = 0.004113076576498071485730T/—T = 0.018T = 0.0090.7240.51T— = 0.982— = 0.99157925736498771485737T/—T = 0.037T = 0.010.3060.24T— = 0.963— = 0.99018940046537571486125T/CT = 0.977T = 0.9840.5371.43CC = 0.023C = 0.016122761646556171486311A/GA = 0.004A = 0.0020.8260.50AG = 0.996G = 0.99843784216755471488304C/TC = 0.996C = 0.9960.9590.90CT = 0.004T = 0.00471164956764371488393C/TC = 0C =T = 1T =71017016771371488463A/GA = 0.483A =G = 0.517G =107367866883271489582T/CT = 0.959T = 0.9910.1644.57CC = 0.041C = 0.009116081657018471490934T/GT = 1T = 10.9620.28TG = 0.000G = 0.0006456037041571491165G/AG = 0.967G = 0.970.8291.10AA = 0.033A = 0.0306612907157271492322A/GA = 0.186A = 0.1710.6480.90AG = 0.814G = 0.82971222097173271492482T/CT = 1T = 10.9942.26CC = 0.000C = 0.000124174717282971493579A/GA = 0.125A = 0.1180.7410.94AG = 0.875G = 0.8825412287315471493904C/GC = 0.994C = 0.9960.9351.29GG = 0.006G = 0.004122736667322171493971A/GA = 0.058A = 0.0470.5110.81AG = 0.942G = 0.95325110747434371495093T/CT = 0.946T = 0.9750.1762.19CC = 0.054C = 0.02530183117446271495212T/GT = 0.969T = 0.9930.1514.57GG = 0.031G = 0.00730182897447171495221T/CT = 0.086T = 0.0690.3750.78TC = 0.914C = 0.9316799267549471496244A/GA = 0.923A = 0.9530.08311.70GG = 0.077G = 0.0475670267551071496260G/AG = 0.943G = 0.9540.5131.24AA = 0.057A = 0.0465642947582771496577G/AG = 1G = 10.9881.14AA = 0.000A = 0.0006781937583171496581T/GT = 0.133T = 0.0820.01890.58TG = 0.867G = 0.9186772797602771496777T/CT = 0.979T = 0.9880.4771.79CC = 0.021C = 0.0125607777616071496910C/TC = 0.925C = 0.960.03411.94TT = 0.075T = 0.0406767217619671496946C/TC = 0.105C = 0.0530.004680.47CT = 0.895T = 0.94771065297637871497128A/TA = 0.999A = 0.9890.5260.11AT = 0.001T = 0.011116023047730671498056G/AG = 0.999G = 0.9990.9910.93GA = 0.001A = 0.0015852287884771499597C/GC = 0.158C = 0.0880.001040.51CG = 0.842G = 0.9125789577891871499668C/AC = 0.003C = 0.0030.9670.88CA = 0.997A = 0.99771102157911771499867A/GA = 0.243A = 0.250.8261.04GG = 0.757G = 0.75031332337981171500561C/GC = 0C = 0.0030.842GG = 1G = 0.99731332307984371500593T/CT = 0.924T = 0.9460.2521.42CC = 0.076C = 0.054125760248044871501198G/TG = 1G = 10.9920.88GT = 0.000T = 0.0006743198094971501699C/TC = 0.962C = 0.9690.6181.24TT = 0.038T = 0.0316751858113071501880T/GT = 0.237T = 0.1430.001790.54TG = 0.763G = 0.85757925748145271502202—/C— = 0.093— = 0.0440.04670.45C = 0.907C = 0.956122752728259571503345C/TC = 0.999C = 10.9561.60TT = 0.001T = 0.000104003278363371504383C/TC = 0.001C = 0.00111.01T = 0.999T = 0.9996122558422271504972C/TC = 0.977C = 0.9870.3761.74TT = 0.023T = 0.01371016438437871505128G/AG = 1G = 0.9990.8870.00GA = 0A = 0.0015758718438071505130A/GA = 0.078A = 0.0690.6190.88AG = 0.922G = 0.9315472088522671505976C/TC = 0.952C = 0.9650.4791.38TT = 0.048T = 0.03525110758581571506565T/CT = 0.112T = 0.0550.02830.46TC = 0.888C = 0.9456425738641271507162C/GC = 0.95C = 0.9760.05892.14GG = 0.050G = 0.0244821978680571507555G/AG = 0.982G = 0.9910.4031.98AA = 0.018A = 0.0096566408726871508018T/CT = 0.391T = 0.3480.1940.83TC = 0.609C = 0.6526716818837071509120C/TC = 0.929C = 0.9580.07471.75TT = 0.071T = 0.0425410228861471509364A/GA = 0.929A = 0.9640.03791.99GG = 0.071G = 0.0369515868922371509973A/GA = 0.003A = 0.0020.860.46AG = 0.997G = 0.99825110768938571510135G/AG = 0.778G = 0.7420.2630.82GA = 0.222A = 0.258112354328950071510250G/CG = 0.997G = 0.9970.9810.94GC = 0.003C = 0.00330183088950271510252T/CT = 0.629T = 0.6330.8981.02CC = 0.371C = 0.367116067988992971510679G/CG = 0.997G = 0.9940.7680.58GC = 0.003C = 0.00617915449051571511265C/TC = 0.102C = 0.0510.0110.48CT = 0.898T = 0.94930183049065971511409C/AC = 0.996C = 0.9940.8380.70CA = 0.004A = 0.006107511939091471511664A/CA = 0.738A = 0.7080.3810.86AC = 0.262C = 0.29249454709159471512344C/TC = 0.999C = 0.9990.9470.68CT = 0.001T = 0.00130182919160371512353A/CA = 0.994A = 0.9990.6833.72CC = 0.006C = 0.00125111209176971512519A/GA = 0.989A = 0.9970.4933.26GG = 0.011G = 0.0036711329200571512755G/AG = 0.043G = 0.0410.8980.95GA = 0.957A = 0.95949454759333571514085G/CG = 0.998G = 0.9990.9221.79CC = 0.002C = 0.00130182929344371514193T/GT = 1T = 10.9931.38GG = 0.000G = 0.0006426189375171514501C/TC = 0.1C = 0.0510.005940.48CT = 0.900T = 0.9495529669377571514525A/CA = 0.159A = 0.0980.00960.57AC = 0.841C = 0.90265924599435171515101T/GT = 0.003T = 0.0040.9031.63GG = 0.997G = 0.9966074469481071515560C/TC = 0.142C = 0.0840.006110.55CT = 0.858T = 0.9166070709485671515606A/GA = 0A = 0.0010.972GG = 1G = 0.999107133079589371516643C/—C = 0.662C =— = 0.338— =30183029650071517250T/GT = 0.233T = 0.1740.03390.69TG = 0.767G = 0.82637509099758771518337G/CG = 0.998G = 0.9980.9860.93GC = 0.002C = 0.00230183019762971518379A/GA = 0.268A = 0.1670.0002110.55AG = 0.732G = 0.83325111149770571518455C/TC = 0.921C = 0.9590.02681.99TT = 0.079T = 0.041122701669796771518717A/GA =A = 0.193G =G = 0.807122702419812671518876G/AG = 0.999G = 0.9990.9480.73GA = 0.001A = 0.001116065879842271519172A/GA = 0.999A = 0.9990.9891.06GG = 0.001G = 0.0016863409877071519520G/CG = 0.972G = 0.9940.05584.34CC = 0.028C = 0.0065489619944571520195G/AG = 0.153G = 0.0930.00910.57GA = 0.847A = 0.9075490329946771520217C/AC = 0.002C = 0.0010.9430.56CA = 0.998A = 0.99957583110010471520854A/GA = 0.056A = 0.0430.3930.75AG = 0.944G = 0.95757587810012171520871A/TA = 0.001A = 00.9480.00AT = 0.999T = 157743510023971520989T/CT = 0.981T = 0.9850.7171.26CC = 0.019C = 0.01557932010051271521262G/TG = 0.092G = 0.0480.01510.50GT = 0.908T = 0.95249556710104671521796C/TC = 0.11C = 0.0520.02050.44CT = 0.890T = 0.94863694610126771522017C/TC = 0.999C = 0.9980.8970.61CT = 0.001T = 0.00249306510248771523237A/GA = 0.177A = 0.0960.0007490.49AG = 0.823G = 0.90459751310298071523730A/TA = 0.094A = 0.06500.2570.67AT = 0.906T = 0.93559883510328571524035T/CT = 0.927T = 0.9570.07011.74CC = 0.073C = 0.0431068361410335971524109—/TAGT— = 0.027— = 0.0050.1540.16TAGT = 0.973TAGT = 0.99561000410349771524247T/CT = 0.912T = 0.9550.01192.03CC = 0.088C = 0.04561004110352671524276A/GA = 0.127A = 0.070.006190.52AG = 0.873G = 0.93067347810466271525412T/CT = 0.842T = 0.8960.01731.61CC = 0.158C = 0.10467080210522671525976T/GT = 0.128T = 0.0820.02380.61TG = 0.872G = 0.91850504110595071526700T/AT = 0.006T = 0.0030.7660.53TA = 0.994A = 0.997251111610771871528468C/TC = 0.107C = 0.0420.01540.37CT = 0.893T = 0.95862802510790971528659A/CA = 0.104A = 0.0780.30.73AC = 0.896C = 0.92251783710791771528667C/TC = 0.902C = 0.9350.0751.56TT = 0.098T = 0.06561500010851071529260T/GT = 0.19T = 0.0860.00003920.40TG = 0.810G = 0.91448201310952071530270C/TC = 0.122C = 0.0770.02510.60CT = 0.878T = 0.92369339110967671530426T/GT = 1T = 10.981.70GG = 0.000G = 0.000251107910971271530462T/CT = 0.934T = 0.9660.03971.99CC = 0.066C = 0.034225086611007171530821T/CT = 0.15T = 0.0850.002940.52TC = 0.850C = 0.915250886011061071531360A/GA = 0.094A = 0.0720.290.75AG = 0.906G = 0.928748326711075771531507A/GA = 0.116A = 0.120.8381.05GG = 0.884G = 0.880251107811075871531508G/AG = 0.757G = 0.750.7930.96GA = 0.243A = 0.250250885911092371531673T/GT = 1T = 10.987170.03GG = 0.000G = 0.000250885811096371531713C/GC = 0.101C = 0.0570.02430.54CG = 0.899G = 0.9431123543511124571531995T/GT = 0T = 0.0010.954GG = 1G = 0.9991123543611143771532187A/GA = 0A = 0.0020.89GG = 1G = 0.99863943511217471532924A/CA = 1A = 10.9590.15AC = 0.000C = 0.0001228562411264671533396A/GA = 0.505A = 0.510.8571.02GG = 0.495G = 0.490NUMA1-AD11278471533534G/TG = 0.005G = 0.0040.9080.79GT = 0.995T = 0.99662436311327571534025T/CT = 0.002T = 0.0020.9951.06CC = 0.998C = 0.998NUMA1-AE11361471534364T/CT = 0.574T = 0.5830.7791.04CC = 0.426C = 0.417105357311396571534715G/TG = 0.001G = 00.9340.00GT = 0.999T = 1105351111409571534845C/TC = 1C = 111.00T = 0.000T = 0.000106386311412571534875G/AG = 1G = 10.9720.61GA = 0.000A = 0.0001213711421371534963C/TC = 0.995C = 0.990.6240.55CT = 0.005T = 0.010436508111427871535028A/GA = 0.002A = 0.0020.9831.16GG = 0.998G = 0.998446686811432171535071G/CG = 0.999G = 10.898CC = 0.001C = 0375091111446571535215A/GA = 0.004A = 0.0040.9851.06GG = 0.996G = 0.99651092511505871535808T/CT = 0.099T = 0.0990.9961.00TC = 0.901C = 0.90159506211519371535943A/GA = 0.077A = 0.0590.3020.75AG = 0.923G = 0.941105344311543371536183C/TC = 0.997C = 10.7574.73TT = 0.003T = 0.00054275211620271536952A/TA = 0.118A = 0.0870.2980.71AT = 0.882T = 0.913389757911632871537078T/CT = 0.001T = 0.0010.9851.62CC = 0.999C = 0.9991123543711681271537562T/CT = 0.001T = 0.0010.9490.41TC = 0.999C = 0.999250885611720171537951C/TC = 0.926C = 0.9390.4481.23TT = 0.074T = 0.061579257511756571538315A/—A =A = 0.996— =— = 0.00465951311796971538719G/AG = 0.949G = 0.9760.05092.20AA = 0.051A = 0.0241089882011815071538900A/GA = 0.685A = 0.6680.5830.93AG = 0.315G = 0.332227639712772971548479C/TC = 0.014C = 0.0080.550.57CT = 0.986T = 0.992375090812795971548709C/TC = 0.089C = 0.0580.08650.63CT = 0.911T = 0.942379393812869171549441C/TC = 0.915C = 0.9480.06981.69TT = 0.085T = 0.05260228512908671549836C/GC = 1C = 10.9991.01GG = 0.000G = 0.000227639612946371550213G/CG = 0.108G = 0.06400.01880.56GC = 0.892C = 0.936227639512990071550650T/CT = 0.001T = 0.0020.9023.67CC = 0.999C = 0.998180677813661071557360T/CT = 0.955T = 0.9690.3411.44CC = 0.045C = 0.031407339413779771558547A/GA = 0.46A = 0.4220.230.86AG = 0.540G = 0.57847154715173771572487G/TG = 0.488G = 0.480.8420.97GT = 0.512T = 0.52060613615213071572880A/GA = 0.559A = 0.5350.4470.91AG = 0.441G = 0.46560524115233271573082T/CT = 0.005T = 0.0020.7120.35TC = 0.995C = 0.99868606315378971574539G/AG = 0.003G = 0.0060.7422.10AA = 0.997A = 0.99468574915381371574563T/CT = 0.033T = 0.0380.8371.15CC = 0.967C = 0.96253320715384471574594A/CA = 0.923A = 0.9190.8110.94AC = 0.077C = 0.08147675318861271609362A/GA = 0.077A = 0.070.710.90AG = 0.923G = 0.930NUMA1-AF19114971611899G/TG = 0.963G = 0.9740.3981.46TT = 0.037T = 0.0261127871234468-3447271455218{circumflex over ( )}—/— = 0.901— = 0.9540.003212.24GTCAAC71455222GTCAACGTCAAC =GTCAAC =0.0990.046383138738627-3862871459377{circumflex over ( )}CA/—CA = 0.04CA = 0.0130.0670.32CA71459378— = 0.960— = 0.987



FIG. 1D shows proximal SNPs in and around the NUMA1 region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1D can be determined by consulting Table 30. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Additional Genotyping


Three additional NUMA1 region SNPs were genotyped in the discovery cohort. The discovery cohort is described in Example 1. The three SNPs (rs1894003, rs675185, and rs615000) map to the following respective locations within the NUMA1 region: 3'UTR of LOC220074, intron of NUMA1, and intron of LOC220074. All three of the SNPs (rs1894003, rs675185, and rs615000) were found to be significantly associated with breast cancer with a p-value of 0.00833, 0.0465 and 0.00648, respectively. See Table 26.


The methods used to verify and genotype the three proximal SNPs of Table 26 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 24 and Table 25, respectively.

TABLE 31dbSNP rs#Forward PCR primerReverse PCR primer1894003ACGTTGGATGGCCTAGCCATGATTTCCTACACGTTGGATGTTGACCCTCTGGTCCTGC675185ACGTTGGATGCCCGTCTCTGGGGAAAAAAAACGTTGGATGCCCAGCCTATATCCTGCTTT615000ACGTTGGATGATTTTGGCAACTTAGAAGTCACGTTGGATGGCCTCCATTCACTCTTGAAC












TABLE 32








dbSNP rs#
Extend Primer
Term Mix







1894003
TGTAAACCACCTGCTCAGAC
ACT






675185
ATGGGGAAATACTCAAGAAA
CT





615000
CCTGGAGGCAGAAGCCAGAT
ACT









Table 26, below, shows the case and control allele frequencies along with the p-values for additional SNPs genotyped. The disease associated allele of column 4 is in bold. The chromosome positions provided correspond to NCBI's Build 34.

TABLE 33Genotyping ResultsPosition inAminoSEQ IDChromosomeAllelesAcidAF FOddsBreast CancerdbSNP rs#NO: 4Position(A1/A2)ChangeAF F casecontrolp-valueRatioAssoc. Allele18940035583471476584T/CT = 0.086T = 0.0450.008330.504TC = 0.914C = 0.9556751858113071501880T/GT = 0.076T = 0.0460.04650.587TG = 0.924G = 0.95461500010851071529260T/GT = 0.085T = 0.0430.006480.486TG = 0.915G = 0.957


Example 8

Meta Analysis of Incident SNPs


Meta-analysis was performed of five of the incident SNPs disclosed in Table 3 (ICAM region (ICAM_SNP), MAPK10 (rs1541998), KIAA0861 (rs2001449), NUMA1 region (rs673478) and GALE region (rs4237)) based on genotype results provided in Table 6B. FIGS. 2A-2D depict odds ratios for the discovery samples and replication samples (see Example 3) individually, and the combined meta analysis odds ratio for the named SNP. The boxes are centered over the odds ratio for each sample, with the size of the box correlated to the contribution of each sample to the combined meta analysis odds ratio. The lines extending from each box are the 95% confidence interval values. The diamond is centered over the combined meta analysis odds ratio with the ends of the diamond depicting the 95% confidence interval values. The meta-analysis further illustrates the strong association each of the incident SNPs has with breast cancer across multiple case and control samples.


The subjects available for discovery from Germany included 272 cases and 276 controls. The subjects available for replication from Australia included 190 breast cancer cases and 190 controls. Meta analyses, combining the results of the German discovery sample and the Australian replication sample, were carried out using a random effects (DerSimonian-Laird) procedure.


Example 9
Description of development of predictive breast cancer models

The five SNPs reported in Example 3 were identified as being significantly associated with breast cancer according to the replication analysis discussed therein. These five SNPs are a subset of the panel of SNPs associated with breast cancer in the German chort referenced in Example 1 and reported in provisional patent application No. 60/429,136 filed Nov. 25, 2002 and provisional patent application No. 60/490,234 filed Jul. 24, 2003, having attorney docket number 524593004100 and 524593004101, respectively.


The clinical importance of these SNPs was estimated by combining them into a single logistic regression model. The coefficients of the model were used to estimate penetrance, relative risk and odds ratio values for estimating a subject's risk of having or developing breast cancer according to the subject's genotype. Penetrance is a probability that an individual has or will have breast cancer given their genotype (e.g., a value of 0.01 in the tables is equal to a 1% chance of having or developing breast cancer). The relative risk of breast cancer is based upon penetrance values, and is expressed in two forms. One form, noted as RR in the tables below, is expressed as a risk with respect to the lowest risk group (e.g., the most protected group being the 00000 genotype listed in Table 33). The other form is expressed as a risk with respect to a population average risk of breast cancer, which is noted as RR(Pop) in Table 35 below. Both of these expressions of relative risk are useful to a clinician for assessing risk of breast cancer in an individual and targeting appropriate detection, prevention and/or treatment regimens to the subject. Both expressions of relative risk also are useful to an insurance company to assess population risks of breast cancer (e.g., for developing actuarial tables), where individual genotypes often are provided to the company on an anonymous basis. Odds ratios are the odds one group has or will develop breast cancer with respect to another group, the other group often being the most protective group or the group having a population average risk of breast cancer. Relative risk often is a more reliable assessment of risk in comparison to an odds ratio when the disease or condition at issue is more prevalent.


To fit the single logistic model, all cases and controls from the German and Australian samples were used (see Examples 1 and 3, respectively). Controls were coded as 0 and cases were coded as 1. Based on the genotype penetrance estimates of each SNP (Table 31), GP01.025495354 (rs4237), GP03.197942797 (rs2001449), GP11.079035103 (rs673478) were modeled as additive by coding the genotypes 0, 1, or 2 for the low risk homozygote, the heterozygote, or high risk homozygote, respectively. The SNP FCH.0994 (ICAM_SNP1) was modeled as recessive coding the genotypes 0, 0, or 2 for the low risk homozygote, heterozygote, or high risk homozygote, respectively. The SNP GP04.091348915 (rs1541998) was modeled as dominant coding the genotypes 0, 2, or 2 for the low risk homozygote, the heterozygote, or high risk homozygote, respectively. Table 31 summarizes this analysis.

TABLE 31SNP:CaseControlP(D|G)GenotypeN(N = 254)(N = 268)(%)P-valueICAM_SNP1:CC49745%(103)32%(85)4.1400.006210CT42%(98)47%(126)2.700TT13%(30)21%(13)1.910rs4237:AA49434%(79)29%(75)3.5500.186000AG49%(113)48%(126)3.040GG17%(40)23%(61)2.240rs2001449:GG50846%(112)60%(158)2.2800.002930GC48%(117)36%(94)3.940CC7%(17)4%(10)5.300rs673478:TT50984%(206)91%(240)2.8000.040700TC14%(35)9%(25)4.490CC1%(3)0%(0)100.00rs1541998:CC4935%(12)4%(10)3.7100.012100CT36%(87)24%(61)4.370TT59%(143)72%(180)2.490


Based on this coding, there are a total of 108 unique genotype codes from the 243 unique five SNP genotypes. The relationship between the five SNP genotypes and the case-control status was fit using logistic regression. Many models were fit and compared including the five SNPs and all possible interaction among SNPs and study center. Only statistically significant terms from this complete model were included in the final model, shown in Table 32.

TABLE 32EstimateStd. Errorz valuePr(>|z|)(Intercept)−1.344460.25972−5.1772.26e−07FCH.09940.776070.198353.9139.13e−0542370.545250.176663.0860.00202520014490.603830.284872.1200.03403315419980.220510.078492.8090.0049636734780.599610.217372.7580.005807FCH.0994c: 4237−0.526360.14516−3.6260.000288FCH.0994c: 2001449−0.356130.24503−1.4530.1461134237c: 2001449−0.156850.20191−0.7770.437257FCH.0994c: 4237c20014490.413050.183912.2460.024705


Null deviance: 1136.7 on 820 degrees of freedom


Residual deviance: 1069.6 on 811 degrees of freedom


AIC: 1089.6


The penetrance was calculated for each of the 108 unique genotype codes using this model and an assumed disease prevalence of 0.03 (prev), the cumulative incidence for the age range of the sample in question. This was calculated from the logistic model as follows:

penetrance=exp(y+adj)/(1+exp(y+adj))

    • where
    • y=1/(1+exp(−1.344+0.776*A+0.545*B+0.604*C+0.221*D+0.600*E−0.526*A*B−0.356*A*C-0.157*B*C+0.413*A*B*C))=
    • and
    • adj=1n(prev/(1−prev)*freq(case)/(1−freq(case)).


      Here A, B, C, D, and E refer to the genotype codes for the SNPs FCH.0994, 4237, 2001449, 1541998, and 673478, respectively.


Table 33 summarizes statistics of interest for each genotype code. “Geno” shows each genotype code with the five integer codes formatted as an integer string. “N Case” and “N Control” is the number of cases and controls with the specified code, respectively. “Frequency” is the expected percent of individuals in the population having that code calculated as the average of the case and control frequencies weighted by the probability of disease in this sample (0.03). “OR” is the odds ratio comparing the odds of the specified code to the odds of the most protective code (00000) using the parameter estimates from the logistic regression model. “OR (Frq)” is an odds ratio estimated using the frequency of cases and control with the specified genotype code and the most protective code. “RR” is the relative risk comparing the probability of disease of the specified code to the probability of disease of the most protective code. “Penetrance” is the probability of disease given the genotype code, followed by “Lower” and “Upper” which give the 95% confidence interval for the penetrance. As can be seen by the ratios for OR and RR, the 00000 genotype was the most protective against breast cancer occurrence.

TABLE 33Confidence IntervalGenoN CaseN ControlFrequencyOROR (Frq)RRPenetranceLowerUpper000006265.94%1.001.001.000.0100.0070.01400001030.68%1.750.001.740.0170.0110.02900002000.00%3.083.010.0300.0130.06900020392.06%1.611.441.600.0160.0110.02300021030.68%2.830.002.780.0280.0170.04700022000.00%4.974.780.0480.0210.108001009204.60%1.671.951.660.0170.0120.02300101210.24%2.938.672.870.0290.0180.04700102000.00%5.134.930.0500.0220.11000120761.41%2.695.062.650.0270.0180.03800121000.00%4.734.560.0460.0280.07500122000.00%8.297.720.0780.0340.16800200140.91%2.781.082.740.0270.0180.04200201000.00%4.884.700.0470.0270.08200202000.00%8.577.960.0800.0340.17800220110.23%4.504.334.340.0440.0270.07000221100.01%7.897.380.0740.0410.12900222000.00%13.8312.250.1230.0520.26301000244710.84%1.262.211.260.0130.0100.01601001310.25%2.2113.002.180.0220.0140.03401002000.00%3.873.770.0380.0170.0830102018225.12%2.033.552.010.0200.0150.02701021440.94%3.574.333.480.0350.0220.05501022000.00%6.265.940.0600.0270.1290110021337.64%2.102.762.080.0210.0170.02601101240.92%3.692.173.590.0360.0240.05501102000.00%6.476.130.0620.0280.130011201561.47%3.3910.833.310.0330.0250.04501121000.00%5.955.670.0570.0360.08901122000.00%10.449.540.0960.0440.19801200540.94%3.515.423.420.0340.0230.05001201010.23%6.150.005.850.0590.0350.09701202000.00%10.799.820.0990.0440.20901220100.01%5.665.410.0540.0350.08301221000.00%9.939.120.0920.0540.15201222000.00%17.4214.950.1500.0670.3040200022399.01%1.592.441.580.0160.0120.02102001210.24%2.788.672.730.0270.0170.04302002100.01%4.884.700.0470.0210.1030202016102.39%2.566.932.520.0250.0180.03502021220.47%4.494.334.340.0440.0270.07002022200.02%7.887.370.0740.0330.1580210021184.24%2.655.062.600.0260.0200.03502101530.72%4.647.224.480.0450.0290.07002102000.00%8.147.600.0760.0350.160021201181.90%4.285.964.140.0420.0300.05802121100.01%7.507.040.0710.0440.11202122000.00%13.1511.720.1180.0540.23902200440.94%4.424.334.270.0430.0280.06502201310.25%7.7513.007.260.0730.0430.12102202000.00%13.5912.060.1210.0530.25202220210.24%7.138.676.720.0680.0430.10602221000.00%12.5111.210.1130.0650.18902222000.00%21.9418.130.1820.0820.35820000961.43%1.586.501.570.0160.0110.02320001000.00%2.762.720.0270.0160.04520002000.00%4.854.670.0470.0200.10520020840.97%2.548.672.510.0250.0170.03720021000.00%4.464.310.0430.0260.07220022000.00%7.837.330.0740.0320.16120100561.40%2.633.612.590.0260.0180.03720101410.26%4.6117.334.450.0450.0270.07220102000.00%8.097.550.0760.0330.16320120410.26%4.2517.334.110.0410.0280.06020121100.01%7.456.990.0700.0420.11520122000.00%13.0611.650.1170.0520.24220200010.23%4.390.004.240.0430.0270.06620201100.01%7.707.210.0720.0410.12420202000.00%13.5011.990.1210.0520.25520220000.00%7.096.680.0670.0410.10820221000.00%12.4311.150.1120.0630.19220222000.00%21.8018.030.1810.0800.3612100022255.83%1.993.811.970.0200.0150.02621001340.93%3.483.253.400.0340.0220.05321002100.01%6.115.810.0580.0260.1252102011143.26%3.213.403.140.0320.0230.04321021120.46%5.622.175.370.0540.0340.08521022000.00%9.869.050.0910.0410.1902110026245.64%3.314.693.240.0330.0250.04221101120.46%5.812.175.540.0560.0360.08521102100.01%10.199.330.0940.0430.191211201661.48%5.3511.565.120.0510.0370.07121121400.03%9.388.650.0870.0550.13521122000.00%16.4514.240.1430.0670.28121200310.25%5.5313.005.290.0530.0360.07821201300.02%9.698.920.0900.0540.14621202000.00%17.0014.650.1470.0670.29521220220.47%8.934.338.270.0830.0530.12721221100.01%15.6513.650.1370.0810.22321222000.00%27.4621.690.2180.1010.4092200013235.31%2.502.452.460.0250.0180.03422001410.26%4.3917.334.240.0430.0270.06822002010.23%7.690.007.210.0720.0320.154220203102.29%4.041.303.920.0390.0270.05622021100.01%7.086.670.0670.0410.10722022000.00%12.4211.140.1120.0510.230221001551.25%4.1713.004.040.0410.0300.05522101100.01%7.326.880.0690.0440.10722102000.00%12.8311.470.1150.0530.23222120351.16%6.742.606.370.0640.0450.09122121310.25%11.8213.0010.660.1070.0660.16822122000.00%20.7217.300.1740.0810.33322200400.03%6.966.570.0660.0430.10022201000.00%12.2110.970.1100.0650.18122202000.00%21.4217.770.1790.0810.34822220410.26%11.2417.3310.190.1020.0640.16022221000.00%19.7216.600.1670.0970.27122222000.00%34.5825.860.2600.1220.470


To simplify the interpretation of genotype risk, the 243 unique genotypes were divided into five risk classes on the basis of each estimated penetrance. The levels selected for risk class definitions and the resulting assignment of genotypes into five risk classes is shown in Table 34. The frequency percent of each genotype combination is given in parentheses.

TABLE 34Class 1Class 2Class 3Class 4Class 5(0, 0.013](0.013, 0.025](0.025, 0.042](0.042, 0.1](0.1, 1)00000(5.94)00001 (0.68)00022 (0.00)00102 (0.00)00222 (0.00)00020(2.06)00002 (0.00)00121 (0.00)00122 (0.00)01222 (0.00)01000(10.84)00021 (0.68)00220 (0.23)00201 (0.00)02022 (0.02)22000(5.31)00100 (4.60)01002 (0.00)00202 (0.00)02122 (0.00)00101 (0.24)01021 (0.94)00221 (0.01)02202 (0.00)00120 (1.41)01101 (0.92)01022 (0.00)02221 (0.00)00200 (0.91)01120 (1.47)01102 (0.00)02222 (0.00)01001 (0.25)01200 (0.94)01121 (0.00)20002 (0.00)01020 (5.12)02001 (0.24)01122 (0.00)20022 (0.00)01100 (7.64)02020 (2.39)01201 (0.23)20122 (0.00)02000 (9.01)02100 (4.24)01202 (0.00)20222 (0.00)21000 (5.83)02200 (0.94)01220 (0.01)21102 (0.01)22001 (0.26)20000 (1.43)01221 (0.00)21122 (0.00)22020 (2.29)20100 (1.40)02002 (0.01)21201 (0.02)20200 (0.23)02021 (0.47)21202 (0.00)20220 (0.00)02101 (0.72)21221 (0.01)21001 (0.93)02102 (0.00)21222 (0.00)21020 (3.26)02120 (1.90)22102 (0.00)21100 (5.64)02121 (0.01)22121 (0.25)22002 (0.23)02201 (0.25)22122 (0.00)22021 (0.01)02220 (0.24)22200 (0.03)22100 (1.25)20001 (0.00)22201 (0.00)20020 (0.97)22202 (0.00)20021 (0.00)22220 (0.26)20101 (0.26)22221 (0.00)20102 (0.00)22222 (0.00)20120 (0.26)20121 (0.01)20201 (0.01)20202 (0.00)20221 (0.00)21002 (0.01)21021 (0.46)21022 (0.00)21101 (0.46)21120 (1.48)21121 (0.03)21200 (0.25)21220 (0.47)22022 (0.00)22101 (0.01)22120 (1.16)


With this classification, each genotype was recoded as belonging to their respective class and a logistic regression model was fit with the genotype risk class as a categorical variable. Key summary statistics are summarized in Table 35. Each group is described by the number of cases, number of controls, the estimated risk class population frequency, the odds ratio comparing the odds of the given risk class compared to the odds of the lowest risk class, the penetrance, the relative risk (risk class penetrance divided by most protective risk class penetrance), and the population relative risk (risk class penetrance divided by the disease prevalence: 0.03).

TABLE 35Risk ClassN CaseN ControlFrequency (%)ORPenetranceRRRR (Pop)G14610524.21.00.0121.00.41G211216838.91.50.0191.50.62G314011326.72.80.0342.81.13G477409.74.40.0524.21.73G51820.0620.50.20416.66.79


Example 10
Inhibition of ICAM Gene Expression by Transfection of Specific siRNAs

RNAi-based gene inhibition was selected as a rapid way to inhibit expression of ICAM1 in cultured cells. siRNA reagents were selectively designed to target the ICAM 1 gene. Algorithms useful for designing siRNA molecules specific for an ICAM 1 gene are disclosed at the http address www.dharmacon.com. siRNA molecules up to 21 nucleotides in length were utilized.


Table 31 summarizes the features of the duplexes that were used in the assays to target ICAM1. A non-homologous siRNA reagent (siGL2 control) was used as a negative control, and a non-homologous siRNA reagent (siRNA_RAD211175 control) shown to inhibit the expression of RAD21 and subsequently inhibit cell proliferation was used as a positive control in all of the assays described herein.

TABLE 36siRNAsiRNA TargetSequence SpecificitySEQ ID NO:ICAM1_293ICAM1ACAACCGGAAGGUGUAUGAICAM1_335ICAM1GCCAACCAAUGUGCUAUUCICAM1_604ICAM1GAUCACCAUGGAGCCAAUUICAM1_1409ICAM1CUGUCACUCGAGAUCUUGAsiRNA_RAD21_1175RAD21GAGUUGGAUAGCAAGACAApositive controlsiGL2 negativeGL2CGUACGCGGAAUACUUCGAcontrol


The siRNAs were transfected in cell lines MCF-7 and T-47D using Lipofectamine™ 2000 reagent from Invitrogen, Corp. 2.5 μg or 5.0 μg of siRNA was mixed with 6.25 μl or 12.5 μl lipofectamine, respectively, and the mixture was added to cells grown in 6-well plates. Their inhibitory effects on ICAM 1 gene expression were confirmed by precision expression analysis by MassARRAY (quantitativeRT-PCR hME), which was performed on RNA prepared from the transfected cells. See Chunming & Cantor, PNAS 100(6): 3059-3064 (2003). Cell viability was measured at 1, 2, 4 and 6 days post-transfection. Absorbance values were normalized relative to Day 1. RNA was extracted with Trizole reagent as recommended by the manufacturer (Invitrogen, Corp.) followed by cDNA synthesis using SuperScript™ reverse transcriptase.


A cocktail of siRNA molecules described in Table 28 (that target ICAM1) strongly inhibited proliferation of breast cancer cell line (MCF-7), as shown in FIG. 3. These effects are consistent in all six experiments performed. Each data point is an average of 3 wells of a 96-well plate normalized to values obtained from day 1 post transfection. The specificity of the active siRNAs, was confirmed with a negative, non-homologous control siRNA (siGL2), and a positive control, siRNA_RAD211175, that targets a known cancer-associated gene, RAD21. Long term inhibition of gene expression is desirable in certain cases. Therefore, included herein are embodiments directed to siRNA duplexes described herein (see Table 36) that are less susceptible to degradation. An example of a modification that decreases susceptibility to degradation is in siSTABLE RNA described at http address www.dharmacon.com.


Example 11
In Vitro Production of Target Polypeptides





    • cDNA is cloned into a pIVEX 2.3-MCS vector (Roche Biochem) using a directional cloning method. A cDNA insert is prepared using PCR with forward and reverse primers having 5′ restriction site tags (in frame) and 5-6 additional nucleotides in addition to 3′ gene-specific portions, the latter of which is typically about twenty to about twenty-five base pairs in length. A Sal I restriction site is introduced by the forward primer and a Sma I restriction site is introduced by the reverse primer. The ends of PCR products are cut with the corresponding restriction enzymes (i.e., Sal I and Sma I) and the products are gel-purified. The pIVEX 2.3-MCS vector is linearized using the same restriction enzymes, and the fragment with the correct sized fragment is isolated by gel-purification. Purified PCR product is ligated into the linearized pIVEX 2.3-MCS vector and E. coli cells transformed for plasmid amplification. The newly constructed expression vector is verified by restriction mapping and used for protein production.






E. coli lysate is reconstituted with 0.25 ml of Reconstitution Buffer, the Reaction Mix is reconstituted with 0.8 ml of Reconstitution Buffer; the Feeding Mix is reconstituted with 10.5 ml of Reconstitution Buffer; and the Energy Mix is reconstituted with 0.6 ml of Reconstitution Buffer. 0.5 ml of the Energy Mix was added to the Feeding Mix to obtain the Feeding Solution. 0.75 ml of Reaction Mix, 50 μl of Energy Mix, and 10 μg of the template DNA is added to the E. coli lysate.


Using the reaction device (Roche Biochem), 1 ml of the Reaction Solution is loaded into the reaction compartment. The reaction device is turned upside-down and 10 ml of the Feeding Solution is loaded into the feeding compartment. All lids are closed and the reaction device is loaded into the RTS500 instrument. The instrument is run at 30° C. for 24 hours with a stir bar speed of 150 rpm. The pIVEX 2.3 MCS vector includes a nucleotide sequence that encodes six consecutive histidine amino acids on the C-terminal end of the target polypeptide for the purpose of protein purification. Target polypeptide is purified by contacting the contents of reaction device with resin modified with Ni2+ ions. Target polypeptide is eluted from the resin with a solution containing free Ni2+ ions.


Example 12
Cellular Production of Target Polypeptides

Nucleic acids are cloned into DNA plasmids having phage recombination cites and target polypeptides are expressed therefrom in a variety of host cells. Alpha phage genomic DNA contains short sequences known as attP sites, and E. coli genomic DNA contains unique, short sequences known as attB sites. These regions share homology, allowing for integration of phage DNA into E. coli via directional, site-specific recombination using the phage protein Int and the E. coli protein IHF. Integration produces two new att sites, L and R, which flank the inserted prophage DNA. Phage excision from E. coli genomic DNA can also be accomplished using these two proteins with the addition of a second phage protein, X is. DNA vectors have been produced where the integration/excision process is modified to allow for the directional integration or excision of a target DNA fragment into a backbone vector in a rapid in vitro reaction (Gateway™ Technology (Invitrogen, Inc.)).


A first step is to transfer the nucleic acid insert into a shuttle vector that contains attL sites surrounding the negative selection gene, ccdB (e.g. pENTER vector, Invitrogen, Inc.). This transfer process is accomplished by digesting the nucleic acid from a DNA vector used for sequencing, and to ligate it into the multicloning site of the shuttle vector, which will place it between the two attL sites while removing the negative selection gene ccdB. A second method is to amplify the nucleic acid by the polymerase chain reaction (PCR) with primers containing attB sites. The amplified fragment then is integrated into the shuttle vector using Int and IHF. A third method is to utilize a topoisomerase-mediated process, in which the nucleic acid is amplified via PCR using gene-specific primers with the 5′ upstream primer containing an additional CACC sequence (e.g., TOPO® expression kit (Invitrogen, Inc.)). In conjunction with Topoisomerase I, the PCR amplified fragment can be cloned into the shuttle vector via the attL sites in the correct orientation.


Once the nucleic acid is transferred into the shuttle vector, it can be cloned into an expression vector having attR sites. Several vectors containing attR sites for expression of target polypeptide as a native polypeptide, N-fusion polypeptide, and C-fusion polypeptides are commercially available (e.g., pDEST (Invitrogen, Inc.)), and any vector can be converted into an expression vector for receiving a nucleic acid from the shuttle vector by introducing an insert having an attR site flanked by an antibiotic resistant gene for selection using the standard methods described above. Transfer of the nucleic acid from the shuttle vector is accomplished by directional recombination using Int, IHF, and X is (LR clonase). Then the desired sequence can be transferred to an expression vector by carrying out a one hour incubation at room temperature with Int, IHF, and X is, a ten minute incubation at 37° C. with proteinase K, transforming bacteria and allowing expression for one hour, and then plating on selective media. Generally, 90% cloning efficiency is achieved by this method. Examples of expression vectors are pDEST 14 bacterial expression vector with att7 promoter, pDEST 15 bacterial expression vector with a T7 promoter and a N-terminal GST tag, pDEST 17 bacterial vector with a T7 promoter and a N-terminal polyhistidine affinity tag, and pDEST 12.2 mammalian expression vector with a CMV promoter and neo resistance gene. These expression vectors or others like them are transformed or transfected into cells for expression of the target polypeptide or polypeptide variants. These expression vectors are often transfected, for example, into murine-transformed a adipocyte cell line 3T3-L1, (ATCC), human embryonic kidney cell line 293, and rat cardiomyocyte cell line H9C2.


Example 13
Haplotype analysis of the KIAA0861 locus

rs6804951 and rs2001449 are significant at the allele and genotype levels (P<0.05). Moderate LD is observed for markers rs3732602 and rs2293203 (r{circumflex over ( )}2=0.646). Chi-squared tests indicate that haplotypes are significantly associated with breast cancer. Cell-specific chi-square values indicate that TTTTG and CTTTC haplotypes are contributors to this relationship. Odds ratios and score tests indicate that individuals carrying the TTTG are less likely to have breast cancer, while individuals with CTTTC are at elevated risk for the disease. Moreover, the odds ratio estimated for the CGTTC indicates more than a two-fold risk of disease among its carriers, although this result must be interpreted with great caution due to the low observed frequency in the population.


Summary Statistics of Alleles and Genotypes


SNP Locations




















SNP. ID
Type
Location









rs6804951
Proximal
184327431



rs7639705
Proximal
184330963



rs3732602
Proximal
184408945



rs2293203
Proximal
184419992



rs2001449
Incident
184429569










Allele by GYNGroup






















Case
Control
Test



N
(N = 544)
(N = 552)
Statistic






















rs6804951:T
1064
5%
(24)
9%
(46)
Chi-square = 6.71








d.f. = 1 P = 0.00958


rs7639705:T
1086
80%
(434)
81%
(441)
Chi-square = 0.03








d.f. = 1 P = 0.868


rs3732602:T
1074
99%
(532)
99%
(532)
Chi-square = 0.4








d.f. = 1 P = 0.529


rs2293203:T
1088
99%
(536)
99%
(538)
Chi-square = 0.27








d.f. = 1 P = 0.6


|rs200144:C
1084
30%
(161)
22%
(119)
Chi-square = 8.49








d.f. P = 0.00356









Genotype by GYNGroup






















Case
Control
Test



N
(N = 272)
(N = 276)
Statistic






















rs6804951:CC
532
91%
(238)
83%
(225)
Chi-square = 7.13








d.f. = 2 P = 0.0283


CT

9%
(24)
16%
(44)


TT

0%
(0)
0%
(1)


rs7639705:GG
543
3%
(9)
5%
(14)
Chi-square = 2.03








d.f. = 2 P = 0.362


GT

33%
(88)
28%
(77)


TT

64%
(173)
67%
(182)


rs3732602:TT
537
99%
(264)
98%
(263)
Chi-square = 0.4








d.f. = 1 P = 0.527


rs2293203:TT
544
98%
(265)
97%
(265)
Chi-square = 0.28








d.f. = 1 P = 0.598


rs2001449:GG
542
47%
(128)
60%
(162)
Chi-square = 9.29








d.f. = 2 P = 0.00961


GC

46%
(125)
37%
(99)


CC

7%
(18)
4%
(10)









Genotype OC: Test of Hardy-Weinberg Equilibrium Cases

A. freqDChiSqPvaluers68049510.936−0.0022800.78700.3750rs76397050.8070.0047900.51500.4730rs37326020.990−0.0001010.05650.8120rs22932030.987−0.0001640.09210.7620rs20014490.744−0.0145003.14000.0763


Controls





















A. freq
D
ChiSq
Pvalue






















rs6804951
0.916
−0.003400
0.5350
0.465



rs7639705
0.808
−0.014400
2.3600
0.124



rs3732602
0.989
0.000120
0.0336
0.855



rs2293203
0.985
−0.000213
0.0601
0.806



rs2001449
0.783
−0.010700
1.0800
0.299










Summary Statistics: Linkage Disequilibrium


PHASE Haplotype Frequencies



















H. freq
H. relfreq




















CGTTC
13
0.012



CGTTG
191
0.175



CTCAG
10
0.009



CTCTG
1
0.001



CTTAG
4
0.004



CTTTC
265
0.243



CTTTG
538
0.493



TGTTG
7
0.006



TTTTC
2
0.002



TTTTG
61
0.056










Linkage Disequilibrium Between Markers


r{circumflex over ( )}2






















rs6804951
rs7639705
rs3732602
rs2293203
rs2001449





















rs6804951
1.000000
0.00382
0.000697
0.00089
0.01860


rs7639705
0.003820
1.00000
0.002440
0.00311
0.04770


rs3732602
0.000697
0.00244
1.000000
0.64600
0.00351


rs2293203
0.000890
0.00311
0.646000
1.00000
0.00448


rs2001449
0.018600
0.04770
0.003510
0.00448
1.00000









D′






















rs6804951
rs7639705
rs3732602
rs2293203
rs2001449





















rs6804951
1.0000
0.116
0.0685
0.0685
0.306


rs7639705
0.1160
1.000
0.2400
0.2400
0.262


rs3732602
0.0685
0.240
1.0000
0.9080
0.345


rs2293203
0.0685
0.240
0.9080
1.0000
0.345


rs2001449
0.3060
0.262
0.3450
0.3450
1.000









P-value






















rs6804951
rs7639705
rs3732602
rs2293203
rs2001449





















rs6804951
1.00e+00
4.12e−02
0.3830
0.3240
6.40e−06


rs7639705
4.12e−02
1.00e+00
0.1030
0.0653
5.41e−13


rs3732602
3.83e−01
1.03e−01
1.0000
0.0000
5.03e−02


rs2293203
3.24e−01
6.53e−02
0.0000
1.0000
2.70e−02


rs2001449
6.40e−06
5.41e−13
0.0503
0.0270
1.00e+00









Haplotype by GYNGroup


PHASE Haplotypes (All)

























Case
Case(%)
Case.X{circumflex over ( )}2
Control
Control(%)
Control.X{circumflex over ( )}2
OR
In. OR
























TTTTG
20
1.83
3.55
41
3.75
3.53
0.4782
−0.7377


CTCAG
4
0.37
0.19
6
0.55
0.19
0.6654
−0.4074


TGTTG
3
0.27
0.07
4
0.37
0.07
0.7493
−0.2886


CTTTG
259
23.72
0.30
279
25.55
0.30
0.9060
−0.987


CGTTG
94
8.61
0.01
97
8.88
0.01
0.9662
−0.0344


CTTAG
2
0.18
0.00
2
0.18
0.00
1.0000
0.0000


TTTTC
1
0.09
0.00
1
0.09
0.00
1.0000
0.0000


CTTTC
151
13.83
2.73
114
10.44
2.71
1.3766
0.3196


CGTTC
9
0.82
0.98
4
0.37
0.98
2.2604
0.8155


CTCTG
1
0.09
0.51
0
0.00
0.50
Inf
Inf







Pearson Chi-squared Test = 16.6377, DF = 9, P-value = 0.0547







PHASE Haplotypes (Low Frequency Removed)

























Case
Case(%)
Case.X{circumflex over ( )}2
Control
Control(%)
Control.X{circumflex over ( )}2
OR
In.OR
























TTTTG
20
1.86
3.55
41
3.80
3.52
0.4781
−0.7379


CTCAG
4
0.37
0.19
6
0.56
0.19
0.6654
−0.4074


CTTTG
259
24.03
0.30
279
25.88
0.30
0.9056
−0.0992


CGTTG
94
8.72
0.01
97
9.00
0.01
0.9661
−0.0345


CTTTC
151
14.01
2.73
114
10.58
2.71
1.3774
0.3202


CGTTC
9
0.83
0.98
4
0.37
0.98
2.2605
0.8156







Pearson Chi-squared Test = 15.4946, DF = 5, P-value = 0.008445







haplo.score Haplotypes

Hap. FreqScore P.X{circumflex over ( )}2P. SimTTTTG0.0529−2.12060.03400.0342TGTTG0.0101−2.06680.03880.0236CTCAG0.0073−1.29140.19660.2902CTTTG0.5221−1.22750.21960.2195CGTTG0.1448−0.14410.88540.8834CTTTC0.22672.34220.01920.0192CGTTC0.03072.69940.00690.0050
Global Score = 20.343, DF = 7, Global P. X{circumflex over ( )}2 = 0.0049, Global P. Sim = 0.0022


Example 14
Haplotype analysis of the NUMA1 locus

All markers noted below except 2276396 are associated with breast cancer at the allele level (P<0.05). Marker 675185 does not maintain this relationship at the genotype level. Strong LD is observed across the entire region but is particular strong between and among 1894003, 675185, 673478, and 615000. Pearson chi-squared statistics suggest that haplotypes are significantly associated with breast cancer. Haplotype TTCTC contributes the most to this relationship. Odds ratios and score statistics indicate that individuals with haplotype TTCTC are 2.6 times more likely to have breast cancer than individuals with other haplotypes.


Statistics


Chi-squared statistics are estimated to assess whether 1) alleles and genotypes are associated with breast cancer status and 2) marker genotype frequencies deviate significantly from Hardy-Weinberg equilibrium (HWE). Haplotype frequencies and relative frequencies are estimated, as well as several statistics (r2, D′, and p-value) that gauge the extent and stability of linkage disequilibrium between markers in each region. Chi-squared statistics and score tests are estimated to determine whether reconstructed haplotypes are significantly associated with breast cancer status (P<0.05). P-values are estimated for 1) the full set of reconstructed haplotypes and 2) a reduced set that excludes haplotypes with observed frequencies less than 10. Results are presented by chromosome order.


Results


Summary Statistics: Alleles and Genotypes


SNP Locations
















SNP. ID
Type
Location

















1894003
Proximal
71972974


675185
Proximal
71998270


673478
Incident
72021802


615000
Proximal
72025650


2276396
Proximal
72046603









Allele by GYNGroup






















Case
Control
Test



N
(N = 510)
(N-538)
Statistic




















1894003:C
1026
91%(450)
96%(510)
Chi-square = 6.95






d.f. = 1 P = 0.00838


675185:G
1010
92%(451)
95%(498)
Chi-square = 3.96






d.f. = 1 P = 0.0466


673478:C
1022
8%(41)
5%(25)
Chi-square = 5.68






d.f. = 1 P = 0.0171


615000:G
1010
92%(434)
96%(513)
Chi-square = 7.4






d.f. = 1 P = 0.00652


2276396:C
1028
97%(478)
98%(523)
Chi-square = 0.18






d.f. = 1 P = 0.674









Genotype by GYNGroup






















Case
Control
Test



N
(N = 255)
(N = 269)
Statistic




















1894003:TT
513
1%(3) 
0%(0) 
Chi-square = 7.43






d.f. = 2 P = 0.0243


TC

15%(36) 
9%(24) 


CC

84%(207)
91%(243) 


675185:TT
505
0%(1) 
0%(0) 
Chi-square = 4.37






d.f. = 2 P = 0.112


TG

14%(35) 
9%(24) 


GG

85%(208)
91%(237) 


673478:TT
511
84%(207)
91%(241) 
Chi-square = 6.39






d.f. = 2 P = 0.0409


TC

14%(35) 
9%(25) 


CC

1%(3) 
0%(0) 


615000:TT
505
1%(3) 
0%(0) 
Chi-square = 7.8






d.f. = 2 P = 0.0202


TG

14%(34) 
9%(23) 


GG

84%(200)
91%(245) 


2276396:CC
514
 4%(232)
95%(255) 
Chi-square = 0.18






d.f. = 1 P = 0.67










Hardy-Weinberg Proportions


All





















A. freq
D
ChiSq
Pvalue




















1894003
0.935
0.00159
0.350
0.554


675185
0.935
0.00159
0.350
0.554


673478
0.935
0.00159
0.350
0.554


615000
0.937
0.00184
0.495
0.482


2276396
0.974
−0.00069
0.374
0.541









Control





















A. freq
D
ChiSq
Pvalue




















1894003
0.953
−0.002190
0.644
0.422


675185
0.953
−0.002190
0.644
0.422


673478
0.953
−0.002190
0.644
0.422


615000
0.957
−0.001860
0.541
0.462


2276396
0.976
−0.000593
0.166
0.683










Summary Statistics: Linkage Disequilibrium


Haplotype Frequencies



















H. freq
H. relfreq




















CGTGC
961
0.935



TTCGC
1
0.001



TTCGG
1
0.001



TTCTC
39
0.038



TTCTG
26
0.025











Linkage Disequilibrium Between Markers


r2






















1894003
675185
GP11.079035103
615000
2276396





















1894003
1.000
1.000
1.000
0.968
0.387


675185
1.000
1.000
1.000
0.968
0.387


673478
1.000
1.000
1.000
0.968
0.387


615000
0.968
0.968
0.968
1.000
0.369


2276396
0.387
0.387
0.387
0.369
1.000









D′






















1894003
675185
GP11.079035103
615000
2276396





















1894003
1
1
1
1.00
1.00


675185
1
1
1
1.00
1.00


673478
1
1
1
1.00
1.00


615000
1
1
1
1.00
0.96


2276396
1
1
1
0.96
1.00









P-value



















X
1894003
675185
GP11.079035103
615000
2276396







1894003
1
0
0
0
0


675185
0
1
0
0
0


GP11.079035103
0
0
1
0
0


615000
0
0
0
1
0


2276396
0
0
0
0
1









Haplotype by GYNGroup
PHASE Haplotypes (All)

























Case
Case(%)
Case.X{circumflex over ( )}2
Control
Control(%)
Control.X{circumflex over ( )}2
OR
In.OR
























TTCGC
0
0.00
0.48
1
0.10
0.44
0.0000
−Inf


TTCGG
0
0.00
0.48
1
0.10
0.44
0.0000
−Inf


CGTGC
452
43.97
0.21
509
49.51
0.19
0.8001
−0.2230


TTCTG
14
1.36
0.18
12
1.17
0.17
1.1690
0.1561


TTCTC
28
2.72
4.57
11
1.07
4.23
2.5887
0.9512







Pearson Chi-squared Test = 11.4058, DF = 4, P-value = 0.02236





Permutation Test P-value = 0.14







PHASE Haplotypes (Low Frequency Excluded)

























Case
Case(%)
Case.X{circumflex over ( )}2
Control
Control(%)
Control.X{circumflex over ( )}2
OR
In.OR
























CGTGC
452
44.05
0.25
509
49.61
0.23
0.7998
−0.2234


TTCTG
14
1.36
0.18
12
1.17
0.16
1.1690
0.1561


TTCTC
28
2.73
4.53
11
1.07
4.21
2.5888
0.9512







Pearson Chi-squared Test = 9.5506, DF = 2, P-value = 0.008435







haplo.score Haplotypes





















Hap. Freq
Score
P. X{circumflex over ( )}2
P. Sim






















CGTGC
0.9410
−2.0316
0.0422
0.0531



TTCTG
0.0248
0.3232
0.7465
0.8344



TTCTC
0.0321
2.6973
0.0070
0.0093









Global Score = 9.1386, DF = 3, Global P. X{circumflex over ( )}2 = 0.0275, Global P. Sim = 0.0212







Example 15
GALE Region Proximal SNPs

It has been discovered that a polymorphic variation (rs4237) in the HT014/LOC148902/LYPLA2/GALE region is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs4237) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately 175 allelic variants located within the HT014/LOC148902/LYPLA2/GALE region were identified and allelotyped. The polymorphic variants are set forth in Table 37. The chromosome position provided in column four of Table 37 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 37Position inChromosomeAlleleGenomeDeduceddbSNP rs#SEQ ID NO: 5ChromosomePositionVariantsLetterIupac627451215123536215g/agR12082331385123536385g/cgS22679602019123538019t/ctY75196403112123539112c/ggS120867413437123539437g/agR39341894326123540326t/ctY121354154523123540523a/gaR120882674645123540645a/ggR120846654646123540646c/ttY5508505830123541830t/ccY5572276556123542556g/tgK121375026568123542568t/aaW121188586570123542570c/tcY22944959351123545351c/tcY1240165010874123546874c/tcY223554110926123546926c/tcY52071311462123547462g/agR55025212415123548415t/ccYHT014-AA12668123548668a/ggR1209368313886123549886g/cgS1091742115005123551005g/agR274487315387123551387a/ttW1209176415639123551639g/aaRHT014-AB15761123551761a/ttW207634516969123552969c/tcY207634617124123553124t/ctY247337917369123553369a/gaR667930017523123553523c/ggS1181139518158123554158t/atW817946718220123554220t/aaW817946818224123554224t/aaW1091742318538123554538a/ggR753669918810123554810g/cgS321549720282123556282—/ttN100021320495123556495c/atK100021220633123556633c/tgR100021120659123556659g/acY104501721603123557603a/ggR1205952024075123560075c/ggS214311824191123560191c/tcY1212680425010123561010t/ccY53327625124123561124c/tcY1240217425145123561145g/cgS286411025222123561222c/atK1158187325288123561288t/ccY1206244926080123562080g/agR1203319026556123562556c/tcY1015756627416123563416t/ctY48674627432123563432c/gcS1180270729841123565841a/ggR666855029955123565955c/aaM741094630160123566160a/ggR741097030294123566294g/cgS665755831039123567039c/ggS214311932071123568071t/ccY751439433698123569698t/ccY1159120235555123571555a/caM667399136658123572658a/gaRHT014-AC37720123573720g/ccS1203484838304123574304c/tcY250298439008123575008t/ctY383191039985123575985a/—aN1137944439989123575989—/ttN72511940683123576683t/aaW1091742542158123578158t/ccY1207778844369123580369c/gcS1207783044503123580503c/gcS247338045382123581382c/ttY247338146171123582171a/caM1154513247276123583276g/tgK104692447299123583299t/ctY423747604123583604a/ggR437531748462123584462g/agR1158422050786123586786a/ccM223297551057123587057g/tgK250298551310123587310g/agR383542351996123587996c/—gN223297652546123588546t/atK223297752602123588602c/tcY223297852725123588725g/agR223297952858123588858a/ccM223298052935123588935t/ggK223298152948123588948c/tcY223298253102123589102t/ccY223298354160123590160c/acM223298454794123590794c/tcY223298554798123590798t/ccY223298654853123590853t/ccY274555422123591422a/gcY274455460123591460c/ggS1154612755645123591645g/tgK104998855660123591660t/cgR180361355729123591729c/tgR180361255736123591736t/gcMHT014-AD55821123591821t/ccY320997355970123591970t/gcM318054556150123592150c/acM318038356167123592167a/ggR317781456171123592171g/tgK318054656210123592210g/ttK318054756213123592213a/ccM1180539856259123592259t/ggK76094156461123592461t/ccY317781356480123592480t/ccY318054856486123592486a/ggR317986456499123592499a/ggR317781256510123592510t/ccY317986356543123592543g/tgK669210456827123592827g/cgS318054956846123592846g/ccS317986256859123592859c/acM317781156870123592870g/ccS317781056890123592890c/acM318038256907123592907a/ccM1154612657767123593767c/taR755138458774123594774c/ggS1214151159444123595444t/ccY247338259452123595452g/agR1203816659753123595753a/ggR666690860766123596766c/acM1204115961135123597135g/ccS1203159261339123597339a/caM106259861922123597922c/tgR1171461942123597942c/tcY320359361958123597958a/gcY104243662068123598068t/cgR207634362601123598601a/gaR1213153962661123598661g/agR1158393562882123598882t/ggK1214026363949123599949a/ccM383522564732123600732—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-83920123619916{circumflex over ( )}cact/—cactNNNN23619919669780585471123621471a/ccM642411485688123621688c/acM577305886196123622196—/ttgN464911486323123622323t/agK642411586706123622706a/gaR


Assay for Verifying and Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 37 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are provided in Table 38 and Table 39, respectively.

TABLE 38dbSNP rs#Forward PCR primerReverse PCR primer627451ACGTTGGATGATCTTCTGACCTCGTGATCCACGTTGGATGCAACAGAGTGAGACCCTGTC12082331ACGTTGGATGGGGTTCATGCCGTTCTCCTGACGTTGGATGAAATTAGCCGGGTGTAGTGG2267960ACGTTGGATGCACCTAGCATCATCTAGACCACGTTGGATGTTAGGGTACCAAGTGGATGG7519640ACGTTGGATGGCGTTGGCATTTATAAGGCCACGTTGGATGTCTCCAGGGTCTACTTCAAG12086741ACGTTGGATGAACTTGGAGCGCCGACTCCGACGTTGGATGATGCACGGAGGGCGGAGCT3934189ACGTTGGATGACCAGAGAAGTGAGTGACAGACGTTGGATGTTTTGTTGTTTATTGTAC12135415ACGTTGGATGATCTCGGCTCACTGCAACCTACGTTGGATGGCGCCTACAATACCAGCTAC12088267ACGTTGGATGTAGTAGAGACAGGGTTTCACACGTTGGATGTGACGGAGAATGCCAAACAC12084665ACGTTGGATGTAGTAGAGACAGGGTTTCACACGTTGGATGTGACGGAGAATGCCAAACAC550850ACGTTGGATGTCTCCCTTAAGTGAGCCAAGACGTTGGATGTTCCACACCTGTGTTCATGG557227ACGTTGGATGTGTAACACAGGACGAGGATCACGTTGGATGATGGCACCATTGCACTCCAG12137502ACGTTGGATGAGCCTGGACAACAAGAGCAAACGTTGGATGTGTAACACAGGACGAGGATC12118858ACGTTGGATGAGCCTGGACAACAAGAGCAAACGTTGGATGTGTAACACAGGACGAGGATC2294495ACGTTGGATGGGAATTAGATGGTTATAATGGACGTTGGATGCACCACTTTAACTAAAGTAC12401650ACGTTGGATGAGAAGAGCAATTCCCGAAAGACGTTGGATGTCCAGGTTTCTTGGTAGTCC2235541ACGTTGGATGGGGACTACCAAGAAACCTGGACGTTGGATGTCCACGAGCTCCGAGAGTTTCCTATG520713ACGTTGGATGAGGGAGGCAAACACTTCTTCACGTTGGATGACAATGCAAGGGAGAAACCG550252ACGTTGGATGAGGCAGTGGACGGTAATTGGACGTTGGATGTCCACGCTGCAGGTGCCTGATGTGTTHT014-AAACGTTGGATGTTCTAAACCAACCAGGCGTGACGTTGGATGTTACCTAAGGTGATCTGCCC12093683ACGTTGGATGTAAGCTCCTGTAATCCCAGCACGTTGGATGAGGCTGATCTCGAACTCTTG10917421ACGTTGGATGATATTAGCCAGCTGTGGTGGACGTTGGATGACTGCATCCTTGAACTCCTG2744873ACGTTGGATGACCTAGGAGTGACCAGTTTCACGTTGGATGGGGAGTTATTTTTTTCCTAG12091764ACGTTGGATGTGGGTTCAAGCGATTCTCACACGTTGGATGTAAAATAGCTGGGCGTGGTGHT014-ABACGTTGGATGGAAACCAGAACCAGGACATCACGTTGGATGACAGAGCAAGACTCTGTCTC2076345ACGTTGGATGATGGGAAGCAGCCATGCTTCACGTTGGATGTCCACGTGGTGCTTGGGCCATCATAG2076346ACGTTGGATGGCAGTCCACAAAATGTAATACACGTTGGATGAAGTAACTTGGAGTTCCTGC2473379ACGTTGGATGTAATCCCAGCACTTTGGCAGACGTTGGATGTCTCATTATGTTGTCCAGGC6679300ACGTTGGATGTTTUTGAGATGGAGTCTCGCACGTTGGATGAATGGCATGAACCTGGAAGG11811395ACGTTGGATGAATGACAGGCCCTCTTACTGACGTTGGATGAGAGTGAGACTCTGTCTCCA8179467ACGTTGGATGAATGACAGGCCCTCTTACTGACGTTGGATGAGAGTGAGACTCTGTCTCCA8179468ACGTTGGATGTATATCTAATTGGGTCTTCCACGTTGGATGAGAGTGAGACTCTGTCTCCA10917423ACGTTGGATGTACCAGCGTGAACCACCATGACGTTGGATGCATCCCCTTAGGATACTGGG7536699ACGTTGGATGGCCTCACAAATAGCCAAACCACGTTGGATGTTGCATAGCCACCTTAGACC3215497ACGTTGGATGTCATCCTTTTTGCGAGTCCCACGTTGGATGTCAATCTCCCAAGGTTCTGC1000213ACGTTGGATGGTGATTCACAGAGAACAAGAGACGTTGGATGGC11TTTGTAGCCCTGAAGG1000212ACGTTGGATGTCAGCAGCAAAGTCCTCTTCACGTTGGATGAGGCTGTAATGCTATGTTGG1000211ACGTTGGATGGGAAGAACACAACTGTTGGCACGTTGGATGCCTGCCTTAAACACACTCAG1045017ACGTTGGATGACATCAGGGATGTGACTTGGACGTTGGATGTCCACGCTGCTCTGCAGCCATTTTAG12059520ACGTTGGATGCCACCACGCCCAGCTAATTTACGTTGGATGAAAGCGGGCAGATGGCTTGA2143118ACGTTGGATGCGTGCCCAGCCTAAAAATTCACGTTGGATGTTCTGCTGGGCATCAGTTAC12126804ACGTTGGATGAATTCTGTGTCTGGTGAGGGACGTTGGATGGCTCCTTGTTCTCCACCATG533276ACGTTGGATGGCCTCTGGAACTGTGAGAAGACGTTGGATGGTGTCTCAGTCATTTCAGGC12402174ACGTTGGATGAATCGCTTAGTGTCTCAGTCACGTTGGATGATGTTTGTTGCCTAAGCCAG2864110ACGTTGGATGATTCCAGCCTGGGTGACAGAACGTTGGATGTGACTGAGACACTAAGCGAT11581873ACGTTGGATGGCAGGAGAATCACATGAACCACGTTGGATGGCAGTAGCTTGATCACTCTC12062449ACGTTGGATGCGCCTGGCCTAATATTTTATACGTTGGATGGTGAGAGATTACTTGAGTCC12033190ACGTTGGATGAGCCCGGGTGAAAGAGCAAGACGTTGGATGATTCATCTGCCTTGACCTC10157566ACGTTGGATGGCTAACACGGTGAAACTCCGACGTTGGATGTCCCGAGTAGTTGGGACTAC486746ACGTTGGATGGAGTAGTTGGGACTACAGGCACGTTGGATGTAACACGGTGAAACTCCGTC11802707ACGTTGGATGAGCCTGACCATCATGGTGAAACGTTGGATGAATTCTCCTGCCTCTTCCTC6668550ACGTTGGATGGCCTAGGTGACAGAAGACTCACGTTGGATGAGCCACAGCACCCAGACTTT7410946ACGTTGGATGTGGTGGTGGGCACCTGTGGTACGTTGGATGAAGCTCCATCTCCCGGGTTC7410970ACGTTGGATGAGTGATTCTTCTGCTTCAGCACGTTGGATGGACAGAGTGAGACTCTGTCT6657558ACGTTGGATGCTTGCAGTGAGCTGAGATCGACGTTGGATGGAGCTACCGAGTCTATGTTC2143119ACGTTGGATGATTTCTAGGACTACCCTGGGACGTTGGATGAGAGTGAGACCCTATCTCCA7514394ACGTTGGATGAGTGTGAGCACACAGGTTAGACGTTGGATGCCCCATTCTCTCCATATCTC11591202ACGTTGGATGTAATTCGCATGATCCTGTGGACGTTGGATGTGAGACCATCCCAAACTTTC6673991ACGTTGGATGTCAGGAGATCCTTCCACTTCACGTTGGATGTAGGGAGACCCCATCTTTACHT014-ACACGTTGGATGGCAATTAAAGAACTCAGCAGGACGTTGGATGATCTTTTGACCTCGTGATCC12034848ACGTTGGATGGTCCTACGTCAGTTCCGCTCACGTTGGATGGCATGCGCGTGGGGAGAAG2502984ACGTTGGATGTGGGAACCACCTTTCATCTCACGTTGGATGTCCACGACCATTGGTGCTAATGGCTG3831910ACGTTGGATGAGGGGAAATATTAAACCCGGACGTTGGATGCTCAAAGGAGCTCCTAATTC11379444ACGTTGGATGAGGGGAAATATTAAACCCGGACGTTGGATGCAAAGGAGCTCCTAATTCTC725119ACGTTGGATGAATTCTCCTGCCTCACCCTCACGTTGGATGTGGCCAACCTGGTAAAACCC10917425ACGTTGGATGGGTCTTGAACTCCTGACCTCACGTTGGATGCGCAGTGGCTTACACCTATA12077788ACGTTGGATGAGGTTCATGCCATTCTCCTGACGTTGGATGTAACACGGTGAAACCCCGTC12077830ACGTTGGATGATTACAGGTGTGAGCCACTGACGTTGGATGGAAGAGGCCTCGATATTAGC2473380ACGTTGGATGCTGTAGTCCCAGCTACTCAGACGTTGGATGTCTCAGCTCACTGCAACCTC2473381ACGTTGGATGAGCTCCAGCTTGTAAAAGCCACGTTGGATGTTGCCTGTCCAAAGGAGAAG11545132ACGTTGGATGGTAACCTGATGGACCCTATGACGTTGGATGACGAGGTGACCATCTGCAAT1046924ACGTTGGATGCCAGCCCTTAGGAAATAAAGACGTTGGATGATTACGAAGCATCTGCCAAC4237ACGTTGGATGGCTGTGGAAATTGGGTCTTGACGTTGGATGTCCACGCACATGGCCACATTAACTGG4375317ACGTTGGATGTGAGTAGCTGGGACTACAGGACGTTGGATGCACGGTGAAACCGTCTCTAC11584220ACGTTGGATGAACTTTACCACCTTCCCATCACGTTGGATGGAATAGGGCATGAAAGCCAG2232975ACGTTGGATGAAGTAGCCTGGCCGACAGTAACGTTGGATGCCAACATGGCAGCTTCTATC2502985ACGTTGGATGAAGTCCCCAAGACTGGACAGACGTTGGATGTCGGGAGGGTCCCGGAGAG3835423ACGTTGGATGAAAGCGTAAGAACTCCACCCACGTTGGATGAGGGCTCGTTTGCAGTCAGT2232976ACGTTGGATGATTCTTTGTGCCCAGGACAGACGTTGGATGAAGAGCAAAACCAGGCACAG2232977ACGTTGGATGTGTCCTGTGCCTGGTTTTGCACGTTGGATGTACCACACATACACCACACG2232978ACGTTGGATGTGTCTGGCCGTGGGTGAAAGACGTTGGATGAACACCATGTCTGTGCCCCT2232979ACGTTGGATGACGTTGGATGAACTCTGCCCACGTTGGATGGAGTATCCTGAGGCCAGCAGACCCCTCC2232980ACGTTGGATGGTGGGCAGAAGTTGGAGGACACGTTGGATGGGAAAAGGATGGGAAATGGG2232981ACGTTGGATGAGAAGTTGGAGGACCTAGGGACGTTGGATGTTACCCTGTGTCTCCAAGTC2232982ACGTTGGATGATGTACTTGACGTGAGGGAGACGTTGGATGTTCTCTTCCTACCACATCGG2232983ACGTTGGATGAGGCTTTTCACAGGTGAGGGACGTTGGATGTGGAGGGAGGAGAGAGAGG2232984ACGTTGGATGGTGGCACCATCTTGGATCTGACGTTGGATGGTGGGAAAAGGACAGGTCAG2232985ACGTTGGATGAGAGGCCTGTGGGAAAAGGAACGTTGGATGGTGGCACCATCTTGGATCTG2232986ACGTTGGATGAGGTGGCTAAGGCCAGGAAGACGTTGGATGCCTTCCTGACCTGTCCTTTT2745ACGTTGGATGCACCCAAAAACCACATGGAGACGTTGGATGTCCACGACTTTGTCCCCACTCTAGAG2744ACGTTGGATGTAATTTTATCGGAATCCAGGACGTTGGATGTCCACGCTGTCTCCATGTGGTTTTTG11546127ACGTTGGATGAGGACCCCCAAGAGTGAGTGAACGTTGGATGGGAAAGCTCTTTCAGAGCAA1049988ACGTTGGATGATAAATGAGTGCCTGGGAGGACGTTGGATGTCCAAGAGTTCATCAGGACC1803613ACGTTGGATGTCCACTGACCAGGAGGCCACGTTGGATGTGGACCCTGTGGAAGATA1803612ACGTTGGATGCCAAGGCTCCACTGACCAACGTTGGATGTGTGGAAGATAAGAGTTAGHT014-ADACGTTGGATGAGCCTCTGGCAGGAACTCAGACGTTGGATGTCCACGTCATGCCTGGTGGGCTAAGC3209973ACGTTGGATGAGCACACACCTCGCCGTGTTACGTTGGATGTTGCGTGCCAAAGCCTGAAG3180545ACGTTGGATGACATCCTGTCCAGCCCTAAGACGTTGGATGTGATGTGGCAGCCTGTTACG3180383ACGTTGGATGTGTCCAGCCCTAAGGCTGCTACGTTGGATGGTGATGTGGCAGCCTGTTAC3177814ACGTTGGATGGTGATGTGGCAGCCTGTTACACGTTGGATGTGTCCAGCCCTAAGGCTGCT3180546ACGTTGGATGGCTAAGCTCCAACTACCTCCACGTTGGATGTAACAGGCTGCCACATCACC3180547ACGTTGGATGGCTAAGCTCCAACTACCTCCACGTTGGATGTAACAGGCTGCCACATCACC11805398ACGTTGGATGGGGATCTGCAAGACAGGAGGACGTTGGATGACTTCTGCTTCTTAAAGAC760941ACGTTGGATGAGAAGGCCTCTGGGAAGAAGACGTTGGATGTCCACGAAAGCTGCTCTGTTGCTGAG3177813ACGTTGGATGAGTGCTGCAGATGGTCCAGGACGTTGGATGAGGTGGGTGAGGTGGGTGG3180548ACGTTGGATGACGTTGGATGAGGTGGGTGAGACGTTGGATGATTCAGTGCTGCAGATGGTCGTGGGTGG3179864ACGTTGGATGGGCCTACCTTCTTCCCAGAGACGTTGGATGGCTATTCAGTGCTGCAGATG3177812ACGTTGGATGACGGGCACAGGCTATTCAGTACGTTGGATGTTCTTCCCAGAGGCCTTCTC3179863ACGTTGGATGGCTCCATAAACCCTGTTCTCACGTTGGATGCCATCTGCAGCACTGAATAG6692104ACGTTGGATGTATGACACAGAGGATGGCACACGTTGGATGTGTTCCCCCTGACTCTCCTT3180549ACGTTGGATGCCTGAATGTCTTTGGCAATGACGTTGGATGTTCCTGGCTCCCACTCCTAG3179862ACGTTGGATGTGGTCCTAGGCTCACCTGTGACGTTGGATGGGAGGCCCTGAATGTCTTTG3177811ACGTTGGATGTCTCCACCTCCAGGTGGCGATACGTTGGATGCTCACCTGTGCCATCCTCTG3177810ACGTTGGATGCCATCCTCTGTGTCATAGTCACGTTGGATGAACTGACCTGATCTCCACCT3180382ACGTTGGATGATCTGGGACGAACTGACCTGACGTTGGATGTTGCCAAAGACATTCAGGGC11546126ACGTTGGATGAAGAACCTGGTGTTCAGCAGACGTTGGATGTAAGGGTTGGTACAACCACC7551384ACGTTGGATGATGTAGGCCACATCATCACGACGTTGGATGAAAACCCTGGGTTCCACCTC12141511ACGTTGGATGAGTTTACACCTAGCGAAGGCACGTTGGATGAAAATGGCAGCACGATTGGG2473382ACGTTGGATGCAGTTTACACCTAGCGAAGGACGTTGGATGAAAATGGCAGCACGATTGGG12038166ACGTTGGATGTCAGCCTCTGCCCATGCCAACGTTGGATGAGTAGCCTAAGTTGGGCGGG6666908ACGTTGGATGCGGGCCCTTTAAGTGCTGACACGTTGGATGAACCCGAGTGACATGTTTCC12041159ACGTTGGATGTTGCAAACTGGACTTCCAGCACGTTGGATGGGTGTGTGCCAAACCATGAA12031592ACGTTGGATGTTCATCACGCAGGATGTCACACGTTGGATGCGACGGCAGGTTAGAAAATG1062598ACGTTGGATGTGTGGAAAGTGGAGAGCTACACGTTGGATGAAATCACATTCAGCGTGGAG11714AGCGGATAACAATTTCACACAGGCAGAGGCACGTTGGATGAGCGTGGAGATTTTCCAGAGCATTTGTGGAAAG3203593ACGTTGGATGTCATGGAGGTTCTTCCCAAGACGTTGGATGTTCCAGAGATGCTGGAGTTG1042436ACGTTGGATGAGAAGTCAGAGAGCAAGGGACGTTGGATGTGGATGGAATCCGCGAGCTG2076343ACGTTGGATGTCATGGTATGCCCTCAACACACGTTGGATGGCTGTCAAGGAAAAAGCCTG12131539ACGTTGGATGAGACAGACAGGAGCTCACAGACGTTGGATGAGCATGGACAGACAACTGTG11583935ACGTTGGATGGGCCCACAGAGGTAAAAAACACGTTGGATGTTTCTGTCTGGCCCTTTCAG12140263ACGTTGGATGACACGCATGGGCATAAGAAGACGTTGGATGTTCCATGTTCCTGGTGTCTC3835225ACGTTGGATGTCAGAAAAGGTCTCCCTGAGACGTTGGATGTCTGCCAGCAGTATCTTTCC2473374ACGTTGGATGTCCCTCATGCTGCCTGAGATACGTTGGATGTCCTGAAGCAGGTGGGAATG2256179ACGTTGGATGTGTCTCGAGCTTCACAGATCACGTTGGATGTCCACGAATCCAGGTGAGAGACATGG974698ACGTTGGATGAGGAGCCTCTCAAACGGAACACGTTGGATGTTTCAGACTGAGCTGGGAAG1018396ACGTTGGATGAGGTGAGTCTGAGGCAAAACACGTTGGATGTCCACGCTGCCATGAAACAGAGAAGC719399ACGTTGGATGTAACTCCCTTGACTGTCTCCACGTTGGATGAATGGTGGACACAGTCATGG719400ACGTTGGATGTAGGTGTCATGGCAGTGGACACGTTGGATGTCCACGCACCCCAGGGATCATGAAAG2502986ACGTTGGATGGGATTGCTTGAGTCTGAGAGACGTTGGATGTCACTCTGTCATTCGGCTAG6679378ACGTTGGATGAGATGTGCAAATGGGCTTCCACGTTGGATGTTGTGATCTGCCCATCTCAG2473375ACGTTGGATGGCAACTTCACTTTTCTGAGCACGTTGGATGTAGCCTCAGTTGCCACAATC2473376ACGTTGGATGGGTACGGCTACAGAAAAGAGACGTTGGATGGTGACTAATCAAGTGCAGAC12136455ACGTTGGATGAATCACTTGAACCCAGGAGGACGTTGGATGTTTGAGACAGAGTCTCACTC2502987ACGTTGGATGAAGTGATTCTCCTGCCTCAGACGTTGGATGTAGTGGATAGAAACCCCGTC11551767ACGTTGGATGGGAAGTAGTCATCTTTGGAGACGTTGGATGCTGAAAACTCTCCTCTATGG11591205ACGTTGGATGACATGGTGAAACGCTGTCTCACGTTGGATGTGAGTAGCTGGGATTACAGG12083298ACGTTGGATGTCTCCTGACCTCATGATCTGACGTTGGATGAATCCCATACGACTGGTGAC12138604ACGTTGGATGGGTTCAAGTGATTCTCCCACACGTTGGATGCAAAAAATTAGCCGGTCGTG12136042ACGTTGGATGAAAAAATTAGCCGGTCGTGGACGTTGGATGACCTCCCAGGTTCAAGTGAT12138606ACGTTGGATGCACCTCCCAGGTTCAAGTGAACGTTGGATGAAAATTAGCCGGTCGTGGTG12136045ACGTTGGATGAGGCTGAGGTGGGAGAATCAACGTTGGATGGTACAGTGGCATGATCTCGG12116596ACGTTGGATGTGAGGTGGGAGAATCACTTGACGTTGGATGTGGAGTACAGTGGCATGATC12138610ACGTTGGATGAATCACTTGAACCTGGGAGGACGTTGGATGTTAGACAGAGTCTTGCTCTG12136069ACGTTGGATGAGACAGAGTCTTGCTCTGTCACGTTGGATGAATCACTTGAACCTGGGAGG12116617ACGTTGGATGATCATGCCACTGTACTCCAGACGTTGGATGCTGTGTCTCTGTGTCTTCAC7540056ACGTTGGATGTGGCTAACACGATGAAACCCACGTTGGATGCCGGGTTCAAGTGATTCTCC12044452ACGTTGGATGCTATCTTTGTGAAGCAGGAGACGTTGGATGTCTAAAACCCTCTATGCCTG2076344ACGTTGGATGGCCCTAGCCCTCAATGAAAGACGTTGGATGCTTCTACTTGCTTCAAAGGC11588187ACGTTGGATGTTCTCCAGTTTCTCTCCCACACGTTGGATGCAATACAGTGAGACTCCATC6696932ACGTTGGATGTTCCGGGTTCAAGCGATTCTACGTTGGATGTGGTGAAACCCCATCTCTAC12025531ACGTTGGATGAGTGAGTGCTTGTTGGAAACACGTTGGATGATAGCAGTAAGCAGAAGCAG6682888ACGTTGGATGAGTGAGTGCTTGTTGGAAACACGTTGGATGGCAGTAAGCAGAAGCAGAAC2982390ACGTTGGATGCCGTGCCTGGCCTTTTTTTAACGTTGGATGAAGATCGTGCCACTGTACTC2179394ACGTTGGATGTAGCAACCTGTTGGGTGGAGACGTTGGATGTGAGTTGCCTCCTCTGACCT2473377ACGTTGGATGTCTGACCTCCTGGAATCATCACGTTGGATGAAGGCAGGGAGCTTAGCAAC2179395ACGTTGGATGTTTGCAAAGGGTGGTCAGAGACGTTGGATGGGGTTCCTCATCTGGCTTTT2502978ACGTTGGATGACACTGTGTGATCCGCTAAGACGTTGGATGGTACATGTTCCAGCTGCTTC2502979ACGTTGGATGACTGTUATTTATCGAGCCCCACGTTGGATGTTCATGAGACAGGGACTTTG6698535ACGTTGGATGATTTGCCAGGCACATACAAGACGTTGGATGAGACAGAATGAGACTGTATC2502980ACGTTGGATGACCTGGTGAAATCCTGTCTCACGTTGGATGCCAGGTTCAAGTGATTCTCC10554242ACGTTGGATGAGTAATCTTCCCGAGGTGACACGTTGGATGTTGTGCTCTAGAGCCACACT6697805ACGTTGGATGATCAAAACGGAGAGAGGCTGACGTTGGATGTGACCGATGGCTCGTCTGGTG6424114ACGTTGGATGTGGCTAACATGGCGAAACCCACGTTGGATGCACCACGCCCGGCTTTTTTT5773058ACGTTGGATGATGCTACACCGTCTGGAAAGACGTTGGATGTTATCTAGGTGTACTTTCTG4649114ACGTTGGATGGCCCTGAGGCAAAGAAAATGACGTTGGATGAGTGAGACTCCATCTCAAAC6424115ACGTTGGATGACCCCACTAATTGGTCACAGACGTTGGATGCAACACAGTGAGACTTCGTC












TABLE 39








dbSNP rs#
Extend Primer
Term Mix


















627451
GGATTACAGGCATGAGCCAC
ACG






12082331
CCGTTCTCCTGCCTCAGC
ACT





2267960
GACCTTATAATCAGCATTGGAT
ACT





7519640
GGCCAGGGTCTGGCGCG
ACT





12086741
CGGCCTCCTCGCCGGAA
ACG





3934189
AAGAACGCGTTTAACTTAAT
ACT





12135415
GTCTCCCGGGTTCAGGCA
ACT





12088267
CCAGGCTGGTCTTGAACTCA
ACT





12084665
CAGGCTGGTCTTGAACTCAG
ACG





550850
AACAGAGTTACAGCAATGTCTA
ACT





557227
GGAGATGGAGTTITGCT
CGT





12137502
GGACAACAAGAGCAAAACTCC
CGT





12118858
GACAACAAGAGCAAAACTCCAT
ACG





2294495
GAATGTTCTGGAAACCA
ACG





12401650
AGCGCCCTCGGGATGCC
ACG





2235541
AAGAAACCTGGAAAGCCA
ACG





520713
CTGTCCTTCTCTTTCTTTA
ACG





550252
GACGGTAATTGGCCTGTATC
ACT





HT014-AA
CTGTAATCCCAGCACTTTGG
ACT





12093683
CACTTTAGGAGGCCAAGGCA
ACT





10917421
CCCAGCTACTTGGGAGGAT
ACG





2744873
TTGGTCTTCATCTTAGTAGT
CGT





12091764
ATTCTCACGCCTCAGCCTC
ACG





HT014-AB
TTGTGTACAAGCACTTTTCCAT
CGT





2076345
CCATGCTTCCGCCAGTAG
ACG





2076346
GAGTTAAAAACTAGTGCTGA
ACT





2473379
TCCCTTGAATCCAGGAGTTC
ACT





6679300
CCAGGCTGGAGTGCAGTG
ACT





11811395
GCCCTCTTACTGTTTTTTTATAG
CGT





8179467
CTAATTGGGTCTTCCAATTTATTT
CGT





8179468
GGGTCTTCCAATTTATTTATTT
CGT





10917423
GAACCACCATGCCTGGCC
ACT





7536699
CAAACCAGTAAACAGCA
ACT





3215497
CCCACCTTTTTGTTTTTTTTTTTT
ACG





1000213
CAAGAGATTAAAGTGCTGG
CGT





1000212
AAGTCCTCTTCCCAAGCCAA
ACG





1000211
TTGGGAAGAGGACTTTGCTG
ACG





1045017
TGTGACTTGGTGCGAAGA
ACT





12059520
CGTTGGCCAGGCTGGTCT
ACT





2143118
CTCAAGTTCAACAGTCATTT
ACG





12126804
GGCCCTCTTCTTGGTTTGCA
ACT





533276
TGCCTAAGCCAGTCAGT
ACG





12402174
TAGTGTCTCAGTCATTTCAGG
ACT





2864110
TGACAGAGTGAGACTTC
CGT





11581873
CACATGAACCCGGGAGGCA
ACT





12062449
ATCTCACTATGTTGCCCAGG
ACG





12033190
GTGAAAGAGCAAGACCCTGT
ACG





10157566
AGCCGAGCGTGGTGGCG
ACT





486746
CTCGCCACCACGCTCGG
ACT





11802707
GGTGTGAGCCTGTAATTCCA
ACT





6668550
GTGACAGAAGACTCCATCTC
CGT





7410946
CGGGAGGCTGAGGCAGGA
ACT





7410970
CGCACACCACCATACCCAG
ACT





6657558
CTGCACTCCAGCCTGGG
ACT





2143119
ACTACCCTGGGGCAGGTAA
ACT





7514394
CTGCATGCGTGGACACAAG
ACT





11591202
GCATGATCCTGTGGATTAGC
ACT





6673991
GAGCCACCATGCTGGGCTA
ACT





HT014-AC
GAACTCAGCAGGCCGGGC
ACT





12034848
TCCGCTCGACCCCACCC
ACG





2502984
CTTTCATCTCCCTAGGCTC
ACT





3831910
ACCCGGTAAGAAGAAAA
CGT





11379444
TATTAAACCCGGTAAGAAGAAAA
CGT





725119
CCAGGCCCAGCTAATTTTTGT
CGT





10917425
CTCCTGACCTCAGGTAATCC
ACT





12077788
CCTGCCACCACGCCCGG
ACT





12077830
TGAGCCACTGCGCCCGG
ACT





2473380
GCATGAGAGTCACTTGAACC
ACG





2473381
GTAAAAGCCAGGCAAAG
ACT





11545132
TCTGCTGGGTTGGCAGATG
CGT





1046924
GGGTAACCTGATGGACCCT
ACT





4237
GGCATCTGGCAGTCATGG
ACT





4375317
GCTCCCGCCACCGCACC
ACG





11584220
ACCTCTTAAGGCCTCGGGT
ACT





2232975
GCCGACAGTACGGAACC
CGT





2502985
TCACTCCCCACCCCCAT
ACG





3835423
GGTGCTCCACGCCCCCC
ACG





2232976
GTGCTGTGTGGGGCTGA
ACT





2232977
CTGGTTTTGCTCTTGAC
ACG





2232978
TGAAAGGGGACCCTTAC
ACG





2232979
AGGTAGCAGCCAAACAG
ACT





2232980
AGTTGGAGGACCTAGGG
ACT





2232981
AGGGGAAGCCTTCCTGT
ACG





2232982
GTGCCTGTAGGAGGGAC
ACT





2232983
GGTGAGTGAGCTGTGCC
CGT





2232984
GGTCGAGCCCCTGTCCC
ACG





2232985
AAAGGACAGGTCAGGAA
ACT





2232986
GGCCAGGAAGGAAGGCCC
ACT





2745
CACATGGAGACAGAAGAC
ACT





2744
TATCGGAATCCAGGACACAA
ACT





11546127
GGCTCTGGCACAAAACCTC
CGT





1049988
GAGGAGGAGGTTTTGTGCCA
ACT





1803613
ACCAGGAGGCCGAGGTCT
ACG





1803612
TCCACTGACCAGGAGGCC
ACT





HT014-AD
TGGAGCTGCTGGGGCCAA
ACT





3209973
CCTCGCCGTGTTGCAGGT
ACT





3180545
CTAAGGCTGCTGTCCACCC
CGT





3180383
CCAGCTCCTCTTGGGCCA
ACT





3177814
CAGCCTGTTACGCCAACCC
CGT





3180546
CCCGTACAAGGTGGTGGC
CGT





3180547
CAGATCCCGTACAAGGTGGT
ACT





11805398
CAGGAGGTAGTTGGAGCTTA
ACT





760941
AAGAAGGTAGGCCCCCCC
ACT





3177813
CTATGGAGAAGGCCTCTGG
ACT





3180548
CCTACCTTCTTCCCAGA
ACT





3179864
CAGAGGCCTTCTCCATA
ACT





3177812
ACAGGCTATTCAGTGCTGCA
ACT





3179863
GTGGGCCAGATCTACAA
CGT





6692104
ACAGGTGAGCCTAGGAC
ACT





3180549
ACTATGACACAGAGGATG
ACT





3179862
CCTGTGCCATCCTCTGTGT
CGT





3177811
GGAGGCCCTGAATGTCTTTG
ACT





3177810
CCAAAGACATTCAGGGCCTC
CGT





3180382
CTGATCTCCACCTCCAG
ACT





11546126
GTGTACGGGAACCCCCAG
ACG





7551384
CCAGACACACATTCCCC
ACT





12141511
AGACAGAACCCCTTCCTGC
ACT





2473382
CTGAGCAGACAGAACCC
ACG





12038166
CCGGTCACTCCTGGCTCA
ACT





6666908
GTGCTGACGGCCCACTC
CGT





12041159
CCTTAGTCCCGTGGGATCG
ACT





12031592
CTAGCTCTACTACTTTTCATTG
ACT





1062598
ATCTGCCAACTCCAGCATCT
ACG





11714
GATGCTGGAGTTGGCAGA
ACG





3203593
GGCCATTTGTGGAAAGTGGA
ACT





1042436
GCAGGGTGGAGCCGTGTA
ACT





2076343
CAGGGAAAACATCAGCATGG
ACT





12131539
CACAGGCAGCTGGTGCCC
ACG





11583935
GACAATTGTGAGGCAGAGAG
ACT





12140263
CAGGGTGACTTTGACAGTTCA
ACT





3835225
GGTGGCTTTCAGACTGGAAC
ACG





2473374
CTGCCTGAGATGGACCC
ACG





2256179
CTTCACAGATCAGAACAC
ACT





974698
CAGATCATCTCCCTCCC
ACG





1018396
GGCAAAACTTCATCCTGATCA
ACG





719399
GTCTCCCCAACACAGAG
ACG





719400
ACTTCCTGCATGACAGCAGA
ACG





2502986
AGTAAGCCGAGATCACA
CGT





6679378
CGGGCACGGTGGCTCAC
ACT





2473375
GATGACCCTTTGGTCATA
ACG





2473376
CGGGACCAAATCATGCA
ACT





12136455
GTGAGCCAAGATCACGCCA
ACT





2502987
GCCTCAGCCTCCCAAGTAG
CGT





11551767
GAGCTGCCTCAGAGCTCTT
ACG





11591205
AAATTAGCCGGGCGTGGTG
ACT





12083298
CGGCCTCCCAAAGTGCTG
CGT





12138604
TCTCCCACCTCAGCCTCC
ACG





12136042
CTACTCGGGAGGCTGAGG
ACG





12138606
CCAGGTTCAAGTGATTCTCC
ACG





12136045
GTGGGAGAATCACTTGAACC
ACG





12116596
TTGAACCTGGGAGGTGGAG
ACT





12138610
GTGGAGCTTGCAGTGAGCC
ACT





12136069
TGTCGCCCAGGCTGGAGT
ACT





12116617
CACTGTACTCCAGCCTGGG
ACG





7540056
GTGGCAGGTACCTGTAATCC
ACG





12044452
TTTGTGAAGCAGGAGTTGTCA
ACT





2076344
CAATGAAAGGCCTTTCTC
ACG





11588187
CTCTAACTTAATCTTTCCACAAAA
CGT





6696932
CCTCCAGAGTAGATGGGATT
CGT





12025531
GTGTAAGTTCCCGAAGGGCA
ACT





6682888
AACAATAGTGTGTAAGTTCC
ACG





2982390
GGAAATGGAGTCTTCCT
ACT





2179394
GTAGGGGCGAGTGATGA
CGT





2473377
TCATCACTCGCCCCTAC
ACG





2179395
GAAAGATGAGAGAGAGATGT
ACT





2502978
CGCTAAGGATCTCAACC
ACG





2502979
GCCCCTATTATGTCCCAGG
ACT





6698535
AAGAGCCATTTACATATTTATTTAT
CGT





2502980
AGCCAGGTGTGGTGGTGC
ACT





10554242
AGGTGACATGGGGAGTTACT
ACT





6697805
CCAGCTTCGGAAGTCAC
ACT





6424114
GCGAAACCCCCGTCTCT
CGT





5773058
CCTGGATAGATTTTTTTTTTTTT
ACG





4649114
TTCTCTCTTTTGTTTTGTTG
ACT





6424115
GGGTACAAACTTTATTTAAAACAA
ACT









Genetic Analysis of Allelotyping Results

Allelotyping results are shown for cases and controls in Table 40. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 40Position inBreast CancerSEQ IDChromosomeA1/A2AssociateddbSNP rs#NO: 5PositionAlleleCase AFControl AFp-ValueORAllele62745121523536215G/AG = 0.753G = 0.7650.6811.06AA = 0.247A = 0.2351208233138523536385G/CG = 0.999G = 1.0000.9132.58CC = 0.001  C = 0.000 2267960201923538019T/CT = 0.734 T = 0.7420.7961.04CC = 0.266  C = 0.258 7519640311223539112C/GC = 0.77  C = 0.778 0.821.04GG = 0.230G = 0.22212086741343723539437G/AG = 0.999G = 0.9990.9791.15AA = 0.001A = 0.0013934189432623540326T/CT = 1.000 T = 1.0000.9480.43TC = 0.000  C = 0.000 12135415452323540523A/GA =A = 0.997G =G = 0.00312088267464523540645A/GA = 0.001A = 0   0.9630.00AG = 0.999G = 1.00012084665464623540646C/TC = 0.875C =    T = 0.125T =   550850583023541830T/CT = 0.906 T = 0.9170.6241.15CC = 0.094  C = 0.083 557227655623542556G/TG = 0.999G = 0.9980.9470.51GT = 0.001 T = 0.00212137502656823542568T/AT = 0.001 T = 0.0010.9891.33AA = 0.999A = 0.99912118858657023542570C/TC = 1.000  C = 1.000 0.9931.10TT = 0.000 T = 0.0002294495935123545351C/TC = 0.781  C = 0.723 0.03420.73CT = 0.219 T = 0.277124016501087423546874C/TC = 0.999  C = 0.999 0.9911.08TT = 0.001 T = 0.00122355411092623546926C/TC = 0.929  C = 0.936 0.7121.11TT = 0.071 T = 0.0645207131146223547462G/AG = 0.997G = 0.9960.960.77GA = 0.003A = 0.0045502521241523548415T/CT = 0.002 T = 0.0010.9690.75TC = 0.998  C = 0.999 HT014-AA1266823548668A/GA = 0.116A = 0.0760.08220.62AG = 0.884G = 0.924120936831388623549886G/CG =G = 0.991C =  C = 0.009 109174211500523551005G/AG = 1.000G = 0.9990.890.12GA = 0.000A = 0.00127448731538723551387A/TA = 0.002A = 0.0010.8990.12AT = 0.998 T = 0.999120917641563923551639G/AG =G = 0.95 A =A = 0.050HT014-AB1576123551761A/TA = 0.344A = 0.4250.01651.41TT = 0.656 T = 0.57520763451696923552969C/TC = 0.672  C = 0.616 0.07380.78CT = 0.328 T = 0.38420763461712423553124T/CT = 0.799 T = 0.8220.4251.16CC = 0.201  C = 0.178 24733791736923553369A/GA = 0.994A = 0.9940.9820.95AG = 0.006G = 0.00666793001752323553523C/GC = 0.003  C = 0.005 0.8541.93GG = 0.997G = 0.995118113951815823554158T/AT = 1.000 T = 1.0000.9941.07AA = 0.000A = 0.00081794671822023554220T/AT = 0.831 T = 0.7340.003760.56TA = 0.169A = 0.26681794681822423554224T/AT = T = 0.099A =A = 0.901109174231853823554538A/GA = 0.793A = 0.8310.1421.28GG = 0.207G = 0.16975366991881023554810G/CG = 1.000G = 0.9980.8840.45GC = 0.000  C = 0.002 32154972028223556282—/T— = 0.549— = 0.528  0.5140.92T = 0.451 T = 0.47210002132049523556495C/AC = 0  C = 0.001 0.908AA = 1.000A = 0.99910002122063323556633C/TC = 1.000  C = 0.999 0.8430.14CT = 0.000 T = 0.00110002112065923556659G/AG = 0.999G = 0.9980.8960.54GA = 0.001A = 0.00210450172160323557603A/GA = 0.368A = 0.3420.4450.90AG = 0.632G = 0.658120595202407523560075C/GC = 0.995  C = 0.992 0.810.60CG = 0.005G = 0.00821431182419123560191C/TC = 0.999  C = 0.999 0.9221.73TT = 0.001 T = 0.001121268042501023561010T/CT = 0.002 T = 0.0050.73.45CC = 0.998  C = 0.995 5332762512423561124C/TC = 0.999  C = 0.999 0.9710.83CT = 0.001 T = 0.001124021742514523561145G/CG = 1.000G = 1.0000.9420.00GC = 0  C = 0.000 28641102522223561222C/AC = 0.001  C = 0.001 0.9951.05AA = 0.999A = 0.999115818732528823561288T/CT = 0.001 T = 0.0010.9910.40TC = 0.999  C = 0.999 120624492608023562080G/AG = 0.999G = 0.9990.9510.73GA = 0.001A = 0.001120331902655623562556C/TC = 0.998  C = 0.999 0.9251.38TT = 0.002 T = 0.001101575662741623563416T/CT = T = 0.006C =  C = 0.994 4867462743223563432C/GC = 1.000  C = 0.998 0.840.36CG = 0.000G = 0.002118027072984123565841A/GA = 0.004A = 0.0040.9761.22GG = 0.996G = 0.99666685502995523565955C/AC = 0.001  C = 0.002 0.9192.07AA = 0.999A = 0.99874109463016023566160A/GA = 0.015A = 0.02 0.7731.32GG = 0.985G = 0.98074109703029423566294G/CG = 0.993G = 0.9970.8142.03CC = 0.007  C = 0.003 66575583103923567039C/GC = 0.019  C = 0.038 0.2272.14GG = 0.981G = 0.96221431193207123568071T/CT = 0.001 T = 0.0020.8879.57CC = 0.999  C = 0.998 75143943369823569698T/CT = 0.624 T = 0.5860.230.85TC = 0.376  C = 0.414 115912023555523571555A/CA = 0.744A = 0.67 0.01420.70AC = 0.256  C = 0.330 66739913665823572658A/GA = 1.000A = 0.9990.9120.04AG = 0.000G = 0.001HT014-AC3772023573720G/CG = 0.069 G = 0.06300.7360.90GC = 0.931  C = 0.937 120348483830423574304C/TC = 0.623  C = 0.799 5.36E−082.40TT = 0.377 T = 0.20125029843900823575008T/CT = 0.197T = 0.160.1450.77TC = 0.803  C = 0.840 38319103998523575985A/—A = 0.152A = 0.01 2.26E−080.05A— = 0.848— = 0.990  113794443998923575989—/T— = 0.144— = 0.146  0.9571.01TT = 0.856 T = 0.8547251194068323576683T/AT = 0 T = 0.0020.892AA = 1.000A = 0.998109174254215823578158T/CT = 0.865 T = 0.8560.6910.93TC = 0.135  C = 0.144 120777884436923580369C/GC = 1.000  C = 1.000 0.9860.79CG = 0.000G = 0.000120778304450323580503C/GC = 0.999  C = 1.000 0.951.83GG = 0.001G = 0.00024733804538223581382C/TC = 0.708  C = 0.709 0.971.01TT = 0.292 T = 0.29124733814617123582171A/CA = 1.000A = 1.0000.9430.32AC = 0.000  C = 0.000 115451324727623583276G/TG = 0.999G = 0.9990.991.06TT = 0.001 T = 0.00110469244729923583299T/CT = 1.000 T = 1.0000.9760.00TC = 0  C = 0.000 42374760423583604A/GA = 0.664A = 0.6120.08970.80AG = 0.336G = 0.38843753174846223584462G/AG = 0.808G = 0.8 0.7990.95GA = 0.192A = 0.200115842205078623586786A/CA = 0.001A = 0   0.930.00AC = 0.999  C = 1.000 22329755105723587057G/TG = 1.000G = 1.0000.9290.32GT = 0.000 T = 0.00025029855131023587310G/AG = 0G = 0.0010.958AA = 1.000A = 0.99938354235199623587996C/—C = 0.112C = 0.1  0.5550.88C— = 0.888— = 0.900  22329765254623588546T/GT = 0.998 T = 0.9980.9841.08GG = 0.002G = 0.00222329775260223588602C/TC = 1.000  C = 0.999 0.8970.27CT = 0.000 T = 0.00122329785272523588725G/AG = 1.000G = 0.9990.8750.09GA = 0.000A = 0.00122329795285823588858A/CA = 0.002A = 0.0020.9820.86AC = 0.998  C = 0.998 22329805293523588935T/GT = 0.001 T = 0.0010.9771.70GG = 0.999G = 0.99922329815294823588948C/TC = 0.999  C = 1.000 0.9731.28TT = 0.001 T = 0.00022329825310223589102T/CT = 0.176 T = 0.0750.0000070.38TC = 0.824  C = 0.925 22329835416023590160C/AC = 0.999  C = 0.999 0.9371.48AA = 0.001A = 0.00122329845479423590794C/TC = 0.999  C = 0.999 0.9770.86CT = 0.001 T = 0.00122329855479823590798T/CT = 0.001 T = 0.0050.7564.62CC = 0.999  C = 0.995 22329865485323590853T/CT = 0.789 T = 0.8310.1521.31CC = 0.211  C = 0.169 27455542223591422A/GA = 0.815A = 0.8330.4721.13GG = 0.185G = 0.16727445546023591460C/GC = 0.964C = 0.95 0.4150.70CG = 0.036G = 0.050115461275564523591645G/TG = 0.999G = 0.9990.9961.03TT = 0.001 T = 0.00110499885566023591660T/CT = 0.003 T = 0.0050.8721.45CC = 0.997  C = 0.995 18036135572923591729C/TC = 1.000  C = 1.000 0.9831.25TT = 0.000 T = 0.00018036125573623591736T/GT = 0.026 T = 0.0390.5391.51GG = 0.974G = 0.961HT014-AD5582123591821T/CT = 0.003 T = 0.0050.8771.44CC = 0.997  C = 0.995 32099735597023591970T/GT = 0.001 T = 0.0010.9612.36GG = 0.999G = 0.99931805455615023592150C/AC = 0.999  C = 0.999 0.9670.78CA = 0.001A = 0.00131803835616723592167A/GA = 0.004A = 0.0050.9321.31GG = 0.996G = 0.99531778145617123592171G/TG = 0.999G = 1.0000.9321.86TT = 0.001 T = 0.00031805465621023592210G/TG = 0.002G = 0.0010.9570.61GT = 0.998 T = 0.99931805475621323592213A/CA = 0.001A = 0.0020.9841.22CC = 0.999  C = 0.998 118053985625923592259T/GT = 0.001 T = 0.0010.9970.95TG = 0.999G = 0.9997609415646123592461T/CT = 0.672 T = 0.6260.1480.82TC = 0.328  C = 0.374 31778135648023592480T/CT = 0.002 T = 0.0010.9470.50TC = 0.998  C = 0.999 31805485648623592486A/GA = 0.001A = 0.0020.8998.26GG = 0.999G = 0.99831798645649923592499A/GA = 0.002A = 0.0010.8480.16AG = 0.998G = 0.99931778125651023592510T/CT = 0.003 T = 0.0020.9250.57TC = 0.997  C = 0.998 31798635654323592543G/TG = 1.000G = 1.0000.9940.64GT = 0.000 T = 0.00066921045682723592827G/CG = 1.000G = 1.0000.9850.68GC = 0.000  C = 0.000 31805495684623592846G/CG = 0.001G = 0.0010.9090.13GC = 0.999  C = 0.999 31798625685923592859C/AC = 0.999  C = 0.997 0.8060.37CA = 0.001A = 0.00331778115687023592870G/CG = 0.002G = 0.0020.9960.95GC = 0.998  C = 0.998 31778105689023592890C/AC = 1.000  C = 1.000 1A = 0A = 0   31803825690723592907A/CA = 0.002A = 0.0010.8770.25AC = 0.998  C = 0.999 115461265776723593767C/TC = 0.001  C = 0.002 0.9032.73TT = 0.999 T = 0.99875513845877423594774C/GC = 0.002  C = 0.001 0.9780.80CG = 0.998G = 0.999121415115944423595444T/CT = 0.001T = 0  0.9910.00TC = 0.999  C = 1.000 24733825945223595452G/AG = 0.999G = 0.9990.9170.55GA = 0.001A = 0.001120381665975323595753A/GA = 0.001A = 0.0020.9076.61GG = 0.999G = 0.99866669086076623596766C/AC = 1.000  C = 0.999 0.9080.50CA = 0.000A = 0.001120411596113523597135G/CG = 0.37G = 0.2640.0007620.61GC = 0.630  C = 0.736 120315926133923597339A/CA = 0.483A = 0.5430.151.27CC = 0.517  C = 0.457 10625986192223597922C/TC = 0.999  C = 1.000 0.8742.87TT = 0.001 T = 0.000117146194223597942C/TC = 0.152  C = 0.143 0.7210.93CT = 0.848 T = 0.85732035936195823597958A/GA = 0.002A = 0.0010.9120.30AG = 0.998G = 0.99910424366206823598068T/CT = 0.001 T = 0.0020.9811.21CC = 0.999  C = 0.998 20763436260123598601A/GA = 0.809A = 0.7370.007470.66AG = 0.191G = 0.263121315396266123598661G/AG = 1.000G = 1.0000.9190.06GA = 0.000A = 0.000115839356288223598882T/GT = 0 T = 0.0010.934GG = 1.000G = 0.999121402636394923599949A/CA = 1.000A =     C = 0C =    38352256473223600732—/AG— = 1.000— = 1.000  0.9970.92AG = 0.000AG = 0.000   24733746514523601145C/TC = 0.001  C = 0.002 0.9531.72TT = 0.999 T = 0.99822561796578023601780A/GA = 0.658A = 0.6020.06930.79AG = 0.342G = 0.3989746986626023602260C/TC = 0.437  C = 0.499 0.05011.28TT = 0.563 T = 0.50110183966708723603087C/TC = 0.447  C = 0.522 0.01881.35TT = 0.553 T = 0.4787193996793723603937G/AG = 0.206G = 0.2060.991.00AA = 0.794A = 0.7947194006819623604196G/AG = 0.901G = 0.9310.1121.49AA = 0.099A = 0.06925029866876723604767G/TG = 0.453G = 0.5180.05051.29TT = 0.547 T = 0.48266793786948223605482T/CT = 0.741 T = 0.6960.1320.80TC = 0.259  C = 0.304 24733757002023606020C/TC = 0.469  C = 0.522 0.1171.24TT = 0.531 T = 0.47824733767275923608759A/GA = 0.002A = 0.0020.9910.95AG = 0.998G = 0.99812136455729112360891 1G/CG = 0.999G = 0.9970.8820.59GC = 0.001  C = 0.003 25029877333123609331C/AC = 0.946  C = 0.944 0.9340.96CA = 0.054A = 0.056115517677425023610250C/TC = 1.000  C = 0.999 0.9220.46CT = 0.000 T = 0.001115912057448623610486T/CT = 0.133 T = 0.1390.8171.05CC = 0.867  C = 0.861 120832987492123610921A/TA = 0.001A = 0.0010.990.52AT = 0.999 T = 0.999121386047506523611065G/AG = 0.682G = 0.6880.8251.03AA = 0.318A = 0.312121360427507723611077C/TC = 0.981  C = 0.978 0.8730.88CT = 0.019 T = 0.022121386067507823611078G/AG = 0.002G = 0.0030.9691.38AA = 0.998A = 0.997121360457509623611096C/TC = 0.705  C = 0.698 0.7950.96CT = 0.295 T = 0.302121165967510823611108C/GC = 0.002  C = 0.001 0.9940.94CG = 0.998G = 0.999121386107512123611121A/GA = 0.586A = 0.5780.7870.97AG = 0.414G = 0.422121360697513623611136T/CT = 0.286 T = 0.2940.7891.04CC = 0.714  C = 0.706 121166177515023611150C/TC =  C = 0.697 T = T = 0.30375400567559423611594G/AG =G = 0.996A =A = 0.004120444527712023613120T/GT = 0.001 T = 0.0550.0064557.90GG = 0.999G = 0.94520763447740723613407G/AG = 0.893G = 0.9010.7071.09AA = 0.107A = 0.099115881877852223614522T/AT = 0.509T = 0.570.06841.28AA = 0.491A = 0.43066969327865623614656T/AT = 0T = 0  1TA = 1.000A = 1.000120255317890223614902T/CT = 0.004 T = 0.0030.9050.67TC = 0.996  C = 0.997 66828887891123614911G/AG = 1.000G = 1.0000.9350.19GA = 0.000A = 0.00029823908130523617305G/CG = 0.487G = 0.57 0.01511.40CC = 0.513  C = 0.430 21793948171723617717A/TA = 0.999A = 0.9970.8590.57AT = 0.001 T = 0.00324733778173523617735C/TC = 0.58  C = 0.546 0.2790.87CT = 0.420 T = 0.45421793958184023617840T/CT = 0.564T = 0.630.05271.32CC = 0.436  C = 0.370 25029788251123618511C/TC = 1.000  C = 1.000 0.980.47CT = 0.000 T = 0.00025029798279023618790A/CA = 0.686A = 0.6290.08050.78AC = 0.314  C = 0.371 66985358332323619323T/AT = 1.000 T = 1.0001A = 0A = 0   25029808346423619464T/CT = 0.948T = 10000.0305CC = 0.052C = 0    66978058547123621471A/CA = 0.687A = 0.7740.003121.56CC = 0.313  C = 0.226 64241148568823621688C/AC = 0.002  C = 0.002 0.9430.69CA = 0.998A = 0.99857730588619623622196—/TT— = 0.547— = 0.491  0.09060.80TT = 0.453TT = 0.509 46491148632323622323T/GT = 0.003 T = 0.0040.9771.08GG = 0.997G = 0.99664241158670623622706A/GA = 0.632A = 0.5910.2130.84AG = 0.368G = 0.4091055424283916-23619916{circumflex over ( )}CACT/—CACT = 0.476CACT = 0.541   0.04581.308392023619919— = 0.524— = 0.459  



FIG. 1E shows proximal SNPs in and around the HT014/LOC148902/LYPLA2/GALE region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1E can be determined by consulting Table 40. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Example 16
DPF3 Proximal SNPs

It has been discovered that a polymorphic variation (rs1990440) in the DPF3 gene is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs1990440) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately 627 allelic variants located within the DPF3 gene were identified and allelotyped. The polymorphic variants are set forth in Table 41. The chromosome position provided in column four of Table 41 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 41Position inChromosomeGenomeDeduceddbSNP rs#SEQ ID NO: 6ChromosomePositionAllele VariantsLetterIupac118462742071471066357g/aaR25269354861471066636t/gaM92932817451471067895t/caR374284019221471068072a/gtY967173921901471068340a/ccM800620825901471068740c/tcY800623026371471068787t/ccY800783628041471068954c/ttY800688928061471068956g/agR801082328951471069045c/tcY801102931091471069259a/taW1064992031851471069335—/aaaN280395633551471069505a/gaR280395736421471069792c/ttY252693438051471069955t/caR967155842361471070386a/ggR252693343311471070481c/gcS280395945091471070659t/ctY252693249591471071109c/taR280396050091471071159g/aaR1243467556761471071826g/agR489943565071471072657g/ccS252693166951471072845c/taR280396167171471072867t/ctY280396271311471073281c/tcY1259063478731471074023c/tcY1132771279221471074072—/ccN280396386521471074802a/ggR1184483498171471075967g/agR11320415102721471076422—/aaN8012752108231471076973t/ccY11623878114651471077615t/ccY11623926116391471077789c/tcY12434442121771471078327t/ccY2526930126041471078754g/acY12435306133631471079513g/aaR10144028134541471079604c/gcS4899436135401471079690c/tcY7140593139231471080073a/caM2107687145071471080657t/caR991882165501471082700c/atK3327176411471083791c/ttY2526928189031471085053t/caR7401336193951471085545a/gaR2526926195271471085677t/aaW994760203691471086519t/caR994759205051471086655g/taM994758205621471086712c/tgR11848404209071471087057a/ttW2526925209491471087099c/taR11844236212781471087428t/ggK2526924213141471087464c/taR2803965219051471088055c/gcS2526923222521471088402g/cgS7152467229411471089091c/tcY11623462235421471089692c/ggS2803966246771471090827c/tcY2526922250091471091159t/caR2526920256181471091768c/taR11848135260821471092232t/ctY11629210261361471092286c/acM2803967264911471092641c/ttY16455288731471095023—/gccgN757655288861471095036g/acY5809581291051471095255—/tctgtaattN3057139291061471095256—/ctgtaattcN2247658295721471095722c/ttY11625609306401471096790c/tcY8005580308011471096951a/gaR8010472309621471097112g/agR2526919316621471097812t/caR2803968343741471100524g/aaR11623943344941471100644t/ccY11623946345011471100651g/ccS1557926345441471100694c/gcS12434611354931471101643a/ggR2526918355941471101744t/gaM5809582359011471102051—/ttN8008279359401471102090c/gcS2803969360641471102214t/ctY2526917361051471102255t/gaM8008774361601471102310t/ccY2803970361611471102311t/gtK8010255363081471102458t/ctY2997642363351471102485a/gaR2803971363651471102515g/aaR11313760364881471102638—/ggN2803972365761471102726g/ttK4903038366411471102791a/ggR2526916369331471103083a/ttW4903040369551471103105c/tcY2803974369671471103117t/atW2803975372431471103393c/ttY2803976383291471104479c/ttY2803977383671471104517t/ggK10139909384761471104626c/ttY722945385101471104660g/acY917069393961471105546a/gtY2803978397031471105853c/aaM2332890398011471105951a/ggR1989638400781471106228t/cgR10679174402601471106410ggg/—gN2526915405131471106663c/taR2526914408891471107039t/cgR11158964410911471107241g/agR11158965418721471108022a/gaR740081421121471108262a/gcY740080422921471108442t/gaM10140582423731471108523t/ccY2526913448771471111027a/gcY4899437451241471111274c/gcS10145678458311471111981t/ctY2107686460301471112180t/cgR2107685462701471112420t/caR2107684463091471112459g/acY7154188465451471112695c/ggS4903041471621471113312c/tcY7159637472671471113417t/ccY6574089490771471115227a/gaR12589753493771471115527a/ggR4899438501261471116276g/ccS4903042503851471116535g/tgK4903043504031471116553a/ttW2803980504221471116572g/aaR10483848508931471117043t/aaW2240344520311471118181g/ccS2286068522451471118395a/gtY11339669525941471118744—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—tN2023479682621471134412a/gcY4903045689121471135062t/ccY4903046697991471135949a/ggR5809588700271471136177—/ggN10220555733351471139485g/a9R2906132740931471140243g/acY11848482741141471140264t/gtK10129954745921471140742t/ccY2526921750611471141211c/taR4903047756831471141833g/tgK11846357758571471142007a/gaR10136385764571471142607g/ccS12588242771301471143280t/aaW11621517779471471144097c/ttY2526910783381471144488c/tgR2526941796261471145776a/gtY2803944804971471146647g/agR12436770805781471146728a/ggR10220279811711471147321c/acM10220280812431471147393g/ccS11844112813211471147471a/ccM12432455826341471148784g/cgS8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11133011471179451t/ccY25361421135131471179663t/cgR112933401136391471179789—/aaN101516201140921471180242c/gcS22868401144321471180582t/gaM80230891146431471180793t/aaW80080091149801471181130g/agR114190891153121471181462—/ttN106946761153151471181465—/tttN25361411153771471181527c/tgR7652471156251471181775c/atK71476261157401471181890t/ctY101326291157471471181897g/agR49030511158901471182040c/ggS111589741172791471183429t/ccY10350211175221471183672c/atK65740931187211471184871t/ggK48994391199261471186076t/ccY71552871199741471186124t/atW71544021202811471186431a/gaR71547811204841471186634g/aaR65740941223971471188547c/ttY101322421227831471188933g/aaR101469591230291471189179t/ctY101474661235351471189685t/ctY116264111241071471190257g/cgS48994401244271471190577c/tcY101445531247381471190888t/ccY116276631253291471191479a/ccM116277991257961471191946a/gaR118517331262651471192415g/agR101403171267681471192918a/ttW80073751273061471193456c/ttY48994411275441471193694g/aaR111589751278091471193959a/ccM114196071278171471193967a/—aN21097931297711471195921c/ggS80231561300611471196211g/cgS101405791303331471196483g/aaR71481991317341471197884t/ctY71469161317871471197937g/aaR19904391326331471198783g/acY65740951352791471201429c/gcS101400371357091471201859t/aaW80072491362081471202358a/ggR19904381370911471203241a/gcY19904371374991471203649t/caR101464841377051471203855a/gaR116273331377261471203876a/ccM71558021379441471204094g/aaR21097921381751471204325t/gcM114293631382241471204374a/—cN80042101393191471205469a/ggR20981941394091471205559c/tgR21097911395971471205747t/gcM113817291404761471206626—/aaN11600941408081471206958c/tgR116280511413631471207513a/ttW101367711416551471207805g/agR101399031427151471208865a/ccM49030531432531471209403c/tcY37428361439111471210061t/caR37428351440441471210194g/acY80032331446701471210820t/ggK116215881449611471211111c/tcY7409811466131471212763g/cgS80194921474131471213563c/aaM80196441474641471213614g/aaR80196461474681471213618g/aaR80196531474791471213629a/gaR114507941474881471213638a/—gN113481931475001471213650—/aaN114507931475271471213677g/—aN112827351475341471213684aagagaagag/—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—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—/caaN65740971956681471261818a/caM96716541956761471261826c/ggS101400241958051471261955c/tcY101424211959981471262148g/aaR101425931960661471262216c/tcY114233721964151471262565—/caN58095921964171471262567—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—tN113440252122371471278387t/—tN114642042124421471278592—/atN114411722124451471278595—/taN113818072124551471278605t/—tN108732512127301471278880g/aaR21097942127461471278896t/cgR108732522128361471278986t/ctY45207842128861471279036g/agR28778202130281471279178a/ttW28778212130291471279179a/ttW45691952130951471279245c/gcS116289052142471471280397a/ccM21918222148071471280957t/caR21918212149211471281071a/ctK114646892151631471281313t/—tN124319592154061471281556g/agR49030682160691471282219a/gaR15445792168491471282999t/caR71558792171301471283280g/tgK124336032171431471283293c/gcS113514322176571471283807a/—aN114484382177251471283875—/ggN42436432184351471284585g/agR41409522187171471284867t/caR80053722188121471284962c/ttY80041092188261471284976t/ccY80083982188721471285022a/ccM80096922188901471285040t/ctY23329212189441471285094c/acS120503202192291471285379a/ggR120503232193001471285450a/ggR80103162197571471285907a/ggR71542932205331471286683t/ctY121479692215341471287684c/tcY22155902216321471287782g/acY42657492222341471288384c/tcY10045522222411471288391c/taR43078922224581471288608g/agR124319732227351471288885t/ggK124319752227491471288899a/ggR7678742231871471289337t/ctY116285972266261471292776g/ccS101293712268651471293015a/gaR49030692275481471293698a/caM49030702276901471293840a/gaR49030712278151471293965g/tgK116222242284561471294606t/ccY104594552290251471295175g/agR93235772290851471295235c/tcY106246482317571471297907ttg/—cN30589532317621471297912gtt/—tN111589812327271471298877t/ggK111589822329551471299105t/gtK111589832333021471299452g/ttK18607502336291471299779t/atW18607492336701471299820g/acY18607482337021471299852a/ctK18607472337151471299865a/gcY114196792358271471301977—/aaN80117772369511471303101t/ctY65740992371571471303307a/gaR80109572373171471303467a/gaR116268952373631471303513g/agR101514312388661471305016t/ggK49030722397891471305939c/acM45894892401701471306320t/ccY96713272404301471306580g/tgK48994462404541471306604c/ttY101445012406881471306838t/atW58095942414141471307564tg/—gN7203172414241471307574a/gaR80143162417411471307891g/aaR111589842417681471307918t/ccY64209062423601471308510c/tcY80040552429571471309107a/taW124348002433551471309505a/ggR42436442435961471309746t/atW48994472436481471309798a/gaR49030732436641471309814g/aaR118486342437831471309933t/ccY48994482438191471309969t/ctY101315642457651471311915a/ggR101341502460891471312239t/ggK7633882464571471312607a/gcY118459382464851471312635a/ggR118459462465361471312686g/tgK118459152465861471312736t/ccY101374632473561471313506a/caM65741002475731471313723t/aaW71403442481731471314323a/ggR106468892489151471315065aa/—aN71462872493441471315494c/tcY10605948250079-2500821471316232cccc/—cNNNN58095952505751471316725a/—aN10350992507011471316851t/aaW71598772512601471317410t/gtK71425792518581471318008g/agR124317622519811471318131g/agR124317642519901471318140g/agR106479992523261471318476agaaagaaag/—aN65741012527271471318877c/tcY65741022529461471319096t/ccY18611622541991471320349t/cgR124329722549851471321135t/ctY101461342553241471321474a/taW101466162556861471321836a/ccM101467692557181471321868a/ggR80189362563211471322471g/agR104838492575621471323712g/aaR21601372588431471324993t/caR21925952588801471325030c/agK21925942590601471325210a/gcY112716952615901471327740tccatatggctgaggagg/—tN107473012620881471328238g/ccS120503632623451471328495c/ggS120503682623681471328518g/agR124329492638581471330008a/ggR74013752639951471330145t/aaW80196822651951471331345g/agR80212482656201471331770t/ctY111589852658331471331983t/aaW104838502663871471332537a/gaR80108752671301471333280a/ggR116268442674681471333618t/ccY9829722676061471333756a/gcY71611982688581471335008t/ctY71603472691931471335343g/aaR80071392699911471336141a/gaR80144832718401471337990c/tcY124370722725921471338742t/ctY80047672733991471339549c/gcS125888302735041471339654a/ggR71584492740501471340200t/ccY65741032741821471340332c/tcY80204782742751471340425c/tcY49030772762931471342443c/ttY80123592766451471342795g/aaR48994492771661471343316a/ggR106902892782901471344440aag/—aN65741042786461471344796g/ttK21105522790221471345172a/gtY80082562790731471345223g/aaR7592832801981471346348g/tcM49991772811001471347250a/ggR23330062811451471347295c/gcS80061782826551471348805a/caM111589862828361471348986a/caM71506252835371471349687c/ttY80077682839761471350126t/gtK80070582841491471350299a/ggRDPF3-AA2847421471350892c/aaM22159012848401471350990c/taR38148662849121471351062t/gaM38148642850911471351241t/ccY


Assay for Verifying and Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 41 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these in Table 42 and Table 43, respectively.

TABLE 42dbSNP rs#Forward PCR primerReverse PCR primer11846274ACGTTGGATGTTCACTGTGATGTGGTTGCGACGTTGGATGAGGAACCACGAAAGAGTGGG2526935ACGTTGGATGCATTGCCTCTTGCAGATGAGACGTTGGATGATGAAAGCTGTGTCAGACTC929328ACGTTGGATGCCACAGAGAAGCTATAGCTCACGTTGGATGAAGCAAAATGCCTGGGCTTG3742840ACGTTGGATGTGCTTGTCAGATCCTAGCTTACGTTGGATGCGGTTATTCCTAATGCTGTC9671739ACGTTGGATGAGCTGCTTGTGGGTTTCTGGACGTTGGATGAGGGAAAAGACCACTGTGGG8006208ACGTTGGATGAAGCAACTTGAAGGCTAGGCACGTTGGATGCAATGCTCTAGGTCCTGTAG8006230ACGTTGGATGATTAAAACCCTTGGCAGGGCACGTTGGATGTGCGGTTTATTTTCCAGCCC8007836ACGTTGGATGAGCTTGGATGGACTCTGTTCACGTTGGATGGAATGGTCAGATGCTTAGGG8006889ACGTTGGATGGAATGGTCAGATGCTTAGGGACGTTGGATGAGCTTGGATGGACTCTGTTC8010823ACGTTGGATGGCTTTCCCAAATGCCATGTGACGTTGGATGTTATCTCAGAGCAGAGGAGG8011029ACGTTGGATGTGATAGATGCTAAGGAGTGGACGTTGGATGATGTTGAAAATGTGCACGGG10649920ACGTTGGATGCTTAGCATCTATCACGGCAGACGTTGGATGTTGCCCTTCCATGTCTACTC2803956ACGTTGGATGTTGCATCCCTTTGATAGCAGACGTTGGATGCCTTCGTTCACCTATGCTTC2803957ACGTTGGATGGGTTCATTAAGTAGGGCGTGACGTTGGATGAGAACAGGAATGCCCATGTG2526934ACGTTGGATGAGTCTGTAGGGTTGTGTTGCACGTTGGATGAGTGGGCCTTGTAGGAAATG9671558ACGTTGGATGACAGAAGCTGGAACAAAGGGACGTTGGATGATTTGGAAGTGAGTGGGTTC2526933ACGTTGGATGAGCTGTCAGGAAACTCTGAGACGTTGGATGGAGTTCCCTGTTCCTTCTAG2803959ACGTTGGATGAAGGAGGGGAGAGGAAGATGACGTTGGATGTCTAAGGCAGTTCCCACTCG2526932ACGTTGGATGCTCTTCCTGCTGTGTGTTGCACGTTGGATGTTCCCCTTCACCTGGTATCC2803960ACGTTGGATGCTCTGCAAAGTGGACAGAGCACGTTGGATGCCTGGTATCCAAAAGCATGC12434675ACGTTGGATGTTTTTAGCCTGTCGTGGAAGACGTTGGATGCTCTGGCCAGAGCCAACTTC4899435ACGTTGGATGAGAACTTTGCTGGGCTTCACACGTTGGATGAACAGGATTTCCACTTCCGG2526931ACGTTGGATGATCCAGCATGGTCTTTGCAGACGTTGGATGAATAGCTACCATGGAGTGGG2803961ACGTTGGATGTCACATGTCTGTAAGGTGGGACGTTGGATGGGCCAGGATCTTTACCAATG2803962ACGTTGGATGGGCTAATGCACACAAGAAGGACGTTGGATGTAAACAAGCACTGCAGAGCC12590634ACGTTGGATGCTTTTAAGCTATTGTGGCACACGTTGGATGCTCCAAAGGCTAATAATTGG11327712ACGTTGGATGAAAGCAGGCTGTCTCCAAAGACGTTGGATGTGGCACTTGGGAACATTTGG2803963ACGTTGGATGTTCCAACACACAGAGTTCTCACGTTGGATGCCAAACATGCAGGACTCTTG11844834ACGTTGGATGTGGAGATCCTAAAGCAGAGCACGTTGGATGTTTCCTTGCAGTTGGTCTGG11320415ACGTTGGATGTCATCTCCACTGCATGTCTGACGTTGGATGAAACTGAGGCACAGTCCAAG8012752ACGTTGGATGGAGGTGTTAGTCACAGAAGGACGTTGGATGATCCTACCCCCATTTTAGGG11623878ACGTTGGATGTAAGTGCTGGGATTACAGGCACGTTGGATGTCCTTTACGTTACATGCCTG11623926ACGTTGGATGACCTGTAATCCCAGCTACTCACGTTGGATGATCTTGGCTCACTGCAACCT12434442ACGTTGGATGCTGCAATCTGATCGTATCACACGTTGGATGTTGTCATGCTAAAACCCGTC2526930ACGTTGGATGTGAAGAGAGCAGGAGAGAAGACGTTGGATGTAGGACCTTCACTTGCCATC12435306ACGTTGGATGAGGGATTTACCCTGGATATCACGTTGGATGATCCAGGAACCAGGAATCAC10144028ACGTTGGATGCTGACCATGTGAGAGGAATCACGTTGGATGT1TGTTGACTTGGCAGAGCC4899436ACGTTGGATGCTGTAAAGCCAAAGACCAGCACGTTGGATGTCATTCCTTCCTACAGCTGC7140593ACGTTGGATGTAACCAAATTCATTTGCCTCACGTTGGATGGTAGAGAGCTACATTTCTTG2107687ACGTTGGATGAAGTGATTCCAGGTCTGGAGACGTTGGATGGGATCCTGAGTCCTTTTGAC991882ACGTTGGATGCTGCACCACAAATACTGTACACGTTGGATGTCTAGCATACGTAGTTTCAG3327ACGTTGGATGGTTTCTGGTCCTTTGTCCTCACGTTGGATGTTTGGCAGCATGTACCACAG2526928ACGTTGGATGCATGTTAAGAAGATATCCCACACGTTGGATGTGATTCTTTCCCTTTGTCAG7401336ACGTTGGATGCTCTAGCCCTAACAATTGACACGTTGGATGCTCATGACTGTATTTGACTG2526926ACGTTGGATGGGCCCATACATTGCAATTAGACGTTGGATGTGGAGGGAAAAGTCTATGTG994760ACGTTGGATGAGGAAGCCAGAAACAACAGCACGTTGGATGGGGCATCAATGTGTTTCCAG994759ACGTTGGATGGACGTAGGGAAAAAAATGGGACGTTGGATGTCTGTTTTGCCCTTGATCTG994758ACGTTGGATGTCATCAACTGGTTACACCTGACGTTGGATGAGATCAAGGGCAAAACAGAG11848404ACGTTGGATGACTTCCTTCTGTAGTCCGTGACGTTGGATGCCTAAAGTATCCATGCCCAC2526925ACGTTGGATGCTTTTAGGATAGACCTGGCCACGTTGGATGACGGACTACAGAAGGAAGTG11844236ACGTTGGATGCTTCTATGTGGCATGGAAGGACGTTGGATGTCTGGGCAGATTCTGATCTG2526924ACGTTGGATGGTCAGTAATTGGCTTTGCCCACGTTGGATGTGGATGACATTCCCAAGTCG2803965ACGTTGGATGCTAATAACCCTCTCAAGGTGACGTTGGATGTTTCAAGAATATCAGCTGGC2526923ACGTTGGATGCCAGCCAGCTTAGGATAACTACGTTGGATGTTCTGTCTAGCACAATGGCC7152467ACGTTGGATGGTACATGTAAAACTAGTCACACGTTGGATGAGCACAATATCAAAACCAGG11623462ACGTTGGATGGAGGAAGGAAGGATGAAGGGACGTTGGATGCCTCCTAACTAGCTTCCTGG2803966ACGTTGGATGTCTTCAAACCCGAAGCAAGGACGTTGGATGTGCTAAGGCCCATCTTAGTC2526922ACGTTGGATGAATGAGACTTCTTACCTGCCACGTTGGATGGAACCTTAGAAACAAGCTGC2526920ACGTTGGATGACACCAAGTTCACCACTGACACGTTGGATGCCCGGATGTTCCTCTAAATG11848135ACGTTGGATGCGTGCATAGAAATTGGCAGCACGTTGGATGTTGAGTGAGAAGGCACACAG11629210ACGTTGGATGGTTTCATATTCACAGCTGCCACGTTGGATGCCTAAAAGGCTGGAAATACC2803967ACGTTGGATGTGATTGAATTAGGGCTCCAGACGTTGGATGAGACCATGCTGATTCCAAAG16455ACGTTGGATGTGATTCTTGCCCCACAACAGACGTTGGATGATTGATGTTGGGCTCTGGGC757655ACGTTGGATGAACAGTGTGTGAAGGTCAGGACGTTGGATGAGCAAATGTCAAGGCTTGGC5809581ACGTTGGATGTCACTGCTGTTTTCCACCAGACGTTGGATGCTTCCTACTGTCCTGAGTAC3057139ACGTTGGATGTCACTGCTGTTTTCCACCAGACGTTGGATGCTTCCTACTGTCCTGAGTAC2247658ACGTTGGATGTGAGTAGCTGGGACTACAGGACGTTGGATGTAACACGGTGAAACCCCGTC11625609ACGTTGGATGCAAGCTGGGCCTTAAAGGATACGTTGGATGTGCCTTTCCCTGTAATGCTG8005580ACGTTGGATGGCAGGGAAAAGAGGAATTGCACGTTGGATGCATGCCTACATAAGAGGCTC8010472ACGTTGGATGTGGATTTAGTGACTGGTCCCACGTTGGATGGAGATGAGTCTGGTGATAGG2526919ACGTTGGATGAGGGAGAAGTATCTGGAGAGACGTTGGATGCATCTGTCACTTGATGGTGG2803968ACGTTGGATGGGGAACACTTCTGTCCTTTCACGTTGGATGTGAGAGGAGCACAAAAGACG11623943ACGTTGGATGATTGAAAGGAGCCAGTGAGGACGTTGGATGGGAAGGATCCCCTTTTTGTC11623946ACGTTGGATGATTGAAAGGAGCCAGTGAGGACGTTGGATGGGAAGGATCCCCTTTTTGTC1557926ACGTTGGATGAAATCGGGAGGTGGAGAATGACGTTGGATGACAATCGAGACACCCACAAC12434611ACGTTGGATGAATCTGACCTCCTTTCAGGGACGTTGGATGTAATGTCTGCCCTGGGTATG2526918ACGTTGGATGGTATGCAAACTCTAGACCAGACGTTGGATGCCAATCTGCATGGATAAGAC5809582ACGTTGGATGAGAGTGAAACCCTATCTCTGACGTTGGATGGGTCACATACTTCTGTCTTC8008279ACGTTGGATGTCAGAGATAGGGTTTCACTCACGTTGGATGGGTGCAGTGAACCAAGATTG2803969ACGTTGGATGAAAATTAGCCAGGCATGGTGACGTTGGATGAATCCTTCCTCCTCAGCATC2526917ACGTTGGATGATCCCTTCTTACCAGCTTGGACGTTGGATGTACAGGTATGTGCCACCATG8008774ACGTTGGATGAGGAATGGGTTGATGCCTTCACGTTGGATGCCAAGCTGGTAAGAAGGGAT2803970ACGTTGGATGCCAAGCTGGTAAGAAGGGATACGTTGGATGAGGAATGGGTTGATGCCTTC8010255ACGTTGGATGCTTTTCTGTGGTATGGTGGGACGTTGGATGTAGCATTGCAAGCCTCTTTG2997642ACGTTGGATGGCCACAGCTGCCTTTTTAAGACGTTGGATGGTGGGATGCGGCAAATACTT2803971ACGTTGGATGAGTGAGAGACCTTTGTGTGCACGTTGGATGCCCACCATACCACAGAAAAG11313760ACGTTGGATGCTCACTATCTCTCAACTCCCACGTTGGATGATGGGCCCACTTTTGTGTAG2803972ACGTTGGATGTGCAGTCCCTAGGTCAGATCACGTTGGATGTACACTCCGGCTACACAAAA4903038ACGTTGGATGACAAGATCCCCAGGTGATTCACGTTGGATGAGAGAGTGAAGACTGAGTGG2526916ACGTTGGATGTTCTCTACCCTCTAACGCAGACGTTGGATGTTAGTGGCTGCAGAGCTGTA4903040ACGTTGGATGACCAAAGTCCTGGGAGGATGACGTTGGATGACTCATGGGCTTGGAGTCAG2803974ACGTTGGATGATCTGCTTACAGCTCTGCAGACGTTGGATGTCTGGATGCACTTCGTAAAG2803975ACGTTGGATGCTGATGACTACTGCTTACCCACGTTGGATGCTGGGATGTGTGTTTGAAGG2803976ACGTTGGATGGCAACCTAATTAGATTGCACCACGTTGGATGTTGGCTCAGGTATATTCCTC2803977ACGTTGGATGAGCCCCAGAACAAGCATTACACGTTGGATGCTCGTGATTTTTGGCTCAGG10139909ACGTTGGATGTTTATTGAGGGCAGTGAGGCACGTTGGATGTATGGTGAGAAGTGGTACTG722945ACGTTGGATGTTCTTTAATCTCGCCAGGAGACGTTGGATGATAGGTGCATGAGCAGTGAC917069ACGTTGGATGGCTTGTTTGTATGCTGGCTGACGTTGGATGCCTGAGAATTTTGCTCCTGC2803978ACGTTGGATGTTATGTGGACTCACTTCCCCACGTTGGATGCAGAAAGAGGTTCATGCTGG2332890ACGTTGGATGTTGTCATGGTGGTTGGGAACACGTTGGATGTGGGATGAGGATTTTCCCAC1989638ACGTTGGATGAGAGTGAGGACAGAGAGAAGACGTTGGATGCCCTTCTTCTCTGTATCCTG10679174ACGTTGGATGAGCGCCTCATAAAGTTGTAGACGTTGGATGCTCAATTGTCTCACTCATCC2526915ACGTTGGATGTTCCCAGTGCTTGTTTCCTGACGTTGGATGGGCAGAGACAGGATGAAAAC2526914ACGTTGGATGATAAAGGCCCTCCCTGAATGACGTTGGATGGATCCTCGCCTTTAACTCTG11158964ACGTTGGATGGAAGGAAACAGACAGCAGAGACGTTGGATGAGAAAAGAGACTGGATAAAG11158965ACGTTGGATGGGGCTGCTCCTTCTTCCTGTACGTTGGATGTTCTGATGTGCATTCATCCTT740081ACGTTGGATGACTTTCTTCTTCCATCCCCCACGTTGGATGAGCCTCTCTAAGAAGTGCTC740080ACGTTGGATGTCCCCAGATTTCTTTGCCTCACGTTGGATGTGGAGGTGGAATCTCCTTTG10140582ACGTTGGATGACGTTGGCTGGCTGTGAGACACGTTGGATGAAGAGGCAAAGAAATCTGGG2526913ACGTTGGATGGCAAGAGTGGGAAATACCTGACGTTGGATGATTCACGCTCATCTCTGCTC4899437ACGTTGGATGTCCAGAACAGAAAAGGTGCCACGTTGGATGAAAGGCAGTGGTGATTGCTG10145678ACGTTGGATGTCTGCTTCAGAAAAGAAGTGACGTTGGATGGGTACAATCCTTGCTACTTC2107686ACGTTGGATGGAGGTCATTCAACCAAAATCACGTTGGATGACATCATCTTTGGTGCATGG2107685ACGTTGGATGTGTCTTGCCACTGCATTCACACGTTGGATGCTGAAGCAATGTCTCAAGCC2107684ACGTTGGATGGTCAACAAAAGGCTTGAGACACGTTGGATGGGAGAAGATTAGTTTCACGG7154188ACGTTGGATGCCCCAACTCTATGCAAGAGAACGTTGGATGCAAGCAGTTCTTTTGACACC4903041ACGTTGGATGGAAAGATCAGGTAACCAAACGACGTTGGATGGAGGAGAAAGAGTCTTCAAAC7159637ACGTTGGATGCCAAGTTCTACCCTGTGATCACGTTGGATGGAAGACTCTTTCTCCTCCTG6574089ACGTTGGATGGGTTCTAGTTACATGGAGTGACGTTGGATGGATGACCAGTTGTCTATTAC12589753ACGTTGGATGAGTCAGGATACTGCTAGAGGACGTTGGATGGGCATGCCTTGTTCAGATTC4899438ACGTTGGATGTATCTTTGGGCTGCTCACAGACGTTGGATGCATCCTGGATCTCCTCTATC4903042ACGTTGGATGCCGCATTTAGCTTATCCACGACGTTGGATGGTCACTATAGGAAGTGGGTG4903043ACGTTGGATGCCGCATTTAGCTTATCCACGACGTTGGATGGTCACTATAGGAAGTGGGTG2803980ACGTTGGATGTCATTGCATGTGTAAACCGCACGTTGGATGTATAGGAAGTGGGTGATGTG10483848ACGTTGGATGAAAAAAACCCTAAGGAGGGCACGTTGGATGCGTTATGCCTTGCATTATGG2240344ACGTTGGATGAACACTGTGACTCAAGGACCACGTTGGATGTTTCCCTCCCTTGTAAGCAG2286068ACGTTGGATGAATTCAGTTGCTGGTGGGAGACGTTGGATGTACATCCCATCGGCCAAAAC11339669ACGTTGGATGATTCCTTCCTGAGCTAGACCACGTTGGATGAGGCAAGCCCCTTTTATCTG3854ACGTTGGATGCTCTAAAGAAAAATGCCCCACACGTTGGATGTAAAAAGCCTGAGAGAGCAG11463ACGTTGGATGGAACACAAACAAACTGATGGACGTTGGATGACTTTTGAAGTAGGAGGTAC1383ACGTTGGATGAATCAGGGTAGTGTGTCCAGACGTTGGATGTAGCAACTGACCTGCCCTAT1381ACGTTGGATGTAGCAACTGACCTGCCCTATACGTTGGATGAATCAGGGTAGTGTGTCCAG1377ACGTTGGATGAAGAGATCAGCCAGGAATAGACGTTGGATGTACACCACCTGGGAATTGAC11158966ACGTTGGATGGCAGAACTGGGTGTTAGCAAACGTTGGATGTAAAGGTCCTTTCTGGGGTG11158967ACGTTGGATGTTCCCCTCCACTTAGAAACCACGTTGGATGTTTCTACTTGGATGGCAGGG11158968ACGTTGGATGTAAAACACCCCAGAAAGGACACGTTGGATGGGCTGAATTGGTTCTATACC11158969ACGTTGGATGTGATGTCATCTCTCTCCCTGACGTTGGATGCAAATGAGGCATCTGATGGG11158970ACGTTGGATGGGTATAGAACCAATTCAGCCACGTTGGATGAAGGAAGCAGTGTCCTTTTG11158971ACGTTGGATGTGGAACTGGTCTCTTGGTTGACGTTGGATGTCACAAGCACTCACACTCAG11849782ACGTTGGATGTAAGCTGAGCGATAAGGGAGACGTTGGATGGAGCTTTTTTCCTTGCTGGC10137616ACGTTGGATGTTATGGCACACTGGTGTCAGACGTTGGATGAACAGATGGCGTGTTCCTTG757572ACGTTGGATGTCCTATCCTTGACAGTGCTGACGTTGGATGACCTCGGTTCATTTGGCAAC10140566ACGTTGGATGTGTTGTATCCTTCTCAGTGCACGTTGGATGAAAGGCCAAATGTCTGAGTC2023480ACGTTGGATGAACAGCATCCAAGCCTGAACACGTTGGATGCCATGTCCTCTTACAAGTCC2526911ACGTTGGATGGGTGTCTTTGATCTGGTGTGACGTTGGATGAATVCACACAGGGAGCTGAG4903044ACGTTGGATGCCTAACAGATGAGTCTGCTCACGTTGGATGCCCAGTATACCTCCTGTTAC11845162ACGTTGGATGCATCCCTTTAAGGGTTCCTGACGTTGGATGCCCTCCAGTGCTGTATAAAG12147210ACGTTGGATGTTACTGAGCTGAGGGCAAAGACGTTGGATGACACACCTTTCTGTTGTTGC2997643ACGTTGGATGTGTCCTTGGTTTCCAACCACACGTTGGATGCCCAGAATAATGCCTCACAC2997644ACGTTGGATGAGTTAAGTTGGAGGGACTGGACGTTGGATGTCTTCTCTCGGAGCTTCCTT3814867ACGTTGGATGATCCCTGCATTTGGAAGTCGACGTTGGATGCGTCAGTAGAGCTGCTGTTT2286067ACGTTGGATGACCGGGTTAATCCCTTTGGTACGTTGGATGTGGGTTAAGCAACAGACAGC1060570ACGTTGGATGAAGCCTCTTCCCTGGAAATGACGTTGGATGGCACACCAAAGGGATTAACC2332891ACGTTGGATGGATCTGCATCCACATACATGACGTTGGATGTAACCGATACCTGGGCATGG2021736ACGTTGGATGCCCTAATAAATCAGAGCATCCACGTTGGATGTTATACAAGAGCAGTCCTGG7160830ACGTTGGATGTCAAGGGTGGTCCATTTGTGACGTTGGATGTGTCTTCTACGCTAGCATCC2526909ACGTTGGATGAAATGACCTCCCATCAGTGCACGTTGGATGCATTGGGAACAGTGCTCTTG7140963ACGTTGGATGTAGAAGCCTGGGTCTAGTTCACGTTGGATGGAAGTCCAGACCCATTGATC10143667ACGTTGGATGAATAGCACCTGTCCTTATGCACGTTGGATGGGAAGTATTTCTCTCCATGC2803981ACGTTGGATGGGGAGCTGCAATTCAAGATGACGTTGGATGCCTCATGACGTATGAGGATG768840ACGTTGGATGAAGATGTGCCTTTGCTCCTCACGTTGGATGTAATGGACTCACAGTTCCAC5809587ACGTTGGATGACTGTGCCACCCACTAACATACGTTGGATGTCTAACCCGTTGTTGGAACC2023479ACGTTGGATGGCAGTGAATGATATCCGGTGACGTTGGATGGTGACTTTAGAGAGGGATGG4903045ACGTTGGATGGCTTTGGGCTTCGTAAATATCACGTTGGATGAAACACTTTGCAGCCATACC4903046ACGTTGGATGTCCATAAAACTACCGCCCAGACGTTGGATGCCTGCCAGTCATTCTTTCTG5809588ACGTTGGATGAGGGCCTGGTGTGCACAAATACGTTGGATGTCCAGAAATGGAGCTGCTCA10220555ACGTTGGATGTGACTCTCAGCACCAACTTCACGTTGGATGAGACCTGAGGATTTGGAAGG2906132ACGTTGGATGGGCTTTAATTGGTGTGACAGACGTTGGATGATGGCATCTATCTCATAGGC11848482ACGTTGGATGATGTCACCCGGAAGTCATTCACGTTGGATGCCATATGCCTCATGGATCAC10129954ACGTTGGATGCACTCTCATGCTCTCAACACACGTTGGATGCAGATGCAAAACACAGACCC2526921ACGTTGGATGAAAAGCTTGAGCCTGAAGTGACGTVGGATGAGAGAGGGAGAAAATGTAGG4903047ACGTTGGATGAAATTCCATCGACTGGGTGGACGTTGGATGCCTTGATCTTGGACTTCCAG11846357ACGTTGGATGTTAAGGGACATCGGTAGGACACGTTGGATGATGTCAGGACTTTGGAACCC10136385ACGTTGGATGAAGCCATTGCCCTAGGATTGACGTTGGATGTTAGGCCCAAAATGCGAGAG12588242ACGTTGGATGACTGGAAGATGGCAGATTGCACGTTGGATGTCTACATCCTTGACCCTGTG11621517ACGTTGGATGAATTTCCCTCTTAGGAGCTCACGTTGGATGCATCTGTTTGGAGTCTTATTG2526910ACGTTGGATGTTAGGACTACTGCATTAGGGACGTTGGATGTCCTTCTCATTCTCCAATGG2526941ACGTTGGATGAATCCACTGCCACTCCTGATACGTTGGATGTGAGAGACTGAGGGAGAAAC2803944ACGTTGGATGCCAGAATCCTCACAAACACCACGTTGGATGCCCACTAGCAAAACTGGGTT12436770ACGTTGGATGTCTGGAACCTTCTTCGTGTGACGTTGGATGGCCAAGGGTTTAAAACCTCC10220279ACGTTGGATGCACATATGCACATGTGCACACACGTTGGATGGCGTGTGTATACGTGTTGTG10220280ACGTTGGATGTGTAGCCTCATTATGAGCCGACGTTGGATGCACAACACGTATACACACGC11844112ACGTTGGATGTCCTTTATTCATGCCCTGGGACGTTGGATGAATGAGGCTACAGGAGAACC12432455ACGTTGGATGATAAAGAACACACCTGTGGCACGTTGGATGAGAAGGCAATATTACGAGGG8015338ACGTTGGATGCACACATTCGAAATGCCTGCACGTTGGATGCCCCTCTACAACAAAACCAC3832969ACGTTGGATGATGTGCTGTAGTGTGTTGGCACGTTGGATGATTGCTAAGCCTAGGGTTGG9671972ACGTTGGATGGGTGGATTTAGTGTTTCACTGACGTTGGATGGCAGGAATAAGAAGAACTAC9671975ACGTTGGATGGTTTAGAACGATGTATCTGGCACGTTGGATGAGATGCTGAAAGGGTAGTTG7159986ACGTTGGATGATAGTCACTGGGTCACCAACACGTTGGATGAAGAGGGACTTTGACCCTTG11848220ACGTTGGATGATTCTCTCTTCCTCTCTCTCACGTTGGATGCCTGAGTCACATGGAATTAAG5016369ACGTTGGATGAATGGAGTTGTCCAGAACAGACGTTGGATGTCACTGTTGCTTAATCACAC1986423ACGTTGGATGATACAGAACCATTTTGTGGGACGTTGGATGAGCTTAATGTGGGTAGAAGG2332909ACGTTGGATGCAGAACCATTTTGTGGGAAGACGTTGGATGGAGCTTAATGTGGGTAGAAG8013337ACGTTGGATGTGCACAAGTCCTCATTGTTGACGTTGGATGGATTGTAGGGCAGAATATGG11445680ACGTTGGATGTGTATGCATCTCTCCCACTGACGTTGGATGTTGAGCACCTGCCACAAGTG4903048ACGTTGGATGACTTGAAGCACTTGGAGTGGACGTTGGATGAATGACACCACCAGTCACAG12434793ACGTTGGATGGCCAGTCAAAGCAGGATTTCACGTTGGATGGAGGAAGAGTGAAGACTTCC2332910ACGTTGGATGATTGGGAAGTGGGCAAACACACGTTGGATGTTGCCTTCTCTTTCTCCTTC4410017ACGTTGGATGTTGCTCTCGGCAAGAAGGAGACGTTGGATGTGTATAGCACAGTGCCCAGG4577019ACGTTGGATGTTGCTCTCGGCAAGAAGGAGACGTTGGATGTGTATAGCACAGTGCCCAGG2332911ACGTTGGATGTACTTCCAAAAGCCACCTGCACGTTGGATGAAAAGCCTGGCCAGTTGAAG4996747ACGTTGGATGTACTTCCAAAAGCCACCTGCACGTTGGATGAAGCCTGGCCAGTTGAAGTG10140820ACGTTGGATGTTCCTATCACAGTTGAGGAGACGTTGGATGAGTCCTTTGCATTCTAGCAC12431623ACGTTGGATGGACAATCCTAGGGACATCTCACGTTGGATGTCATCAGGCTTCAGGCTTTC6574090ACGTTGGATGTTGCAGTAGGGTTTGTGCTCACGTTGGATGATCACTCGCATTACCACCTG8008750ACGTTGGATGTTGGGTACTGTGGCTCTAAGACGTTGGATGAGCATGTGGGTAGGGAGATT11627420ACGTTGGATGGTGAGCACTGAAGGAACAGGACGTTGGATGTGCACTCTCTGACACAGCAG10150185ACGTTGGATGCTAGTTCTAGATCCCTGAGGACGTTGGATGAAAGCACTGCCCCTGTAAAC10150218ACGTTGGATGGCACACAGAAGACGACTAAGACGTTGGATGGTTCCTGATGTATCACTGAG9646164ACGTTGGATGCCTGATGTATCACTGAGTGGACGTTGGATGGCACACAGAAGACGACTAAG6574091ACGTTGGATGAGCTTGAAGCGAAAAGCACGACGTTGGATGCAGGGAGAGTTAGATGACTC2332912ACGTTGGATGTACACACCCTAAGCACCTACACGTTGGATGAAGGGAAGCAGTGTAGGAAG7155359ACGTTGGATGCAAGCAAACTCTCTATCACCACGTTGGATGTTGCTCCAAGCTTCCTTTGC2332913ACGTTGGATGAGCCACCCATTTTGCAAAGGACGTTGGATGATTTAACCCTTCCTGGAATG4544184ACGTTGGATGCCCCTTTCTGGGTTTATGTGACGTTGGATGTTGGAGCAAGAACACACAGG4337224ACGTTGGATGATTCCCTTCCAGGTCTACACACGTTGGATGTATGTCCGCTGCTCTTTGAG2332914ACGTTGGATGGTGCTGCCAAAAGGCATCAGACGTTGGATGGTAACGTCTCCACCCCAAAG4280167ACGTTGGATGTGACAGTAAGTATGGGCCGGACGTTGGATGAAGGAAGCACAGGGAAGAGG4903049ACGTTGGATGGGCTTCAGTCCTTTGGTTTGACGTTGGATGTTGCTCACCTGTATCACCTC3742837ACGTTGGATGAGTGAAGCTAGGAGGCTAAGACGTTGGATGAGCTGTACTGAAAAGCCCTC10139937ACGTTGGATGAGCCCTCCTCTACCAAATTCACGTTGGATGAGTGAAGCTAGGAGGCTAAG12434292ACGTTGGATGTGCTCCTTAGCCTCCTAGCTACGTTGGATGTACGTGCATCAGCTGGTCTG11620671ACGTTGGATGTCAGGACTGTCTGGCTCTTGACGTTGGATGTATCAGGAGCAAGGCCTGAC10140184ACGTTGGATGAGACAGTCCTGACATCCAGGCACGTTGGATGTACTGAGTAGGCCAAGCATG2332915ACGTTGGATGTCCTCAGCTTGTCTCTCTCCACGTTGGATGTCAACTCTGAGTAATGAGGG2332916ACGTTGGATGACATGCAAGGGACTCTTCCTACGTTGGATGAGGCCAAGTAGGATTCTGAG8012759ACGTTGGATGACTCAGAATCCTACTTGGCCACGTTGGATGAGGGTGTGAGTGGATGTAAG10149272ACGTTGGATGGATGTGTTGAGTGCTTCCTGACGTTGGATGGCTGTTGAGAGAGTTTGAGC11158973ACGTTGGATGTCCTTGAGGGCAAAAATGGCACGTTGGATGTGCAAAAGAGCTTTGCACGC4903050ACGTTGGATGAGAGGAATGAAGTAGGGTGGACGTTGGATGGTCTCCAGGCTCTGTTATAG10666445ACGTTGGATGAGGAAGAATGAAGGAGGGAGACGTTGGATGATGGCAGGGACTTAGCATTG2536143ACGTTGGATGAAGACCCTTGACTAGGACAGACGTTGGATGTGGGCCACACTGTTTGAGAA10638231ACGTTGGATGTGAGAACCACTGCTCTACACACGTTGGATGATGACAGAGTGACTCCGTCT12431636ACGTTGGATGAGTGCAGTGGCTCAATCTCGACGTTGGATGCTGAGGCGGAGAATCACTTG8005904ACGTTGGATGCCAGGATGGTCTCAATCTCCACGTTGGATGACGGTGGCTCACACCTGTAAT11621058ACGTTGGATGTCCCAAGTAGCTGTAACCAGACGTTGGATGCAACATGGTGAGAACTCATC10133224ACGTTGGATGAGGGCTAAGGTAGGGATTACACGTTGGATGAGTGGTAGAGCTGGAATTTG12433185ACGTTGGATGTGCACTCACAGCCTCAGTTCACGTTGGATGGAGGCCCCCATCTCTAAAAC740974ACGTTGGATGTGAAGAGGACCATTTCCCACACGTTGGATGAAAGAGCTGTGCATGTCCAG740973ACGTTGGATGAAAGAGCTGTGCATGTCCAGACGTTGGATGAGGACCATTTCCCACACTTG740972ACGTTGGATGAAGGAGACTTTCGAGCTTGGACGTTGGATGAAGGAAAGCAAGTGGGTCTG740971ACGTTGGATGTTTGGGAGTTCACCAAAGGCACGTTGGATGAAACTGGCCTAGACCCATTC4243642ACGTTGGATGTACAGAAGAGGTATGCTGTGACGTTGGATGTAGTCCCTTATCATTTCCCC4415952ACGTTGGATGGCCTGGGAACTTGCTTCTAAACGTTGGATGAGGACCCCACTCAGAAATTC2215589ACGTTGGATGTAAGTGCTTATCCGTGGGAGACGTTGGATGCTGGAAAATGGACTCTCAGG4343211ACGTTGGATGAAGGGCATGTGACAATAACCACGTTGGATGCTGAGAGTCCATTTTCCAGG2536142ACGTTGGATGTTTTTCCCCTCTGCCCTTCCACGTTGGATGTCTGGAGGCTTGAGACCATC11293340ACGTTGGATGCTACCCCGGCAAACTTCTTTACGTTGGATGACCCGTACATTGTGCACATG10151620ACGTTGGATGTCTGAACTCTTCCAGGCTACACGTTGGATGGGCCATGGTCTTACATGGAG2286840ACGTTGGATGAACTCCAGACAGCATTTCAGACGTTGGATGAGGGAAAAACCATCAGAGAG8023089ACGTTGGATGAAGAGACTATGCTGGTAGGGACGTTGGATGATTTCTGAGGTGGCCCTTTG8008009ACGTTGGATGATCTGGAGCACTCAAAACTGACGTTGGATGCCAGTCACATTGCAACATAG11419089ACGTTGGATGAAAGTGAGTCCCTGTCTCAGACGTTGGATGACAATGGGAGTAGGAAAAGA10694676ACGTTGGATGAAAGTGAGTCCCTGTCTCAGACGTTGGATGACAATGGGAGTAGGAAAAGA2536141ACGTTGGATGTGAGGTGGGAGGATCGCTTAACGTTGGATGACAGGGACTCACTTTATTGC765247ACGTTGGATGGAAGAGATGATGACTTGCCCACGTTGGATGATGCAGATGAGCTACCACAC7147626ACGTTGGATGTTTGCAGCTTGCCTAGCATGACGTTGGATGCTTCATCCTTCAGTTTCCCC10132629ACGTTGGATGTTTGCAGCTTGCCTAGCATGACGTTGGATGCTTCATCCTTCAGTTTCCCC4903051ACGTTGGATGGTCTAGGAAAGGGAGAACAGACGTTGGATGAAAACTCCCTCCTAACACCC11158974ACGTTGGATGTTTGTAGTTGGACACCCCACACGTTGGATGAGCTTGTTTCAGACCTCAGG1035021ACGTTGGATGCATGGAGAGGAGATTGGATGACGTTGGATGATCTCTGGCCTGGAATACTG6574093ACGTTGGATGACATACCCAGAGCATCAAGGACGTTGGATGCAAGGTCTGTCATCTCTGTG4899439ACGTTGGATGAGAATCTCCTTCTGTTCCTCACGTTGGATGATGAAGAAGGTGAGGGTGAG7155287ACGTTGGATGAGTGTACATCCGGGGAAATGACGTTGGATGGAATCTCCTTCTGTTCCTCC7154402ACGTTGGATGGCCATGAAAAGACATGAAGGACGTTGGATGCCAGGATGTCATATACTTGG7154781ACGTTGGATGGTTCAAAGTCTGCATGACGGACGTTGGATGGTGGACAGATGCCATTACAC6574094ACGTTGGATGATGGTGACAGGAACACTCTGACGTTGGATGAGAAGAAGGTGGATGCCAGG10132242ACGTTGGATGTTGTCCGATGTCATGGCTGGACGTTGGATGAGCTGAGCCAGAGCAGAAAG10146959ACGTTGGATGTGAACTAGCTTTTCATGGAGACGTTGGATGTATCCCAGCTCTTGTCTGTC10147466ACGTTGGATGGGTGATAAAGTAAGACCCTGACGTTGGATGTGACAGAGGGTTGGTGTGTT11626411ACGTTGGATGTTGTTTCTTCCCTTGGTTCCACGTTGGATGAAGAACCTGGAGATAGCACC4899440ACGTTGGATGTACCTGCACTTTCCACTTCCACGTTGGATGTTTAATGGATGCCCGCTTGC10144553ACGTTGGATGGTCTCTTTGGACTGTAAGCCACGTTGGATGTAGGGACATAGGAGGTGAAC11627663ACGTTGGATGTCAGCTGCATTCTCATCCTGACGTTGGATGTTTTGTAGATGCGTCACCCG11627799ACGTTGGATGTGGTCCTTCCTTGAAAAGTCACGTTGGATGTCCTCAGTTAAAGATCTGCC11851733ACGTTGGATGTCTGAAGGCAGAACCTATGGACGTTGGATGGGTCACAGAGACATGTAGTG10140317ACGTTGGATGCCAGACTTTGAAGACAATGCACGTTGGATGAAGGAAGAAAGTCAGGTGTC8007375ACGTTGGATGCCCTTGCACAATGTATGTCCACGTTGGATGATCCTATATCCAGATGGGCC4899441ACGTTGGATGAATTAGAAGTAGAGGCAGAGACGTTGGATGGGATATAAACCCATGGATCG11158975ACGTTGGATGAAGCCATTGCTCTTTGCTGGACGTTGGATGAACCTCCGAGACAAACAAGG11419607ACGTTGGATGAAGCCATTGCTCTTTGCTGGACGTTGGATGAACCTCCGAGACAAACAAGG2109793ACGTTGGATGGCATGATCTTGGCTCACTGCACGTTGGATGTAGTCCCAGTGACTCGAGAG8023156ACGTTGGATGCAAGGAGAGGGAAACTGTAGACGTTGGATGTATGAAGTGTCTGGCACAGG10140579ACGTTGGATGAAGCAGGGTATCTTCCACTGACGTTGGATGTGGCCATTGCTCCTGGAGCTT7148199ACGTTGGATGTGGGTCTCTGCAACACAGTTACGTTGGATGATGGCACACACTTTTCCAGC7146916ACGTTGGATGATTCTACCTCCACACTGCACACGTTGGATGGAGCTGTCTGCAGCAAATTC1990439ACGTTGGATGAGAGCTGAAGTCACACAGACACGTTGGATGTATTACGTGCTGGAAGGGAC6574095ACGTTGGATGTGACCTGGTTTCCTGACACAACGTTGGATGTTTCAGCAACGAAGTCCAGG10140037ACGTTGGATGAAAAGACAGGCATCCTCAGGACGTTGGATGGGCTGAGTTATGTTGGAAAG8007249ACGTTGGATGTAGGTCAAAGAGCATGTGTGACGTTGGATGGGAGAGGCTCTTTTTTACAC1990438ACGTTGGATGCCTCTTTGGGTAAACAGACCACGTTGGATGTGGGAAATGACAAGCATCTG1990437ACGTTGGATGCCCTAGGTTCTTCCTTTCCCACGTTGGATGTGAGTTCACAGCCTGCTTTG10146484ACGTTGGATGATGGGCTCCTCAGATACATGACGTTGGATGGCCCATTTTAGAGGTGAGAG11627333ACGTTGGATGGAGCCCATTTTAGAGGTGAGACGTTGGATGTCCTCAGATACATGAGCAGC7155802ACGTTGGATGAGGAAGGACAGATTAGCTGGACGTTGGATGATTAACCAGAGTGTCCCATC2109792ACGTTGGATGTATGTTGCCCAGCCTGGTTGACGTTGGATGATCCCAGCATTTTGGGAGGC11429363ACGTTGGATGGCCAAACCATATCACCTAGCACGTTGGATGAACCAGGCTGGGCAACATAG8004210ACGTTGGATGTTCTGTTATGTGCAGCCTAGACGTTGGATGTCTATGTTGGCCCCTTTCAG2098194ACGTTGGATGTTCTGAAATCTAGGCAGAGGACGTTGGATGCTCAAGCCTTGACAAATTCC2109791ACGTTGGATGTTCTGGGATCTGGAAGATGGACGTTGGATGAGTGTGAAAGGGAAATGTCG11381729ACGTTGGATGTAGTGAGGGCTACATGTCTCACGTTGGATGGACAGAGTGAGACCCTGTTT1160094ACGTTGGATGCAGAGAATCTAGGTTGCCTGACGTTGGATGGAGAAGAAGCCTGGCTAAAG11628051ACGTTGGATGAGGTAATCAGTGGTAGCAGGACGTTGGATGGAGGAGGGAAAGTCAGATAG10136771ACGTTGGATGAAGCACTCCTTCCACCTTGGACGTTGGATGTAGTGAGACCCTGTCTCTAC10139903ACGTTGGATGATTGCAGACTGTCAAGCCTGACGTTGGATGAGAGCAGAGTCAGCCTAAGG4903053ACGTTGGATGATTGCACAACTGCACTCCAGACGTTGGATGGGAATTGGTGGCGTTATGTC3742836ACGTTGGATGAGCCGCAGTTTTGGATCTTCACGTTGGATGCCAGCTGTATACATACCCTG3742835ACGTTGGATGAAAGATTAAAGGCTCCAGGCACGTTGGATGTTCAGCTTCCTCTCCTTGTG8003233ACGTTGGATGAAAAATAGGCAGGAGGCCAGACGTTGGATGTGACAGTGATGCTGTTGGTG11621588ACGTTGGATGACCCCCCATAATAAACCAGCACGTTGGATGGGGCTTCTGACAAGAACAAG740981ACGTTGGATGGGAGGCAGATAACTCAAAGCACGTTGGATGTTCCCCACCTCCATCTACCA8019492ACGTTGGATGTCCAGCCTATATGACAGAGCACGTTGGATGCTCTTTCCCTCTCCCTTTCT8019644ACGTTGGATGCTCTTTCCCTCTCCCTTTCTACGTTGGATGTGACAGAGCAAGATTCTGTG8019646ACGTTGGATGCTCTTTCCCTCTCCCTTTCTACGTTGGATGTGACAGAGCAAGATTCTGTG8019653ACGTTGGATGTGACAGAGCAAGATTCTGTGACGTTGGATGCTCTTTCCCTCTCCCTTTCT11450794ACGTTGGATGTGACAGAGCAAGATTCTGTGACGTTGGATGCTCTTTCCCTCTCCCTTTCT11348193ACGTTGGATGCTCTTTCCCTCTCCCTTTCTACGTTGGATGTGACAGAGCAAGATTCTGTG11450793ACGTTGGATGCTCTTTCCCTCTCCCTTTCTACGTTGGATGTGACAGAGCAAGATTCTGTG11282735ACGTTGGATGCTCTTTCCCTCTCCCTTTCTACGTTGGATGTGACAGAGCAAGATTCTGTG2191823ACGTTGGATGGGCACCCAACCCAAAATTACACGTTGGATGCAGTTTCAGTTCTGGGTTGG12232220ACGTTGGATGCAGCATCAGAAATGGTCTAGACGTTGGATGCCAAATTGTTGGGATTACAGG11158976ACGTTGGATGCCATCTGCAAGAAAATAAACACGTTGGATGGGTTTCACATTTAGGTCTATG4903054ACGTTGGATGGCTGTTTCAGATACATGTCCACGTTGGATGGCGACATTCCGCCTCAAAAA11846755ACGTTGGATGTGTGAGATATCGTCAGATTCACGTTGGATGTCAGAAGCACAGCTGACAAC12431988ACGTTGGATGGGTCTCCTTTCAAGCTATGCACGTTGGATGGGATGTCAACAGAAGCCAAG12100526ACGTTGGATGGCTTTGACTGAATCTTGGAGACGTTGGATGATAGCTTGAAAGGAGACCTG11622568ACGTTGGATGTCAGCTTCTTCAACCTGTGGACGTTGGATGAGAGGGTTGAACTGAAGAAG9671230ACGTTGGATGAGCTGATTTCAGTCCTGGAGACGTTGGATGCTTCTTGCCATCCTAATATT12147487ACGTTGGATGACCCCAGTAGTTTCTGATGGACGTTGGATGAATAGCTGATTTCAGTCCTG4903055ACGTTGGATGAAGCGATTCTCCTGCCTCAGACGTTGGATGTGGTGAAACCCCATCTCTGC12147515ACGTTGGATGTGGAGTGCAGTGGCATGATCACGTTGGATGTGAGGCAGGAGAATCGCTTG11625092ACGTTGGATGATCCTGAATGGCCAGAGATGACGTTGGATGATACCACCAGGAACTCACAG4899442ACGTTGGATGCTACCACTCAGGAGTTGTTCACGTTGGATGATTTGGTTGCGTTCCCATGG2052146ACGTTGGATGTTATTTGAGCTCTGATAGTGACGTTGGATGCCACAAAAGCACGTGATTTC10220553ACGTTGGATGATTTTTCTGGCTCTGCCTGGACGTTGGATGTGTTGAAGCAGGGCTACATG10220565ACGTTGGATGACAAAAACTAGCTGGGTGTGACGTTGGATGCCGGGTTCAAGTGATTCTCA2332917ACGTTGGATGACCCCAGTAAGAGGCTTGAAACGTTGGATGGCACAGGTTAATAAATGCCTC7158910ACGTTGGATGCCTACTTCTTCTTCCCACACACGTTGGATGGCCAGGTAAATTCAAGCCTC8015749ACGTTGGATGGACTGGCTTATTTGACTTAGCACGTTGGATGGGAAGGAAATTCTGACATATG8006812ACGTTGGATGACATGACATTCAACAGCCCCACGTTGGATGTTCCGAATCTCTGCCAACAC8008338ACGTTGGATGTTAAACAGACCAGGTGTTGGACGTTGGATGATCAGGGAGGATGAAATCTC2052145ACGTTGGATGGGCTTCTCAATTCAGATGGGACGTTGGATGGTGCTGGCTGCCTAGTTCTA2052144ACGTTGGATGGGGTTGCTGGAAATCTCATGACGTTGGATGGGTACTTCTGTGATCCCATC10146692ACGTTGGATGTAAGCAGAGCTGAAGAGAAGACGTTGGATGGAGACAGCAGGAAAACTTGG11627305ACGTTGGATGAAGTTTTCCTGCTGTCTCACACGTTGGATGGCAGGAAGTTAGCATATTGG2079989ACGTTGGATGATCATGGCAGAAGGCAAAGGACGTTGGATGAAAAGTGTATGGTGCCTCCC8018881ACGTTGGATGAGAATGGCCTAATCCAGGAGACGTTGGATGTGTCTCTGCCTTATATGGGC4561387ACGTTGGATGCCCTCATGGAGTTTATAGTCACGTTGGATGCCCCTTTCCTTCCACATTTT11622025ACGTTGGATGAGCAAGTACTGCACTTTGGGACGTTGGATGTAAGCTAGAACCTCTGGCAC740980ACGTTGGATGATGCCTGCCACATTGGGTAAACGTTGGATGGGTAGGGCTGTCTGTTTCAT12433250ACGTTGGATGTGCAGGGTAGCATGAATTTGACGTTGGATGTATCCTCCAAGTTCAAATCC5809590ACGTTGGATGATAGGTCTGATGTCAGCAGCACGTTGGATGGTGCCACAGAACTGACATTC758915ACGTTGGATGCAATGCTGCTGACATCAGACACGTTGGATGCAAGAAGGGCATTTCTACCC758914ACGTTGGATGTGTGATCCAGACATCAGCTCACGTTGGATGCCCTTGTTTTAGAGGTTGGG7154229ACGTTGGATGCCCACAGAAACAAAACCAGCACGTTGGATGAGCCACCATGTTTGAATGGC12437188ACGTTGGATGCGGACATAACTTTCCCAAGGACGTTGGATGGTGGCTCTGACCTTCAAAAC7159108ACGTTGGATGCACATCTCGAGGTTGAAGTCACGTTGGATGACTGGAAGGAATCACACTGC4903058ACGTTGGATGCCCTAGATAAAGCAGGCTTCACGTTGGATGTAAATCTCTCCTCTGGAGGC4899443ACGTTGGATGATTGCAGTGGTGCAGTGGAGACGTTGGATGTAGTCCCAGCTACTCTGGAG11848907ACGTTGGATGAAGACAGAGGTTGCAGTGAGACGTTGGATGTGCCATGGCCTGATTTCCAC12432148ACGTTGGATGGAAGACATTGGAGGTGTTAGACGTTGGATGAGCGAGACTCCATCTCAAAG12435078ACGTTGGATGCTAAGGGTATCTCACCTCAGACGTTGGATGCAAGAAGATCTGGGAGAAGC6574096ACGTTGGATGTGGCACATAGGAAATGCTCGACGTTGGATGTTCAAGCTGTCAGTTGCAGG11158977ACGTTGGATGTAGAAGGCTGGAAGTCAGTGACGTTGGATGTGTTGTGTTGGGCAGAAAGG11629434ACGTTGGATGTCAGGACCACAAATCCCATGACGTTGGATGATGGGAACTGAAGGTCATCC4378563ACGTTGGATGTTATGGCTTCCTCTCCCTACACGTTGGATGCGTGTGCATATCCTGATCAC2098195ACGTTGGATGCAAAGTTCTCTGCCTGAGTGACGTTGGATGGCTCCAGTCTCTAATCACAC4633653ACGTTGGATGAACTGCCTGGCCATGCTAAGACGTTGGATGTTACCAAGTGCATGCCCGTC7148350ACGTTGGATGACCCCTTTGTTGGCCTTTACACGTTGGATGCTTTCTTTGCCTCTCCAGTC740979ACGTTGGATGAAGGGCCAAGCAATGCTTTGACGTTGGATGATCCTAACCAGGTCTGATGG740978ACGTTGGATGCTTCACATCCCTCCTCAAAGACGTTGGATGTAGCCACGCCATTATTGGAG740977ACGTTGGATGCAGCAACCCAAAGCAACACGACGTTGGATGTCCAGTGAGGCCTCCCTCCAA740976ACGTTGGATGATCAGGACTACCTGAGCAACACGTTGGATGTCCTGTTTCTAAGCAGGGAG4903059ACGTTGGATGGGTGGTCTTGTTTCAGAGTCACGTTGGATGCGAATCAGTCAGCAAACCTC4903060ACGTTGGATGAGAATCTGGAGGGACCAATGACGTTGGATGAATGTCCCCAGCCTTACTTC11852056ACGTTGGATGAATGTCCCCAGCCTTACTTCACGTTGGATGAGAATCTGGAGGGACCAATG9635257ACGTTGGATGTGAGTGCTACATGGCCTCTGACGTTGGATGTTGGAGACAGAGAACAAACC9635258ACGTTGGATGTTCTTTGCTGCCAGGGTTTGACGTTGGATGGCAAACCTTCAAGCCAGCAA9635259ACGTTGGATGTCCTGGTGCCTCAAACAAAGACGTTGGATGACCTGCCACATAGTAGTTGC4899444ACGTTGGATGCCAGTTCATCCACTTAGTAGACGTTGGATGCTGGGTTGCCATTTGCATAC12435382ACGTTGGATGTCTGTCAATGTCTCTCTCTCACGTTGGATGAACATCCATCCTGAATCACC12435412ACGTTGGATGTATTAGGCTCCCACATCTGGACGTTGGATGCCCTTGCATAGATGATGCTG11627381ACGTTGGATGTTTTTCTGGCACTGGTGGTGACGTTGGATGACCTCACTATGGGTGATCAG2052143ACGTTGGATGTGTGTCACTTCTACCTCCACACGTTGGATGCCAGTGTAATCACAAGGGTC2052142ACGTTGGATGACTGGACTCACCCACATAAGACGTTGGATGGGTATGAGGGATTTTGCAGG2052141ACGTTGGATGATAGAAGCGTGACCTTACCCACGTTGGATGCCTGCAAAATCCCTCATACC8021035ACGTTGGATGATGTACAAACTGAGGCTAGGACGTTGGATGCTTCACCTGAGAGATTTCAG11158978ACGTTGGATGTTAGCCAGGCATAGTGGCATACGTTGGATGTTATTGTAACCTCCGCCTCC11621216ACGTTGGATGAGCTTGCATTTACCACTCACACGTTGGATGTAGAAAGTAGACCTCTTGGG10130873ACGTTGGATGGGCTTGGCATTTCTTGTCACACGTTGGATGTAGAGAAAAGGAGGAAGGAG11621358ACGTTGGATGGGCTTGGCATTTCTTGTCACACGTTGGATGTAGAGAAAAGGAGGAAGGAG758913ACGTTGGATGAGCAACCAGTCTAGTTTTCGACGTTGGATGCCTAGCCAACATCCTTTTCC11622602ACGTTGGATGCCTAGCCAACATCCTTTTCCACGTTGGATGGGATCTCTAAGCAACCAGTC10136931ACGTTGGATGTATTCTGTATCCCAGTAGCCACGTTGGATGCCATTTCCTATCTTGGTTTC740975ACGTTGGATGCTCAGTGCCAGAAATACCAGACGTTGGATGGAAACCAAGATAGGAAATGG747987ACGTTGGATGCCTTGTGAACTTCCAACCTGACGTTGGATGAGGTCTGGCACTGCTAAATG11623819ACGTTGGATGTCATCTTGGCAACTCCTTCCACGTTGGATGAGTAAGCCCTGATATGCCTG12434445ACGTTGGATGCTCTTAGTATGGAAAGGCAGACGTTGGATGTTGGCATCCTTTGTAAACAG8003375ACGTTGGATGTAAGGATGGTTCACTGTGGCACGTTGGATGAGCTGCCATCTGTAGCATTC10143596ACGTTGGATGTACCATCCCTTATTAGATGGACGTTGGATGACATCCATCTGTGCATCCAT12435321ACGTTGGATGTCCTATATTGTCAGATGGCCACGTTGGATGCCTACACACAAATAGGCATG12435401ACGTTGGATGGTATGGTTTTGGGTGTCTGGACGTTGGATGTAACCACTGTGGCTTGAGAG8010609ACGTTGGATGTCTTCTGTTTCTGTGGCTGCACGTTGGATGAAAAGCTGGCCCTAAAAGGC11158979ACGTTGGATGATGTCCAGACACCAAAACCCACGTTGGATGATCTACTTGGATCTGGGCAG11158980ACGTTGGATGAACCACACTGTGCACTCTTCACGTTGGATGGGGCATGAACGATATGCAGT11627524ACGTTGGATGCGACAGATCAGGAAAATAGCACGTTGGATGGTGTTCAGGACAGCATATCC1126160ACGTTGGATGTGTTCTCACCCTGTTCTGTTACGTTGGATGGGGTTCTCTCTTGACAGATG10136074ACGTTGGATGTTGTCCATGTGACCTCTATGACGTTGGATGGGGCCATGAAAACCTAGTTC4903061ACGTTGGATGCATAGAGCCCTCAAAGGTAGACGTTGGATGAGGAGTAGTGAGAAGGAATC10665398ACGTTGGATGGGGCTGCACCTTGTATTTAGACGTTGGATGTACTGTGTAAAACGAGGGAG6574097ACGTTGGATGGGGCTGCACCTTGTATTTAGACGTTGGATGTACTGTGTAAAACGAGGGAG9671654ACGTTGGATGTACTGTGTAAAACGAGGGAGACGTTGGATGGGGCTGCACCTTGTATTTAG10140024ACGTTGGATGCCTGCAGCTTCTAAAACTGCACGTTGGATGTCCCAAAGTGCTGGGATTAC10142421ACGTTGGATGTGATCTCAGATCACCGCAACACGTTGGATGTGTAATCCCAGCTACTCAGG10142593ACGTTGGATGATCTGAGATCACGCCATTGCACGTTGGATGGGTTTGGGCTTCCATGCAGT11423372ACGTTGGATGCCCATCCTACTTTTCACACCACGTTGGATGAGTTGAGATTGTGCCACTGC5809592ACGTTGGATGCCCATCCTACTTTTCACACCACGTTGGATGTGCAGTGAGTTGAGATTGTG2332918ACGTTGGATGTAGGATGGGTGTTTCCTAGCACGTTGGATGAACCCATGGGACCACAATTC2332919ACGTTGGATGATGAAGGAAGAAGCCCTGACACGTTGGATGTCTGAGGGCTCTCTCTAATG8007348ACGTTGGATGTGAAGGGAAAGGAGGCCAAGACGTTGGATGTCTTCTGGGATCCAGTCAGG1990443ACGTTGGATGTACATGATCCTCCCCTCTACACGTTGGATGCACTGGATTTGGCAAGAAGG8007690ACGTTGGATGTCAGCTCTTAGCCATCCTTCACGTTGGATGGCCACTGGATTTGGCAAGAA3937455ACGTTGGATGACCTCCACACTCATTACCTCACGTTGGATGGCAAGAATAGGTTCTTTCGC8012823ACGTTGGATGTTGTCGGTCTCTTCTAAGTGACGTTGGATGGCACCGAGTAATATGGAGTC4899445ACGTTGGATGAAGGTGAGAGAAAACTCACCACGTTGGATGCAGGAGAGTCTGCCCATTTG4903062ACGTTGGATGATGTCTTACTTATGCCCTTGACGTTGGATGTCCTAAGAAATAGGTGCTTC973963ACGTTGGATGACAAACCACTAAACTTTCAGACGTTGGATGGATTTGTTCTGGCAGGAATG10149962ACGTTGGATGAAATGGAGTAAGGGTCAGGGACGTTGGATGGGGAGCTGGTGGTGAAAAAT8003449ACGTTGGATGTCCAGGCCAACATTTTCAGGACGTTGGATGTTTGTGCTACTGGAGGGAAG11620775ACGTTGGATGAAACCAGCTTGTTGCTTCCCACGTTGGATGAGAAGAAGCTGTTCAGACCC8009089ACGTTGGATGACACAGACAGACACTCCCACACGTTGGATGACTTCTCACTCTTTCTGGTAA8008967ACGTTGGATGTGACCTGCCGACTTCTCACTACGTTGGATGTCCATCATCTAGGACCTTGG12050132ACGTTGGATGTGCAGGGTTCTGAAAGGAAGACGTTGGATGTTATGTGCAGGCATGATGGC10133018ACGTTGGATGGTGCTAAGTGCTTTCCATCCACGTTGGATGACTGCCCATCTGAGAAATGG1990442ACGTTGGATGCCATCCCTCCAACTCAGAACACGTTGGATGTAGGTGTGCTCCCATTTAGC1990441ACGTTGGATGCACACCCTGGCATGAATGTGACGTTGGATGTCAGAGATATGCACTGCAAG8015833ACGTTGGATGTCAGAGATATGCACTGCAAGACGTTGGATGCACACCCTGGCATGAATGTG1990440ACGTTGGATGCCAGGGTGTGTTCTAATACGACGTTGGATGAAGTCACTAACCCCACACAC4903063ACGTTGGATGCCATCTCACATTGAGATGGGACGTTGGATGCCACCAACTCTCCAAAACTC10139810ACGTTGGATGGCTTACCTTTTTCCCATCCCACGTTGGATGCAATGCTGTTACCAGGAACC4903064ACGTTGGATGCTGCTCTGTGTCAGCAGAAAACGTTGGATGATGGAGGCTTTGTAGCTAGG2159715ACGTTGGATGTACAGGCACTGGCGAAGAAGACGTTGGATGCTGCCTGCAAGTTCCCATTG2109795ACGTTGGATGTCCTGACTCTCTCAAAACCCACGTTGGATGCAAACAAGGTCCCAGCATTC2159714ACGTTGGATGAAAGCCCCTCTAGCAAAAGGACGTTGGATGAAACTCTCTCGTTGCTGTGG11623107ACGTTGGATGTAAAGGTTAAGTGCCCTGCCACGTTGGATGAGTGAGAGATAGTGTTGCAG7152005ACGTTGGATGACTAGGCTCCCCTGCTCACTAACGTTGGATGACCAACTCTGTAAGAGCAGC7152489ACGTTGGATGATGAGATGATGGATGCTGGGACGTTGGATGTCCCACACTGATTATGGTGC4479167ACGTTGGATGGATTACAGGTGTCAGCAACCACGTTGGATGGCCAGAATTACCCTGATACC4606655ACGTTGGATGTTCCCGGTTAAGCAGTTCTCACGTTGGATGGTGAAACCCCGTCTCTACTA4606656ACGTTGGATGTCACTGCAACATCTGCCTTCACGTTGGATGTTAGCTGGTCATGATGGCAG4489943ACGTTGGATGAAGGCAGATGTTGCAGTGAGACGTTGGATGTTAGCTCTACGATCCATGTC7142642ACGTTGGATGCCTCCAGAACTGTAAGACAGACGTTGGATGAAACGCATGGTATCAGTTCC8006233ACGTTGGATGTTCCATATTTCCAGGGTGTGACGTTGGATGGACCTTGGGTAAGATATTGG8007559ACGTTGGATGGACCGTGGATAGTCATCTCCACGTTGGATGCACAGGCTTAGCTGCTGGTG8006156ACGTTGGATGTCTCCACCTTGTCTCAGAGCACGTTGGATGTGCCTGGCTCCACAGGCTTA1468662ACGTTGGATGTCATGTAGGTTGGCTCTGACACGTTGGATGGCTAGAAATCACCAGCAACC11627048ACGTTGGATGACAAGCTGGAGAGCTTCACTACGTTGGATGAAAAGCACCACTCCAATCAC6574098ACGTTGGATGAACCTCTGACCTCAGGTGATACGTTGGATGAATTGTGGTTAATGGCTGGG12433760ACGTTGGATGACTTTGGGAGGCCAAGGTGACGTTGGATGATGTTGGCCAGGCTGGTTTC12433780ACGTTGGATGTTGAGGTCACGGGTTTGAAAACGTTGGATGCCACCATGCCCAGCTAATTT12434506ACGTTGGATGAGCCTGGGAAACACAGAAAGACGTTGGATGACTGTAACCTCGAACTCGTG12434673ACGTTGGATGAGCAGGTGACATTACCAGTCACGTTGGATGGTCATTAGGGAAATGCCCAC12431400ACGTTGGATGAGCAGGTGACATTACCAGTCACGTTGGATGGTCATTAGGGAAATGCCCAC12431384ACGTTGGATGGGTTGCACCATTGCATATTCACGTTGGATGTAATGTCACCTGCTGGTGAG4903067ACGTTGGATGCTGCATTGGTATCAGGACTGACGTTGGATGCTAGCTTATTTCACTCGGCC2332920ACGTTGGATGTACATATCACCACACCTGGCACGTTGGATGTGAGCCCAGGAGTTCAAGAC2215591ACGTTGGATGTCCCCAGTTTGCATCTTGACACGTTGGATGATTTGTTAAAATTCATAGAAC12433064ACGTTGGATGTGACTTGAGACCAGGAGTTCACGTTGGATGACATATGTGCCACCACACTC12436263ACGTTGGATGAGTTCAAGACCAGCCTGGACACGTTGGATGATATGTGCCACCACACTCGG12433097ACGTTGGATGTGATCACAGCTCACTGCAACACGTTGGATGTGTGGTGGCACATATGTTTG12433184ACGTTGGATGTCCCAAGTAGTGTGCATGCCACGTTGGATGTGTGATCACGCCACTGTACT8015900ACGTTGGATGTGGAGTGCAGTAGTGTGACCACGTTGGATGACACTACTTGGGAGGCTGAG11296981ACGTTGGATGGAGTGAGATGTGTAGATGACACGTTGGATGGCCTAATTTCACCTCTCTTG11344025ACGTTGGATGGAGTGAGATGTGTAGATGACACGTTGGATGGCCTAATTTCACCTCTCTTG11464204ACGTTGGATGTAACATGGCGAGAGCTCATCACGTTGGATGAGCTAGGACTACAGGTACAC11441172ACGTTGGATGTACAGGTACACACGACAGTGACGTTGGATGACTAGACTGAGTAACATGGC11381807ACGTTGGATGACTAGACTGAGTAACATGGCACGTTGGATGTACAGGTACACACGACAGTG10873251ACGTTGGATGATCTCAGGTGATCCACCCACACGTTGGATGTGGGCGCAGTGGCTTGTAAT2109794ACGTTGGATGGCATCTGTTAAAAACAGGCCACGTTGGATGACTCCTGATCTCAGGTGATC10873252ACGTTGGATGACTGGCTTCCAGGTTCAAGTACGTTGGATGTGGTGAAACCCCATCTCTAC4520784ACGTTGGATGAATCTTGGCTCACCACAACCACGTTGGATGATGCCTGTAATCCCAGCTAC2877820ACGTTGGATGTAGTAGCATTCCAAGTGCCCACGTTGGATGATAATCTATGTCCTAGATTG2877821ACGTTGGATGTAGTAGCATTCCAAGTGCCCACGTTGGATGATAATCTATGTCCTAGATTG4569195ACGTTGGATGGGAATGCTACTATTTGAAGGGACGTTGGATGTCTGTATCTTTCTGGTGATG11628905ACGTTGGATGAGTTACATTCCAGGGAGTGGACGTTGGATGCCAAGACATTTCTGCACTCG2191822ACGTTGGATGTGCAAAGTGGTGGAGGAAAGACGTTGGATGATTTTTCCCGGCATCTGACC2191821ACGTTGGATGTGAGATGGATCTGGAGCCACACGTTGGATGGAAAGTGTCCTTAGCTTGCC11464689ACGTTGGATGTCGCTTCAACAAGTTGCTTGACGTTGGATGAGAGTGAGACTCTGTCTCAA12431959ACGTTGGATGACTTTGGGAGGCTGAAGTAGACGTTGGATGCATCACCCCTGGCTAATTTT4903068ACGTTGGATGATGTGAGTGCCTAATACCTGACGTTGGATGGCCCTGAATTGATACTGAAC1544579ACGTTGGATGCCTTATCTCTCTAAGACATGCACGTTGGATGACCATTATCATCTTCCCAGG7155879ACGTTGGATGCCTTGATGCATCATCTCTCCACGTTGGATGTTGCCTCTATCCTGATCTGG12433603ACGTTGGATGTTGCCTCTATCCTGATCTGGACGTTGGATGCCTTGATGCATCATCTCTCC11351432ACGTTGGATGCAAGAGCGAAACTCCATCTCACGTTGGATGGTGGTTTGCAGAGGCTATTG11448438ACGTTGGATGCAATAGCCTCTGCAAACCACACGTTGGATGCGGAACATGGCACATGAAAG4243643ACGTTGGATGAAAGCTCTTGGGCTCAAGTGACGTTGGATGAATACAGTGTGTGCCAGCTG4140952ACGTTGGATGCTCATGTTCATGCTACAAGCACGTTGGATGAACAAATGGAGAAAGGAGGG8005372ACGTTGGATGCTCAACAAACAGTGGTTGAGACGTTGGATGTTCTGCTATGTTGCATGACC8004109ACGTTGGATGGGCAGGATCTGCTGTTTTTCACGTTGGATGGGTTGAGTACCTGCTATGTG8008398ACGTTGGATGCCCATAGCTCTATGAACCTGACGTTGGATGATGTGCTAAGCACCATGCTG8009692ACGTTGGATGTCTTCTCCTCTAGAAGATGCACGTTGGATGAAACAGCAGATCCTGCCTTC2332921ACGTTGGATGACAGGTTCATAGAGCTATGGACGTTGGATGCTTGTCTCAATCTTCTCCTC12050320ACGTTGGATGTGGGCCAGCAATCTATGCACACGTTGGATGTTTGCCCTTCATTGCTCCTC12050323ACGTTGGATGAAGGGCAAAGGCTGAGAAAGACGTTGGATGTAAAGTCCAAACTCCTTGGC8010316ACGTTGGATGCCTCATTCACATTGATCAGCACGTTGGATGCCATAGGACAAAAAGTGCAC7154293ACGTTGGATGCGGATCACTTGAGATCAGGAACGTTGGATGTGCTACCACACCCAGCTAAC12147969ACGTTGGATGTCTCCAATCCTGCTCATGGGACGTTGGATGTTGATACGGCTTCCACAGTG2215590ACGTTGGATGATGAGAGCCTTTCTTCAGGGACGTTGGATGTCCAAGAAGGACAGCAGTAG4265749ACGTTGGATGGGGAAGGAACTTGTTCAGGAACGTTGGATGGCCAAAACTGAAGCCTTGAG1004552ACGTTGGATGGCAAAACCCAGTGCCAAAACACGTTGGATGGATCATCCAAGTATGCTCCC4307892ACGTTGGATGGCAAGCCTTCTGAAAAGTTGACGTTGGATGAGGTAGGGAAAGAGGAAAAC12431973ACGTTGGATGAGCTACTCAGTAGGCTGAAGACGTTGGATGTCATAGCTCATTGCAGCCTC12431975ACGTTGGATGAGCTACTCAGTAGGCTGAAGACGTTGGATGCAGTAGTGCAATCATAGCTC767874ACGTTGGATGAAGGTGATAAAGTCCCCTGGACGTTGGATGGTCACACCATGTATCCTCTG11628597ACGTTGGATGAAAGCCACTTGTGTCTCCAGACGTTGGATGAGACCACATTCCCAGACATC10129371ACGTTGGATGGGTGTTCTGCAGATCATATCACGTTGGATGTTTATTATCCAGGGTTGCCC4903069ACGTTGGATGAATTGCTTGAACCTGGGAGGACGTTGGATGAAGGCAGAGTTTCCTTCTGT4903070ACGTTGGATGTTTCACCATGTTGGCCAGACACGTTGGATGTAATCCCAGCACTTTGGGTG4903071ACGTTGGATGGCATGACAAAGTGTGGGATCACGTTGGATGCACCTGGCCAGAATCACTTT11622224ACGTTGGATGATGGCCAACTCCTTTCTTCTACGTTGGATGAAGATAAGCTGAGAGACCAG10459455ACGTTGGATGTGGCTCGATCTCGACTCATGACGTTGGATGGGTGGTGCACACCTGTAATC9323577ACGTTGGATGAGGTTGCCATGAGTCGAGATACGTTGGATGTCCAGGGTGCTGTTTTTTGG10624648ACGTTGGATGTTCTGTTTTGCCCTCCCTTCACGTTGGATGTTATGAGGGAGCAGTGTGTG3058953ACGTTGGATGTTCTGTTTTGCCCTCCCTTCACGTTGGATGTTATGAGGGAGCAGTGTGTG11158981ACGTTGGATGAGTGAGACCCTGTCTCTAAGACGTTGGATGGGGTGCCAATTATCTGCTTG11158982ACGTTGGATGCCAAAAACTACCACATGCTCACGTTGGATGCATCGCTATATAGTGCTCTG11158983ACGTTGGATGATGCCCAGCTCACAATCATGACGTTGGATGTTGGGTGGTGAACATATGTG1860750ACGTTGGATGGTCCGCTGGATTGCTTTATCACGTTGGATGCAGTGTGAGACTCCATCTCA1860749ACGTTGGATGAACATGATTAAGGATAAAGCACGTTGGATGTCCCCGGAATGATACATGAC1860748ACGTTGGATGAAAGCAATCCAGCGGACAAGACGTTGGATGACTCGACTAGCTAGTCTTGG1860747ACGTTGGATGTTGGCATTGACAGAGGAGAGACGTTGGATGAAAGCAATCCAGCGGACAAG11419679ACGTTGGATGTACTGAGCCCAGTAGTAAGGACGTTGGATGCTCCCTGTGTACCTCATTTC8011777ACGTTGGATGTGGGCGACAGAGTGAGACTCACGTTGGATGCATGTTGGCCAGGCTAGTCT6574099ACGTTGGATGAGTAGAGACGAGGTTTCACCACGTTGGATGAGGTGGGCAGATCACAAGGT8010957ACGTTGGATGAAGTGCTGGGATTATGAGCCACGTTGGATGTGGGTGTGTCTCCAGTAAAG11626895ACGTTGGATGGGGAAGAATAAGAGCCCATCACGTTGGATGCCAGCCAGTAGCAGAGTTTT10151431ACGTTGGATGAAGTGCAATGGCGCGATCTCACGTTGGATGTACTTGGGAAGCTGAGGCAG4903072ACGTTGGATGTCTGCTTCTCTTCCTGTGTGACGTTGGATGAAGCACAAAACGTGGTCCAG4589489ACGTTGGATGAGGTGAAATGTGGACCACACACGTTGGATGGGCAGTTCTCCTAGCTAAAG9671327ACGTTGGATGATTACAGGCATGAGCCACTGACGTTGGATGGGATTGCTTTCTGGTTGTGC4899446ACGTTGGATGGGATTGCTTTCTGGTTGTGCACGTTGGATGGCCTCCCAAATTGCTGAGAT10144501ACGTTGGATGAAGAATCGCTTGAACCCAGGACGTTGGATGATGGAGTTTCTCTCTGTCGC5809594ACGTTGGATGCATGAGCGAGTTCACATGGGACGTTGGATGTGGACCTAAATACTGGTGGG720317ACGTTGGATGTGGACCTAAATACTGGTGGGACGTTGGATGCATGAGCGAGTTCACATGGG8014316ACGTTGGATGGTTCATTTCCCGGCATTCTCACGTTGGATGGACCTGTGCTGAGAAACAAG11158984ACGTTGGATGGACATAGTTCTGACCTCACCACGTTGGATGTTATGAGGACCAGGTGCTAG6420906ACGTTGGATGCCCGAGGGATGAGTATTTTGACGTTGGATGTAGGAGGGCGATTACCCACA8004055ACGTTGGATGTTTTTCCTCCTCCCACAGACACGTTGGATGGGCACCAGAGTTAAGACAAC12434800ACGTTGGATGCCACTATTTTTTCCCCACTCACGTTGGATGGCAGGCTAAAAACATTCCATG4243644ACGTTGGATGGGGAGTTCTCTCAATTTACCACGTTGGATGGGCAGAATAGTTGTTGGTAG4899447ACGTTGGATGCTATTCTGCCATAGCCTTGCACGTTGGATGTCTATGCCTCAGCAAGCATG4903073ACGTTGGATGTGTTCCCCAAAGCTAAGGAGACGTTGGATGCTATTCTGCCATAGCCTTGC11848634ACGTTGGATGTCACTGCTGCTCTTGACTAGACGTTGGATGGGACAGACAGAGAGAAAACC4899448ACGTTGGATGTCACTGCTGCTCTTGACTAGACGTTGGATGGGACAGACAGAGAGAAAACC10131564ACGTTGGATGTGGAGAGACCAAACTGAGAGACGTTGGATGCCCTGCTTAGTAAATAGGCG10134150ACGTTGGATGGCATGGTCTGTAGAAGAAGCACGTTGGATGAGACACATTCTGGGAAGGTC763388ACGTTGGATGTACAGGGATTGTGATGTGGGACGTTGGATGGGGTACTCTTAGCTGAGAAC11845938ACGTTGGATGATTGGCTTGAGGCATGAGTGACGTTGGATGAGTTTCCTGACATTCCCTGC11845946ACGTTGGATGTCCTCGGTAAGCAGTTGTTGACGTTGGATGCCACATCACAATCCCTGTAC11845915ACGTTGGATGCCACAGTCATTCAACACTTGACGTTGGATGGGAATGTCAGGAAACTTAGG10137463ACGTTGGATGATAGCCTGCGCAGGTGAAAAACGTTGGATGAGCCAACCCAAATCCAGAAG6574100ACGTTGGATGACACCAAGAGCTGGAGTGATACGTTGGATGGTCTGTCAGGTCACTAATGG7140344ACGTTGGATGTGGCACCTAGTACATGCTAGACGTTGGATGCAGAGTGAGACTCCATCTCA10646889ACGTTGGATGAGAGTGGGTAAGTGCACAAGACGTTGGATGTGGGTGACAGAGTTAAGACT7146287ACGTTGGATGGGTGTCCCTTCAGGTCTAAAACGTTGGATGCCATGCAAATGTCCACACAG10605948ACGTTGGATGCTTCATTGGTTCTCTGCAGCACGTTGGATGCAACACGTGATTCCAGAAGG5809595ACGTTGGATGGTGGGCTTACACCATTTCTGACGTTGGATGATACCACCCAACTACCCATC1035099ACGTTGGATGTGGGGAGAACTTTGGTCAACACGTTGGATGAAAGGGTACCCAGACTTCAC7159877ACGTTGGATGATCTTGGCTCACCACAAACCACGTTGGATGGCCTGTAATCTCAGCTACTC7142579ACGTTGGATGTACTACATGTCACAGTTCTGACGTTGGATGCGCTCACTCTGTGTATGTAT12431762ACGTTGGATGCAACTTAAGGAGAGCTAGGGACGTTGGATGTCCTCCACTGGATAACTTGC12431764ACGTTGGATGGGGTGAGAAACATACTCAACACGTTGGATGGTATTGTATGTACTCACCGC10647999ACGTTGGATGGCTGTTTTTCCAAATTCTTTCCACGTTGGATGTCCAAATCACCTTTCTTAGC6574101ACGTTGGATGTAAGAATGGGAGCTCAGTGGACGTTGGATGACCTGGATGCAAACTGGTTG6574102ACGTTGGATGGATGTGACAACAAGAGAGGCACGTTGGATGACAGTCCTCACCATCACAAC1861162ACGTTGGATGACCCTCTTGCTTTCATTGGGACGTTGGATGCTCTATATAGGCATGTGGGC12432972ACGTTGGATGAAAACAAAGTCCCTGCCTTCACGTTGGATGTTCTGCCACAGCATTTACAC10146134ACGTTGGATGGCATTGCACAGTTCAGTTTCACGTTGGATGGTTGGCACTCAGTAATTAGC10146616ACGTTGGATGTGACTCAATCTCCCTCTCTCACGTTGGATGTTCAGGATGGAAGTGTGAGG10146769ACGTTGGATGACATCCAGGCAGTAGAATGGACGTTGGATGTGAGTGGATTCCCATGACTC8018936ACGTTGGATGGTCAATTCAGTGGCAAGGACACGTTGGATGTAAGGAGCCCATCAATGCAG10483849ACGTTGGATGTGTAAGACCCTTGAGGTAGCACGTTGGATGGCCCACTGGTACTCATTTTC2160137ACGTTGGATGGAAGGAAGAAGGGCAAAGGGACGTTGGATGGTGATGGAGTTGGTGGGAG2192595ACGTTGGATGTGCAATTGAGGAGACTAGGGACGTTGGATGTCCCACCAACTCCATCACTT2192594ACGTTGGATGGGCCATGCAATCGGATTTTCACGTTGGATGTGTTGTTGCATATGCAGGGC11271695ACGTTGGATGAAGAAGTGCCTTTCACCTCCACGTTGGATGACATACCCAAGACTGGGAAG10747301ACGTTGGATGTGCCTTGCTGGATTTCAGACACGTTGGATGGGTATGCAATTCCAAGTGGG12050363ACGTTGGATGTACCTCCACTTTGCAGGGTAACGTTGGATGTGGAAAAGCTGCAGAGACTC12050368ACGTTGGATGATGGTAGATCCACTAGCAGCACGTTGGATGCTGCGTACTTTCACAGTCTG12432949ACGTTGGATGAAACAAACAACCCCATCAACACGTTGGATGTTCATGTGTCTTTTGGCTGC7401375ACGTTGGATGGAGATACCATCTCACACCAGACGTTGGATGTTTCTCCACATCCTCTCCAG8019682ACGTTGGATGGCAAAGGTGACTCTTGTATGACGTTGGATGCTCAAGTTCAAAGTTTCACG8021248ACGTTGGATGGGTTTATCAGGGGTTTCAGCACGTTGGATGTGGCAGGAAGTGAAAGACAC11158985ACGTTGGATGGTTGAGATTTGGGTGAGGACACGTTGGATGCACCACCACACCCAGTTAAT10483850ACGTTGGATGCATTTCTGGAAGGAAGTGGCACGTTGGATGTTATTCTGATGGTAGTGCTG8010875ACGTTGGATGGGCCCAGGCTTATTTCTCATACGTTGGATGACACAGATCTGTTTGGCTGG11626844ACGTTGGATGAAAGCTTACAGGCAGCAGAGACGTTGGATGTTAGCGCAGCTATTCACCAC982972ACGTTGGATGCCTCCATGAATTGCACCTTGACGTTGGATGGGGACAAAGCCAGAATACTC7161198ACGTTGGATGGAGAGATAGAGATACCAGCGACGTTGGATGTCTTCCAAAAAGCCCCCAAC7160347ACGTTGGATGTAGCTGTGTGTGGGATTTCCACGTTGGATGGTGCTTTGCATCTTCTGGTC8007139ACGTTGGATGGGTGAGACAGAGAGAGATTCACGTTGGATGAGGGACAGTAGCCACATATG8014483ACGTTGGATGCTTCTAACAGTGAAACTGGGACGTTGGATGTCTCTTTGCCTCTTTCATGC12437072ACGTTGGATGATCAGAGGTTCCAACGTCACACGTTGGATGATGAGCTGGGTAAGTGAAGG8004767ACGTTGGATGTATATTCTCTCCCCTCCCACACGTTGGATGCGGCTTTTCCTAGGAAAACC12588830ACGTTGGATGTAGCACTTACTTTGCCCTGCACGTTGGATGGCTTCCACTCCAATAGAGAC7158449ACGTTGGATGTATTTTTTGGAGATAGGGTCACGTTGGATGTTGAGTCAAGGAGTTTGAGG6574103ACGTTGGATGATCTGAACCACTTCCAAGGCACGTTGGATGAGTAGACCAGAGAGCATTGC8020478ACGTTGGATGAAAGAATCTGGCCTGGCATGACGTTGGATGTCGGGTTTTATCATGTTGGC4903077ACGTTGGATGGCCTCCCAAAGTGCTAAGATACGTTGGATGACTATGCCTAGGTCTCCTTC8012359ACGTTGGATGCATCCCGGAGAGAAACTTTGACGTTGGATGAATGCAGAATGGTGGTTCCC4899449ACGTTGGATGCTTAATGCCACTGAAAACACACGTTGGATGGAGGCATTCCCTCAATTTTTC10690289ACGTTGGATGTAGCTTGTGATCTGGGACACACGTTGGATGGCCAGAAAGTTGTTGGCTTG6574104ACGTTGGATGGAACAATGCTGGCACATGTCACGTTGGATGACCTGAGATGATCACAGTCC2110552ACGTTGGATGTATTGGTCCGGTTACTGGTGACGTTGGATGCCCTCAGTGACAGTTTTACG8008256ACGTTGGATGTAGTTGTTTGAGTGACTGGGACGTTGGATGACTGTGAAACACCAGTAACC759283ACGTTGGATGCGACAGAAAGAGCTAAGAGGACGTTGGATGTGCTGTGGCACTCAGTTTAG4999177ACGTTGGATGGAGCAACACCCTGTCTCAAAAACGTTGGATGTTGATTTGTGCATACCTGGG2333006ACGTTGGATGATAGCATTATGTTTCCCAGGACGTTGGATGTGGATTTGATAAAGGCCTGC8006178ACGTTGGATGGCGCAGTATCTCTAAGCTTGACGTTGGATGAAACACGCACCCTACTGTGA11158986ACGTTGGATGACCGCTGATGCTGTTTCTACACGTTGGATGCAGCCCGGTTATGTGATTTC7150625ACGTTGGATGCGGACTTGGCGGCTTAACAGACGTTGGATGCTGCCTTCCTCCTCCTTTTC8007768ACGTTGGATGACTAAAGCCAGCTCGCTCGCACGTTGGATGTTTCCCCGGCAGCCCCCGGAT8007058ACGTTGGATGAAACTCCCCGCGAGCGATCGACGTTGGATGCTGGGTCCAGCGGACGGACDPF3-AAACGTTGGATGTGTGATTGGCCCGTCGCTTCACGTTGGATGGGTTGTGAATGACAGTCGCC2215901ACGTTGGATGAAAAGGGAGTGACCTCTGGGACGTTGGATGAATCGGCGCTGCTGGTAGCTA3814866ACGTTGGATGATAATACTCTCCCGTGCGTCACGTTGGATGAGAGCCAGCAGGTCTTAAAG3814864ACGTTGGATGAGGGTAAATCCCCGTGTTTCACGTTGGATGACGGCAGAGCACATGTAGTA












TABLE 43








dbSNP rs#
Extend Primer
Term Mix


















11846274
GTGCCCTTCCCACGTGTG
ACG






2526935
GGTTTTGCCTTGGGCTGCTT
ACT





929328
AGAAGCTATAGCTCTGAGCC
ACT





3742840
CGTGCTGGCTTAGACTCTC
ACT





9671739
GGAGGTGCAACTGGCAGG
ACT





8006208
TGAAGGCTAGGCCAGCATG
ACG





8006230
CCTTGGCAGGGCATCGACT
ACT





8007836
ATGGACTCTGTTCCCTTTCC
ACG





8006889
GGCATTTGTGCTCCTCTGG
ACG





8010823
CAAATGCCATGTGGACCAGA
ACG





8011029
GGGAAGCAACAGTGGCGTA
CGT





10649920
GCAGAGGGAAGGGAGGAAA
CGT





2803956
AAGTACCCAACTATTGCCAAAT
ACT





2803957
GTGTGTGTATGTGCGTGCG
ACG





2526934
GTTGTGTTGCTGAGGGAATAT
ACT





9671558
CACAGCCAGGGCTCACTCA
ACT





2526933
TCCGGGCTTGCCAGTTCC
ACT





2803959
GGGATGTGGGAGGATAGACA
ACT





2526932
TCTTACTCCCATCCCCAAAG
ACG





2803960
AAGTGGACAGAGCTCCTCC
ACG





12434675
GGTCCCCATGTCTCAGCC
ACG





4899435
CAGAGAGGTGAGGCTGCCA
ACT





2526931
AGGTGACATTGGTAAAGATCC
ACG





2803961
GCATGGTCTTTGCAGGTATTC
ACT





2803962
AGGCGGACATGGAAAACATC
ACG





12590634
GCTATTGTGGCACTTGGGAA
ACG





11327712
TGTCTCCAAAGGCTAATAATTG
ACT





2803963
CTCCCCACCTC1TTCTTCTA
ACT





11844834
CCAGAACGCGCCCTCCTC
ACG





11320415
CCACTGCATGTCTGGGAAAA
CGT





8012752
GGCGTCTTGGAGGAGGTAC
ACT





11623878
ACAGGCATGCGCCACAGC
ACT





11623926
ATCCCAGCTACTCAGGAGG
ACG





12434442
TCTGATCGTATCACTCCCCT
ACT





2526930
GTCTGGGCCTGAGATATGGA
ACG





12435306
GATTCCCATTCTGCTGGAAC
ACG





10144028
GCCCCAACAACCTCACCC
ACT





4899436
GCCAAAGACCAGCGTCAAC
ACG





7140593
CATTTGCCTCATTTTTCTTTTGT
ACT





2107687
GGTCTGGAGCATAAAATGTATAA
ACT





991882
CAAATACTGTACTCTAGTTAATTT
CGT





3327
CTTTGTCCTCAATTTTTAACACT
ACG





2526928
GATATCCCACAATCACTATTTTTA
ACT





7401336
AAAATGTCAGACAGCACAGAG
ACT





2526926
AATATCTGTAGGTGCATATAAAC
CGT





994760
GAAACAACAGCATTAGGGCC
ACT





994759
CCCACATTCTTCACCACCC
CGT





994758
CCTGCTGGGGAATATGGTCT
ACG





11848404
GTCCGTGGTACTGTTCAGG
CGT





2526925
GCTCCATTTCTTTGCCATCC
ACG





11844236
CTTGGATGACATTCCCAAGTC
ACT





2526924
ATTGGCTTTGCCCTGGGTG
ACG





2803965
CCCTCTCAAGGTGATACCAT
ACT





2526923
TAGGATAACTATTCATTAACTTAC
ACT





7152467
AACTAGTCACATCTGAATAAAGT
ACG





11623462
AGGGGTGGGAGGGTACAG
ACT





2803966
ACAGCCTCAAGCCCCCGA
ACG





2526922
AATAATACACACTGTTAGACAAAA
ACT





2526920
CACCACTGACCCAGCTCAA
ACG





11848135
ACTAACACTAGTTTTGCCTGG
ACT





11629210
GCTGCCAATTTCTATGCACG
CGT





2803967
AAAATTATCTTCCTAGGTATGCA
ACG





16455
CAGTGTGTGAAGGTCAGGC
ACT





757655
GTCAGGCGGCTGAATCATTG
ACG





5809581
GTTTTCCACCAGCTATACATCA
CGT





3057139
GTTTTCCACCAGCTATACATCA
CGT





2247658
ACAGGCGCCCGCCACCA
ACG





11625609
CCTTAAAGGATAAATAGGAGTTTT
ACG





8005580
TTGCAGGAGATGATGCTAGAA
ACT





8010472
TCCCCAGCCATCTCCAACA
ACG





2526919
GAGGCACCTCATGACATCC
ACT





2803968
ACAGTGTAATGGAGGTGTGG
ACG





11623943
GTTGTGGGTGTCTCGATTGTA
ACT





11623946
GTGGGGTTGTGGGTGTCTC
ACT





1557926
GATTGAAAGGAGCCAGTGAG
ACT





12434611
GGATAGCTAAATATGTGGCAC
ACT





2526918
TGACAGCCACTTGGAGTGC
ACT





5809582
CCTATCTCTGAAAAAAAAAAAAAAA
CGT





8008279
GTTTCACTCTGTCACCCAGG
ACT





2803969
GCCAGGCATGGTGGCACAT
ACT





2526917
AGCATAGGGAGACCCCATC
ACT





8008774
CTGGTGGAGTAGAAAAAATATTA
ACT





2803970
GAAGGGATTTTTTAATGATGGC
ACT





8010255
CCATGGTGGGAAAAGAAGAG
ACT





2997642
TTTCCCACCATGGACCCCA
ACT





2803971
GCGTTGAGGGTGTGGGATG
ACG





11313760
TCCCATTCATGGCCAAACCT
ACT





2803972
CTAGGTCAGATCCGGGGTG
CGT





4903038
GGTGATTCGCATGCACAGG
ACT





2526916
AAGTCCTGGGAGGATGGGA
CGT





4903040
CTGCTTACAGCTCTGCAGC
ACG





2803974
CTGCAGCCACTAAGTGGAG
CGT





2803975
TCCCTGAAGACCTTTCTCCA
ACG





2803976
ATGACTGGATTCAACAGCCC
ACG





2803977
CTTTTGATCATTTTCTATTTTAGC
ACT





10139909
GGCAGTGAGGCAGACACCA
ACG





722945
GCCAGGAGCTCCAGTCCA
ACG





917069
GTATGCTGGCTGAATGGTCT
ACT





2803978
CTTCCCCTCAATGTCTTCTAT
CGT





2332890
GGTTGGGAACCCGAAGAATA
ACT





1989638
GAGAGAAGCAACAAAGTGAGAA
ACT





10679174
TACATTAATCCCCCCCCCC
CGT





2526915
GGCCGAGCGGTGTAGTGG
ACG





2526914
AAGGCCACTTCCAAACCCC
ACT





11158964
AACAGACAGCAGAGAGCCAT
ACG





11158965
CTTCCTGTTCAGCCACCAC
ACT





740081
CCCCCTGTCTTCCTGACTT
ACT





740080
TTGCCTCTTGTTACCCCATTT
ACT





10140582
CTGGCTGTGAGACTGTCAG
ACT





2526913
AGTGGGAAATACCTGAGCAAA
ACT





4899437
TGCCTTACACAGTGGAGAAG
ACT





10145678
TTCAGAAAAGAAGTGATCGGC
ACT





2107686
CTGAGAATAATATCCAAGTCCT
ACT





2107685
GCTCGTGGCTCATGCTACC
ACT





2107684
CAAAAGGCTTGAGACATTGCTT
ACG





7154188
CTTGGCTATCAGTGAGTTCC
ACT





4903041
AGGTAACCAAACGATGTGTGT
ACG





7159637
CTACCCTGTGATCACATATGAA
ACT





6574089
GGTTTCTTAGAAAAGAAGGGTAA
ACT





12589753
CCATAGATTAAGGCAAAGATCC
ACT





4899438
GATGAGAGGTCTGGCATGAA
ACT





4903042
AACACAGAGTAAAATGAAGTTTC
CGT





4903043
CCACGTATCTTTTGATGAACAC
CGT





2803980
TAAACCGCATTTAGCTTATCCA
ACG





10483848
GCTTTCTTTTTACTGCTAGGAA
CGT





2240344
GCTGACCAGAATACCCAGC
ACT





2286068
AGACGGCGGGTGTTCTAAC
ACT





11339669
CATCAGACATGATAACTAGGAG
ACT





3854
AAGAAAAATGCCCCACATTTTAA
ACT





11463
TAAAAGGAAAAAAGTGCTGACAT
ACT





1383
CGCCTTGAACTTCAGCAGCA
CGT





1381
ACCTGCCCTATTCCTGGCT
ACT





1377
CTGGCCAGAGGCAGAGAGA
ACT





11158966
AAAAAAAAATTCCCCTCCACTTA
ACT





11158967
TTTTCACAGTTAAAACACCCCA
ACT





11158968
TGATGTCATCTCTCTCCCTG
ACG





11158969
CTCTCCCTGCCATCCAAGTA
ACT





11158970
AGCCACAGAAAACCCCATCA
ACT





11158971
GGGACTGTCTCCGAGTAACT
ACG





11849782
GATAAGGGAGGGAGAAGAGG
ACT





10137616
TCAGGCACTGTCTGGAGGA
ACG





757572
GACAGTGCTGAGCAGTCACA
ACG





10140566
TCCTTCTCAGTGCATTACATC
CGT





2023480
GACTAACCAGTATCGAGGTTG
CGT





2526911
GTGGAAGCCTAGAGTGGAG
CGT





4903044
GTCTGCTCCAATTTTAAGTACA
ACG





11845162
CTTTAAGGGTTCCTGCTTACT
ACT





12147210
GCAAAGGAAGCTGGCCAGAT
ACG





2997643
ACTTTAGTGGTGGATGTGATAT
CGT





2997644
CATTGCATTGGAGGGAAATGT
CGT





3814867
GTCGTTCTTTGCCAGGAGG
ACT





2286067
GTTAATCCCTTTGGTGTGCAA
ACT





1060570
CCCAAATCCCCGTCACCAG
ACT





2332891
CACACACACACACAGACACA
ACT





2021736
AATAAATCAGAGCATCCTGAAAT
ACG





7160830
GTCCATTTGTGCAATTCTGTCA
ACT





2526909
TTCTTTGTTTTCCATTTCAGGG
ACT





7140963
GCACTTGGGGTCTTGGGCA
ACT





10143667
CATTTCCAGGGGCTGCTTGA
ACT





2803981
AAGATGAGATTTGGGTGGGG
ACT





768840
TCCTCCTTTGCCTTCTGCC
ACT





5809587
CCCTGCCATCCCTCTCTAA
ACT





2023479
GCTCCCAGGGCATCACTGT
ACT





4903045
AATATCATATTGGGCGAATCAG
ACT





4903046
CGGATCTCCGCTGTGGTGT
ACT





5809588
GCACAAATGCGCGGCCAC
ACT





10220555
GGCTGTGCTGCCCCAAGA
ACG





2906132
GGTGTGACAGTCATGTCACC
ACG





11848482
CCGGAAGTCATTCACTTAATCT
ACT





10129954
TGCTCTCAACACTTTCATCAC
ACT





252692
TTTAGGATTCATCCTTGCCTCT
ACG





4903047
GACTGGGTGGCTTAAACAAC
CGT





11846357
GCCTTGGGACTAGGGCCC
ACT





10136385
GGGCTCCACGTGTCTCTTG
ACT





12588242
CCCTGGACTGACCAACTCC
CGT





11621517
CCTCTTAGGAGCTCTGAGTA
ACG





2526910
GGGGTTTGCAAAGGCTTCAC
ACG





2526941
CCCCCAAGCTGATGCTCTC
ACT





2803944
CATCTCACAGTGCCCTCCT
ACG





12436770
GGGGAGGCCCCGGATCC
ACT





10220279
ACATGCACGCACACACACAA
CGT





10220280
GGGTGTGTGTGTGTCTATGC
ACT





11844112
CATGCCCTGGGGTTTGGAAT
ACT





12432455
CACCTGTGGCCAAGACCATT
ACT





8015338
TCGAAATGCCTGCTTGGCTA
ACG





3832969
TTCAGCCAGCCAGCCAGC
ACG





9671972
TAGTGTTTCACTGTTTAGAACG
ACT





9671975
TTAAGTAGTTCTTCTTATTCCTG
ACG





7159986
CCTTAACAAAGAAGTCCAACCA
ACT





11848220
CTTCCTCTCTCTCATAAATATTG
ACT





5016369
GTTGTCCAGAACAGCCTTCTA
ACT





1986423
GAGATGGGCGAAGAGGCAA
ACT





2332909
ATGGGCGAAGAGGCAAATTG
ACG





8013337
CAATTGAAATAGCCCCTCGC
ACG





11445680
AGGTCCTGTGTATCCGCAG
ACT





4903048
GGTAAACACTCAATAGCTGTTG
ACT





12434793
TCAAGACGTTTCTTTCCATTGT
ACT





2332910
GGGCAAACACTCCTTCTGCA
ACT





4410017
GGAGAACGGAGGGTGGGAA
ACT





4577019
GAGAACGGAGGGTGGGAAG
ACT





2332911
ACCTGCTCAGACTGGGTAC
ACT





4996747
CTGGGTACGCAGGGTACAG
ACT





10140820
TAGCTTCAGGACCTACAGAG
CGT





12431623
GGACATCTCTAGGAAGGTTG
ACT





6574090
TTTGTGCTCCTGTTAGAATCC
CGT





8008750
CTGATGTTCCCAGCAACCCT
ACT





11627420
GGGCAGGGAGTGGTCACA
ACG





10150185
TCACCACACTGACTTCCACA
ACT





10150218
ACGTACCATTTTAACGCCCC
ACT





9646164
GAGTGGGGCAGCGGGGC
ACT





6574091
CACGTGAGCCTTAAAGAATATG
ACG





2332912
CAGGAATTAAGACCATGATTCA
ACT





7155359
CTGCAGTTAGCAGCTACAATA
ACT





2332913
GAAGCTTGGAGCAAGAACACA
ACG





4544184
ATTTAACCCTTCCTGGAATGC
CGT





4337224
GGTCTACACTTAAGCATGGCA
ACG





2332914
GCATCAGACCCCATGCCC
ACG





4280167
CGGTCCCACCTTCCTTCCT
ACG





4903049
CTAGTAGAAACCACCTCTTGG
CGT





3742837
CACGGTAGTGTGTGGGAATTT
ACT





10139937
CCCACACACTACCGTGCC
ACT





12434292
TTAGCCTCCTAGCTTCACTG
ACT





11620671
GGGATGGACACAGAAGCCT
CGT





10140184
GCCCAGTGCACGAGTGTAG
CGT





2332915
CCTCCCTCCCTCCCACCA
ACT





2332916
GGGACTCTTCCTGAGGCAG
ACG





8012759
GTCACCTCCTCAGAGAAGC
ACG





10149272
CTTAGTGCTGTCCCCTGTG
ACT





11158973
TTATTATGACCCCCTAACACTT
ACT





4903050
CCTTTGGCTGGTCACCTTC
CGT





10666445
CAGAAACCACCTGGGTTCCT
ACT





2536143
GACAGACTCGGTCCCAAGC
CGT





10638231
CACCCTTGCTATTTTTTTTTTTTTT
ACT





12431636
GGCTCAATCTCGGCTCACT
ACT





8005904
CCTCGTGATCCACCCGCC
ACG





11621058
CTGTAACCAGAGGTGCACAC
ACG





10133224
CTAAGGTAGGGATTACAGAATA
ACT





12433185
CAGTTCAGCTGTTTTGCCCA
CGT





740974
GGACCATTTCCCACACTTGC
ACT





740973
GTGCATGTCCAGACCCACTT
ACT





740972
TCGAGCTTGGACTTCCTGG
ACT





740971
GCCCAGGAAGTCCAAGCTC
ACT





4243642
AGAGGTATGCTGTGGAATCC
ACT





4415952
GCTTCTAATATAGTATAAAGCCC
ACG





2215589
GAGCCTGAAGGGGTGAGAT
ACG





4343211
GGGACCTCCAGAAGTAAACT
ACT





2536142
GCTTTTTCCTTGTCCCATCC
ACT





11293340
TTATAGTCATGATTATGGTTTATTT
CGT





10151620
ACGACCTGGGATCAGAGCT
ACT





2286840
CAAAGGCAGCGTCTTCACTT
ACT





8023089
CCCTTTTCTATGTGGGGCCA
CGT





8008009
CAAAACTGTTTTCAGCCTCAG
ACG





11419089
CCCTGTCTCAGAAAAAAAAAAAAA
CGT





10694676
CCCTGTCTCAGAAAAAAAAAAAAA
CGT





2536141
GGTTGAGGCTGCATTGAGC
ACG





765247
ACACAGTGAGCCCATAAAGAA
CGT





7147626
GGAGCCTGCCACGTAGTC
ACT





10132629
CCTAGCATGGAGCCTGCCA
ACG





4903051
CTCTTCTCAAAACAGTGGTAG
ACT





11158974
GACACCCCACCCCCGTC
ACT





1035021
GATGTGGGGCCAGCAATGG
CGT





6574093
GCAGTGGCTCTGCCCCAT
ACT





4899439
TGCCCTGGCCATTTCCCC
ACT





7155287
TCTGGGACAGGCCTGGCA
CGT





7154402
GAGAAGCCAATCTGAAAAGGC
ACT





7154781
CGGTTCACTCTTGGCGTTG
ACG





6574094
GGGGTCCCCAGCAGGTG
ACG





10132242
GCCGTGTGAGCCCACATC
ACG





10146959
GCATGGCCATGAGGAGGTC
ACT





10147466
CCCTGTCTCTAAAAGAGAAAGA
ACT





11626411
AGCTCCTGTCCTGGGGCT
ACT





4899440
AGAAACAGAGGGAGTCTGAC
ACG





10144553
GTAAGCCTCCTAAAGGCAGG
ACT





11627663
TGCTGTGTGGCTGTTGGTG
ACT





11627799
TTACATTCTGAGACTCACTCC
ACT





11851733
GAACCTATGGGAGCAAATCAA
ACG





10140317
TAGAAATACCAGATCGGATACA
CGT





8007375
AACACACTTCTATTGAGCCCT
ACG





4899441
TGACAGCTGCTGCCGCTC
ACG





11158975
GTGTGTGTGTGTGGTTTTTTTT
ACT





11419607
GTGTGTGTGTGTGGTTTTTTTT
ACT





2109793
GGCTCACTGCAACCTCCC
ACT





8023156
GTGGAAAGAAGGGAGCTCATA
ACT





10140579
CTGTGGCTCTGCCATGATTTT
ACG





7148199
GAATTTGCTGCAGACAGCTC
ACT





7146916
CACTGCTGGGTGGGTCTC
ACG





1990439
GTCACACAGACTTCGTCCC
ACG





6574095
CAGCTCCGCAGACCTGAG
ACT





10140037
GGGTGTGGAGGGGCACC
CGT





8007249
TCAAAAAGGTCATACCAATTCC
ACT





1990438
ACAGACCTACTACTAGGCCT
ACT





1990437
CTTCCTTTCCCTTCCCCTC
ACT





10146484
CTCAGATACATGAGCAGCACA
ACT





11627333
GGTGAGAGAAATCAGACTGTG
ACT





7155802
CAGATTAGCTGGCTGGGGT
ACG





2109792
GCCTGGTTGCAAACTCCTG
ACT





11429363
ACCTAGCTATTTTTTTTTTTTTTTTT
ACT





8004210
GGTGTCCTGTGTCCCAGCT
ACT





2098194
CTGTGTACTCACAGGCTCAA
ACG





2109791
CGCTAGGTGGTGCCCCAG
ACT





11381729
TCTCTCTCTTTCTTACTTTTTTTT
ACG





1160094
AATCTAGGTTGCCTGATTTCC
ACG





11628051
TCTTTCAAGAGATAATCCATGC
CGT





10136771
GGGGACTACAAGTGCATGC
ACG





10139903
AGGTACCTCACTCCTTCCTT
ACT





4903053
GCCTGGGCAACAAAGCTAGA
ACG





3742836
GGATCTTCAGGTGGGTGCA
ACT





3742835
GAAACTACCCTGACTAACCC
ACG





8003233
GTGCCACCCTGTGTGTGTG
ACT





11621588
ACCAGCAAGCCAACAAATCC
ACG





740981
GCATATGTGTGCGTGCATGT
ACT





8019492
CAGAGCAAGATTCTGTGAAAGA
CGT





8019644
TTCCTTCTTTCCTTCCTTTCTT
ACG





8019646
TTCTTTCCTTCTTTCCTTCCTT
ACG





8019653
AAAGAAAGAAAGAAAGGAAGGAA
ACT





11450794
AGGAAGGAAAGAAGGAAAGAAA
ACT





11348193
TCTTTCTTTCTTTCTTTTTTTCTTT
ACG





11450793
CCTTTCTCTTCTCTTCTCTTCT
ACG





11282735
CCTTTCTCTTCTCTTCTCTTCT
ACG





2191823
AGAAGCTGGAAAATATGACTTAT
CGT





12232220
ACAATGATGGCCGGGCGC
ACT





11158976
AAAATAAACTAATGCATACTTTGTA
ACG





4903054
TCCTTCGTAATAAACTGGCATT
ACG





11846755
CTGCCTCAACTTCATATGCCA
ACT





12431988
GCTATGCTAGTAGGGGAGG
ACG





12100526
TCTTGGACATTTTGGCTGTTAT
ACT





11622568
TCAACCTGTGGGTTTATGGG
ACT





9671230
AGTCCTGGAGAGGAGGAAG
ACG





12147487
AGTAGTTTCTGATGGCCTTCT
CGT





4903055
GCACATGCCACCACACCC
ACT





12147515
CGGCTCACTGCAACCTCTG
ACG





11625092
CAGAGATGAGGCAAGATAAGC
ACG





4899442
GACCTAACTACCAATTCACAG
ACT





2052146
GAGCTCTGATAGTGATTGTGAGT
ACT





10220553
CCTGGATATGTTTTTAAAAATGTT
CGT





10220565
CTGTAATCCCAGCGACTCAG
ACT





2332917
GGCTTGAATTTACCTGGCATAA
ACT





7158910
GTCCACTGCCCCCCGAC
ACG





8015749
AATATCCTCAGGGTTAACCTAT
ACT





8006812
TCTACCATCATCTCCAGGGA
ACT





8008338
GACCAGGTGTTGGCAGAGA
ACG





2052145
ATTCAGATGGGATCACAGAAG
ACT





2052144
ACTCAGCTCTCAGAGCTGG
ACT





10146692
GAGGCGCCTCTTCCTCACT
ACT





11627305
CCGCCCACAAACACACACG
ACT





2079989
GGAGGAGGCATGTCACATGA
ACG





8018881
TCAGGTCAGGAGGATGGAG
CGT





4561387
AGAAGACAAATACTAAACATTGAA
CGT





11622025
GAGAAAGGAATGGCTATTGATT
ACT





740980
CACATTGGGTAAATGATGA
ACT





12433250
TGGAGAAATGAAAATCTCAGGA
ACT





5809590
GATGTCAGCAGCATTGAGAAT
ACG





758915
GACATCAGACCTATGCCAGGA
ACT





758914
CCCCAGTGATCCTGAGAAAT
CGT





7154229
ACAAAGTCTGCTAACTGGGC
ACG





12437188
AAGGGATACCTTTGTCCCCA
ACT





7159108
CAAGGAGCTGCCAAGGACA
CGT





4903058
CCACCTCACTTTTGTTGCATT
ACT





4899443
GTAGCCTCCACCTCCCAG
CGT





11848907
ACTCCAGCCTGGGCGACA
ACT





12432148
GGAGGTGTTAGTAGGAGAGA
CGT





12435078
TGCCATCTCCTCTACCTGG
ACG





6574096
CTCGACACATATCACTCAACA
ACT





11158977
GCTGGCAGGAGACCCCC
CGT





11629434
AATCCCATGCCAGCAGGTG
CGT





4378563
GGCCTCCATGCCCTGCTTA
ACG





2098195
TAAACCTTTCTATGTTCCTG
ACT





4633653
CTGGGACAGGGTATGATCC
CGT





7148350
GTGACCCTTCCACCATCAAC
ACG





740979
TGCTTTGGGGCAGACTGAC
CGT





740978
AAGCCTTCCTATCCCCA
ACT





740977
TGGTTTTCGAATAAGTAGCCAC
ACT





740976
ATCCAGATGGCCCTGAC
ACT





4903059
TCCACACCACGCTGCCTC
ACG





4903060
AGGCCAGAGAAAGAGGCGA
ACG





11852056
CCCCTCAAGAGCCCCATC
ACT





9635257
ACCACTGCCGCTGCCCC
ACG





9635258
CAGGGTTTGTTCTCTGTCTC
ACG





9635259
CCATCACAGCTTCAAAATCACA
ACT





4899444
AAATTCCTTAACCTCTGTGAAC
ACG





12435382
CTCCCCTGGGGCTTCCC
ACG





12435412
GGGCAGGTCCAATGAAAATCA
ACG





11627381
AGGACCCCACATTGTGGTAA
ACG





2052143
TCTACCTCCACTTCCAA
ACG





2052142
AGCCAGGATAATCTCCTCA
ACG





2052141
CTTACCCCCAAAGATGTCCA
ACG





8021035
GAGGCTAGGACCAAAGGAAC
ACT





11158978
CTCAGGAGGCTGAGGTGG
ACT





11621216
CATTTACCACTCACAGGGTAT
CGT





10130873
TTGTCACTTCCTCATGCCTC
ACT





11621358
CTTGTCACTTCCTCATGCCT
ACG





758913
CCAGTCTAGTTTTCGATCACC
ACT





11622602
CAACGTAGGATGTGGTGATC
ACT





10136931
CCATATTTTCAACATACATACATA
ACG





740975
ACCAGCTCTCTTTGGAT
ACT





747987
AACCTGGTTCTGCCATT
ACT





11623819
GGCAACTCCTTCCACAATGG
ACG





12434445
CTGAAGCAGCTGGGAGCC
CGT





8003375
CTGTCAGATGCCACACATCAA
CGT





10143596
AGATGGATAAATAGATAAATGGAT
ACT





12435321
TGACTGCAGTGGGCTGCC
ACT





12435401
TTTTGGGTGTCTGGAATAACG
ACT





8010609
GGCTGCCTGCCCAGATCC
ACT





11158979
GACACCAAAACCCAGTGCCT
ACT





11158980
ATATGCTCACAGTTCAGGCAA
ACG





11627524
TGCCTGGACAAGGCCCATA
CGT





1126160
GAAGCCCATCGCTAAGTGTTT
ACT





10136074
GGTGACACGTTGGGCTTGT
ACT





4903061
CAAAGGTAGTTGAATCTGATTC
CGT





10665398
TGTTTGTGTGTGTGTGTGTGT
ACT





6574097
GTGTGTGTGTGTCTGTGTGT
ACT





9671654
ACACACACACACAAACACACA
ACT





10140024
AGGCTGGGCACAGTGGCT
ACG





10142421
AGATCACCGCAACCTCTGC
ACG





10142593
GGCAACAAGAGTGAAACTCTA
ACG





11423372
TCTTGCTCTGTCACCCAGG
ACT





5809592
TCTTGCTCTGTCACCCAGG
ACT





2332918
TCTCTCTAATGGGGACC
ACG





2332919
ACTGGATCCCAGAAGAG
ACT





8007348
GGAGGCCAAGGAGTTTCAAG
ACT





1990443
TTCCCCTCAGCTCTTAG
ACG





8007690
TAGCCATCCTTCCTCAGATG
ACT





3937455
TCCTTTTTTCCCCACCC
ACT





8012823
GCTCCTGGAGGGCTTCCAA
ACG





4899445
CCCTCTCCAGGGCCATGC
ACG





4903062
CTTGGGCAAACTCCTTAAAATA
ACG





973963
AACAACCAACTCTCCAG
ACG





10149962
CAGCAGAACCGAGGTGAAAT
ACT





8003449
CATTTTCAGGGATGCCTCCT
ACT





11620775
GCACAAAGCAGCAGGGAAC
ACG





8009089
ACAGACACTCCCACATCATC
ACT





8008967
CCGACTTCTCACTCTTTCTG
ACT





12050132
CAGGCCTCCCCATGCACT
CGT





10133018
AAATAACCCCAAGAAGCAGAC
ACT





1990442
CTCCAACTCAGAACATGCTC
ACT





1990441
CATGAATGTGATTCACATTCTCC
ACT





8015833
GGAAGAGACGGGCGGAGAA
ACG





1990440
CGTCAGCAAATGTGTACCGA
ACT





4903063
CATTGAGATGGGAAGGGCAA
ACT





10139810
TTTTTCCCATCCCCACCCC
CGT





4903064
GTGTCAGCAGAAAAAGTGTAC
ACT





2159715
CATAGGGATAGGAATGGG
ACT





2109795
TCCCAGAATTTGGAGCC
ACT





2159714
CAAAAGGATCTGCAAAAG
ACG





11623107
TAGTGAGCAGGGGAGCCTA
ACT





7152005
GCTGACCCCAGGCAGGG
ACG





7152489
CTGGGGCTCGAGCACAGA
ACT





4479167
GGTGTCAGCAACCACACCC
ACT





4606655
GCACCTGCCATCATGACCA
ACT





4606656
CTGCCTTCCCGGTTAAGCA
ACT





4489943
GTTGCAGTGAGCCGAGATC
ACT





7142642
TGTTGTTTTAAGCTACTGAGTTT
ACT





8006233
AGGGTGTGTAATGTAACATTTC
ACT





8007559
GCCCTGCACTCCCACCCT
CGT





8006156
TCCCACCCTTGTACACTGC
ACT





1468662
CTCTGACTGAGGAGAGACC
ACT





11627048
CCGTGGAGGACCCCTGGA
ACG





6574098
GACCTCAGGTGATCCACCC
ACT





12433760
GCCAAGGTGGGCAGATCAC
ACG





12433780
GAAACCAGCCTGGCCAACA
ACG





12434506
GGGAAACACAGAAAGACCCTA
CGT





12434673
ATGGGTGTGAACGGTAGCTT
ACT





12431400
GCCATTTTAATGGGTGTGAAC
ACT





12431384
GTGGCTGTGCTTTTGGTTGC
ACG





4903067
GCTGCTAATGTACACAACAATG
ACG





2332920
GAGATGGGGTTTTCCCATGT
ACG





2215591
TTCAATAAAATGTACTCATTCAAA
ACT





12433064
GACCAGGAGTTCAAGACCAG
CGT





12436263
GACCAGCCTGGACAACATGA
ACT





12433097
TCACTGCAACCTCTGCGTC
ACG





12433184
GTGTGCATGCCACCACGC
CGT





8015900
TGTGACCTCAGCTCACTGC
CGT





11296981
AGATGTGTAGATGACTTACACT
CGT





11344025
AGATGTGTAGATGACTTACACT
CGT





11464204
CGAGAGCTCATCTCCACTAAA
CGT





11441172
GTGCCTGGCTAATTAAAAAAAAAA
CGT





11381807
CTCATCTCCACTAAATTTTTTTTTT
CGT





10873251
CCACCTTGGCCTCCCAAAG
ACG





2109794
AGCACTTTGGGAGGCCAAG
ACT





10873252
GCATGTGCTACCACGCCC
ACT





4520784
CCAGGTTCAAGTGATCCTCC
ACG





2877820
TGCCCTGTTCTGCACCTTTAAAA
CGT





2877821
CCCTGTTCTGCACCTTTAAA
CGT





4569195
AGGGAGAAAAAAATAAAAGGACA
ACT





11628905
GGGAGTGGGAGGAAGCCAA
ACT





2191822
AGGAAAGGAATGTCTGCCCC
ACT





2191821
ATGTGGGTTTGGACTGGGGCT
ACT





11464689
CGTTTTCTTTTTCTTTTTTTTTTTTT
ACT





12431959
GCTGAAGTAGGCGGATCAC
ACG





4903068
CTCTCTCACAGAGCACACTC
ACT





1544579
GACATGCATCAAAGCAGCTG
ACT





7155879
CCTTTTCGCTGAAAAGAGGG
CGT





12433603
GGAAGAAGCCCTCTTTTCAG
ACT





11351432
ACTCCATCTCAAAAAAAAAAAAAAA
ACT





11448438
CAAACCACTGTATAAGTCCAG
ACT





4243643
CTCAGCCTCCTGAGATGCT
ACG





4140952
CATGCTACAAGCAACCTTGG
ACT





8005372
AACAGTGGTTGAGTACCTGC
ACG





8004109
CATGACCCTGTACCCAGCAT
ACT





8008398
TCTATGAACCTGTTGAAGGCA
ACT





8009692
CTTCTCCTCCCCATAGCTCT
ACT





2332921
TGTCTCCAGGGTCTGGGG
ACT





12050320
CAGCAATCTATGCACAGAGAA
ACT





12050323
CAAAGGCTGAGAAAGACTGAA
ACT





8010316
AAATTTAACCATCATCTGCCAG
ACT





7154293
GGTCAACATGGTGAAACCCC
ACT





12147969
AAAATAAGCCTGGCGCACCT
ACG





2215590
CAGGGCCAGCCATGAACGT
ACG





4265749
GGATCATCCAAGTATGCTCC
ACG





1004552
TCTTGGCTCAGTGCTGC
ACG





4307892
GAGCAATGAACACCAATATCC
ACG





12431973
CTGAAGCAGGAGGATCGCTT
ACT





12431975
CGCTTGAGCCCAGGAGTTC
ACT





767874
CATTTGCCCTATCTGTAGTTC
ACT





11628597
CATCTCCCCGAGGCACCC
ACT





10129371
TCCAGTGATATGCTTCCCTC
ACT





4903069
GAACCTGGGAGGTGGAGGT
ACT





4903070
TGTTGGCCAGACTGGTCTC
ACT





4903071
GGGATCAGTAAACCTTTCCC
CGT





11622224
CTTCATGAAGGCCGCAGAC
ACT





10459455
CTCGACTCATGGCAACCTC
ACG





9323577
CTGGGCAACAGAGTGAGAC
ACG





10624648
CTTCCCTGACCCCCAAACAA
ACT





3058953
CTTCCCTGACCCCCAAACAA
ACT





11158981
ACCTCAAAACCTGACTATAGAA
ACT





11158982
CTCATCAAAAGTAAAATGGGAAAA
ACT





11158983
TTTTTGTTCATTGGCTAATTTCTT
CGT





1860750
CCTTAATCATGTTTATTTATTTATTT
CGT





1860749
TTAAGGATAAAGCAATCCAG
ACG





1860748
TCTTGGAGCCATATTTTATTTG
ACT





1860747
GACAGAGGAGAGCTCCCC
ACT





11419679
AGCCCAGTAGTAAGGAAAGAA
CGT





8011777
CAGAGTGAGACTCCGTCTCA
ACT





6574099
ATGTTAGCCAGGATGGTCTC
ACT





8010957
GATTATGAGCCACTGCACCC
ACT





11626895
GCCCATCTTCTTGGGTGTGT
ACG





10151431
CTGCCTCCTGGGTTCAAGC
ACT





4903072
GTGTGACAAGCCAATATTCCC
CGT





4589489
CCACACCATTACCAGGCCA
ACT





9671327
CCACTGTGCCCAGCCTAAA
CGT





4899446
GCTGGGCACAGTGGCTCA
ACG





10144501
AGATCATACCACTGCACTCC
CGT





5809594
GTGCGCACACACACACACA
ACG





720317
CATGTGTGTGTGTGTGCGC
ACT





8014316
CCCGGCATTCTCTAGCACC
ACG





11158984
GGGACGTTCAAAGGGGAGC
ACT





6420906
GTACAATGTACAAAATGTCCACT
ACG





8004055
CCCACAGACTCCTACGGG
CGT





12434800
TGTTGACTGCCTTACACACC
ACT





4243644
TTACCCTACAGCTGATTTTTTTT
CGT





4899447
CCTTGCGTGTGTGTGTGTGT
ACT





4903073
TATGCCTCAGCAAGCATGCA
ACG





11848634
TGCTGATTGTAAACAATGCACA
ACT





4899448
CTGCTCTTGACTAGTCTTAAAAA
ACT





10131564
CTCTGTCACTGACTGGCCC
ACT





10134150
AGAAGAAGCATTGGTCTGTTTA
ACT





763388
CACTCATGCCTCAAGCCAAT
ACT





11845938
TGAGGCATGAGTGATCAGCA
ACT





11845946
ACCTAAGTTTCCTGACATTCC
CGT





11845915
TACAATTCACCCAGCTCCTC
ACT





10137463
CCATCTGCCTGTCCTCCTG
ACT





6574100
CAAGAGCTGGAGTGATTTGTTT
CGT





7140344
ACATGCTAGGAAGTAGGCAAT
ACT





10646889
CACCTGGGTTTTTTTTTTTTTTTTT
ACT





7146287
TTGAACATGCAAAGTATTTCTGA
ACG





10605948
GCTTCCTCCCCCCCCCC
CGT





5809595
CACCATTTCTGTTTTTTTTTTTTTT
ACT





1035099
TTGGTCAACATCGCAGC
CGT





7159877
ACAAACCTCCACCTCCTGG
ACT





7142579
CATGTCACAGTTCTGAATAGAG
ACG





12431762
GAGCTAGGGGTCTGAATTAG
ACG





12431764
ACTTAAGGAGAGCTAGGGGT
ACG





10647999
CTTTCTTTCTTTCTCTTTCTTTCT
ACG





6574101
GGAGCTCAGTGGCACACGA
ACG





6574102
GAGCAAGTGGAAGATGAGAC
ACT





1861162
CGATGTGTAGAAAAGGGCAC
ACT





12432972
GGAGGCCGACACTGACCA
ACT





10146134
TTATACTTTTGATGGCTCCTAC
CGT





10146616
TCCTGACCATTCTACTGCCT
ACT





10146769
GGTCAGGAGGAGAGAGGGA
ACT





8018936
GGCAAGGACATAAAGCTTCAT
ACG





10483849
GCCTGGAGATTTCGTGGTC
ACG





2160137
GGGTACCTGGGAGTCAGAC
ACT





2192595
CTTGGGCATCCTAGTAGAGA
CGT





2192594
CGGATTTTCATGTCCTGGAAA
ACT





11271695
CTCCTGCCATGATTCTGAGG
CGT





10747301
GATTTCAGACCTACCTGGGC
ACT





12050363
GTACAGCCTCCCTCCTGC
ACT





12050368
GCCTGGAAAAGCTGCAGAGA
ACG





12432949
ACCCCATCAACAAGTGGGC
ACT





7401375
ACCATCTCACACCAGTTAGAA
CGT





8019682
ATGTTTTAGCGAAGAGACTGG
ACG





8021248
ATTTTCTCTTGCTGCTGCCAT
ACT





11158985
GTGAGGACACAGCCAAACC
CGT





10483850
GGAAGGAAGTGGCCAGCAC
ACT





8010875
CTCATTTTTCCCTTCTGTTCAC
ACT





11626844
CCTGAGAGAAGCTGCTTCAC
ACT





982972
AAGCACTGAAGGGGCACAAA
ACT





7161198
ATAGAGATACCAGCGTATCATT
ACT





7160347
TTAGCTTTATTTATACTGGAGGA
ACG





8007139
GATTCCATCTCCAAAAAAAAAAAA
ACT





8014483
ACTCTCCAAGGCAACTCACT
ACG





12437072
CCAACGTCACAGTCCTAAGT
ACT





8004767
GCACCGCGTTGCCGCCC
ACT





12588830
TGCCCTGCCAAAAAACAAGG
ACT





7158449
CCCAGGCTGGAGTGCAGTA
ACT





6574103
GGCTGGCAACCAAGACATG
ACG





8020478
GGTGGCTTACGCCTGTAATC
ACG





4903077
ATTACAGGCATGAGCCTAGC
ACG





8012359
CGGAGAGAAACTTTGTATGCA
ACG





4899449
AATGGCTAAAATGGTACACTGT
ACT





10690289
GTGATCTGGGACACAGAACTT
ACG





6574104
CTGGCACATGTCTAATCCCC
CGT





2110552
TCCGGTTACTGGTGTTTCAC
ACT





8008256
GGGGAGAGATGAGGTGTTG
ACG





759283
CAGGAATGTGACCCCCACC
CGT





4999177
AACACCCTGTCTCAAAAAATAAT
ACT





2333006
CATTATGTTTCCCAGGTATGCA
ACT





8006178
TCTCTAAGCTTGTGTTCCCC
ACT





11158986
TACCGAACCCACAACTGATTT
ACT





7150625
GGCGGCTTAACAGTTCCAC
ACG





8007768
TACACGAGCAGACACACGC
ACT





8007058
GAGCGCCCTGCAAACTCC
ACT





DPF3-AA
CCCGTCGCTTCCCCTGAG
CGT





2215901
CTCTGGGCTTTGACAGCTC
ACG





3814866
GAAAAGGAGCTACCAGCGC
ACT





3814864
TGGAAGGCTGCCGTTTCGT
ACT










Genetic Analysis of Allelotyping Results


Allelotyping results are shown for cases and controls in Table 44. The allele frequency for the A2 allele is noted in the fifth and sixth columns for breast cancer pools and control pools, respectively, where “A” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 44BreastPosition inChromo-CancerdbSNPSEQ IDsomeA1/A2p-Associatedrs#NO: 6PositionAlleleCase AFControl AFValueORAllele1184627420771066357G/AG = 0.001G = 0.0020.8973.28AA = 0.999A = 0.998252693548671066636T/GT = 0.749T = 0.6990.1340.78TG = 0.251G = 0.301929328174571067895T/CT = 0.559T = 0.530.3720.89TC = 0.441C = 0.4703742840192271068072A/GA = 0.999A = 0.9980.9350.68AG = 0.001G = 0.0029671739219071068340A/CA = 0.001A = 0.0010.9630.49AC = 0.999C = 0.9998006208259071068740C/TC = 1.000C = 1.0000.9910.31CT = 0.000T = 0.0008006230263771068787T/CT = 0.002T = 0.0030.9241.99CC = 0.998C = 0.9978007836280471068954C/TC = 0.001C = 0.0010.9760.60CT = 0.999T = 0.9998006889280671068956G/AG = 1.000G = 1.0001A = 0A = 08010823289571069045C/TC = 1.000C = 0.9990.9110.26CT = 0.000T = 0.0018011029310971069259A/TA = 0.997A = 0.9990.8581.89TT = 0.003T = 0.00110649920318571069335—/AA— = 0.579— = 0.5750.8810.98AA = 0.421AA = 0.4252803956335571069505A/GA = 0.621A = 0.5710.1180.81AG = 0.379G = 0.4292803957364271069792C/TC = 0.732C = 0.7580.3821.15TT = 0.268T = 0.2422526934380571069955T/CT = 1.000T = 1.0000.98CC = 0.000C = 09671558423671070386A/GA = 0.001A = 0.0010.9510.36AG = 0.999G = 0.9992526933433171070481C/GC = 0.699C = 0.7050.851.03GG = 0.301G = 0.2952803959450971070659T/CT = 0.565T = 0.5580.8290.97TC = 0.435C = 0.4422526932495971071109C/TC = 0.559C = 0.60.2261.18TT = 0.441T = 0.4002803960500971071159G/AG = 0.002G = 0.0020.9521.47AA = 0.998A = 0.99812434675567671071826G/AG = 0.71G = 0.6820.3440.88GA = 0.290A = 0.3184899435650771072657G/CG = 0.002G = 0.0030.9321.52CC = 0.998C = 0.9972526931669571072845C/TC = 0C = 0.0010.906TT = 1.000T = 0.9992803961671771072867T/CT = 0.509T = 0.4940.6470.94TC = 0.491C = 0.5062803962713171073281C/TC = 0.443C = 0.4260.5980.93CT = 0.557T = 0.57412590634787371074023C/TC = 0.639C = 0.6120.3930.89CT = 0.361T = 0.38811327712792271074072—/C— = 0— = 01C = 1.000C = 1.0002803963865271074802A/GA = 0.525A = 0.5770.1091.23GG = 0.475G = 0.42311844834981771075967G/AG = 0.998G = 0.9880.3090.23GA = 0.002A = 0.012113204151027271076422—/A— = 0— = 01A = 1.000A = 1.00080127521082371076973T/CT = 0.002T = 0.0020.9251.65CC = 0.998C = 0.998116238781146571077615T/CT = 0.127T = 0.1040.2640.79TC = 0.873C = 0.896116239261163971077789C/TC = 0.975C = 0.980.7161.21TT = 0.025T = 0.020124344421217771078327T/CT = 0.354T = 0.4120.05841.28CC = 0.646C = 0.58825269301260471078754G/AG = 0.929G = 0.9110.320.78GA = 0.071A = 0.089124353061336371079513G/AG = 0.425G = 0.4550.3541.13AA = 0.575A = 0.545101440281345471079604C/GC = 1.000C = 1.0000.972.29GG = 0.000G = 0.00048994361354071079690C/TC = 0.999C = 0.9990.9660.75CT = 0.001T = 0.00171405931392371080073A/CA = 1.000A = 0.9990.9810.76AC = 0.000C = 0.00121076871450771080657T/CT = 0.999T = 1.0000.9263.80CC = 0.001C = 0.0009918821655071082700C/AC = 0.001C = 0.0020.8753.36AA = 0.999A = 0.99833271764171083791C/TC = 0.003C = 0.1542.36E−0760.70TT = 0.997T = 0.84625269281890371085053T/CT = 1.000T = 1.0000.9940.90TC = 0.000C = 0.00074013361939571085545A/GA = 1.000A = 1.0000.9552.83GG = 0.000G = 0.00025269261952771085677T/AT = 0.953T = 0.90.004030.45TA = 0.047A = 0.1009947602036971086519T/CT = 1.000T = 1.0000.9490.36TC = 0.000C = 0.0009947592050571086655G/TG = 0.469G = 0.5110.1811.18TT = 0.531T = 0.4899947582056271086712C/TC = 0.916C = 0.8840.1180.70CT = 0.084T = 0.116118484042090771087057A/TA = 0.002A = 0.0080.5534.19TT = 0.998T = 0.99225269252094971087099C/TC = 0.999C = 0.9980.8810.46CT = 0.001T = 0.002118442362127871087428T/GT = 0.008T = 0.0360.09964.84GG = 0.992G = 0.96425269242131471087464C/TC = 0.005C = 0.0020.8180.36CT = 0.995T = 0.99828039652190571088055C/GC = 0.767C = 0.7810.6191.08GG = 0.233G = 0.21925269232225271088402G/CG = 0.179G = 0.1890.751.07CC = 0.821C = 0.81171524672294171089091C/TC = 0.999C = 0.9980.9410.73CT = 0.001T = 0.002116234622354271089692C/GC = 0.205C = 0.1680.1730.78CG = 0.795G = 0.83228039662467771090827C/TC = 0.44C = 0.420.5220.92CT = 0.560T = 0.58025269222500971091159T/CT = 0.543T = 0.5340.7770.96TC = 0.457C = 0.46625269202561871091768C/TC = 0.604C = 0.6160.7151.05TT = 0.396T = 0.384118481352608271092232T/CT = 1.000T = 1.0001C = 0C = 0116292102613671092286C/AC = 1.000C = 1.0000.9840.59CA = 0.000A = 0.00028039672649171092641C/TC = 0.001C = 0.0010.9890.88CT = 0.999T = 0.999164552887371095023—/GCC— = 0.725— = 0.7450.4981.11GCCGCC = 0.275GCC = 0.2557576552888671095036G/AG = 0.613G = 0.6650.1061.25AA = 0.387A = 0.33558095812910571095255—/TCTGTAAT— = 0.005— = 0.0020.7610.39TCTGTAAT =TCTGTAAT =0.9950.99830571392910671095256—/CTGTAATT— = 0.005— = 0.0040.8540.67CTGTAATT =CTGTAATT =0.9950.99622476582957271095722C/TC = 0.801C = 0.7970.8820.98CT = 0.199T = 0.203116256093064071096790C/TC = 0.999C = 1.0000.8913.18TT = 0.001T = 0.00080055803080171096951A/GA = 0.998A = 0.9980.9660.84AG = 0.002G = 0.00280104723096271097112G/AG = 1.000G = 1.0000.9170.18GA = 0.000A = 0.00025269193166271097812T/CT = 0.557T = 0.5390.5820.93TC = 0.443C = 0.46128039683437471100524G/AG = 0.359G = 0.3080.08740.79GA = 0.641A = 0.692116239433449471100644T/CT = 0.001T = 0.0020.9032.17CC = 0.999C = 0.998116239463450171100651G/CG = 0.002G = 0.0020.9670.77GC = 0.998C = 0.99815579263454471100694C/GC = 0.646C = 0.6580.6921.05GG = 0.354G = 0.342124346113549371101643A/GA = 0.486A = 0.5280.1931.18GG = 0.514G = 0.47225269183559471101744T/GT = 0.998T = 0.9980.9921.04GG = 0.002G = 0.00258095823590171102051—/T— = 0.93— = 0.9250.7840.93T = 0.070T = 0.07580082793594071102090C/GC = 0.835C = 0.8520.5051.14GG = 0.165G = 0.14828039693606471102214T/CT = 0.993T = 0.9910.8630.76TC = 0.007C = 0.00925269173610571102255T/GT = 1.000T = 1.0000.9513.23GG = 0.000G = 0.00080087743616071102310T/CT = 0.375T = 0.3380.2190.85TC = 0.625C = 0.66228039703616171102311T/GT = 1.000T = 1.0000.9910.82TG = 0.000G = 0.00080102553630871102458T/CT = 0.778T = 0.8120.21.23CC = 0.222C = 0.18829976423633571102485A/GA = 1.000A = 1.0000.9712.42GG = 0.000G = 0.00028039713636571102515G/AG = 0.352G = 0.3150.2230.85GA = 0.648A = 0.685113137603648871102638—/G— = 0.369— = 0.3270.1630.83G = 0.631G = 0.67328039723657671102726G/TG = 0.003G = 0.0050.8141.84TT = 0.997T = 0.99549030383664171102791A/GA = 0.001A = 0.0020.8874.87GG = 0.999G = 0.99825269163693371103083A/TA = 0.998A =T = 0.002T =49030403695571103105C/TC = 1.000C = 1.0000.9530.51CT = 0.000T = 0.00028039743696771103117T/AT = 0.986T = 0.9980.4575.99AA = 0.014A = 0.00228039753724371103393C/TC = 0.264C = 0.2350.3650.86CT = 0.736T = 0.76528039763832971104479C/TC = 0.003C = 0.0020.8650.43CT = 0.997T = 0.99828039773836771104517T/GT = 0.007T = 0.0020.7180.31TG = 0.993G = 0.998101399093847671104626C/TC = 0.001C = 0.0010.9940.94CT = 0.999T = 0.9997229453851071104660G/AG = 0.751G = 0.7810.2831.18AA = 0.249A = 0.2199170693939671105546A/GA = 0.809A = 0.8190.6931.07GG = 0.191G = 0.18128039783970371105853C/AC = 0.004C = 0.0020.8690.56CA = 0.996A = 0.99823328903980171105951A/GA = 0.001A = 0.0020.962.01GG = 0.999G = 0.99819896384007871106228T/CT = 0.333T = 0.3030.3090.87TC = 0.667C = 0.697106791744026071106410GGG/—GGG = 0.195GGG = 0.1730.3730.86GGG— = 0.805— = 0.82725269154051371106663C/TC = 0.364C = 0.3430.4980.91CT = 0.636T = 0.65725269144088971107039T/CT = 0.106T = 0.0380.0002870.33TC = 0.894C = 0.962111589644109171107241G/AG = 1.000G = 1.0001A = 0A = 0111589654187271108022A/GA = 0.999A = 0.9990.9621.26GG = 0.001G = 0.0017400814211271108262A/GA = 0.468A = 0.4410.4050.90AG = 0.532G = 0.5597400804229271108442T/GT = 1.000T = 1.0000.976GG = 0.000G = 0101405824237371108523T/CT = 0.001T = 00.9310.00TC = 0.999C = 1.00025269134487771111027A/GA = 0.192A = 0.1280.01860.62AG = 0.808G = 0.87248994374512471111274C/GC = 0.649C = 0.6210.3760.89CG = 0.351G = 0.379101456784583171111981T/CT = 0.998T = 0.9960.7380.42TC = 0.002C = 0.00421076864603071112180T/CT = 0.001T = 0.0020.9571.97CC = 0.999C = 0.99821076854627071112420T/CT = 0.985T = 0.9980.3387.09CC = 0.015C = 0.00221076844630971112459G/AG = 0.678G = 0.6370.1760.84GA = 0.322A = 0.36371541884654571112695C/GC = 1.000C = 0.9940.80.00CG = 0G = 0.00649030414716271113312C/TC = 0.655C = 0.6020.0990.80CT = 0.345T = 0.39871596374726771113417T/CT = 0.004T = 0.0050.8751.54CC = 0.996C = 0.99565740894907771115227A/GA = 1.000A = 0.9990.9120.15AG = 0.000G = 0.001125897534937771115527A/GA = 0A = 0.0010.935GG = 1.000G = 0.99948994385012671116276G/CG = 0.001G = 0.0010.9830.73GC = 0.999C = 0.99949030425038571116535G/TG = 1.000G = 1.0000.9366.18TT = 0.000T = 0.00049030435040371116553A/TA = 0.001A = 00.9770.00AT = 0.999T = 1.00028039805042271116572G/AG = 0.478G = 0.5110.2951.14AA = 0.522A = 0.489104838485089371117043T/AT = 0.001T = 0.0010.9960.95TA = 0.999A = 0.99922403445203171118181G/CG = 0.664G = 0.6360.3640.88GC = 0.336C = 0.36422860685224571118395A/GA = 0.639A = 0.6180.520.92AG = 0.361G = 0.382113396695259471118744—/G— = 0.001— = 00.9440.00G = 0.999G = 1.00038545287471119024A/GA = 0.619A = 0.5770.2120.84AG = 0.381G = 0.423114635301171119161T/GT = 0.59T = 0.5910.9631.01GG = 0.410G = 0.40913835365671119806A/TA = 0.863A = 0.8290.150.77AT = 0.137T = 0.17113815366271119812C/GC = 0.001C = 0.0010.9660.18CG = 0.999G = 0.99913775371171119861T/CT = 1.000T = 1.0000.9930.91TC = 0.000C = 0.000111589665379871119948A/GA = 0A = 0.0010.963GG = 1.000G = 0.999111589675384071119990A/GA = 0A = 0.0010.963GG = 1.000G = 0.999111589685387371120023C/TC = 1.000C = 1.0000.9680.00CT = 0T = 0.000111589695388471120034A/GA = 0A = 0.0010.936GG = 1.000G = 0.999111589705393771120087A/GA = 0A = 0.0010.979GG = 1.000G = 0.999111589715403271120182G/AG = 1.000G = 0.9990.9040.49GA = 0.000A = 0.001118497825435271120502C/GC = 0.503C = 0.5270.4461.10GG = 0.497G = 0.473101376165543071121580C/TC = 0.46C = 0.4730.6971.05TT = 0.540T = 0.5277575725592071122070G/AG = 0.614G = 0.5790.270.87GA = 0.386A = 0.421101405665608171122231G/TG = 0.493G = 0.5170.4641.10TT = 0.507T = 0.48320234805622771122377A/TA = 0.984A = 0.9990.28213.67TT = 0.016T = 0.00125269115735071123500T/AT = 0.029T = 0.0080.3220.27TA = 0.971A = 0.99249030445749371123643C/TC = 0.603C = 0.5660.2390.86CT = 0.397T = 0.434118451625768271123832G/CG = 1.000G = 1.0001C = 0C = 0121472105809271124242C/TC = 1.000C = 0.9960.7710.18CT = 0.000T = 0.00429976435873171124881G/TG = 1.000G = 1.0000.9460.00GT = 0T = 0.00029976445882671124976A/TA = 1.000A = 1.0000.9920.47AT = 0.000T = 0.00038148676091671127066T/CT = 0.999T = 0.9990.9820.82TC = 0.001C = 0.00122860676204771128197A/GA = 0.999A = 1.0000.9512.09GG = 0.001G = 0.00010605706208071128230T/GT = 0.469T = 0.4940.4141.11GG = 0.531G = 0.50623328916266571128815C/GC = 1.000C = 1.0000.9971.14GG = 0.000G = 0.00020217366280971128959G/AG = 0.995G = 0.9940.8970.81GA = 0.005A = 0.00671608306362971129779T/CT = 0.518T = 0.5420.4611.10CC = 0.482C = 0.45825269096543271131582A/GA = 0.998A = 1.0000.8235.46GG = 0.002G = 0.00071409636559071131740G/CG = 1.000G = 1.0000.9592.57CC = 0.000C = 0.000101436676587671132026A/GA = 0.058A = 0.0530.8230.91AG = 0.942G = 0.94728039816711871133268T/CT = 0.685T = 0.6860.961.01CC = 0.315C = 0.3147688406734871133498T/CT = 0.964T = 0.9580.790.86TC = 0.036C = 0.04258095876823071134380T/—T = 0.724T = 0.690.2450.85T— = 0.276— = 0.31020234796826271134412A/GA = 0.001A = 0.0010.9980.94AG = 0.999G = 0.99949030456891271135062T/CT = 0.464T = 0.4920.3951.12CC = 0.536C = 0.50849030466979971135949A/GA = 0.811A = 0.8250.5831.10GG = 0.189G = 0.17558095887002771136177—/G— = 0.001— = 0.0010.9710.57G = 0.999G = 0.999102205557333571139485G/AG = 0.673G = 0.6350.210.85GA = 0.327A = 0.36529061327409371140243G/AG = 0.542G = 0.5130.3560.89GA = 0.458A = 0.487118484827411471140264T/GT = 1.000T = 1.0001G = 0G = 0101299547459271140742T/CT = 0.499T = 0.5380.2271.17CC = 0.501C = 0.46225269217506171141211C/TC = 0.027C = 0.0020.01580.05CT = 0.973T = 0.99849030477568371141833G/TG = 0.48G = 0.4930.7081.05TT = 0.520T = 0.507118463577585771142007A/GA = 1.000A = 0.9990.910.31AG = 0.000G = 0.001101363857645771142607G/CG = 0.515G = 0.5330.5831.07CC = 0.485C = 0.467125882427713071143280T/AT = 0.001T = 0.0010.9780.61TA = 0.999A = 0.999116215177794771144097C/TC = 0C = 0.0020.912TT = 1.000T = 0.99825269107833871144488C/TC = 0.622C = 0.5980.4430.90CT = 0.378T = 0.40225269417962671145776A/GA = 0.982A = 0.9960.2764.02GG = 0.018G = 0.00428039448049771146647G/AG = 0.615G = 0.5750.2270.85GA = 0.385A = 0.425124367708057871146728A/GA = 0.033A = 0.0310.9080.93AG = 0.967G = 0.969102202798117171147321C/AC = 0.744C = 0.6780.06710.720A = 0.256A = 0.322102202808124371147393G/CG = 0.001G = 0.0030.8334.04CC = 0.999C = 0.997118441128132171147471A/CA = 0.001A = 0.0020.9242.920C = 0.999C = 0.998124324558263471148784G/CG = 0.57G = 0.5750.8771.020C = 0.430C = 0.42580153388326971149419G/AG = 1.000G = 0.9990.8910.00GA = 0A = 0.00138329698351471149664CAGC/—CAGC = 0.003CAGC = 0.0040.9651.12— = 0.997— = 0.99696719728536771151517A/GA = 1.000A = 1.0000.9740.49AG = 0.000G = 0.00096719758542371151573C/TC = 0.998C = 0.9980.951.37TT = 0.002T = 0.00271599868600671152156T/CT = 0.166T = 0.1040.007740.58TC = 0.834C = 0.896118482208651571152665T/GT = 1.000T = 1.0000.9780.00TG = 0G = 0.00050163698693671153086G/CG = 0G = 0.0010.99CC = 1.000C = 0.99919864238720171153351A/GA = 0.999A = 0.9990.9640.79AG = 0.001G = 0.00123329098720571153355C/TC = 0.573C = 0.5130.130.78CT = 0.427T = 0.48780133378831371154463G/AG = 0.62G = 0.5760.1480.83GA = 0.380A = 0.424114456808947771155627—/G— = 0.001— = 0.0010.9690.32G = 0.999G = 0.99949030489024371156393T/CT = 0.821T =C = 0.179C =124347939073571156885T/CT = 0.688T = 0.6510.2230.85TC = 0.312C = 0.34923329109199071158140G/CG = 0.003G = 0.0020.8930.49GC = 0.997C = 0.99844100179287971159029A/GA = 0.003A = 0.0010.8720.33AG = 0.997G = 0.99945770199288071159030A/GA = 1.000A = 0.9990.9170.00AG = 0G = 0.00123329119338671159536A/GA = 0.996A = 0.9950.970.90AG = 0.004G = 0.00549967479339771159547T/GT = 0.999T = 0.9990.9840.84TG = 0.001G = 0.001101408209368071159830G/TG = 0.002G = 0.0010.940.46GT = 0.998T = 0.999124316239558571161735T/CT = 0.995T = 0.9950.9761.05CC = 0.005C = 0.00565740909581871161968G/TG = 0.001G = 0.0010.9662.92TT = 0.999T = 0.99980087509620371162353C/GC = 0.576C = 0.5790.921.01GG = 0.424G = 0.421116274209691171163061G/AG = 0.986G = 0.9880.8781.14AA = 0.014A = 0.012101501859801471164164A/GA = 0.934A = 0.9310.8770.96AG = 0.066G = 0.069101502189822971164379A/CA = 0.724A = 0.7230.9931.00AC = 0.276C = 0.27796461649823571164385T/GT = 0.797T = 0.7720.3510.86TG = 0.203G = 0.22865740919917371165323C/TC = 0.995C = 0.9990.6523.38TT = 0.005T = 0.001233291210050571166655A/GA = 0A = 0.0010.941GG = 1.000G = 0.999715535910161371167763A/GA = 0.558A = 0.580.4971.09GG = 0.442G = 0.420233291310166071167810C/TC = 0.094C = 0.10.7781.06TT = 0.906T = 0.900454418410168171167831G/TG = 0.001G = 0.0010.9762.43TT = 0.999T = 0.999433722410216571168315G/AG = 0.999G = 0.9990.9330.63GA = 0.001A = 0.001233291410376371169913C/TC = 0.914C = 0.9040.6270.88CT = 0.086T = 0.096428016710499071171140G/AG = 1.000G = 1.0000.9530.00GA = 0A = 0.000490304910531971171469G/TG = 1.000G = 1.0000.990.00GT = 0T = 0.000374283710544771171597T/GT = 0.873T = 0.8810.721.08GG = 0.127G = 0.1191013993710547171171621A/GA = 0.927A = 0.9540.1161.63GG = 0.073G = 0.0461243429210551571171665A/GA = 1.000A = 1.0000.9780.00AG = 0G = 0.0001162067110559871171748A/TA = 0.001A = 0.0020.9077.24TT = 0.999T = 0.9981014018410567471171824C/AC = 0.488C = 0.5450.07311.26AA = 0.512A = 0.455233291510643271172582C/GC = 0.45C = 0.4610.7491.04GG = 0.550G = 0.539233291610698871173138C/TC = 0.245C = 0.190.03730.72CT = 0.755T = 0.810801275910707671173226C/TC = 0.603C = 0.5750.370.89CT = 0.397T = 0.4251014927210799171174141G/CG = 0.701G = 0.6820.5090.91GC = 0.299C = 0.3181115897310822171174371A/GA = 0.767A = 0.7670.9831.00GG = 0.233G = 0.233490305010841071174560G/TG = 0.494G = 0.5130.6271.08TT = 0.506T = 0.4871066644510876271174912CTTA/—CTTA =CTTA = 0.19— = 0.810253614310892471175074A/TA = 0.939A = 0.9040.1540.61AT = 0.061T = 0.0961063823110937871175528TTTTTTTTTTTTTTTTTTTTTTTTT0.9091.06TTTTTT/—TTTT = 0.923TTTT = 0.927— = 0.077— = 0.0731243163610944271175592A/GA = 0.219A = 0.2180.9640.99AG = 0.781G = 0.782800590410961971175769C/TC =C = 0.002T =T = 0.9981162105810982071175970C/TC = 0.881C = 0.8630.4170.85CT = 0.119T = 0.1371013322411053071176680T/CT = 0T = 01C = 1.000C = 1.0001243318511095671177106A/TA = 0.692A = 0.6790.6740.94AT = 0.308T = 0.32174097411196571178115A/GA = 0.764A = 0.7540.7170.95AG = 0.236G = 0.24674097311199571178145G/CG = 0.435G = 0.4680.3151.14CC = 0.565C = 0.53274097211204071178190T/CT = 0.637T = 0.6490.711.05CC = 0.363C = 0.35174097111205871178208A/GA = 0.978A = 0.9770.9620.97AG = 0.022G = 0.023424364211259271178742C/GC = 0.573C = 0.5740.9871.00GG = 0.427G = 0.426441595211304471179194C/TC = 0.654C = 0.6480.8390.97CT = 0.346T = 0.352221558911326371179413G/AG = 0.999G = 0.9980.9090.60GA = 0.001A = 0.002434321111330171179451T/CT = 0T = 0.0010.984CC = 1.000C = 0.999253614211351371179663T/CT = 0.87T = 0.860.6820.92TC = 0.130C = 0.1401129334011363971179789—/A— = 0.002— = 0.0020.9950.97A = 0.998A = 0.9981015162011409271180242C/GC = 0.625C = 0.6150.7570.96CG = 0.375G = 0.385228684011443271180582T/GT = 0.999T = 0.9980.9430.66TG = 0.001G = 0.002802308911464371180793T/AT = 0T =A = 1.000A =800800911498071181130G/AG = 0.616G = 0.6280.6931.05AA = 0.384A = 0.3721141908911531271181462—/T— = 0.755— = 0.7430.6610.93T = 0.245T = 0.2571069467611531571181465—/TT— = 0.938— = 0.9270.5810.84TT = 0.062TT = 0.073253614111537771181527C/TC = 0.884C = 0.8780.780.94CT = 0.116T = 0.12276524711562571181775C/AC = 0.978C = 0.9810.9171.13AA = 0.022A = 0.019714762611574071181890T/CT = 0.973T = 0.950.1470.53TC = 0.027C = 0.0501013262911574771181897G/AG = 0.649G = 0.6560.7991.03AA = 0.351A = 0.344490305111589071182040C/GC = 0.976C = 0.9650.5410.68CG = 0.024G = 0.0351115897411727971183429T/CT = 0.976T = 0.9610.2410.60TC = 0.024C = 0.039103502111752271183672C/AC = 0.513C = 0.5090.9090.99CA = 0.487A = 0.491657409311872171184871T/GT = 0.433T = 0.4450.7211.05GG = 0.567G = 0.555489943911992671186076T/CT = 0.973T = 0.9580.350.65TC = 0.027C = 0.042715528711997471186124T/AT = 1.000T = 0.9990.8350.17TA = 0.000A = 0.001715440212028171186431A/GA = 0.972A = 0.9480.1580.53AG = 0.028G = 0.052715478112048471186634G/AG = 0.971G = 0.9560.3150.65GA = 0.029A = 0.044657409412239771188547C/TC = 0.972C = 0.9480.08510.52CT = 0.028T = 0.0521013224212278371188933G/AG = 0.975G = 0.9460.04360.46GA = 0.025A = 0.0541014695912302971189179T/CT = 0.694T = 0.6980.8751.02CC = 0.306C = 0.3021014746612353571189685T/CT = 1.000T = 1.0000.950.00TC = 0C = 0.0001162641112410771190257G/CG = 0.757G = 0.7740.5391.10CC = 0.243C = 0.226489944012442771190577C/TC = 0.683C = 0.7270.1291.24TT = 0.317T = 0.2731014455312473871190888T/CT = 0.539T = 0.5260.6770.95TC = 0.461C = 0.4741162766312532971191479A/CA = 0.009A = 0.0780.001369.35CC = 0.991C = 0.9221162779912579671191946A/GA = 0.669A = 0.6680.9590.99AG = 0.331G = 0.3321185173312626571192415G/AG = 0.65G = 0.6650.6311.07AA = 0.350A = 0.3351014031712676871192918A/TA = 0.476A = 0.4550.5140.92AT = 0.524T = 0.545800737512730671193456C/TC = 0.001C = 0.0010.9373.61TT = 0.999T = 0.999489944112754471193694G/AG = 0.043G = 0.0940.002982.32AA = 0.957A = 0.9061115897512780971193959A/CA = 0.798A = 0.8140.5641.11CC = 0.202C = 0.1861141960712781771193967A/—A = 0.829A = 0.8080.4060.86A— = 0.171— = 0.192210979312977171195921C/GC =C = 0.997G =G = 0.003802315613006171196211G/CG = 0.706G = 0.7060.9871.00CC = 0.294C = 0.2941014057913033371196483G/AG = 0.002G = 0.0010.9840.86GA = 0.998A = 0.999714819913173471197884T/CT = 0.078T = 0.1190.04811.61CC = 0.922C = 0.881714691613178771197937G/AG = 0.001G = 0.0020.82354.34AA = 0.999A = 0.998199043913263371198783G/AG = 0.67G = 0.720.1031.27AA = 0.330A = 0.280657409513527971201429C/GC = 0.057C = 0.0930.05851.71GG = 0.943G = 0.9071014003713570971201859T/AT = 0.456T = 0.4380.5690.93TA = 0.544A = 0.562800724913620871202358A/GA = 0.81A = 0.7910.5120.89AG = 0.190G = 0.209199043813709171203241A/GA = 0.902A = 0.8590.070.66AG = 0.098G = 0.141199043713749971203649T/CT = 0.092T = 0.1550.003671.82CC = 0.908C = 0.8451014648413770571203855A/GA = 0.69A = 0.6790.7190.95AG = 0.310G = 0.3211162733313772671203876A/CA = 0.336A = 0.3250.7160.95AC = 0.664C = 0.675715580213794471204094G/AG = 0.012G = 0.0070.7460.55GA = 0.988A = 0.993210979213817571204325T/GT = 0T = 01G = 1.000G = 1.0001142936313822471204374A—A = 0.24A = 0.2620.4551.13— = 0.760— = 0.738800421013931971205469A/GA = 0.94A = 0.8870.008780.50AG = 0.060G = 0.113209819413940971205559C/TC = 1.000C = 0.9990.9220.54CT = 0.000T = 0.001210979113959771205747T/GT = 0.753T = 0.7240.3150.86TG = 0.247G = 0.2761138172914047671206626—/A— = 0.45— = 0.4920.181.18AA = 0.550A = 0.508116009414080871206958C/TC = 0.731C = 0.7510.5141.11TT = 0.269T = 0.2491162805114136371207513A/TA = 0.386A = 0.3280.05550.77AT = 0.614T = 0.6721013677114165571207805G/AG = 0.341G = 0.380.2351.18AA = 0.659A = 0.6201013990314271571208865A/CA = 0.592A = 0.5470.1450.83AC = 0.408C = 0.453490305314325371209403C/TC = 0.74C = 0.7680.3271.16TT = 0.260T = 0.232374283614391171210061T/CT = 0.752T = 0.7760.391.14CC = 0.248C = 0.224374283514404471210194G/AG = 0.311G = 0.3110.9991.00GA = 0.689A = 0.689800323314467071210820T/GT = 0.002T = 0.0020.9710.78TG = 0.998G = 0.9981162158814496171211111C/TC = 0.999C = 1.0000.9132.87TT = 0.001T = 0.00074098114661371212763G/CG = 0.468G = 0.4250.1870.84GC = 0.532C = 0.575801949214741371213563C/AC = 0.001C = 0.0020.8822.59AA = 0.999A = 0.998801964414746471213614G/AG = 0.001G = 0.0020.8992.47AA = 0.999A = 0.998801964614746871213618G/AG = 0.541G = 0.5690.4221.12AA = 0.459A = 0.431801965314747971213629A/GA = 0.581A = 0.650.03221.34GG = 0.419G = 0.3501145079414748871213638A/—A = 0.002A = 0.0010.9460.50A— = 0.998— = 0.9991134819314750071213650—/A— = 0.67— = 0.6360.2770.86A = 0.330A = 0.3641145079314752771213677G/—G = 0.007G = 0.0050.8940.77G— = 0.993— = 0.9951128273514753471213684AAGAGAAGAGAAGAG0.9110.59AAGAGAAGAG/—AAGAG = 0.004AAGAG = 0.003AAGAG— = 0.996— = 0.997219182314957371215723G/TG = 0.504G = 0.4670.2420.86GT = 0.496T = 0.5331223222015079871216948A/GA = 0.143A = 0.2350.0003831.85GG = 0.857G = 0.7651115897615416971220319C/TC = 0.747C = 0.7910.1111.28TT = 0.253T = 0.209490305415505671221206C/TC = 1.000C = 0.9990.940.53CT = 0.000T = 0.0011184675515549471221644T/CT = 0.703T = 0.7040.9881.00CC = 0.297C = 0.2961243198815775671223906G/AG = 0.547G = 0.5570.7541.04AA = 0.453A = 0.4431210052615783071223980T/CT = 0.001T = 0.0020.971.30CC = 0.999C = 0.9981162256815837971224529A/CA = 0.476A = 0.4420.2790.87AC = 0.524C = 0.558967123015990671226056C/TC = 0.001C = 0.0010.961.81TT = 0.999T = 0.9991214748715995171226101A/TA = 0.596A = 0.6160.5271.09TT = 0.404T = 0.384490305516013571226285T/CT = 0.879T = 0.8760.8850.97TC = 0.121C = 0.1241214751516020971226359G/AG = 0.955G = 0.9540.9580.98GA = 0.045A = 0.0461162509216035171226501C/TC = 0.999C = 0.9990.9720.84CT = 0.001T = 0.001489944216083571226985T/GT = 0.042T = 0.0880.01242.21GG = 0.958G = 0.912205214616111071227260A/CA = 0.977A = 0.9570.1450.53AC = 0.023C = 0.0431022055316134671227496A/TA = 0.438A = 0.450.7141.05TT = 0.562T = 0.5501022056516167071227820A/GA =A = 0.159G =G = 0.841233291716344771229597G/CG = 0.045G = 0.0130.01750.27GC = 0.955C = 0.987715891016347971229629G/AG = 1.000G = 1.0000.9880.00GA = 0A = 0.000801574916437771230527A/GA = 0.203A = 0.3030.006031.70GG = 0.797G = 0.697800681216632871232478A/GA = 0.999A = 0.9990.9691.34GG = 0.001G = 0.001800833816636171232511C/TC = 0.002C = 0.0030.9111.49TT = 0.998T = 0.997205214516700371233153T/GT = 0.142T = 0.1990.1171.50GG = 0.858G = 0.801205214416703671233186T/GT = 0.243T = 0.2230.5950.89TG = 0.757G = 0.7771014669216775971233909A/GA = 0.492A = 0.4720.5530.93AG = 0.508G = 0.5281162730516782971233979A/GA = 0.831A = 0.8360.8281.04GG = 0.169G = 0.164207998916836071234510C/TC = 0.466C = 0.4440.4910.92CT = 0.534T = 0.556801888116858271234732C/AC = 0.998C = 0.9940.7380.33CA = 0.002A = 0.006456138716946271235612A/TA = 0.894A = 0.8920.9210.98AT = 0.106T = 0.1081162202517031771236467A/CA = 0.26A = 0.2410.4980.90AC = 0.740C = 0.75974098017066971236819A/GA = 0.378A = 0.3540.4980.90AG = 0.622G = 0.6461243325017129571237445T/CT = 0.285T = 0.2580.360.87TC = 0.715C = 0.742580959017139571237545—/A— = 0.249— = 0.2660.5541.09AA = 0.751A = 0.73475891517143171237581T/CT = 0.28T = 0.2810.9881.00CC = 0.720C = 0.71975891417162671237776A/TA = 0.249A = 0.2490.9981.00TT = 0.751T = 0.751715422917173571237885G/AG = 1.000G = 0.9990.9010.17GA = 0.000A = 0.0011243718817197271238122T/CT = 0.894T = 0.9480.002792.15CC = 0.106C = 0.052715910817225871238408T/AT = 0.739T = 0.7460.8021.04AA = 0.261A = 0.254490305817244871238598G/CG = 1.000G = 1.0000.993CC = 0.000C = 0489944317291871239068C/AC = 0.775C = 0.8060.2641.21AA = 0.225A = 0.1941184890717341571239565A/GA = 0.037A = 0.0320.7040.85AG = 0.963G = 0.9681243214817346771239617G/TG = 0.201G = 0.110.0003190.49GT = 0.799T = 0.8901243507817369771239847C/tC = 0.912C = 0.9050.8230.92CT = 0.088T = 0.095657409617399171240141A/GA = 0.461A = 0.4110.1220.82AG = 0.539G = 0.5891115897717409171240241T/AT = 0.4T = 0.4350.2591.16AA = 0.600A = 0.5651162943417457171240721G/TG = 0.841G = 0.8420.9741.01TT = 0.159T = 0.158437856317778071243930C/TC = 0.863C = 0.9320.001022.16TT = 0.137T = 0.068209819517812971244279C/GC = 0.032C = 0.030.9060.95CG = 0.968G = 0.970463365317869371244843C/AC = 0.998C = 0.9980.9311.34AA = 0.002A = 0.002714835017932571245475G/AG = 0.962G = 0.9530.5350.80GA = 0.038A = 0.04774097917951171245661A/TA = 0.34A = 0.310.360.87AT = 0.660T = 0.69074097817960871245758G/CG = 0.983G = 0.9530.020.35GC = 0.017C = 0.04774097717964471245794A/GA = 0.086A = 0.1290.05121.57GG = 0.914G = 0.87174097617980871245958T/CT = 0.39T = 0.3230.03530.74TC = 0.610C = 0.677490305918004171246191C/TC = 0.138C = 0.0830.006740.56CT = 0.862T = 0.917490306018142071247570G/AG = 0.995G = 0.960.003270.13GA = 0.005A = 0.0401185205618142371247573A/GA = 0.001A = 0.0010.9991.03GG = 0.999G = 0.999963525718193271248082C/TC = 0.947C = 0.9540.7221.17TT = 0.053T = 0.046963525818199271248142C/TC = 0.93C = 0.9350.831.09TT = 0.070T = 0.065963525918224871248398A/GA = 0.896A = 0.9420.01421.88GG = 0.104G = 0.058489944418233571248485G/AG = 0.868G = 0.8870.4181.19AA = 0.132A = 0.1131243538218426871250418G/AG = 0.777G = 0.790.6141.08AA = 0.223A = 0.2101243541218436671250516G/AG = 0.831G = 0.8280.8830.98GA = 0.169A = 0.1721162738118485571251005G/AG = 0.178G = 0.1770.9550.99GA = 0.822A = 0.823205214318553271251682G/AG = 0.537G = 0.5930.0721.26AA = 0.463A = 0.407205214218563371251783G/AG = 0.98G = 0.950.02550.39GA = 0.020A = 0.050205214118571771251867C/TC = 0.641C = 0.6860.1341.22TT = 0.359T = 0.314802103518663771252787A/GA = 0.001A = 0.0020.9551.61GG = 0.999G = 0.9981115897818701071253160A/GA = 0.402A = 0.3870.6660.94AG = 0.598G = 0.6131162121618736771253517A/TA = 0.882A = 0.8820.9790.99AT = 0.118T = 0.1181013087318752471253674T/CT = 0.901T = 0.9360.06161.60CC = 0.099C = 0.0641162135818752571253675G/AG = 0.864G = 0.8670.8631.03AA = 0.136A = 0.13375891318835271254502A/GA = 0.071A = 0.1330.007892.00GG = 0.929G = 0.8671162260218836071254510A/GA = 0.241A = 0.2180.4020.88AG = 0.759G = 0.7821013693118903271255182C/TC = 1.000C = 1.0000.9690.00CT = 0T = 0.00074097518910071255250T/GT = 0.543T = 0.4890.1160.80TG = 0.457G = 0.51174798718944471255594T/CT = 0.291T = 0.1860.0001340.56TC = 0.709C = 0.8141162381918945071255600C/TC = 0.736C = 0.7030.2850.85CT = 0.264T = 0.2971243444519043171256581C/AC = 0.003C = 0.0010.880.44CA = 0.997A = 0.999800337519081371256963T/AT = 0.001T = 0.0010.9951.58AA = 0.999A = 0.9991014359619098371257133A/GA = 0.997A = 0.9960.9250.75AG = 0.003G = 0.0041243532119149371257643T/CT = 0.164T = 0.1630.9680.99TC = 0.836C = 0.8371243540119158871257738A/GA =A = 0.302G =G = 0.698801060919176471257914T/CT = 1.000T = 0.9990.9150.43TC = 0.000C = 0.0011115897919181171257961G/CG = 0.291G = 0.2840.8220.97GC = 0.709C = 0.7161115898019212671258276C/TC = 0.271C = 0.2430.3240.87CT = 0.729T = 0.7571162752419235671258506C/AC = 0.897C = 0.8920.8280.95CA = 0.103A = 0.108112616019295371259103A/CA = 0.657A = 0.5870.07170.74AC = 0.343C = 0.4131013607419413371260283G/CG = 0.998G = 0.9930.5640.28GC = 0.002C = 0.007490306119533371261483T/AT = 0.372T =A = 0.628A =1066539819565771261807—/CA— = 0.538— = 0.5440.8421.03CACA = 0.462CA = 0.456657409719566871261818A/CA = 0.976A = 0.9490.1760.46AC = 0.024C = 0.051967165419567671261826C/GC = 0.253C = 0.2350.5380.91CG = 0.747G = 0.7651014002419580571261955C/TC = 0.354C = 0.3140.2030.84CT = 0.646T = 0.6861014242119599871262148G/AG = 0.97G = 0.9730.8321.10AA = 0.030A = 0.0271014259319606671262216C/TC = 0.023C = 0.0570.05092.57TT = 0.977T = 0.9431142337219641571262565—/C— = 0.072— = 0.1130.03271.65CC = 0.928C = 0.887580959219641771262567—/C— = 0.0680— = 0.1090.04421.68CC = 0.932C = 0.891233291819653871262688C/TC = 0.953C = 0.930.1690.65CT = 0.047T = 0.070233291919656971262719T/CT = 0.704T = 0.7280.3881.13CC = 0.296C = 0.272800734819662171262771A/CA = 0.417A = 0.340.01610.72AC = 0.583C = 0.660199044319680671262956G/AG = 0.678G = 0.7290.07511.28AA = 0.322A = 0.271800769019682371262973C/GC = 0.175C = 0.1690.8290.96CG = 0.825G = 0.831393745519720471263354G/CG = 0.556G = 0.5460.7680.96GC = 0.444C = 0.454801282319743571263585C/TC = 0.65C = 0.6510.971.00TT = 0.350T = 0.349489944519761271263762G/AG = 0.129G = 0.06300.0008360.45GA = 0.871A = 0.937490306219785471264004C/TC = 0.229C = 0.1185.96E−060.45CT = 0.771T = 0.88297396319826471264414G/AG = 0.968G = 0.9640.7360.87GA = 0.032A = 0.0361014996219883571264985T/GT = 0.963T = 0.9490.3210.71TG = 0.037G = 0.051800344919927571265425A/GA = 0.39A = 0.3680.5760.91AG = 0.610G = 0.6321162077519933671265486C/TC = 0.827C = 0.8090.4760.88CT = 0.173T = 0.191800908919990371266053A/GA = 0.848A = 0.8760.2171.27GG = 0.152G = 0.124800896720001771266167T/CT = 0.358T = 0.4060.1361.23CC = 0.642C = 0.5941205013220014171266291A/TA = 0.782A = 0.7610.5090.89AT = 0.218T = 0.2391013301820055271266702T/CT = 0.999T = 0.9930.5110.20TC = 0.001C = 0.007199044220086871267018T/CT =T = 0.926C =C = 0.074199044120098371267133T/GT = 0.873T = 0.8480.3380.81TG = 0.127G = 0.152801583320099071267140C/TC = 0.768C = 0.790.4231.14TT = 0.232T = 0.210199044020104571267195G/CG = 0.258G = 0.1610.0002970.55GC = 0.742C = 0.839490306320242671268576C/GC = 0.989C = 0.9690.1880.35CG = 0.011G = 0.0311013981020284171268991C/AC = 0.002C = 0.0060.743.78AA = 0.998A = 0.994490306420331171269461T/CT = 0.83T = 0.8230.7830.95TC = 0.170C = 0.177215971520354371269693A/CA = 0.468A = 0.4580.7480.96AC = 0.532C = 0.542210979520374971269899A/GA = 0.206A = 0.2550.1061.32GG = 0.794G = 0.745215971420404071270190G/AG = 0.965G = 0.960.7140.87GA = 0.035A = 0.0401162310720426971270419A/CA = 0.001A = 0.0020.8835.49CC = 0.999C = 0.998715200520430971270459C/TC = 0.806C = 0.7760.2950.84CT = 0.194T = 0.224715248920442671270576A/GA = 0.004A = 0.0020.9190.65AG = 0.996G = 0.998447916720513571271285G/CG = 0.169G = 0.2780.0001231.90CC = 0.831C = 0.722460665520526971271419T/CT = 0.794T = 0.7340.0410.72TC = 0.206C = 0.266460665620532371271473T/CT = 0.938T = 0.8720.00320.45TC = 0.062C = 0.128448994320536471271514A/GA = 0.546A = 0.4270.000250.62AG = 0.454G = 0.573714264220631071272460G/CG = 0.616G = 0.6010.6430.94GC = 0.384C = 0.399800623320660071272750A/GA = 0.814A =G = 0.186G =800755920678671272936T/AT = 0.426T = 0.5526.35E−051.66AA = 0.574A = 0.448800615620679671272946A/GA = 0.456A = 0.5830.0004591.67GG = 0.544G = 0.417146866220763371273783A/GA = 0.961A = 0.9320.06740.56AG = 0.039G = 0.0681162704820772371273873G/AG = 0.791G = 0.7810.7140.94GA = 0.209A = 0.219657409820802671274176T/CT = 0.122T = 0.1520.1991.29CC = 0.878C = 0.8481243376020862771274777C/TC = 0.695C = 0.6680.4620.88CT = 0.305T = 0.3321243378020866271274812C/TC = 0.102C = 0.0720.1070.68CT = 0.898T = 0.9281243450620910971275259T/AT = 0.906T = 0.9460.06111.81AA = 0.094A = 0.0541243467320974271275892T/CT = 0.976T = 0.9980.050810.27CC = 0.024C = 0.0021243140020975071275900T/CT = 0.335T = 0.2330.000480.60TC = 0.665C = 0.7671243138420981771275967G/AG = 0.173G = 0.1010.001470.54GA = 0.827A = 0.899490306721019171276341C/TC = 0.449C = 0.4080.1920.85CT = 0.551T = 0.592233292021034971276499G/AG = 0.57G =A = 0.430A =221559121072471276874A/GA = 0.111A = 0.1460.1431.36GG = 0.889G = 0.8541243306421153771277687C/AC = 0.95C = 0.9520.8671.06AA = 0.050A = 0.0481243626321155171277701T/GT = 0.973T = 0.9940.24.13GG = 0.027G = 0.0061243309721165971277809G/AG = 0.202G = 0.1180.001840.53GA = 0.798A = 0.8821243318421175771277907G/TG = 0.854G = 0.920.00331.96TT = 0.146T = 0.080801590021182171277971A/TA = 0.004A = 0.0030.9070.72AT = 0.996T = 0.9971129698121223671278386T/—T = 0.819T = 0.7960.4130.87T— = 0.181— = 0.2041134402521223771278387T/—T = 0.817T = 0.7980.5110.89T— = 0.183— = 0.2021146420421244271278592—/A— = 1.000— = 1.0000.991.43AA = 0.000A = 0.0001144117221244571278595—/T— = 0.281— = 0.2960.5881.08TT = 0.719T = 0.7041138180721245571278605T/—T = 0.865T = 0.8440.3390.84T— = 0.135— = 0.1561087325121273071278880G/AG = 0.093G = 0.0760.3610.80GA = 0.907A = 0.924210979421274671278896T/CT = 0.301T = 0.3170.581.08CC = 0.699C = 0.6831087325221283671278986T/CT = 0.809T = 0.7950.6040.92TC = 0.191C = 0.205452078421288671279036G/AG = 0G =A = 1.000A =287782021302871279178A/TA = 0.005A = 0.0020.70.30AT = 0.995T = 0.998287782121302971279179A/TA = 0.222A = 0.1380.0009360.56AT = 0.778T = 0.862456919521309571279245C/GC = 0.888C = 0.9440.01162.11GG = 0.112G = 0.0561162890521424771280397A/CA = 0.008A = 0.0600.01678.40CC = 0.992C = 0.940219182221480771280957T/CT = 0.104T = 0.1620.01171.67CC = 0.896C = 0.838219182121492171281071A/CA = 0.574A = 0.5820.7941.04CC = 0.426C = 0.4181146468921516371281313T/—T = 0.52T = 0.4840.2540.86T— = 0.480— = 0.5161243195921540671281556G/AG = 0.747G = 0.740.820.97GA = 0.253A = 0.260490306821606971282219A/GA = 0.457A = 0.4920.2731.15GG = 0.543G = 0.508154457921684971282999T/CT = 0.507T = 0.5220.641.06CC = 0.493C = 0.478715587921713071283280G/TG = 0.942G = 0.9710.08022.05TT = 0.058T = 0.0291243360321714371283293C/GC = 0.898C = 0.9390.02731.75GG = 0.102G = 0.0611135143221765771283807A/—A = 0.261A = 0.2870.3871.14— = 0.739— = 0.7131144843821772571283875—/G— = 0.022— = 0.0920.0003094.52GG = 0.978G = 0.908424364321843571284585G/AG = 0.617G = 0.5780.2570.85GA = 0.383A = 0.422414095221871771284867T/CT = 0.437T = 0.4620.431.11CC = 0.563C = 0.538800537221881271284962C/TC = 0C = 0.0010.903TT = 1.000T = 0.999800410921882671284976T/CT = 0.002T = 0.0020.9660.77TC = 0.998C = 0.998800839821887271285022A/CA = 0.616A = 0.5690.1810.82AC = 0.384C = 0.431800969221889071285040T/CT = 0.817T = 0.7440.03530.65TC = 0.183C = 0.256233292121894471285094C/GC = 0.999C = 1.0000.9321.94GG = 0.001G = 0.0001205032021922971285379A/GA = 0A = 0.0010.949GG = 1.000G = 0.9991205032321930071285450A/GA = 0.001A = 0.0010.9670.68AG = 0.999G = 0.999801031621975771285907A/GA = 0.62A = 0.6070.7030.95AG = 0.380G = 0.393715429322053371286683T/CT = 0.551T = 0.5580.8371.03CC = 0.449C = 0.4421214796922153471287684C/TC = 0.857C = 0.8440.6040.90CT = 0.143T = 0.156221559022163271287782G/AG = 0.732G = 0.7120.5430.91GA = 0.268A = 0.288426574922223471288384C/TC = 0.942C = 0.9920.02637.44TT = 0.058T = 0.008100455222224171288391C/TC = 0.605C = 0.6230.5821.08TT = 0.395T = 0.377430789222245871288608G/AG = 0.845G = 0.920.0003892.10AA = 0.155A = 0.0801243197322273571288885T/GT =T = 1.000G =G = 01243197522274971288899A/GA = 0.808A = 0.7470.03150.70AG = 0.192G = 0.25376787422318771289337T/CT = 1.000T = 1.0000.94216.74CC = 0.000C = 0.0001162859722662671292776G/CG = 0.799G = 0.8240.3261.18CC = 0.201C = 0.1761012937122686571293015A/GA = 0.59A = 0.5320.06550.79AG = 0.410G = 0.468490306922754871293698A/CA = 0.928A = 0.9320.8281.06CC = 0.072C = 0.068490307022769071293840A/GA = 0.572A = 0.5760.8831.02GG = 0.428G = 0.424490307122781571293965G/TG = 0.692G = 0.7520.03641.35TT = 0.308T = 0.2481162222422845671294606T/CT = 0.661T = 0.670.7541.04CC = 0.339C = 0.3301045945522902571295175G/AG = 0.709G = 0.7050.8790.98GA = 0.291A = 0.295932357722908571295235C/TC = 0.654C = 0.5990.1690.79CT = 0.346T = 0.4011062464823175771297907TTG/—TTG = 0.998TTG = 0.9850.210.15TTG— = 0.002— = 0.015305895323176271297912GTT/—GTT = 0.995GTT = 0.9760.140.22GTT— = 0.005— = 0.0241115898123272771298877T/GT = 0.716T = 0.6890.3450.88TG = 0.284G = 0.3111115898223295571299105T/GT = 0.399T = 0.4210.4961.09GG = 0.601G = 0.5791115898323330271299452G/TG = 0.734G = 0.710.4070.89GT = 0.266T = 0.290186075023362971299779T/AT = 0.554T = 0.5910.3091.16AA = 0.446A = 0.409186074923367071299820G/AG = 0.347G = 0.4779.51E−051.71AA = 0.653A = 0.523186074823370271299852A/CA = 0.108A = 0.1840.002351.86CC = 0.892C = 0.816186074723371571299865A/GA = 0.998A = 0.9550.08110.05AG = 0.002G = 0.0451141967923582771301977—/A— = 0.597— = 0.5670.360.88A = 0.403A = 0.433801177723695171303101T/CT = 0.993T =C = 0.007C =657409923715771303307A/GA = 0.368A = 0.3630.8790.98AG = 0.632G = 0.637801095723731771303467A/GA = 0.09A = 0.1990.0001062.53GG = 0.910G = 0.8011162689523736371303513G/AG = 0.744G = 0.730.6340.93GA = 0.256A = 0.2701015143123886671305016T/GT = 0T = 01G = 1.000G = 1.000490307223978971305939C/AC = 0.451C = 0.4620.7471.04AA = 0.549A = 0.538458948924017071306320T/CT = 0.001T = 0.0010.9791.61CC = 0.999C = 0.999967132724043071306580G/TG = 0.828G = 0.8420.5581.11TT = 0.172T = 0.158489944624045471306604C/TC = 0.552C = 0.5740.4971.09TT = 0.448T = 0.4261014450124068871306838T/AT = 0.001T = 0.0010.9760.57TA = 0.999A = 0.999580959424141471307564TG/—TG = 0.55TG = 0.5330.5930.93TG— = 0.450— = 0.46772031724142471307574A/GA = 0.3A = 0.3220.5821.11GG = 0.700G = 0.678801431624174171307891G/AG = 0.001G = 0.0010.9332.97AA = 0.999A = 0.9991115898424176871307918T/CT = 0.438T = 0.4530.6331.06CC = 0.562C = 0.547642090624236071308510C/TC = 0.007C = 0.0480.001057.74TT = 0.993T = 0.952800405524295771309107A/TA = 1.000A = 1.0000.9862.23TT = 0.000T = 0.0001243480024335571309505A/GA = 0.132A = 0.0690.004280.49AG = 0.868G = 0.931424364424359671309746T/AT = 0.609T = 0.5750.3080.87TA = 0.391A = 0.425489944724364871309798A/GA = 0.815A = 0.8160.9811.00GG = 0.185G = 0.184490307324366471309814G/AG = 0.176G = 0.1760.9991.00AA = 0.824A = 0.8241184863424378371309933T/CT = 0.001T = 00.9270.00TC = 0.999C = 1.000489944824381971309969T/CT = 0.792T = 0.7690.3960.87TC = 0.208C = 0.2311013156424576571311915A/GA = 0.72A = 0.7080.6940.95AG = 0.280G = 0.2921013415024608971312239T/GT = 0.713T = 0.6850.3540.88TG = 0.287G = 0.31576338824645771312607A/GA = 0.71A = 0.6940.5920.93AG = 0.290G = 0.3061184593824648571312635A/GA = 0A = 0.0010.975GG = 1.000G = 0.9991184594624653671312686G/TG = 0.999G = 1.0000.9053.40TT = 0.001T = 0.0001184591524658671312736T/CT = 0.004T = 0.0020.8370.49TC = 0.996C = 0.9981013746324735671313506A/CA = 0.998A = 0.9980.9891.05CC = 0.002C = 0.002657410024757371313723T/AT = 0.409T = 0.4180.7671.04AA = 0.591A = 0.582714034424817371314323A/GA = 0A = 0.0010.96GG = 1.000G = 0.9991064688924891571315065AA/—AA =AA = 0.604— =— = 0.396714628724934471315494C/TC = 1.000C = 1.0000.9750.00CT = 0T = 0.000580959525057571316725A/—A = 0.406A = 0.3840.5050.91A— = 0.594— = 0.616103509925070171316851T/AT = 0.447T = 0.4570.7811.04AA = 0.553A = 0.543715987725126071317410T/GT = 0.291T = 0.3290.2111.19GG = 0.709G = 0.671714257925185871318008G/AG = 0.037G = 0.0750.02752.10AA = 0.963A = 0.9251243176225198171318131G/AG = 0.867G = 0.8710.8551.04AA = 0.133A = 0.1291243176425199071318140G/AG = 0.611G = 0.5950.6120.94GA = 0.389A = 0.4051064799925232671318476AGAAAAGAAAAGAAA0.9360.99AGAAAGAAAG/—GAAAG = 0.492GAAAG = 0.489GAAAG— = 0.508— = 0.511657410125272771318877C/TC = 0.737C = 0.7070.3130.86CT = 0.263T = 0.293657410225294671319096T/CT = 0.747T = 0.7620.5851.09CC = 0.253C = 0.238186116225419971320349T/CT = 0.513T = 0.5230.7871.04CC = 0.487C = 0.4771243297225498571321135T/CT = 1.000T = 0.9990.9530.58TC = 0.000C = 0.0011014613425532471321474A/TA = 0.69A = 0.7060.5981.08TT = 0.310T = 0.2941014661625568671321836A/CA = 0.858A = 0.840.4480.87AC = 0.142C = 0.1601014676925571871321868A/GA = 0.052A = 0.0810.09331.62GG = 0.948G = 0.919801893625632171322471G/AG =G = 0.995A =A = 0.0051048384925756271323712G/AG = 0.302G = 0.2910.720.95GA = 0.698A = 0.709216013725884371324993T/CT = 0.842T = 0.8110.2420.81TC = 0.158C = 0.189219259525888071325030C/AC = 0.861C = 0.8340.4220.81CA = 0.139A = 0.166219259425906071325210A/GA = 0.374A = 0.3830.7891.04GG = 0.626G = 0.6171127169526159071327740TCCATATTCCATATGTCCATAT0.9470.79TCCATATGGGGCTGAGGCTGAGGAGGCTGAGCTGAGGAGGGAGG/—GG = 0.999GAGG = 0.998— = 0.001— = 0.0021074730126208871328238G/CG = 0.995G = 0.9860.420.37GC = 0.005C = 0.0141205036326234571328495C/GC = 0.993C = 0.9750.2320.28CG = 0.007G = 0.0251205036826236871328518G/AG = 0.947G = 0.9450.9290.97GA = 0.053A = 0.0551243294926385871330008A/GA = 0.606A = 0.6010.8720.98AG = 0.394G = 0.399740137526399571330145T/AT = 1.000T = 0.9960.5860.02TA = 0.000A = 0.004801968226519571331345G/AG = 0.848G = 0.8120.2930.77GA = 0.152A = 0.188802124826562071331770T/CT = 0.597T = 0.6240.4261.12CC = 0.403C = 0.3761115898526583371331983T/AT = 0.242T = 0.240.9620.99TA = 0.758A = 0.7601048385026638771332537A/GA = 0.823A = 0.860.1421.32GG = 0.177G = 0.140801087526713071333280A/GA = 0.0630A = 0.110.01931.84GG = 0.937G = 0.8901162684426746871333618T/CT = 0.424T = 0.4160.8020.97TC = 0.576C = 0.58498297226760671333756A/GA = 0.56A = 0.5420.5750.93AG = 0.440G = 0.458716119826885871335008T/CT = 0.563T = 0.5730.751.05CC = 0.437C = 0.427716034726919371335343G/AG = 0.551G = 0.5530.9661.01AA = 0.449A = 0.447800713926999171336141A/GA = 0.735A = 0.7350.9921.00AG = 0.265G = 0.265801448327184071337990C/TC = 0.757C = 0.7620.8671.03TT = 0.243T = 0.2381243707227259271338742T/CT = 0.887T = 0.9050.4141.21CC = 0.113C = 0.095800476727339971339549C/GC = 0.865C = 0.8030.02030.64CG = 0.135G = 0.1971258883027350471339654A/GA = 0.304A = 0.3050.9861.00GG = 0.696G = 0.695715844927405071340200T/CT = 0.001T = 0.0010.9440.23TC = 0.999C = 0.999657410327418271340332C/TC = 0.033C = 0.0280.6820.83CT = 0.967T = 0.972802047827427571340425C/TC = 0.999C = 0.9980.910.59CT = 0.001T = 0.002490307727629371342443C/TC = 0.971C = 0.9730.8781.09TT = 0.029T = 0.027801235927664571342795G/AG = 0.292G = 0.2850.8030.96GA = 0.708A = 0.715489944927716671343316A/GA = 0.927A = 1.0002.12E−06113.75GG = 0.073G = 0.0001069028927829071344440AAG/—AAG = 0.977AAG = 0.9920.2392.65— = 0.023— = 0.008657410427864671344796G/TG = 0.959G = 0.9750.3281.65TT = 0.041T = 0.025211055227902271345172A/GA = 0.747A = 0.7610.6381.08GG = 0.253G = 0.239800825627907371345223G/AG = 0.497G = 0.4740.480.91GA = 0.503A = 0.52675928328019871346348G/TG = 0.645G = 0.640.880.98GT = 0.355T = 0.360499917728110071347250A/GA = 0.001A = 0.0030.85337.48GG = 0.999G = 0.997233300628114571347295C/GC = 0.002C = 0.0070.7194.08GG = 0.998G = 0.993800617828265571348805A/CA = 0.802A = 0.7870.5830.91AC = 0.198C = 0.2131115898628283671348986A/CA = 0.0630A = 0.0540.6670.85AC = 0.937C = 0.946715062528353771349687C/TC = 0.999C = 0.9970.8490.55CT = 0.001T = 0.003800776828397671350126T/GT = 0.0660T = 0.0780.6591.21GG = 0.934G = 0.922800705828414971350299A/GA = 0.592A =G = 0.408G =DPF3-AA28474271350892C/AC = 0.86C = 0.880.3811.20AA = 0.140A = 0.120221590128484071350990C/TC = 0.966C = 0.9910.1633.66TT = 0.034T = 0.009381486628491271351062T/GT = 0.774T = 0.7790.8541.03GG = 0.226G = 0.221381486428509171351241T/CT = 0.464T = 0.440.4940.91TC = 0.536C = 0.56010605948250079-25008271316232CCCC/—CCCC = 0.649CCCC = 0.7370.004711.51— = 0.351— = 0.263



FIG. 1F shows proximal SNPs in and around the DPF3 region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1F can be determined by consulting Table 44. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Example 17
LOC145197 Proximal SNPs

It has been discovered that a polymorphic variation (rs1054745) in the LOC145197 gene is associated with the occurrence of breast cancer (see Examples 1 and 2). Subsequently, SNPs proximal to the incident SNP (rs1054745) were identified and allelotyped in breast cancer sample sets and control sample sets as described in Examples 1 and 2. Approximately 106 allelic variants located within the LOC14197 gene were identified and allelotyped. The polymorphic variants are set forth in Table 45. The chromosome position provided in column four of Table 45 is based on Genome “Build 34” of NCBI's GenBank.

TABLE 45Position inChromosomeAlleleGenomeDeduceddbSNP rs#SEQ ID NO: 7ChromosomePositionVariantsLetterIupac28959072251499854375a/caM24010195051499854655g/agR240102051701499859320t/ccY240102151831499859333t/ccY199961168391499860989t/cgR199961070161499861166c/taR199960972371499861387c/tgR227501681901499862340c/tgR227501583571499862507c/taR381877285771499862727c/gcS10149458159991499870149c/tcY7142383177221499871872c/tcY11343023185431499872693t/—tN11160641216391499875789c/acM12586334247531499878903c/aaM10142208262891499880439g/agR7493230271201499881270c/aaM5811036287371499882887a/—aN10151926295621499883712t/aaW12435354300781499884228t/ctY7151007309741499885124c/tcY11160642315451499885695t/ccY11160643317791499885929t/atW11626687340621499888212t/ccY4906112348311499888981t/gtK8016071349061499889056g/cgS11623698349341499889084t/gtK7401628349381499889088t/gtK8015995351311499889281g/aaR10873526355111499889661t/ctY11160644357081499889858a/ggR10134252360711499890221g/cgS1959030368241499890974a/ttW9707396369591499891109t/ggK2401022373351499891485a/ttW4622448373431499891493a/ggR10141019385071499892657c/tcY10141096385541499892704a/ccM11621063386241499892774c/ttY12434632386901499892840t/ccY12100901387441499892894t/ccY12434655387561499892906t/ccY9944103395251499893675g/agR7153189406821499894832g/aaR7158860411811499895331a/ggR12437080414141499895564g/cgS11851768416571499895807g/aaR12431943428211499896971g/aaR4309341454751499899625g/agR4329858456111499899761g/cgS10690268457631499899913aaa/—aN2401023460381499900188t/ccY1054745463441499900494g/aaR8019453466691499900819t/ccY12431510469261499901076g/cgS7141067470691499901219t/ccY12431547472931499901443g/aaR7142316476021499901752g/agR1959029498211499903971q/acY1959028498751499904025t/caR11376292511781499905328—/agN11376755511801499905330a/—aN7145420517721499905922a/ggR8013347519121499906062g/ttK2144070522521499906402t/ctY11850135522941499906444g/agR11850138523171499906467a/ggR1955617545481499908698g/agR11621899548891499909039t/ccY4900508553771499909527c/aaM4906116554981499909648t/ccY4906117556221499909772c/tcY2235972557991499909949c/tcY2235973559951499910145t/ccY2235974560421499910192c/aaM2235975563421499910492g/agR7149416577811499911931t/ccY11850809579831499912133a/ccM10140476589061499913056t/ctY12437309592571499913407c/tcY6575852609261499915076t/gtK4906118614621499915612a/gaR11428825622411499916391—/ttN11450744625411499916691—/taN1999612636001499917750t/cgR1889368639781499918128g/atY1889367639831499918133g/ccS1889366639991499918149g/atY3077388640421499918192—/cttN1889365642761499918426g/atY1955615663081499920458a/gaR1569807674001499921550t/ccY2064491692551499923405c/tcY2064492692631499923413t/ctY761532709651499925115c/ttY1955616715401499925690a/ggR2144065746981499928848g/agR2144066747461499928896c/tcY2895908752211499929371a/gaR2401043912891499945439t/aaW1007904917961499945946a/ggR3891113937621499947912c/ggS3891114937801499947930g/cgS730812942421499948392t/gtK1884068948091499948959a/ggR1884069948161499948966c/ttY


Assay for Verifying Allelotyping SNPs


The methods used to verify and allelotype the proximal SNPs of Table 45 are the same methods described in Examples 1 and 2 herein. The PCR primers and extend primers used in these assays are probided in Table 46 and Table 47, respectively.

TABLE 46dbSNP rs#Forward PCR primerReverse PCR primer2895907ACGTTGGATGAGCGAGAACTTATCTCTACCACGTTGGATGATCTTCTGACTAGCTGGGAC2401019ACGTTGGATGGTGATGCCAGATACTTCCCGACGTTGGATGAGCACTGTGGGTCACTGTGG2401020ACGTTGGATGCATTGTGCCTCAGTTTCCTCACGTTGGATGTTATGGAGCCCTTTCCACAG2401021ACGTTGGATGAGCATTGTGCCTCAGTTTCCACGTTGGATGTTATGGAGCCCTTTCCACAG1999611ACGTTGGATGTGAAAGCCCTTGGCAGGAGAACGTTGGATGAGACACTGGACCTAACTGAG1999610ACGTTGGATGACCACCTCCCCACTATTCTGACGTTGGATGAACTCTGAGGTTCCAACCTG1999609ACGTTGGATGACAAAAGGACTCGGATCTGGACGTTGGATGAGCTCTAGGGGAATCCTCTC2275016ACGTTGGATGCTAGATCATTGGCCAGTGTGACGTTGGATGAAGAGGCATGCCGAAATGAG2275015ACGTTGGATGTGACCTGCACAGCCCGGGAGAACGTTGGATGCCAATGAAAGAGGAGATGCG3818772ACGTTGGATGGGTGGCTAGTAGGATGATTGACGTTGGATGGCATGGAACCCCACATGTAC10149458ACGTTGGATGTGATCAAGGTTCCATCTTAGACGTTGGATGTATCCACCATCGTTCCAAAC7142383ACGTTGGATGCCTGGCTCATTGAAGCATTCACGTTGGATGGAAGTTCACATTTCCAAGGG11343023ACGTTGGATGTTTCATGCTTTTGGGACCAGACGTTGGATGGATTTCCCTATTTAACTGGC11160641ACGTTGGATGACTTGAGCTCAGGAGTTTGAACGTTGGATGTACAGGTTTGTGCCACCATG12586334ACGTTGGATGCTATCCTTCTACCAAAGGATACGTTGGATGTCAGAGTACTAGTCTTGAAC10142208ACGTTGGATGAACAATTCTTCTGACGCTGCACGTTGGATGGGCATATACTGTATGGTTCC7493230ACGTTGGATGATCCAGTCCTAGTTCCTTTCACGTTGGATGAGTCTCTTCTGGCTGTTTAC5811036ACGTTGGATGGGAGAGATCGCTGGCTTGATACGTTGGATGTTGCAGTGAGCTGAGATTGC10151926ACGTTGGATGCCTCTGTGTTAAGTCTATTCACGTTGGATGTAGCACATAGCTAGATACTG12435354ACGTTGGATGACCTTCACTGAGAACACTGGACGTTGGATGACCTGGCCAATATGATGAGG7151007ACGTTGGATGTGACACTGAGCATCTTTTCCACGTTGGATGGAATAGACACTTCACCAGAG11160642ACGTTGGATGTAGTCCTAGCTACACGGGAGACGTTGGATGAGTGCAGTGGCACGATCTTG11160643ACGTTGGATGAAATGCTGGGATTACAGGCGACGTTGGATGCTGGGTATAAACCCAAAGGG11626687ACGTTGGATGGGGAATCACAGAAAGTGTCCACGTTGGATGCACACGTGGTCATAATGTGC4906112ACGTTGGATGCCGGCCCTTTCTCATTTTTGACGTTGGATGATGAACCCAAAACCTGGTTC8016071ACGTTGGATGCAGAGTGGCTGTCAATGAAAACGTTGGATGCCTGATCAATCTGTATAGAG11623698ACGTTGGATGAAGAACCAGGTTTTGGGTTCACGTTGGATGAAAAAAGACCAGAGTGGCTG7401628ACGTTGGATGAAGAACCAGGTTTTGGGTTCACGTTGGATGCAGAGTGGCTGTCAATGAAA8015995ACGTTGGATGACCATTGGGATCGTGTTCAGACGTTGGATGCCGCTTAAGTGTTCCTCTAG10873526ACGTTGGATGATCCATTCTCATCACATCCCACGTTGGATGACAAACACTACGTCCGTCTG11160644ACGTTGGATGGGACTCCTCAAAACTGTCAGACGTTGGATGGTCTCTCTCAGCTTCTCTTG10134252ACGTTGGATGTTTGAACCTGGGAGGTGGAGACGTTGGATGTGGAGTCTTGTTCTGTCACC1959030ACGTTGGATGGAGGCACGCATCCAATTCAGACGTTGGATGGTGTCAGAGTGAGACTCTGT9707396ACGTTGGATGGGGTTCAAGCAATTCTCCTGACGTTGGATGAAATTAGATGGGCGTGGTGG2401022ACGTTGGATGACACAGGACTGTTGCAGTGGACGTTGGATGAAGACTACAGAGACTCCAGC4622448ACGTTGGATGTACAGAGACTCCAGCATCTGACGTTGGATGTCAGATTTCCAGCCACACAG10141019ACGTTGGATGGTCCATGAGAGACTTCCTTCACGTTGGATGGGGAATATTCGTGTCTGGAG10141096ACGTTGGATGACACGGTGCAGAGGGTAAACACGTTGGATGCAAAACCCAGCTCTGACCTC11621063ACGTTGGATGTTTACCCTCTGCACCGTGTGACGTTGGATGTGAGAAGCTAACAGCACAGG12434632ACGTTGGATGCTCCTATGGTTAATGTTGGGACGTTGGATGGTGCTGTTAGCTTCTCATAC12100901ACGTTGGATGAACTGGAAAATCCCTGCTGCACGTTGGATGTGTCAGCTACTCCACTCAAC12434655ACGTTGGATGGGGTCATTATCAAAAAACTGGACGTTGGATGCCAACATTAACCATAGGAGAC9944103ACGTTGGATGGCCCAAGGATTTGGGTAAACACGTTGGATGAATGCCGAATCCCTCAAAAG7153189ACGTTGGATGCAAACTTCCAAGATAGACTGACGTTGGATGTGACTTGTATTCTCCAATTC7158860ACGTTGGATGGTAAGTTTCATCCTGACCTCACGTTGGATGCTCCTTACTGACCTAAGGAG12437080ACGTTGGATGTAAAGAGGGAGACTGGAGAGACGTTGGATGCCTTAGTTCAACCCTACCAC11851768ACGTTGGATGACTTTCCTCAGGCCTCTTTGACGTTGGATGAAAGGACGTGTATGCTCACC12431943ACGTTGGATGTTCGGGATCTCACAGTCTAGACGTTGGATGGGGCCGTACCTCCTTTTAAA4309341ACGTTGGATGAAAGTACTGGGATTACAGGCACGTTTGATGAATCTCTTCCTGGGTCTTCG4329858ACGTTGGATGATTCTCTTGCCTCAGTCTCCACGTTGGATGCCTGACCGACATGGAGAATC10690268ACGTTGGATGCAAGAGCGAGACTCCGTTAAACGTTGGATGTTGATGATGCAGTCTTCGTG2401023ACGTTGGATGGGGACCACTAGAGTCTAAACACGTTGGATGTGTCTGAAGCACCAGGAATG1054745ACGTTGGATGGACTTTTAGGTCTGAGTTGGACGTGGATGCTTCCTCTAGCAGTGTATTTC8019453ACGTTGGATGCCAGTCGTTTCAAAAGGAACACGTTGGATGGCTTCAATAGTCTGTAACCC12431510ACGTTGGATGAAATTAGCTGGGCATGGTGGACGTTGGATGCCCAGGTTCAAGTGATTCTC7141067ACGTTGGATGTTCTAGATGGAGGCGAAGAGACGTTGGATGCAAAGTGCTGGCATTACAGG12431547ACGTTGGATGGCTAACTAACGGCTAATAGGACGTTGGATGAAGAAGCTCAATAGGCACTG7142316ACGTTGGATGAGTATTCCAGAGGCTTGTGGACGTTGGATGTGACATCTGCCCAGCAGTAC1959029ACGTTGGATGGCTAAGCTCTGCTTGAATTCACGTTGGATGCGAGTTGGATTATAGACTGC1959028ACGTTGGATGAGTCTATAATCCAACTCGCCACGTTGGATGTGACAGAATGAGACTCTGTC11376292ACGTTGGATGCTGTTTTTTCTGCTTTCTTCACGTTGGATGGGCTCCACAATTTTTAAGTG11376755ACGTTGGATGGGCTCCACAATTTTTAAGTGACGTTGGATGCTGTTTTTTCTGCTTTCTTC7145420ACGTTGGATGTGCCCTTGGTGAATTTCACGACGTTGGATGTACCTAGAAGTGGTAGGGAC8013347ACGTTGGATGGCCGAAGATGTTTTCTACTGACGTTGGATGAGCAGCTATCCAGGTTATTC2144070ACGTTGGATGGCCTGCTCTGTACCAGTAACACGTTGGATGTGTCTCACCCAATTTGGCTC11850135ACGTTGGATGGTTTTAGCAGCTCAGAAGGGACGTTGGATGCCTCACACAGTTACTGGTAC11850138ACGTTGGATGCCTCACACAGTTACTGGTACACGTTGGATGGTTTTAGCAGCTCAGAAGGG1955617ACGTTGGATGGAAATAGAAGCACTTTGGGTACGTTGGATGCTTTTATAATAAAAATCTCTC11621899ACGTTGGATGACTAGGTAAGGGAGTGAATGACGTTGGATGTTGGAAGATATTCCTGGCAG4900508ACGTTGGATGCTAAGGTCTTCCTGTCACTCACGTTGGATGCCTTTCTTCCCAATTGCATG4906116ACGTTGGATGAAAACCTGCGTGGTTGGATGACGTTGGATGCAGGCTGGAGAAGTCTAGAA4906117ACGTTGGATGGCTACATTGAAGAAGGACGGACGTTGGATGTGCACGTCTTTAAACACAGC2235972ACGTTGGATGTATCTTTTTTCCCCCATCAGACGTTGGATGGTAGGTTCAGGTGTCATTTG2235973ACGTTGGATGCTTCTCGAGGTCAAGGTTTCACGTTGGATGGATGGTCAGGTCATCTCATG2235974ACGTTGGATGCCTTGACCTCGAGAAGAAAGACGTTGGATGGTATGGCTGGGTAAAAATGC2235975ACGTTGGATGGGTTTTACTGCAAATGTGCGACGTTGGATGTAAGTGGTAGGAAATGATAC7149416ACGTTGGATGTTCTTCCCTGACTCCCTAACACGTTGGATGTGGAAGGCATTTCAAGCAGG11850809ACGTTGGATGCAGGGATCTACTCCTTGGTCACGTTGGATGGAAGATGCAAGGTCAGCAGG10140476ACGTTGGATGTTTCTAGAAATGCGAGCTGGACGTTGGATGGACCCATTTTCCAAATGTCAG12437309ACGTTGGATGCTGTCGAAGTATTGAGCACCACGTTGGATGCTGAAGGACCGAACACAATC6575852ACGTTGGATGACCTGGGTGCTGTGCTGCGGACGTTGGATGACGTGGGAACCGGGCTGTC4906118ACGTTGGATGCCTCTGAGGTTGCAAATCTGACGTTGGATGTGGCGCCCATTTGGCTTTTT11428825ACGTTGGATGAGAGCCCGTCTTTCTCCACAACGTTGGATGCCTTCAACCCATCTGGAAAG11450744ACGTTGGATGAAACCCCAGATATTCCCTTGACGTTGGATGTGAGATAAAAGACACACAGG1999612ACGTTGGATGACGTTGGAATGCCAGTTTGCACGTTGGATGTCCTGGGAATGGGCTTCTAC1889368ACGTTGGATGACCTCTAGAATTTCCTGGCCACGTTGGATGCAAGGACAAGTGTCTTAGGG1889367ACGTTGGATGACCTCTAGAATTTCCTGGCCACGTTGGATGTGTCGGCGACAAGGACAAGT1889366ACGTTGGATGCCCTGATATCTCTTACTCCCACGTTGGATGAGTGTGTTCACGGGCAATGG3077388ACGTTGGATGTGAACGCAGTGTGTTCACGGACGTTGGATGAAGACACTTGTCCTTGTCGC1889365ACGTTGGATGCATGCTGCAGCCAAACATTGACGTTGGATGTAGGCAAGGCACCATCTCAT1955615ACGTTGGATGCACTGCCCTGATGTCACACAACGTTGGATGTGCAGAGTGATAGGGTCAGG1569807ACGTTGGATGCTGCAGAGTTCAAAGATGCGACGTTGGATGTCAGGTCCTGGAGTTAAAAG2064491ACGTTGGATGAGTCACCAAAGCTAAGTGCCACGTTGGATGACACCGTCTCTGGGCTGAAG2064492ACGTTGGATGACACCGTCTCTGGGCTGAAGACGTTGGATGAAGCTAAGTGCCAAGATGCG761532ACGTTGGATGACCTTTAAGCCCAAGTTGAGACGTTGGATGACTGGCATGCAGTTGTTACC1955616ACGTTGGATGACCAACTTCCACTCAGAAGCACGTTGGATGCAGCATGGCTTCATCTTAAC2144065ACGTTGGATGAAATTAACCCTCGCAGAGGCACGTTGGATGGAGAAAGTTCCAGAAGAGGG2144066ACGTTGGATGCCTCTGCGAGGGTTAATTTCACGTTGGATGCAGAAACACCCAGAGTGATG2895908ACGTTGGATGAGAGATCAGAGAGAGAGAGCACGTTGGATGAAGGTGATTAGGTCAGGAGG2401043ACGTTGGATGGTTACACACTTTCTAGGCTCACGTTGGATGTGGGCCCAAACTATCTCTAG1007904ACGTTGGATGAGCGCAGTTGTTTGTCTCTCACGTTGGATGCCATGATGATGGAGCAACAG3891113ACGTTGGATGGGGTTTGGAGAAGAAAGGAGACGTTGGATGGTGACTCACTGTCTAGTCTG3891114ACGTTGGATGTCCTGTGACTCACTGTCTAGACGTTGGATGGAAAGGAGACTGGTTTGGG730812ACGTTGGATGATTGGTGAGGTCTGGCTATGACGTTGGATGCCTGTAATCCCAGCACTTTG1884068ACGTTGGATGCCACTGGGAAAAGGCACTTACGTTGGATGGTAGGGTTGTTGGGTCATTC1884069ACGTTGGATGCTTTCAGAATAAGGGCCAACACGTTGGATGCTCTCAGACAGCGTTTTAAG











TABLE 47








dbSNP rs#
Extend Primer
Term Mix


















2895907
ATCTCTACCAAACAATACAAAAAT
ACT






2401019
TGCGCAAAGTGCCAGAGCCC
ACG





2401020
TTCCGTGAATGGGAATG
ACT





2401021
CCTCAGTTTCCTCTTCC
ACT





1999611
AGGAGAGCAGCACTCAC
ACT





1999610
CCCCACTATTCTGATAACC
ACG





1999609
CAGAGTCCCCATGTGCACGC
ACG





2275016
GCCAGTGTGGTTGCAATT
ACG





2275015
AGCCGCTGCCCCAGGTG
ACG





3818772
TGCTTTGGTGCTCTCTT
ACT





10149458
CCAAATTTTGGTTGCTTCAAGG
ACG





7142383
TATAGACATTATCTGACAACACT
ACG





11343023
GGAGAATCTGCCCAGCTCAT
ACT





11160641
GCCTGGGTAACATGGTGAAA
CGT





12586334
AAAAACTTAAGATACATAGGGAC
CGT





10142208
CTTCTGACGCTGCTAACTAAC
ACG





7493230
AGTCCTAGTTCCTTTCTGTTTA
CGT





5811036
TTCCCAACTCTTTTTTTTTTTTTTT
ACT





10151926
TAGAGAGGATATAGAAAAGGAG
CGT





12435354
CTGAGAACACTGGTTGAGAGT
ACT





7151007
TTTTCCTGCCCTTATTTGTCAT
ACG





11160642
GAACCCAGGAGGCAGAGC
ACT





11160643
CCAGCCCACATGTGTCTTTAT
CGT





11626687
CACAGAAAGTGTCCTTTATAAAC
ACT





4906112
CCCTTTCTCATTTTTGATACTG
ACT





8016071
AGAGAAAACAAATGAACCCAAAA
ACT





11623698
GGGTTCATTTGTTTTCTCTATTG
ACT





7401628
TCATTTGTTTTCTCTATTGTCTG
ACT





8015995
CAGCTGAATGAAGACACTACA
ACG





10873526
CCATCAACATGGCTTATCACC
ACT





11160644
TCAGGGTCCTCAAAAATAAGG
ACT





10134252
GAGGTGGAGGTTGCAGTGA
ACT





1959030
ATTCAGCTGATGATCCC
CGT





9707396
TCTCCTGACTCAGTCTCCC
ACT





2401022
GGTCAGGCTCTTCAGCG
CGT





4622448
CCTGGTCTCTTCTCGCTGAA
ACT





10141019
CTGTCCTGCAAGCAGGGAA
ACG





10141096
GGTAAACCCAGGCTCACAG
ACT





11621063
GACAGGTGCTCCGCCAGA
ACG





12434632
TGTTGGGGTTGAGTGGAGTA
ACT





12100901
CCTGCTGCGGAGACTATTCA
ACT





12434655
AACTGGAAAATCCCTGCTGC
ACT





9944103
GGTAAACACACTCGCAACAG
ACG





7153189
TAGACTGCCTTTGTATATCTTTT
ACG





7158860
GCCAACAATGGCTACATCTTTT
ACT





12437080
GGAATTCTGTAATGTGGGCTG
ACT





11851768
GGTGCTACCTCTTTAGCCAC
ACG





12431943
TTTTTGCTTAGCATGGTGGAAA
ACG





4309341
CCGGGCCTTCCCTAGGTT
ACG





4329858
CCCGCCACCACGCCCGG
ACT





10690268
GACTCCGTTAAAAAAAAAAAAAAAA
ACT





2401023
TCTAAACTTGATAAGGCAAC
ACT





1054745
TTGGTCCATTAGGGAATTAGA
ACG





8019453
GGGAAATACTAGGAATGAATACT
ACT





12431510
GGCATGGTGGCGGGTGC
ACT





7141067
CATTGGCCGGGCATGGTG
ACT





12431547
TAGGGGAGAGCTAAAAACAAC
ACG





7142316
TGATGGCAGCATCTTATTACAT
ACG





1959029
CTTGAATTCTCATTGAGCATCT
ACG





1959028
TAATCCAACTCGCCTTCTCC
ACT





11376292
TAAAAAGTGGTAGACTTTTTTTTTT
ACG





11376755
AAGAATTTGCCCAGAAAAAAAAAA
ACT





7145420
ACCCGAAGCTAGGGTCGC
ACT





8013347
GAATATTCTATGATGTTAGGTGT
CGT





2144070
GAGGTGCTGGGGAGTGTGT
ACT





11850135
GCAAACATCCCCGGGAGC
ACG





11850138
CCCGGGGATGTTTGCTGAA
ACT





1955617
GATTTAAATGGGAGTATGATGTA
ACG





11621899
GGGGATGGTGAATGACCTCT
ACT





4900508
AGAGTGACCATTCCTATGTTC
CGT





4906116
TGCGTGGTTGGATGTTTTTCA
ACT





4906117
GAAGAAGGACGGTGACTCG
ACG





2235972
TCCCCCATCAGGACACC
ACG





2235973
GGTCAAGGTTTCAAAAATGG
ACT





2235974
GAGAAGAAAGAGAGAAAGCTTTTA
CGT





2235975
TGCGAACGATCCATCTA
ACG





7149416
TTTCCCCCACTGTCTCTGG
ACT





11850809
GGTCCCTGGTCTCTGGTTTT
ACT





10140476
ATGCGAGCTGGATTTTTAAACA
ACT





12437309
GAAGACTGTGGGAGTTTTGG
ACG





6575852
TGCGGCCAGGCAGAGCC
ACT





4906118
CAGTTAGGATGCGGGAGGC
ACT





11428825
CTTTCTCCACACCATTTTTTTTT
ACG





11450744
GATATTCCCTTGGTTAAAAAAAAAA
CGT





1999612
AGGTTTTGTGTCATCTAGC
ACT





1889368
CCTGCCACCCTGATATC
ACG





1889367
GCCACCCTGATATCTCTTA
ACT





1889366
CTTACTCCCTAAGACACTTG
ACG





3077388
CGGGCAATGGGCAGAGAG
CGT





1889365
AAACATTGACACCCCAAGTTC
ACG





1955615
CACTACCCTGATCTCACACA
ACT





1569807
AAGGCAGTTTGGAGAGC
ACT





2064491
AGCTAAGTGCCAAGATG
ACG





2064492
GGCACCAGGAGCAGGTCCTC
ACT





761532
TTCTGTCACTCACCCCC
ACG





1955616
GACAGGGTCTTTGCACAC
ACT





2144065
AGGCCGCCTCTTTATCA
ACG





2144066
AATTTCAGTGTCAACTTGG
ACG





2895908
TCTCTTCTTATAAGGGCACT
ACT





2401043
TAGCTTTATAGGACAGGTCTAG
CGT





1007904
CAGTTGTTTGTCTCTCTTGCCCA
ACT





3891113
AGAAAGGAGACTGGTTTGGG
ACT





3891114
CTGTCTAGTCTGTTCACTTTC
ACT





730812
AGCGATCCTCCCACCTC
ACT





1884068
CAGAATAAGGGCCAACT
ACT





1884069
ATAAGGGCCAACTGATGTAT
ACG










Genetic Analysis of Allelotyping Results


Allelotyping results are shown for cases and controls in Table 48. The allele frequency for the A2 allele is noted sixth columns for breast cancer pools and control pools, respectively, where “AF” is allele frequency. SNPs with blank allele frequencies were untyped.

TABLE 48BreastPosition inCancerSEQ IDChromosomeA1/A2AssociateddbSNP rs#NO: 7PositionAlleleCase AFControl AFp-ValueORAllele289590722599854375A/CA = 0.342A = 0.3640.4641.10CC = 0.658C = 0.636240101950599854655G/AG = 0.282G = 0.3030.4771.10AA = 0.718A = 0.6972401020517099859320T/CT =T = 0.239C =C = 0.7612401021518399859333T/CT = 0.681T = 0.660.5030.91TC = 0.319C = 0.3401999611683999860989T/CT = 0.951T = 0.940.4890.80TC = 0.049C = 0.0601999610701699861166C/TC = 0.598C = 0.5920.8420.97CT = 0.402T = 0.4081999609723799861387C/TC = 0.434C =T = 0.566T =2275016819099862340C/TC = 0.609C = 0.6420.3161.15TT = 0.391T = 0.3582275015835799862507C/TC = 0.291C = 0.310.5241.09TT = 0.709T = 0.6903818772857799862727C/GC = 0.705C = 0.6650.1770.83CG = 0.295G = 0.335101494581599999870149C/TC = 1C = 10.9130.00CT = 0T = 0.00071423831772299871872C/TC = 0.991C = 0.9720.08790.31CT = 0.009T = 0.028113430231854399872693T/—T = 1T = 11— = 0— = 0111606412163999875789C/AC = 1C = 0.9990.9210.44CA = 0.000A = 0.001125863342475399878903C/AC = 0.435C = 0.3930.2590.84CA = 0.565A = 0.607101422082628999880439G/AG = 0.957G = 0.9720.5051.55AA = 0.043A = 0.02874932302712099881270C/AC = 0.001C = 0.0010.9395.70AA = 0.999A = 0.99958110362873799882887A/—A = 0.511A = 0.5360.4241.11— = 0.489— = 0.464101519262956299883712T/AT = 0.001T = 0.0010.9880.32TA = 0.999A = 0.999124353543007899884228T/CT = 1T = 10.9981.10CC = 0.000C = 0.00071510073097499885124C/TC = 0.535C = 0.4960.2670.85CT = 0.465T = 0.504111606423154599885695T/CT = 1T = 0.9990.8960.46TC = 0.000C = 0.001111606433177999885929T/AT = 0.553T = 0.50.09660.81TA = 0.447A = 0.500116266873406299888212T/CT =T = 0.54C =C = 0.46049061123483199888981T/GT = 1T = 10.9910.76TG = 0.000G = 0.00080160713490699889056G/CG = 0.224G = 0.2730.151.31CC = 0.776C = 0.727116236983493499889084T/GT = 1T = 10.9680.68TG = 0.000G = 0.00074016283493899889088T/GT = 1T = 11G = 0G = 080159953513199889281G/AG = 0.547G = 0.5620.6431.06AA = 0.453A = 0.438108735263551199889661T/CT = 0.579T = 0.5480.3340.88TC = 0.421C = 0.452111606443570899889858A/GA = 0.661A = 0.6730.7151.05GG = 0.339G = 0.327101342523607199890221G/CG = 0.003G = 0.0040.8291.84CC = 0.997C = 0.99619590303682499890974A/TA = 0.029A = 0.030.9081.06TT = 0.971T = 0.97097073963695999891109T/GT = 0T = 01G = 1G = 124010223733599891485A/TA = 0.561A = 0.5630.9421.01TT = 0.439T = 0.43746224483734399891493A/GA = 0.001A = 0.0010.9931.32GG = 0.999G = 0.999101410193850799892657C/TC = 1C = 10.9740.71CT = 0.000T = 0.000101410963855499892704A/CA = 0.002A = 0.0030.9081.74CC = 0.998C = 0.997116210633862499892774C/TC = 0.5C = 0.4450.110.80CT = 0.500T = 0.555124346323869099892840T/CT = 0.371T = 0.3820.7261.05CC = 0.629C = 0.618121009013874499892894T/CT = 0.166T = 0.2110.1361.34CC = 0.834C = 0.789124346553875699892906T/CT = 0.408T = 0.4280.5321.09CC = 0.592C = 0.57299441033952599893675G/AG = 0.816G = 0.8190.9241.02AA = 0.184A = 0.18171531894068299894832G/AG = 0.001G = 0.0010.9861.43AA = 0.999A = 0.99971588604118199895331A/GA = 0.001A = 0.0010.9430.22AG = 0.999G = 0.999124370804141499895564G/CG = 0.883G = 0.8170.00810.59GC = 0.117C = 0.183118517684165799895807G/AG = 0.211G = 0.230.4711.12AA = 0.789A = 0.770124319434282199896971G/AG = 0.239G = 0.3140.02451.46AA = 0.761A = 0.68643093414547599899625G/AG = 0.999G = 0.9990.9240.59GA = 0.001A = 0.00143298584561199899761G/CG = 0.999G = 0.99911.00C = 0.001C = 0.001106902684576399899913AAA/—AAA = 0.454AAA =— = 0.546— =24010234603899900188T/CT = 0.731T = 0.7730.1781.25CC = 0.269C = 0.22710547454634499900494G/AG = 0.188G = 0.270.002281.60AA = 0.812A = 0.73080194534666999900819T/CT = 0.116T = 0.2490.0006072.52CC = 0.884C = 0.751124315104692699901076G/CG = 0.999G = 0.9990.981.17CC = 0.001C = 0.00171410674706999901219T/CT = 0.001T = 0.0020.971.45CC = 0.999C = 0.998124315474729399901443G/AG = 0.192G = 0.2940.0001961.76AA = 0.808A = 0.70671423164760299901752G/AG = 0.96G = 0.9930.05445.62AA = 0.040A = 0.00719590294982199903971G/AG = 0.898G = 0.8420.010.60GA = 0.102A = 0.15819590284987599904025T/CT = 0.941T = 0.8730.0004190.43TC = 0.059C = 0.127113762925117899905328—/A— = 0.322— = 0.310.680.94A = 0.678A = 0.690113767555118099905330A/—A = 0.794A = 0.7850.7420.95A— = 0.206— = 0.21571454205177299905922A/GA = 0.301A = 0.2910.730.95AG = 0.699G = 0.70980133475191299906062G/TG = 0.16G = 0.2490.0006711.75TT = 0.840T = 0.75121440705225299906402T/CT = 0.774T = 0.7350.2240.81TC = 0.226C = 0.265118501355229499906444G/AG = 1G = 10.9651.64AA = 0.000A = 0.000118501385231799906467A/GA = 0.002A = 0.0020.9850.90AG = 0.998G = 0.99819556175454899908698G/AG = 0.534G = 0.5210.7360.95GA = 0.466A = 0.479116218995488999909039T/CT = 0.004T = 0.0090.7742.36CC = 0.996C = 0.99149005085537799909527C/AC = 0C = 01A = 1A = 149061165549899909648T/CT = 0.038T = 0.0270.6190.70TC = 0.962C = 0.97349061175562299909772C/TC = 0.327C = 0.2760.09010.79CT = 0.673T = 0.72422359725579999909949C/TC = 0.726C = 0.6580.01930.73CT = 0.274T = 0.34222359735599599910145T/CT = 0.163T = 0.2350.02971.58CC = 0.837C = 0.76522359745604299910192C/AC = 0.163C = 0.2450.006331.66AA = 0.837A = 0.75522359755634299910492G/AG = 0.948G = 0.9670.1841.61AA = 0.052A = 0.03371494165778199911931T/CT = 0.662T = 0.7170.1781.29CC = 0.338C = 0.283118508095798399912133A/CA = 0.002A = 0.0020.9560.74AC = 0.998C = 0.998101404765890699913056T/CT = 0.93T = 0.9080.2980.75TC = 0.070C = 0.092124373095925799913407C/TC = 1C = 10.9543.60TT = 0.000T = 0.00065758526092699915076T/GT = 0.998T = 0.9990.8752.34GG = 0.002G = 0.00149061186146299915612A/GA = 0.892A =G = 0.108G =114288256224199916391—/T— = 0.6— = 0.570.3960.88T = 0.400T = 0.430114507446254199916691—/T— = 0.574— = 0.5450.3870.89T = 0.426T = 0.45519996126360099917750T/CT = 0.006T = 0.0050.9160.82TC = 0.994C = 0.99518893686397899918128G/AG = 0.429G = 0.4710.1861.18AA = 0.571A = 0.52918893676398399918133G/CG = 0.836G = 0.820.5620.90GC = 0.164C = 0.18018893666399999918149G/AG = 0.325G = 0.3310.8221.03AA = 0.675A = 0.66930773886404299918192—/CT— = 0.607— = 0.5630.1830.84CT = 0.393CT = 0.43718893656427699918426G/AG = 0.721G = 0.7420.4611.12AA = 0.279A = 0.25819556156630899920458A/GA = 0.636A = 0.6150.50.91AG = 0.364G = 0.38515698076740099921550T/CT = 0.694T = 0.6870.8120.97TC = 0.306C = 0.31320644916925599923405C/TC = 0.406C = 0.3730.2980.87CT = 0.594T = 0.62720644926926399923413T/CT = 0.343T =C = 0.657C =7615327096599925115C/TC = 0.73C = 0.7920.06071.41TT = 0.270T = 0.20819556167154099925690A/GA = 0.546A = 0.6020.0971.26GG = 0.454G = 0.39821440657469899928848G/AG = 0.38G = 0.350.330.88GA = 0.620A = 0.65021440667474699928896C/TC = 0.567C = 0.5430.4580.91CT = 0.433T = 0.45728959087522199929371A/GA = 0.426A = 0.3580.03040.75AG = 0.574G = 0.64224010439128999945439T/AT = 0.001T = 00.9480.00TA = 0.999A = 110079049179699945946A/GA = 0.514A = 0.5260.7321.05GG = 0.486G = 0.47438911139376299947912C/GC = 0C = 01G = 1G = 138911149378099947930G/CG = 1G = 10.976CC = 0.000C = 07308129424299948392T/GT = 0.903T = 0.8880.570.86TG = 0.097G = 0.11218840689480999948959A/GA = 0.558A = 0.5480.7480.96AG = 0.442G = 0.45218840699481699948966C/TC = 0.288C = 0.2560.2740.85CT = 0.712T = 0.744



FIG. 1G shows proximal SNPs in and around the LOC145197 region for females. The position of each SNP on the chromosome is presented on the x-axis. The y-axis gives the negative logarithm (base 10) of the p-value comparing the estimated allele in the case group to that of the control group. The minor allele frequency of the control group for each SNP designated by an X or other symbol on the graphs in FIG. 1G can be determined by consulting Table 48. By proceeding down the Table from top to bottom and across the graphs from left to right the allele frequency associated with each symbol shown can be determined.


To aid the interpretation, multiple lines have been added to the graph. The broken horizontal lines are drawn at two common significance levels, 0.05 and 0.01. The vertical broken lines are drawn every 20 kb to assist in the interpretation of distances between SNPs. Two other lines are drawn to expose linear trends in the association of SNPs to the disease. The light gray line (or generally bottom-most curve) is a nonlinear smoother through the data points on the graph using a local polynomial regression method (W. S. Cleveland, E. Grosse and W. M. Shyu (1992) Local regression models. Chapter 8 of Statistical Models in S eds J. M. Chambers and T. J. Hastie, Wadsworth & Brooks/Cole.). The black line provides a local test for excess statistical significance to identify regions of association. This was created by use of a 10 kb sliding window with 1 kb step sizes. Within each window, a chi-square goodness of fit test was applied to compare the proportion of SNPs that were significant at a test wise level of 0.01, to the proportion that would be expected by chance alone (0.05 for the methods used here). Resulting p-values that were less than 10−8 were truncated at that value.


Finally, the gene or genes present in the loci region of the proximal SNPs as annotated by Locus Link (http address: www.ncbi.nlm.nih.gov/LocusLink/) are provided on the graph. The exons and introns of the genes in the covered region are plotted below each graph at the appropriate chromosomal positions. The gene boundary is indicated by the broken horizontal line. The exon positions are shown as thick, unbroken bars. An arrow is place at the 3′ end of each gene to show the direction of transcription.


Provided hereafter are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 genomic sequences (SEQ ID NO: 1, 2, 3, 4, 5, 6 and 7, respectively). Polymorphic variants are designated in IUPAC format. The following nucleotide representations are used throughout the specification and figures: “A” or “a” is adenosine, adenine, or adenylic acid; “C” or “c” is cytidine, cytosine, or cytidylic acid; “G” or “g” is guanosine, guanine, or guanylic acid; “T” or “t” is thymidine, thymine, or thymidylic acid; and “I” or “i” is inosine, hypoxanthine, or inosinic acid. SNPs are designated by the following convention: “R” represents A or G, “M” represents A or C; “W” represents A or T; “Y” represents C or T; “S” represents C or G; “K” represents G or T; “V” represents A, C or G; “H” represents A, C, or T; “D” represents A, G, or T; “B” represents C, G, or T; and “N” represents A, G, C, or T.


Following is an ICAM genomic nucleotide sequence that encodes ICAM1, ICAM4 and ICAM5 (SEQ ID NO: 1).

>19:10219601-103122001aggaggctga ggtgggagaa tggcgtgaac ctgggaggcg gagcttgcag tgagccaaga61tcacgccact gcactccagc ctgggcgaca gagcgagact ccgtctcaaa aaaaaaaaaa121aaaaaaaaaa agccaggcga ggtgactcac acccataatc gcagcacttt gggaggccaa181ggcgggcaga tcgcttgagc ccagaagttt gagatctgcc tgggcaacaY ggcgagaccc241tgtctctatg aaacaagaaa aaagaaagaa acgaaatact gttccatcat ttgccacata301aaatctaaac tctctggtgc agaacagact tgcaaatctg cctgtaaaat catacaccgg361attttggagt agacacacag gaggctgatt gtagtggtgg cttctgggag aagaactggg421gggtaggggg cacagataag agtagacaga attttcactc tagtaatctt tgtaattttt481gaaattctct ctaccaggtg tatgaatgac caatgaaaat atacaatagg ccaggcgcag541tggctcacgc ctataatccc agcactttgg gaggctgagg cgggtggatc acatgaggtc601aggagtccga ggccagcctg accaacatgg tgaaaccttg tctctacgaa aaatacaaac661attagtcagg tagggagcat cacttgagaa caggagttca agaccagcct ggacaacaaa721gcaagacctc tgcctctaca aaaaaaaaaa aaaaaaaaaa aaattgctgg gcatggtgga781acatgcctgt ggcctcagct acttaggtgg ctgcagcaga ggatcatctg aggccaggaa841ttcaagacta cagtgaacta taatcgttac actgcactac agactggtaa cagggtgaga901tcctgtctca aaaacaacag caacaaaata aacgattaaa agacctttta aagttgcaaa961atacatagag tcttaaacat gcatccacag ttatttattt atttatttag aaacggagtt1021tcactcttgt tgcccaggct ggagtgcaat ggtgcggtat cagctcactg caacctccgc1081ctcccaagtt aaaggaattc tgcctcagcc ttccaagtag ctggaattac aggcatgcgc1141caccatgctc ggctaatttt gtatttttag taaagatggg gttttggcat attggccagg1201atggtttcga acccctgacc tcaggtgatc cacccgcctc ggactcccaa agtgctagga1261ttataggcat gagccaccac gcccggccgc attcagttat tcttgcaggg ataaaataca1321caatgaaata cactatactt tttgttttct ttctttcttt tttttttttt tttttgagac1381agagtctcac tcgtcgcatg ggctggagtg cggtgcggga tctcggctca ctgcaacctc1441tgcctcctgg gttgaagcga ttctcctgcg tcagcctccc gagtagctgg gattacaggt1501gcccgccact acgcccagct aatttttttg tatttttagt agagataagg tttcaccatg1561ttggccaggc tggtctcgaa ctcctgactc gtgattcgcc caccttggcc tcccaaagtg1621ctgggattac aggcgtgagc caccgcaccc ggccacattt tttttttttt ttttttgaga1681caggatctta gtctgtcacc caggctggag tacagtggca tgaacatggc tcactgcagc1741ctcaatctct tgggttcagg tgatccttct gccttagcct ccccattagc tgggaccaca1801ggcatatacc atcacaccta gctaattttt aaatttttgg tagaggccag gcgcggtggc1861tcacgcctgt aatcccagca ctttgggagg ccgagtcggg tggatcacct gaggtcggga1921gttcgagacc agcctggcca aaatggtgaa accctgtctc tactaaaaat aaaaaataaa1981aataaaaatt agctgggcgt agtggcgggc gcctgtaatc ccagctactc gggaggctga2041ggcaggagaa tcgcttgaac ccaggaggca gaggttgcag tgagccaaga tcgcgctact2101gcactccagc ctgggcaaca gagtgagatt ctgtctcaaa aaaaaaataa taataatgct2161atttattgac tttacacctt gtaccaggca tgggaagctt tgcctccatt acgtcactga2221atctcataac ctccttttcc agcagaggaa aatgaggttg gttcacagac cacgttgtca2281gctgtgctct gtccagaacg cactggcctc caagtagaca gccctggact ggtagggaag2341ccggctatga tccggtggcg ccccctggag gtctatcggg aacatggtaa agaacctaaa2401aatgggtggg ccacagtagc tcatgcctgt aatcccagca ctttggggga ccaatgcggg2461agaattgctt gagcccagga gttcaagacc agcctgggca acattgggag acccaccccc2521cgccatctct acaaaaaaaa aattaggccg ggcgcggtgg ctcaggcctg taatcccagc2581actttgggag gccgaggcgg gtggatcacc tgaggtcagg agttcaagac cagcctggcc2641aacgtggtgc cacactgtct ctaataaaaa cacgaaaatt agggccgggc tcggtggctc2701acgcctgtaa tcccagcact ttgggaagcc gaggcgggcg gatcacgagg tcaggagatt2761gagaccatcc tggctaacac ggtgaaaccc cctctctact aaaaatacaa aaagttagcc2821aggtgtggtg gcgggcgcct gtagtcccag ctactcggta agctgaggca gggaatcgct2881tgaacccggg aggccgagat gtgcgatctc acaccactgc actccggcct gggcgacaga2941gcgatactcc atctcaaaat acaaatacaa aataaaaaaa tacaatacaa aaatgagccg3001ggcttgcgta cctgtagacc agctactcag gagacagagg caggagaatc ccttgagctc3061tggaggtcga ggctgcagta agccatgatc ttgcccattg cactccagcc tgggcgacag3121aggaagacct tgtctctaaa aaccaaaaca aagaaactaa aaataagcat tcggatttgt3181tagggggcga caagggaggc actccaggat ctgtggactc cccactttgt tctgtccttg3241gagagccctg gaaggtctga gaggggacgg gacctggttt aagggggtag gggagaggac3301cctggtctag ggggtaaggg acacaaatac ctaatctgag gggtttcggg gggacatggc3361cctgccctgg ggaatctaaa ctgggaggca tggtctggca ggcccaatcc tgaaggcttt3421ctgagggcaa taaggccctg cctttaaaca aatgaaaaaa cgccaggcac ggtggctcac3481gcctgtaatc ccagcacttt ggaaggctga ggcgggagga tcacgaggtc aggagatcga3541gaccatcctg gctaacgcgg tgatacccgt ctctactaaa aatacaaaaa attagccagg3601cgtggtggcg ggcgcctgca gtcccagcta ctcgggaggc tgaggcagga gaatggcgtg3661aacccaggag gcggagcttg cagtgagccg agatcgcgcc actgcactcc agcctgggca3721acagagcaag actccgtctc aaaaaaaaca aaaacaaaaa caaaaacaaa aacaaaaaaa3781caaataaaaa aacaaaacca cataactgga taaagaaaaa accatctccg acagccttgg3841aggcgggatg aaggcgtggc ccggtgggcg tgaccaacag caaaagttta agcgttattg3901gctgtattcc ttagttgctc actccagaac tgcccactta tgggcggggg tcactccttc3961aggcttaaca gtcattggct gaattgggcc agagaggtct cattggctga attcctgcac4021cggctcgtcg gaggcgggac ccaaagtagg ctaggcctac ggaagctggg tcttcttgct4081gtgaggtcgc gttccccagt gttacggagg gtccttgagg caggagtgaa aattgggtct4141gggggttagt cctggggtgg aggtctgggc acgccgggtc ggaccccctc catcttcggt4201tttgcacacc ccgctttcca gcgcggagtc gcggcgggta gggcggcgtc gcgtgcgtga4261cgtcatccag cggcgcctcg cRaggctcca gtggccttga cctcccgcgg cgtgggaggc4321tgcgcggcga tgctgcagtt cgtccgggcc ggggcgcggg cctggcttcg gcctaccggc4381agccaggtga ggccaggggc tggaggcgtg gtcgaaggat gaaatttggg ggtgtccagg4441ggtcgtctct cactttcgcc caacccttgc agggcctgag ttccctggcg gaagaggcag4501cgcgtgcgac cgagaacccg gagcaggtgg cgagcgaggg taaggcaacc ggggtggctc4561caggaggggc ggcgacagag aggtctgacc cttgacccta acctctgacc cccgcaatcg4621ctccaggtct cccggagccc gtgctgcgca aagtcgagct cccggtaccc actcatcgac4681gcccagtgca ggcctgggtc gagtccttgc ggggcttcga gcaggagcgc gtgggcctgg4741ccgacctgca ccccgatgtt ttcgccaccg cgcccaggtg agcgagggct gtaatggtga4801actgagtggc agagggatga agagcgggat ttcaggagtc acgatgactt tgggcttgta4861cccttgggaa agtgctgtat ttctacagcc tccgtttctc cacctgtcaa aggggaatga4921tgacagtttc ccctgctgta gcgctgtgtg agattgaagc ctgagaggtg acatcatcta4981agggttaggg agacagaatt ctggagcccg actgattagg ttcaaatcct gccttcccct5041cttgtccctc agtgtcccta ttttgtcagc ggtcgggagg ttgctgtgat gaataaatga5101cttaattctg gcacataata agttctatag aaatgttgat aatctttgtt aactggtttt5161tgcaaataag agcactaaaa agactaaacc attcctcggt gcctggaaga ggctgtttgc5221attttagtta ccctgctgtt cataacatct ctaagaaaat gtaggggcca ccctgggcgc5281agtggctcac gcctgtaatc ccagcacttt gggaggccaa ggcgggcgga tcacgaggtc5341aggagatcga gaccatcctg gctaacatgg tgaaaccccg tctctactaa aaatacaaaa5401aaaaattagc cgggcgtggt ggcgggcgtc tgtagtccca ggtactctgg aggctgaggc5461aagagaatgg cgtgaacccg ggaggcggag cttgcagtga gccgagatcg cgccactgca5521ctccatcctg ggcaacactc tgtctcaaaa aaaaaaaaaa aaaagaaaga aaagaaaatg5581taggggccag ttactgtggc tcacatctgt aatcccagca cattgggagg ccgaggtggg5641cggatcactt gaaaccagga gttgcagacc agcctggcca acatgatgaa accccgtctc5701taccaaaaat acaaaaatta gccggacgtc ttagtgcaag cctgtagtcc cagctactca5761ggaggctgag gcatgagaat cgcttgcacc tggggagatg gaggttgcag tgagccgtga5821ttatactact gcactccagc ctgggcgaca gagacagact ccatctcaaa aaaaaaaaca5881ggtgaaattg atttcaataa tgtatttaac ctgtatttaa aactatgtcg aaatcacatt5941gtagcatggg gcactggcca tgtttcagat gttgagtatg tgactgtatg gaatggtata6001gaactagaga ggaaaaccag tccctgaaga aggtggcaat aagtgaagtg taatagcagg6061aaaaaagtaa tggtaggaaa aacaaggaag aaggggtggc tttttttttc tgagatgaag6121tttcgctctt gtcgcccagg ctggagtgca atggcatgct ctcagctcac ttcaacctcc6181gcctcctggg ttctactaat tctcatgcct cagcctcccg agtagccaga atgacagaca6241tgtaccaccg tgcccagcta atctttgtat attttggaga gacatcactt tgccatgttg6301cccaggctgg tcttactcct tgcctcaagt gatccacctg ccttggcctc ccaaagtgcc6361aggattccag gcatgagcca ctgcacctgg tcagggtggc tctttcttta gaaggtacct6421ttcagcagtt attggagctg ctacctgtag gctgagaaag aaccatccag gagaagagtg6481tttcaggcag agggaacagc aagtgccaag gccctgaggc agaatttcaa gatggggtca6541gtgaggggca gaggcaaatc gcccagggcc ctggaggcag aagggagaat cctgggtttt6601cctatagtgg ggtgggagcg tttgaagcag agttgggctt ctcatgtgtc cttcctcccc6661gcaggctgga catactgcac caggttgcta tgtggcagaa gaacttcaag agaattgtga6721gtgcctaaat ggagcaaggt ggtgggaagg agcttcctgg ggaggttggg gataggaccc6781agaggaagcc catcgctggg ttttctctgg actgctcggc tggggcctca tctgtctcct6841gaactattca ccgatgggtc catttttggt tctctttttt ttgtttgttt ttgagatgga6901gatggagtct cactctgtca cccaggctgg agtgcagtgg cgcaatcttg gttcactgca6961acctccgctt cctgggttca agcgattctc ctgcctctgc ctcctgagta gctgggatta7021caggtgtgca ccaccatgca ggctaatttt tgtattttta gtagagatgg agtttcacca7081tgttggtcag gctggtctca aactcctgac ctcaaggaac ctacctgcct tggcctccca7141aagtgctggg attacaggcg tgagccaccg tgcccagctc attttcagtt gttttctgat7201cactcactga tgtgggcatt gtggtgggtg agaggatata gcagggacca cgaggacaaa7261acaggcaagg tccggctgtg tgcaagtggc tcaggcctgt aatcccagca ctggaagctg7321aggtgggtgg gttgcttggg gccaggaaag accagcctgg gaaacagcaa gacccagtct7381ctaccccttc ccccacaacc ccaagaaaaa gatgggcaaa gtccctattc taatgaaggt7441cacagtgtca tgggaggaga agtgaaggtg agtcagatgg tcatacgtaa tgtgtaatta7501tgagcatgtc ccagagaatg ggacgttcaa ccttgggtct actgtagaag ctaaccagat7561caaggaggca gtggggctag tgtggagata acaggaacag ggtgtgcaaa ggccctgtgg7621cagggaccac aaggaagcca gtgttgccac agaggccagt gggagcagtg gggaggagtc7681tgggttttgt gccaagaaca ttgaagaatc cattaccagt cagggtctta tccatccacc7741ccagaggtct ggccagtcct ccccctgctc acaccttccc tggctcccca tcaccctagg7801aataaagtca tcagtctgct attctgagtt cttcctgatt tccttgccct gctcctcttt7861cctgattctc cctgtctgtg tcatttccca tggccctccc tccttgtggc tacaaccaca7921ttaaaattgt tcaaaaaata ggccggcacg gtggctcaca cctgtaatct cagcactttg7981ggaggccaag gcaggtggat cacttgaggc caggagttcc aaaccagcct agtcaacgtg8041gcaaaacccc atctctactg aaaatacaaa aaattagctg gggccaggtg cggtggctca8101cacctgtaat cccagtactt tgggaggccg aggcggatgg atcacgaggt cgggagatcg8161agaccagcct gaccaatatg gtgaaacccc atctctacta aaaatacaaa tattagttgg8221gtgtggcagc gggcgcctgt agtcccagct actctggagg ctgagacagg agaattgctt8281gaacctggga ggcggaggtt gcagtgagcc gagatcgcgc cactgcactc cagcgtgggc8341gacagagcga gactccatct caaaaaaaaa aattagccgg gcatggtgac aggcacccgt8401aatctcagct actagggagg ctgaggcagg agaatcgctt gaatctagga atcagaggtt8461gcagtgagcc aaggtcacac cacttgcact ccacagcctg ggtgacagag tgagactgcc8521tcaaaaaaaa aaatcaatag ttcagaaaat accgagcacc ccctgcgtgc ccggtggcag8581ggcccctgcc tttgtgaggc tggcatgggg caggagctgt gacttcttta ccctccccct8641cgctccccaa gtactctgtg cttggccaga gagagcccgt catcatggtg cctcctgtct8701gacttccccg tggcaggact gatctgcccg gctccctgac acctgcctcg tggacctgac8761ccccctcctc tttgtgcctc cagagctatg ccaagaccaa gacgagagcc gaggtgcggg8821gcggtggccg gaagccttgg ccgcagaaag gcactgggcg ggcccggcat ggcagcatcc8881gctctccgct ctggcgagga ggtaacagga cagggtggag ggggcgggga ggggtggggg8941ggccagggaa gggcctgggt gtttactcac acacagctgc gcacatctgg catggtatta9001tgtcagccct gttccctcca cctcatggaa ccacctgggc tggtgacatc ggaactgagg9061cccttggacc tcactaccca tataagggga cagagatctg ggagccatcc actcctccct9121ctcgcatgcc ctgtctcttc agcctgtggc cacagcccct cttgacccca cctcctgtca9181ccctctcctg acccacactt cccacagcac ccagagagct cttctaaatc gtggaacctg9241aactccggac ctcggccttt gtgtggaacc tgaactcctg accttgtcat tgtgggccct9301ggtggctgca cacctttccc cctcatcccc tcctttccct ctctgaccag gcagagatga9361ctctctcttg ttttttcggt tgtgtttgtt tttaactttt tattttcttg aatgctaaca9421agatgactca gggtggtgcc agccacccca tcacctgttt acctggccag ctctcctcac9481ctttcagggt tctgggccac acctcctcca ggaagccccc cttgatctcc tttccttcca9541catcccccgg agctaccctg atttcttcta cagctgagcc tcttttctgc cctgccggaa9601tgtgaatggc atgagggcag ggaccatgtc tgttgtcttc tctgctgcat ttccaaggcc9661caggcgaggg cagacaccaa cacatggtgc ttgcaggggt ctccctgact gttgttgctc9721ccagatcata ctgcttgctc caccggagca tgtgcctgat gccttcctct cccgcttgac9781ctgaaagttc gaacctcctg ataacttcag cattaacagc gtgcttgagt taagttcaca9841ctctagccac tctatggaat ccacaccata actcatggtg tcctatgggg caggaactgt9901ccgatctcaa ggtggtttgt tttttttatt gtttgctttt gagacaagat ctcgctctgt9961tgcccaggct gtagtgcagt ggtgcaatca tagctcactg cagccttgag ctcctgggct10021caagtgatcc tccatcctca gcctcccaaa atgctggtgt gagccacctt cgccagccct10081gtctcagagt gtgacagctg ggaaaactga agcccagtga agcaaagtca ctggtcccat10141gttgtccctg atccagcctc ccctgaggcc ccaccctctc tgccttgttc ctggcagcgc10201cccctctctc gtcaccccat gccagccact gcagcagatt gctgacctcc aggctctgca10261gtggccccta cctgctcaca tgcctctgtc cccgcaggag gtgttgccca tggcccccgg10321ggccccacaa gttactacta catgctgccc atgaaggtgc gggcgctggg tctcaaagtg10381gcactgaccg tcaagctggc ccaggtacag ccatgggggg gcccagacag ctgctagagg10441tggggctgct ctggacccag ggttcaaacc atcctttcct tccaccagga cgacctgcac10501atcatggact ccctagagct gcccaccgga gacccacagt acctgacaga gctggcgcac10561taccgccgct ggggggactc cgtactcctc gtggacttgt gagggcacag ggcagagcag10621gggcaggggg ccctgagctc cgtactctga gggttcaacc cccactccct ggcctctctt10681acagaacaca cgaggagatg ccacagagca tcgtggaggc cacctctagg cttaagacct10741tcaacttgat cccggctgtt ggtgagcaaa gagcccaggc ccctagagtg cgcatgtgca10801ggctccgctg ttagaatcac agcggttcaa atccggcatc tggtcgctga gtggcctcag10861gcagtgacca cgctcccgga cccaaccttc agcttgccca aagcaataat ctttcctaaa10921gaagtgcttg gctggggatg gtggctcacg cttgtaatcc cagtactttg ggaggccaag10981gcagtctggg caatatagtg aggctcccat ctgtactaaa aataaaaaag ttaggcgtgg11041cgatgtgcac ctgtagtccc agctactcgg gggctgagcc aggcggatag cttgagctca11101gggggccaag gctgcagtga gtcatgatcg caccactgca cccaaacctg gggagagagc11161tagactcttg tctcaaaaaa aaaaaaaaaa aaaaaaaaaa agctccaaag tcacctctgt11221caaagccaca gtctgttcct tccacagcca caagatggcg acatgagcct aagtcaagtc11281ctgtccctca acccacgccc ctcgctggct tccccacctc tctcaggatg aaagcccaag11341tcatcagggt ggcacgtcag gccctgcacg atgtgccccg tcacctccct gccctcccgt11401catttgccct gggtctcccc caccagaatg ggagccagga gtcccagcca ggcacaggac11461cgagcctggc tctcggtcag caggtgatga gctgggagca gctccttggc cagaggctta11521caggcaacaa gcggccaggc agggtctggc cccgggctgc tgggctcaca aagtcacact11581agaccacagt gacgatctct gtaagcacaa agggactccg atgtgggtgg ggtgaggaga11641gaggcagccc cggcctgacc ggccccccgc cccgccccca ccccgccccc aggcctaaat11701gtgcacagca tgctcaagca ccagacgctg gtcctgacgc tgcccaccgt cgccttcctg11761gaggacaagc tgctctggca ggactcacgt tacagacccc tctacccctt cagcctgccc11821tacagcgact tcccccgacc cctMccccac gctacccagg gcccagcggc caccccgtac11881cactgttgaW gtgaagcacc tcttYtgagc caggccgagc ccctggccga cttgggagcc11941tYaggcccac gcccaccctt cgaggaaggt gtcacctgga ccccttcatt ccacggagga12001agctgaggcc acagggagcg gccatcgcca ttgggaaggg gcgactccac ggaRagccca12061gacgggcttY tgcatccatt ccctcttttt gtttttaaaa taaattgtat ttttgaatca12121aggaggataa agataacttc tcagtgtcat ttttgataat tgcattgaga acgatgagct12181ccttcccagg ttctgggcac tgttggggat ccgccgtctc aagaggctca cggtctggtt12241taggggaacc ccagggctgt ttgtggaaat tacaagaatt cacttacccg gtgagtcaga12301ctccaggagc tcacaggtgc gtgggcgctg gcacttccta ggagctgact cctgccacat12361ccctctcctg agcactgctg ccagccattc tcacccctga gagggtttgc agtcctgtct12421gcgacagtac ttcatgcagc ctgagagtgt gtgcttgatt gtacaagtag atgttgtgta12481aacctgagtt ttcagagtga cttcctgtaa gcacagtcag aaaagtaaat gtctctctgt12541aagtgagcag ataagcacat gcttaaaaac accagctggg cgtggtgact cgcacctgta12601accctagcac tttgggaggt caaggtggaa ggatcgtttg agctcagagc ttccagacca12661gcctgggcaa catggtgaaa ccccatctct gcaaaaaata taaaaattaa gtgggcgtgt12721tggcgtccac ctgtggtccc agctacttgg gaggctgagg tgggaggatc acctgagccc12781aggaagcaga ggttgcagtg agctgagact gagccaccac acaccagcct gggtgacaga12841gtgagacact gtcttaaaac cccaatatcc caatttttga gtttgctgag gttgccagcc12901aagttaattt ttcttaacag ccataacaga ctataatata gacaatgtga tcgatttatt12961taaagtcaac cagctgggcg cggtggctca cgcctataat cccagaattt taggaggctg13021agccaggtgg atcaccggaa gtcaggagtt cgagaccagc ctggccaagc cgggagtggt13081ggcgggcacc tgtaatccca gctacttagg aggctgaggt gggagaatcg cttgaaccca13141ggaggcagag gttgcagtga gccaagatag cgccactgcg ctccagcctg ggtgacagag13201caagattcca tctataaata aataaataaa taaagtcaat caggactgcc ttctgcctgt13261gtgggcctgg ccaggctaag cagccacaca accctcccta cctgctgggc cacccctggc13321tgaaaacctc tctggaatgc ctctcttggg attgccttca gagattgcaa cacattctcc13381aaacaccctc agtggacata gactttgatc cttgaagcag cagatttgac taagtaaaaa13441agaaaaagct attaaaacca gttggctggg cgcggtggct cacgcctgta atcccagcac13501tttgggaggc cgaggcaggc ggatcacgag gtcaggagat cgagactatc ctggctaaca13561cagtgaaacc ccatctctac caaaaataca aaaaattagc cgggcgtggt ggtgggcgcc13621tgtagtccca gctactcagg agactgaggc aggagaatgg tgtgaacccg ggaggtggag13681cttgcagtga gccgagatcg cgccactgca ctccactcca gcctggcgac agagctagac13741tgtctcaaaa aaaaaaacag aggcgtgcca aagctcagca gaaaatgccg cctcatcact13801cttcctcttg ccagtcttgt gggggcacca aggcctagag taacacccag ctgttggcct13861gacagtgcct ggcccagcct ggagagttgc agccagaagt ataaatgtgg ttcagtctgc13921gtcatacctg tcaggaaaca tggtgagacc aactgctgcc cagacggatt ttcaaaagaa13981atgggtcaga acgtattccc ccacactgga atccctcagc cagattgagg ataaaaacag14041gcatcagaaa aaaatgatac aggcaggcct ggtggctcat gcctgtaatc ccagcacttt14101gggaggctga ggcgggagga tcgcctgagc acaggagttt gagaccagcc tgggcaacac14161agtgagaacc tatctctact aaaaatagaa caattagcca ggcacggtgg tgtggctgtg14221gtcccagcta ctctggaggc tgaggtggga ggatcacttg agccctaggg gtagaggctg14281cagtgagcgg agatcacccc actgcaatcc agcctgggca acagatcaag accctgtctc14341aaaaaaaaaa aaaagaaaag aaaacaaaag aaaaatatga tacactgact agaatgtgct14401ttaaaataat tggcatagtt gggtatggtg gcatgcacct gcagtctcac ctacttggaa14461agctgtggcc aggagtttga gaccagcctg ggcaacacag caagacctca tctctataaa14521aaataggcgg ggagcagtgg ctcacgcctg taatcccagc actttgggag gccaaggcag14581gcggatcact agaggacagg agttcaagac cagcctggcc aacatggtga aaccccatct14641ctactaaaaa tacaaaaatt ggcaggatgt ggtggcgggt gcctataatc ccagctactt14701gggaggctga ggcaggagaa tcgcttgaac ctgggaggca gaggttgcag tgagccgagg14761tcatgacact gccctcaaac ctgggtgaca gagcaagact cggtctcgaa aaaaaaaata14821atgaatgaat gaattaattc attaattaaa tagggggggt atatgagttt gttagggctg14881ccgtaggagt gccacaaact gcaggggttg ggggggttag tcaacagaaa tttattctgt14941cctgtttctg gaggctggaa gtccaaggtg aagaacaggg ttagctcctt ctaagggaaa15001atctgttcca gatccctctc ctagcgtctg gtggtttgct ttgctgacta tctttgacat15061tccttggctt gtagccacac tgcttcagtc tccaccttca tctttacatg atgttgtccc15121tgtgggtatg tgtctgtttc tgtgtctaaa tttctccttt ttattttttt cttttttctc15181tatctttttt tttagacgga gtcgcgctct gttgcccagg ctggagtgca gtggctcgat15241ctcggctcac tgcaacttct gcctcctggg ttcaagcgat tctcctgcct cagcctccca15301agtagctggg attacaggcg cccaccacca tgcctggcta atttttgtgt ttttagtaga15361gaaggggttt cgccatattg gccaggctgg taacctcagg tgatccaccc gctttggcct15421cccaaagtac tgggattaca agcgtgagcc accgaacctg gcctattttt tcatttattt15481ttagacagag ttttgctctt cttgtccagg ctagagtaca atggcgcaat ctcggctaat15541ctcaacctcc gcctcccggg ttcaggcgat tctcctgcct cagcctccca agtagctggg15601attacaggca tacgccacaa tgcctggcta attctgtttt gttagcagag atggggtttc15661accatgttgg tcaggctggt ctcgaactcc cgacctcagg tgatccaccc acctcagcct15721cccaaagtgc tgagattaca gacacgagcc actgagcctg gccctctcct ttttattttt15781aaaatatatt ttgtggacgg cagcagtggc tcacacctgt aatcccagca ctttgggagg15841ccgaggcggg tggatcacaa ggtcaggaac tcgagaccag cctggccaat atggtgaagc15901cccatctcta ctaaaaatat aaaaattagc caggcatggc cgggcgcggt ggctcacgcc15961tgtaatccca gcactttggg aggccgaggc gggcggatca cgaggtcagg agatcgagac16021catcctggtt aatacggtga aaccccgtct ctactaaaaa tacaaaaaaa aaattagctg16081ggcgaggtgg caggtgcctg tagtcccagc tactcgggag gctgaggcat gagaatggcg16141tgaacccggg aggcggagct tgcagtgagc tgagatcgcg ccactgcact ccagcctggg16201tgacagagtg agactccatc tcaaaaaaaa aaaaaaaaaa tttagccagg cgtggtgtca16261gaagcctgta gtcgcaacta cttgggaggc tgaggcagga gaatcacttg aacccaggag16321gtggaggttg cagtgagccg agaccacatc acggcacatc taaaaaaaaa aaaagttttc16381tgtttttgtt ttttgcaaaa ctactgaaat aaatacagtg agatatttat ttataaatga16441gaacgaatta ataatgagcc gtaggctggg tgtggtggct catgcctata atcccagcat16501tttggggggc caaggcaggt ggaacacttg aggtcaagag ttcgagacca ggctgaccaa16561tatagtggaa ccccatctct actaaaaata caaaagaatt agccgggcat ggtgccgggc16621gcctgtaatc tcagctatgg gaggctgagg taggagaatc gcttaaaccc tggaggcgga16681ggttgcagtg aggcgatatc acgccactgc actccagcct gggggacaga gcgagactcc16741atctctaaat aaataaataa ggagctgtat ttcaaaattt ggagaaggtg acactgagag16801tactgaatac acagtttttt gtttttttgg ttttttttga gacagagtct cgctctgtca16861cccaggctgg agtgcagtgg tgcaacctcg gctcactgca atctctgcct cccggttcaa16921gcaaatctcc tgcctcagcc tcccgcgtag ctgggattac aggcacgcat ccccatgcct16981ggctaatttt tgtattttta gtagagacgg gatttcacca tattggtcag gctgatctca17041aactcctgac ctcgtgatct gcctgcctcg gcctcccaaa gtgctgggat tacaggcgtg17101agccaccgag cctggcccca aaaaatattt atcaaaacta tgttaatgct ggccgggtgc17161ggtggctcat gcctgtaatc ccagcacttt gggaggccga ggcaggtgga acacgaggtc17221aggagattga gaccatcctg gctaacacgg tgaaaccccg tctctactaa aaaatacaaa17281aaattagccg ggcgcggtgg tgggtgcctg tagtcccagc tactcaggag gctgaagcag17341gagaatggca ggaaccgggg aggcagaggt tgtagtgagc tgagatcgcg ccattgcact17401ccagcctggg cgacagagcg agaatccgtc tcgaaaaaaa aaaaaaaata cacacacaca17461cacaaaaact gtgttaatgc ttaactacac aaaaatgata atcagataaa tatgcattta17521tttagagaac tgcatgttgg tcagtccagt ccctgcagag ggaattccca gcatgacctc17581attcacttgt gaagacagag caatccttgt gttttatttt tttaagatgg atctcactct17641gttgcccaga ctggagtgca gtggcatgat ctcagccctc tgccacctcc accttccggg17701ttcaagagat tctcatgcct cagcctcctg agtagctgag attacaggct tgtgcctcca17761tgcccagcta atttttttat ttttactaga gatgaggttt caccagtttg ggcaggccgg17821tctcaaactc ctgacctcaa gtgatccacc cacctcggcc tcccgaagtg ctgggatgac17881aggtgcctgg tcagcaactg ttgtttagac atacacattt tatctgctcg tccagcatgg17941tcagccctcc actttttaaa ttttatttta tttatttttt tgagacagag tctcactctg18001ttgtccaggt tggagtccag tggcgtgatt tcggctcact gcaacctcta cttcccaggt18061tcgagcaatt ctcctgcctc agcttcccga gtagctggga ttacaggccc gcgtccccac18121acctagctaa tttttgtatt tttagtagag acagggtttc accatgttgg ccaggctggt18181ctcgaactcc tgacctcagg tgattctcct gccttggcct cccaaagtgc tgagattaca18241ggtgtgagcc actgcacacg gccttaaatt ttatttatta tttatttatt tatttattta18301gagacttagt ctcactctgt tgcccaggct ggagtgcagt ggcatggtct cggctcactg18361cactccacct cctgggttca cgccattctc ctgcctcagc ctcccgagta gctgggacta18421caggcgccca ccaccactcc cggctaattt ttgtattttt agtagagatg gggtttcact18481gtgttagcca ggatagtctc gatctcctga cctcgtgatc cgcctgcctc ggcctcccaa18541agtgctggga ttacttattt tgttttttgt agagacaggt tctcactgtg ttgcccaggc18601tggtcttgaa ctcctgatct caagtgatct tcccacctca gtctctcaaa gggctgggat18661tacaggggtg agccactgca ccccaccttc cctctacttt ttgacggttt ccttctgcta18721tgaatgtgca tgtccagttg tctgcttctt agaactgata tttaccttcc tcatccatca18781gccattggag gaggactggg accgctcaga ttattgatct gacccattct ttcggcaggg18841tttcctggtg gctgtcttcc atcaccaaaa ctggaatcag aagagtttcc atagcccttt18901ttttttcccc acatctttgc tgaagcagag ttttgaaaaa caaaaccaca aactaagcta18961ttccccagaa gaaatctgta atcaaagata agctctgccg ggcacagtgg ctcacgcctt19021ttggaggcca aggcgggcgg atcacctgag gtcaggagtt ctagacctgc caggccaaca19081tggtaaaacc tcatctctac taaaaataca aaaattagct agatgtggtg gtgggtacct19141gtagtctcag ctacctggga ggctgaggca agagaatcgc ttgaacctgg gaagtagagg19201ttgcagtgag ccgagattgc accactgcac tccagcctgg gcgacggagt gagacgacct19261cacaaaaatt tacataaata aaatgaaaag taaaataaaa atacaaaagt tggccgggtg19321cgtttgctca cgcctgtaat cccagcactt tgggagggtg aggcaggcag ataatgaggt19381aagaagatcg agaccatcct ggctaacacg gtgaaaccct gtctctacta aaaatacaaa19441aaattagctg tgcgtggtga cacgcacctg tagtcccagc tatttgggag gctgaggcag19501gagaatcact tgaacctggg aggtggaggt tgcagtgagc cgagatcgca ccactgcact19561ccagcctggg ccacagagtg agactccatc ttgaaaaaaa aaaaaaatac aaaagttagc19621caggggtgtt ggtgggtgcc tgtaatccca gctatttggg aggctaaggc agaagaattt19681cttgaaccta ggaaacggag gttgcagtga gccgagatca cacctctgta ctccagcctg19741gacaacagag cgagactttg tctcaaaaaa aaaaaaaaaa aaaaaactaa ataggccggg19801agcagtggct catgcctata atcccagccc tttgggaggc caaggcaggt ggatcacttg19861aggtcaggag tttgagacca ggctggccaa catggtgtaa ccccgtctct actaaaaaca19921caaaaattag ccgggtctgg tggcgtatgt ctgtaatccc agctactcgg gaggctgagg19981caggagaatc acttaaacct gggaggcagg ggttgcagtg agctgagatc gtgccactgc20041actctagcca gggtgacaga gtgaaactct gtctcaaaaa attaaaaaag aaattcagca20101agtaatgagt taaggaattc gaatattaag gcgagtgaca aggaacgccc aggatgtggc20161ccaggatgga gtagggggga cactcattta ggagaaagct caggccacaa gacaggagga20221gccagccttg ttggggttga agggaagagc attccaggct gagggaactg caaggcgttt20281gcatgggaca ctatgggatg gcttctgccc ttggtgggca gcctctggtc tgaggccatt20341ctttggcctg cctgactgtc tggcaaccgg gaggaagccc tgcccttcct ggagacagaa20401acaaaggtct aggaaatatc tgcttccctt ttccttgaaa aacgcttaag ggaacggagg20461actgggaggt gccgtctctc tctgccagcc tgccccctac catagccatc ccactcccat20521ctcagaaagt gacccgccat cctccaaaag gctcggaccc tgatcaagga gtcatccccc20581ttgtcccagc acctccagtt ggcccagcct ccaaaacgga tgtcaaattc agccctttct20641ccaaggacac tgcccagtcc aggccccact atcattcatc tggactagaa cagtcacctc20701ctctcccatc tcctggctgc agctcttgaa gcctcaactg ggcccctgtg aacacttgag20761ttagggcaag gtccttcctc tgctcagaac cctctatacc tcccacctcg ctgggcataa20821aagccaaagt cctggccagg cacggtggct cacatctgtt atcccagcac tttgggaggc20881caaggggggc ggatcactag aggtcaggag ttagagacca acatggtgaa accccatctc20941tactaaaaat acaaaaatta gctaggcgtg gtgacgcacc cctgtagtac cagctactcg21001gtaggctgag gtgggagaat cgcttgaacc tgggaggcag agtttgcagt gagccgagat21061cacaccactg tgctccagcc tgggtgacag aacgagactg gggttcagaa acaaacaaac21121aaaacaacaa agtcctcctc aggtgacagg aacttgcacc tatctgccct gtcatctccc21181tgcccgctcc tctcctcgaa tctctccttt gctaagcctg ctccagccac actgttctcc21241tggctgttcc tttttttttt tttttttttt tttttttgag tctcactctc acccaggctg21301gagtgcagtg cctctatctt ggctcactgc aacctccgcc tgccgggttc aagagattct21361cctgcatcag cctcccaagt aggtggaatt acaggtgtgc accaccacac ccggctaatt21421tttgtatttt gcatagagat gggggtctcc ctatgttgcc caggctggtc ttgaactcct21481gggctcaagt gatcctScca tctcggcctc ccaaaatgct gggattacag gtgggaRccg21541cgcccaggtg gatttttgtc tgactctgtt cattcctgtg tccccagtac ctggaaggac21601gccaagcaca cagtaggcgc ttaaaaaaca ttgagccaca tgttgagaaa agaacggcac21661cattgtggct gcaagtggga cKtgggccgc gcgggggagc tcgcgcacct cgggccgggg21721caagagctca gtggaacccg cccgaggaag aacccgtggc gcaggatttt cccaggcctt21781ctgaggacca ggggcgtccc ccgtcccacc ctgtgacttt gctcaggccg ttccggggcg21841ggaattcaga actcctcagc cccccaagaa aaaaatatcc ccgtggaaat tccttgggaa21901tgaccgaggc gggggaaata tgcgtctctg gatggccagt gactcgcagc ccccttcccc21961gataggaagg gcctgcgcgt ccggggaccc ttcgcttccc cttctgctgc gcgacctccc22021tggcccctcg gagatctcca tggcgacgcc gcgcgcgccc cacaacagga aaRccttagg22081cggcgcggct tggtgctcgg agacttaaga gtacccagcc tcgacgtggt ggatgtcgag22141tcttggggtc acacgcacag gcggtggcca agcaaacacc cgctcatatt tagtgcatga22201gcctgggttc gagttgccgg agcctcgcgc gtagggcagg ggttcgagcg ccccttctcc22261ctgcctcgcc tctgcgcctg ggggctgctg cctcagtttc ccagcgacag gcagggattt22321cgagcgtccc cctcccctcc ctcgtcaaga tccaagctag ctgcctcagt ttccccgcgg22381agcctgggac gcNNgcggag gggctcggcg cgtagggatc acgcagcttc cttccttttt22441ctgggagctg taaagacgcc tccgcggcca aggccgaaag gggaagcgag gaggccgccg22501gggtgagtgc cctcgggtgt agagagagga cgccgatttc cccggacgtg gtgagaccgc22561gcttcgtcac tcccacggtt agcggtcgcc gggaggtgcc tggctctgct ctggccgctt22621ctcgagaaat gcccgtgtca gctaggtgtg gacgtgacct agggggaggg gcatccctca22681gtggagggag cccggggagg attcctgggc ccccacccag gcagggggct catccactcg22741attaaagagg cctgcgtaag ctggagaggg aggacttgag ttcggacccc ctcgcagcct22801ggagtctcag tttaccgctt tgtgaaatgg acacaataac agtctccact ctccggggaa22861gttggcagta tttaaaagta cttaataaac cgcttagcgc ggtgtagacc gtgattcaag22921cttagcctgg ccgggaaacg ggaggcgtgg aggccgggag cagcccccgg ggtcatcgcc22981ctgccaccgc cgcccgattg ctttagcttg gaaattccgg agctgaagcg gccagcgagg23041gaggatgacc ctctcggccc gggcaccctg tcagtccgga aataactgca gcatttgttc23101cggaggggaa ggcgcgaggt ttccgggaaa gcagcaccgc cccttggccc ccaggtggct23161agcgctataa aggatcacgc gccccagtcg acgctgagct cctctgctac tcagagttgc23221aacctcMgcc tcgctatggc tcccagcagc ccccggcccg cgctgcccgc actcctggtc23281ctgctcgggg ctctgttccc aggtgagtcg gggtggggat tgccgtcggg ccagttctcc23341gaagccccgg gaggaccggc tcccgggtca ggtcatgcat gcttaggtag ctgtttatgg23401gaaggagggg ctagagacag cgattgaaag gcaacagcca gtaggttcga atccagaccc23461tgcatacctc cacgtgtggc cttgggctat agattgcagc tttaaaaaag ggtagggggt23521tggagatgga ggggaggggc gggcctcgtt ttgttgccca ggccggtctt gaactccggg23581ggtctagcct tacctcctgc ctcagcctcc cgaStagctg ggatgagagg tgtgaaccac23641cgccttgctt ggctagattg cgtctcttac agtttctcag Ytgtaaaacg ggaaacgtta23701tagcggccac ctggcagggt atcttggccc agcgcagcac ctggccccag gactcgatca23761tgatggtttg ggaacttggc tctgtgccaa cccaacaagg cttaagggac ccccaccccc23821ctcaagatgt atattctgtt cctcatcctc tctgcccctg gggaagtcca gggctgcttc23881tacttggggg aattccagag ctgacttatc cgtggcccaa agctgagaag tgggacRccc23941cagcacaccc tcccccagct ccagcccagc tagggaagag ggaaggggtc agagggtctt24001tcatggtggt gtaagtttgg ggaaccagga gggtggRaga ttgacagctt ggttaacagc24061tcaacaaagc ctgagatcca ggccagcacg gtagttcatg ccagtaatcc caacacttta24121ggagccccag gcgggcgaat cacttaaggt caggagtttg agaccagcct ggccaacatg24181gcaacatccc gtctctacta aaaatacaaa aattagctgg catggtggtg ggcgcctgtg24241atcccagctg ctcgggaggc tgagggagga aaatccctta agcccacgag gctgaggttg24301cagtgaacca agattgtgcc actgcactcc agcctgggag acatagcgag attctgtctc24361aaaaaacaaa gcRttctgat ccggactcag acccagatcg cactgctttc tagctgagta24421accatttctc tctatgaaat gggaatggtc ccagaatctc ccttggagaa tgtatggagc24481cagtgtcctc acacccccat ccaagataga acaaatctga gacaggaatc tttgagtgag24541gcagtgctgg gctcagacat tttttcccac cttcggaggc agcagaatYt gagggacctg24601atccaaataa gccccttctt tctttctttt cttttctttt tttttttttt ttttttttga24661gacggagtct cactNNgtcK cccaggctgg agtgcagtgg cgtgatctcg gctcactgca24721acctctgcct cccaggttca aacgattctc ctgYctcagc ctccctgagt agctgggact24781acaggcatgt gccatcacac ccggctaatc actgtgttag ccaggatggt ctcgatttcc24841tgacctcatg atctgcccac cctgcctccc aaagtgctgg gattacatgc gtgagccaca24901gtgcccaccc cgtaagcccc ttctttctta cctgcaaggt agccagttgc tacccatcct24961gtgctgagtt acttgtatta gcaagggatg gggtggctat actcacccac cttacagatg25021gggaaattga ggcccaaaga gggggaaact acRtgtctca gggagtgagg agccagtctg25081attcctggag ggctgactgt ctccacctga cttcttagga gggaggaggg caccaacttc25141acattaaaat ctggttggac acagtggctc acacctgtaa tcctggcatt ttgggaggct25201taggcgggag gatcacttga ggccaggagt ttgagaccag ccttagcaac atagtgagac25261cccatctcta caaaaatgtt tttcagggcc aggcgcggtg gctcacacct ataatcccag25321cactttggga ggctgaggcg ggcggattac ctgaggtcag gagtttgaga ccagcctgac25381caacatggag aaaccccgtc tctactaaaa gtacaaaatt acccgggcgt ggtggcgcat25441gcctgtaatc ccagctactc gggaggctga ggcaggagaa tcgcttgaac ctgggaggcg25501gaggttgcgg tgaactgaga tcgtgccatt gcactccagc ctgggcaaca agagctaaac25561tccgtctcaa aaaaaaaaaa atgtttttca aatattagcc gggtatggtg gtgtcctgta25621gtcccagcta cttgggaggc tgagatggga ggatcacttg agcccaggag ttcaaggtta25681cagtgagcta tgattgtgcc actgtattcc agcctgggta acagagggag acccgtttaa25741aaaaaaaaaa gtgatggcta aagtccttcc atggctccct attgccctca gtataaagaa25801cacatgtggc tgggcgtggt ggttcacgcc tgtaatccca gcactttggg aggctgaggc25861gggcggatca cttgaggcca ggagtttgag agcaggctgg ccgacgtggc gaaaccccgt25921ctctattaaa aatacaaaaa ttagctgggc gtggtggtgc ttgcctgtaa tcccagatac25981tctggaggct gaggcaggag aatMacttga acccgggagg caRaggttgc agtgagctga26041gattgYgcca ctgcactcca gtctgagtga caaagcgaga ctccatctca aaaaaaaaaW26101aaataaaaga acacatcttt agcatggcct tcagtgctca cgggatcttc ctgaattaat26161ctccccctct tcatccttgc tcactcagct ccagccaccc tgccccggga catctgtact26221tgcctggaac ttatttccct tttctccgga cagccagccc tttctcgtca tttagatctc26281tgctgaaaca ttaccctgtc accaaagcac tgtctattct atcaccctgt tttgtttttg26341tcaaagctca tattaacatc agttattaat tatcttgttt gctcataatt tttttttttt26401tttttttgga gacagagtct cgttctgttg ctcaggctgg agtgcagtgg cacaatcttg26461gctcactgta acctccacct cccaggttca agtgattctt gtgcctcagc ctcccaaata26521gctaggacta caggcacgtc ccaccatgcc cagctaattt ttgtattttt agtggagacg26581gggctttgtc atgttggcca ggctgatctc aaattcctga cctcaagtga tctgcccgcc26641ttggcctccc aaagtgctgg gattacaggc gtgagccacc acacccggcc tgctcatgaa26701ttttctcttt aacttccaca tcgaaggcaa agtattgtct tgttaaggct gtgcctccag26761cacccagcac aggctgggcg cacattccct tgatgaacct gatttgtaat gcctgtYgcc26821tcttccctcg tttcttctag gacctggcaa tgcccagaca tctgtgtccc cctcaaaagt26881catcctgccc cggggaggct ccgtgctggt gacatgcagc acctcctgtg accagcccaW26941gttgttgggc atagagaccc cgttgcctaa aaaggagttg ctcctgcctg ggaacaaccg27001gaaggtgtat gaactgagca atgtgcaaga agatagccaa ccaatgtgct attcaaactg27061ccctgatggg cagtcaacag ctaaaacctt cctcaccgtg tactgtgagt aactgagccc27121ggagggctgg actaggcaga ccSggtggga gagacgtgca gRggcacctg cagaggcctg27181ggggaatctt tgccacttgc tcgtagggtc aaggaggggc tccttgcagg gcaggtgggg27241acatccttgg aaagtccctt tgtgaatttc tttgggtaca attaaagtat ttacaggctg27301ggtgcggtgg ctcatgcctg taatcccagc actttgagag gctgaggctg gcggatcacc27361tgagatcagg agtttaagtt tcgccaacat ggcgaaaccc tgtctctgct gaaaatacaa27421aaatcagccg ggcatggtgt caagcgcctg taatcccagc tacttggaag gctgaggcag27481gagaacgctt gaacctgaga ggcagagatt gcagtgagcc gcgatcgtgc cagtgcactc27541cagtctggat aacagagcaa gattccatct caagaaaaaa aaaatgccat ctctctatgc27601ctcactcttt gaacatatga cacggtcctg cttcagacac tttaataaaa gatgcaaatt27661aagccaagtg tggtggcttg tacctataat cccaactact ccagaggctg aggcagaagg27721atggtttgag cccaggagtt tgagaccagc ctgggcaaca gagtgagacc ctgtttcttt27781cttttttttt tttttttttt tgagacggag tctcactctg tcgcccaggc tggagtgcag27841tggtgtgatc tcggctcact gcaagctccg cctcccgggt tcacgccatt ctcctgcctc27901agcctcccga gtagctggga ctacaggcgc ctgccaccat gcccggctca tttttttgta27961tttttagtag agacggggtt tcactgtgtt agccaggatg gtctcaatct cctgacctag28021tggtccgccc gcctcggcct cccaaagtgc tgggattaca ggtgtaagcc actgtgccca28081tccaagaccc tgtttctacc ggaaaaaaaa agtaaataat ttagctgggc atcgtggtgt28141gcacctgtaa tcccagctgc tcctgaggct gtgatgggag gattgcttta acccaggggt28201tcgaatccta ggagttcgaa tccatcctag gcaacatagc aaaaccccat ttttatttaa28261aaaaaaaaaa aaagatatga gttaaaacta gccctgggat ggcatttttc acatattggt28321aacaaacRaa agaattgatg gccgggcgca gtggctcacg cctgtaatcc cagcactttg28381ggaggccgag gcgggcggat cacaaggtca ggagatcgag accatcctgg ctaacatggt28441gaaaccccgt ctctactaaa actacaaaaa attagccggg catggtggca ggcgcctgtg28501gtcccagcta ctcaggaggc tgaggcagga gaatggcatg aacccgggag gcagagcttg28561cagtgagcca agatcgtgcc actgcactcc agcctgggcg acagagcaag actccatctc28621aaaaaaaaaa aaaaaaaaaa gaattgataa cagctgtgct gccaaggcta ttggaacgta28681ggaggtccta ggacagtgct gttgggagca taaataagcc caaccctgtg gcgggaaatt28741gggcatcagt tctcaaaatg tcatgggctg ggcacggtgg ctcacgcctg taatcccaSc28801actttgggag gctgagggag gcggatcact tgaggtcagg agttcgagac cagcctgacc28861accatggaga aaccccgtct ctattaaaaa tacaaaaaaa actagccagg catagtggca28921catacctgta atcccagcta ctcgggaggc tgaggcagga gaatctcttg aaactgggag28981gcagaggttg cggtgagctg agattgcgcc actgcactcc agcttgggca acaagagcaa29041aactccatct caaaaaaaaa aaaaaaagaa ataaaagaag gtatgttgaa tatgagtggt29101atgccaccct cacattaggg aagggcagtt tcggggaggc tgtatttatg tataaaatag29161ccctaMaagg aagtgggaga aatgacaata ttagctggct atgagaagag aggctgggag29221gctgtgggag agggcttggg tgtggagaat tctttttgtt ttttcctttt tttgagacag29281agtttcactc ttgttgccca ggctggagtg caatggcacg atctcagctc Mccgcaacct29341tcacctcctg agtttaagtg attctccggc ctcagcctcc cgactagctg ggattacagg29401catgggccac tacgcctggc aaattttgta tttttagtag agacagggtt tctccatgtt29461ggtcaggctg gtcttgaact ctgacctcag gtgatccgcc cgcctcggcc tcccaaagtg29521ctgggattac aacgtgagcc actttgcctg gctgagaatt ctttttttgt tgttgtcttt29581ttgagatgga gttttgctgt gtccccagcc tggagtgcaa tggtgtaatc tcagctcact29641gcaacctctc cctcccgggt tcaagcaatt ctcctgcctc agcctcccaa gtagctggaa29701ttacaggcgc ccagcaccac gccYggctaa tttttgtatt tttagtagag acgggatttc29761atcatgttgg ccRggctggt cttgatctcc tgaccttgtg atctgcccgc ctcggcctcc29821caaagtgctg ggattacagg cgtgagccac tgcccccagc cRagaatttc tctttgYgtc29881cttcctactt tggggacttc gaatggtggg aaagagttat caaggccaaa ataaggaatt29941caaatgaaaa caaaacaaaa tcaaagaaga aaaaacagaa gagcactggg caggctaggc30001acgtggctca tgcctataat cccagtgatt tagaaggccg aagtagaagg atcgcttgga30061ggccaggagt tggacaccag cctgggcaac atagcaagac cccatatcta caaaaaataa30121aaaacctaac caagcgtgct ggcatactag tagtcccagc tactcaggag gctgaggtgg30181gaggatcacc tgaKcctggg aggtccaggc tgtagtgagc cgtgatgaca ccactgcact30241ccagcctggg tgacagaKaa agaccctgtc tctaaaaaat aaaaactggc caagtagctt30301tgggattagc cttgggttcc agtcccagca aggcctttaa tagcttggga catgacttct30361gcatttactt tgcaatcagg tgagacctcc tctgatgggg aaaatgacac ggtgagtgac30421aaaggatgtt ctcctatcat tgtgtcaggg caaggaagcc tctgggtaaa tgatcaaatg30481atcagctttg cttctgattt ggagggtggg tgagcagatg ctgaccttcc caggtgaggg30541aagtccccRa acattcccag cagcttctgg aaaccccagg gaaacctctt tgaaggtctt30601ttctgcatct ctgcctgata ggtctttttt tttttttttt tttttttYtt ttttttgaca30661cacagtcttg ctctgtcgcc caggctggat cactgcaacc tccatctccc gggttcaagc30721agttctcctg cctcatcctc tccagtagct gggattacag gcacctggca ccacgcctgg30781ctaatttttg tatttttagt agagacaggg tttcgccaag ttggccaggc tggtctcgaa30841ctctagacct ctggtgatcc acccgcctca gcctcccgaa gtgctgggat tacaggcttg30901agccaccaYg cgcggctctg cctgatagct gagagcatag aactccaggt ttgagacctg30961gMtctgccac atttctccct ctatgactgt gggtgcccca ctttgcctta gtttttacct31021ctgtgaaatg gagcagatgg ctggcacagg tagcaaagga gtaaaagtta tgtgggaggg31081tggtacctga gagagactct agcttggtct tgccccaccc ctggtgtaaa cataaagaag31141cctccctgga tggctcaatc ttctccaaaa aggttagagg tgtaattcct agaggaggcg31201accactagct gggctttgaa ggatgtgtag gagttcataa ggacaggcat tctgggcagg31261aggaacagcc tgggcaaaag ttgggagcag ggagaaatct tgatggaggc aggaggagga31321ggaggtaggt tggtgtRggc caggYgcagt ggctcacacc tgtaatccca gtgctttggg31381aggccaaagc aagaggattg tttgagccca ggagttcgag accagcctgg gcaacatagc31441gagaccctgt ctctaagaaa aaataaaaaa attagggtac agtggcatat gcttgtattc31501tcaactactc tggaggctca agtgggagga tcaYttgaac ccaggaattt ttttgttttt31561gtttttgttt ttttgagatg gagtctcact ctgtggccca ggctggagtg cagtggtgcc31621atcttggctc actgcagcct cctccacctc ctgggttcaa ccgattctgc tgcctgagcc31681tcccgagttg ctgggattaa ggtgcccacc atcatgccca gctaattttt ttgtattttt31741agtagagata gggtttacca tgttagccag gctggtcttg aacgcctgac cgcaagagat31801cctcctgcct cagtttccca aagtgctggg attataggtg tgagccactg agcctggtca31861agcccaggaa tttgaggtta cagtcagcta tgattgcacc actgcattcc agcccaggtg31921acagagagag acactgcccc tNaaaaaaaa aaaaaaattg attgatggga ggaagggtga31981ggttggcaga gccttgaatg ccaggtggag gagctgggac tttccttctt ggggtgatag32041ggagtcatgg agggtttStg agcaggccag ggattagata gctgaaggct ggatttactg32101gaagccaaWg agcagttggc tatggtcctt gtccacgcgg cccatgttgt gggcagtgac32161cgtattcaag aagggaagga cagacaagta tttgaatact tcagtgacca ggatttggta32221aaggactgca ggtcagggtc aagaagaggt gagagcagga cagacttcct ccccgctgca32281ccaggcagct gagctgggtt tcctctaggg gctgaggttt gagggtacct caagttctgc32341aagagtctat aggaggtggt aagagagaag agctggaggt cagagttttc ttgactatat32401Rtatatatat ttttttgttt ttgtttttaa cagcttaaca gctttctgtt ttatttttag32461agacagggtc tcagggtctc actttgtcac ccaggctgga gtgcagtggt acaatcgtag32521ctgactgcag cctcaaactc ccaggctcaa gaaatcctcc tcccaccctt agcctcctga32581gtagcaggga ctacaggtgt gagccagcag gaagcccagc tggttttttt tttttctttg32641gtgttttttg tttgtttgtt tgagaccgga gtttcgctct tattgcccag gctgaagtgc32701aatggcagga tcttagctca ccacaacctc cgacccccag gatcaagcta ttctcttgcc32761tcagccacct gagtagctgg gattacaggc atgcgacacc acacaaggct aattttgtat32821ttttagtaaa gacagggttt ctccRtgttg gtcaggctgg tctYgaactc ccaacctcag32881atgatccacc tgcctcggcc tcccaaagtg ctgagattac aggcatgagc caccgtgccc32941ggcctttttt tttttttttt ttttNNtgag acagagtctc actctgtcgc ccaggcagga33001gtgcagtggt Kcgatctggg ctcactgcaa gctccgcctc ccgggttcac tccatcctcc33061tgccttagcc tcctgagtag ctgggactac aggcgcccac caccacgcct ggctaatttt33121ttgtattttt agtagagacg gggtttcacc gtgttagcca ggatggtctY gatctcctga33181cctcgtgatc cgcccgcctt ggcctcccaa agtgctggga ttacaggcgt gagccaccat33241gtctggcctg gccaggctgg tcttgaactc ctgacttccg gtgatccatc tgttctggcc33301tcccaaagtg ctgggattac aggcataagc caccacgcca tgccgaagcc cagcttgttt33361ttaatttttt tttttttttt tggagaaatg aggtcttgca atgttgccca agctagcctt33421gaactcctgg cctcaaatga ccccgccttg gcatcccaaa gtactgggat tacagatgtg33481agccaccatg ccccagcctt gctttcttga gatacRattt agaataccat aagattcatc33541ccttttaagc acataattca atgacttctg tacaaacaac catgactaca atctaatttt33601aaaatatYtc aatcactcta aaMaagaaac ctcctgctta tgtacagcga ctctgtctac33661ctcttaagtg aMttctccta cctttaatag ccctatttta cagttcagga aactgaggtt33721cagNgagaca aagtcactta cccacagcaa agaagcaagg ctgggtatca aatgcaggac33781ccccccKgtc ctgatgcttt tttttttttt ttttttttcc tctgagagag actctcactc33841tgtcactcag tctagagtac agtggcgcga tctcagttca ctgcaatctc tgcctcctgg33901gctgaagtaa tcctttcctc acaagtaaac ctcagcctct caagtagctg ggactacagg33961cacacaacac cacgcctggc taatttttgt atttttaggt agagacgggg tttcactatR34021ttggccaggc tggtcttSaa ctcctgacct caggtgatcc gcctgcctcg gccccccaaa34081gtgttgggat tacaggcgtg agccaccaca cgcagccttt ttgttattag actctgtcat34141tactgacttt tttttttttt taatagaaac agggtctttc tttcccaggS taaagtacag34201tggcatgatc acagttcact atagccttaa actcctgggc tcaagtgatc ctcctgcctc34261agcctcccaa gtagcaggga ctacaggtgt gcaccaccac acccagttaa ccattcattc34321attcattcat tcatttattt tgagatggag tctcgctctg tcacctaggc tggagtgcag34381tggcacgatc tcagctcact gcaacctcca cctcccaggt tcaagagatt ctcctgcctc34441agcctcccga gtagctgaga ctacaggcgt gcaccaccat gccagactaa tttttgtatt34501tttaatagag acggggtttc actctgttgg tcaggcttat ctcgaactcc tgacttcgtg34561gatccaccct ccttggcctc ccaaagtgct gggattaaag gcgtgagcca ccgcgccctg34621ccaacctttt tttaattttt cttagagatg ggggtctccc tatgttgccc aggcttgtct34681tgaactcctg gcctcaagtg accctSttgc cttggcctca caaagtgcta ggattacagc34741ctgagccatc acacctggcc aacaggtttt tttttttKtt ttgttttgtt ttttaaagaa34801tgtctaggcc aggctcattt actttcacct gtaatcccag cactttggga ggccggggtg34861ggcagatcac ttgaggtcag gaattcgaga ccagcctggg caacatgctg aaaccccgtt34921tctactaaaa atacaaaaat tagctgggtg tggtgacacg tgcctgtaat cccagctact34981caggaggttg aggcaggaga attgcttgaa cccaggaggc agaggttgca gtgagccaag35041atcatgccat caccctccag cctgggcgac agaaggagac tcagtctaaa aacttaatta35101attaattaat taaaaataaa aatacaaaaa ttaacctggt gtggtggtgt gtgcctgtaa35161tctaagctac tcaggaggct gaggcaggag aatcccctga atcccagagg cagaggttgc35221agtgagccaa gatcgagcca ctgtttgccc agtctagtgc actgggctgc tgaatttatt35281tgaccagaca cctagcaata gactttgaag ttcttttcca cttttcactc taagatgctg35341ctgtcatgaa taaggaatat tttgatcccc ttcacaaaca ctcggggccc tcttaccagt35401tttcactgaa gatcttgaca ttcctatctg cttaggtgtc tgggcgtgtt tgggggagat35461actgaagagg tagggctccc aggcaggtgc agttcgtctg ttaggcaggc agcaaggtcc35521acttcaccag acacccccac ctctgttttc ctRcagggac tccagaacgg gtggaactgg35581cacccctccc ctcttggcag ccagtgggca agaaccttac cctacgctgc caggtggagg35641gtggggcacc ccgggccaac ctcaccgtgg tgctgctccg tggggagaaS gagctgaaac35701gggagccagc tgtgggggag cccgctgagg tcacgaccac ggtgctggtg aggagagatc35761accatggagc caatttctcg tgccgcactg aactggacct gcggccccaa gggctggagc35821tgtttgagaa cacctcggcc ccctaccagc tccagacctt tggtgaggat tgaagaagcc35881agcagggaga aggtgggggt ggggtatcct gcaatgcggt gcctgtggcc acaggatctt35941ttgagatggg tgtggccccg gctaaggggt gcatgtgttc taggcgtatg tgacctaggc36001tgctgagtgg ccctggaaga ggatctcgca ggagggggaa tgaaatgccc cagagaaggg36061cttcgggacg tccatccctg tctgctcaca cctttcttct ctccctagtc ctgccagcga36121ctcccccaca acttgtcagc ccccgggtcc tagaggtgga cacgcagggg acMgtggtct36181gttccctgga cRgKctgttc ccagtctcgg aggcccaggt ccacctggca ctgggggacc36241agaggttgaa ccccacagtc acctatggca acgactcctt ctcggccaag gcctcagtca36301gtgtgacYgc agaggaYgag ggcacccagc ggctgacgtg tgcagtaata ctggggaacc36361agagccagga gacactgcag acagtgacca tctacagtaa gaaggggcag gggcggagtg36421gggcttcttg Rgggtgtgac ctgaacccgg ggcggggctc actgtgtgcc tattccaggc36481tttccggcgc ccaacRtgat tctgacgaag ccagaggtct cagaagggac cgaggtgaca36541gtgaagtgtg aggcccaccc tagagccaag gtgacgctga atggggttcc agcccagcca36601ctgggccYga gggcccagct cctgctgaag gccaccccag aggacaacgg gcgcagcttc36661tcctgctctg caaccctgga ggtggccggc cagcttatac acaagaaYca gacccgggag36721cttcgtgtcc tgtgtgagtg gggctgctgg tcaatggccc ctatccccca aggcccaatc36781tccctgaagg tcccataagg tcttgcctcc aagtcctgcc cccacccacc tccatgtcat36841ctcatcRtgt ttttccagat ggcccccRac tggacgagag ggattgtccg ggaaactgga36901cgtggccaga aaattcccag cagactccaa tgtgccaggc ttgggggaac ccattgcccg36961agctcaagtg tctaaaggat ggcactttcc cactgcccat cggggaatca gtgactgtca37021ctcgagatct tgagggcacc tacctctgtc gggccaggag cactcaaggg gaggtcaccc37081gcRaggtgac cgtgaatgtg ctctgtgagt gagccggcgg gcagagctgg gtgggggcag37141gggccatgga cctaatgcaa tcctcaccgc ctgttgtatc ctccccacag cccccYggta37201tgagattgtc atcatcactg tggtagcagc cgcagtcata atgggcactg caggcctcag37261cacgtacctc tataaccgcc agcggaagat caagaaatac agactacaac aggcccaaaa37321agggaccccc atgaaaccga acacacaagc cacgcctccc tgaacctatc ccRggacagg37381gcctcttcct cggccttccc atattggtgg cagtggtgcc acactgaaca gagtggaaga37441catatgccat gcagctacac ctacYggccc tgggacgccg gaggacaggg cattgtcctc37501agtcagatac aacagcattt ggggccatgg tacctgcaca cctaaaacac taggccacgc37561atctgatctg tagtcacatg actaagccaa gaggaaggag caagactcaa gacatgattg37621atggatgtta aagtctagcc tgatgagagg ggaagtggtg ggggagacat agccccacca37681tgaggacata caactgggaa atactgaaac ttgctgccta ttgggtatgc tgaggYccca37741cagacttaca gaagaagtgg ccctccatag acatgtgtag catcaaaaca caaaggccca37801cacttcctga cggatgccag cttgggcact gctgtctact gaccccaacc cttgatgata37861tgtatttatt catttgttat tttaccagct atttattgag tgtcttttat gtaggctaaa37921tgaacatagg tctctggcct cacggagctc ccagtcctRa tcacattcaa ggtcaccagg37981tacagttgta caggttgtac actgcaggag agtgcctggc aaaaagatca Ratggggctg38041ggacttctca ttggccaacc tgcctttccc cagaaggagt gatttttcta Ycggcacaaa38101agcactatat ggactggtaa tggttacagg ttcagagatt acccagtgag gccttattcc38161tcccttcccc ccaaaactga cacctttgtt agccacctcc ccacccacat acatttctgc38221cagtgttcac aatgacactc agYggtcatg tctggacatg agtgcccagg gaatatgccc38281aagctatgcc ttgtcctctt gtcctgtttg catttcactg ggagcttgca ctatgcagct38341ccagtttcct gcagtgatca gggtcctgca agcagtgggg aagggggcca aggtattgga38401ggactccctc ccagctttgg aagcctcatc cgcgtgtgtg tgtgtgtgta tgtgtagaca38461agctctcgct ctgtcaccca ggctggagtg cagtggtgca atcatggttc actgcagtct38521tgaccttttg Rgctcaagtg atcctcccac ctcagcctcc tgagtagctg ggaccatagg38581ctcacaacac cacacctggc aaatttgatt tttttttttt ttYcagagac ggggtctYgc38641aacattgccc agacttcctt tgtgttagtt aataaagctt tctcaactgc ctcagccttg38701tgtgagttga ggggaggtgt cacatccagc tggagtcctt tctaagcagc cacagcctga38761tcctcccact tcctccccca agaaaacatt gtgggttgat ggYcataccc tgaggttctg38821gtccaaatcg gactttctat gaccttctgg gtctctagtg aaaactaaag actcctctcc38881agaaaaaaac atttggtttc taatgaggcc tggaatctta ttcttgacct ggggagcgga38941atcccttttt gcagtactcc cgggccctct gttggggcct ccccttcctc tccagggtgg39001agtcgaggag gcggggctgc gggcctcctt atctctagag ccggccctgg ctctctggcg39061cggggcccct tagtccgggc tttttgccat ggggtctctg ttccctctgt cgctgctgtt39121ttttttggcg gccgcctacc cgggagttgg gagcgcgctg ggacgccgga ctaagcgggc39181gcaaagcccc aagggtagcc ctctcgcgcc ctccgggacc tcagtgccct tctgggtgcg39241catgagcccg gagttcgtgg ctgtgcagcc ggggaagtca gtgcagctca attgcagcaa39301cagctgtccc cagccgcaga attccagcct ccgcaccccg ctgcggcaag gcaagacgct39361cagagggccg ggttgggtgt cttaccagct gctcgacgtg agggcctgga gctccctcgc39421gcactgcctc gtgacctgcg caggaaaaac acgctgggcc acctccagga tcaccgccta39481cagtgaggRa caggggctcg gtcccggctg gggtgagggg agggggctgg aagaggtggg39541ggaagggtag ttgacagtcg ctctataggg agcgcccgcg gacctcactc agaggctccc39601ccttgcctta gaaccgcccc acagcgtgat tttggagcct ccggtcttaa agggcaggaa39661atacactttg cgctgccacg tgacgcaggt gttcccggtg ggctacttgg tggtgaccct39721gaggcatgga agccgggtca tctattccga aagcctggag cgcttcaccg gcctggatct39781ggccaacgtg accttgacct acgagtttgc tgctggaccc cgcgacttct ggcagcccgt39841gatctgccac gcgcgcctca atctcgacgg cctggtggtc cgcaacagct cggcacccat39901tacactgatg ctcggtgagg cacccctgta accctgggga ctaggaggaa gggggcagag39961agagttatga ccccgagagg gcgcacagac caagcgtgag ctccacgSgg gtcgacagac40021ctccctgtgt tccgttccta attctcgcct tctgctccca gcttggagcc ccgcgcccac40081agctttggcc tccggttcca tcgctgccct tgtagggatc ctcctcactg tgggcgctgc40141gtacctatgc aagtgcctag ctatgaagtc ccaggcgtaa agggggatgt tctatgccgg40201ctgagcgaga aaaagaggaa tatgaaacaa tctggggaaa tggccataca tggtggctga40261cgcctgtaat cccagcactt tgggaggccg aggcaggaga atcgcttgag cccaggagtt40321cgagaccagc ctggacaaca tagtgagacc ccgtctatgc aaaaaataca caaattagcc40381tggtgtggtg gcccgcacct gtggtcccag ctacccggga ggctgagttg ggaggatcct40441ttgagccctg aaagtcgagg ttgcagtgag ccttgatcgt gccactgcac tccagcctgg40501gggacagagc acgaccctgt ctccaaaaat aaaataaaaa taaaaataaa tattggcggg40561ggaaccctct ggaatcaata aaggcttcct taaccagcct ctgtcctgtg acctaagggt40621ccgcattact gcccttcttc ggaggaactg gtttgttttt gttgttgttg ttgtttttgc40681gatcactttc tccaagttcc ttgtctccct Ragggcacct gaggtttcct cactcagggc40741ccacctgggg tcccgaagcc ccagactctg tgtaKcccca gcgggtgtca cagaaacctc40801tccttctgct ggccttatcg agtgggatca gcgcgggccg gggagagcca cgggcagggg40861cggggtgggg ttcatggtat ggctttcctg attggcgccg ccgccaccac gcggcagctc40921tgattggatg ttaagtttcc tatcccagcc Scaccttcag accctgtgct ttcctggagg40981ccaaacaact gtggagcgag aactcatctc caaaataact taccacgctg gagtgagacc41041acgaatggtg gggaggggag ggtcccacgg acatattgag ggacgtggat acgcagaaga41101ggtatccatg tggtggcagc cgggaagggg tgatcagatg gtccacaggg aatatcacaa41161actcgaattc tgacgatgtt ctggtagtca cccagccaga tgagcgcatg gagttggSgg41221tggggggtgt caaagcttgg ggcccggaag cggagtcaaa agcatcaccc tcggtccctt41281gttctcgcgt ggatgtcagg gccYccaccc accgagcaga aggcggactc aggggcgctc41341cagggtggct cgagctcaca cacgctgagt agacacgtgc ccgctgcacc ctgggtaaat41401acagacccgg agccgagcgg attctaattt agacgcccgc gaacgctgcg cgcacgcaca41461cgtgtcctcg gctcgctggc actttcgtcc cgccccctcc gtcgcgtgcS ggagctgacc41521cggaggggtg cttagaggta tggctccgcg gggtcaaaag gagaaggatc agtgagagag41581gcatccccac accctcccct agaactgtcc tttccccatc cagtgcctcc caaatctctc41641ttagtcccca aatgtatccc cgccctaagg ggcgctggtg ggaggagcta aatgtggggg41701cggRgctcgg agtccagctt attatcatgg catctcagcc agggctgggg taggggtttg41761ggaagggcaa cccagcatcc cccgatccca gagtcgcggc cggggatgac gcgagagagc41821gtggtcgccc ccagaaggcc ctgggccatc atgccggcct ccacgtagac cccaggggtc41881gctcactcct gccagctcgc cttcaccaag gccaggagct tagcgcacgc tcgcctcccg41941cccccccgcc gcctctgccg ccgccccctc cttggaaacc aagttaccaa cgttaaacca42001atccccaagc gcaactctgY ctcccccaca ccccacccgc cgcgccgcgc ggagccgtcc42061tctagcccag ctcctcggct cgcgctctcc tcgcctcctg tgctttcccc gccgcggcga42121tgccagggcc ttcgccaggg ctgcgccggg cgctactcgg cctctgggct gctctgggcc42181tggggctctt cggcctctca ggtaagagcY ccgctctggt tcggggtgga cagggcgggg42241gcggagtccc tggacctgag aaacggcctc ctgtccctcc cagctctgcc ctcgcctcgc42301tSccacgcct ctgcccccac ctcgagcctg agtcttctcc ccttccccct cctccccaac42361acacacccga gccccagctt cctgactcct cgatagcccc tacccgcttc gagatcctag42421gtgttcttcc gcacccaacc cttcgccctg gagacccagt gtctctcctg tccgctcccc42481gggtacctcc ttacgctStg ctgtgcacca tggtccacgR actggcatct tccccactcg42541cggtccgcga agactccatc tctccaacta ccctgactca gaggcgctgt tcccgctcca42601cccagaRccc tggcaaccgg gtccctcagc tgttcccgcg gttccttcca tgagcccagc42661cttgcgtccc ggcKccgtgt tcttcaccgg gtgtagggtc cttcctgatc cttgacccag42721cctcgtctct cctttgccct tgccgcaaac gcactctcct cgtatcccgg cattctgcca42781ggaccctgag aactggttca tcccccatcc cccatcccgg gtccccttct ctcagccttg42841ctgtgttcat ccaagaaccc acctttcctc tcctctacgc cctcccccca tgctttcccg42901ccgctccatc ggcgctttgg agaccatgSc tctctgctac cacgtcccag agacaccctc42961gaggtttaga ctctgggagt gcgcctttaa accggaggcc tgggcaSgac gcgggacgcc43021tgggttcttt ccctggctgS agcctctcct cctcctcccc gccctctgag aacccttgac43081tcgacatagg ggcgctaaga tgtcagggag ttggctcccc aggctcagcc cgcgtttccc43141tgggcagcgg tctcgcagga gcccttctgg gcggacctgc agcctcgcgt ggcgttcgtg43201gagcgcgggg gctcgctgtg gctgaattgc agcaccaact gccctYggcc ggagcgcggt43261ggcctggaga cctcgctgcg ccgaaacggg acccagaggg gtttgcgttg gttggcgcgg43321cagctggtgg acattcgcga gccggagact cagcccgtct gcttcttccg ctgcgcgcgg43381cgcacactac aggcgcgtgg gctcattcgc actttccgtg agttctgggt ggccacgcgc43441gtactccact actctccctc cctcccaggc cccgccccct gggtcccagg gtcctcccct43501tcaggcccca ccttctgttc caagtcccgg Ygttcaaaga gctgcggact cttccccctt43561gcagagcgac cagatcgcgt agagctgatg ccgctgcctc cctggcagcc ggtgggcgag43621aacttcaccc tgagctgtag ggtccccggc gccgggcccc gtgcgagcct cacgctgacc43681ctgctgcggg gcgcccagga gctgatccgc cgcagcttcg ccggtgaacc accccgagcg43741cggggcgcgg tgctcacagc cacggtactg gctcggaggg aggaccatgg agccaatttc43801tcgtgtcgcg ccgagctgga cctgcggccg cacggactgg gactgtttga aaacagctcg43861gcccccagag agctccgaac cttctgtgag tgggtgtggg gaggagatgg ggacccagtg43921gggtcggtcg gtgtttagga ggtttagagg tagatacatc tgaatgctga ccccgacttc43981aaccctcgcc ggctgagctg tttccccctc cgtgccttga ggRKgataat acgataagat44041agtgcatgtc aagtgcttag gacatattga gcgctcggag ttagttcaaa cttggttctt44101cgacccctag ccctgtctcc ggatgccccg cgcctcgctg ctccccggct cttggaagtt44161ggctcggaaa ggcccgtgag ctgcactctg gacggactgt ttccagcctc agaggccagg44221gtctacctcg cactggggga ccagaatctg agtcctgatg tcaccctcga aggggacgca44281ttcgtggcca ctgccacagc cacagctagc gcagagcagg agggtgccag gcagctgRtc44341tgcaacgtca ccctgggggg cgaaaaccgg gagacccggg agaacgtgac catctacagt44401aaggaaggag gcggggtctc cgcggctccg aggtgggacc agaggaatgc gaaggcgggg44461cgaagagtgg gcgggacctc agtaccggaa caggcgtgKc ccgaggggcg gggcaggtgg44521gggcggagac gtaatcgctg gggaggagga gcctgtacag cctgagaggc ggggcgccgt44581accctagttc gttctcagca ccccgaggat tcgggcagat aaggggcggg ccttgaccgg44641agggaggggt atggtcagta tactacgacc aaatgctccg cccccaggct tcccggcacc44701actcctgacc ctgagcgaac ccagcgtctc cgaggggcag atggtgacag taacctgcgc44761agctgggRcc caagctctgg tcacactgga gggagttcca gccgcggtcc cggggcagcc44821cgcccagctt cagctaaatg ccaccgagaa cgacgacaga cgcagcttct tctgcgacgc44881caccctcgat gtggacgggg agaccctgat caagaacagg agcgcagagc ttcgtgtcct44941atgtgagttg gtgataaccc ctcgcccccc accttctggt gacttccaag gacccgcctg45001ctYcctcacc gtgtcgtgga ggcggagcca tttcttacgt ctaagcctct gtaaccccac45061gccctgcccg cagacgctcc ccggctagac gattcggact gccccaggag ttggacgtgg45121cccgagggcc cagagcagac gctgcgctgc gaggcccgcg ggaacccaga accctcagtg45181cactgtgcgc gctccgacgg cggggccgtg ctggctctgg gcctgctggg tccagtcact45241cgggcgctct caggcactta ccgctgcaag gcggccaatg atcaaggcga ggcggtcaag45301gacgtaacgc taacggtgga gtgtgagtgg gggtgcgcag RgtgcaYttc tatctggttc45361aaggtctgga gggtggccag cctccaggga agagtaggag tagggtatga ggtgtccctt45421tgggtgaggt tttgggaaag ggaagaggct ggttagtggg gttggagaaa gatcttggag45481gatggaaggg accgggtggg cgtgccccta gcctagggcg tggtatttgg gcggagtcgt45541ggaaaggcgg gcagtccaga gtgtttaagt ttttagRcga aaaaggcgcc actggtggct45601caggaagctc ccagacagag tgcatgSctc gactagcgtg acacctcctt ggatcggcgt45661ccaagggtta tgcagggaca acacttcgtg gaagccttgc cgcgccaagg agggtctagg45721gacgtcagat ttgcccccaa accccaaagc caacaataca ctccctcctc cagacgcacc45781agcgctggac agcRtgggct gcccagaacg cattacttgg ctggagggaa cagaagcctc45841gctgagctgt gtggcgcacg gggtaccgcc gcctgatgtg atctgcgtgc gctctggaga45901actcggggcc gtcatcgagg ggctgttgcg tgtggcccgg gagcatgcgg gcacttaccg45961ctgcgaagcc accaaccctc ggggctctgc ggccaaaaat gtggccgtca cggtggaatg46021tgagtagggg caccgcggag ttaggcagga tctgtgggac aaccccggct ggacttcctg46081gcccccgtgt gagcccctgc aatcctgttt cccagatggc cccaggtttg aggagccgag46141ctgccccagc aattggacat gggtggaagg atctgggcgc ctgttttcct gtgaggtcga46201tgggaagcca cagccaagcg tgaagtgcgt gggctccggg ggcRccactg agggggtgct46261gctgccgctg gcacccccag accctagtcc cagagctccc agaatcccta gagtcctggc46321acccggtatc tacgtctgca acgccaccaa ccgccacggc tccgtggcca aaacagtcgt46381cgtgagcgcg gagtgtgagc gaggcccagg cgggtaggga gcaggggtgc cccacggtcc46441aggcactccc tgacatcccc catggctgYt ttgcagcgcc accggagatg gatgaatcta46501cctgcccaag tcaccagacg tggctggaag gggctgaggc ttccgcgctg gcctgcgccg46561cccggggtcg cccttcccca ggagtgcgct gctctcggga aggcatccca tggcctgagc46621agcagcgcgt gtcccgagag gacgcgggca cttaccactg tgtggccacc aatgcgcatg46681gcacggactc ccggaccgtc actgtgggcg tggaatgtga gtgggggcag caccggatgg46741aggggacacg gtcctcggaa gaatgactcg cagcggtggg agcattcaag ggcacctctc46801ccaatcccat tctcggggac agggaattcc agcctaaacc agggggtaat gaaaattcta46861gccaggcgca gtggctcagg tctgtaatcc caacactttg gaaggttgag gcggatgaat46921cacttgaggc caggagttcg agaccagccc ggccaacatg gcgaaaaccc gtctctacaa46981aaattagccg gtcgtggtSg tgggcgcctg tggtcccagc tacttgggag gctgaggcag47041gagaatcgct tgagcctggg aggcagaggt tgcagggagc cgagatcccg ccactgcact47101ccagcctggg caacagagtg agactctttc ttagaaaaac agaaaaagaa aattataggg47161aataggagca cggccctcct caaatcctgg attagaacac tgacctgggc ttcacctcct47221tccattcggt gaagaagggc gaggaatttt agccgcaaca gcagYctgat tgtcggggaa47281ggaggctctg ataggaggca ggatcctctt ctgcccatca gaggcgcggt ggtctcccat47341cgatcgttgt gggccggagc agggcatttg atcagtggct gggccggcgc taagccccac47401ttcaccttct gtgcccttca gaccggccag tggtggccga acttgctgcc tcgccccctg47461gaggcgtgcg cccaggagga aacttcacgt tgacctgccg cgcRgaggcc tggcctccag47521cccagatcag ctggcgcgcg cccccgRggg ccctcaacat cggcctgtcg agcaacaaca47581gcacactgag cgtggcaggc gccatgggaa gccacggcgg cgagtacgag tgcgcaScca47641ccaacgcgca cgggcgccac gcgcggcgca tcacggtgcg cgtggccggt MMgtggcagc47701tggggagagg cggggcgagg tatctgagag ggggcgtgac ctgggtcttg gggcggccgg47761ccccgcctgc ctccctctcg gtcccggKag actagRcggW agtgggacag aRtagaagtc47821aaaggtgcct tagcgggtgg ggctgttgat cgcactttga ggggtgggag atggaggtgg47881cagggggact gaattcaagg ggagggaccc tccggggctg tcactgctgc aggaaaggac47941tttaaaactt gggctggatt ctgcgtggYg gaaacttgac ccaattcaca atccactgtg48001gggaagattg gggagggacc aaagtcattg gatgWtggag ggagagaggg gtcaagatcg48061ccttctctca cttcctgaag ctcctggggc tgggttctct ctggggtcgg gggaacctga48121cctggtcctg ccggtcctca ttttttgggg gatggggaga gttgacttgt cgccaggggg48181ctaagtgtgg tcacgggttt atatccccat gggctgaagt gcgatataaa tcgggactcg48241ggtcgccctg gcactgggag tggccttatt gcatgggttg tctcccttct cccaaggcca48301gacagtgagc tccccggggc atgaggactg acttcgtgcc tgtgggagtg cggggggcgg48361tgggagaagc cccccggagc ttggccaccc tccgcgaggg tctccacccc gcaggtccgt48421ggctatgggt cgccgtgggc ggcgcggcgg ggggcgcggc gctgctggcc gcgggggccg48481gcctggcctt ctacgtgcag tccaccgcct gcaagaaggg cgagtacaac gtgcaggagg48541ccgagagctc aggcgaggcc gtgtgtctSa acggagcggg cggcggcgct ggcggggcgg48601caggcgcgga gggcggaccc gaggcggcgg ggggcgcggc cgagtcgccg gcggagggcg48661aggtcttcgc catacagctg acatcggcgt gagcccgctc ccctctcccc gcgggccggg48721ggacgccccc cagactcaca cgggggctta tttattgctt tatttattta cttattcatt48781tatttatgta ttcaactcca agggcgtcac ccccattttc taSccatccc ctcaataRag48841tttttataaa ggaactccct gtctccgctt ctgtttctgc aaggtggaac aagSccaggg48901ttccagtcgt gacctcccga gttattcatt caaWaagcga tttttgagag ggcctggggt48961ggtggcttag gcctgtaatc ccaggacttg tgggaggccc aggtgggagg atcccttgca49021cccaagagtt tcagaccagc ctgggcaaca tagggagacc ctacaaaaaa tatttttcaa49081aaattagcca aggccggtcg cggtggctca tgcgtgtaat cccaggactt tggaaggccg49141aggcggccag atcacgaggt cgaggtcatg agatcgagac catcctggcc aatatggtga49201aaccctgtct ctactaaaaa tacaaaaatt agctgggcat ggtggtgcRc gcctgtagtc49261ccagctattc gggaggctga ggcaggagaa tcgctttaac cccggaggca gaggttgcag49321tgagccgaga tcgtgccact gaactccagc ctggcgacag agcgagattc cgtcttaaaa49381aaaaaaccag gcgtggtggc tcacgcctgt aatcccagca ctttgggagg ccgaggcggg49441cggatcacga ggtcgggaga tcgagaccat cctcgctaac acggtgaaac cccgtctcta49501ctaaaaatMc aaaaaaaaaa aaaaaaaaaa aattagccga gcgtggtggc gggcgcctgt49561agtcccagct actcaggagg ctgaggcagg agaatggcat gaacccgggg agcagagctt49621gcagtgagcc gagatcgcgc cactgcactc caccctggca gacagcaaga ctccgtctca49681aaaaaaaaaa aaaaaattag ccagggccga gcacagtRct ctcgcttgaa tcccagaact49741ttgggaaact aaggcggggg gggggggtca cttgaggtca ggagttcgag accaccctgg49801ccaacgtggt gaaacacctt ctctaccaaa aatacaaaaa aattaaggcc gggtgaagtg49861gctcacgtct gtaatcccag cactttgcga ggctgaggcg ggcggatcat ggggttagaa49921gatcaagact gtcctggcta acatggtgaa accccgtcac taMtaaaaac acaaaaatta49981gccgggcgtg gtggcacatg cctgtagtcc cagctactca agaggctgag gcaggagaat50041cgctttaacc ccggaggcag aggttgcagt gagccaagat cgcaccactg cactccagcc50101tgggcaatag agcgagactc tgtctcaaaa aaaaaccaaa aacaaaaaca aaaaaataca50161aaaatttagc tgggctgtag tggcacacgc cctgtaatcc cagctactcg tgaggctgag50221gcaggagaat tgctagaacc cgggaggtag agatcttgcc attgcactcc agcctgggca50281acagaactag actttgtctc aaaaaaaaaa aaaaaaaaaa aaaagtgttt tttgaggggg50341ctgggcatgg tggctcaagc ctgtaatccc aggacttttg ggaggcccag gtgggaggat50401cccttgtgcc cacgagtttc agaccagcct gggcaacata gcgagaccct acaaaaaaac50461atgtttcaaa aaaaaatttt tttttttgag atggagtctc gctctgtcgc ccaggctgga50521cagcagtggc actatctctg ctcactgcaa gctccgtctc ccgggttcat gccattctcc50581tgcctcagcc tcccaagtag ctgggattac aggcgcctgc caccacaccc agctaatttt50641tttttgtatt tttagtagag atgggatttc accgtgttcg ccaggatggt ctctattcct50701gacctcgaga tccacccgcc tcagcctccc aaagtgctgg gattacaggc gtgagccacc50761gcgcccggcc tcaaaaaaaa aatttttttt ttgagatgga gtcttgctct gtcacccagg50821ctggagtgct gtggtgtgat cttggctcac tgcaacctct gcctcctggg ttcaagcaat50881tcccctgcct tggcttccca aatagctggg actataggca tgcaccacca cacccagcta50941atttttgtat ttttagtaga gacagggttt caccatgttg gccaggctgg tctcgaactc51001ctgacctaag gtgatccacc tgcctcggtc tcccaaagtg ctgggattac agctgtaagc51061caccatgcct ggtgtatttt tcaaaaatta gccagacatg gtggtgcatg cctgtagtcc51121cagctacttg ggaggctgag gcaggaggat cctttgagcc taggaggtca aagccacttc51181cagctatgat atYgtcattg tgctccagcc caggtgacag aaccagaccc tgtctctaaa51241aacaaacaac gaaaaaatcc aaaaactttt tttgaacacc tactatgcat caggcacaat51301ctaagctgtc tttttctttt tctttttttt ttttttttga gacggagtct ctctgtcgcc51361caggctggag tgcagtggtg taatctcagc tcactgcaag ctctgcctcc cacgttcaag51421cgattttcct gcctcagcct cctgagtagc tgggattaca ggcgcgcgcc accactacgc51481ccggctaatt tttgtatttt tagtagagac agggtttcac catgttggtc aggctagtct51541ggaactactg acctcgtgat tcacctgcct cggtctccca acgtgctgga attacaagcc51601tgagccactg tgcctggccc ggctggctgt cttttctcag tgtgacctag agctcgtcct51661ctctcagtgc ctgttttctg ctctcttcac acccttgggc aggggtgggg gcctcactcc51721ttcctcctac ttatctcttc cacccagcac tgccctctga tccgggtcac tcttggaggt51781gggggctagg tgcttccccc aggcctggtt accggcagag ctgaggccgc cttgccaggg51841tgggtggagg ccctctccgt tgtgcccctg ccctgagact tcggtgagac cttcctgggc51901aggcactggc tgatgctatg ggtgtcagcc cttagcatgt cctccctgtt aaagggggca51961cccctgcccc gccctcaatg cctcctttgt cctgtgtcca cccacagtgc ttcagtttac52021ccccaccctg cctttccact cagcccatca tgattcagaa cagacacaca cagggtatcc52081gctgcaaccc ccactacacg gcaccttccc ccctcatccc caacagcata aggcacagca52141gctgggcctc ctccccacag cctcctcctc tgcccctcct ccctcaaaag caggaacacg52201gagccctaga gaaggaagcc agtcccatgc aaacatgtaa tgagcaaaga tgagacgggg52261aaatggcaca agagggcagg ccagtgctcg gtgctggagc caggggccag gtataacacc52321caaaaaggca ccagccaggt gcagtccctg ccactaacag cacctcacct tttctgcctg52381tgccctccct acttaatgat ctctctccgc tcctactgac ctcaaggtct ctttcagagc52441cttcagatga gatatttatt ttagtaggtt ggtgcaaaag taattgctgt ttttgccatt52501gaaagtaatg gcaggcaggg catggtggct cacgcctgta atcccagcac tttgggaggc52561cgaggtgggc agatcacgag gtcaggagtt caagaccagc ctggctaaca tggtgaaacc52621ctgtctctac taacaataca aaaaaaatta gccggacatg gtggcacacc cctgtagtct52681cagctacttg ggaggctgag gcaggagaac tgcttgaacc ctgaagcgga ggctgcagtg52741agctgaaatc acgccactgc actccagcct gggccacaga gtgagactgt ctcagaggaa52801aaaaaaaaaa aaaaagtaat ggcaaaaact gcaattactt tttctttttc tttctgtttt52861tttttttgtt tgtttgtttg tttgtttgtt tgtttgagac ggagtctcac tgtgtggccc52921aggctggagt gcagtggcgc aatcttggct tactgcagcc tccgcctccc aggttcaagt52981gattctctcc tgcctcagcc tcccaatagg attacaggca cccaccacta tgcctggcta53041atttttgtat ctttagcaga gatggggttt caccatgttt gccaggctgg tctcgaactc53101ctgatccacc cacctcagct tcccaaagtg ctgggattac aggcaggcat gagccatggt53161gcccgacatt tttttttttt tttctttttt tttttgagac agagtctcac tttgtcaccc53221aggctggagt gcaaaggcaa gatctcactg cagcctctgc ctcctgggtt aaagcgattc53281tcccacctta gccccctgag taggtgagat tacaggcaca tgccaccaca cctgcctaat53341ttttgtattt ttaatagaga gggggtttca ccattttgtc cacgctggtc tcgaactcct53401gacctcaagg gattcgccca cctcagcctc ccaaagtgct gggattacag gcatgagcca53461ccacgcccga cctccttaac tcttttattt ccttgcacac tttttctctg tagcccagct53521cacaacttaa catcctctta gacatacacc tgaggttttt tttttttttt tttttgagag53581ggagtctctc tctgtcaccc aggatggaat gcagtggtgt gctctcagct cactgcaacc53641ttgcaaccac tgcctcccag gttcaagcaa ttctcctgcc tcagcctccc gagtagctgg53701gactacagac acatgccgcc acacctggct gattttttgt tttttagtag agacagggtt53761tcaccgtgtt gcccaggctg gtctcaaact cctgagttca ggcagtccgc ctgccttagc53821cttccaaaat gctgggatta caggcatgag gcaccgcgtc ctgcctctga gttttttttt53881tttttttttt tttactgtct cctagaacat cagccccagt agagcaggga tctttgttct53941gttcaccact gagggtcctc attgggtcct agcacacaca gttgctcaat aaatgttgaa54001taagtgggta aagacagcca cgagcttgca gatatgtgtt caaggtgtgt ccttgcagag54061agcttctcta tacttggcac tggagaggcc tgtcgtgggc aaggacatag atgtggcgac54121ctcagacttg agaactcctg gggcagtagg ggagatggat gtggataatg taaccataag54181ccttcctttc tattttagac tgagtggtca aggaaggctt ccagacaatg gaaattctga54241taggttctaa gagggagacc agcaaggagc tgaaccggag gctgacacag ggtgagagtg54301ggaatgtcta ttttattttt tttttggaga cagggtctca ctctgttgct caggcagcag54361tgcagtggca cgatcgtggc tcactgcagc ttcaacttcc cagactcaag tgatcctccc54421acctcagcct cccaagcagc tgggaatata ggtgcatgcc accacatccg gctaattttt54481gtatttttgg tagaaacggg gtttcaccat gttgcccagg ctggtcttga actcctgggt54541tcaagtgatc ttgctgcctt gggctcccaa agtgcttgga ttacaggtgt gagcctgtga54601gccacatctg gcctatttta ttttttaatt agttttttgt ttttgttttt gttttgagat54661ggagtctctg tctccaaggc tggagtgcag tggcacgatc tcggctcact gtaacctcca54721cctcccaagt agctgggatt acaggcacat gccaccacgc ctggctaatt tttgtatctt54781tagtagagac agggtttccc catgttggcc aggctggtct cgaactcctg acctccggtg54841atccacctgc ctcagtttcc caaagtgctg ggattatagg aatgagccac tctgcctggc54901tgggcatgtg tcttgttttt ttcattctgt agataacaag caattgtcct ccctcagcct54961cccaagtagc tggtactaca ggcgcctgcc actacgcccg gctatttttt gtagttttag55021cagaggtggg gtttcaccat gttaaccagt ctctaactcc tgacctcagg tgatcctcct55081gccttggcct cccaaagtgc tggaattaca ggtgtgagcc accaagccca gcctcaaact55141cctgagttta agtgatcctc acacctcagc ctccctgagt gctgggatta caggtgtgag55201ccaccacacc cggcctgagt cgggggaggt gtctatttta gtctgagtgg tcaaggaagg55261cttctctgaa gagctgatgt tggggccagg cctcctcaag cgattagaag gtgtcagcca55321tggggagatg tggagggagg gtgtttcagg ccaaggaagg gtaagatcaa ataattcagg55381gatctgaggg cagaggaatc tggactccag ttctcccatt cagggctgcc caggagagac55441aaagaggatc tcataagggt gtgtggcttt gtggctcact cacgcccaca gcaaggacca55501tgcccaccct actttttttt ttttccccaa gtctccctct attacccagg ctggagtaca55561gtggtacgat cacggttcac tgcagtcttg acctccaggg ctcaagtgat cctcccacct55621cagtgtcctg agtagctggc actacaggca tgcaccacca cccctggctc attttttgat55681tttttggtag agacggggtc tcactgtgtt acccaggctg gtctcaaact cctgggctca55741agcgatcctc ccacctctgc cttctgaagt gttgggatta caggtgtgag ccaccatgcc55801cagcccgcca ccagtcttga ctctccatcc tccctccctc cctgtgagtg ctggtggcct55861gtgtgtcccg cctgctgaaa gatgcctctg acttggggct tttgacttca ggcccgggag55921acacattttg gctggattag ggagatctta aaagggggta ggggacacag caggggctaa55981ggagagtgac acactgcagg caggggttgg gtgacagatg aaggatccac tggtatatgc56041tgccagtgtg tgccatctac ttgtgtgttt tacgtgtgtc tggtgcatgt gtcctgtgtg56101ggctgtatct gtgtgtgact cagctacgtg tcagcatatc cctgtcgacg tgtgtctctg56161ctgatgtgtc tgtctgcacg cacggctgtc ttgcatgtgt cttttttgag atagagtctc56221gctctgtcac ccaggctgga gtgcagtggc acgatcttgg ctcattgcaa cctcaacctc56281ccaggttcaa gcgattctcc tgcctgagcc tcccaagtag ctcggattac aggcacatgc56341taccacgcct ggctaatttt tgcatattta gtagagacgg ggtttcatca tgttggccag56401gctggtctcg atctcctgac ctcaggtgat ccacctgcat cagcctccca aagtgctggg56461attacagaaa tgagccactg tgcctggcta gacatgtgtc tttttttttc ccttctgtat56521ataacagggt ctcactatgt tgcccaggct ggtctcaaac tcgtggcctc aagcaatcct56581cctgcctcag cctcccaaag tgttgggatt acaggcgtga gccactgcac ccggcttgtg56641tgtgtctttc tgtatctgtt gtgtgtgtct gtgggtagtg gctgtttccc tgcatgggac56701attgtggtaa atgtggctaa ttccctgtgt gggggctgct gcctgtggat aagactgtgt56761ctctgtgcat gcgcacgtgt gtgcacgccc ctcacaaccc caacgagaaa acacctgtcc56821accttcctgg gctggcacag gggcacagga ggcgggatcc caaatcacag gctttttctc56881tcggcatatc tctgtacttt attgtccctg ctgtaacaat gctcatcctt cctgagagcg56941tctcctgagg gggcctcggc caaggctgac tggagaaggg gctggtgacc cctagcaggc57001tctgccacct gaggcctggg tcttcccccg ggatccttga atctggagat ggcagagagg57061aggcaggccg gctctttccc caatcctcct aggagagctg cttctgccca ttctcccact57121ggtgaaacgg aggcagaagc agcagctcag cagggtgaag ctgggtttaa ccttcctgaa57181Yggggtccag ggacactcca catctgccac atagcctctt gggctggaca tttttcctgg57241gcaccagcca gcagctggag cagcgagtgc cgtatttctt gtacctaggg ttgggggaca57301agaaactgcc atttaggatg cagtgggggc ccggaaaccg ccacaaggaa accacttttc57361ccaagaggta ggtgttttgc tttttgcttt ccccacaggc catcctggtt acacgtggac57421tgatttgggg acccccgccc caactccctc ctccattcta aggacctgat cccacaggcg57481ttgcagagag gggtcccatc ttcagcgtct ctccagagcg gggtcctctg ggtccgacag57541gaagcacagc gccggggctc tgaagggtca gaggtcaaag ggcaggggtc agaggccaag57601catgtgagct cgggatgcct gtgcggagtc gggcattttg tgggggtctc agtaaaggcc57661ccacctagct ctggatcagc cctgggagtt gccagctcta agccacagca aagccaggaa57721gggagacaga tggcagcatt ccgcagagga ggaagctggg ggtgggggtg actcagccca57781agtggagggg ggtgctgcga ctcctccctg agggctctaa atggggaagc aagatggaga57841aggggggggc agggagaaag gcagggaaga caggaaattg gcccccaaaa tatttatagc57901tcttgggttt tcaggactca cccagggcct cgctgcctgc tgagtgggcc tcggtgcctc57961ctgggtgggc tgcagggccc ccaacagcat ctgcagggga ttcctgagaa cggctactgc58021agggcaggct gtggggcaga caaggtatta gcactggggg ggatctgtag cttgtcccca58081acagccctcc gaaatgaaga tttagtatca aggtatcagc catcccccga ggaggcaact58141aatatctgaa tggcctggct ttgcctctca ttagtaatat tattattatt attattatta58201tttttgcaga tggagtctcg ctctgttgcc caggctggag tgtagtggtg tcatctcagc58261tcactacaac ctccacctcc cgggttcaag caattcttga gcctcagcct cccaagcagc58321tgggactaca ggcgcgcgac accacgccca gctaattttt gtatttttag tacagacggg58381gtttcaccat gttggccagg ctggtctcga actcctgacc tcaagtgatc cacccacctc58441ggcctcccaa agtgcaggga ttacaggcat gagctaccgt gcccgaccta attattatta58501ttattatttg aaaaatagta agcacaggga cagcctgcca ggttccaatc ccagttctcc58561atgtccttgc tgtgtgagcc tggacacatt atctcctact ctgtgcctca gtttcctcat58621ctgtaaaatg ggcttcccaa tacaacagtt tttttttctt tgaaaatttg atttattgat58681ttttaaaaag agatgggagt ctgggcaata tagggagacc ccgtctctac aaacaaaaaa58741aatagccagg agtggtggta caggcctgca ctcccagcta gttgggaggc tgaggaggga58801ggatggcttg ggcctgggag gtccaggctg cagtgagcca tgattgcgcc actgcactcc58861accctgggtg acagagcaag accctgtctc aaaaacaaac aaacaaacaa aagcaaaaaa58921aagcagccag gcatggtggc ggctcactcc tgtaatccca acactttggg agggcaaggc58981agatggatca cctgaggtca agagatcgag accatcccgg ccaacatggc aaaaccccat59041ctctactaaa aatacaaaaa ttagccaggc gtggtagcag gcacctgtaa tcccagctac59101tccagaggct gaggcaggag aatcgtttga atccgggagg cagaggttgc agtgagccga59161gattgtgtca ttgcactcca gcctgaacga cagagtgcaa ctccatctca aaaaaaaaaa59221aaaatattgt tttggcggca tgattaaaaa agtcataatt ataattttta taataacaat59281aaataggtaa aaattagagc tgggggtcat actatgttgc ccaggctggt cttgaactcc59341tgggctcatg caatcctccc accttggcct cccaaagtgc tgggattaca ggtgtgagcc59401accaggccca gcttcccaaa gctttttttt tttttttttt aaggggatgg agtcttgctc59461tgtcacccag gctggagtgc agtggtgcca tctctgctca gtgcaacctc cacctcctgg59521gttcaagcga ttctcctgcc tcagcctccc aagtagctgg gattacaggt gcccattacc59581attcccagct agtttttttt ttttttttga gactgagtcc cactctgtgg ctcaggctgg59641agtgaggtgg cgctatctct gcttactgaa gacttcacct cctgagttca agcgattctc59701ctgcctcagc ctcctgagca gctgggatta caggcaccca ctacaacgcc cagctaattt59761tttgtatttt tagtagacat ggggtttcac tatgttggcc aggctgatct caaactcctg59821acttcaggtg atctgctcgc cttggcctcc caaagtgatg ggattatagg cgtgagccac59881tgtgcccggc ctccccaggc ttttgaatga gcccatacac ataaaatact gcctgttaac59941ctcttattgt tgtcactacc aacaaatagt agctgttagc attattggga aaaatcaccg60001cagccgcagc tgcagcctaa gcaaggccag gcctgattcc taaagagacc aggtctcaca60061ttgggagtgg ggagccactg agtcaggagc ggcaggactg tatctggcac cagctcaagt60121tgtcaaccag agactgggcc acgtgtaacg tagagcacag gtgagggtcc acaccgacgc60181cagRgagcac ccctacctcc cacactggtg tttgcgttgt aactgggaga aagggcggcc60241tggccccagc cggcccctac ctgtacgtgg ggatgatctg caggctggag tccggcttta60301tctgaaactt cagagtcacc ccctcgaacc cagggtccac tctctcggtg ccccggcagg60361ggttcagctg tttccggggc cttctctggg gtggggccga gggagtcccc gggggctgca60421gacggcggcc cttttggctg atcctggtct gtgtgtcctt ggaatccctg tccagcagca60481ggcggccctg agtccccaga gccatcgggt cccagcaagg ccccaggacY ggggtgtcct60541gggcagggga ctgacccagc ctctccactg tctcttggag gaagcacagg gcggtgaccg60601actcctggca tgcaggccag agggacctgg ggagaagggc agtggggtca cgttttcttg60661ggtgactcct gggtttagcc ggccaggggg ttccaacttg ggccggctct ttgtgtaccc60721ttggacaggc tacacacccc acctgaggtt cagtcatttc taactctggg tggaaggttt60781aagagttgca gtaattgcaa ctcacctcgc ccactgtggg cctcccaggc acgcccagcc60841ctccacatca atcaacccct tacggcaccc gtagatcacc caggcaggga ccgccctagg60901tgaccgaggc aggatatcaa gcctctggct gcaggatcga gaaaaaggtt actttttttc60961tttgtgtttc ttttagagac cgagcctcac tctgtacccc cgcctggagt gcaggggcgt61021gatcaggact cagtgcagcc tagaactcct gggctcgacc gatccttccg cctcagcctc61081ccgagtagct gggacttaca ggcacgcgcc accacgccgc tggcttgcca taatatgatt61141acgattttta tcattttcat tattattgag ttgccctcca taacccctgg atgatccctg61201gggagtgcct acatcagccc cagagacatg gaattgcatg gcctctgatc cctagatgac61261cccaagtgtc tctgggcacc agaacctctt tgtaagtttc agtaactatt ataaaattgc61321cacttctcga taaccccagc aaagagaggt catRacccct tgatcactga gccaggtggt61381gaagtgctag cggggtccgg ggaatggggt ttggccttac gcacctctca ctgattctgc61441agcatcctgg ggtcctcggc ttctcctggg agggggatcc tcccagccgc tccaggttca61501gacagggcgg cgccagaagc tttgctggca ttgaggagtc cgggattggc tcggcctcca61561ttgcgcccca gcccagcccc ctccctaatt tcacccggcc ctgtcccgct gggcccaccc61621gatgaaaccc acctgggagg ggcgggacct gtgtggtggg agcgctcttg gtagaggatg61681cgatgagccc cagctgagag cgaccagcct cggcggcacc tttcctcttt ctggcttttt61741tcaggtcatc cgcgcacccc tgcgtggcaa gggcggcctg gaccccacca aatccctccg61801cagctgccgg ggcggggcct tccacgctag ccctccccct cggaaatggg ggctcccagg61861cctctgcctt ggatccccag cggcatctta gatcccagag ggaaaagaga accgggggcc61921cagcacagca gatgcaggtg tggtttgttt ttgtttttgt tttttttttt tttgagacag61981ggcctcactc tgtcacccag gctggagtgg aatggcctga tcaccgctcc actgcagcct62041aaatcccctg ggctcaagtg atcctcccac ctcagtctcc cgagtagctg ggactacagg62101cacttaccac cactccacgc taatttttac tgtttttata gagacgaggt ctcgccatgt62161tgcccaggat ggtcttaagc tcctggcctc aagtgatcct cccatcttgg cttcccaaag62221tgctaggatt acaggtgtga gccacctgta gaccccagat ctgtccccca aggacactca62281acatgctggg gcctgtgtta tcgatttatt gcagctccaa tatgagtcca ctcctactca62341aaccctgatt ctcaggggcc tggggaaggc caccccacta ggggccctgt ceccaccaga62401gcctggacat gggactctct cccaagcagg ggtgttgtcc ttcacagggg cttccacgtc62461tctcccgggc ctgtccgcac tctgggcagg gctggcacct ggctattccc tcaatctggg62521ccctggggcc atggcaatgt ggaatggtcc aggtgttcat gtcagtgggg cttggggaca62581tggccatcca cgtagaagtt cctggtgatc ttgggMaggg tgaattccgc tccttccagc62641tccggtgtca gcacaatctg gcagcccagc cgcgagttct cctggaggag gggggccatg62701tctagcatgt cgtcttccct agggtggtga cacgggcagt gttagccgag ggcaagctag62761ctgggtgggt ggggggccag aggtSgggga gggaggaagc tgactgagcg cagggggtag62821tggtggggga ggcagctccc attccaggaa ctggaagtgg ggaggatggt gggggctgct62881gaatgctcca gggtgaagct gccagctaga cagggctgac ccactcacct ctcctcggga62941ggaggcagga gatccaggtg gtcttcactc acatacacat ggcaggtgga gcaggccagg63001gaggcttcac aggcccctag gggtgggaag tgaagggggc gcaggtgagt ggcagagtca63061ggaaggggct gctatgcgaa tggcgtagag gagtagacct ctcttccacc acgtgcctca63121cgtctccctc ctgggcctgc agctccactg tgtgtaccag gcactgtgtc atgtcctcaa63181tgtcctcagc tagctgttcc ccagtgtgta gggtttacaa acggacatct gggaggcccc63241atttcccagg gactccctag caggctgaga tgcagaacca ttaaggagca gggacttggc63301tgccaggtag ctgagagggg aaaggccagg caggctcccc gcagtctgtg agcccttgct63361gtgaccctat cactgtgctg ggctaatgtg tccccacctc tccactgctc ttggaggatg63421gaccggctga ctcagcagtc agtgtggtgg gggaaggaat caggcattag gattttgttt63481tttttttttt tgagatggag tcttgttctg ttgcccaggc tggagtgcag tggcacgatc63541tcggctcact gcaagctctg cctcccgggt tcacgccatt ctcctgcctc agcctcccaa63601gtagctggga ctacaggtgc ctgccaccac gcctggctaa tttttttata tttttttagt63661agagctgggg tttcaccatg ttagccagga tggtcttgat ctcctgacct catgatctgc63721ccgcctcagc ttcccaaagt gctgggatta caggcgtaag ccactgcacc cggccaggat63781tttttttttt tttttttgag acagggtctc actctgttgc ccagcctgga gtgccatggc63841tcagtcatag cttactgcct caacctcccg gctcaagcga tcctcccacc ccagcctccc63901gagtagctgg gactacatgt gcgcaccacc acacctggct aatttttttt tttttttttt63961tttgaggtgg agtttcgctc tctttgccca ggctggagtg caatggtatg atctcggctc64021aatgcaacct ctgcctccca ggttcaagtg attctcctgc ctcagcctcc caagtagctg64081ggattacagg tgcccaccat cacgcccagc taattttgta tttttagtag agatggggtt64141ttgccatgct ggccaggctg gtcttgaact cctgacctca ggtgatccac ctatctcggc64201ctccctaagt gctgggatta caggtgtgag ccaccgcacc tggccatatt tttttttttt64261tttttttttt ttgtagagac gaggttcacc atgtggccca ggctggtctc aaactcctaa64321gctcaagcaa tctgcctgcc ttggcttccc aaaatgctgg gactacaggc atatgccact64381gcaccagacc aggaattagg gttgaaagag acagaacctg aagttttctg ctgaccacct64441gcccttggtc acacccccac atcctctgat cacagagacc ggtgcttggg gatcatgtcc64501ctcctggcct aaaactttcc aaagggtttt cacactcaga ataaaatcca aactccttca64561cttagtcttg cagttccccc atccccctca ttcattcctt tgttttcctt tgtaattttt64621ttcttagaga tggagtcccg ctctgttgcc caggctggac tgcagtggcg tgatctcggc64681tcactacaag ctccgcttcc cggattcacg ccattctcct gcctccgcct cccagagcag64741ctgggactac aggcgcctgc caccatgcct ggctaatttt gtttttgtat ttttagtaga64801gacagggttt caccatgtta gccaggatgg tcttgatctc ctgacctcgt gatccgctcg64861cctcagcctc ccaaagtgct gggattacag gcgtgagcca ccacaccttg ccaggccact64921tacctctact agcccggcac agtggctcat gtctgtaatc ccagcacttt gggaggccaa64981ggcaggcaga tcaactgtgg tcaggagttt gagaccaccc tggccaacat ggcgaaaccc65041catctctatt aaaaatacaa aaacttagcc gggcatggtg gcagttgcct gtaatcccag65101ctactcggga ggctaaggca ggagaatcac ttgaaccctg gaggtagagg ttgcagtaag65161ccaagatcat gccattgcag tccagcctgg gtgatagagc gagactctgt ctcagataaa65221taaatgaaca aataaatcta tctcacattc caatccctgt cctagactat tggctgctgg65281attccagaac agaactttag gtaggccttt cataacccct cccaacatat cttccccttt65341aatgataaaa tcaggatccc tgatatattc atcccaaaag caaaccctat atattttctt65401ccagacaacc cttcccaagt tggtcataat tatgtattta cctgtgggat tattgtccct65461attagaccga aatggatgtg agatgacaga ggccttattt gttttgtata ttgctgcctg65521acgcgcagta ggtattcata gaaaggcagc acagattagt ggctacaatg gactggtgag65581tctagtattg tcactcactt gcccttagac caggtctact taacctgggg tttagttgcc65641tcatctataa tagggaataa cagtctctac tactcaagtt gtcatgaaga ttcagtcagt65701gaatatttat taacatggtt aaagacatat atatatatat atatatattt tttttttttt65761tttttttttt tttttttttt gagacagtct cactctgtcg cccaggctgg agtgcagtgg65821cgtgatcttg gctcactgca agctccacct cccgggttca tgccattctc ctgcctcagc65881ctcccgagta gctgggacta caggcgccca ccaccacgcc cacctaattt tttgtatttt65941tattagagac ggggtttcac cattttagcc aggatggtct ctatctcctg acctcgtgat66001ccgcccgcct cggcctccca aagtgctggg attacaggcg tgagccaccg cgcctggcct66061tttttttttg tttgtttgag acagagtccc gctctgtcat gcagcctgga gtgcagtggt66121gccatcttgg ctcactgcaa cctctgcctc ccaagttcaa gtgattcttg tgcctcagcc66181tcccaagtag ctgggattat atgcatgtgc caccacgccc agctaatttt tgtgtttctt66241gtagagacag ggtttcgcca tgttggccag actagtctca aactcctgtc ctcaagtgag66301tcgcctgcct cggcctccca aagtgttggg attacaggca tgagccactg Ygcctggaca66361agaaatttct attattattt ttctctcaac aaattatcaa acatctgtta catcttgaca66421ggcaacagat aagcatgaat aaggacatgg gtcaccaatc tcactggggg acagatgaca66481aagtaggaaa caaaacagcc tggcattgtg gcttgtgcct ataatcccag ctacttggga66541ggctgaggtg ggaggatcac ttgaacccag gagttcaagg ctgcagtgag gtatgattgc66601atcatggcac tccagcattg gcgacacagc aaggctccgt ctcttgaaaa aaaaaaagtg66661agaagtgcta tatatcatat cacactgata agacagagta actagggcat gggtacttca66721gctgggctga ggggaatggg attgttaggg acatgacatt tacactgagg tctgaaggat66781gagaaagagc cagaatgttt gctgggaaag cacttcagac agagggaaca gcaaatgtaa66841aggccccgaa gcaggaatga gcttggttgt ttgaggaacc acaagaaagc cagtgtgggc66901tgggcgcggt ggctcatgcc tgtaatccca gcattttggg aggctgaggc gggtggatca66961cctttcagga gtttgagacc agcctggcca atgtggtgaa accccgtctc tactaaaaat67021acaaaaatta gctgggcttg gtggtgggcg cctgtaatcc cagctagtct ggaggctggg67081gcaggagaaa cgcttgaacc cgggaggtgg aggttgcagt gagctgaggt gcagtaagcc67141attgcactcc agcctgggca acaagagtga aactccatct caaaacaaca acaacaaaaa67201gaaagccaat gtggctagaa tacagggagg aagggggaag agaacacaaa atcctgggag67261ccaggagtcc tagtgatctc taataaatgc ttaacaaata agagcttggc aacagatgag67321gccatggtga ggggtttgga ttttagtcca tatttggtgg gaaaaagacg tgaagagaca67381cacctRattt gtggKttttt tttttttttt ttttggacaa atgtataagg acctccttaa67441ttccctctgc ccggttccta ccttccaggt ccaccccgtg gcgctgggcc aggtgaagaa67501cattgtcccc gactctgcca ctcactggga tccgctggcc tgagcggtct acgaacacca67561cgttcaccct ggggacagat ggaagtgcga atgccgaact ggatgatggg ctcagggccc67621gggtagaatc tagggttagg aagtaggaat tgaggcttga cgcacaggta ctgaataggg67681caaagcagaa gggggacctc gagatgaagc tacagggcaa gatggggacc agaggaattc67741cgtgggatga ggaatggggg acttggcccc ctgcactcac acgtccccgg gccgctccgg67801gccgcccgcg tcctcctctc cMgccgggcg cgagcctgga aaacacggtt cggtgagcgg67861ctgcgccgag ccccgccccg ccggcatctg acggattaac gctgcccgcc ccgggcgccc67921caggtacctg tcgcttgaaa ctttctggtt gtccccagcg ccaccccctc ccccgacccg67981gaagtgcccc caggtctgtt ccaccaggtg cccctggcag cctgcagYag aaccctggca68041ctcacgcctc cccgggccat ggaggcggcc atgacatgca tcacgtgact caccgactga68101gcatgcgccg cgccagggag gcgagggaaa gcccataatc aatggaacat aagcgcagat68161gtttgcttag ggcctgcggt gaccaggtgg gaagagcagg gcggaatcca tctcaggtaa68221acccgcgggg ccatcccaga cctcccactc aagcccactg tttgtcccaa gaaccagcca68281actctgattt ctttaaaacc atttacttac aaactttaat tcagcaaagg tccgtgtggg68341gagactgggg tggggtcggg ggaatagtcc ccttggagtg gatgtggacc cccagagtca68401agggagggaa gctggtggcc cagttggctg ggggcaaggc ccagggtcac ctcaggtcga68461caggtcctgc tggtgggcgg gcccagagtt tatcttcatg gagtgctggt ttctggcact68521gggctggaag gaggccagct ccagggatct ggccgggggt gggcaggcag aattcaagaa68581ttcatcttca acaagcgagt gacagcagag gctccgggag atgggcacaa tgtccgactc68641ccacaKacag acagcagggg actggcagag aaagcccatc tctgcacgga ggcccgggta68701ggagggggtg gtggggccgg ttcgccaaga tgaaggcttt ccccttctac tgtccccagg68761gtggagatcc tgggtagggt ggcccaatcc ctaggccaga gctgtttggt ccatagtcaa68821gctcccagag cttggcatct gtggctctgg ccagcagggc ctggggccca gcttttaagg68881catcagaagg ggagggggct gcggcaggga ccccgggccc cacggctggg gtataggcca68941gatgggcagg caggggcagg agacagccat gcctgcagca aatgtgggaa aaacagctgt69001ttcaaaccgc aaggtgtgga atggtggccc ggacaggccg ggccttgaag gaatcagagc69061tgggggctgt ccggggtggt ttgaaaaata aaacttagaa aaggaaacag aagtcagttg69121tcaaagttaa aaaaaaagga gacagtctct gtatcttcac gggaggtcag ggaaacctcc69181aaggcactcg aaaggccaaa attacaggag caatgaggca ggagggctcc ggagagacgg69241gcacagcgga ggaggagatg gggggaggga gggagagcag gccggggccc ctctctctta69301aggctgcagg gtttcagcgt ggggagcaag ccagagacat aatgaggcct ccagactccc69361ccacacccct tgggctcctg gggctccggc tgattggtca gtaaagtctt tcagagattt69421ttctattacc gaaagagaga aaatggttta aaaaaaacac aaaacaaaac atcagaaaac69481ccaaaagcga tttggtgcag gcccttgagt tatctctggt gccagccact tagaaaatcc69541tcttccgctt caggtaggag tccgcgtagt ggccgccgag gccctgggag tgctggccca69601catagctgcc ttctgggctg ggctcgggcg agggcagcag gtgggcaaag ctgcgtttct69661ggccgcccag tggggtctgg agacagaggg cagggcgggg cgggtcaggg gccgctgggg69721ggccggggct tcccagccct gcatgtcccc accccctgcc cgtaccttca gcaggtggct69781gtgaccatta ggcccggggc tgaggcccag gagcccttct ccggacccca gcggggaaga69841gccgattgcc tgggagaaat ggagaggtgg aacaggtcac tccctggggg ccagaggaag69901cacccacccc gcccccctgc cactgccccc cagccctgag ggaaagcgaa cagtttcagg69961ttcaaatctt gcttctgcta ctttctagct ataagaccta gggccaattg ctccatttta70021tttgagcctc ggttttctca tctgtcagat ggggccagta gcacccacag cctgggctgt70081agagagagga agtgacagaa agcccggaat gctggcagtg ctaggtgctt gatgcagagt70141ggatggagga caataggctg ttgctactcc accctgagca agaccaaccc ctgccaccac70201cccagctttg gcctgggcac cgagggttac agagccccgg tggcaggcac ccccaaatcc70261tagctgtccc agggggcctg tgcttggcca gagaggttcc tcaccttact gaggtggctc70321tgcttgaggc cagcctgcag gccgctggtg aagtaggaag tgggcgagcc tgaatagaag70381tgagacaggg ggcccccgcc actcccaccg ctgctccgtt cgccgaagcc actgggcggg70441ggggacatct gtagaagaag ggccggtgga gtgaagcaga caattgtagt acccagccct70501ttgtatacaa tcttccctcY gcctcccagg ttcaagcgat tctcctgcct cagcctcccg70561agtagctggg attacaggca tgcgccacca tgcccagcta attttttgta tttttagtag70621agacggggtt tctccatgtt ggtcagactg gtctcacact cacgacctca ggtgatccgc70681ccacctcggc ctcccaaagt gctgggatta caggcgtgag ccaccatgcc cggcagttct70741gggctttgca aagactagct ttggctaata ggactgagga gagctggcac gtgggtaccc70801gcctcctctt cctcctccag gaacccaggg atcatcaccg cacgaatggg cacacagaaa70861ctgttccagc ctgtggacgc caaatatgtg aggccacata gctcactgag acccaggtga70921gtgccgggga ccgcccactg ccccatagag tggcaagaag taataMaatg cctggcatgg70981tatggtggct catgcctgtg atcctagcac tttgggaggc caaagtggga ggattgcttg71041agcccaggag tttgaggcca cagtgagcta tcatggagcc actgcactcc agcctgggca71101acacagtgag atcctgtctt aaaaaaaccc acaaagaaca cacaaaatac aaggtctgct71161gttccaggct actaagtcat ggcacagcct gtcatgtagt aaaagctgat tgctacacat71221gccataccag gtggctctta ccttgtgtcg gctgggtccg tgaggcccaa gggctggttc71281ccgtgggtgg gagaagagcc gccgaggtcc catgtcctga atgaaagcgg gagaagcaca71341ttgggttgga gtctgtccca gcctcacccc tggctgaact ccatggcaga gctgtcatca71401gggaagacag tccccaccac tctgggacca ggaagaggca aatttggggc tggatgcagc71461ttggcaggga tggctgctgt gaaggggggt gccccccatg ggcctaagtg tttggagttt71521cccaggcaag ctgggaattc gagctgtgtg gactcttgca gttttcctgt gttggcgtta71581gttcctgttg ttatttgttt gaaacacaga gggggccaaa catcacccag gtgacctgtg71641ggcggccagt ttgcaatttc tttctttttt ttttttaaac ggagttttgc tcttgttgcc71701caggctggag tgtaatggca caatcttggc tcaccacaac ctccgcctcc caggttcaag71761tgattctcct gcctcagcct ccctagtaac tgggattaca ggcatgtcta ccacacctgg71821ctaattttgt atttttagta taaaacataa attatatttt atattatata tgaaatatat71881attttattat atattttata atatataatt tctccatgtt ggtcaggctg gtcttgaact71941cttgacctca ggtgatctgc ccgcctcggc ctcccaaagt gctgggatta taggcatgag72001ccaccgtgcc tggcccagtt tgcaatttct gacctgccaa ggaggttggc atcatagaag72061gaccaaatct ccaggggcac agacaggaat caaaggtggg agagagggat agaaagggca72121agccctgtct ctggggagag acagtgtggc ctaagtcctc ttgggagaga aagacagacg72181caggatgaca gacagactga gacccaagat cctccagggc tcgagaatgg acagacaggc72241aggtggaccg gaagcagggg gtgatgtgca gacagacggg aaactttaag ggcatgaggc72301tgggcgcggt ggctcttgcc tgtaatccca gtactttggg aggctgaggc gggtggctca72361cttgaggtca ggagtttgag accagcctgg acaacacaat gagactccgt ctctaccaca72421aatttaaaaa ttagctgggc atggaggtgc Rtgcctgtgg tcccagctcc tcaggagact72481gaggtgtgag gatcgcttga gcccaagagg ttgaggctgc agtgagctat gatcgcacca72541ctgcactcca gccagggcag cagagggaga ccctgtctct aaaaaaaaaa aaaaaaaaaa72601gcagagacca tatctggcac gttccctgcc gcctccctag cacatggcct ggcatagtca72661atcctagaga aatatcagtt tggagaatga tttggcctta ggggacagag agctgcagcc72721aggcactcac cgaggggtag tcgaagctgt agctgtcaga cagtcctggt tcggggggca72781ggcgggcgct gctgaggggg ctgagcaggc gggacttgag ctggaaggct ttgctgctgc72841tgctgccacc tccaggggct ggggggttag ttggggggcc ctcagctggg cggcggcttc72901tcccggcgcc tccccagccc cgggcctcct tacccgccag gttgctggcc gggagcaggc72961tgtgtaggtt caggtaggga ttcaggggaa tccggtagtc cttggggggc tcccccagca73021gtgagacctg tggcgggaag gcaggattcg agagggcccc cgggagaggg aaccctgcgg73081aacaggaggc tggtgtggtg ccgcgcgcag ggcagggcct taccccaggg ggcgtcggca73141gaggcccact gtctttctgg aggcctctga ggccagagcc tcggagcccc acaggggcKg73201ggggaggagt gagctgggcc gctgggggac ccaagcccag ggcctcccgg tcacccccag73261cagggccaag cacggatggc agcaggggtg gtggcttccc tcgccggggc ggcagctccg73321ggggcaggcc ccctcctagg gagggaagga ggatttcagg ggcccaggct cacaggaccc73381ctctccccag ggccctccag ctcccacctg gaccagggcc caggggtcaa gagacaaatc73441catgctggcc actgagcaga gctcatccct gggccctgag tggagggcac ccaactgatg73501gacaagggcg ctgggaccca gaggttgggt cactcacccg aggccacgta gcagggaagg73561aaggggaagt ggctggggga caccgtgtgg gcagggtctg cgttacctgc aggcagctcc73621ccgaggaggg ggttggctgg ctgggcccca ggctggaggg cgcccagggg tgagtctccc73681aggatgccgg gcttctaggg acagagcaca gacagttgca gatgggggca gggtggccca73741gggaagcaga caggtgtggc ccagagtctt ggcagacaca ccccaactcc agggcacggc73801cgatcctggg cagacaggca cagggttccc cagtgcccgc cacactccaa ctctatcact73861gtcccatcag ccatggtgac cgagggtctc ctgagctcca ggccccagtt ccctggccaa73921tgattgcagc acagtatcaa ctgcagccac atggaatggg acagccacac agtgtttcag73981ccacttttag tcacagaagg ccagacccac aggctcacat attctgtcag ttaccaccag74041acagacacac ctgacttaga atccagggaa ccacaccaga caggacggag catgggtgta74101tgtctatgtg tgtgtgtgtc tgtgtgtgtg tgtgcgtgta tatctgtgtc tttgtttctg74161tgtgcatgag tctgtcttgt gtctatatgt gtgtctgtgt ctatgtgtgt gtctttgtct74221tatgtctttg tgtgtctatg tctctgtgtg tatatttgca tctttgtatg tgtgagtcta74281tatgtatacc tgtgtttcta ggtgtgcgtg tgtgtgtgYg cacacactga ggggatagac74341ctggagtttt ttcccaggca tgtctataga gcttccgagc agagtctatt cacaaactgg74401tgcccagcag cggcgctccc agcccacacc cagtttcagg ctgtaaatgg gcgtgtccag74461gtcccctgac cccaccccag gcaccaagtc caggggcgct ctcagaatgg agggaaagat74521ggcgaaccat catgagcaat tgccagaggg ggatggggat gtgggtggga aaggcagggg74581tttgggggag tcgccctcac cctggttctg cgcccccagg gcacagccag aggtcccccc74641accccaccga tcgcaccagc tgtgttgaaa agagcctgta ggggctgtag agcagtgggt74701gagggggatg cgtgtgttac cttctggccc tgggtctgca gggcgagctg caacagcgcc74761gtggacaggg ctggcccatt gagcagcggc atggctgggg gggcacccag gaggcctgga74821gggagacata ggaggatgtg tgggggtccc tgtgtcctcc ctgccccacc tcacgaaaca74881cagccctgaa cccattgatg gggcaggaaa ctgacactct ggggccgggg ggtgggcagt74941ggacttgccc aaaggaaggg cctagaaggg gcagaggcta ctccagtgaa ggtcagcccc75001ctcttgtcag caccccacct cactgcaggc tgctgtgtgg ccctggtccc ggcccccagt75061tgtggacagc agcagccccc gctatgactc catactcccc ctcggcccta ctcctggggc75121tcctgtcact gcagccaaga tgagcagttt cgggaagtgc cgggggcagc gctgcagccc75181ctgttctgca cagtggggcc cctgtccagc cccaccttac cctgcttccc ccccgcactg75241ccatggagca gggggttgag cagcagctgg agggacgcgg atgggcccag gttgttgagc75301agctgcagga tgttgggctc ggggaggagt cccttccccc gattgagggc ctgcaggaag75361gaacagaagc agctcagagt gccgctgggg ccctgacatc cccatggggc tcccatcccc75421accccgccac ctctgcccgc acaggctcac cgtggcctgg gcagcgatga gagcggccag75481catactgcgg ccggggggcc caggggcgca gaaggagact cgcaggtggc tgccccccag75541ggacaggccg tccgcctgct gctgtgcctc ctccgccatc tcagccgtct catactccag75601caccgcgaag cccttcagct gcccatcctg gccgcacgcc agctgccgga ggaaggcagg75661cagtcatgag catctgggca gcagtgactg caccaccccg ggaagtgaca accgtaacca75721gactcagctg ccccataagg gtgaactcca cgccaggcct ccactgccct gtgcctcatt75781cctgcatcag ctcatctgat tttcccaatg accctgggag gctgcatcat acccatttct75841cagagaaggc aactgaggca cggagaggtc agcgcaccca aggccacaca gctggaggga75901gggcggagct gggagccacc tcaccaacaa agccaaggcc acgggcggat gcggtggctc75961acacctgtaa tcccagcact ttgggaggcc gaggcgggca gataacctga ggtcgggagt76021tcgagaccag cctgaccaac atggagaaac cccgtctcta ctaaaaatac aaaattagcc76081aggcgtggtg gcacatgcct gtattcccag ctacttggga ggctgaggca gaggcaagag76141agtcacttga acctgtgagg cagaggttgc ggtgggccga gatcgcgcca ctgcactcca76201gcctgggcaa caagagcaaa actccatctc aaaaaaaaaa aaaaaaaaga gataatcagc76261aacgggtggg gaaggaaggg ctctcgttcc agacagtggc caagccaggt agcagtgcta76321agggaagtgg ttgggctggg caccggcact tgctgaatgc ccgggcagca aaggtgcagg76381tagcagccct tcacctctgc ccacgccctg tgccaaggtc tgggcacaga tctcccataa76441ccaaacctgt cggcttttgt tttgttttgt tttttttgag acagagtctt gctctgtcac76501cccggagtgc agtgatgtga acttagctta ccgtaacctc cacctcctgg gttcaagtga76561ttctcctgcc tcagcctcct ggtagctggg attacaggtg tgcaccacca cgcccagcta76621atttttgtat ttttagtaga aatgaggttt caccatgtcg gcaaggctgg tcttgaactc76681ctgacctcaa gcgatccgcc tgccttggcc tcccaaagtg ctggattaca ggcgtgagcc76741actgtgcccg gccataaaca cacccatctt agggatgaac agagagagac tcagaggggt76801cacagagtga tcaaggccac acaattccta agtcgaggga ctgatgtgtg aacctcaagc76861tgcttcactg tcaagcccac cctccattca gcYgggtcac ctaacattaa aggtgggctc76921ctcggaggac atcacttcaa cgcctgctac tcatcagatg ctcaacaaat gtttggtgag76981accaggccca gtggctcgaa tctataatcc cagctctttg ggaggcaaag gcaggaggat77041cgtttgagca caggagtttc agaccagcct gggcaacata gggagacccc atcttcacat77101aatttttttt ttttttgagg gagtctcgct ctgttgccca ggctggagtg cggtggcatg77161atcttggctc actgcaacct ccacctccct ggttcaatca attctcctgc ctcagcttcc77221cgagtagctg ggattaaagg cacctaccac cacgcctggc taattttttt tctattttta77281atagagacag ggtttttgtt ttttgttttg ttttttttga gacggagtct cgctctgcca77341cccagactgg aatgcagtag tgggatcttg gctcaccaca acctctgtct cccaggttca77401ggtgattctt ctgcctcagc ctcccaaata gctgggacca caggcacatg ccaccacacc77461cagctaattt ttttttttgt atttttaatg gagatagggt ttcaccatgt tagccaggat77521ggcctcgatc tccagacctc gtgatgcacc cacctcggcc tcccaaagtg ctgggattac77581aggcgtgagc caccgtgcca tgagacaggg ttttaccatg ttggccaggc tggtttcgaa77641ctcctgacct caagtgatct gcccgccgca gcctcccaaa gtgctgggat tacaggcatg77701agccactgtg cccggcctct acataaaatt ttaaaaatca gctgggcatg gtgaYgcatt77761cctgtagttc cccagctaca tgggaggcca aggtaggagg atttcttgaa cccaggaggt77821cgaggccgga gtgtactcct ccagcctggg tgattgagaa cctgtctcaa aaaaaaaaaa77881aattaagttt agtgaatgtt cgagtggagg aatgaatggg cagctgttca caacaacctg77941atcatgaagc actgccagcc ccattttgag atgtggaaac aggctaggag agtacctgta78001gctggtcatg accctgtgac ctttgatctc cacataagaa ggtaaggcca ggccagcgca78061gtggctcaca cctgtaatct cagcacttgg ggaggccgag gcaggtgtat cacctgaagt78121caggagttca agaccagcct ggccaacacg gcgaaacccc atctctatta aaaacacaaa78181aattagctgg gtgtggtgtc aggcgctgtc atcccagcta ctcgggaggc tgaagctgga78241gaatcacttg aacccaggag gcggaggatg cagtgagcca agatcgcgcc cctgcactcc78301agactgggtg acagagcaag actctgtctt aaaaaaatat aaaataaaat aaaagaaagg78361tgaggccatt gtgctaactc atcttctgtc ctgagcccgc acaggcggcc tggtacatag78421caggcctggt acgtagcagg tgtccaagag aaagcagcag aatggatgaa tgataagtaa78481acagagaggg ggttcccgtg gctcatggat actcagtttt tgtttttttt gtttctttga78541gacggagtct cgctctgtcg cccaggctgg agtgcagcgg cacgatctcc actaaccgca78601accgcagtct tctgggttca agcaattctc ctgtctcagc ctcctgagta gctgagatta78661caggcgcgtg gcgccatgcc tggctacctt tttttttttg ttgtattttt agtagagacg78721ggatttctcc atgtttgtca ggctggtctc aaactcctga cctcaggtga tccgtccgtc78781tcggcctcca aagagctggc attacaagcg tgagccactg cgcctggcct gttttttttt78841tttttttttt ttctgttttt gagatgcagt gttgctttgt cacccaggct ggagtacagt78901ggcgtgatct cagctcactg caacctccac ctcccaggta caagcgattc tcctgcctca78961gcctcctgag tagctgggat tacaggcctg caccaccaca cctggctaat tttttttgta79021tttttagtag agacagggtt tcaccatgtt ggccaggctg gtcttgaact cttgacctca79081agtgatccac ctgcctcggc ctctcaaagt gctgggatta catgcatgag ccacctcacc79141cagcctgttt cttgttttaa atatagagat ggtgtcccac tatcttgccc aggctagtct79201tgaactcctg gtctcgagtg atcctcctgc ctctgcctcc caacagacac ctagtttaaa79261tggggcacca ataccccact tacacgagag ggacccactc aagcccacag agctgggggt79321ccgagcccag gactgtctct ctgtttttga gatRagggtc tagctctgtt gctcaggctg79381tagtgtcatg gtgctgtggt gcgatcatgg ctcactgcag cctcggactc ccagaatcag79441gcaatcctcc cacctcagcc tcctgagtag ctgggactac aggcacacca tcatacctat79501ctaatttttg tatagagagg atttcaccat attgcccagg ctggtctcga actcctgggc79561tcgagggatc cgcccgcctc agcctcccaa agtgttaggg ttacaggtgt gagtcactgc79621acctggccag gcctacccct tttaagcctc tgcactggcc tccgctcact ggcccaagct79681ctggagctag gctgcggtgt tctgatccca gctctgccag accctggctg tttaactcta79741ggcaagttac ttgacccctc tgtgccttgg tatcctcacc tgaaaatggg agtgatacct79801gcctctcagg gttgctacag gatgaagcaa ctgaaggtta cgtactcaga gtccacagcg79861agtgctgggg gaatgtcccc tttgggatct ctggggatca agaccttctg ggggctctta79921gagagtgagt ctggcctgtt ctcgccccac tgcacctgtt acagggcgag gcacacacac79981agaagtgcct ggcatgtgtg gcttgaatga acaagggact gttttgccaa cccattgtgc80041aagtattgag tccctgctta tggaggaggg aaactgcaga tcagagagcc agtgactggc80101ccgagctcga gggcggggct gggatctggc aaagcctcag tctctgacct caaggctcaa80161atagactgtg ggctcctctg cagcctcctc aatgcctggt ccaggtctgg gaccccatgg80221gaggtttgac gagggtacca gcgaatgagg aggtgagtgg tgagcaagcc tcgagatcca80281tagttacaag agtggccttg catgcatctg atagagggac agtgaggcct gaggctgcag80341agggattcaa atcccctggc caggtgtggt ggctcacgca tgtaatccca gcactttggg80401aggatcacct gaggccagga gttcaagact atcctggcca acatggcaaa accccatctc80461tactaaaaat ataaaaatta tccaggcatg ggggcggggc gcctataatc ccagctactc80521tggaggttaa ggcaagagaa ttgcttgaac caaagaggcg gaggttgcag tgaactgaga80581ttgtatcact gcactccagc atgggtgaca aagtgagact gtctcaaaaa aaaaaaagaa80641aaggcagatg actccaaaga ctctctcagg tgctccgggc ctggcacctg ctccccaatg80701ctctccacag ggctcacctg gcagaaggtg gggctgtgga cagctgacag cgcccggcac80761agagcgtcca catcgttgaa gccaggtggc aggcggtcca cacagaggca gcgggagtgg80821agaagggcag gcgtcagttg cccggcatcc gtccagtgca cgtagagggt gcgtggtccc80881agcggcttgc ccagcaggtc Ygacttggca cgggcagccg agtccttctt catgtactcR80941gcaaagccat agcccttgga ttggccagtg cgctcactgt agaccaggaa gcagcgctcc81001aggctgccga agggccgcac cagctcctcg aactgctgct gtgtgaggct ggggggcagg81061ttggccacac acagcagggc atccgtgggc tgcagctgca ccgacagttc Rcgctcccgc81121aggcggctct ggtggaaagc attgattgcg gcctcggcct gctccccatt cagcagggtc81181acgaaggctg cggtgggagg agggcagtgc gaggtcagcc gggccctgag ggcctgcccc81241tccaccccgc caccctgcaa accaggtggg acctccaaat gctgggcatc tcaggtgcct81301gctgatctga gcagttgcca gccttggcga ctcacacagg cgagagcgcc tgccattgac81361tctaggctcc acgaagccca ctccctctcc cagccctgcg tccacctgca cccacagcag81421cgctcaccaa ctgtgggcct ggctctgtcc taagaacgct gtgggtcact cgggtgatac81481caagggcagt ggttaagccc atgctcactg gggcccagat ttaagcccca agccccaggt81541ggctttgggg gtatcagttt cctcatctct caaatggata taacttaatc atcacaatca81601ccattttgcc agagaggaaa cgggcccaga gcagcacccc tgtgccccga gtaggggagc81661ctggacttga acccaggcag ccggactcca gaggcccact ctacacactg cccacccctg81721ccacctttcc aggccaccag tgcccctgaa ccctgctgcc acgtgctgcc ccagatttgc81781gatccaccca gcggccgcag gaagctttgt tcaaaacgat cacgccacat ccatcttgtg81841gcttctagct gcagggtgca gtgcagcctg tgcgggctcg ctgacctccc ctcccatctc81901accgctgcca cccggaccac gccaggcaca ctccagaggg gcctttgcag ctgctgtttc81961ttgagcatgg aacactgagc cccacctcct cacctggtta acctggaccc acccaggtag82021aaaccctgtc tctactaaaa atacaaaaat tagccgggca tggtggcaca tgcctgtaat82081cccagctact cgggaggctg aagcagggga atgggctgaa cccaggaggc ggaggttgca82141gcgagccgag ctcgcgccac tgcactccag cctggcgaca gagcaagact ccatctcaaa82201aaaaaaaaaa aaaagaccac acaagcaggg gtgactggct gagtgaggca agaggggtaa82261gaagagaatg aacccacggc caaacgttgt caagaattag ctcaatgcca agcgagtgga82321gtaggaagag aatcagcccg atgcccagtg ttctccaagg agaacatgaa ggctgtccca82381agatgacagg atgacaggca gattggggca acctgccatg ttggcctggg gggcaatact82441gggcctgaag ctcagagcag cagacagtga gccaggccct cccatcttca gggatggtca82501ctccctgccc tggcccRccc catggcccca caaacctgtc cctttgtatt tgtccacaaa82561acagtatttg agctcatagt cactgagcag gtcatgtact tcctgtggag atacaagaca82621aaagacaggg agttactgga gatggaaggg ggcaacccag tgccgcttca tagctgccac82681cagctatgaa ggcaggtcaa ttaccacccc ccattttacc aatgaggaaa ctgaggctcg82741atgcagtaat tttgtcaagg tcattctgct catacctggc agagatggga ttcagaacct82801agctgcagac tgtgctatta cccaggcaac atgctcttag agggtatacc tttagctggc82861tgggcggggt ggcYcacgct tataatccca gcattttggg aggccgaggc gggtgaatca82921cctgaggtca ggagttcgag accagcctgg ccaacatggt gaaaccttgt ctctactaaa82981aatacaaaaa ttagccagga gtggtggcgc acacctgtaa tcctagctac tcgggaggct83041gaggtaggag aactgcttgc acccaggagg cagaggttgc agtgtgccac tgcactccag83101cctgggtgac aaagggagac actgtcaaca acaataacaa caaggccggg cgcggtggct83161cacgcctgta atcccagcac tttgggaggc cgaggcgggt ggatcacgag gtcaggagat83221cgagaccatc ctggctaaca aggtgaaacc ccgtctctac taaaaataca aaaaaattag83281ccgggcgcgg tggcaggcgc ctgtattccc agctactcgg gaggctgagg caggagaatg83341gcgtgaaccc gggaagcaga gcttgcagtg agccgagatt gcgccactgc agtccgcagt83401ccagcctggg cgacagagcg agactccgtc tcaaaaaaaa aaaaaaaaaa aaaaaaaaat83461aacaacaaca aaaaaaaaaa aaaaaaaaga ggccgggctc acgcctgtaa ttccagcact83521ttggaggctg aggcaggcgg gtcacaagat caagagatcg agaccatcct ggccaggaag83581gtgaaacccc atctctacta aaaatacaaa aatcagctgg ctgtggtggc gtgcacctgt83641agtcctagct actcgggaga ctgaggcaag acaattgctt gaacccgagg ggtgaaggtt83701gcagtgagca gacatcaagc cactgcactc tagcctggcg acagagtgag actccgtctc83761aaaaaaaaaa aaaaaaaaaa aaagagtatg cctttaggga agccatttaa cctgcatgaa83821cctccttttg caagattcac tgtttccaac aactctgtaa gtgaagtatt aacaaactca83881tgttgtatat gagaaaactt aggctaggag aagtgaagag atctgctgga ggccatgcag83941ttgggcagcg cagccaccca tgggtacctg actggggagc ccaccttcta gtaagcccca84001cgttgtgtgg gttcacatgc ctcccaattt cctcctgctg ataaagctgc cctcttccaa84061gccagctcat ttatttttct tttttttaga gatagtgtct tgttctgtca cctaggctag84121agtgtagtag cacaatcata gctcactgca gcctcaacct cctaggctca agtgatcctc84181ccacctcagc ctcctgcgta gctgggacta caggcacgca ccaccatgcc tggctaattt84241ttaaaaattt tttgtagaga tgagggtttc actataccgc ccaggctagt ctcgaaccct84301tgggctcaat acagcctctt gcctcagcct ctcaaagtgc tgggattaaa gggatgagcc84361accatgccca gcctctcaag ccagctttga aggcaaagtg ctggcgcctg ctgggaccag84421acacactgtg catcttgcag gagagacaat gtgttcccag ctgagagact gcagacactg84481agaggaagac ccagaaagaa acctgaccat ccttaatgat ccctgtcccg atctgtcccc84541aaattcagcc cctcccaaca tccctggggt tccactagcc acgtgcccac ccggtgtgct84601ggtgggccgg agagcaggga atctcagcag caggaagcga gaacctattt caccgccata84661gggcagggca gtatagatgc catttccctg ggtccaaaga gcattgggaa gcgctgcccc84721atgctggccc catgagaagg gcactcctag caggaagatt agccacgagg ggctccatag84781aacacaggcc tcgcttcctt cctgtaggtc tgtaggctgg tggcagaaga ccccattttc84841ccaaattaat cctgaggttt tgggggctga gacccagggg ctgctgttaa cttccggatt84901tatctctgag agcagtgaat aaacgcgtga tatggagggg cgtactctcc gcagtcctga84961aacttctgga tgtgaggYcc cgccaccctg tggtagagtg ggtggagaaa agcatcatcc85021aagcaggggg caactggtgg tccaatgtac cagcccattc acaattcccc aacaggacca85081aagctgtccg cccccttcca ttccccgccc gcttccatca cttggtgtcg cccaagcctg85141tggtcgcccc tagcaacgcc ctccctcact tcgcagtcgg tttccccttt catcatcgcc85201cccccacgtc ccgctcttgg tctctcccga tcccgcgtgg atccggtgct tgggcgcccc85261cgccaacgac ccccgcgcac ctcagcgttg gtgtcgcccg gttccccccg cgcacgcgca85321ccgtggtatt tcccgccacg ctcctacacc gcccccccca atacctggtt ggtcacgtcc85381cccgggaggc cccggatcag tatcttgcgg cggttacgga actggcgctc ggtgtgttcc85441aggcgtttcc ggatctcttc tggatctaga ggcggcagct cttcttccgg cgcccggcgc85501tccgcggcat cgccggcttc gacttcggcc ccagacttag ggctcagcgg gggccggtga85561gtaacggaca cgtccgccgc catcttggga aacccggcgc cttctgggac cagcgagccg85621gggcggagcg gcatagagcg gcaacgaggg cgcgcccgtc gattggctgg gagaaacccc85681acctccttcc cgcccccctt gccccgttgg ctaagcccca gcccacctct caagagttca85741agctgcgtct gcgcgccaca ggccccgccc ccttccgtcg cagcgacgct actcagtgga85801tgtgcacctg ggtgggagag acttgcagcg cgggtggaat caaaccacag attagggagt85861ttgaaggctt tattggtgcg gaatctgagg gcacagccaa gcccccgcca actttgatcc85921cggatcccag cgtcactcag ctctggacgg ttcttccccc attgcttctg tcggctgcat85981agacgtgagg ggcagatagg tgStctcctc cctaacatgg taactgccgc tccgttggtg86041ctccctgaag acgtacatta aggccagtac gatagtcacc acgcccaggg tcagtaacac86101cgccacgaag acggggacaa agtgggagct cccagctgtg cagagaaagc gctaagtcaa86161tatgcgtccc ttctgtctcc aacccccccg ccccccggct taccggtcca gacccgcagc86221cccgtRttag ctcaccctca atgtccatca ccacgaccag ggtgtatttg cctcgtgagc86281tggacgcttg gcactgataa gtaccattat gtgttacgtt gacgaagaac gggatcccca86341ccggcacctc ccggctggag ccttccttca aacaccgcag ctcggggtac gggttgcccc86401tggcttggca ctgcaggacg tgtctcgttt tatctttcca tttcaagtgc tgggggcatg86461tggctcggtc aattttggga ccatctgtgg aaccaccatg tgtgatcaga cacccaacac86521acccgaggca cagtggtgca gaggagcgtc taatctttcc agggcagggg tggagggatt86581aaaggtcagg gtgaccgact cacacaggac tcgcagctgg acgctactgt tcctgtgcaa86641gaactcgccg tccacctcga gagtggcact gcagaagaag ctgcgtccgt cgtcactctc86701ggtagcattt agctgaagtt gagctggctg ccccggggcc gcggccggaa ctccgtccag86761cgtgacctgg actcgagccc cagccatgca actcacggtc actgtggacc cctcatgggc86821ggtgggctcg ctgaggttca caatgggtcc taggaagcct aaaggcgggg cattgcccag86881gagcttaatg aacaggacct tcctgtgggt caagccgctc cctccgccct cccctttcct86941ctcgggatat ccgggccacg ctttcggccg ttcaagcctc gccctctttc cgcgctgtgt87001ccagcttcgg gcactcaggc ccaacccacg ttgcaactgc tattggggca agccaggccc87061caccttttcg gctagtctcc gccccctctg ccacgccccc agactgctga ggccgcgccc87121ccttcccacg cctcctctta ctaaagaccg tcaagttctc ccgggcctcc cgtctctcgc87181cccctagggt cacgttgcag acgatYtccc gggcaccctc ctgatccgcg cgcgccgtgg87241ctgtggctgt ggccgttagc gtgtccccgt ggttcatgac tgtcgcattc agcatctggt87301cccccagcgc caggtagacc tgggcctctg aggctggaaa aagcccgtct agggtgcagt87361ccaccggcca cgacgtttcc acctccaaga accggggggc cacgaggcgc gggggggtca87421cgggcaggac tggggagaaa ggtgggcata gtacaacccc caggactgtg ccttccccag87481gacaccctca tcccccccag tcaggatatc ttgctgactg ggtcaccctt cttcRcagga87541cacacacaca gggccatgaa aacggccttc ttcaaagatc ccacggctcg ggcctccctt87601ccggggccac cttgcccagt ggccgggggc tttccttccc agaagcctgt gaggtccggg87661gtaccccact ctcaggaacc ccaaggtcag ggcaccgtct accctggctc agctcgtcac87721ccaccgtctg aagccccttc tctcaccaaa ggttcggagc tggcgggggg ctgaggtgtt87781cacgaacagt cccagcccct ggggctgcat gtccagttct gtgcggcatg agaaaggggc87841tccgtggtcg tctctgctgg ccagcacagt ggcagtgacc tccgctggct cctccactgc87901gggctgccgg ctcagctcct cctcccagcg aagcagcacc accgtgaggc tggtccgggg87961cgacccaYcc tccacttggc agcgcagggt gaagttctgg cccaccggct gccaaggagg88021caggggtgcc agctccacac gctccgggag ccctgagaga ggaggggagg atggcactta88081gcgggtcctg caaacccacc cactcacccc agggactggg gaggagacag ggtRgtcctg88141ccgagaactg tgagctttga gttaataaac ttagagggct tagagctggg ccagtcgaag88201cgtttgctat tatcattagc gcagtgatta tcatttcctg tgttgtcaga taccttgcaa88261ggcgctaaac aaaactttct gttctcaaag atggcaMaat aaaaaaaaat gaggatggaa88321gggatgaacg tttatgacta tgatatgaat attaaaaatt cctgtttatg gccagacgtg88381gtggctcacg cctgtaatcc cagagctttg ggaggccggg gtgggtggat caaRaggtca88441ggattattca gttctctcca atcaggttca gacactcagg gctttcctgg ttcaccagcc88501ctgtggcagc ctctcaagat actccggcac agtcacagga gacttgacac tcccaggctg88561ggtgccctcc ccagtacacc tacaaaacgc tgggcctcag gccgggcact gtggctcatg88621cctgtaatcc cagcactttg ggaggccaag gtggacggat cacctgagac caggagttca88681agaccagcct tgccaacatg gtgaaacccc atctctacta aaaatacaaa aattagccag88741gcatggtagc acgtgcctgt aatcccagct actcaggagg ctgaggcaca agaatcgctt88801gaacccagga ggcaaaattt gcagtgagct gagatagtgc cactgcactc cagcctggcg88861acagagagag actctatgtc aaaaaaaaaa aaaaaaaaaa aaaggctggg caaggtgact88921catgcctgta atcccaccac tttgggaggc cgagggaggc ggatcacttg aggtcaggag88981tttgagacca acctggccca tatggcaaaa ccctgtctct actaaaaata caaaaattag89041ccgggcatgg tgtcacacgc ctgtaatccc agctactaag gaggctaaga caggagaatc89101acttgaaccc aggaggcgga ggttgcaatg agctgacatc gcgccattgt actccagcat89161gggggacaat agcaagactg cgtctcaaag aaaagaaaag tcaaaaagta ggccaggcat89221ggtggctcac gcttataatc ccagcacttt gggaggccaa ggcgggcaga tcatttgagg89281ccaggagttt gagaccagcc tgggcaacat ggtgaaatcc tgtccctact aaaaatacaa89341aaattagctg ggcgtgttgg catgcgcctg taatcccagc tactcaggag gctgaggcag89401gagaatcgct tgaacccgga aggcagaggt tgcagtgagc caagattgcg ccactgcact89461ctagcctggg ggacagagtg agactctgtc tcaaaaaaaa aaaaaaagaa aagaaaagaa89521aaaaaaaagt agccaggcct gcaatcccag ctactggaga gactgaagtg ggaggattgc89581ctgagcccag gagtttgaga ccaacctagg caacataggg agatcctgtc tctaaaataa89641aggtataaaa aagtgtaaat gtaaaacctc catttgccta ctgctgactg aaaggggtac89701cccctttttt gcttaagaga caagggtctt gcttttttgc acaggctgga gtgcagtggt89761gcaattatag ctcactacag ccttgaactc ctgggctcaa gcgattctcc caccttggtc89821ccccaagtag ctgggacttc aggcatgtgc caccatgccc agctaatatt ttttatttat89881ttttgtagag acggggtgtc cctatattgc tctgcctggt cttaaatttc cggactcaag89941caatcctcct gccttggcct cccaaagtgt tgggattatt gttggggcca ggcgcagtgg90001ctcacacttg taatcccagc actttgagag gctgatgtgg gcggaacacc ccgtctctac90061taaaaataca aaacttagct gggcattagc tggacctggg aggcagaggt cgcagtgagc90121cgagattgca ccactgcact ccagcctggg ctacagagta agagacgcca tctcaaaaaa90181aaaaaaaagc ttgttggggc cgggcgcagt ggcccatgcc tgtaatccca gcactttggg90241aggctgaggt gggcggatcg cctgaggtca ggagttcaag accagactgg ccaacatggt90301gaaatgccat ctcaactaaa aatacaaaat ttgctgggtg tggtggcgtg catgtgtaat90361ctcagccact cgggaggctg aggcaggaga atcacttgaa cccaggaggc gaaggttgca90421gtgagccgac atcgtgccac tgcactccag cctaggcaaa aagagcgaaa ctctgtctca90481aaaaaaaaaa aaaaatgctt gttggggccc aagttaattg atttcacaac tgctgccttg90541gcatgagatt gagatgcgtc tctatatctc tgtctctgtc tctgtgtctc tgtctctgtc90601tRtctttgta tctcacacac aaatgtccag gtctgagctc tgggtcagaa ctgtggtcca90661ttctttgcaa actgagggtc cccactctcc tgagccattg gccacttgcc cacaccacta90721cccaagacca gtcccacctc cggacacgtY gactcactgt acacggtgat gttagaggag90781cctgttatct gRgagccatt gcagtacact gagcagagga tccgactgtt gccagtcacg90841ttgctgagat tgaaggctgc ccagcccatg ccactggcca ccagctcctt tgatagggac90901gtctccaagg cgattttctc agagctggga caatcagtac tgcagttcac aaacagggac90961cctccagcag agagcacagg gttctggggc tccacccgca aaaggaactc ctgcccctgg91021acaccttcag gaacatgaag aagtcctggt gtttgtttcc ttgtYcccca acccacgcat91081caacaggccc caccatttaa cacctctctc cttgtgccga gacagaaggg ttcctgcctt91141catggtccag Kgggaaaggt agaatccatc agagaccRgg gagaactcag aaggaggcca91201gaagaggctc tgatccagca taggaggagg tgagtcaggg aaggcttcct ggaagcgggg91261accattgcag cccgaaactg aaggctaagt aggagttagc aagtgaaagg gacaggtgat91321cctggcagag ggaagcacat acgcaaaggg caaatttcag gagttcagat ggagcaggaa91381gcatgagggg tgtgtgtgtg tgtgttaggg gagagggatg gcgtacaagc ctatgctggg91441gcctgaccac ctgaaggctg aactaaggaa ccagaacttt ctcccgagga tacagagtca91501gcggccaggt cgcagtgtgg caggatgtga acagcgttgc gttctattcc tctaccctct91561actgatcccc aaaacgcagc cctctccagc cctccccggc ttgactggtc tcacctgggg91621tcagcagaca gcagaccagc agagtccagc aggccctggg ccacaacacg gatggtacca91681tggtRgccat tctgacagag gaaggtgcct tcctgaggtg cccgaagggc aggcagggga91741aaaggcgggg cctcccactg cgacggaagc acagcggtta agattgcaga agtctgggga91801ctgcaccttg cccaggcctg tgggtggaag gggatgctgt ggcccttggg ggccagggtg91861ggggacccag acggggctct gcaaagtggc cagcactgct gagtctcccc cagggaatgg91921gctggtccca gttgcactgc tggcccccat ttgaattcac aggaaatgct aactaaactg91981gtttcttttg ttctcagcac tgggaagcct gggtgggggg gatgaggcat ctccttctgg92041ctgaacttag gtgggtaggg gaatattctg tccccagaga ggaagttaat ggggaaaact92101gtaggcacca ttgtgtagat gttaaggtgg gatttcgagg aaacattaaa aaacaaaaac92161aaaaacagaa acagaagcag agtcttgcta tgttgccccg actggtcttg aactcctggc92221cttaagatgg cctcctctca tcttgacctc ccaaagtgtt gcgattacag gcgtgagcca92281ccacgcctgg ccacctttga agatcttgag gatacctccc tatctttgaa gatcttgggg92341atcccccatc ccctgcacaa agagctaagg taggtgattt ggggacagct gaKtccctga92401gccactgtct atccaggatt ctacttggtt tttgtttgtt tgttttgaga cagagtctca92461ctctgtcacc caggttggag tgcagtggcg ggatctcggc tcactgcagc ctctgcctcc92521cgggttcaaa cgattttcct gcctcagcct cccgagtagc tgggattaca ggcatgtgcc92581accacgcccg gctaattttt


Following is an ICAM genomic nucleotide sequence that includes the ICAM SNP “ICAM-AA” (SEQ ID NO:).

CCGTACCCTAGTTCGTTCTCAGCACCCCGAGGATTCGGGCAGATAAGGGGCGGGCCTTGACCGGAGGGAGGGGTATGGTCAGTATACTACGACCAAATGCTCCGCCCCCAGGCTTCCCGGCACCACTCCTGACCCTGAGCGAACCCAGCGTCTCCGAGGGGCAGATGGTGACAGTAACCTGCGCAGCTGGGGCCCAAGCTCTGGTCACACTGGAGGGAGTTCCAGCCGCGGTCCCGGGGCAGCCCGCCCAGCTTCAGCTAAATGCCACCGAGAACGACGACAGACGCAGCTTCTTCTGCGACGCCACCCTCGATGTGGACGGGGAGACCCTGATCAAGAACAGGAGCGCAGAGCTTCGTGTCCTATGTGAGTTGGTGATAACCCCTCGCCCCCCACCTTCTGGTGACTTCCAAGGACCCGCCTGCT [C/T] CCTCACCGTGTCGTGGAGGCGGAGCCATTTCTTACGTCTAAGCCTCTGTAACCCCAC


Following is an ICAM genomic nucleotide sequence that includes the ICAM SNP “ICAM- AB” (SEQ ID NO:).

GGGAAGGAGGCTCTGATAGGAGGCAGGATCCTCTTCTGCCCATCAGAGGCGCGGTGGTCTCCCATCGATCGTTGTGGGCCGGAGCAGGGCATTTGATCAGTGGCTGGGCCGGCGCTAAGCCCCACTTCACCTTCTGTGCCCTTCAGACCGGCCAGTGGTGGCCGAACTTGCTGCCTCGCCCCCTGGAGGCGTGCGCCCAGGAGGAAACTTCACGTTGACCTGCCGCGC [G/A] GAGGCCTGGCCTCCAGCCCAGATCAGCTGGCGCGCGCCCCCGGGGGCCCTCAACATCGGCCTGTCGAGCAACAACAGCACACTGAGCGTGGCAGGCGCCATGGGAAGCCACGGCGGCGAGTACGAGTGCGCAGCCACCAACGCGCACGGGCGCCACGCGCGGCGCATCACGGTGCGCGTGGCCGGTAAGTGGCAGCTGGGGAGAGGCGGGGCGAGGTATCTGAGAGGGGGCGTGACCTGGGTCTTGGGGCGGCCGGCCCCGCCTGCCTCCCTCTCGGTCCCGG


Following is a MAPK10 genomic nucleotide sequence (SEQ ID NO: 2).

>4:87372101-874830501attttcccaa aatactagac agtcatatat aatggaaact gcaaacctcc gaaagtgtgt61ctgcgtgtgg gcaaatagta aaatagcatt gaatacacaa tgtcttcaaa cacagtacac121aagtttgaca gttattctaa ctgctctaaa attcttttta tcagattcac tgctaacatg181catggaaaat atgatgacaa attcgRagat tcctaaaaga gaaaagaagg ctatataata241caatcaatta ttacattgtc ttttttcaca attctgtaat aattgatggt aattcaatag301atatttatct ttatctaact ttatctttaa aactatccca agtttactta ttactgctac361ggttttaaat tgcagcagct gaaatatagt aggacaaatg cataatttgg aataagacta421aatattgcat ttcaccttga tcacatcgtc tctgtgccct gagcaaatag tttaacttct481ctaaccctca attttctcat ctgaaaaaaa aaatgaatcc tctctttcgg actttcaaga541aatttaattt ggaagatata agggaaacat ttgcatctac tacagtgttt ctcaaagtgt601aatgcaccca ggaatcacct ggggattctg attcagaagc tctgcattgg gtgctaaaat661tttcagcttc caggtgatgc cagtgctact attctattat tgctgatgtt atctggaagc721tggtttataa tgcaaaatct catgtcccac ccaatgccta ctgaatttca atcttccttt781taacaggatc tccaggtaat ttttatgaac tttaaaattt gaataacatt gatgtagcag841tagatcttgc ttattgctga tatgcagtcg aaaatattat aagttttgaa tcatcacaag901aaaagtgtgt agaatataaa tgaatataat atgttttttc ctcttcaaaa tctgattttg961aattatattt cccaggtgtc accggaagct aaagagtggc cttgcctcag gtcaggtttc1021tactccctga cagcctctca attagctgct gttgtaatga aattatgcat tgtcaaaagc1081ctttttgcat cattttcttc accaaatctc aagttttaag tattttatat agaaactaca1141taaaatccaa ccctgctctg cccattccag tggctgccag atagctggtt ttctttgtga1201ttttgggctg ttggttttct aggagaggag gagaagatta gagcaagtta aaacgccaca1261gaccttgctg ctcttactga gattcagcca tttttcttaa gtaaacactc tccagattgc1321atcaagccat tagttaattt acagaattcc aaaatagttg attctggaga tttttgctag1381ttgcttatat ggtgaagagg atttttggag gtcttcacta caccattctg gctgatgtcg1441cttaaaatgc cctgaagttt ttgaatggtg aacaaaagtc ttatggattt tcattatctt1501gataYattag agaaaccatg catccacctg attgtattgg gctccattta cagatgccac1561taaaatatct tgatagtttg aggcaattat tagatgagag gtcacagtga cctcctccta1621agaaatattt ctcagaatta aatgtcaaat ttttaataaa cattgtatta tgattaagag1681cccaggtttt taatgaaccc tgggatcaag ccctgggtct ggtccttaac gtgtaacctt1741aatcaagtta cttaaccttt ataatacagt gataataaca gtatgtatgt atagatttat1801ttcaaaattc aattaaatta caaaagcaaa gtgcttgaca cagttcatgg cacaaagtaa1861atgctcaaga tgttttagct tctattgcta ttatcatagt taagaatatg gtttggtact1921gataataata atgaatgttc tcttgaatgt gtttctttaa gagtcacatt gaaatagaaa1981taaataaaaa ctgtctcact catgctactt tatgttctat gcaattctag gcactgtggt2041ggtccagcag ttgatgtcag tgatgattag caaacatgat tgcctctttc ccaaagatgc2101agaactacaa agcaagcccc aagatggagt gagcaacaac aatgaaattc agaagaaagc2161caccatgggg cagttacaga acaaggagaa caataacacc aaggacagcc ctagtaggca2221gtgctcctgg gacaagtctg agtcacccca gagaagcagc atgaacaatg gatcccccac2281agctctatca ggcagcaaaa ccaacagccc aaagaacagt gttcacaagc tagatgtgtc2341tagaagcccc cctctcatgg tcaaaaagaa cccagccttt aataagggta gtgggatagt2401taccaatggg tccttcagca gcagtaatgc agaaggtctt gagaaaaccc aaaccacccc2461caatgggagc ctacaggcca gaaggagctc ttcactgaag gtatctggta ccaaaatggg2521cacgcacagt gtacagaatg gaacggtgcg catgggcatt ttgaacagcg acacactcgg2581gaaccccaca aatgttcgaa acatgagctg gctgccaaat ggctatgtga ccctgaggga2641taacaagcag aaagaacaag ctggagagtt aggccagcac aacagactgt ccacctatga2701taatgtccat caacagttct ccatgatgaa ccttgatgac aagcagagca ttgacagtgc2761tacctggtcc acttcctcct gtgaaatctc cctccctgag aactccaact cctgtcgctc2821ttctaccacc acctgcccag agcaagactt ttttgggggg aactttgagg accctgtttt2881ggatgggccc ccgcaggacg acctttccca ccccagggac tatgaaagca aaagtgacca2941caggagtgtg ggaggtcgaa gtagtcgtgc caccagtagc agtgacaaca gtgagacatt3001tgtgggcaac agcagcagca accacagtgc actgcacagt ttagtttcca gcctgaaaca3061ggaaatgacc aaacagaaga tagagtatga gtccaggata aagaggtaag gaaaatctgg3121aggtcgtaac taccagagag ggctcagtag cctcctactg tgggacagga tcacactgag3181ggtgacatat gctggctcca aagtcaaaga aacacaagtt tgctccatca tttatgagct3241ttgtgactgt gtgcaagtta gcttcatctc tgtgagcttt gattccctaa tgtaaacaat3301ttaaatacta gtagtatcta cctcaaaagc acataagaag tgattgaaca tttccctggt3361acagaatagg ctcaataatg tcatctttga ttattattaa atagatagat ttgcattaga3421gggctggaag gagaggggct gtgaggagat ggacagagca ttaggagcct gttagttttc3481actaacaaga aaaggatgaa actagggtaa aaaaagtaga agtaaataga cctccatgtt3541ttattctttc aatcattgaa tgttgagaga gtgccttcta tctgccaggc tctgttccag3601acgctgagga ttcagatgag ctgagagagg ccataagagc caggtgacat aggggattga3661caggctgatt ttcagccttt gacttttact ctgagataga aatccatgga ggtttttgag3721aagaggggtg acgtgaagta tgttcacatg aataaggaag actgtagcct aaatgaggaa3781aaaagaatat gatttRtaaa gaagcaatta tgctaaaacc taattatatc aatgtgcatc3841ttctcataaa atgatcaaag taggagtagc tcctctagtg ttctcagtcc cagtttcagg3901ctgtgtgatt tggacaaccc ttcctccatg gtgtgctagg atcctcagtY ggttgttaag3961ttggctttaa tttaccttaa tatgtttcct atccattcat caattatcag acaaaaagat4021aacgtacttt cagaagctat ggcaaaataa atattaaaaa atactactta taaatgagat4081tgaaaaatta cttccttgga aagtattttt ttggtaagtt tcactgagtg gaattgtggt4141ttgaattttt ctatataatg gagagtgaca ggagatttaa agaaaaatat agggtcatta4201tcttaaaagg ttactcttct ttctgaatgt agtttttgga accactatgt attggaattc4261tgaattactg ccaatccatg atgataaatt agcatttcac actgggaagc ttatattttg4321aggcaagggg tcacacttta aatgtagtag aaaaagaaaa aagttatcac tatgaatttg4381cagatggata cattcatttc tgaggatgtt gctgatgcat atatgttctg agatctacgg4441tatatttcag agattttgat aaactgatag aacttcccaa tagaggtcat cttaatgggc4501catttcagtg tcacattctt accctcRtga caggccaagg gagagctctg cagtagggtg4561gagggtgggg gaccgctcgt ggcctagcca tgaaattata gaaagttaac tgttctggct4621aaattttgat catttctgtt tagagttatt catttttctt taaattcctt tataacttta4681ccccacaagc attgaaggta gatggatgga tagataggta ggtaggtaaa taggtaggta4741ggtaggtagg tagatgatag atagatagat agatgataga tagatagata gagagataga4801taatagatag atgatagata tagatagata gatagataga tagatagata gatagataga4861taatatttta ctttgtttaa ttatcaataa gatatatgtt taaatcattt ataactttac4921cccacaagta ttgagggtgg atggatggat aggtaggtag gtaaataggt agggaggtag4981gtagacagat agataatatt ttactttaat tatcagtcag tgagatatat ggtttttagt5041tttgaaacat atattctttt tccctctcca aattggtttc taactttttc ttttcttatt5101tttttttatg ttttattttt tgacagagtc tcactctgtt gcccacgctg gagagtgcag5161tgatgcaatc ttggctcact gcaacctctg cctcccaagt tgaagcgatt ctcctgcctc5221agcctcctga gtagcttgga ttacagatgc atgccatcat gactggataa tttttttttt5281tcttgtggag acaggggttt taccatgttg gccaggcagc tcttgagctc ttgacctcaa5341atgatccacc cacctcggcc tcccaaagtg ctggggttac aggcataagc catggcactc5401agctagtttc taacaatttt cttaggaaat attgtattgt ggtcagagaa gttcatctgg5461atgatattaa ttatttggtc tattaaaact attcccttat tactggattg ggattctata5521tatgaccaag agatcaagtc tgttaatcag gctattcaaa gcttctgtat ttcttctcat5581ttttatcagc tatatcaata atttttgaga aagatacttt aaaatttcct atcagtattc5641tgagtttatc agtttctttt tataattttg tcatatttta tattgaacaa tttgaggctc5701tactactagg tgaatagaag tttggagttg ttcatatctc cctgaagaat tgatcctttt5761atcattaatt agtgcctatt tttcattgta ataatgcttt ttacctgaaa ctctattttt5821tctgatatta atattgtcct accatcttcc tttgattagt aacttcctga tatgtctttt5881cctttattta actttcaaac tttgtttgat gatttgatct aacaacttac atctttacaa5941ttctggaata tttttttcat catctttttg tctatttcat cttcccacct tctcaatttt6001ctctttccag aacccttatt aagctatgtt tgaccttgtt aatctatcct ctgtctttgt6061taacttcttt tttccatatt aaatttctat aattatcatt tttgaggcat tctaggtaac6121ttttctcaga cctgttttgt agcttactaa tactctgatg agctaattca attctgatac6181ttccccaggc ccatgattgg agattttgta gtctcttctt cataaaaaca gttaatgttc6241caagctctca gttaaattac ttgtagtttt ctgcctgcct aatactggag gcctcacctt6301ctgtccccat gtgaaaaaga aaaacctaga cccaagctct gtggcctcta tccaagacta6361atatccttcg tgtgcttcta cttattgttc tatatttcgg tttcttcctt ggttctgatg6421gctgaagctg ctgttttatt ttaaccttga tgatgtattt taaaaatata tttcttaaaa6481cttttccagc acttttatat gtttgcattg ggagggattt cttctgtatt caacttagtc6541cttttcattc ctggaagttt cccacaagca cctgatacat acaaatgtgt caatatattg6601ttttgtaagg gttgtccttc tcagtatttt aatttcaatt tcttccaaaa ttttggctct6661aaaatagctt tggaaaacaa agagaatata ttgtagaata attctgagtg gaaaccagca6721tagtaccaac ttttcatgta aaaatgtggt catatgttta aaatagcctt ctaaatgatg6781taggattaca aaatatgaag tattattttt taaaattcta gttgcttaca aagagaagga6841agattaattt ttaagtgttc ttattatctg gatgaaatat caacatgtgg ggatcaaatt6901tttcaaagca gaaacataat tgagatttta atttaaaaac tgttattaaa ataatcagat6961atctgagagc tacacatgca ttaacctttc aaatttcagt ggtatggtaa gtttgaatga7021gtcccatggg acttttgctc agaataggag aaattaaaaa gtcagccgag gccaagatac7081atcttaaata aagatgtaac tttaataccc ctcttttgaa taatatatgt atatgatttg7141gatcttagtg gttatggaga aaacagtctc tgtttttaaa aacgttactg cgaattctac7201aattatccaa aagctataca aaacaactat caatttatag agatataaaa tacctatgcc7261cagagctata ttaataactt gggaagcagt gagaattggg gatggaaagg aatgggcttt7321atttttacaa aatatgagat gcagtgctta tttaacacat gtgatcttta cctctcgtat7381caatgtaagc tcattacttt gggtactctt ttataagatg ggactctata tgctgccaaa7441aaccccattc ttagcagtga acttaaccaa caatgacatt ttcctatcac tatttttcct7501tttatagaag gcaaatgtta ttgccctctt tttttttttt ttttgttaac tatcagactt7561tcctgctgca tttagtgtag tgaacttYac aatttaatgt ccaggaagct ttctgcctcg7621tctgcccggc atgtgttact ggcttatctg tgctggcatt cacttattta ctattaaatg7681acagctgctt ccaagagagg ccttgggacc taatgactaa ggtgacagta aatcatctta7741gcaaacagta aaataataca acaaaattac atcctttaaa tcattgaaag ggctttattc7801caatttccta agcatcataa agagtttaga aaatatttgt atgtctcttg catttcaagt7861gaataaaatc actttatctc ttactcttgc gtccccaccc cccacccccc ccaacatcct7921ttgtagctta gaacagcgaa acttgacttt ggaaacagaa atgatgagcc tccatgatga7981actggatcag gagaggaaaa agttcacaat gatagaaata aaaatgcgaa atgccgagcg8041agcaaaagaa gatgccgaga aaagaaatga catgctacag aaagaaatgg agcagttttt8101ttccacgttt ggagaactga cagtggaacc caggagaacc gagagaggaa acacaatatg8161gattcagtga gcctgctttc gcctgctgtc tctgatggct ctggcaagga ctccagggat8221tctggtggga tatgacttag aaccaggtgg ctggtcacct ggatgtacag aagtctaact8281ggtgaaggaa tatcatttac agacattaaa catccatatc tgcaatgtgt accaaagtta8341tatcatgccc cataatgcta ctgtcaagtg ttacaactgg atatgtgtat atagagtagt8401ttttcaaaag taaactaaaa atgagaagca tatttcaaga attattttat tgcaagtctt8461gtatttaaat gttaaatcaa tWtgttgttg caatttagct tgctttcaag cttcacccct8521tgcacttaac ataagctatt tttggcattg tgttatcatc ggcttatttt atagatcaat8581atttttattt cccttttttg ctgaggaaat gaagataagc aaaaatataa atatatatat8641aaatatatga gttattaaaa tcagaagaat actttgtggc tgtgctgttt gtgccaatag8701actttgtcat gaccaaaaag agaaatgtaa atagttttat aaaatacagt cgaatcacca8761ggaacctttg agctgctttt aaaattcttc ccctggcacc actcagtttt gcttttgcga8821ggcgatttga cataggaact ttgagactcc atgagaaagt ccctttctga ggcccactgt8881ctaccttgcc agatcctcag tgcgtatcgc caatgcagga tgctccttag aaaagaaaaa8941atggtaaaga atggcattta acgattcagg ctttgaatta ctctgtccct ctggaccgaa9001tctctttaac tgctgSaYag ttttagagga attctcctgc tacttaggta ctgggaaaca9061atgcttgcta aaccatgccc acgtgagcac ctgtctccca ctcaaacctc tcccatctcc9121caacaactgc actttagaat accagcagtg aaatggtatt actgtttccc tctgagtgaa9181actgctagag tatatgtcac gtagtgacat ttttttctca ctcaggctat tgccatctgg9241gattctctcc ctactacagc tggcaaagtt ggtttgcagc aagaagatag tgggaggggg9301ccaggctgca ggagaaggag aaaagtttag aagaaacaaa ccattttgct tctaattttg9361acagtatcac tttcctgtta aaacatacaa taattttaaa aggtgaatgc ctaaagttcc9421aattttagca aatatgggaa cctcagcaat gctaattttc tagaaaaacc cagggctctt9481tggagctaga gttttgggag aacagttctt cacaataagg caatggtttt gagaggccag9541gcaaataatc tttctcaccg tagaacaaaa agttacaaaa ggcataatcg gaaatagaga9601ctacatactt gagtttatgg ggtttgtgtt gtttgaaggt tcaatgcttg catgtgttta9661tttattttca agagggaaag tggtctgtac tgctttcatc cttgccactg tcttgctttt9721attttttact ctcccactga gcaagcRtct gtggtcctat ggtatcaacc agtatcttta9781tagcaataat ttctttaatt cccttttctc tctctttcca attatttaac cagttacttc9841cacctggaca tacgatagga aattcaaact caaaatatga aaattgatct taataactct9901cccttcatat cttttcacct atttccagtc cttatcatag ttgataaaaa cctcagactc9961atccagaaag ctatatgatg cactagtaaa aaaaacaaag atattcaaac tgcttgggtt10021caaatggtat acaatttgcc agctgttact gaaccttcta tgcataactt tttttttcct10081ctgtgcaatt ggaataataa aaatactact cccatagagt tgttatgtgg tcttaatgag10141atagcttggg ttaggctgag cacagctgct agtagaatcc aaaaaggggc caggcatggt10201cgctcacgcc tgtaatccca gcactttggg aggccgaggc gggcggatca cgaggtcagg10261agactcagac catcctggct aacacagtga aaccctgtct ctactaaaaa aaaatatata10321tatatatata tacaaaaaat tagccgggtg tggtggtggg cgcctgtagt cccagctact10381cgggaggctg aggcaggaga atggcgtgaa cccgggaggc agagtttgca gtgagccaag10441atcaagccac tgcactccag cagcctgggc gacagagcga gactccgtct aaaaaaaaaa10501aaaaaaaaaa aaaaagactc cataaatgtt aacgcatatt ttctttcttt ctttctttct10561ttttttttgt ggggggacag tctcactgtc tccttctgtc acccagtctg gagtgcagtg10621gcatgatcac ggttcactgc agccttgacc tccctaggtt caggtgatcc tcccacctca10681gcctcccgag tagctgggac tgcaggcata cgccaccatg cccagctaat ttttgtattt10741tcttttgtag agacagggtt tcgccatatt gcccaggctg gtctcaaaca cctgggctga10801agctgtctgc cctcctcagc ctcccaaaag ttatgcaaga tgcatagcaa tgacgggtca10861cttaatttgt ctgggactac aagcgtgagc caccgcgccc agccaactca tatttttctt10921ctctacccac ttcttcactc ataaatttgc tcaccagcta atctattcca ctcatctttg10981cctttttaat ctgctctctt taatcacttt tcccttacct tttgatgaag gcatcctacc11041cagcgcgttt tgttccagca tctctcctgt acttttgtcc tttgcaggct gccttttcga11101aattattcat ctgaccatag cttgatcttg ctcattacat atgatgactg tcacttgccc11161aggacaaagc ccttcacata gtgtaaaagg tcctactgcc agtttcattc ttgtctccta11221ccacttccca ccacacctgc catgccattt catacctcta gaactttcca cttgctattg11281ttgtgtcctt cttgcttgcc ttctttctag ctggcatgct ccaaacatcc tttaagagcc11341aaatcaatgt cagtttcctc atgaagcttc ccagaatctc aaatcagtgt tagttgcttt11401ttgtgccccc attcgcatta tctctttctg tctttcccac atctgattat tttctttatc11461aaataagaag caatttagga gggagagtga tgaagtggaa atagcagaaa attgagagcc11521attcaaacct agatctgcct ctcaacatgc cttatgcaag atacatggca atgccaggta11581acttgacttg tctgatctca tctacaaggt ggagataata actcctacaa agtagggatg11641ttgccgtggt taatggtggt atgtaatgtg cttatcccgg tgcctgtcac tttgctccac11701tgataactct attgataaat ggagcttctt aaggggccaa gattgtatct tcttgctgtt11761aaatccctcc atgccttatg ccaaagagaa tgtcagcaca gtgagtttgc agtaattttt11821gggaatgcaa atatactcaa acacacacac acacacaggg tgttttgtgg cctgtgatat11881ttgagggatg atattatcaa ttttaattgt caatttcagt gatgatggca ctaatcaatg11941gataccatga gcagcatgtt catctgggtt tccgttagtc aaataaaaag cctagacaat12001attaagtaca attaacataa gaataaattg gaaatcaata aggatacaaa gtagttaggt12061agtatcaaga tttcatttgc tacatcctgt atatgcctct ttaaaactat ttaggtaatt12121aaaatgaatc ttaagttata aactcgagaa aggatttgct ttcagatgtg gggcctactg12181tgttagcctc actattcaaa ctagatRtct gggtatcctt tggagaacat ttaaggtaga12241attgcctatg atgtcagctc tactgaaaca tgattttatt atatgtaaca ttatgaaatg12301actaaaatct ccaggtggag tttaagtaat cattcccatt gattctcaag ctgggatatt12361cttcaaaaaa tcattcccag gctgggtagt ttatattatt gatataatta tgacaccttg12421aaaattcagg agagcattaa ataatgtaat gcttgccgca aaccccagtg ttccttacac12481tgcagagctg cactctgatt agagtaccat acgcatgagt tttggaatct acgaccaggg12541ttcaaaccca gctctgccac ctcatagctt tatgaaccta aattatgtaa tatatataag12601cctaaatttg tttttttctg gaagtagagt taatagttcc tcccttatca tatttttatg12661aggaatgtag tacaataggt gaagggatta acatagtgcc tggaacatag taagtgctca12721ctaaatggaa actatcagcc ctcaaattat ttctgttgaa agagtgtttc agcttctaag12781gaacgtagca aggttctgga ctcagggata tgaccagcat taaaagtatc atgatcacca12841gcacaggata taattatatc ttggtctcag agactcttaa gtttatccgt gcccagataa12901tctgccaggg attgatggca aggaaagtaa cccaaaccac tctttctttc tgagataata12961caattacatc catgatctga aaatcatgtc taaacaacta cgtgtaactg tccttcatca13021actctatcca tgtctacacY aaagatgatg ttgggtgtta aaggtattgg ataaaataca13081atgaatgttt ctgagggcta tcatgaataa actgagggct gtggactagg tcctctgggg13141tacataaact tacagttatt gccatgttat atgatgtgct gtggaagtaa ctaaagagac13201cataaaggtg aagctcagga gagcactgca gagccgtgac tttggtgtga gtcctaaaga13261ccagtaggaa gtcatcagac agagctgcag ttttggtaag gggccttcct agcccatgga13321acagcatggc aaatgtgcct tcagggtaga ccctagggag tcttttcaat aaaataaaca13381tgacctacca agttcatgcc atcaagatgg cattgtgcct aacaccttag cagcacgtca13441tgagacctga aaacacactt agtacccacg cggcttctac tctcttattc aRagaaagca13501tccagagctg gaaacatttt gccttgtttg aactcacaaa ctacaggaaa ggagtgctgg13561aactgtggct cccaaaggtc tgtttcatta ttctctttat agtcttctta actgcacaag13621tggggaatga gttgaaagtt agaactgccc agcttaaggg cctcttgctc tgaagtgact13681tggagaacta acagttcccc aggcagctaa aatctactga acctactgta gatctttcag13741taaaaagttt agctgatgaa aagtgtggtt tttaaagcac catttgtggc tcaggtccag13801gKttgaatga tactccttat ttatgaactt ctgtatagct gctgtctgta tggcctcttg13861aaggataagc cacagtgagg ccagcctttt cttaaatagg gaatgagggc aacaggaSaa13921cagtgaattg ttagggggca aaccaaattg gcatcatttt ctttgagcaa aactgtctct13981tacttctggg ggaggccccg agcatcccac ctgttcttgc gaatagagga tgtccatccc14041aactctctct tctccacaca cccattccct gttccctacc ccctcatgat tcactagatt14101aattatgcac cacactgaag tgatccccag ggtcatgcca tcagaccctc atYgctggtt14161acctgttgcc aaaatagtcc aagttcccat gccatttttc cttcatctat ttgcttatcc14221ccatattgcc cagtgtattc tctcatttgc ttctatctcc aatggcctcc ccctgcctag14281gacttttcca ttatcccctc tagatcttac aatgccatca ccctccccta tgtcctcttc14341tctgaatcat ggttgcctcc tgaagacacM atcttccctg cagccctctc aagcctagct14401atcttcctct ctacaacctg cgtatcattg gcctgaaggg gagacatctt gctttgctat14461ttgcagctac tttcagacct ttaatccttc ttcctctcta atgaccttct tacaagcaca14521tgtctcctta tcattgactg aatattctag cacctaaccc actcaccctc cccactcata14581ctccattcac catcttggcc actcagctcc ttgacgactt ttgaaaatct tgttctgccg14641ctgcctgaac atcagccacc acactcatgg ttacactgcg tactgtgtca tgactaatca14701ctggcatcgc caacagttcc atttcaagca tcccacgctg tggtcatcac ttcttctctc14761tctagtcact ccccttagca ccatcactcc aaattggtaa gttttcagcg actatcatcc14821cccatttcat tacttccctc cttgaccagc ttagcttcta tggttccttc tcataattat14881tctcttgccc ccatttccaa atcccattat gtactctccc agcactgtac tactcttttg14941agaattaaaa agaaacaaat tgcaactcta gtaatttttt cttactctta acctgtgcct15001aaaaaaacta aacatgactg gagaacaaaa gaccaccaag ttgacctgtg ttcctttgta15061tttatatKaa tatggctcac atggttttca tcactgtcca gtaacttatt gtcacagttt15121ccaaggtcaa tttcacactt ctcaaacttc cacaaactct tcattgtcta ctgacaacct15181tacttctatc tttactgaga caacaaaaaa aaaaatcaga tgagtatgta cttatgccca15241tcacgtcacc gtattcccaa actacctgcc tctgtgcaca ccacctcact gcctgctgca15301gttactgtcc agggccagcg cctctgccca tgtactggag cctgtccctc cacccttttc15361aagcatgtta ctctatcaaa taaatatccc tttctctttt gcattatcag ttttgctatc15421tctctgttgg ccccaccagc actattaccc atgctatatt agcttttaaa aaaWtctctc15481aatctcacat ttatctccaa cgtttacatc attcttttgc tgcactttgt agaaaaatat15541tttgaatttt ctgtatctat ttctacttcc ttacttccca tgttttcttg aactcactcg15601agttactctt ttcttgctca atactggata gaaactgctc tcattggggt catcgatgac15661cttcaaacag atttagtcca actgtgaatc ttcagttccc attttactca gcctctcaat15721aacaatccgc ccctgcccat tctctcactt ttgaaacacc ttctttactt ggcttccagg15781acagcacact cctggttttc cctctacctc actgaacatt ctggaatacc ctcctgtttt15841ctgaggtctg tatgttggag tgagaggcat ctccatcttt ggttttctct tctttaacta15901cactgtcttt tggtgggctc atacaggctc ttggctttta atactactta taaactgatt15961actctcagat ttctgtttca gctcaccctc ttccttgaac tccagcttat aagacactcc16021tgctactcca cgtggatttt tttttttttt cttttttttt ttgagataga gtctcactct16081gtcacccagg ctggagtgca gtggcttgat atcggctcac tgcaaccccc gcctctcggg16141ttcaaacaat tctcctgcct cagcctgagt agctgggact acaggcacat gccaccacac16201ccagataatt ttttgtattt ttagtaaaga tggggtttcc ccatgttagc caggatagtc16261tcgatctcct gacctcatga tctgcctgcc ttggcctccc aaagttctgg gattacaggc16321gtgagccacc gtgcccggcc tccacttgga tatctaataa acatctccaa ctgatattcc16381aaaaacaaac atgattttct ccccaatgtt tttctaaccc attgttcatc atctcagtca16441actgtaccat catttacttc atggtttagg taaaagaatc tagagccatt tctgatctct16501tgcttttata tcacaatatc aatctatcag caaatcttct cagctctgcc ttcacaatag16561gtccagaatt caaatccttc tcaccatctc cttttcctag tctaagcccc atcatgtctt16621tctggattaa tgttttatcc tacgatggat ttttttgtcc ccattcttat ctttcttcct16681aagagtcctc tttactcagt agccaaagga atccttttaa aaagaaaatt tagcttatat16741catttccttt ttcaaatcta accaccatct tcccatattt agaatcaaat ctcaagatct16801tgccatgctc tgacccctgc ttctctctcc aatttcattt acaatcccat ttactcttgt16861tcattctgct ttatccacaa gactctttgc ccctccttgt ctatataaac aagctctccc16921tccaaagcct gcccctgctt tctcttcaga gtctgaaatg cccttctccg tgtcaatagc16981tcactctcac ttcagtcagg tctctgagca cttatcccct cttctgagag gcttgccctg17041accaccttgt ctaaaatagc atccctttcc caccttactt tttaacctgc tttgtggtct17101tcgtacttac ctctatStga cttctccact agaatgcaga ccatgtgaag gcagatttgc17161tgacttcatc acatcaacta tgtgtaccta gaacagtcct tggatggttg acgtgcttga17221taaataaata tttgttgcat gaatgaatga gtgaatattt agagctctat gtcaaatttc17281tggttcagat gttcagggat gttctcagtt ggacctttta ataaaaaaaa acaataaatg17341accaaattct actttaagtt attttagggt tccaacagtc acccatagac tgaacaaact17401ccgaagattt ggcttcatgt aagaatgtca ctgcaaagaa gcttcagtac ccattgtgat17461atcatttgct aatttggaga ttgtgatgcc aaaagtataa gccccatgct cagtcagcat17521ctaggtccaa tagctctcag aggaaccata catcaaagca aactttctgc aatgcggaaa17581agaacatcca tgcattttta aaatgaattt taaattttaa ataattttta aaagtggttt17641catctcttgt aatggaaaat attcaaaatt ctcatgctga ttcatgaagt atacttatat17701aattagacaa aataagaaca ttgaaagaag cagactcctt gtttcatcgc tttaagcaaa17761taataaaaat ggactcRtgc aagtcacacc actaatttaa atacattttg taaaaagata17821gcaaataaat gaaataaaaa tatttgcttt agttttttta aacaaagatt tattaactct17881gaatttttta ggttaaggac catgcaatat atatctccta caccgaagtg tccaagaaat17941gtttttggag taaattaatg aactgcttta gaatgttgct cagaaattaa gctagaaatt18001cagagcaata ttctcagggc ttgatttaca ccaaatccaa gttcgcaatg tattaacatg18061aaggaatagg ccattgcttt ctgaaaacct tccttttata aaagaaatac tttaatatta18121tgaattctct tggtctgtgt aaaatattat ttgcattata aaaattgatt ttttggtata18181attgttcata ggcaatattt tcaccaggat gggttcacaa gtgttaatgg aaggcgaatt18241atgtgtggga cagtcttcta gggaatatgt gaggggtttt taagatggat aacattttgt18301acctgctttt gagttgcaaa tgatctggac tgttggttaa acatcgcaga caagatcagg18361tgaagaacat tactagaagt tcagtgatta agaaataaag ccacgtaccc cacggagtga18421aatttgaatt ccttaaattc cctcaaatta ttttatgttg gattttacac caggatagga18481atgtctttaa aagtaagaaa tatttgacat aaggtagaaa atttcaaagg agtgtttgac18541ttgttgctgg atgtgtcacc acatttcatg tgtctgagaa atataaattt ctacagcaca18601tttttagtgc cttaaacaga ctacaatgat gtaaatggtt gaacagttga aatttagtct18661ggaactggga cagatgactt gccacataga gtggctccca acataaagtg atctgtgatg18721gcaggacttt cagcgtgttt cactattagc atgtgtcatc caagcatgcc tttcaacatc18781tgtggagaaa agacatgtta caaatacaaa acaccaccat gatgaattgg gaatgtcaaa18841aacctctgcc ttggctgtga tccagtgttg ttattggcaa gtagattcat ccttctaggt18901tggttgctcc ataagtaatc ttcaagaaaa gcaagtccaa cacccttttt tctccttact18961gtgaacttgg tcaaaattac caaatgtttg gtaaccattt atggtatcag gaatgcacca19021ataactcctt ctgactcttt aagagcaatc atcttgtgga atgcaatttc ccttcttatt19081attgtgggta tttttaggta cctatgcttg acctttttta aagagagtaa ggatctgtga19141tttaaactag gatagaagct gttccagaga taacaaaaag ctgttgcttt ctatattcca19201acaggaacta ggtaaaacga taaatgtgat aactcaaaat aatgtgtatg tttatcttcc19261aggctttcta atagttaatt ggttaaataa aacattattt acagaaatag aagagccact19321cctcaactgt tcaaacactg caaagtaaac taatgcaagt gcagtgacct cttcatccag19381ccacaaaatc atatatattt ttaattctcc aaggagtttg agatagtaaa gttggatatc19441atgtagctaa acaaaggctt ttaccttttc tcttggaaaa tagttaaaat gaatagRaat19501ctgataatta atctgggaaa tttaaccctg ctctacttac ctaatgcccc cccaaaagat19561gatctttttt ttcttcattg attttatacc ttaaaaagaa attactgaat tgcagatata19621caactagtat ctacagacag aaatgMaggt cagttttaga agaaaccagt gtcaaatgaa19681aacacagatt tctacatggt cacattcata tcacacactc ttgacccaag gtgagaaagt19741aggtcattcc ttatttctta tttattccct ggcacaatca gaccacacta caagtttctt19801ttaccagttg ccaaaatgaa atcatgacac ccttcagagc tactgtcgtt acatgcaact19861caagacaacg agcagcatca taaccattgt caacaggcaa actccaacaa tgtctgggtt19921tggatttggt tttatgttga gagaagcaga tttcctctga ttttaataat ccataagaaa19981cagaaatcat aatatattga ctccatatta cctaaaaaga gtcaaaagaa gcagaagttc20041tcccccgatt catcctcttg ttccacagac attttgaaaa taaaagaaga caaaatagaa20101aggaaagggt gtgagaaaga acacagaaat gacttgaacg atttcaaatc cttattaagc20161atcactgagg ttgcatttta cccattagac tgactgaatt tagttctcac tgctcagacc20221ttgcaaagaa actggacgta catggttttg ccttccaggg ttgatctaga actgtaaggg20281tgcatgtgaa tgtgggtatg catgtgtgtg tgctttaagt ccattttata aacactgaca20341caagacaatt ctcatcattg gtaatagtct ttggagtcca atcatgcaga aaaacaggca20401ggtgcaagtt aggtctcatt gcaagatgga catggcaagg tgaacagata atcctacata20461aggattggga gatttgtgtc cattagaata tactggccat tggtcccaca taagtaaagt20521tacatataca agattctata tataaacaga ggcccctcac ttcagtttgg ctgaccaaag20581aaacaggtca aagtgagcca ttttcagata gttaaaggac taagtaccaa aagaaataac20641aaaatcttat cctctaatca caaagaaaat agctaaaata actatttaca ttgcaacttt20701tttgttgttt ttacagagag gagtttcctt gcttggctta atgatatctg tggaaaatgt20761tgaactctta taattaaaat gtgtgtgggg gattgtgagt ggggagttgg gttcctcttt20821ggatgcaaag tggctgagat caaaaatttc tagagcaatt ttactcctct ttctgagctg20881tagaagaata catttttcag caaagctggc taataacatg ccttacagag cataatgcac20941ttaagatgtg gcttttcata tgttaagaga ttcaaatcga aatagatttt gtataattta21001ggttttgcaa tgaatattta caattttaaa acaaatcaag tttgcttatt tttttttcct21061tgacaggaca taaaaggttt tacatatttt tatctatttt ttactagttc catttactaa21121ggccaacttt cagttttacc agtcagctgc tatcagtgtc tttagataat atttttctga21181taacagattg aaaaaactat cgagcttctt aaccctcaat taaatagctt actccaattg21241gtgggaactg gccaggctct ggtccaactg ttgggtacat tcctacaaaa ctcagtcatc21301agattcttga agatgaaagg ttattatcag tttttattcc acaagaagaa attccgttgt21361aaggctagtg tattcctatt taaaattgaa cacgctgacc cacaaaacac atataaaaat21421agtaaagaca tattaatagt aaagtggtgg cggttttgcc aaactcttgc agcagtttaa21481ttttccctgc acatgagtac acagccatcc ttcctacaaa atactgcaaa ctattttatt21541aaggatcact gcaaaccaac tgccccaaag gaagcctaac agaaggttag gctcctcaga21601gtgccaactt catgttccaa aatgagcccc aaccccaggt agaaccttca ctttttttca21661ggaatattgt ccaggtgact tgacacttgc ctaccggaaa agttgggatg ttcttgggaa21721ataacaggtg actatttaag aaatatttgg Kgtgtgtgtg tgtgtgtgtg tgtgtgtgtg21781tgtgtgtgtg tgttaagaca gacaagtgaa tgcagaacat attatattct gtgaatttga21841taatatcatc acctcctaga catattatag gaaagcagac ctagtgggca aaggactggg21901gggcttttac agtggtgatt ctctttgttg ttccatcatc tgccttgctt taatcaccta21961ataaaactga tcctgcaaaa attctggggg ccaaatcctt acctctattt gtaaatgata22021cttatattca aggaatttgt tccatttttc tcttgtccat aagggaaatc tggctaaagc22081taaccagctc ccaagagcca tgcacagaag atgtaagact aattgagctt tgggaaggta22141ctaacagcgg gggaggggcc ctgtctagtt cttgcctggt ttacYctgag ggggaaattc22201accacttatg caggtacgag agatagcctg tcaagcactt tgaagatgct ggctggagac22261ttccttctgt cttgtgatgt catcttgcgg ctgatgaaat tccccttgag actctcttta22321aagcagcttc ctgctctccg cacttaatcc catgtggtat aaagtaaggg aggggagaag22381ccacagatat atcaagagaa aagtaccgag aaagaaaatc agtaaagaat tagagataca22441gagaggagaa gtttttaaaa aaaaaaaaaa aaaacaggaa tatgaaagag agggagctca22501agtgactgag gaggcatttt taacaatcag gttatctgca atattaacca gaaaaaaaat22561ggtagcaaaa tagagaaaat gggccatttt tattccaggg gacaagctgc acaaaggaat22621gttcttctat ttattttaaa caaatgactg cgtgtactga atctgactgt gtgaaataat22681ctcagaatgg cagcaccact ggYatggcga tggtgcaggt gggtgcagtt ccctgtggtc22741tctattgctt gaagagagaa agRaagttcc ctattattat atttaaggca gttttcagag22801cactggcatt cttgtttgct ctgttttggg gatattctat ttgccaatca gttcacactc22861atcaaccatc cacttcctgt ctttcacttc ttcaggtgaa atatcaccac tctagtgagc22921accaacatgg tcagagtgca aataactgtg atggatactt cgaagtgaat aagaagggaa22981gcctgattat tgctgagatc accttggtat tgccttgtac ataaccaaga tgtttcacag23041tgcctcctta agtgctcagg aaagcacttt catttaattt aatttaagct aaattctgga23101gattttgcta aacattgaca ttaatgcttc atggctttta agacaaactc atattgctaa23161aactatttgg cagcagtaaa tttatgggca gagttattgc tcttacatct actgcagtac23221aaaactcaga tgatcagccc ttcgattgct catacttatt aaaataaata aataaacatg23281aaacatcagc cacattaagg agtcagggaa actcctgagg aataacaatg tctctggaga23341tgttttcaaa tgctaacctg agactcacac tgtggtttgg gggtttcatt Mttattatta23401ttattttatt tcagaagagg aaagtaatat tatttctcaa aataaaactt tggcagagta23461tgaatcaggg aagcagccca cacatggaaa acacaatcca caatctgaaa gtagtctagg23521caggctcatt tttttgttga aggaattcac atggaggcaa ttctgctcag ttccagagag23581agattcttat catcaaaagc acacacaata accttgcttc accacctgcc actttctcca23641gtggcctctt gttgtgacca gtaattgaga aatgacaaat gggtatagag ccaaatctct23701aaaacaggga caccagtgtc tcctagtatc tgggtaataa cctcctttca gtcttagtcc23761acaccacaca ctaccctcca gtctctccta ctctttactg tcacagaaaa gactctcagc23821ttttattcac acctgccttc Wgaaggccaa accattttgt gcctgaaaac tgttacccac23881tcSccccaca ctttacataa gtatcacata tgttctttct acaaattggt atacaggtgc23941catttaatcc attcaaattt ggaagctaca tcttcaaggg tctgagagag ctcactcccc24001ccatatattc cccctttaca tgttttctta taagacatac agtttaatca attaacaaac24061taaacagctt atatactggc aatatattac agatgggttt atgtcagagt aatagatcac24121atgaaatgga cYatgtggta ccccagtgca ttatgtcttg gtagagccYt gaggacactg24181acagtagcat ctctaagtaa gtagtgctgt atgaatacag acacatgcgg atctgtatct24241acatccatct gactaggcca aggagcaggt agatgcaaga tagagacaca cacatgctgg24301atggggccac tgcacacctt gtcatgccat ttaaaagggc agttacaggt tgccggtttt24361gcagccatta aaattacact ttatggaaaa ggcttctcta attgtgtctg atttgctttc24421tgtagtaagc atcattggaa gaagaccaaa gcaagagcaa ctagaagtta aatatacatt24481tgagcttagc tgcaatacag aaccctgggg aagaagcagg ctgaaagatt tatttaattt24541taggcttgga ttctctccct tgctgttttc ttgatgttgt gtgtctgcat ttgtgtgtgt24601gtgtgtgtct gcgtgtgtgt gtgttccatc acatcatctc ctgaagaacg ctgggtttcg24661caggcaggcg gctagtcacc tgcaacaacc caggggtcct gccgaggctt ccaggctgct24721gtcagtgtca gatgccaggg tctggtcggt ggacatggag gagatgtcat tgacagacga24781ggatggaggg agactctcac tgctgttcac tgctgcacct gtgctaagaa aatgaagacc24841aacatgactc aatctagaac cagacccatc ttaatgccat tcaggattca gggatgggca24901aatacaatag gggatgtcca gtccatcaat catttggcaa gcctttatag agcagctgac24961ataggggagc atatcaaatg gtgacaatca agacatagca ataaaaagtc cttcatcaca25021agttatcaaa tctcactcta tatttgaaat cacctgcaac actttctatt aaaaaacact25081aatatctggt cacattgcct cccctgcccc cactgcactg catatatttt aatataattg25141gccttgggtg aggccaaggt atttgcattt ttatttattt attttttttg agatggagtc25201tcgctctgtc gccaggctgg agtgcagcgg cacaatctcg gctcactgca acctctgcct25261cccaggttca agctattctc ctgcctcagc ctcccgagta gctgggagta caggtgcgca25321ccaccacacc cagctaattt ttgtactttt agtagagatg aggtttcaac atgttggcca25381gaatggtctc gatctcttga cctcatgatc cgcccacctc tgcctcccaa agtgctggga25441ttacaggcgt gagccaccac gccccgcggg catttgcatt ttttaaaagc tcctcagaga25501ctgtattcag ccaagcattg aaagcctctg gcttatgcag gagacaaata agcaaaaccc25561cttaatggag ccatctgagc ctggttgttt ttaatgcagg gagcttttaa aacaaacata25621tgcaagggtc ctatcccaga aatagaagct gaagtgaagt tcagaaatct gaattacttg25681gggaccacat ctctagagaa aggaagatat ataaatacta ttatgtcatc attaatgaca25741ccaaacttaa aatgcatata gaaaagccag taggacataa gtaggactgt tgatgaaagt25801tacaaaaaaa aaaaaaatag gagaagcctt agcacagctt ttgcttatga gctaactctc25861cagcaggctt gcttacctgg gatctccaaa taagaactcc aaattattaa cttagattaa25921cttgaaaaaa ttgtttatct gttatgcggg agtataaggt tgaaaccctg agaagaaacc25981tgcccaYggt aatcactcag taaaggctag ctgagttgcc agtagctttg agatcaacaa26041aagaaagatg aaccaaaggc attgtgcgat aYaattaaac cagagcaccc tggaaacaat26101ccatttactt tttttctttg tatattcttt atacctaagc aatctgagtg gtaacacact26161tgctttgtga aatagctcgc tattaaaaat ctgtagtata gtcccctaat caaataagag26221atgaggaatt ctcactaaaa ttatatctta tttgagcaaa tatagtgtgc aagatctatt26281tggtgaaaaa taataactcc aaagtcagtt ataatagtgt tatcacatag acctaataaa26341tcagaaagac aaaataaaac taaattaagg aagggRagtg gttaacataa tccttgctcc26401tggagtagac atttcttgcc tgtgagaaaa gtgtgatgaa aatgtatcag ttatctagag26461aggacacaaa cacctaaact aagacagatc acctgtatct tccatgtatt tttaagttgt26521atttgttgac tataaatata tggacgtact ctatgggaaa tgtgaaaaaa tataggaaat26581aaagataatg atatgcaccg atcttcaaat aaaYggtaag aactgttaaa cttttcatat26641atttcttccc ggtcattctt tttgcctgga agtttccctg gtcgtgatct tttaatatgt26701atttttttgg gatcttgata tttttaKata cagaaaagct tatgaatttt tcatgttctt26761taaactccta aaaataccca tcctttctaa tcttaaatgt ctctagaaaa ggtttttaaa26821gtcctcYtgt tattgtcttt ctgtaaataa ttactctatc aggacaatgt ataaagttat26881aatattccat aatattccaa ctttgaatgg ctttaattta ttccaacttt acttaattat26941atcccccata gctatggtac agagctggtt catttcccct catgataaga ttttatctcc27001tagcagacag cccttggttc ctttacattg cccaaatgcc ctgctctgtt tttcaccccc27061gattctggat taaattatac caaYatcctt catattcttt cataagttgc taataattta27121gtgtcactat gatggactcc tcagaattct cttccattta tccacactct tattaaaaga27181cagagattaa aactggacac aggactctat tataaaggcc tgatcaattg tgagcctagc27241agagggaaat tgcttttttc ttactatttg tctgctggat gacatatccc tagactatgg27301atgcctttca aattatggtg ctacagctta atttagtttt gacttgaggt atagaatgat27361gctcatatat tttttgtaac agctttatta agatataatc cacatatata attaagaaat27421ttaattttca tgattcagtg ttttttagta tattcacaac attgtgcagc catcaccaca27481atccattttg cagcatttca tcatccctaa agaaaaccct gcactccatt cctcacctac27541cctgtagctc taggcaatga ctcatctact ttttgcctct ataaaattgc ctgttctgaa27601catttcatgt aaatggaagc atatcatatg tgatcattta tgactggcca ctttcatata27661gcagaatgtt tttaaggctt atccatgctg tggcatgtat ctgtatttca tatctttgta27721tggctgcata atattccatt gtatggatac atcacatttt gtttatttat tagttgatag27781gcatttgatg gatatttagg ttgtttcaac tttttggcta ttacaaataa tgctgttatg27841aacattcatg cacgagtttt gtatggacat gtgttcattt ctcttgggta tacacctaga27901agtggaattg ctggggcata gagtaattct agctttaaca cttgaggaac tgacaaactg27961tgtccggaat tggtgggttc ttggtctcac tgacttcaag attgaagccg cggaccctcg28021cggtgagtgt tacagctctt aaggtggcgc gtctggagtc tgtcccttct gatgttcaga28081tgtgttcgga gtttcttcct tctggtgggt tcgtggtctc gctggctcag gagtgaagct28141gcagaccttc acggtgagtg ttacagctct taaggcagcg agtctggagc ttttcgttcc28201tcccagtggg ctcgtggtct cactggggtc aggagtgaag ctgcagacct tcgtggtgag28261tgttacagct cataaaagca gcatggaccc agagtgagca gtagcaacat ctactgcaaa28321gagcaaagaa caaagcttcc acactgtgga aggggaccca agtgggttgc caatgctggc28381tcgggcagcc tgcttttatt ctcttatctg gccccaccca catcctgctg attggtagag28441ccgagtggcc tgttttgaca gggtgctgac tggtgcattt acaatccctg agctagatac28501aaaggttctc cacgtcccca tcagattaga tacagagtat caacacaaag gttctccaag28561gccccaccag agcagctaga tacagagtgt ggattggtgc actcacaaac cttgagctaa28621acacagggtg ctgattggtg tgtttacaaa ccttgagcta gatacacagt gccgattggt28681atatttacaa tccctgagct agacataaag gttttccaag gccccaccag agcagctaga28741tacagagtgt cgattggtgc actcacaaac cctgagctag acacagagtg ctgattggta28801tgtttacaat ccctgagcta gacataaagg ttctccaagg ccccaccaga gcagctaaat28861acagagtgtc gattggtgca ctcacaaacc ttgagctaaa cacagggtgc tgactggtgt28921atttacaatc cctgagctag acataaagac tctccacgtc ctcaccagac tcaggagccc28981agctggcttc acctagtgga tcccgtacca gggctgcagg tggagctgcc tgccagtcct29041gcgctgtgcg ctcgcattcc tcagcccttg ggtggtcgct gggactgggc gccatggagc29101agggggtggt gctcgtcggg gaggctcggg ctgcacagga gcccatggag tgggtgggag29161gctcaggcat ggcgggctgc aggtcctgag ccttgccccg caggaaggca gctaaggccc29221ggcgagaaat cgagcacagc gccggtgggc cggcactgct gggggaccca gtacaccttc29281cgcagccact ggcccgggtg ctaagtccct cactgcccgg ggccagcagg gctggctggc29341tgtcccgagt gcgggggccc gccaagccca cgcctacctg caactccagc tggcccgcaa29401gcgccgcacg cggcccgggt tcccgctcgt gcctctccct ccacacctcc ctgcaagctg29461agggagtggg ctccagcctt ggccagccca gaaaggggct cccacagtgc agtggggggc29521tgaaaggctc ctcaaatgcc gccaaagtag gagcccaggc aggggaggtg ccgagagcaa29581gcgagggctc tgaggactgc cagcacgctc tcacctctca aaactgtttt ctaaagtggg29641tgcaccattt tacattacta ccagcagtat atgaggattc caatttctct acatcctcac29701caacacttat tatctgtctt tttatctagc catcctagtg tgcatgaaat ggtatctcat29761tgtggtttga tttgcatttg cctgatagct aataatgttg agtatatttt ttcatgtgct29821tgtcagccat tagtatatct tctttggaga aagtttactc agctcctttg gccatttttt29881aattgcttta ttttcttttt attattgagt tgtaagctct ttagctcttt cttcctttct29941ttcttgcttt ctttcttctt tatttctttt tttaaggaca gggtctcagt cgcccagcct30001gtagcacagt ggcatagtca tgtttcactg tatcctctaa ctccagggct caggcaattc30061tcctgcccca gcctcccaag tagctaggac tacaggcaca taccaccaca cctggctaat30121taaaaaaaag attttttgta gagacaggag cttgccatgt tgcccaagct ggtctcaaac30181tcctggcctc aagtgatctt ccgatttctg cctcccaaaa tgctgggtct acaggcatga30241gccactgtga caggcctgta agagctcttt atataatctg ggtacaagtt acttaatgag30301atatgtattt tcaaatgttt ttcctctatg ctatggttta tcttttcatt ttcttgaagg30361tgtcttttga agcacacata tttttaattt ttatgaaata gcatttatct gttgtttctt30421ttatcacttg tgttttagtg tcatatctaa taaaccattt tctaatccaa gattataaaa30481acttactcct atgtttttgc ctaagagttt tataatgtta gaccttatac ttaagtctat30541gattcatttt tagttcattt ttgtatatga tatgaggcag gggcccacct tcattctttt30601gcatgtatat atccaatcat cccagcacca tatattgaaa aggctattct ttgtccatgt30661cttacatcct tatcagaaat caattgatca taaatgtagg tatttattcc tggactctca30721atttgattcc gttgatctat ttgtgtatct tcatgcaaat agcactctgt cttgaatatt30781gtagctttgt agtaagtttt gaaatcagaa catgtaaatt tcccagctgt gttgtttttc30841aaggttattt tggatattct gtatcctttg catttccaca caaattttaa gatggggctt30901gtcaatttct gcaaaaaaga cagctatgat tttgataagt attggcttaa tctgtacatc30961aattYgggga gtatctgtca tttcttgaca atattaaata ttctaatcca tgagcaatga31021aatgtttttc cagttattag atcctcttta atttctttca acaatgtttc gtagttttca31081gagtacaaaa cttgtacttc ttttgctaac tttattccta aatatgtatt tcttgatgct31141attctaaatg gaattgtttt atgttcattg ctaatgtgta gaaatacaat tatactgagg31201acttatttga ataagaagtt tcagtgtcag tggattggat gttaaaaaca gatcaaatga31261atatatatat atatatatat atatatatat atatatataa aatgaatgtt gtaattaact31321agaaagccag tggaaccagg cgattatgat agcatgcttt atttatgaga aaataaccag31381ttttaaaaat aactggtttt atgagaaaat aaccagtttt aaaactttaa aaagttttaa31441aataaaattg tggcataata caaaccaaaa agtattttta agtctttaat aataatcttg31501gtcttctctt gagataggct ttttccccta tcctggctgg agttgattat gtagacacat31561tcttattgtc acaattaaag ttgagtaatg attcaaataa gggtgagata agtcttagct31621gaaataaggc tcccttatag taaaacaatt tgatgtttac aaataaacac aaacccacaa31681caatggcagc tagagaaatt aaacaaagag cattgaagaa atttctccaa aacacaaatt31741tatatctaca aataatattg aatgtatgta acaaaagcca aagtagcttt taataagctc31801ttcataaaca ggatcgtgct gcaggctatg cttataaaac acacagcact cctactgcac31861ttattttcaa aatcagcata ttttcagcac acttctggaa tattccgagt gttatgccat31921accagtcagc cccttattat atgtagtttt gttatggatt acctcaagca tatatttccc31981ctgcttcttt ttactgcttt cattatactt catttctcct gtcttccaca atgtctactg32041ctgagtagta gcacagagta agtattcgag ttaacaaaac agtattgagt atcttatgtg32101tactcttcta gataggttct gtgaggaaaa gcaagttcct tcctgctttc caactagtga32161aactgttaag ctatttttgg ccaaaggaaa tcactttgtt gcagttgtct ttcttctcct32221tttgttcatc agcagcttct ctctaattcc tatcctctgt gttggaatgg tcctgccctc32281tagtttatca atgttgaatg caaatataat tagtgttcaa ctactcaaag ttcaaaatct32341atcaaagtct ttatcagctg tatttctagg gatccataga ctattgcttc tgattttata32401tggcacaaat tcattaagag aagtcttcag tgcttYcttt gtaaaagttc ccatgacatc32461tgcttgtttc atgggaatgg ttccttgcta tccagtgtga tggtgggaga gaaccgtgca32521ctgtctatgg tgtcctggag ctggctttta gtggcttctt agaacgaatt attagcatct32581ctttccaact ctgcatccat tgatgttaca ttgttgctta aaattggtca cagtgagaat32641atttatacca caggaattgt taagtgctac tagtcaattc tttttttaaa tatagttgtt32701aaatgttaac cagtccacca ctattagatg aaaactattt gcttctgtat gactccctct32761attgcgctat aataaatgcc tccttgcctg cagccacttc tgctggatga tccattcaag32821Wctattttca tgtaggcaat aaacaggagt tctaaaccat aaacccaaac acaaacgtaa32881gggacaagac atgggccttg gctttaagtt gttaaattac tgccaagcag tttgcgaaaa32941tctcttaaac agaattgaac tgaattgaat atgatcatWg tgttcagttg tccagtcaat33001gtgagaaata tctcttcttt ctatattatt taagagaaaa cagtagagat acacattttc33061aaaaatgttt tgccatcaat aaagcattac aaatttttgt ctataaaaat ggcattaaaa33121ggaactgaaa atgtcaatag ggttgcaaat gaggaatatt agctaccttc aactttacct33181aaaaaatcag atttcataga aagaagtaac atatgctaaa gaaaatttct cagctacaag33241ttattcaacc aaaaaacatt gttatggggg aaaatgttgt tctgcttttt ttaaaggcaa33301tgattttcct gataaccccc aatcccaaca acaacaaaaa aatatggtag acacagaatt33361agaaaaagca caagaatgaa aaaatagtgt cttttttatc tacatgatct tgagccacaa33421tttgtctggg cctgagattt tttaataaaa agtaaataaa attaatggac tatattagtg33481accctaagac atattcccat ggtggggaat gtggtcctca ctggggagag aatggttgca33541tattaaaatc acccagaagc tttatctttg aYttagagat tttgaaaaat ctctgcccat33601cctgttgttc agcatcctta tcttagtgag tcactgttag ttttgggagc tttacttctc33661aggtggaaga gggctggtga acaaactcag aattggtgaa tcagatgctc tcctgtattt33721tttctagttc taacgtacta taacaaatgc ttttagaaga aaattaattt caattcatgg33781actgctagtc cctcagcaat tgttacagat caattcagga agcaagcagc tatgccatcc33841ttgaaaataa attactatgc aagtgaaatc agatagcaga agggaataca attatttatt33901tggaaatgta tctgaagttt agatttatct cttattgaca tacaacaatt tcatcaataa33961atttcaaacc tataaattat tctgcaaatg cacatttaac ttcctattta cattttaaaa34021gcatcgcata acatgggttt cgtattagaa gtacttggcc cctgagatac tgcattaact34081tactcccttg ctgcagaatt cccagtattg ccataactga atactaacag agtgtgtgtt34141ataaaaatac cacagctatt ttcaaaataa aatatgctac gtgaacatta atgaaaaaaa34201gctgaatata atgaacaatg caaaaaagct gacttttcaa actttttttt agaattgctt34261tttctttcca gcatagttta ttatacacac aaaaacgcat acacacagtg gtgcgccaat34321aaaaatttaa caattggctc tgcagggggc aacaaaaacg ccctgatttg tagggtctgc34381caatttccat gttgtaaatc cttcgtgcct gatttcacgt tgccaacaca ccaacaataa34441atgcatagtt gggaagagag gtacagagtt ggccgtcatg agctggtaga gtcagcgcca34501gcacatggct gccctagagc ctctccatca tgcacataaa tatgtcatac agaaatgcat34561cccataatgt gtagcataca tatgatttct cacgaaagag aaagtcatac tacatgactt34621ataactaagt catgaatatt tttcctagat ttaatccaca atcattttaa ctataaattg34681gttaagccag tcaactatag tttagggcat atgtattaca tagataattt ttaattgtta34741aggtagttgg aatggttaaa aagtggctta gccttctcac tcaggtagag cctaagttgc34801atattttaga attaatcatt aacacactaa gcaggcctgc aaaacatcca tgaatatata34861tttcccaaaa tgaataaatc aaacacctga aagctgcaaa cctttatgtg aagcatgaaa34921aaatgccaat agcaagaatt tatatacttt atgcttggcc tgtttatctt catggagatt34981aatagagtga ataaatattt ataataatgg tgtaagaaca tgctgaatag tatactgtat35041taaagttaca tgatcttgtc ttgaattttg tgtttggaat agtactaaga aatatgctga35101gggagaaatt gagtggcaat tttcaaatta atatatattt aYtgagctac tactatgtgc35161aaggcacagc acccaggcac tacatgggac acaaagataa atgcatacag tcttctcaat35221gaaattacaa tcaataMggg ataataagac aagaggtcaa atatttaaca tacagggact35281agtaggacct atagaaagga aagatcctat tatttgggaa gatataaaaa gtcttttggg35341ataaggtggt atgaaaagga aatgaagtaa tgataacttg aactgaagat gaatagaata35401ggttctacta aaatttgtcc aggcccagcc taacatgcta ggttacccgt ggctacattc35461tgttatttct gctgcttaat gagtacatga caatatgttc tggtcattat aggaattctt35521aaaacaagga gtcattctgc cttagcaggt ggcatcttga ggcttttgga ttctgtcttc35581aagtttttta atgagcaaca ggccaaacgt ggattagttt gaagcagctt ctgtggactg35641tgtcaatctg tatgcgaggg tgaatgagta gagagggtgg tatggaaaac aactcctgtg35701attcccttaa ccttctttga ggaagggaaa aacttgggat aaaactgagt attttttcaa35761gtctactggt gagaaaagca tgtcataacc gaattgcatc tgtttgggta tcatagtggt35821ttggggtgta aattagttat tcgaagagta gtatcgatat gaataattga ttaattattt35881cattctacat cttttttcct aaaataattt aggaaaacaa caccctaatc agtttttctc35941aaaactaggc atttgtagcc cccatttttg ctagcaggag ttgaatgtag tttttaaagc36001tgaaaataaa ccaWcacatt ttctaaaact ctttatagtg agagcatagg tcttaggaaa36061aaatatatta gcattaataa gtaaattgtc tcaagtcata ctaaagcaca ttactaggat36121cagtaaaaaa tatatatgca caattgtgta ttagattctg tggctagcaa acgaaaaatt36181ttccaagctg accttaaccg gagcccatct tggtagatgt ttcaactatt gtcacatcaa36241ccttgagaag agttcaaaca ctaagaatga atgagggaag aggtagcggc tgaaaggatt36301actgagctcc acattgactt gatggtcaaa agggcattat ggctctgaat tttgatgagg36361cacatttacc ctttagccca tgttaacatt ttcttcagga ttcattacta ttaaaattat36421ttatgaaaaa gtttttgtRc tggatcatta ccatcagaat aatcagaatg aatgccacac36481tgaatatcaa aagaaataaa actaaaatca ttataaggac acaaccatgt gatatttgtc36541catctgctct ttaagcaatg ttatgttatt tcttgcaacc cctacacaaa ggccaagaaa36601ttacacaagt actagtttat tggttattca cggagagtga gtacctgaag gagaaggctg36661tccttttact acaccatttt tagtcttttc ttctgaattc attacttcct tgtagataag36721ttctgtaaga aacagctgtg ttattataga aaacaaattt atccttcatc cacagggaaa36781ttcattactt aatgccaaat aattacgttt tgatggggtt gagtaaatta aaaatcaRtt36841gagattcctt tactgctcta tttctatttc tatattgcct tgtaattaRc agagagcctg36901gcacaaatag gtatctagta aagcagttga agaaatcaat gcatgaaaat ttatttctac36961gtacatgaaa catactattt atttccatat acatagtatt tatttctaca tacatttcta37021cataaataac atttatttct acatgcatga aatatttcta cataaatgaa acaagtaata37081catgttttac ttgttttctg aattctttgg gggaagtact aatacattct agctcaatct37141agcaacaatt tttatggctt tgaacatcca tttttcttta tacttatttc ctatgaaatg37201cacacattct catgacttta aattattacc aatccttaca acttccatct cttactgcat37261cttttttttt ttccagactc atatcttgga cttgtaaatc taaacttgcc aaaaaccaaa37321cacattaaaa aatttagttc atttactctc agactggcat ccatttttgg ctttctgaat37381gctagagtta aattggatag tttcagttct gtttactctg tccctttagc taaaaatcat37441tccgccctac tcattcttgc tttgcaatgg cttataatct gtataatcat catcctttac37501atgtacttct ttctccaatt tctcacaatt tagtccatgt cctcctcaaa tgatggttat37561atcctatcac ccacctattc atgagcccct aaggagtgcc ttcctgtcct tacttggatc37621aaagcaactc tttttcatct atatcaagca tcttttttca cttgatccac tttttgtata37681tgttcatttt tccatattca ccaacatgac cctggaatct ctggaccagt ggaatctctt37741tagtatcttt taaaattttt ttattttatt ttttatttta catatatata tagagagagg37801cagagacttt ctctgtcacc caggcttgag tacaatggca caatcatggc tcaccgcagc37861ctcaacttcc tggactcaag tgatcctccc acctcagcct cccaagtagc tgggactaca37921ggtgtgtacc actatgcccg gctaattttt gtatgtttct ageagagaca gggtctccct37981atgttgccca ggttggttct gaactcccgg gctcaagtga tcccccagcc tcagcctccc38041aaactgctgg gattacaggt gtgagtcatc gctcctggcc ctgtttagta tctttataac38101attttctgct tattcctgtc ctttgttttc ctcttagtcc tttatctgat attttcttaa38161tattttttct tttcctaatt tacacttatt aattcctgca aggtagctca aatgttcctt38221cccttcagct cttcccattt tgatctgatc atttgctaca atctgcattt gactttctca38281tatttattct attctgtagt gatttagatt agtagattag attaataggc tactcagata38341cacatatttt ctatgtaaat tctcaagtct tatcaatcca atgagtaaac tcatatattg38401actatctttt attttctaaa gtctaaaacc atctcagaat taattttaat ttcatgcttc38461atatgatgat tttatgtaca aacatagaaa gttgtattct ggaattctga actaaagctt38521gccccccacc atgacaaaca ctgacaatca gtaccatttt aaaaggtatc gacaaacact38581gacaatcagt accattttaa aaggtatcaa tggtaaatgc ctttcattct tgagcaaaYg38641tgacattgct ttcggcMtga aaagacagat gaagttttag gagctttaaa aatggtctaa38701gagaatagca gtcagcaaat cattttttag taaattgttt tacaaggaaa agccttgttg38761atactttctg agttcaataa aataaaaagt atactttttt aagtagtaga cttacctttc38821cattcttcaa ttgtgtgttc tctttcatcc aactgcttgt cataYatctg aggtggaggc38881tgccRaataa aaacaaaaaa taatctttgt gtgataatgt aaacataact aaactcttac38941aaYgcacgag aataccttgc cctcatttat ttcggtgatt tcaaccgtat ataagttatg39001aggaaattac agtagttcag aagttaaaat tttcYtgtaa acttaYggag gattcattca39061tattgcaata tttgctgctg acccaatatt gctgcaatat ttgcagcaga acgcaaatcc39121cgagagctca ctttccgaca tcttctgatt tagaacccac gcctaagcaa ttaatgactg39181gtcttttaaa aaacagacaa aacacttgat tacaatgRcc cagaagctac ttttccttca39241Ytcacttgcc ttataacaga accatgctaa aattcttcta ggctaataag attttgttct39301atttttagac cttccctaaa gaaaagttta tatttctcaa cagaccatag tactagtcct39361caatataaaa aaaattgaga tcaaatcaac ctttttattt ttcatgaaat accatagaat39421gtctttatat attgctgtgt gccctatact taaacgattt taagcttttt ggtttgtttg39481tttatttgtt ttaacctgca gaagctgcca tgactgtaga ggtaggtcac cttgaatccc39541tgaatggccc ttggttagtc ctctctagca gaaatgatgc aatagggcct tcagtctgac39601ttatagagcc agcatttctc ttcccatgtg gagttcaaat gtggaaaagg agggattttc39661acaaacctgc gtgcctactg gaaagtggaa tctcaaataa attctctgac ctcttcttcc39721tgatatttag gctttgggag atctaccatg gcggctaggg tagctccaat tcaggccaag39781tgatatggaa agaaaaaaaa aaggctcttg gaaaaataaa tcaccatgag gtagagaaag39841aggaggctga ggggctacac tggctggcac cggtttaagc gcaaagaaga gctatcaagt39901ttttgctacc ccgtccaata ctccaaaagc aatagttttt gtgaaaaact aaaagagtca39961ctcaataaga gtgatgcaac ccctttagga cacagacctt tcaaaaatgg ctattatagt40021aaggaaagct ctggacaaga ttttcagaga cagcttctgg cttctgtgag agctttttgg40081ctcatgaaca gcaccctcgg gctaMagtga cccttctcta attcatgcag aatctgtggt40141agcttgaatc atgacagaca caaatattca tcctagccct ggcatgctgg ggcctcacat40201cctgcaaagt atctggctat gaaaatagaa gactttgccY ggctgtggtg aagtaactta40261gcataatact gaagtattga gaaataacta ctcacggagc cagacattct tttagcacgt40321ttgactgata ctggggcaga aggctgtaaa cctcacctac tgcatttcag atgtggctgg40381ctgagcagct ctcagcagcc gtcagcactg acaactaagc aaaatgagac tctcacacca40441ccccagacaa tagtaagaac acaacacatt gaacgtatat aaggtgacag gactgggata40501gtcaggcact gctctcagga cctgactgag gtagaacctt ccacctctat aaaggactct40561caaataatag aaacattctg acttagtgag tgaatgagta aaatgaagtt atttttgaaa40621aattgtgaaa ccattaccta aggaagctac cacaaagcca aactctggtt ttgtaaagac40681gctttgccaa gtggtaaatt tccggctttg cctcttcctg agcatgtata atgctgtggt40741taggccgcta tccaagcgac cttgtccagg acccctgcag gacacagtgt acataagctc40801tcagagcccc cagagccctc tgagctgttg gcacctcctt cttcttctaa caatagatcc40861agctcatgat cctgcctggc tggcttctcc atgcagtgga tttttccatt caagttttaa40921aattgaacat ggctcaagag tacagttcct gccaaagttc ataaatgcca ttttcttttt40981gcaacaaagc tattttcagg aggtttccct aggagcctca gtgtacagct gttgctgata41041tataaagcac aaagtacata gacactaatc acaaacaaac tacaagagag aatgcaaagt41101gctgagttca agatttttcc tttcaacaaa ccaagagggc tgctttaaac cacttgattt41161aYagtatttg ttcgacggcc tctgcaaatt tactacatat tcagattttt gattgtttgt41221tttttgaaga ggaaatgcga atgtcacctc cagtgaaagg gcacattcac atacagatgt41281cttctatgtg acaatataaa agaataattg accaataatc cagagagagc aatgttacaa41341cacacacgta taagtgctgg gcagcaatca tcaggatgag atagttcaaa acattccctg41401cctccttccg ctaaggagaa gttggtattt gagcactcgc ttgtgctctt tccctatctt41461atttaatagg aattattctt ttgctaagtg acaatctaaa taaaaaataa atgaggagtg41521gggataaaga aaaatgcccc agaggtgtct gttgagagag tattttagga gagtttagca41581gataagagta attgagatgt gagaaatgaa ggataagagg acattaaaga tagtatatga41641acagttatca gggcctgtga ctttcaccct ttgaatattt tttcaaaaga ctgtaaactt41701ctttcatatt attttggaag atttgaactt ccttggttga aattattgca gaaattcaaa41761cacaaattta tatggattgc ataaacaata acttaaaatg gattagacac atttttattg41821atggttaatt tcatatgaat ttatattggt ggtcaattat atgaatttta tactgatgaa41881acatgtccaa attgtttcaa ttaaatgagg aaaaaaacac aaacaagtac atggtcactg41941tgaattaata aatactagaa tttatttatt tctttattaa atgtattcat tcagtaaagg42001tcttgggcac ctaacacatg gcagactata taaaaaactg agatttcaaa attgaataag42061gtgactgctg accacaagga gttcacaatt tactggggta agactgatgc aaaacagatc42121attagtatac aacatgataa atgatagaaa cctgtatatg gtctaaggga acagggtgga42181gaagtcctaa caaagcctag atttgatttc ctggagtaaa gtgatgctta ttcagtgagc42241gaaagatgtg tgggaggttg tcaagataaa agaaggagga aaaaagtgac tccatgccaa42301gagcacatta taagccaagt tacagtatgt agaaaacaga ataggggtgg tggtggtggt42361ggtggtagtg gtagtggtgg tgcatgtgtt tctctgtgtg tacatgcatg ccaagaaaac42421aagaaggaat tttgtcacag taaaataaaa catgtcgtca gaagtgacaa gatataMgag42481ctgtacttag agaagcagaa gggtcagaca aagggtggat caaggatgat ccagggggcc42541aggcgctgtg gctcatgcct gtaatcccag aactctggga ggccgaggtg ggtggattat42601ttgaagtcag gagttcaaga ccagcctggc caacatggtg aaaccccacc tctactaaaa42661atacaaaaat tagccgggca tggtggcagg cacctgtaat cccagctact cgggaggctg42721aggcaggaga atcgcttgaa cccgggaggt ggaggttgca gtgagcccag attgtgccac42781tgcactccag cctgggtgat agagtgagac tctgtctcaa aaaaaaaaaa aaaaaaaaaa42841aaatgatcca gggtatcatg atacggaaga aagaagaaga gaaaccactg aggaatgtaa42901gagaacggaa cagtgaaatt tacagctgga ttgaagaaag atgtaactgt aagcagagag42961aagaggtagg gagccattgc acgatctata aaaaaatatt gaaagttctg actgcggtta43021aaaaaaaaaa aagatgaggg tgaacgaaag acacagattc aggaataatt aataaatgtt43081aataaataaa cttggtagaa gttggttttt gattgaacat atgtgatggg agagaagaat43141atgagtcccc aatttctaag ctgagtacct gggaagatga tcgtgttggt gaagccatct43201aaagaaatag agaatggaaa aggggaaatg agattggtag aggtgagcct aagtgttatg43261tgagaagaga tgatgatttg aaagttaagt atataatctg aagttcagag gaatgctgtt43321ggctagagat gtgtatagat ttgagactaa cagcaagtga tgtttgttga aactatgaca43381gtggatgagg tcacccaggg aagatatgtg ggtatagaga gtaaatggcc aaattaaaat43441ttaaagattg gacagaggaa ggtaagttca ctaaggcaaa agagaatagc taaagaaata43501catgaaaaat gagaatattg caatgttata gaagtcaagc aagtagaatt tcacaaaaag43561ctagtaattg gccatttctt gcaaatgaag cacatgagga ttttgactcg cagggcacca43621gaaaggcatg atagaaagca tgcctctgaa ccctttgaaa gctttccaaa ctttaaattg43681ctatcacccc cagaaagatc cagatagatc ttcggtggag gacgttaata tgagacatca43741cctaaacaat tgaataaaat gtagaaaaag atcctcaaca ccaatataat taaaaggaaa43801gaaaccatag aacaattgtg acactagaaa aactataatg atctcagatc tactctctca43861agtctctgag aacttgataa aaaaaaaaac actgttctct atctagttaa aggaagtcac43921tttttttctg agaaaccacc atatgttaag ctgtctttat atagacctta ataatcctca43981cagtcaggaa actaagattc aaggaaattt taaaaaatat atcatgaagt catatagcta44041attaatgatg aaacttttat taaaacccaa tttaaagagt aatccagagc aagtgtcaat44101actgttgaat ctaaaataaa gactaataaa acaatattta aagtgaacat ctttgtaaaa44161caagaaatag aaacataagc caatagggtg accatatttc ccagtttgta caaaatagtt44221ccattttatg cttattgtcc ttgtaattat tagtagcact tacgcccttc gctcctttaa44281gtgttgtggt ttggagaata aatatgtgga cactctacat agcaatgttg tgacatggca44341tgttagagat ctaaggtata cagtaatttg aggacaaaga aaacaactga attgcaatgt44401ttttctacca ctgaggtttc aacaattgca gctgtacctt ttccttctct gagacagcac44461gtcagcattt ccttccattt tctctatttt tagaaacgta aaattcagct ataaaatatg44521gctgttggca gacagtacag acaagagtag aattctgcat aataaatcta tagttgaaaa44581atatggattc tgtgggcatt ctatggagtt cttgctgttg gccatgactt tctactaaag44641cgatctcttt aacaagtacc tgttcaattc ctaattgagc tttcgaaggt aaaagttgct44701ctttctgcct gtaatcccag gcctttggga ggccgaggtg ggcagatcac gaggtcagga44761gatcgagacc atcctggcta acacagtgaa accccatctc tactaaaagt ataaaaaatt44821agccgggcat tgtggcaggt gcctgtgttc ccagctactc gggaggctga ggcaggagaa44881tggcataaac ttgggaggtg gagcttgcag tgagccaaga tcacaccact gcattccagc44941ctgggtgact gagcgagact ccgtctaaaa aaaaaaaaaa gttgcccttt cttgtgactt45001cattcatttt atcccatata tataagtaat attcattgag taaaatgtgt gaatttattt45061tttactgaat ctttgagata attttcaaag atacatggga agtatctttt tcaacagcat45121tataggatat tagtggtaaa agaaagttca gagattatct aatgccaccc ttattcaatt45181ttcaaatgag aatatagaaa ctgagaaagc ataagtgatt tgcccacaat cacagagtta45241attagtgaca gatgaataca tttatggtct cttatgggaa aagacagaat aatggaattc45301ttatggttga agaaacttta aactggataa tttgacacct gtaaaagata ttcattaaag45361acaaatttgt gcctgccaca cactgatttc tgttccaatt ttctgtcagt ctacacttac45421agctagagct ggcaactatc atacaagcag tcaacactta cattcttaaa cacttttttg45481tcaaagtatc atggacatca aagacctcta aacacatgaa tctctaaaga gataaaaacc45541agatatgaga aatctaagtt gtacaaagtt gttcctttga ttcttctttg agccctgaac45601tgacattttt ccctaacact tatgctctga accatatgac agtccatcaa gttgttggtg45661tttgtctgct ttgtcctaat taaggatctc cctgtgttct gctgccttgt ttaaaatgtc45721aacaaaagct ttaaatagca ctgtatctca gtgtgtgcac tcattattaa ttcaacatct45781ggatcaaagt aaatgatatt atatcttact gaaatatgct ttgttttttc ttattaagct45841tggcagttag atgattgtca aaagatgcat gctttattaa aacgctttaa gcaagaaggg45901tatatcttag tacaaaatta gatagaacag gaaatccatt aaggaaatat acaacatttt45961gattttatat ttccttgaat ctctacacat agagttttct aatttttttt ttcttaattt46021gatgactagg acttgttaaa ttttcaccaa ttaattagaa aataaaaatt ttggtaaaat46081gactctgatg aagcacaaaa tgatatgcac ttttattgtt ttatttggct aatggcacag46141tttagcatgt ccaatttttc tctaaagcct tatattctct gtggcaccaa Sagcagttca46201ttaccccaaa atggagctca gtatttgttt cacaaatagt cttaccaaca atcgccaaaa46261taatgaaaat attattgcaa tatgcacaat tatcaaaaga attgattaga tataattaat46321tcctatgatt tctcagtaat gtgaccttac tatgcattaa gcaatgacct ggtttccaat46381taccaaaaac ttcattgcct tctgaatgta gatatatggc attttgtgat gtactatccg46441ttgattatta aaaattgctt cagcaagttt caggaactat gtctgtgttc tcaaacagaa46501attaaataat atactactac agattaaata aatgcctttt aaaagtatga tttgaggaga46561tgtcagcaag atgataaaat aaggctctcc agtgctccct ctctcacaga aacatcaatt46621tgaacaacta tccgcacaca aaaatacctt cacaaaagtg aaggaaacca ggtgagagat46681ttcagcacct gggtatagca cggaaacaag aaaagatgca ctggagagag aggaaggaca46741gtttcacatt acctgcttca cttttccccc aattaccaga cagcacagca tggagacaga46801taccctccac atgatggtag gagaaggaag tgagcatcag actttgcctt agaccccaac46861actgggcctg ccacagaaaa acccagcacc aaagagaccc tcacagccct agacaccagg46921ctagtacttg tggactgagc ttccacacct ttcccagcac tgatcagggg cttatagcct46981tagactcaag gtctatacag cagacttggt ctctgggcca ctctactgcc aggtctacct47041tagcagccca gcctctggaa cttctccagc actgggctgt cccctataat cctggacatc47101agatccatcc cagtaactga ctatttcctg cagactcaga ctcaaagcca atcccagagc47161caagtagccc cctgtggacc caaggataag gccagcctct acagatgtag gcaaatattt47221gcagacatag gcgtcaggtc tgcccttgtg tacccaggtt tcaggcctat ccatggggac47281tcaatcaata ggtccacact tgtggatcta gacttaggcc caaccctata gacccaccca47341cctgctgacc caggcaccca gacaccaagc ccagccaacc tacctgagga ctccaacagc47401aggcctaccc ttagacgaca ccaaatggca tgcacaggtt ctatggaaag gctgactgat47461aaagagtttt cccagacaaa gccagtctgc aaagactgga ataagccctt acttcttcag47521atgcacagac atcagtgtaa ggaaataaga aacatgaaaa gctgaggtga cataaaccac47581caaaaaaata caaaaatctc ccagtggctg agtcaagaga agtggaaata tataaactaa47641gagacaaaaa agtcaaaata attgttttaa ggaagctcaa caaacttcaa aaaaattaca47701gggaaacaat ttcataaaat caagaaaaca ataaataaaa caaatttaat agagagattg47761aaattatttt tcaaagacaa agagaaatcc tattgccgaa tataatgaat gaatgaaaaa47821tgcaatagta ggattgatga aggagaagaa agaatttgta gccttgaaga caagttattt47881aaaaatatat ggtcagaaga gaaaaaatga aaacaaatag agaaagttta tgtgatttat47941gggagagcat caaaagagca cattttttag ttcaagaaga gaaagacaaa ggggtaggaa48001gtatgtttaa ggaaataata acagaaatgt tttcatatct tgggaaagac atattcacgt48061agaggaaagt taaagttctc taatcagatt caattcaaac aagattacac caagatatat48121cataatgaaa tcaacaaaaa tcaaagacaa agaaaggatc ctaaaggcac caagagaaaa48181gaagcaaata acatttaagg gaatgttcct atcaagctag cagatttttc ggcagaaacc48241ttacaggcca ggagtgtatg ggacaacata atcaaaatgt taaaataaaa taaaaaaact48301atcaattagg aatactgtac cccacaaagt tgtccttcag aaaaggagag ataaagtctt48361tccacaacaa aagttgaggg agttcaccac cagacctgtc tcacaagaag atgcttaaga48421gagttcttca ggctaaaaga aaagcattct aattagtgac acaaaaacat gtgaaagtgt48481aaaactcact tacaaagata agtacacagt caaactcaca acaccctaat actgtaatgg48541tggtatgtaa ttcacctata tctttaccat gaaggtgaaa agaaaaaaac tactaagaat48601aacaatagct acaataatgt gttaaggcat ctacaaccac ctgatcttcg acaaacctga48661caaaaacaag caatggggaa aagattccct atttaataaa tgatgctggg aaaactgcct48721agccatatgc agaaaactga aaccagactc gttccttaca ccttatacaa aaattaactc48781aagatcgatt aaagacttaa atgtaaaacc caaaaccata aaaaccctag aagaaaacct48841aggcaatacc attcaggaca taggcatggg caaagacctc attactaaaa caccaaaagc48901aattgcaaca aaagaaaaat tgacaattgg gatctaatta aactaaagag cttctgcaca48961gcaaaagaaa ctatcatcag actgaacagg caacctacag aaagggagaa aatttttgca49021atctactcat ttgacaaagg tctaatatcc agaatctacc aaatttacaa gaaaaaaaca49081aacaacccca tcaaaaagtg ggcgaaggac atgaacagac acttctcaaa agaagacatt49141tatgtggcca acaaacatgt gaaaaaaagc tcatcatcac tggtcattgg agaagtgcaa49201atcaaaacca cagtgagata ccatctcatg ccagttacaa tggtgattat taaaaaggaa49261acaacagatg ctggcgaggc tgtggagaaa caggaacgct tttacactgt tgctgggagt49321gtaaattagt tcagcaattg tggaagacaa tgtagtgatt cctcaaagat ctagaaccag49381aaataccatt tgacccggca atcccattac tgggtatata tccgaaggat tctaaattat49441tctgttctaa agacacatgc acacatatgt ttattgcagc actatataca atagcaaata49501cttggaacca acccaaatgc ccatcaatga tagactggat aaagaaaatg tggcacatat49561acaccttgga atactatgca gcaataaaaa agaatgagtt catgtccttt gcagggatat49621ggatgaagct agaagccatc atcctcagca aactaacaac tagcacagga acaaaaaacc49681aaacactgcg tgttctcact cataagtgag agttgaacaa tgagaacaca tggacacagg49741gaggagaaca tcacacacca ggacctgtca gagggttggg ggcaagggaa gggagagcat49801taggaccata cctaatgcat gctgggctta aaacctagaa gctgggttga taggtgcagc49861aaaccaccat ggcacatatt tacctatgta acaaacctgc acgttctgca catgtatccc49921agaacttaaa gtaaaatttt aaaaaaaagt gttaagggat acacaatata aaaatatgtt49981aattgtgaca tcaaaaattt taaatgtggg aggaatggtg gagtaaaagt atagtttttt50041aaaaatgcaa gcaaaaagtt gttatcagct taaagtagct tgttataact ataagatgtt50101tttgtaattc tcatggtaac cacaaagtaa aaatttatgg tagagacaaa aaagatacaa50161agtagggaat caaagcatac caccagagaa aattatttta tcagaaaaaa aagacaaaaa50221aagaggggaa gaaatgaaca aagaacctac aaaacaacca gaaaacaatg agctaaatgg50281cagtattaag tccttaccta ttaataatta ccttgaatgc aaattgatta aattttccag50341tcaccttgga tgtgaagggg gctgagggaa tagaaagaaa agactccaag gtatctcatt50401atccagatga aaacctggat agaaagtagt gccatgaatt ggaaggagga agcatagatt50461tggtgtRgag aggagatatg gccagtttaa tatttaatat gttgattttg caatgccaat50521ttcaattcca gtgactgtta gatttataca tctggaactc aggccagctc tatgggacga50581tgtgtagaat tgagccattt atgataatta aaattaaggc tgtggtggaa gataagactc50641ccagagagaa aagaaataag ggctataaag aaaaaatttc tgagatgcac aattctaagg50701gaagagagaa caacccacat tgagcaatgg aggctgcagg agaacaggtg tgctgccacc50761acagaaatta acatgcaggg gtgcagaaag gaaggtgttg tcagcttatt caaatgggca50821aatacatgag atacccattt ttttggactt ggcacctaag aggccactgg tgaatttaga50881gaaagcagtg tcaatgttta aaaagtgaac tggagtaatt gtgagtaaac aaggactaat50941gttttataga gacttggcta taaagctata agtcatactt ccattgctaa aggtagaagt51001gtagttaaaa ataaaggttt gctttgattc tttgttcttt gaaatgaaag agactagaac51061atgtttattt gtaagaagta attgccactg gaaactgaaa cataggacac acacagagaa51121ggaagagacc cacatgcaga aaacaaaggc tataaataaa agagtacagt gtcctgggtt51181ttcctggatc ttgtgtaaat gactccatca cagcattatc atgttttctt ctcaacatct51241tcatcattct actaccattc gtagaaagtg gattttcata tattatctca tttagtcttt51301gtgacaaacc tcctattcca agtatgcaac tgaggcacac aaagatttaa aaatctatga51361gttagtagca gaggccatat ttaaacccaa atctaactga atacaatgtc tgtgttcttt51421gcatttttcc accccaggct tatagttcct actaattcaa cctattgaaa tatattttaa51481cgttttatta ggcaaacaaa gcaacagaga acagcaggga aaaaggcgac 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caaaactttc52381ttaagtactt gcaatgcgaa aagcatggaa ttataatgtg ttataaatgg aaagcactaa52441tgttgcttag agacatcata gcattaggtg accagaggaa cctttgaaag ctagtaatgc52501aaattttaat tatgatctga actgagtgta attagaaagc ttaattacat aatgctccag52561tggtttggca aagaagttga attcagtttt ctctattttt cattctgttc tgtagttttc52621tcagatttat ttattagctc tacaccatca aaaagtgtaa tcatgtcttg aaaatgaaat52681ttctctttcc tgctccttgg aaattaaaat tttctatggt tctttaactg aaaagtttca52741gtaattgcac caccaatcac ccagtgcctt ggtcaggaat ctttctttct tcattcgttc52801atttaacaca tatttattaa ccctctacca tatgatatta ctcatctttg aattccacct52861cccttaaatt ccaaatttaa ttatttacaa ttcatgtcaa ttattagctt ctaaacatct52921cttgaatatt ctgYccatgt ctacagtgat ttagattact acagatctat cctcctgcct52981tctagctccc ttttctcaac tccagtccca cactgcagac agtggccctt tgaaacttca53041aatctgctaa tgctattgcc ccacttccta gtgaatggct tcccttcacc ctaggatagc53101atgcatggta catgacaatg cttgggaact ccttccttat ctggtccctg cttaccagcc53161caaaataatt tctcaccctt ctccattaag tcactcagaa agcttaaagc 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aaatctacga54061tatattaact cggaaaaatt ggtcaggtaa agagatgaaa taaattatga catgtctgac54121attactcaaa taatttttaa aaagtagatt ccagcttttg atatacacat attagccaca54181caatcatggg caatgtgctt aacatccatt aacatcctga gctttagtgt cttcaattct54241aaacacagat acattcattc agcaaatatt gattatatga ctactaaggg ccagacagtg54301ttctaggtag ttgggataca gcagtgcccc aaagagtcac tgtctctctt tttacgcatc54361ttaaattcta gttgatgaga cagataataa aaagagatat ataatgtcaa acagtgacac54421atagagaaaa aagattaaga ggctagagtg taacagagta ctattctatt ttttcttttt54481agtttttttc tttttgtttt tgttttactt tttaaactat tattagtatt atttttacaa54541acacttgtac caagggctga ctttcaatag atcacagcaa ggatcccctc tgctacatat54601gaaaccctga cccagaagca ggtcatctac ttatgtttta gtgccaggtt acacacgaat54661gtgtgttaca tgacgggcaa gggggcggcc gaagagtact attttagaaa ggatggtcat54721aaaaggcttY tttgagaagg taacatttga gcagagattt gaatgaagta aaggagggag54781caatgtgaat atctggagga agaatgtccc aggcagaagg aaatacaatg caaagaccct54841aaagggggag cttgcttggt gtggtaagga aaccgcaagg atgccatata 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cagaatcact56581tgagagtgag gatttatttc caattaatta acatgcccac aagaatctgc cataccccac56641atgaagaatc attgctttaa tatagattga tgagttgata acgttaatga gttgatgact56701gtctctcagg tatgttgggg aacaaaaaag tttgagaaac aaatacagtc ataaagaact56761atattctaat aataaggcgt taccattgct cctacttttt aatgtattat atacattatt56821atataatact ttttaatgta tttaataaat atatctcata gtggattttc ttaaaacaga56881gcttgccttt tcattaagta attactccaa ggagtaattt taaaagaaaa taagtctaac56941tgagcttttg tgttaacatg ataggaactg ataacatttc catttttctt atgtcacata57001gactaaaact gttcagttta aaatagttca attacctcca taagctttaa gaaaaccttc57061tttaataaca tcctatgttt tcaaagttaa ttgggtactt tcacattttt ttcctttaaa57121acattattag acaggacatt tcatgggtaa agattagtga tgcaattata ccaccatctc57181tgaatgtcat tctttcttca tctccattgc cattgaagtc cattttgtca tcttttattt57241caactacttc actagcttcc taaatcatct ttctactatt ttatcacttc atcagtcaga57301aagaatgatc tacctaaaac acgaatccca ttgtgttact ccctgattaa aatctgttcc57361cccaagcctg cagcttgggt accctctggg aatgacttaa aaggtgtttc 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tacactttct59101gattattttc ctttctctgc tagactgtca aacttcttag tttacttcct aatattgata59161gcatcaccag ctctaagcat gacttctcaa acaagatgtt tggttaattt tctgtgtgtt59221tttgttgttg ttcatttgat cgtctcaact ttttgttgca atgcacaaca taaccacctt59281cttagatcat ggacaaagaa acaaacaaaa atctttggag acaaacatgg cagaggaaaa59341taaatatcgc aaaggaagtg agtgcttccg aaaaacaaag tggaaacaaa gtatgaggaa59401cccctgaaag cctcacagca taagaaaaga actagctact tgaagagtag acagtggcta59461ttaatttcta tttcttgaaa aaaaaatacc attttaaaat tgtcRgggac cacaagaaac59521tgtttttata atgttaatag tttttttaaa tcacaataat aaaaattgaa agcataatat59581tttacattta tcagttactt ctgcctccac cactttcctt aaaaaaagta ggacttttac59641agatgaaaga gcattttaat acaaatttta aaattacccg aagacaataa attatttcct59701aaaacgtgta ttaaatcttt ttgttatgtc tataaatgat aatctagtct aagagtaact59761tatcagcatt tttgcagtcc cctcccccca tccactgaaa actttcttta ctagactcat59821gattttcaaa attttaagaa ttaaatttgg agtaaaggaa ctccgaagat ctgaaaaagc59881ctgtgaactg gatgtccaga aagatgtaaa tacataatta ttgatagaaa attttgggat59941gtttttcaaa agcccccaga agttcctcta aggaaccctt aggggtcata ggaaagctca60001gtgctgggta gtgagctcct aagagcagag aaatgccctc ctgtgtgcat ctctagatct60061ggtacagttt cagcattcat aggggtgcta taaacatttg ttacgttgaa tcatggagga60121taagtatgta tatactcggg tgttgttgtt gctgttgttt gagatagagt cttcctctgt60181cacctaggct ggagtgctgt ggtgcaatct tggttcactg caaactccRc ctcccaggtt60241taagccattc tcccaccaca gcctcccaag tagctagtgt aagccaccat gcctggctaa60301tttttgtatc tttagtagag acgggatttc gctatgctgc ccaggctggt ctcaaactcc60361tgagttcaag tgatccaccc gccttggcct cccaaagtgc taggattaca ggcctgagcc60421actgtgcctg gagggtattt tttttttaaa aagaagaatg tagtatttaa aagttcatca60481tgcaattaaa cctcattgat tttgagagca aaggagcaaa gaaaaatctg gcaaatagca60541aacctactac ttaaagtaaa cctttaggaa cttaagcagg gctgctcacc aaataattct60601gctgggtaca gaactgatgt ggcctttaaa ttacagagtt tatgtataat aattaacatc60661caggccttgc agaaaacaat attacctctg cagagcatat cattttcttt attgataaat60721gctctttact gaaaacacaa tgatatgagg atgggtagga gtgccttaga 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tgaatatccc61621aatgaattaa aattaagatg aacctttctc ttcaggaata gaacttgcta aaattagaga61681taaatgagtt acatattttc agtgaaatac atattcctat tataagtcat atagggagtg61741aggctcctaa aagcaggtgg ctaactctat ctacaacaaa cattttgaca agctcccacc61801aacataatac atggcatcaa aacaatccga aggcaattca aacgatagct tcacgttaag61861cagctgaggc actgggcaag caaaatctaa tgaagctata ttttctctgg aaggcaatta61921gtaaactgct catattttgc tgctgaaaga atacatcagc atgaacagat ggaaatttag61981aactccacaa atggaattac agacattgat ttaactttcc ccaagcaaat gaaaaccaca62041aaatacgaat tgctctttct ataattaagc acataattag agtgcatcag attcatatcc62101attgtagctc atatttcttc ctcctcattt ctaaatttat atatattctg agtctaacaa62161acctacttag agttcaactc cacactgaaa gagtcttcta tgacagatag atggtactaa62221actatttctc aaattaagcc tgccatgggt cacactagct ttttcacagc atgacacatg62281cggcaataat aagaaatcca aagactcaaa gaggtagtcc ttgtggcagg acagatggag62341agaacagctg agggaggaat tcagccagtt tattaactcc atgtgagtag aacaaatcat62401atttaaaaga attcataagg acatctggtc gaaaaacaga atttaaatga 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cacttgagag63301ttgctattaa attttatata ataaacttca cttgcaaact gacttccttc tcagacaaat63361caaatgacag caaacaaaaa taatgcctat taactatttt aagtacatta ctgtaccctg63421tggggaaaat caggaaacaa aaactgtagt ttcagaattt cagatggatt agttattcag63481aaattgtctt gaggacatgc cctaaccttt tgatatcact catcaaagga aaatgtgact63541cacaaagact ttaatcccct ttcctcccaa cgggagatac agtctgtata gagagctgtt63601tgcatttata actcaYttaa atcatgtctt ccagatactt caggtttaac tcacagtgct63661acactcaaac taaccaattt aataaaagga ttataaaata tttgaagcaa acttatgcat63721attttattca atggtttatc tccaaacagt agatatctac tgatgaacta tttgaacatt63781agatgcatca aattcatatt cattgtagct catatttttc cttatcattc ctaaattcat63841atatactgag tctaacaaag tacattgctt ctagttataa tcaaatatat ttataagtct63901attcttcacc atgttgtttc aggaatttat tatggattca agagaattca gtaaaagaca63961actggttaag ccacagttaa taaag4taga aacaatgcaa acaagaactc attcatggag64021tagatttaat agagcaagta acacaggata ttcataatca aatgatatta gcttttacag64081taaaaatgta tttgagagaa ttaaaagtca gtgataataa ggaatgagaa 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ctgatggatc81781ttgactcttt atccaatttg ccagtctgtg tcttttaatt ggagcattta gtccatttac81841atttaaagtt aatattgtta tgtgtgaatt tgattctgtc atcatgatgt tagctggtga81901ttttgctcgt tagttgatgc agtttcttcc tagtctcgat ggtctttaca ttttggcatg81961attttgcagt ggctggtact ggttgttcct ttccatgttt agcgcttcct tcaggagctc82021ttttagggca ggcctggtgg tgacaaaatc tgtcagcatt tgcttgtctg taaagtattt82081tatttctcct tcacttatga agctcagttt ggcctgatat gaaattctgg gttgaaaatt82141cttttcttta agaatgttga atattagccc ccactctctt ctggcttgta gggtttctgc82201cgagagatcc gctgttagtc tgatgggctt ccctttgagg gtaacccgac ctttctctct82261ggctgccctt aacatttttt ccttcatttc aactttggtg aatctgacaa ttatgtgtct82321tggagttgct cttctcgagg agtatctttg tggcgttctc tgtatttcct gaatctgaac82381gttggcctgc cttgctagat tggggaagtt ctcctggata atatcctgca gagtgttttc82441caacttggtt ccattctcct catcactttc aggtacacca atcagaccta gatttggtct82501tttcatatag tcccatattt cttggaggct ttgctcattt ctttttattc ttttttctct82561aaacttccct tctcgcttca tttcattcat ttcatcttcc atcactgata 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gttctgtaca100261ctaatgctgc caaggtagaa ttctgttggc ttttaaaatt ctgattcatc acattctttc100321atcatcattc tatcattccc ataggcagaa ggcagattca cttgcaactg taacaatcag100381atgctgagtc actttcctta gaagaaatgt tgagtaaatt ttggtgttac caaaatatga100441ttaattttca gagtgagaac ctctgaaaat ctcatgtcac attatttgtc agaaattagc100501ttataataaa ttatctttct tctacttcta accaagagat agaaattata caatgtaagc100561cctggaagtt aaatctaaat aaataaagaa ctatattgct acttccacac tccatctaat100621agcttaaatt atgatccaca attaaataat tttgagacta tgtgagcttc tatcctggaa100681aatgtttcct ctctggggga ttacgtaact cttttatcac aatttctgag acttctcctt100741aacacaccta agtatatttt catttagtgt agaatttaga caaattttct ctcaatgaat100801gactcaacac acaatagcaa gaagatttaa tatagttttc taaaatcaga acatttcttt100861gaaaattatt tgttataatt tttataaaaa ttataagtta taaagttagc agttataaaa100921ttagaacatt tcttttaaaa ttagttaact aagtcataaa tttagttgtt taacaaaagg100981accttgtact aaacttcagt tcaaagacag aattctaaaa gaccactgat atacataaat101041aaactaagaa tgtacatatt ttgcacatgt gaatctaagt aagaaaaata agcaacaatt101101cgcagaactt aatgctaaat attgtaatgc caggaaatca gaaaaagact ttctccttga101161atctacctat taaacttgct tttatttctt tacaacctca gaatctccag ctcccattct101221ggtgaaccct gcctcacatt ttcataaaat aataacaaaa gagaagagtt agcaggcaca101281ctagtggtaa aaatgtattc ttttaaacaa attcaaataa taattttatt tttaaatatt101341tatttataat tacatgcaat ttgcttatag atttgaaaga atgcctacta aattgtttca101401tcctaacttt atttaaaacc ataaatttta tattgtttga aataactctg tattgtctta101461attctaagaa aaagagttag actatatagt aagttgttag ttgcaaaagt ttattaggaa101521ttaagcacta ttatttcaaa gaggtaagaa gaattttaaa atatctctgt gctagattga101581tataacaatc tgtaaccaca aatttttgtt cattttactt tgatccttcc taatgttcat101641attcaaactt taaaaagata cagcattcag ttaatttgag ggtgtttttc ttatttcttc101701aaatatactt ttggaaaacc atttacctat tccttaataa cttggctcct tggcaaggtt101761atatgtatat ctctttcatt ctaactgcaa tttcctgttc ttcagaggga aaggcaagag101821gagctatttt agcagtccag ctgttagctt tggatataat atacttgagg tccagaattt101881tcaaatgcat gcagtatgcc tgtctttaac tttatatcca gagaatattg gccaagaact101941tagataaagg gacatcacag ggtttgctca aagaaggtgc tatcatttga agtagaatgg102001aaaaaataag gttgaagaat gtatctaaaa gaagcaggtt tgaggaaagg actcatgaaa102061attatactgg gactatagga gtctttgata atcaacaaga tggcatgtcc tggttggggt102121ttggggtggt ggaggcagtg aatgactgga tagttcttag aaaaaacttc taaggaagca102181ttgtaaagct gctttcctgt aaattttatt gaaaggaaca aaatctgagt gaagctaaag102241tcactgattt cttttatctg ttctttggac tacataaaaa aaaataatgg acttggccta102301tttactactc tctaacttga aagtcagcat gcgtttaaga atgtttaaag aatgtttagt102361aacatattta aatatgaatg tgcattataa tgttcaaata aactacatta tgtaaaaata102421tatgctatga aatgttttaa tcataaaact atagtgaaaa ttaagtgtat gatagtgtat102481gcataattaa gaaacacttt acacaagaaa aataagtatt aagaagtgat cctctggata102541ttaaagtaat tagcaaatta ataagtggaa aagcaaatat gtattgttta ttttgttcaa102601ttttattttg ccaacattct aattcagtaa ccaagacaat tccctgtgat atcatctaga102661tcatatcaac caccaagaaa cccccacgat gtttctcaaa atgcaaagat agtttgaatg102721tgggaaagta gttaaacttc agtcatcaat gacaatttca taagattctc tgatttgtca102781agacatttta ctatttttgc ttagggttca agtttaaaag ttctgtgaag agagaagaaa102841aatgttgatt attatgatag tattatcaca tcatttttca gcctcaaagt aatttaatat102901aaattactct gaataattct aggtgaaaga catgagaacc tctgattgtt ttttgaaatt102961tctgcagagt cctggaagta gtcaaggtat caattagcat atacttagct ttgatatttc103021ttccaataaa tgttagacta atttcaatat gcttaaaatt gtgtaattct tctgccgata103081aataacttga atcagccctc agccttgtgt ctgatagtca tagtttgaga ggttatctga103141ctgctcagtt gttggtagga agtcctgtgc ataaaatgat aataatttca tttaaagatt103201aataaaacaa ttctactcaa aattaacaaa gcacattgtt taactgagat ttctataggt103261ttatttttta aatgtaacta taactttaaa cattaagtta taattttaat tataggtaaa103321aggggctaag aaatccaaat ggaaacattt tcaaaaagga aacatttttt ctaacctatt103381tcattggaaa atatctactc attttttggt aaaatttaac ttaagtaaaa ggctttccat103441tgtaggtgtc tttatgcaat tttttttaac ttttaggtcc acatgcaggg tcattatcac103501atatggcact aggctatcaa agactgctgt actatgtaat catcacttga gataaagaaa103561tatatatatt tatataataa atgcaaacct ttattataat ctacattatc tgtattagag103621attatttaaa tgtctaggtt catacatatc aaggatataa atgttatgta ttaattttca103681cacaatttaa tttcagctcc aaaaattttt ctaaaacaaa ctaggattaa aaaaggtggg103741aggggcacct ccaagagaaa aatttttaaa agaaaataaa attatcaata tggtgctttg103801tttttttgtt tgtttttctg aagggttaga ttgagtttaa aactttttgc tttttttctc103861ttttattggc ttttaaattt aatattgtca aaatagaaga aaagcaatcc gcataaatgc103921ctgaagagct aaataagatc tcagagaaca acctcgctac atgaaatcaa gtgacatgta103981acaaaatgtc acatggaaat gagaaatcct gtggcttttt gctttccact gacaagtgca104041tgagagagat gtggctgtgc aacttcactc tgagtattga ttgagaggtt ccttttttgt104101ctaaaatgtg ttatatacca aaggcaaaag cataaagaaa ataattccta cttttgaata104161aagtcagcac atttaaatat gaatgtgcac tataatattg ttcaaataaa ctatattagg104221tatataatta atccccaaac tatagataag taaagtgaaa taaattttcc taagtagcca104281tatgaaatct aatggtgaaa atgatacttc acactataga taggaaagga acatggagca104341aacagagatt caagacctta agattggtta taaataaatg gttgccatgt ggttttctta104401tcttctagac cagcactgtc caatagaaaa atgacagtca caaatgccaa tcatatacgt104461agttttaagt ttaatgtcca cattcaaaag aataaaaaaa gatatatata tttaacccaa104521tatattcata atgctatcac cttaacacaa gctatataag attattagta atatatttta104581catgctttta aaaatatctt caaaatctgg tatgcatttt acacataaaa cacatttcaa104641tttagactat aatttcaagt gctgaataac cacatgtggc tagtggctac ctactagaca104701gtgcagttct agaatatgtc atcactctta cattactagt ggattttaga gactatctca104761ttaatatcca gcagaatgaa tacataccta cctaaataca agcttattat ggtacccact104821tcttgttgag tcaggttttt ttgtttttgt tttttactat tggacttttt aaacacctca104881ataaaaatca taacctttct tacataatag aaggattcct taataaaact ttcttatcaa104941tcaaatagaa tggttaatag agttatgggt cacatggtta ttgccaattt ccaaaacatc105001catatgtaat aaatatacta aattcaatcc tgtattataa ttgttaaagt tgtcaatggt105061gattgtactt agatttgcac tagtatttgt agtaaggtat ttttgtattt ttaaaagtat105121attatactat tatatgtaaa ctttattgtc tatatattac aaacacaaat ctgtaccttt105181actagagagt gaatttttgg ccatttaaga aatgtatcag ttcatttgat aattccaaat105241catagatagc tctacaagaa atttctgatg gactctattg caggactcag tagtagaact105301taaatccaaa ttgctttatg aaattataaa tttagttggg aaaacaagca tgtatgtcta105361tgtcacatct ccaagtcagg tgagagaagt ctacattaaa ctcacctgac cactagcaac105421ttgaacaata attacaattt ttaaatgcag aagttcatgt tttgaggaag atatgctata105481ttgacctgtt aaagacttga tttagtgtcg agtaatttaa atcaacaaag ccatagacag105541aagcttagaa tgtcagcaag gagagcaatt attatgccta aatattgtag aagcacaaaa105601tagttttaga aaggagatgg aaaatgactt gcaaatagtg acttattttg ctagttataa105661aggtaaatat attttaatca tttgggatct ggtagccttt gttattaaag aaaaatagca105721tttctatttt tagttgcagg caagaaagta attttagaag aaaaaagccc attgaaattt105781aattaaaaga aatcattgtg gtaggcagtc ttcagtactg gtcagattat agaaattatc105841acttttttat tacaataaca ccacttaccc aactttttgc ttctatcttt actctcctgg105901taaaatcatt atgtgtttaa aagggagaga gaacaaaaca ggtaaagctg tagcaaaagg105961tacaaggata cagtcccttc ctggaaagag gattttgtgg cgaaccattt ctcccataat106021gcatcccaca gaccatatat ccactagaac aggagagaga gggtagtgaa gaaaagggag106081gaaagtaaag ttaactaaga taattgactt ctgaaggagg aggaaaaaga acagtttgat106141taaaagtaca attttcacct cccaccaaaa gttggccaaa atgtgaattc aaaccagcgc106201tatgctatta cataaacagt gtttagtatg agaactcaaa ttaatgttta aaaacccatt106261actttgtggg tgccttacat tgcctctcag cagtgccaca aagtggtgac attggtgact106321gagaaaagca atagctaaac caaaagtatc tccatggcag gtgacagcta aaagccacca106381aagggttttc tgtgtcattt tccggatgca tagaaaacaa tattaacttg tagagttggc106441tattttcatt ttctattcta ttcagttaca gagaataggg caacaagaga ccaccttttt106501tttcaggggg ccagggggcc ggggcaaaac aagataaatt caaccaaatc caataaacca106561ggaaatgact ggaaccatgg tttagaggca aaagaattgg aattcctggt atttgggact106621tagcttttcc ttcagaagtt tattcttgta aataaacatc agttttagtt tccatttgaa106681atatttcaag aaaaaagaca tatgatgaat tagcacatgt ataaaggagt catctggaag106741gaaagtgaaa aaagtattaa aggtgttaaa aattgttatg tacatatatt tatttccaaa106801ttgtcaaact tgttaggaaa acatgctttg ccttctctta ccaatcttta cccctttcca106861acttgctttt cattatggac aaagggaact tttgggcaga atcatttggc cgaattgttc106921catggggaag gaaggcgggg ctaggtgcag gggacagcag ggcatgcctg atgtgggagc106981aagcaggttt ttctgcatga taaccttcct cccattggtg ggagggcagc accagggtgc107041taggcaggcc tcctccatgg acttagagaa gtcaaaaacc taaggcagca acttgcaatt107101ccttctagtg agggaaggga aagggatttt aataccagct attggtagtg ccaagatctg107161aaagcccaaa taggcaaatt cagaccgccc caccccccag tctcctgtac attcttgatt107221cttgactttg tttctccttt gactttttaa aaataactcg tgaagaaagt ataaaaatgt107281cttcttttct gaataaatta gatgtggtat tgcctagcaa ggagggctag attcatctct107341tctgagtcaa aaggtaccag aactccgata ttgcccacca gggtgaacct gacctttgta107401agaggtgact ttttaacttc ctctgtataa atgcatacat acattatctg tcttctaatc107461taagagtata caaagaagtt tctgtaaact tcagtggcca gggaattttc acaaaagtac107521cctgtagcac ctgtacataa aaatacactg attattttta taaaacttat taatacagac107581tgctaaaaac taaatagaat agaatataaa aataaatatt aaagatacac tgaatacata107641tacaatccta atttaaaact attttaattc ctaagtatat tgaatatgtt ttcaatatgg107701tgcattactt gtaagatata gtctcatcaa aataatacat tgcaatgctt tctaacatat107761ttaataaatc cttagtttta atcaactaca ctcaattgtg atacattttt aagattcctt107821ccatagcctt cattttaaag tgttcatgaa cattaagttt tctttatgaa agcagtagtg107881tcaaatttga cattttcctt ttttacgatt tttggaatat ataaggattt attaggcaat107941tgctactcta aatgtttctt acagagcagc ttaaattatt acagaaattc ttattcagtt108001taaataattt ggattatttc aaagttgtct atgaagattt tcactctaag gatttgtgtc108061acttttttgc ttgtcttttt ctagaactac agccatcagt ctgagataca acataaaagc108121cacatggcta actgtggtag attcctttct gctttcacac tcatgctcag ctgagctgca108181acccaaatag caatttttct caatatctag gcacgtgtgc taatcagcat ccgcttgact108241gtttaatcag actccattta caattctttt tcactattaa catttagtgc tcttctagca108301aaactgactt ctcaataaca tccttcacat ttttaatgag tgtttcttac cagtagtatt108361aaaaaaaacc ctgaatatgc tatctggcag ccctacttta taaaagcatg tacataaaag108421agaacattcc ccttggctat ctacaacgtg cacccgtttc attcatggtt ttgatgctgc108481tctcccgaag catccctacc gttctccttg tagcccatcc ccaggatgac ctcaggggct108541ctgtaataac gtgtcaccac atatggagtc atcatgaagc ttgtgcctgc tgtcctggcc108601agtccaaagt ccaggatttt caatgtgcaa tcagacttga ctacaatgtt acttggtttt108661aaatcctaac agtaaggata agggaaaaaa ttaaaagcca gtatcaagtg aaatgttatt108721tccattgact caatcaacat agccattttg cagtagcact gatgaggtcc cccttgccta108781cagagctcta aataaggcaa atgattactg ctacaaataa gttaactatt agtttttgga108841aagtgtttta atcccagaaa agaattgtat tatcattttc acaatttaca ctaatcttgg108901gaagaggttt tagaaaaaaa aatatttatt gtcttctgtt aggtttctcc ttaggacaac108961ataaatcttt caacatatat atcatttcta ggcctgacag aagaacagat cagggaagct109021gtctttatgc tgccagaaac atctatggaa atgaattttc ttatttcagt tgcacatatg109081acttctgcca atcaaggagc tgaaagcatg aggcttctaa gaagctgcat ctcaatgagc109141caaaacataa cattgaacaa actcaactac aatataacta gaatttcctt ctacaattag109201tgaactaggt gctaattcta gtatcaaaga aatgaggaag tatattatat ttgaccaatg109261ccccccgtat aaagaaaata atctacagtt actcttcctc ttaaagcatt tgaattgtaa109321tcctagagaa ggtgttctta ccctgtgaat aattccagca gaatggaggt gcttaatgcc109381acacaacatt tggtacagca ggtaagacat tcgctcatgg tctaattcca tctgaatcac109441ttgacataag ttggcatcca tcagttccat tactaagtaa ctagaagggt gaatccacag109501tgttagttcc agatcacaag atctatgaag tcctttgatt tagtcagaat gctctcctaa109561ctctgtaagt cttctgaact tcttagctct gcctttgact taatcaagac tgagcatttc109621caggtattgc atgtgtgtta gctatacgaa ccctaccaaa aggttgctag tagaaaaagc109681atttattaat gtctggttca tgtccacaga tttgttacct taattttgct ttcactttcc109741cctgtattcc ctcaactctt ttgtgaatat tataatttca aataagaaaa aaattaagga109801cagcttcttc cattaaattc aatgtatctg tattaaagac aaggtgctag ggaatcactt109861cctctcctcc atctgttgtc actactgggt agactttgca caaaatcaat gacactataa109921agatagaaag aataaagata attttcacgt cccttttatt actatttctt tttgtttgtt109981tgttttgaga cggagtctcg ctccgtcacc caggctggag tgcagtggta cgatctcagc110041tcactgcaac ctccgtctcc cgggttcaag caattctcct gcctcagcct cctgaatagc110101tgggactaca ggtgcatgcc accacacctg gataattttt gtatttttag tagaggtggg110161gtttcaccat gttggccagc atggtcttga tctcctgact ttgtgatcca cctgcctcgg110221cctcccaaag tgctggaatt acaggtgtga gccaccatgc ctggccttat tactatttct110281tcaggtaaat taactcattg tagaaagttt gtggaatcta ttaataaata taaataaata110341agccttccct gagtgaccaa gagcatggaa caacaaagta tataaagcca caaggccaaa110401aggaggcaga atgtctttcc aggaagtaac cccacaaaca gaatcttctt tacatatcac110461tggacccctt tcatttgacc ccacctctta cctctctttg agcagtataa gggatttcaa110521ctctgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtggtgtg tgattttccc110581ttgggctatc tgagtgctgt gctctccctt ccttcatgag ttttgttact tacacatctt110641ggaactcctc cagcgttttc tggggtgtga agacatttaa taaactaata atctgaaaga110701gagYggaagg gacagaggaa acgagagaaa gaaaaaagag agagaatgta ttatttttaa110761attgtatttc aactcaaagt cactcactag tgctatggca gaaatggaga agttggaaaa110821atgtcttgag ctgtctcaga ggacacagaa aagtatgctc agaaagaaca gatgatctgt110881cttcaggtta ataatgcagc taaaaagctc aattcttggg cagaagcaag agtcagagag110941atgcataatt


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AA” (SEQ ID NO:).

AGCAAGGCAGATGATGGAACAACAAAGAGAATCACCACTGTAAAAGCCCCCCAGTCCTTTGCCCACTAGGTCTGCTTTCCTATAATATGTCTAGGAGGTGATGATATTATCAAATTCACAGAATATAATATGTTCTGCATTCACTTGTCTGTCTTAACACACACACACACACACACACACACACACACACACACACACAC[A/C] CCAAATATTTCTTAAATAGTCACCTGTTATTTCCCAAGAACATCCCAACTTTTCCGGTAGGCAAGTGTCAAGTCACCTGGACAATATTCCTCAAAAAAAGTGAAGGTTCTACCTGGGGTTCGGGCTCATTTTGGAACATCAAGTTGGCACTCTGAGGAGCCTAACCTTCTCTTAGGCTTCCTTTGGGGCAGTTGGTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AB” (SEQ ID NO:).

AACATAAAACAATTCCATTTAGAATAGCATCAAGAAATACATATTTAGGAATAAAGTTAGCAAAAGAAGTACAAGTTTTGTACTCTGAACTACGAAACATTGTTGAAAGAAATTAAAGAGGATCTAATAACTGGAAAAACATTTCATTGCTCATGGATTAGAATATTTAATATTGTCAAGAAATGACAGATACTCCCC[A/G] AATTGATGTACAGATTAAGCCAATACTTATCAAAATCATAGCTGTCTTTTTTGCAGAAATTGACAAGCCCCATCTTAAAATTTGTGTGGAAATGCAAAGGATACAGAATATCCAAAATAACCTTGAAAAACAACACAGCTGGGAAATTTACATGTTCTGATTTCAAAACTTACTACAAAGCTACAATATTCAAGACAGAG


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AC” (SEQ ID NO:).

TTTGATGAGGCACATTTACCCTTTAGCCCATGTTAACATTTTCTTCAGGATTCATTACTATTAAAATTATTTATGAAAAAGTTTTTGTACTGGATCATTACCATCAGAATAATCAGAATGAATGCCACACTGAATATCAAAAGAAATAAAACTAAAATCATTATAAGGACACAACCATGTGATATTTGTCCATCTGCTCTTTAAGCAATGTTATGTTATTTCTTGCAACCCCTACACAAAGGCCAAGAAATTACACAAGTACTAGTTTATTGGTTATTCACGGAGAGTGAGTACCTGAAGGAGAAGGCTGTCCTTTTACTACACCATTTTTAGTCTTTTCTTCTGAATTCATTACTTCCTTGTAGATAAGTTCTGTAAGAAACAGCTGTGTTATTATAGAAAACAAATTTATCCTTCATCCACAGGGAAATTCATTACTTAATGCCAATAATTACGTTTTGATGGGGTTGAGTAAATTAAAAATCA [A/G] TTGAGATTCCTTTACTGCTCTATTTCTATTTCTATATTGCCTTGTAATTAGCAGAGAGCCTGGCACAAATAGGTATCTAGTAAAGCAGTTGAAGAAATCAATGCATGAAAATTTATTTCTACGTACATGAAACATACTATTTATTTCCATATACATAGTATTTATTTCTACATACATTTCTACATAAATAACATTTATTTCTACATGCATGAAATATTTCTACATAAATGAAACAAGTAATACATGTTTTACTTGTTTTCTGAATTCTTTGGGGGAAGTACTAATACATTCTAGCTCAATCTAGCAACAATTTTTATGGCTTTGAACATCCATTT


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AD” (SEQ ID NO:).

TTTGATGAGGCACATTTACCCTTTAGCCCATGTTAACATTTTCTTCAGGATTCATTACTATTAAAATTATTTATGAAAAAGTTTTTGTACTGGATCATTACCATCAGAATAATCAGAATGAATGCCACACTGAATATCAAAAGAAATAAAACTAAAATCATTATAAGGACACAACCATGTGATATTTGTCCATCTGCTCTTTAAGCAATGTTATGTTATTTCTTGCAACCCCTACACAAAGGCCAAGAAATTACACAAGTACTAGTTTATTGGTTATTCACGGAGAGTGAGTACCTGAAGGAGAAGGCTGTCCTTTTACTACACCATTTTTAGTCTTTTCTTCTGAATTCATTACTTCCTTGTAGATAAGTTCTGTAAGAAACAGCTGTGTTATTATAGAAAACAAATTTATCCTTCATCCACAGGGAAATTCATTACTTAATGCCAAATAATTACGTTTTGATGGGGTTGAGTAAATTAAAAATCAATTGAGATTCCTTTACTGCTCTATTTCTATTTCTATATTGCCTTGTAATTA [G/A] CAGAGAGCCTGGCACAAATAGGTATCTAGTAAAGCAGTTGAAGAAATCAATGCATGAAAATTTATTTCTACGTACATGAAACATACTATTTATTTCCATATACATAGTATTTATTTCTACATACATTTCTACATAAATAACATTTATTTCTACATGCATGAAATATTTCTACATAAATGAAACAAGTAATACATGTTTTACTTGTTTTCTGAATTCTTTGGGGGAAGTACTAATACATTCTAGCTCAATCTAGCAACAATTTTTATGGCTTTGAACATCCATTT


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AE” (SEQ ID NO:).

GGTATCGACAAACACTGACAATCAGTACCATTTTAAAACGTATCAATGGTAAATCCCTTTCATTCTTGAGCAAA [T/C] GTGACATTGCTTTCGGCATGAAAAGACAGATGAAGTTTTAGGAGCTTTAAAAATGGTCTAAGAGAATAGCAGTCAGCAAATCATTTTTTAGTAAATTGTTTTACAAGGAAAAGCCTTGTTGATACTTTCTGAGTTCAATAAAATAAAAAGTATACTTTTTTAAGTAGTAGACTTACCTTTCCATTCTTCAATTGTGTGTTCTCTTTCATCCAACTGCTTGTCATATATCTGAGGTGGAGGCTGCCGAATAAAAACAAAAAATAATCTTTGTGTGATAATGTAAACATAACTAAACTCTTACAATGCACGAGAATACCTTGCCCTCATTTATTTCGGTGATTTCAACCGTATATAAGTTATGAGGAAATTACAGTAGTTCAGAAGTTAAAATTTTCCTGTAAACTTATGGAGGATTCATTCATATTGCAATATTTGCTGCTGACCCAATATTGCTGCAATATTTGCAGCAGAACGCAAATCCCGAGAGCTCACTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AF” (SEQ ID NO:).

TGAGGGCAAGGTATTCTCGTGCATTGTAAGAGTTTAGTTATGTTTACATTATCACACAAAGATTATTTTTTGTTTTTATT [C/T] GGCAGCCTCCACCTCAGATATATGACAAGCAGTTGGATGAAAGAGAACACACAATTGAAGAATGGAAAGGTAAGTCTACTACTTAAAAAAGTATACTTTTTATTTTATTGAACTCAGAAAGTATCAACAAGGCTTTTCCTTGT


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AG” (SEQ ID NO:).

GGTATCGACAAACACTGACAATCAGTACCATTTTAAAAGGTATCAATGGTAAATGCCTTTCATTCTTGAGCAAATGTGACATTGCTTTCGGCATGAAAAGACAGATGAAGTTTTAGGAGCTTTAAAAATGGTCTAAGAGAATAGCAGTCAGCAAATCATTTTTTAGTAAATTGTTTTACAAGGAAAAGCCTTGTTGATACTTTCTGAGTTCAATAAAATAAAAAGTATACTTTTTTAAGTAGTAGACTTACCTTTCCATTCTTCAATTGTGTGTTCTCTTTCATCCAACTGCTTGTCATATATCTGAGGTGGAGGCTGCC [G/A] AATAAAAACAAAAAATAATCTTTGTGTGATAATGTAAACATAACTAAACTCTTACAATGCACGAGAATACCTTGCCCTCATTTATTTCGGTGATTTCAACCGTATATAAGTTATGAGGAAATTACAGTAGTTCAGAAGTTAAAATTTTCCTGTAAACTTATGGAGGATTCATTCATATTGCAATATTTGCTGCTGACCCAATATTGCTGCAATATTTGCAGCAGAACGCAAATCCCGAGAGCTCACTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AH” (SEQ ID NO:).

GGTATCGACAAACACTGACAATCAGTACCATTTTAAAAGGTATCAATGGTAAATGCCTTTCATTCTTGAGCAAATGTGACATTGCTTTCGGCATGAAAAGACAGATGAAGTTTTAGGAGCTTTAAAAATGGTCTAAGAGAATAGCAGTCAGCAAATCATTTTTTAGTAAATTGTTTTACAAGGAAAAGCCTTGTTGATACTTTCTGAGTTCAATAAAATAAAAAGTATACTTTTTTAAGTAGTAGACTTACCTTTCCATTCTTCAATTGTGTGTTCTCTTTCATCCAACTGCTTGTCATATATCTGAGGTGGAGGCTGCCGAATAAAAACAAAAAATAATCTTTGTGTGATAATGTAAACATAACTAAACTCTTACAA [T/C] GCACGAGAATACCTTGCCCTCATTTATTTCGGTGATTTCAACCGTATATAAGTTATGAGGAAATTACAGTAGTTCAGAAGTTAAAATTTTCCTGTAAACTTATGGAGGATTCATTCATATTGCAATATTTGCTGCTGACCCAATATTGCTGCAATATTTGCAGCAGAACGCAAATCCCGAGAGCTCACTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AI” (SEQ ID NO:).

GGTATCGACAAACACTGACAATCAGTACCATTTTAAAAGCTATCAATGGTAAATGCCTTTCATTCTTGAGCAAATGTGACATTGCTTTCGGCATGAAAAGACAGATGAAGTTTTACGAGCTTTAAAAATGGTCTAAGAGAATAGCAGTCAGCAAATCATTTTTTAGTAAATTGTTTTACAACCAAAAGCCTTGTTGATACTTTCTGAGTTCAATAAAATAAAAAGTATACTTTTTTAAGTAGTAGACTTACCTTTCCATTCTTCAATTGTGTGTTCTCTTTCATCCAACTGCTTGTCATATATCTGAGGTGGAGGCTGCCGAATAAAAACAAAAAATAATCTTTGTCTGATAATGTAAACATAACTAAACTCTTACAATGCACGAGAATACCTTGCCCTCATTTATTTCGGTGATTTCAACCGTATATAAGTTATGAGGAAATTACAGTAGTTCAGAAGTTAAAATTTTC [C/T] TGTAAACTTATGGAGCATTCATTCATATTGCAATATTTGCTGCTGACCCAATATTGCTGCAATATTTGCAGCAGAACGCAAATCCCGAGAGCTCACTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AJ” (SEQ ID NO:).

GGTATCGACAAACACTGACAATCAGTACCATTTTAAAAGGTATCAATGGTAAATGCCTTTCATTCTTCAGCAAATGTGACATTGCTTTCGGCATGAAAAGACACATGAAGTTTTAGGAGCTTTAAAAATGGTCTAAGAGAATAGCAGTCAGCAAATCATTTTTTAGTAAATTGTTTTACAAGGAAAAGCCTTGTTGATACTTTCTGAGTTCAATAAAATAAAAAGTATACTTTTTTAAGTAGTAGACTTACCTTTCCATTCTTCAATTGTGTGTTCTCTTTCATCCAACTGCTTGTCATATATCTGAGGTGGAGGCTGCCGAATAAAAACAAAAAATAATCTTTGTGTGATAATGTAACATAACTAAACTCTTACAATGCACGAGAATACCTTGCCCTCATTTATTTCGGTGATTTCAACCGTATATAAGTTATGAGGAAATTACAGTAGTTCAGAAGTTAAAATTTTCCTGTAAACTTA [T/C] GGAGGATTCATTCATATTGCAATATTTGCTGCTGACCCAATATTGCTGCAATATTTGCAGCAGAACGCAAATCCCGAGAGCTCACTTTCC


Following is a MAPK10 genomic nucleotide sequence that includes the MAPK10 SNP “MAPK10-AK” (SEQ ID NO:).

TCTCCATTTCTGCCATAGCACTAGTGAGTGACTTTGAGTTGAAATACAATTTAAAAATAATACATTCTCTCTCTTTTTTCTTTCTCTCGTTTCCTCTGTCCCTTCC [A/G] CTCTCTTTCAGATTATTAGTTTATTAAATGTCTTCACACCCCAGAAAACGCTGGAGGAGTTCCAAGATGTGTAAGTAACAAAACTCATGAAGGAAGGGAGAGCACAGCAC


Following is a KIAA0861 genomic nucleotide sequence (SEQ ID NO: 3).

>3:184201001-1843487001aaagccaaga ctcccattcc taaaccctag ctcaggtctc catctcttaa atccgagtga61cctctacaaa ctctccctga gaaggtgtcc agaacccttt tggaagcgag ggacagtgtc121actgtctttg gggttgacac ctgctctgag taactcacgg aaaacaagtt ccagctggga181agcccttgga cgcgccacac ctccctaccc gcagcccgtc ctgtggcgcc cgggactcca241gagtgYgttt agatgaaagg ggaccgacac gtcagggcca ccgcgggaag cgctgagggc301cactcaccgg ccagggacgc gaagagcgcg gccgccgcgc tgagctgccg gggcatggtg361ggcgctgggc gaggttctgc agcgtgcggc gaRgtccggg caggccccga atcggtgcca421gagaaaccta cctgtgccgg agaaacgaaa ccacctgctt atgagaagca gccgaaaagc481ccgcccaggg ccgctgggcg gggagggaaa ctccgccggc cccctcctac ccctacggag541cagggagggg cggggactcg gcgcagccgc cggggcccgg gcctctggga ccgtttaccg601cacgcgcgtg gtcccggcag cgccggcStc ctccgctcat accctgggtc tcctcctttc661tttttctttt ctttttgaga cgaagtctcg ctctgtcgcc cagggtggag tgcagtggcg721cgatctcggc tcactacaac ctctgcctcc cgggttcaag cgattcttct gcctcagcct781cccgagtagc tgggattaca ggcatgcacc accacacccg gctaattttt gtatttttag841tagagacggg gtgtcaccat attggccagg ctggtctcga gctcctgacc tcgtgattcg901cccgcctcga cctcccaaag tgctgggatt atagacgtga gccaccgagc ccggccaggg961tctcctcttt tatttctttt ctttttattt cttttgtttt gttttgtttt gttttgtttt1021ttgagacaaa gtctcgctct gtcgccaggc tggagtgcag tggcgggatc tcggctcact1081gccctggttc aagcgattct cctgccgcag cctcccgagt agctggggtt acaggcgccc1141gccaccacgc ccagctaatt tttgtatttt agtagagacg gggtttcacc ctgttggcca1201ggctggtctc gatctcctga ccttgtgatc cgcccgcctc ggcctcccaa agtgttggga1261ttacaggcgt gagccactgc gcccggccca gggtctcctc ttttctaaca gctcgggtac1321ctttctggga acccagagac gcttctcagc cgggagaaag ccagccacta ggcgagcagg1381agcctaaaaa cccctaagca ccctgactcc atgtcttccc agggagtctg cggcagccgc1441gctccacgcc caggcctcgc caggaccgcg gtttgcggga agcaacagga gcacagccca1501gaggcgctag gtctggctgg gagctcgcgc tgccgactcc ccggcgtgcg gcgtcgggga1561acctctagga gccttggatt cttcagctgt aaaacggaca taataatgcc cactcccagt1681ttgtttttga gacagggtct cactctgtcg cccaggctgg agggcaatgg cgtgatctcg1741gctcactgca aacttgggtt caggcgattc tcctgcctca gcctccacag tagctgggat1801tacagatgtg cgccaccacg tccggctaat tttttgtatt tttagtagag accaggtttc1861accgtgttgg ccaagctggt ctcaaactcc tgaccccagg tgatccgccc gcctcggcct1921tccaaagatc tgggattaca agcgtgagcc actgtgcctg gccccaggig gttttacaga1981ccagaaaatc ctggaacaaa aaacacacaa tatcgttttt tttttttttt tggagtcagg2041gtctcgctct atcacccagg ctggagtgca gtggcgtgat ctcggctcac tgcaacttcg2101acctcctggc ctcaagtgag tctcccacct tagcctcctg agtagctggg accaaaggcg2161cgtgccacca cgcccagcta ttttatttta ttttatgtag agaggaggtc tcgctgtgtt2221gcccaggctg gtctcgagtt cctggcctca aatgatcctc ctgcgttagc caaccattgg2281gattacaggc gtaagccacg gcccacggct caacaacgct gacaggcaac cttttaatgt2341cttatctcct tcctctatta attggattgt ctgtcaaaac aacgatgttt tgacagggct2401tgagtcccag tggggaatac acatttaagc agtatattag gagaccctcc ttatcactag2461attgagggct ttcagcctag cctcaaatta ttttctgaaa aataactttg gctacaacta2521ttttgtctta ctatgttgct ccaaacacta atcaagtaaa cttaaccaaa gcttgcagtg2581tgtttcagaa tggaattttt atggtgaaaa gtgagggtta acttgtgcca gtcaacctag2641tttcagcaac tacctgcttt ctgatctttg agacagttta ttcaaaagac gataattaag2701tgggtataga ctgtgtgcca ggcactcttc ttattccatt taagcgccat agccactcta2761tatggacact gttgttatta tcgctgcccc atttcgcaga tggagaaact aagcacaaag2821aagggagttg cccagagtca cttagataat aaataccgaa acctgaccat aaatcttgtc2881tgccttgaga gtctaggatt ttaagcacat agccgggcgc agtggctcac gcctgtaatc2941ccagcacttt aggaggccga ggcgggcgga tcacgaggtc aggagatgga gaccatcctg3001gctaacacag tgaaacccag ttctattaaa aatataaaaa aattagccag gcgtggtggc3061aggtgcatgt agtcccagct actcgggagg ctgaggcagg agaatggtgt gaacccagga3121ggtggagctt gcagtgagcg gagatcgcgc cactgcactc cagcccgggc gacagaagga3181gactccgtct caaaaaaaaa aaaataaata aaataaagct gctcctctta ccctggaaat3241tccaagggat ttaggagctc tgtttcagga accagggtca aagaccaagt attaaaacaa3301aagattctcc tagaactctg gcatataagg attttaggag ctctgtctta gaaactggga3361cagagaccaa agatatatta ttatatcgca gtatcatagt ttattatttt caaaaaacgt3421tttctggctg gtacagtggt tcatgcctat aatccaagca ctttgggagg ccaaggtggg3481agggtcactt gaggccagaa gttcaagtcc agcctgggca acacagggag accctgccac3541tattaaaaat tttttaaatt agctgggcat ggtggcacat gcctgtagtc ccagctactt3601gggaggctga agcaggagga ttgcttgagc ctgagaggtc aagactgtag tgagctgcga3661tcaagcgact gcactctagc ctgggtgaca aagccagacc ctgtgtctaa aaaaaagaaa3721agaagaggaa aaaaaaaggt ttttatttca actaagttgt tggatttatt agcataaagc3781ttttcataac aatcccttgt cttacaatat ctgtagtata ggtagtgatg tcacttcttt3841tattactaat attaataatt tgtattttct ctcttatttc cctgctaata ttaataattt3901gtattttctc tcttttttcc ctgataagtt tggctggagg ttgatcaatt ctattcatgt3961tttcaagaaa aaaaaaaaaa tttcatttca tcgagttcct tcattgttct tatgttttct4021gttttattca tttctacctg atctttatta ttttctttct tctacttaac ttgtgtttta4081tttgctcctc tttcaatagt tttcaaagat ggaacttgcc tgggatatcc cagcacttta4141ggaggctgag gtgggaggat cacctgaggt caggagttca agaccagcct ggccaacatg4201gtgaaactcc gtctctacta aaaatacaaa aattagctgg gtgtggtggt gggcacctgt4261gatcccagct actcgggagg ctgaggcagg agaatcgctt gaacccggga ggtggaggtt4321acagtgagct gagatcacgc cactgcactc cagcctgggt gacaggagct agactctgtc4381tcaaaaaaaa aaaaagaaaa aaaaaaagat ggaagttgag gccagtggta taaaatcttt4441cttcatctct aataaacagg tttactgtta tgaacgtccc tctaattact actttagttg4501gatcccacaa gtttaatatg ttttcatttt catataatta gaaagacttc ctaatttcct4561tttgctatct cctcgactca tggttattta aaatagcatt atttcatttc caaacatata4621gtttttcaga tatctttctt ttattgattt ttaattccac tgtggttgaa aacataatta4681tggacttaaa tcttacaaat ttattgatat ttgttttttg accaagacta tggttggtta4741cattagtttt caggactgac ataacaaagt gccacagact gggtaattaa accacagaca4801tttgctttct tataattctg gaaaccagac atgtgagatc aaagtgtcag ccgggttggt4861tttttctttt tccttttttt tttttttttt tgagacagag tctctttctg tcacccaggc4921tgggatgcag tggtgtgatc tcggcttact gcaaattctg cctcccaggc tcaagcgatt4981ctcctgcctc agcctcccga gtagctggga ttacaggtgc ctctcactgc acctggctaa5041tttttgtatt tttagtagag acggggtttc accatgttgg ccaggttgat ctcaaactcc5101tgatctcagg taatacaccc gcctcggcct cccaaagtac tgagattaca ggcgtgagcc5161actgcacccg gcccgggtta gttctttcta aggcctctct ccttggctag tagacacctt5221tgtttcacat ggtcatccct ctgtgcatgc ctttgtctgt cctaatctcc tcttcttata5281aggacattag tcaggtagga ttagtgccta ctctttgaac tcgttttacc tcttaaagac5341cctatctccg aatatagtca cattctgaga tacttggggt taagacttgt attagtccat5401tttcacgctg ctcataaaga catacctgag actgggaaga aaaagaggtt taattggaca5461attccacatg gctggggagg cctcagaatc atggtgggag gcgaaaggga ctttttacat5521ggtggcggca agagaaaatg aggaagaagc aaaagcagaa acccctgata gataagccca5581ccagatatca tgagatttat tcactgtcat gagaacagca cgggaaagac cagcccccat5641gaatacatta cctcttcctt ggtccccccc tccccacaat atgtggggat tctgggagat5701acaattaaaa ttgagatttg agtggggaca cagccaaacc atatcattct gtccctggtc5761cttccaaatc tcatgtcctc acatttcaaa accaatcatg cctttccaat agtccctcaa5821agtcttaact catttcagca ttaacctaaa agtccacagt ccaaagtctc atctgagaca5881aggccttccg cctatgagcc tgtacaatca aaagcaagct agttagttcc tagatacaat5941gggggtacag gtattgggta aataaagcca ttccaaatgg gagaaattgg ccaaaacaaa6001ggggttacag ggcccatgca agtctgaaat ccagtgaggg agtcaaattt taaagctcca6061aaatgatctc ctttgactcc aggtcttaca tccaggtcac gctaatgcaa aaggtaggtt6121tccatggtct tgggcagctc cacccctgtg gctttgcagg gtacagcctc cctccaggct6181gctttcatgg gctggtgttg agtgtctgca gcttttccag gcacccagtg caagctgtca6241gtggatctac cattctgggg tttggaggac aaaggccctc ttctcacagc tgcactaggc6301agtgccccga tagggactct gtgtgggggc tctgatccca catttccctt ctgcactgcc6361ctaagaggtt ctccttgagg gccccacagc ttccaccctc tgaaccatag cccaagctat6421gcattggccc ctttcagcca tggctggagc agctgggaca gagggcacca agtcactagg6481ctgcacacaa catggggacc ctgggcctgc cccacaaaac ccctttttcc tcctgggcct6541ccaagcctgt gatgggagag gctgctgtga aggtctctga catggccttg gagacatttc6601cccatggtct tggggattca cattaggctt cttgctactt atgcaaattt ctgcaaccag6661cttgaatttc tccccagaaa atgggttttt cttttctgtc acatagtccg gctgcaaatt6721ttccaaactt ttatgctctg cttcccttat aaaactgaac gcctttaata gcacccaaat6781cacctcttga atgttttgct gcttagaaat tttttccacc agatacccta aataatctct6841caagttcaaa gttccacaag tctctagggc aggggcaaaa tgtggccagt ctctttgcta6901aaacataaca agaggcacct ttgctccagt tcccaaaaag ttcctcatct ccatctgaga6961ccacctcagc ctggatctta ttgtccatat cactatcagc attttgggca aaaccattca7021acaagtctct aggaagttcc aaactttccc acattttcct gtcttcttct gagcccttca7081aactgttcca atctctgcct gttacccagt tccaaagttg ttccacattt tcaggtatct7141tcagcaacgt ttcactctac tggtagcaat ttactgtatt agtccatttt cacactgctg7201ataaagacat atctgagact gggaagaaaa ataggtttaa ttggacttac agttccacat7261ggctggggag gcctcagaat catggtgaga ggtgaaaggc acttcttacg tggtagtgac7321aagagaaaat gaggaagaag caaaagcgga aacccctgat aaatccatca gatctcatga7381gacttattca ctatcacgag aatagcatgg gaaagaccgg cccccatgat tcaattacct7441ccccctgggt ccctcccaca acacatggga attctgggag atacaattca agttgagatt7501tgggtgggga cacagccaaa ccatatcaag acttctacat atgaattttg gagggacaca7561atttaactca taatagtgga ctgtcYtgtt aaatgttctg tgtgcacttg agaagaatgt7621gtgtattctc tcattgttgg attcagtgac ctataaatgt taattaggtt aaactaattg7681atgtagggaa aagaaagaga gatcagactg tcactgtgtc tatgtagaaa gggaagacat7741aagagactcc attttgaaaa agacctgtac ttcaaacaat tgctttgctg agatgttaat7801ttgtagcttt gccccagcca ctttgcccca gccactttga cccaacttgg agctcacaaa7861aacatgtgtt gtataaaatc aaggtttaag ggatctaggg ctgtgcagga cgtgccttgt7921taacaaaatg tttacaagca gtatacttgg tcaaagtcat cgccattctc tagtctcaat7981aaaccagggg cacaatgcac tgcggaaagc tgcagggagc cctgcccttg gaagcggggt8041attgtccaag gtttctcccc atgtgacagt ctgaaatatg gcctcgtagg atgagaaaga8101cctgactgtc ccccagccca acacccataa agggtctgtg ctgaggtgga ttggtaaaag8161aggaaagcct cttacagttg agatagagga aggccactgt ctcctgcctg cccctgggaa8221ctgaatgtct tggtgtaaaa cccgattgta catttgttca actctgaaat aggagaaaag8281ctgccctgtg gtgggaggtg agacatgttt gcagtaatgc tgccttgtta ttctttactc8341cactgagatg tttgggtgga gagaaacata aatctggcct atgtgcacat ccaggcatag8401taccttccct tgaacttaat tatgatacag attcttttgc tcacatgttt tttgttgacc8461ttctccttat tatcaccctg ctgtcctact acattccttt ttgctgaaat aatgaaaata8521ataatcaata aaaactgagg gaactcagag gctggtgccg gtacaggtcc ttggtgtgct8581gagtgccggt cccctggact cactgttgtt tctttatact ttgtctctgt gtcttatttc8641ttttctccgg ctctcatccc acccgactag aaatacccac aggtgtggag gggcaggcca8701ccccttcaat tgatagtatg gttcaagaac aaatggtatc aacttaggat ggtttaactt8761atgatttttc aactttagaa tggtgtgaag tctgtatgca ttcagtagaa ggcatacttt8821gaatttttat cttttcccaa gctactgcta tgggacaaga tactctctca caattctggg8881cagtggcagc aagcctcagc ttccagtcag cacccaatcc caagggtaaa caactgatac8941agccattctg tttttcattt ttagcaaaat actcaataaa ttacatgagg cactcaatgc9001tttattataa gacaagcttt gtattagatg atttgcccaa ctgtaggcta atgtaggtgt9061tctgagcaca tttaaggtag actatactat gccatgatgt ttggaaggtt aggtaaattt9121aatgcatttt cgacttagaa tactttcagc ctcccaaata gctgggacca caggtgtgtg9181gcaccatgtg tggctaattt tttgtggaga caaggtctca ctRtgtcgcc caagttggtc9241tcaaaatcct gacttcacgt gatccttcca ctctggtctc ccaaagtgcg attacaggtg9301tgagtcacca cacctggccg tgttgtcaca cattttaatt ctttataaat tagaaacttc9361acaacacatt gttcttattt aaaatttaaa caattatctt taaatataca taatatataa9421atatgtatat aatatataaa tatatacaat atataaatat ataagatata ttatatatat9481aatatataaa tatataatat ataaatatat aatatgtaaa tatataatat ataaatatat9541gtaaatatgt aatatgtaaa tatgtaatat gtaaatatat aatatgtaaa tatataatat9601ataaatatac ataatatata aatatataat atataaatat ataatatata aatatataat9661atataaatat ataatatata aatatatatt atatataaat atataatata cataaatata9721tataatatat aaatatatat aatatacata aatatataat atataaatat atataatata9781tataaatata tatggggaaa aaagctttta tacttactca tgtgattacc gtttcttgca9841gtctttattc ctttgtttag atccttggga tttttgttgc tatggtgacc ttagttatac9901caggcacttc aaatcttacc ttgtgtttag gaWatgggct tgtttgccca aaggtcttcc9961ctaatgtctg ctccaccttc aactttaggt cttctctgct gtcagtttct ctctccatac10021acttgtagct ctcccaggag tattccatcg ttacttgtta gtcagtgctt attagcgggg10081tggtgggatc tgagaggtga ggtgcttggt tgtgattctc agttctgatt cctgcaggta10141ctgtgtccct gggYcttgaa gggtatgacc aagcStctct gtccctcccc gcagcagtag10201ttttgggctc agcacatatt cctgcccctt ccccagaatc agagggtttt ttgttgttgt10261tgttttgttt ttcaagtttt tgttcctttt tctccatctg tgttggattt accagccccc10321taggagcgtc agtatttgtt acccttcctc caggctttta aggcctttgt aggagagatg10381ggccaatagc atctgagcat ggttttgtgt ctttcttgta gcaactgata ttcctcaccc10441ccaggtctat gccaggaagg atgcttcctt acatgcctgt aatcccagct accggggagg10501ctgaagcaga agaatcactt gaacccagga ggcagaggtt gcagtgagcc aagatcatgc10561cactgcactc cagcctggca acagagcgag acttcattca aaaaaaaaaa aagctcttac10621actcttctgc atattctgca aagtatactc tgggaaggct ggtttagagg atctctaact10681tttctaatat ttcataatgc atggctgatg tttaacatga actcagactc ccatcagatt10741ttacagatct gggtctgctt ttagttctaa tgcttcagcc agggcacttt aatctgaggt10801cacagcattc ccaattgtca gcagtatttt gaaatctaag ttcctctggt ggacaacagg10861caacatcata tagccaYgga ggatctgaac aacttctaag tctgagSgat tttatctggt10921ggttttggat tcttttccat ttatacttaa acaaggtgac acaaatgtca ctcacagaaa10981agccactctt ttttcccctg tttttaagaa gtctaaaaat gcacaactat ttcctgaatg11041agcagtgtgt ccaggtgtag aatagggaat gtcgtgtcca ctgggaacag acggtgtacc11101tggcacaatt ttatgagaat tatcccatga ttcctgtccc accctgcagc ccaCcatggg11161ctcagtgggg agtctgagtc tctgagcccc aaagggtagc tttttcccag acgacaccag11221caagcagagc agcagcttgg ggctttgaca aggaggctgg agtgaaaggt catattggac11281catcctggRt cactggagga caatacccca ggaacctcca gcaatgactg gtattggaat11341gactcccctg gtcacccacc tgtggcaaga catttgcaaa cagggtcttc ctatgaggct11401tgtgaggttt ggccaatttg cattctgcta gaattattaa gtatggacat cctcatagat11461ccagaaaagg gccgagatcc aaaggattga gaatgctttg gggggtgttt ccatagtgag11521tggctggcta ttcaacagtc aaatgtttga gaggatacaa gtgatgtgtt tcctgaggca11581agtggtcaga acccaacaga ctcttctgtt cagctaagat gagagaccat ctgaagttct11641tacatgttct cacagagaaa tggattctca tagggaaatg gatatattgt gatagacact11701gtaagcagag aagttgactg agaaacacac acacacacac acacacacac acacacgtca11761agactgaatg catagatgtg tattataaaa agYgtaaaaa tacaccacca ttStaacaga11821ttgtgtagga ctatattttc ttttttttta atttattatt attatacttt aagttttagg11881gtacatgtgc acaatgtgca ggttagttac atatgtatac atgtgccatg ctggtgtgct11941gcacccatta actcgtcatt tagcattagg tatatctcct aatgctatcc ctcccccctt12001cccccacccc acaacagtcc ccagaatggg atgttcccct tcctgtgtcc atgtgttctc12061attgttcaat tcccacctat gagtgagaat atgtggtgtt ttgttttttg tccttgcaat12121agtttactga gaatgatgat ttccaatttc atccatgtcc ctacaaagga catgaactca12181ccatttttta tggctgcata gtattccatg gtgtatatgt gccacatttt cttaatccag12241tctatcattg ttggacattt gggttggttc caagtctttg ctattgtgaa tagtgccaca12301ataaacttac gtgtgcatgt gtctttatag cagcatgatt tatagtcctt tgggtatata12361cccagtaatg ggatggctgg gtcaaatggt atttctagtt ctagatccct gaggaatcgc12421cacactgact tccacaatgg ttgaactagt ttacagtccc accaacagtg taaaagtgtt12481cctatttctc cacatcctct ccagcacctg ttgtttcctg actttttaat gattgccatt12541ctaactggtg tgagatggta tctcactgtg gttttgattt gcatttctct gatggccagt12601gatgatgagc attttttcat gtgttttttg gctgcatcag tgctctacac gttcagagaa12661acttctctag tgacgaacta tagaaatgat ccctgaaagt atagtcttag gactatattt12721tcttttgact tgggaggcat gtttattgct gttaatgctg caaagggctc tacgtgcttt12781aaaaaatccc aatctgttgc attcataagc ctgggttgga tctaaagcag cctcccactt12841ttggaaaggc atccccacga cctttccatg gttgctgaat gcagctggag gcagtcacag12901ctggtgatgt ccggagccca ttccccactg tgctggtctg cagaacttct gcatgccatt12961cccacaagca ggtctctgcc ctgctctcct ccacctccct tgtcagagga agtctgcact13021tcacagcttt ctggtctcaa ccctcctcca tccctacaga tgtgtaagca gcaggaatca13081aaaggtgaag gagagggggc aactcacctc cgatggacac gtgaaaagtg ggagatggat13141aaaatcaaga aggagcttaa gatatccaga aatgtaaact gtgtttggaa aagtaaggtc13201aggagaagca tgggactcct gaggttgctc cctactatct tgcagacttg ctgcaggacc13261aaatgaagca ggatctgtca agcaccaggg ccagctctta agcttagtgc ctttctgaac13321cctgtgaccc agcagcctcc atcaactcgt cctacctgcc atgcacagct cctctgtgcc13381cctgtacctg agctcatgct attccctctg ccaggatgcc cttctccttc tccaccagga13441gaagaacact tgccagtaag acccagttct aatgtcaccc cttcctgacg gtatcaggaa13501gagtcaStga tggtgtttta tgctcccaga gaatttgcca cattgtgttg tgattatttt13561tccacatctg tctcccccac tggaatgaga gcctcactca tcttcatacc tccctggtct13621ctacctggtg ccagaaccat cctcagggca ggggaatgct caggaaatag atattgaata13681aaataagtgt atccatccat ccatccatcc atccttccat ccatccagac atatatacat13741atgtaaacat tctgatggtc aaatggaaca atgtgggctg aagaataatg caggtagaag13801aacctaagat tacagattct tgatttggga ggaactttat tttattgtgc aaacagtcta13861caaatttgaa acatactcta tcaagaaaga cactgttgtt aggaaagggc gtgggagagg13921gtggccccac aaaacagtgt aaagttctaa agaatttgag aggaacactc tgcgggaccc13981tgttccaagg gcatctttct aagagtctgt cccttaggct ctgccccttt ttggccacgt14041tgtcaaaggc cttctttatg aacgaagtga gacacattat ttttgttttc ttgaattcta14101aagtgattgt cttgagttcc ctgggggaga ctcctgggag gtgtggccca ctctattcca14161gaaacaaacc aggagactga agactcatcc caatcccata tcccatgaaa atgtgaaatc14221aaatcacccc tgacaattcc aaaactaaYg gaatcctaac ataactctat gtaactctaa14281agctgagtgt gctggtaatt aagcttccag cccacccttc ccagctctgg ggtgcagggt14341caccatgggc tccttcctgt gtgcacccca ccccaccccc actgtcagca tcctgtctcc14401accctgagag tgacagctgg ttccagtagc gggagttggt tccagcttgc cattttccta14461gcactcctat aaccagcctg ctgatgccca ttcagagaca gcagcacggg ctggccatgt14521cccctctcca gaattctgcg tccagctcct ggaccttgag ctctgagccc ttgggccacg14581tgtacMatta atagtgcctc ctcctcagag gactaacccc cagccctagg gccaccttca14641tatttcYgag ttttgatatt ttcaacctct tttctttgtt gtatgagtcc ttgggctggg14701agcttgcagt caaaatcttc atgatatctc attatcacta ctttttttta aatctctact14761agctggataa caattattta tattaaattc tctcttgaaa taactgatac agtgtctctt14821gattgaaact tgactagtag actaagaatt ctaactctaa ataattctga gggccgggtg14881tggtggctca cacctgtaat cccagcactt tgggaggcca acgcgaatgg atcacctgag14941gtcaggagtt ggagaccagc ctggcaaaca tggcgaaacc cggtcaggag atccagacca15001tccYggctaa catggtgaaa cctcatcttt acttaaaaaa aaaaaaaaat acaaaacaaa15061attagccagg cgtggtggca gatgcctgta gtcccagcta ttcaggaggc tgagacagga15121gaatagcgtg aacccgggag gtggagcttg cagtgagccg agattgcacc actgcactcc15181agcctgggtg acagagagag actccgtctc aacaacaaca acaacaaatt agccgggcat15241ggtggcaggt gcctgtaatc tcaactactt gggaggctga ggtaggagaa ttgcttgaac15301ccgggaggcg gaggttgcag tgagccaaga ttgcggcact tcactccagc ctgggtgaca15361agagcaaaac tccatctcaa aaaaaaaaaa aaagaaaaaa aaatctgaca attaaataaa15421gaacagaaaa aaaatttgaa tggcaaatac aaagctgaaa agaaataact gagaataaat15481aactctgaaa atagctcaaa aactaaatac ctcaaaaact ctttaaaaat tcagaaaata15541taatgttcaa atatgaagta atgctgaaaa tgaaataact aaaaaccaag taacttgaaa15601aaaagaacat aaaaataaac aactcaaata taaaataact gaaaataaat acctgtgaac15661ataagcaact cgaaaaccag ataactaggg gaaacccttc attaaaacat ttcactctga15721aaataaataa cttgacagta gttcatgaac ttccagtgag tgtttaatag tcaaataagt15781tactgtaaaa ataaataact caaaaactcc aataagataa agtgaaataa ctatgaaggt15841aaataactca gataataatt gtaaagataa ttaaaaataa attccggctg ggcgcggtgg15901ctcacgcctg taatcccagc actttgggag gccgaggcag ggggatcacg aggtcaggag15961atcgagacca tcctggctaa cacggggaaa ccccgtctct actaaaaatc caaataaaaa16021attagccggg cgtggtggcg ggcgcctgta gtcccagcta ctcaggaggc tgaggcagga16081gaatggcgtg aacccgggag gcggtttgca gtgagccgag atcacaccac tgcactccag16141cctgggcgac agagcgagac tccgtctcga aaaataaata aataaataaa taaataaatt16201ccaagcaaat taatttgaac atctgtaact cctaaaacaa aacaactaca tataaataac16261tgaaaatgaa caactaaata actttgaaaa taaagtaact ataaaccagt aactgaaact16321ataaaattaa ataaccagaa agctacaaag aaatgaaaat caactaataa aactaaaaat16381aaaatacaac tgaaactaac aaaactcatt taaaaactaa taaatcgata cataaaatac16441ctcagaaagt aacttggaac gaactctctc tacaacgaag caatcttggc actaacacga16501acaccccatg aacgctcgca gggatgctgg gaggcggacc gggagctccc agtctgcggc16561ccccgccggg ttKgagcggc tccggctcct ccaaggctcg ggctaagcgg ctctcaaccg16621attcccaccc cgccctggag aaatgcgggc gtgtctgcag gcatttttga ttgtcacgat16681ttgggggcgg ggtggaggat ggggtggcgc attcctggca cctagtgggt agaggccagg16741ggtgctacta aacatcctac cgtgggagca cagagaagcc cacgcagcaa agaattgccc16801ggctccgaat Rtcgaagtgc gcggtcgaga aggcgtgggc tgcgggctct gctcgcctct16861gcaggcgcct tagagcagct ccgaggtccc ccgtgcggag ctaggcgcgc acccaggaca16921cccctcgggc tcctcggagg aggccctggt tgtccccttt ctgccgccgc cgaggctccg16981gctgctttct gcgtagctgg gcagggcccg ggcccccaca ccgcctctcc cgggaatgcg17041ggcgctctgg agccgaggag cgggggcgtc cgcagggagg tcagctctcc tgggcggagg17101tcctcgggcg cagcgccctc gcctggaaac cagccgtcgc ccccgcagga gccagccggc17161ccgtggacgc cccagcgcgc tcctcctcgg tgctgcgggt cgccctgcaa ttccgagaag17221aaagtcagag acgccgtggc ccaaagaggc gcttagtctt tcctcgctca cactcacgtt17281tcctcctcat cgcgttcttc tttttctccc tggctgcttt ctcccctctc caggaaagca17341gatttggagg aacaggtttc gtgactgtcg tccgactgga aaaggcccgc gagctggaag17401ggaggggacg ggtgcaccct cagagttatt gctggaggct gtggccagac cgggcaaggt17461ggtgactccc gctggcaggc tgaggcccac cccagccctc ccacctgggc cacggggctc17521tcagcgggag ccccagttat gaccggacac cagcgcaccg ccaaggagac agccacgtgg17581ggacatgctg gactaggagg gtcagagcca gtttgagggt ctggtgacct cggctccctg17641gcttaaccag gtccttatgg gtgagaatcc tgaggagggg gagagggatg gaggctaggg17701acaggaggca ggaggagctg atgaatagga aggagggaag aagatgaaag aaacaaaagg17761gaagtaatta cactcagagc actgctctcc ttttccatgt cttctgcgcc ttcacagtct17821tcaaaggtgt ccatggagct aaactccctg ctggagcagc cttagggaga gaaagggaag17881gatggggcct ctgtggggtg ggaggacatc ccctctgccc atggcagggt gtagcaggca17941gtgcctgttg caggcacggt cctccccatc tctaactcct gctctccaag ggcctgcact18001gcgctgggct gtgagggggt ctgtgatctc caggctgctt ttccagcgcc gagatgccgt18061aattcaccga gaaggcgcgt ccacatgctg ttcatggccc tacctccccg ttcctccaag18121aaaacagtca ttgttttttg tgtttgccag tcttctaacc acgcctcctt cccttcctcc18181tcccctgtct ctttctcacc ctcccctcct tgcctccttt tctctcccct aattaatgtc18241catttcccat ctccctggca gcctctgcca agtgtcactg ctccccataa gggaaaatca18301gaggaacaag caagtgcatc catcctgcct ctctctgcag tgaactgatt aattaatcca18361tcagtcttgt ctatggcgca catgttacat ccctggggcg gtgttggaca ctgtggggaa18421cagcagccac tgccaaatac tgaacaactg ccctgtgcct ggtggtatgt taggcatttg18481tcaaagttta agcctcacaa ccctgtaagg gtctcagccc cctttacagt tggggaaaca18541gacagcaatg gtcacttggc caagtcctct tggcctgtgg cagggcagct gtcttctcca18601gcactcctgc tctttaccct cgctctgagt gagatggagt ctctgcccca catggctcac18661aagccagggt agggagcaga gcatctgcag aaaggtccca acacaggaca gccccagacc18721gagggtcagc tgagtagtct acgcggcggg agccgtgcta ggaaagtgtc tgctcaggcg18781agaattcagg gaggtttggg caggacttga ggggcagaca ggactggaga gggagggcat18841tctgggcaga ggcatggcca gagggcggta ggcggcagtg gagggagctg cagttatctg18901ggtgagcagg cagcacaagt Rgcgtctcct gggctgctgc cccaagcccc caacaagcca18961cgttctgggc cccaggccct ccccagagca gatcagtggg ggctgtgtga gtaacatggg19021ggcggggggg cagctgggca gcacctccct ggaggcccct ctgaaatcct gcctgactct19081ggcaggctcc gagggggctg gacaccctcc tctcaggttg aagcaagtcc tggttgagtt19141cctagtccca ggaggtggga ggggcaaggg gtggagggca gaggagaaac tgcctcaggg19201atgtgccccc tgccttcatc ctccagacag gacttgggag catctaagga aacccaagac19261tcctctttag agaagtcatc cagccctggg gtccccttat gccaggagca agcagtgaga19321atggaagaat gattgtcttg ctgaaagttc tgtgatggag ggatagaggg acagagggag19381ccatgccctt gaccatcccc tgcatgaata ggaagggctg tgtctccagg gtccatggcc19441tctgtgcccc ggatgatgcc agggctgcta gggaccatag agccacccac tgggaggctg19501gcggttgggc ctggctcagg agccttcgtc agccataggc agccacagcc tggggtgggc19561agggctggga ggcgacacag gaactgaaaa acctgacaag ctctagcccc tccgcagggt19621aagtggtacc tccaggtaaa atgattagtt Kgttccagcc cctctgcagg gtaagtggca19681cctggggtaa aatgactgcc tggagctggc agctgctttc cctgctctcg cgggccctgc19741agggaagcgg ggaagggaag ggggcacagc gctgggcaca gaggggctct cagaccctgg19801actcaactgt ttcagggtca tctgaaacag tcaactgttt cctctagccc attccctgcc19861tccaggcgag gatttgcctg aacgtggaaa gaggaaggat cctcccagtg ctgtcaaccc19921cagattccac ctccctgtgg gggactgtca gcgcaggccc tgacaacgca gagaaagaca19981caggacccac ctgggccagt gacagcagga gctccgggtg ccacaggtga gggtggggat20041gcctggagca ccacgggggg cctggtttag tctagagcca ggttttccat acaccttaga20101gtgcaacctc agggagatgc aaattttacc ccctaacaca gcatacacgc agaaacacat20161ttatacaatt caaacacaag cggacggaac aatatttacc cttagagtgt gtgaagtcct20221catctgtccc acctcatcct atcatgcttt gttctatcct aggagacaaa gcaggagggg20281gggctgcgga ggtgggggag tctcatccaa gcccttgggt gacacgtctc tcctgagaca20341aactgcagct gctctgggtg tgccctcgcc tgtctccctc caggccccgg gttcctgcca20401gcagagacag taacctattc accaggtatc ccccagggct cctggaagaa actcagaatt20461ctcagaacca gaaaacctta gagagcatcc tgcaggcaaa gcccctggtt ctctgcggag20521gaaagtgcgg ctcacagggt gccccgccag ggatggtaat tgacYaccag gctgtgtgcc20581ttgtggggac tggcttaagg ccctgtggga gctgagtcag ggccaggacc ggggtgtcct20641gactcctaga gatcatgttc ccttcctcac ccaggccttc cagtcccagc cctgggcttt20701tatttattta ttttggagac agagtctggc ttgtcaccca ggttggagtg cagttgtgtg20761atcacggctc actgcagcct tgacttcctg ggttgaactg atcctcccac atcagcctcc20821tgagtagctg ggaccacagg cacatgccac cacacccagc taatttttgt attttttggt20881agagatgggg ttttaccatg ttggccaggc tggtcttgaa ctcctgagct caactgatct20941gcccacctca gcctcccaca gtgctgggat tacagatgtg agccatcatg cccacctcct21001gggctgactt ttgctgtctt acatcatctg catatttaat cccctgctgg attcactggt21061catgggctct gaggccctaa gagtcttagg cactaaggag ctggcagcac tgaggggacc21121ccaaaatctc agactcagga tctggccagt cacaggcatg tgagggaaca actgagaggc21181ccattgcccc atggcaggag aaggtgctct ggagtcagtc agacctgagg gcagtcagac21241ctgattctca ctctgtcact cactagctgt gtgatcttgg atacatcact taacctcttg21301agcatcagct tccttatctc taaaatggag ataataacat cgattttgca gtcttggtat21361gaggattagc aaatcttctg ataaagaaaa atgcctggta catcatagga attcaacaaa21421tagtacctgt tatgattatt gtgtatagca attacaataa tactaaagag agggtctcaa21481aacagctctg ggcactccag gtgtgctatt attacttaca tttcagggag gtttgtctgc21541cattgtctca tcctcataaa cactcaggga aagaaacatt ataaggataa taaatggctt21601taaaaagaaa cagagcaaac acacacacac acacacccct cagaaaaacc atgccaaaca21661cacaggctct tgacaaatat tcaatctgat tatagcaaaa ctgttttgtt ttgttttgtt21721tttttgtttg tttttgagac aggggtctcg ctctgtcgcc caggctggag tgcagtggcg21781tgatcttggc tcacagcaac ctccttctcc cgggttcaag caattctcct gtctcagcct21841ccagagtagc tgggactaca ggcacatgcc actatgcctg gctaattttt gtatttttag21901tagagacagg gtttcaccat attggtcagg ctggtctcga actcttgatc tcaggtgatc21961cacctgcctt ggcctcccaa agtgtgagat tacaggcgtg agccaccatg cccagctgat22021tatagcaaaa ttctaagtga tagttgtatt cttggaaaat gaatggaacg acttttgtcc22081cagccaagat ctagtggtgt gttggagcag atacaccctg agtctctggg gcactctcag22141tctatgtatc agataagcat aaggagtatt ggtggagaag gacaagaatg ggaaaggtgg22201gcgatgagaa ttcctgcaga taaggactgg tgagagtatt ctcttttgaa acccttagtc22261gacaatcttt ctggtgcata tcagataagc tgaatggttt aggaaatcta gtgttcacat22321ttagtgctta gaattctaag cttttttatt ttgcttaaac aaatggaatg aaatttatta22381acaagtgaac ctagtaatga gctgaaatta ttctcaccag catacatatt tttggtaaat22441tatagacttt gaagacaaaa tcatggtgtt tcccttactg tccagtggat ggcacaaaga22501gaccattgta gatcctgctg gttcagcggt agctctcaat ccatagatat taaatgggca22561aattctattt ttattgtctt tcaaactaga tttttctcaa tgcacaactt tttttttctt22621tttctttttt ttttttgaga cggagtctcg ctctattgcc aggctggagt gcagtgacac22681gatctcggct cactgcaacc tccgcctccc gggttcaagt gattctcctg cctcagcctc22741ctgagtagct ggggactaca ggcgcatgcc accatgccca gctaattttt ttgtaatatc22801agtagagaca gggtttcacc atgttggcca ggatggtctc gatctcctga ccacgtgatc22861cgcccacctt ggccttccaa agtgctggga ttacaggcgt aagccaccgc gcttggccaa22921ttatgcacaa ctttttaagg accatctcta tcacatgaac taaaggatat cattttcact22981tgggggtggg aagtggtgag ctgcttaaaa gcaatgccta aaccccctgg gctttccttc23041ctttcacttg gaagaaccag ggggtaacta actgctaaca attccatgct ttcagagatc23101taggcgcaag cctaagggct tcatctcatt taatcctcat ggcaagactg tacagtatta23161tctccatttt gtaaaatgaa tgataaaaag aacttaagca cagacaggct atagaatcca23221tccaaagaga tggagctgca cttgaggctg ggtctttgag acctgagttt gagcccttca23281tcattgtgtt gtgtgtgctg ctaaccaatt tcccctctct gtcttctagg atttaataca23341tggtgtcaca ttctgtctga tccatcccag tagctctcca gagctcccaa caggagagag23401ttccaaaatg tttccagggg tactaggctc ggttacaata ttttgcttgg tggcccagag23461tataaacgtg gatatcttag gctggtctat agctgaaacg tctatttcat ttgcaagcct23521atctttggct aagaggaagt gaatcattct tgagaacatc taattaattg ctttcagatt23581ccacatgttg acattctcag ggcacatttt ttttttcccg tgcatttctg ttgtcaaagt23641ccctgccagc tcctaaggca gtctgagctg gctgtcttag actttcagag ctgctggaag23701cttgggggag ggaggggctg taggtcaaag aaactttata acctagcttt acctcccagc23761tcagccacca gctgccctca aatgttctgg attggaataa gcccaaagat gagtggcagg23821agggaagggc aagccaatac gtctagtttg gttcagtcaa agccttgccc atttcatcag23881aattttaatg gaaaatttcc aataagatta aaatataagg tcaccccaat tttagtatgg23941ctccatttaa aaaaaatcat gcatatcttt gttttgcaat ggggccttac tcttgcccag24001gagaggtgcg gtggtacaat catggcttac ggcagcctca acctcctgag ctcaagcaat24061cctttcacct tggcctgcca aatagctagg attacagaca cccaccacca tgcccagcta24121atttttaaaa aaaatttttt gtaggtccag tgcagtggct catgcctgta aatctcagca24181ctttgggagg ccgaggcaag cggatcacct gaggtcagga gtttgagacc agcctggcca24241caatggtgaa actgccgtct ctactaaaaa cacaaaaatt agcgaggtgt ggtggtgggc24301acctgtaatc ccagctactc gggagactga agcaggagaa tcaattgaac ctgggaggtg24361gaggttgcag tgagccaagt tcgtgccatt gcactccagc ctgggcaaca agagtgaaac24421tccgtctcaa aagtttttgt ggagatgggg tcttgcgata ttgcccaggc tggtctcaag24481ctcctggata tcaagtgatc ctcctgcttt ggcttcccaa agtgttggga ttacaggcat24541gagccaccac aactgaccaa atcatgcatt tctatagaca acgtctgcaa gaagatatta24601atggtgatta tatctggtta tgttggattt gtatttttat ttgtactttc ctgtattttc24661taaattcctg acattctaca tgtgtactcc tttaataatc agaaaaggaa acttaaaata24721gttaaaacca attggtcaga tatgtaaaat aacccaccat ctctccagag agggctgttt24781gctagaactt attttcttca ttgaaatact agagtgcccc aataagtttg aataacacaa24841aaaaaaagat aatgaaagta actaaattat ctaggcccaa aaggaaatgc cacaaaaatt24901ggcaaagaaa caaccatgac gtgctatacc ggatagctcc taggccccct tggagaccct24961gaggtacccg acgagggacc tgtagtaagg ctggcagaca ggttcttcct ctgttagctc25021tgaggtacaa cagttattct catttttatg tctttcacat ggccagaact ttgcaaatca25081gaggcaaagt gaattcagaa ttaaaaattt tcagcaccat ccaagtcagt aaaacagtct25141tagcttataa cctttatttt ttttattatt ttattatttt tttatttttg gatggagtct25201tgctctgttt ccaggctgga gtgcagtggc atcatctcRg ctcactgcaa cctccgcttc25261ctgagtccaa gtgattctcc tgcctcagcc tcccgagtag ctgggacgac aggcatgcgc25321caccacgccc agccaatttt tgtattttta gtagagacgg ggtttcacca tgttggccaa25381gatggtctca atctcttgac ctcctgatcc tcccgcctcg gcctcccaaa gtgctgggat25441tacaggcgtg agccaccgcg cccagccctt tatttttact gtaagctgcc agtaaacagc25501acacccacct gtctgctgac tgtcccatct ggaagttgtg taggtcctta ctgaatctta25561ccttcttccc ttcccctacc cagaccccat cccagctggc acgtggaatc ctttcccttt25621ctcctcatgt caatagacca gcaggcaaag agagcagtta ccatagtgga aggagaaacg25681ggtcctagtc gtggtgagga ggtagggctg ctgcttaaca Raggccgaga gggacatgtc25741tgatgctcag gtgatccact aggacatctc gcaatactcc catgcccagc tgtaactatg25801atggccaagt ccaagaacca tagcctgata agagtctagg acccccacta tacatgccac25861cagtagaagt gcctgatggg gagagggatg tctagaatga gtaggaggga atgatgacaa25921agcacagcca aggaccaact gcagtggcag gtggcagcca cagattgagt taagtaggat25981tcttgctgtg ttccctagtg gaagcatctc ccttgttgag acccactgag gttaaagttg26041gagacatggg gagaaaacaa tgtccccgtg ttcatcacta gagtcatgat gggcaaggtc26101acaactcatt tgacttcttg gctcccagat tcatatactc tgcctcttgg gggcacttca26161ccataataca gccattggtt cagttgtatg ctgcatcctg agggacagca ctccatcccc26221gcagtgccat gtccaaactg ctgccccgcc tcactctcaa gaggctgtcc cactactctg26281tcaggcacca gcttctgaat gcagtggtaa gactctgtcc tgtgatcacg tctatggctg26341attctctttt gccatactga gtcccctgat caaagcagtg ttatacagcc tggcgcgctg26401gctcatgcct gtgatcccag cactctggga ggcagagggg gatggatcac tagaggtcag26461gagttcaaga ccagcctggt caacatggtg aaaccctgtc tcctctacta aaaattcaaa26521aattagctgg gtgtggcatg agcctgtaat cccagctact cggaaggctg aggcaggaga26581atcacttgca cccaggaggt ggaggttgca gtgatccctg atggtgccgt tgcactccag26641cctgagcgac aagtgtgaaa ctctatcgca aaaaaaaaaa gcaacgctta tgattgatca26701cacactgtac tttctaacct gaaggggtct ggtaaaatca acttgtcttc tcaagggaca26761gtaccaaact gggggctcag cactgacctc tgctggcatg tcggacattt aaaagtggta26821gcagctagag cagtcttgaa gacatggagc cctcactgct ggggccgagc actgctgggt26881tcaattctgc taccaaggct tctccatttc cgagcccatg gtgcaggcac tggggtgcct26941aagaggaagt gcactaactg gacttctgct atgcaccttc tttagggggc attaaagcac27001agttcaaaga ctctcacatt ttgagttaac ccccacaggc ctgtgtgccC CttctcCagt27061caggtcatgt tgtcatttga tcctagttat tattctgaaa gggttcagga agggaggtgg27121ggacagatct tgRaaagggc aaacattgcc ttgtatgcct catctgaggc ttccgcatag27181tcttagggga ctgggaaccg tcttaagtga atctcacctt cttcccttcc cccagccagg27241ccctagccct actggcatga ggaatcctat ctctttgtcc tcatgccagg agaccagcag27301gcaaagagag cagttaccat actggaagga gaaatgggtc ctggtcatca gaaggaggta27361ctcctcaagg gacagtacct gagggagaca cttccactag ggaacacagc aagaatccta27421cttaactaaa tctacggctg ccgcctgctg ctacagttgg tccttggctg tactttgtag27481tacaaggcga agtaggccac tgctgccagc ccaggaggtc aagggcattt acccagacat27541cctcattccc agtttttggg tcccttatct tccctctcag gatctaatga ctcatctact27601ggcactagga gtccaaaatg accagatggc agactcgcct aggctgagaa ttcttccttc27661tctcaaattc tgccactttt accagcccag tctgcctctg ctgtaggaga tgagaggcta27721aatgttggca gggaggcccc ctgattctga tcctgtgttt taaatcgata attagtcYga27781ccctgttact ttctcccttc agtgcatcaa cgggaggctc ttagcaacag cctcccaact27841ctaccttcct gatagataat attttcctca aagctctcaa atgctagaga cattgcacca27901gctggYgtgt ccccatccac ctgtatctga tcccaggtca ccacaggtga aggtctgagc27961aatcgaactg ctacagcagg ccaggtacca ggactctcaR cacgccactt aacaccaata28021atgaggtcct catggccatt tggcctgcag tgagccaaca ccagaatccc atccattctg28081ggacccctcc tgctactaac ggtcttcagt caggttcccc agaagcagat tatgcaaatg28141tgttattgaa aaacggcttt cagatgaaac ctggaagaca gtgaaggccg aagctagggc28201agggaagaag ccaggcacag acgtgggctt agcagaagtc tagcatcagc ctgatcccct28261gggcagtact ggagcatgga tggcaccaca ggttaccatc ttgagacaga aggactggct28321tctgtaccct gaatcagtaa gccattggtg ggccataagc cacccttagg ggaggacata28381acctcacagg catttcctgg ctggacgacc ctgggcagct gagggcaact gcctgaaggg28441cacaacggtg agccattgtc agctaacctc acagcagcag agacatgggg ccaacagcct28501ataaagaggg tctgggcagg ctgtcaatac tctctactgt aatactgtat atgtggttta28561ttttaaaaac ttttttagaa ggctttattt tattttattt tttgagaagg agtttcgccc28621ttgttgccca ggctggagtg caatggcgcg atcttgactc accacaatct ctgcctcctg28681ggttcaagga attctcctgc ctcagcctcc cgagtagctg ggattacagg cgtgtaccac28741catgcccggc taattttttg tatttttagt ttcatcatgt tggcctggct agtcttcaac28801tcctgacctc aggtgatccg cccacctcgg cctcccaaag tgctgggatt acaggcgtga28861gccaccgcac ccggctgact ttattttttt agagcagttt taggttcaca gaaaaactga28921gaggaaggta caaagatttc ccatatatcc cctgtgctca cacatgcatg gcctccctat28981caccatcccc caccagagag gcacatttgt tacaatggat gaacgtatac actgaatata29041tcatattcac ccaaagtctg tagctcacat catggttcac tttggctgtt gtacattcct29101tggatctaga cacttttata atgacaggta cagtagtccc cctttatcct caggggctac29161ttccaagatc cccagtggat gcccgaaacc gcagagagtg ccaaacttga ctgccatcag29221tgggaatatg tttctattcg ccttccacca ccaccggttt aacgcctttt tcatcttagt29281gctgctgccg taactttggc agtttgagat gcgacagcaa aatgagtaca aatttctttc29341tccttcttca caatgtcatg gacagatgat tccttcttac catagatctt agcaacctcg29401gtgtgtgatt ttttttcttt cttgttaaat caactttcac cttttcactt aaaggaagca29461tttgacggct tctctttggc atatctgaat ttccagcatc acgactgtgc tttggggcca29521ttgtttgttt atttatttat ttattttatt tatttttttg agacagagtc tcgctctgtt29581gcccaggctg gagtgcagtg gcgtgatctc ggctcactgc aagctccgcc tcccaggttg29641acgccattct cctgcctcag cctcccgagt agctgggact acaggcgccc accaccaagc29701gcagctaatt tttttttttt tttgtatttt tagtagagat ggggtttcac tgtgttagcc29761agggtgatct cgatctcctg acctcgtgat cctcccgcct cagcctccca aagtgccggg29821attacaggca tgagtatttt atttatttat ttattttttc agacagagtc tcactctgtc29881ggccaggctg gagtgcagtg gcaccatctc gctcactgca acctccgcct cccaggttca29941agcaattctc tgcctcaaac tccggagtag ctagaattac aggtgcacac caccacgccc30001ggctRatttt tgtattttta gtagagacaa ggtttcacca tcttggccag gctggtctta30061aactcctgac ctcaggtgat ccacccacct cggcctccca aagtgctggg attataggcg30121tgagccaccg tgcttggcct tggggccatt attaagtaaa ataagagtca cttgaacaca30181aacactgtga tcctaacagt cgatttaatc accaagatgg ctataagtga ctaaggctgg30241cggggtgggg agcacagaca gcagggacac cctggacaag gggataattc gtgtaccaag30301caagacacag cggaaggcgc cagatttcat cgcactactc agaatggcat atcatttaaa30361actcatcgat tgtttatttc tgtaattttt ccatttgata tttggacagc agttgactaa30421gagtaactaa aacctggaaa gtgaaacagt ggataagggg gtgctcctgt acttctcaat30481gtgagacatt tgcccttcat gttaattctg ccccattagY tctacacaaa tgaatagcag30541gaaattgatt ttaaaccaca tggtggtaaa atgctttctt ttttctccct catttaacta30601aagaagggct gggccctagg tgatgtcttc cttagcatct aagcagctgg catcacccca30661ctgcttctgt gctccactct cccatgggac cctccctacc tttaatccct cctgtgctgg30721aggccgggtc ttccttgcta gtggtagctc tttccatatt tttaatccat ggtccggatc30781ctgctccact gcctttgctt tagagaaata aacatgaata ttgagtcact ggaaggaatg30841acacacgcat ccctccccca ccagttggag taacgctggc ccacctagtg tatctctggt30901ctaggtctcg aggacctgct gctcctccct cacctgtagt tgaagacctg cctcaggtca30961gtaggtgata cgcagtaagg aaatgtccaa aggacacttc ttgttggatt acacagcaaa31021catctaattg gctgcaaatc tttttttctt tttctttctt tttttttttg agacagagtc31081tcgctctgtt gcccaggctg gagtgcagtg gcgcaatctt ggctcactgc aagctctgcc31141acctgggttg acgccattct cctgcctcag cctcccaagt agctgggact acatgcgtgt31201gccaccacac ccagctaatt tttgtatttt tagtagagac gaggtttcac catgttggcc31261aggatggtct tgatctcttg accttgtgat ccgcccgcct tggcctccca aagtgctggg31321attacatggc tacaaatctt aaagggggaa gagatgagga ggaataatcc cctttgtctt31381ctcaaaaatg ttttcactgg ctcactacag ctccctcctt cctctttact gacccaaaat31441gccaactatt atagtaactc ttttgggtta gacgaatcca gtgaataaac acctactaag31501cattggaggt ccaagaggaa taagatatgc ctgagctaaa cctcatcacc cccggccttg31561cttgcagagt ggtttgctgg cctcatctga ttattcaatg agtgctttca tttgtttatt31621cactaaatat ttactgagca cctacaaaag tgcctggccc tggtagatga ggcctgaggg31681aagctaaaac taataagaca aactccatgc cctagaggaa ttcatggtct catagggaga31741aaatgtaaac acatcataaa attatagctt attaaatgct gcaatagagt actccgtaag31801agtgtggggg cagagaggag ggggagaaac agctgctttc tagagccctc accttttcca31861cttctctcat ctttctgggt tagggtctag cgggggttcc atgaggatca ggctaaatga31921gcttagaaaa actaagcaga ctactgtatc agaactggat cacagtagac aggcgttttc31981aacaaacata tattgagtat ccctgagtgc tttggacagg aagaggaatt atagacgaag32041attgtaagtc gcagtaatag atgaggcaag gagcaccagt gaggacttaa ccctgaaaga32101agtgtgagca catcttcctc ccagacaagg gggaataaag aaaggaagat gatcaggaga32161gttctaagtg gaactcagca gccagagggg aagcYggagg aggtaacatc agagggtgcg32221tttgcccact cagtaaagta ggaggcaggg cagccttgtg aaaataggaa tggaatagaa32281agctcaagaa aacagccaaa agcaagggca attaggggag gtttcgaact ggcagatcta32341cctcaactgg caatacagca agcatgcacc agaaaagata tcctagctag cagtggggtt32401gggaactgat ttaatatcct aggctagcag tggggttgSg aactgattta ttatttaatt32461ttttatatct attcatgtat ttatgcactt atttattttt gagataggct ctcgctctgt32521cacagaggct agagtgcagt gatgtgatct aggctcactg cagctttgac ctcctgggct32581caagtgatcc tcccacctca gcctcctgag tagctgggac tacaagcacg ccaccaccta32641ggctaatttt tgtatttttt tttgttagag acagggtttc accatgttgc ccaggctggt32701ctcaaactcc tgggctcaag cgatccatct gccttggcct cccaaagtgc tgagattaca32761ggcgtgagcc actgcgccca gccaatattt tttaaaaatt ggaaatccct tgtaataagc32821caagtgttgg gggaagaaaa gcaataaaag caatgacatg gactcaatat gaaacatcca32881aagcatttga catgccttta aaataaaaaa atcagtactc acctcgtgct catttcaaac32941tgtggatttc cttggtctaa aattttaaaa aacaaaaaac agcactctca aatttaagct33001aatttgaatt gattttacat agtgattttt aaatacacat atatgcataa agagaatact33061ataaaaatat ataaaggtgt gtaggtcttg atcatatttt cccaggaatt cagaaaacgc33121tgctacagtc cctgggctca cgtggtcctg gcatcctccc caacgtctct accccatcct33181gctgagtttc tggcatgcat tggttctggg tctgtccaag tttctactgt tagctccatt33241aatactgaat taaggaataa acagtgctca aatgctcatt ttttccatgt gagcccaaat33301tatgtgactt gatgagggaa aaaatcatga gtccctggga gagcgataag aatcacattc33361tttactaaag tgttgtccca ggtatgagaa taacaccaga tctcaacctc cagaggcccc33421ccactgcctc ccacagcata aaagccaaat tcctcggccc gatatttgag gccatctcaa33481tctttttcct ttcaccctat acctgactct cccaggctag gctcagatcg tcactgaatg33541tgctcacttc gaggcacctc tgtgattttc aaggttcctg ggcccacctt ttactaccga33601tgtgactgcc acatgttgcc cagttgctag gatgggaccg tggccttgat ttctgccggg33661actgaggctt tgccttgttt cccacccacc ctgctgcctg cccctgcact cttctggctg33721gggcctgatc tttccccgca gtctcccttc acctctagat cacaggcagt catgccacag33781ctgaggagct tgtcccaaac ctcagtgcct gcctccctcc tcggcttctt gtgctgctgt33841gtctcaccca tcagtgaYgc tcttctcttc cctgcccaag ccctagctga ctccataaca33901cctggataca atgtcctctt ctgtctggtt acctccgaga ggccctctct ctacatccct33961cattggctcc cagtgtcatt cctctcaccc atggccctaa ggtcactgta ttctttggcc34021agtgtacagg gttattatgc ttaacaatcc acaaaggttg aaaggtgttg taggatggtg34081taaaaatgaa tctgggtggt aatgtttata tgtcagagct ttgtaaagtg ctcggcaggc34141gtaaggtact gacagtcctg atattcctga tcttggaacc tgggacacca tcttctcaac34201attgcccgga taccctcaag ggtatccaga cagcctgagt ttgcattctg ttcctggttc34261agcccagggc cctggttccc gctcactcac catccactgt gggccctctc taaattctta34321aagcccttgc catttgcatc actcacagag acatttcatc agagcctact tggtgcacca34381ggctcaggag actcagttct gctgcggata agttatgtaa aattgaccct ctgcttgcac34441atctgtaaaa ggaaggggct ggcacaacac ctctgggcct ttcagttcag tagtgttttc34501tttttatcta aaccacgtgc tgggtcctgg ttttgcttct tatctagatt tttgcattcc34561tgtcacaacc tataaagcac agttcaggcc ttaaggaggg cttgagaaat ctctttccga34621attgtcaact gaataagtgt catatcttca taacaaactt gtcttttttt gcagggccag34681gaaggcagca ggggagtcag ttaaaatata aattttagat taagcttaat attgttaaga34741agtcaattct caccaaattg ttctagagat tttacataat cctaatcaaa atctcaataa34801ggttttttga gaagttggca agcagattct aaaatatata tagaagtata aaggacacag34861aataatcaaa acaactttaa aaaggaagaa caaaattata ggactctaac tacctcattt34921taagacttat tagaaagcag cagtaaccaa gatagtgagg gactgatgtc aaggtagaca34981aatagatcaa tggaaaagaa tcaggcatcc agaaatagat gcacttacat aaatcatcaa35041ttggagaaag aatagtgttt ttaacaactg gcaatggaaa aactagaaca tcagtatgca35101aaggactgaa ctttgatcca tacctcacac cacatacaaa tcaaaaacag aaacaaacaa35161acaaacaaac aaatactcaa aatggatcag agacctaaat gtaaaactat aaaacttctg35221gaagaaaaca cagggagaaa atctttatgg cttttagata acgatttctt aggcaggata35281ccgaaaacat gatacataca gtttttaaaa ttaaatatta taagaattaa agtcttttgc35341tcttcaaaag tcactcttaa gagaaaaaga tgccacacac tagaagaaaa tatttacaaa35401gcattaaaag gacatatatc taggatatac ataaaaactc tcaaaagtca ataataagaa35461aacaatgagc aaaagatttg aacagacact tcaccaaaga agagataaag atggcaaaga35521agcacataaa gagatgctca accattagtt actagggaaa agcaaattaa aacctaatga35581cataccacta tgcccctatt agaaatctga aaatttaaaa gactgacaat accaagtatt35641ggtgaggaca tggcacaagt ggaactctca tacattacta tgggaatgga agatactata35701atcactttgg aaactattta gaaatttcct aaaaaattaa acatacacct accatatggc35761ctaaccatta cactcttagg tatttaccca agagaaatga aaacacatgt ccacacaaag35821acttgtactt gcatgttcat agcagcatta ttcaaaatag ccccaaagca gaaacaaatc35881ggatgttcat taacaagtaa atggataaag aaaacggggt ctagccaaac aatgaaatac35941tactcagcaa caaccaaaat atgtactatt gtttacaaaa tccaaataga tgaatctcag36001aataattatg cagaggagag aagccagacc aaaaaaaaaa gtacatagtg tattatctct36061tatgaaattc tagaaaatgc aaactaacct atagtgacag aaaggagatt ggtggtcacc36121tggggtgggt gagggagggg caggagaaag ggaatgcaaa gcagtgtgaa caaacctttg36181gcggtgatag gcatgttcat tatccttact gtggtgatgc cttacagatg tatacagatg36241tcaaaactta tcagattgta cactttaaat atgtgtggtt tatcgtgtca ttatacctca36301gtaaaggagt tttaaaaatt gtagtaaaag gtctctacct agaaacctta ataagctaaa36361atgtatgtcc ccaggactaa ccctagctat tctatagttc tggggtggaa cctagaaatc36421tgcatttgta gcaagccctt caaataattt gaatgcaggt ggtccttaaa ccaccctttg36481agaaacactg acctagtgag taaggatttc taaacaagct tgtgactaga atgttgtttc36541tgcagggaac aagtgacttt ttctactaga gttgccatat cattctgtgt taagcctcta36601ggacactcct actcaattac catgacatat atttaacata atattaatag ttgtaaaaca36661aaagtaaacc atagtttttt tcccatctta tctgtataca aagtaaaatc aatgacataa36721tattgttact agttcctggc agttacctac agtttaaatc aagaacttat gttgcttggt36781ttttgtgaca gaaaactgat gtggtggctt tccagttaca ctgcttggtt taccttttcc36841cttatcttat gatgcacacc cagctttgca cgttcctgag cagctgatga tcatagaaga36901cctagaaaaa gtgtgagcca gttgcattcc tgctatctct aaagaaaaaa gttatctttt36961catttttatg tgatttttct tacccaaaat gcaaaccact gccagtataa atgatggaag37021atagactttc cacatgaaac tggcatttct tcaccctagt aacattacct gaggggaagg37081tcagaactca attgataaag ctcgctgtgg attttcccac caaatatccc tgcaaacaaa37141gtgaaaggat aaagcctgct taaagatgat ttgtaattgt tgaaaggagt acagtgtgtg37201acatcagtga aaatggtgga gaaaaaaccc gtccccaaat tctcttcttt gtgaaagcat37261ggaaaaaact ggccaaaaat ggttagaaaa tttattttca gaatatcgaa attttttttt37321cctttttttt ttttttatta tactttaagt tctagggtac gtgtgcacaa catgcaggtt37381tgttacatat gtatacatgt gccatgttgg tgtgctgcac ccattaactc atcatttgca37441ttatgtatat cccctaatgc tatctatccc ttccccctcc ccccacccca ccacaggccc37501tggtgtgtga tgttccctac cctgtgacca agtgttctca ttgttcagtt cccacctatg37561agtgagaaca cacggtgttt ggttttctgt ccttgcgata gtttgctcag aatgatggtt37621tccagcttca ccatgtccct acaaaggaca tgaactcatt gttttttatg gctgcatagt37681attccatggt gtatatgtgc cacattttct taatccagtc tatcattgat ggacatttgg37741gttggttcca agtctttgct attgtgaata gtgctgcaat aaacatacgt gtgcatgtat37801ctttatagca gcatgattta taatcctttg ggtatatacc cagtaatggg atggctgggt37861caaacgatat ttgtagttct agatctttga ggaatcgcca cactgtcttc cacaatggtt37921gaactaattt acagtcccac caacagtgta aaagtgttcc tatttctcca catcctctcc37981agcacctgtt gtttcctgac tttttaaaga ttgcctttct aactggtgtg agatgttatc38041tcattgtggt tttgatttgc atttctctga tggccagtga tgatgagcat tttttcatgt38101gtctgttggc tgcataaatg tcttcttttg agaagtgacc gttcatatct tttgcccact38161ttttgatggg gttgattttt ttcttgtaaa tttgtttaag ttctttgtag attctggata38221ttagcccttt gtcagatggg tagattgtaa acattttctc ccattctgta agttgcctgt38281tcactctgat ggtagtttct tttgctgcgc agaaactctt tagtttaatt agatcccact38341tgtcaatttt ggcttttgtt gccattgctt ttggtgtttt agtcatgaag tccttgccca38401tgcctatggc ctgaatggta ttgcctaggt tttcttctag ggtttttatg gttttaggtc38461taacatttaa gtctttaatc catcttgaat tcatttttgt ataaggtgta aggaagggat38521ccagtttcag ctttctacat atggctagcc agttttccca gcactattta ttaaataggg38581aatcctttcc ctatttcttg tttttgtcag gtttgtcaaa gatcagatgg ttgtagatgt38641atgatattat ttctgagggc tctgttctgt tccattggtc tatatctctg tttttggtac38701cagtaccatg ctgttttgat tactgtagcc ttgtagtata gtttgaagtc aggtagcgtg38761atgcctccag ctttgttctt ttggcttagg attatcttga caatgcaagc tcttttttgg38821ttccatatga actttaaagt agtttttttc caattctgtg aagaaagtca ttggtagctt38881gatggggatg gcattgaatc tataaattac cttgggcagt atggccattt tcacgatatt38941gattcttcct atccatgagc atggaatgtt cttccattgg tttgtgtcct cttttatttt39001gttgagcagt ggtttgtagt tctccttgaa gaggtccttc acatcccttg taagttggat39061tcctaggtat tttattctct ttgaagcaat tgtgaatggg agttcactca tgatttggct39121ctctgtttgt ctgttattgg tgtataggaa tgcttgtaat ttttgcacat tgattttgta39181tactgagact ttgctgaagt tgcttatcag cttaaggaga ttttgggctg agacgatggg39241gttttctaaa tatacaatca tgtcatctgc aatttgacaa tttgactttc tcttttccta39301attcaatacc ctttatttct ttctcctgcc tgattgccct ggccagaact tccaacacta39361tgttgagtag gagtggtgag agagggcatc cctgtcttct gccaggtttc aaagggaata39421cttccagttt ttgcccattc agtatgatat tggctgtggg tttgtcataa atagttctca39481ttattttgag atacgtccca tcaataccta gtttattgag agtttttagc atgaagggct39541gttgaatttt gttgaagacc tttactgcat ctattgagat aatcatgtgg tttttgtctt39601cggagaacac tggaaattaa atgatggctt gcagcaatct ggagagcatt tattcaagga39661aaatggctgt gtctcagtat gactaatgag ctttttaact tgccctattt ctatcctccc39721cttccttggt ggtagcctta gaaatgaaca gcctgcaatg atagtgaaaa tcagcagtct39781ggcagccatg ggaggggcag aacaggaatg ggggaactat ggagcctcat tcttagagaa39841ttatcattat ttgatctgtc cacgggtttc taggaatacc tgacctgcaa gtctgtcttt39901attaggcctg actcagaact tgcccaatgt gaaaagtctt ttccccaaag gcctttgtag39961aaaatgatta caggcaattg tttaacttct tggttgctcg aggtattggc taacagtggg40021gcaaacatgg gctaatcaga aggtttaaaa tgaaatgctc aggaataaga tgctcataga40081gggttgtaaa ggctccaaaa tatttatgag actctagaag accatgcaca catttcctgt40141gaacatgttc aggacagatc tgcgaaggcc ccacgatctt acctctggct gatcttgatg40201atctgcacaa acagaaagtg aaagctaggc tagaactgtc aagtgccagg ctgagtgtga40261aggtgtgccc taatgtgcac acagagcccc ttggcaaaga ctagaagact tactgctttc40321aggtgtttaa agaaatctct gtcatgtcat tagtatttag atcactaagc taactgaaca40381gaggcttcaa tggctgcaca taaatacaga cttcacagaa ttagtttaga aaagtcacta40441taacaaacaa caataaacag caacaccaac aaacagtaga ggtgggaagg tccaatttcc40501agagttgcta cattatgtta tttaaaatgt gcaattttaa cagaaaataa tgagacatgt40561aaagaaataa gaaaatgcag tccataccca gggaaaaaga aaaaccagtc aatacaaact40621gttcctaggc caggtgcagt ggctcatgcc tgtaatccca gcactttggg aggccaaggc40681aggcagatca ccagaggtca ggagtttgag accagcctga ccaacatgtt gaaaccccat40741ctctactaaa agaaaaatac aaatttagcc aggcatggtg gcgtgcacct gtaatcccag40801ctactcggga ggctgaggca gaagaattgc ttgaacccag gaggcggagg ttgcagtgag40861ctgagatcat gccattgcac tccagcctgg gctacagagc aagactctgt ctcaaaaaag40921aaaaaaaaag aaaaaagaaa aaactgttcc tgaggaagcc aagatactga ctttactaga40981ccaatacttt aactattttt acatgttcaa aaagttaaag gaaatcatat ataaagacta41041aaggaaagca caagaacaaa tcctcattaa atagaaaata taaagatttg ttttaaagga41101cgaaacagaa attctagatt tcaaaagtat aataattgaa tgagaaattc actagagtgg41161ctggctcaat agcagatctg agcaggcaga agaaagaatt agagaactca gaaataggtc41221aattgaatct atccagtctg aggaagagaa agaaagagga atgaaggaaa aatgaataga41281gcctcagaga ctgtgagata ccttcaagca cgctaatgac gcataatggc agtctcagaa41341ggagagaggg ataaatgggc taaaataata tttaaagaag caatggctga acatttccca41401aatctgatga aaacattaat ctataccttc aagaaagtct ataaactcca agaaatataa41461attcaaagag atcaagatcc acacctagag ataacataat caaactgtca acaaagacaa41521tgaaattatc ttgaaagcag caagcacata gaaggactct tcaataagat taacagctga41581tttctatcag aaatcacaga gttgagaagg caatgggatg acatattcaa agtgcttaaa41641gaaaaagagg gtcaacaagg aattctatac ctaaagccaa tttatcttca acaaagatgc41701caagaccatt caaagYgggg aaagaatagt cttttcaatc aatggttcta ggacaatgga41761tatccacatg taaaaaaagg aacttgggcc cctaattcac atcatataca aaaattaact41821cggaatgagt caaaggctta actgtaagag ttaaaactat aaactctttg caaagaacac41881tatcaagaga gtaaaaagac aatgcacagt atgggaaaaa atacttgcaa ataatatatc41941tgataaaagt ccagtatcca gaatatataa ataactctta caattcaacc ataaaatgac42001aagccaatta aaaaacatac aaatgagtta actgacattt ctacaaagaa gatataccaa42061tggccaatat gcatgttaaa agatgctcaa catcactagc catgagggaa atgtaaatca42121aaatcacaat gagatactag tacatgccca ctaggatggc aatgataata ataataataa42181taataatgtt attataatga acaatacaag tgttagtaag gaaatggaga aaattgaacc42241caactattat attgctggtg tgaatgtgaa atggtggtac tgttttgaaa gatgatttgg42301aagttcctca gaaagttaac aaaagttacc atatggtctg gcaattctac atatatacac42361caaagaaaac tggaaataaa gattcataca aaaatctgta caaaaatatc tacagcagct42421ttacttacag tatccaaaaa ggggaaaaaM cccaaatctt catcaactaa tgaatggata42481aacaaagatg gtatatccat acaatggact gttactcagc cataaaaagg tatgaagtac42541tgatagatac tacaacataa atgaaactta aaaaaatacg caaagtgaaa gaagctagac42601agaaagggcc atatatgtga tgtgtagaga aaacatccaa tagagacagg aaatacatta42661gtgattgcca ggggctgggt aaaggtgaga gatggagaat gattgctaat tggtacagaa42721tttttttgtt gggagagtta tgaaaatatt ttggaagtat aattagaatt aggctgttaa42781atactttaaa acaaaaaaca gctgggcgca gtggctcaca cctgtaatcc cagcactttg42841ggaggccgag gcaggcagat cataaggtca ggagatcaag accatcctgc ccaacatggt42901gacaccctgt ctctactaca aacacacaaa ttagccaggc gtgttggcgc gcctgtagtc42961ccagctattc gggaggctga ggcaggagaa tcacttgaac ctgggaggca gaggttgcag43021tgagcccaga tggtgccact gcactccagc ctgggcgaca agagcaaaaa ctccatctca43081aaacaaaaca aaacaaaaaa caaaagtaag aagtaaaaaa atagaattag actggggatg43141gttattgagc cttgtgaata atctaaaacc cactgaattg tatattttag acagtgaatt43201tgatggcatg ttaattatat cttgatgttt taaaaaaagt agtacagtgt ctgaaaggta43261gcattggcca tttgaatctc tgttaacatt ttcttgggtg gccatcagat ttttgattaa43321aggtgacctt ggcaattaag tggtgggggg aacacaacca aaagggacaa accaacacaa43381ccacacacaa tcacacaacc cctccacctc caccacagtg gaaatcaagc ataggtgctt43441ccagggactg tgaaaatgtg gccacagttg ttttcccagc aaaccatttt ctttcacaat43501atccccaatt tgcacatccc ccactgagct gaaatcagta taactcgaca gacRaaagtc43561agcaggggta acctaccttt gatattattt tgttgttcca tcaataattt acttatttct43621gaaaaccaac agtctctgat ttcttttgaa gctgcctgca atcacacata agaaaacact43681ataagactac catgagtatt aattgcagag tttttattct cccagtgacc gttagactaa43741tgagatagaa aacacttgtc aagtcatggg aacacaataa ggaaagagta gaggagaccc43801atggggaagg catgagcgtt acctgcagga tgtatttctc aagtccattt cgactggcaa43861tctcaaactt tctatggctc ccccttccaa gctggcgaat tgaaagtgtc atcagctatt43921ataaagaggg aagagaaatg ttctatacca tcgttttctg attttaaaat agtccctgtc43981aatcactcta atcctttcta tccttgacag ctctcttctt tcatcttcct ttcaagtttt44041tgctttcctc tcttaatgac tccaagacag cataaaacac aatctggtac agtgtcttct44101gtctcatctg tttcagaagg taacacagac tgttaacttt ctactgtatc tttatgcagg44161aggcgctgca gccctcaacc tttcagtgaa gagatcattt ctccttcaac Rtgtatttta44221caactttcta cgtaatagta actgaataag gatctattca gaaacataaa taacaaggcc44281aggtatggtg gctcatgcct ctgtaatcag tcctgtaatt ccagcacttt gggaggccta44341ggtgggcgga tcacctgagg tcaggagttc gagaccagcc tgaccaacat ggtgaaaccc44401tgtctctact aaaaatacaa aattagctgg gcatgctggt gcgtgcctgt aatcccagct44461acctgggagg ctgaggcaga attgcttgaa cccgggaggt ggaggttgca gttagccaag44521atcatgccat tgcactccag cctgggcaac aagagcaaaa ctctgtcgaa agaaaagaaa44581gaaagaaaga caagaaagaa agacagaaag aaagaaagga aggaaggaag gaaggaagga44641aggaaggaag gaaggaagga aggaaggaag gaagggaggg agggagggag gaaggaaggg44701agggaggaag gaaggaagga aggggagaaa gaaaacaaag gctactatga acaaattaac44761agctttaatc acaaSagcat aaatatatat gggtgtggct cctgtatgtg ggtgtgtgtg44821tttcatagcc tgagagctaa ctggctatga aacagtttct aaacaggtga gaaaacaatg44881cttggtgtgg gcctgggtgc cttagacccc aaggtcagga caatgcctgc acttagacac44941aaagatacac cgttgagaag gRcaagtcta agatgaaatc cagcccatgt tctcatcact45001aagtctttca actctctttt acctctttgc ctggaagaaa gagggtactt ttactaatta45061gtttgtccag actggctgcc atatagtctt ttttctctag tacaaaggca ctcctatgcc45121agccctggcc cataagctct gaccctggag tcagacagac ccggctatgg attctagccc45181tgtggtgtgg tatttggcaa gttaacttca cctctctaca ctgcagcttc ctcatctgta45241aaataaggaa aacgatctct ctcttttctg catagggcga ctcccagatg caataggact45301ccctttacct tcatggYctt cttgaagctg taatgaggag ataatccctg gtccccaggc45361tccattcgta tcttacagaa cactattccc ctttcaaata ggtagatttg cctctggctg45421ggtttaaatc gaatcaaatc cttcatttta taacgatcct tgtgaattgt ccagacgctg45481aaagggccgt gcagcaacag cttgcctagt tttccaatat cgtccttttg gaaacacaca45541tacaggaaaa gaagctgtaa aattacttga cagagaaaga agcctttgtg gcctgttttc45601aaattttata aagcatgctt ctttgaggtt tacaattcta aaagtgctat tcaggctggt45661ctgtcactaa atcaaaacga caattttttg agcttcactg agcgtggtgc cRtttagtta45721tataaggaaa tcaattcagc tatgaaaggt aatgctatac ataaagaatg ttagaaatgc45781ttgagctaga gatacgggga ctgtgatatt tttgactcaa ttttaactag cagaattcaa45841tttcctctgt gctatgtttg atacatgaca gtctccttca aagggacaag aaattaacat45901ttcaattatg tccagtagag atagaatttt ggctgcattg Yggacccatg agcatctgtg45961tgttccatct gcatcctaac ttctgcttca ggtatatgag gacctgagaa aatgaagctt46021gttctgaaaa gagaaagttt actgtgatct aatcttcaca acattgtaat ggaaatagta46081actgcattca actctgagtt tttcagagtg agtcaacagt gccaagataa taccaaatga46141cagattttta agaagtctgt ttgactctag gcataaactg tgatgcccct gtctccacca46201gcaaggctgc ctttgtcata tgtctggttg aaagtccaaa tgagatgacc ctgccttctc46261tgagctctct tcaaaagaca gtggaccaag atgagctggg agcgaggcat tttatctggt46321atttttcaaa acttcgattg cttaaagcag ataagaattc atttccctga ataaaaacac46381caaaaggaac aaattatttg aaggggacca agacaaagaa atctccctaa gtgacctcta46441gctgagatca atccctatga tttctgagtt aatactggaa atatgtactt cattcataat46501tgattgggca tttttataaK ttattgttta tatgttgggc aaactctagg tatctttttt46561aaaaaggaat tgactttact tctgaaacat taaaagaaaa acttcaagag caataaactc46621tagtcatttc tatggtgtct atggcgttat ttcctatgtt aattttctat tttcttcttt46681ggaaaattta catatgtaga ctgtggtgaa taaaaccctc aaactcccag ccacgaggcc46741ttctttccta aaagccaatg ctcctgttct gtgttaacag ttcaccacat tccaaaacag46801aagggtggat aggtccatga ggaccctgga gaattttttc actctatctg catccatcaa46861ggacccactc aaatgtaatc actacagacc ttagtgactg ctttttcctt taaatccatt46921caattcataa tcaatatcga cataaatagt gcaggaaata tgttttagta aaggcaactg46981gtagaagtag atacttaata tttgccacat aaacaaatgt tatcagcaca ggttgagcat47041ccataattta aaaaatctga aatcctccaa aatctggaac tttctgagaa ccagtatgac47101actggaggtg aaaaattcca tacctgacca catgtgatgg gtggcagtca aaacacagtc47161aaaattttgc ttcaYgcaca aaattatttt ttatttttta tttttttgag acggagtctt47221actctgttgc caaggctgca gtagagtggc acgaccttgg ctcaccgcaa cctctgtctc47281ctgagttcaa gggactctcc tgcctcatcc tcccgagtag cttggattac aggcgtgcat47341taccatgccc ggctaatttt tgtattttta gtagagccag ggtttcagca tgttggccag47401gctggtctcg aactcctgac ctctggtgat ctgcccacct cagcctccca aagtgctggg47461attacaggca taagccactg ctcccggcct tcatgcacta aattatttaa aatatgtaaa47521attaccttca gtctatgtgt ataaggtgtc atgaaacata aatgaatttc gtgtttacac47581ttgggttcca tctgcaacat aactcagtac gtatgcaaat actccaatcc tcccctaaaa47641aaaaaaaaac tccaaaacac ttttggcctc aagcattttg gctaagggat attcaaactt47701gtagtttcta tcttacaatg tattcactct ctacctcatt ttaaacattc gacgcatctt47761acagaaatat atacagtata gacagataga aaataaccga gggaattaag gtgaagaaaa47821aataaagaag ttgggagctt ggcgcctgcc tgtagtcgca actacttggg aggctgaggc47881aggaggatca cttgagtcca ggagtttgag gccagcctgg gcaacatagg gagatcacca47941tccctaaata taaagacaat aaatcagatg aactgttcca gaaggtgtag aagataaaag48001aaaagatgaa gaggttatat gtaaaatgca tataataaag ccatKtaaac ttgatgtaaa48061cttggctctg actttctaat agcaatacag agggaaacat ggtgagtggt acgatttatt48121atgtctgaag acatacacaa accggttgtt caggaaaagc acagctattc ctactaagac48181ataagaaaca tttctcccag tgatatgttg tcactgagca acatcctcaa ccacgcccta48241tgatagaaag aggaacatgt tttaggtaaa gctgcttgta agaacacatt tggtcagtgt48301ggaggctcag ctgtcaaagt aattctagaa gaggctagga tgatagggga agggggaata48361agtcgaggtg tacactctct aatgacttgt gaagatgggg tgacgtgagt taaggcatcc48421acaaggctat tgtagaggaa acagccccaa ccagaaatgc tgaagaggca gcctcaggca48481gcaaggtttg tgctttatta cctctgaact ttcctcatca ccccatccac agccatgctg48541ctgcaccttc ataggcaagt aatcagagga tgtgaatcca gagaggtacc agcagctgac48601catagggccc ccagcataaa aacaatgtgc cagggKtggg ggttggcaat gtgatctctc48661cctgaactga agaaaacagg aggaagtgRt gaccagcagg agaYggggct gtgagatgct48721ttaggggaaa gcaggcagtg gaataaacga gaaggaaaca gaactatgaa gaaggtgagt48781cattagaaat tatgaggaag aggaagaaac tgacggaagg gaaaaaaaca gtcagtaggt48841ggtaagagSR ggggcgagca ggcatgtggg tgcacttgac atatacaggc gggtcacaca48901ggtaagaacc ccggctccct ccccaggccc aggccccaga ggtgctgtgg atcctgggtt48961tgctcagttc ccatctccgc gaacttggct ttgccatcgt gacttcttga gaagctgcag49021gtcagctttc cagtaagccc attattactg gaagtgactc ggggggagtc gctgggtctt49081tcaagtctgg cagaaacata tgggcacata tcctctgggt catgttgcac aaatgttctc49141aggaccacac atatgacggt attgcccatc tccacgccca aggtccgatc tccagcgggt49201gagcacatgc cctacacggt gctgaccaag ggcaggcaca cacactgttc actgtgctgt49261gtggagctgc tccgcctcca acaggaagct gcagggacat tccctgagca ggagcaagaa49321tgaccttttc cgtcacgtgt accttttctt tccaactaga ctgtagttga tctcaaggtc49381ggagaccacg ttgcacaacc tctttcagat acgtgttcac cagtatttat ttatttattg49441gcattcccta gtatttattt atttattggc atttagtggt gcttgggagt aggggacagg49501aaacaaaata ctcatcactg tgagggaata ttgatttatc caaggagttc attcagcgac49561gcccctgtac tgggttgaat agtgttcccc caaaaactca tgtctatgag accctcaaaa49621tatgatctta ttcggaaaga gggtctttgc agatacaatt ggttaagatg gggttgccct49681gggttaggat gggtccaaat ccaatgactg gtatccttat aaaaaaagaa aacaaagaaa49741tggagacgca cgctgaggga acagccatgc aaaggcagag gcagaaattg gagtggcaca49801gctgtcagcc aaggaactcc aagaattgcc ggcagtcacc agaagctcag acgaggtaag49861gaaggattct tcctgagagc cctcagaggg aacgtgggcc tgctctcacc ttgcctttgg49921acgtctagcc Ktcaaaactg tgagggaata aatttctgtt gttttaagtc acgtactttg49981tggttccttg cgacatcagc cctaggaaac gaatatactt ccaactgttt tccaccagta50041acaaagaagt gtggccatgt cacacggtgt gtggaagaac ctgatggttg tgaactcaga50101gatggaacat agcggctacc tcaaatgagc gagcgataag ttagatggcc tcctctgtac50161aagaagtgat agcaaaatca attagtaaat gctaccactt tcacacctgg gcattctgca50221ggtaagagcc ccgatacaag gatttcaaat gtgactacat tggccaaatg aagagtctgg50281ctgagagagt gaatctaggg aagctggcct cagcaagagc ttcttttggg tgcccgtgtt50341tccattccag gtagtaagag ttaatatgac tgtcacaaac ttactgcaca aagaagcagg50401aaacatctgt ataaatgcgt ccacacagag cctgagtcca gaaatgaaaa gcagaagctg50461tgggagcctg tgattacaat agtcaggggc aaagaggtat cttcctttcc agcttgagca50521ggtccccata taacgtacca ctagggctgt ttattcggca tctgttgggc gccaggcaca50581gtgcttggtg ccttacccat catttaattc tcacttactc ccggcaaccg cctgtaatat50641aggtattgtg ggggggtggg gggggtgggg gggtggggaa tgaagaagat actttgcctg50701ggtcactagg attatttact tagccctatc tctgcagcta acactgtggt aaggaaagag50761gaaactgaaa tagaaataaa atcctggccc tagctcacaa tgaacttaca atacaagtac50821atcctttagt ggtttatata aatttgttcc aaaaaggaag actgtttcat tcaatcttta50881caagtcaact ttggaactta tccctggcaa gtcagaattt aaatgcatct ctaatatgca50941ttggatttga aaaaaaaaaa aacttttgtt ttttttttgc aaatagatag aagtaaatta51001taactcagtg ttccacaaaa caaacttgtt tggaaaagaa ttttaaactt ctgtgattaa51061attagaccca ggactaattg agtacacaga aaaacaagaa aatataaata tcagaaggga51121tttttttcta gttgctttct agttgtttaa ttgtgataat ttaattatca cattcaattt51181ctttccttta taaaaccagg ttaatattaa atttcaagca gagaaactaa gaggttaaac51241tggactcagc catgcatata gctgtaattt attacaggtg atcataaaca cctgtaataa51301aactctacaa aatggagaca aagaatctca gaatcatttg agctgagtta gaggcagttg51361tcagtcaatt ctaatcagaa acagataaag agtggaatag caccctgata gggaatgaac51421aagaaatagt ccaaggtgac agccatgtaa tcttgagtga gttaactctt ctttccatgg51481atcttctttt gaatcagaag gttgaaaatN ccaatatcta ctcctNcata attcaacagg51541attatacaaa actgtcagga gaaattagct gatgtattag atgtaaaagt aagttaagtc51601ttagtagaaa aggtaccaaa aagcatctgg cagaggcaca attctgagga cacatggtca51661aaaaaggtcc tttgcttttt gcgtgtaaaa tctccaaatt ctgtaagctg gttcatccta51721tttgcatgca aactggctgg gaatgaaatt agggcagRat gttatttgct catgttttaa51781ccattctttt ctcacagcct cctcctccta tgttatttac actgtttcct gccctgtgta51841ttgtttccag gacattcatt agattcaggg aaatgaaatt taatagggat gtctaatacg51901taattcaaga tttaaaaagg aacagaaaga tgccctggat tgacctaaca aattgttccc51961ttgactttcc tcagScgaag aaagaagaat tattaccaag aaaatgatcc ttatacacac52021cctaacccta ctctgcagtt tatgcatatc ctcttgaatc atgcatcagt tgtcatcaga52081gacaccttgg agtcccaggg gacagtaaca gcatcatggc tgggatcaca gcaaacccca52141tggggctaag tttctgagat ccaggcccaa gaaataccag cgtgggaagt aaaaataact52201catttttcgg accttaataa ctttcatggt ttgatttatg acaaggaaag aaaagtcatt52261tcctctacca agacctcaat acatggtatg ttcaaaacca aataaaaatg aaaagaaaaa52321aaaagagaag gaaaaagtat aatataatca caagtgacaa aaacgcagaa gagggggtca52381cagagatgtg atgtaagaaa aacttggccg ggcacgatgg ctctcacctg taatcccagc52441actttgggag gcggagatgg gtggatcacg aggtcaggag ttcgagacca gcctgaccaa52501catggagaag ccccgtctct actaaaaata caaaaaaaaa aaaaaattag caaggtgtgg52561tggcaagtgc ctgtagtccc agctactcag gaggctggga caggagaatc gcttgaacct52621ggcgggcaga ggttgcagtg agctgagatc atgccattac actccagcct gggcgacaga52681gcaagactct gtctcaaaaa caaacaaaca aaaagaagaa gaacccaacc tgccattgct52741ggtttgtgct ttattacctc tgctcataga agccatgagc catggagcgt gggtggcctt52801tttaagctgg aaaattccag gagacagatg ctagactcca aaaaggaaag gaaacacctt52861gattttagcc catgagactg tgttgaactt ctgaccttgg aacttcaaaa taataataat52921aatgaatttg tgctgctcta agccaccaag cttatggtaa tttattatga cagtgaaata52981aaacaaacac atctgaataa aaatctagag tacttcaaag taaaaaacaa aacaagtcga53041atattaacta tgctccagtc tcaaagagat catacagtta taggggatgt tttgcctgga53101atgcctggga ccagcctgct ccggattaac actgacgctg gagctcaact ccccagcatt53161ggcctctaac tgcatctctt gggttttctt tagactattt ggattaatgc atgtacacta53221tatacttttg gggcctcttc tgggatctgt gatataaaat tggggcaaga atataggacc53281tgtttccaaa atacttttct tagagaaact ctgaaacaag aagacaaatc ttttactatt53341ttaatagtgc catgagttag aaaataaatt gctcctccag gacttttcct ctgcccatat53401atgttctggc ccttgacttt ctggtttgtc cagacagtgg gtcagtccca cattcagaac53461cctgaggaat aaatYcaaga ttcctgaaga tgccaaggga cagcttggaa tcttgtagtg53521cgggtttact gagcaattta ggcgactgtc ctcagagtcc aattccttta ccatagacga53581tctctctgac tttgccagag catttcctca ctgtgtagta ttgcacctgc cttttgtgtg53641agatgctcta acactactat ggaacatacc ggacattcag tcactgctgc taggtccaca53701gccaactcac aggacttgat caaatcctct atcactgcca aagcttgttg tagttcagtt53761gagaatgctg aatctttggt tctctttggc ccatcctgtg gaaaacaaat gccttgttgg53821aaatcaaaag tataccatct gcaaagtgaa gaaggaaaac aggacagaga tgaggagcca53881gggatccagc caaccctgac tgagaagggt ggatattgat ctgtctccct gctcccaaag53941catggtggct aaagatgctt actgatttag gtatacggca tagagacaag caaaatcatc54001tacctctgtg cattgtacta gtgacgaatg aagttcataa atcatggaaa ttatattcct54061gctacataag aaacatatag aattcagcta tatagctgaa ttctatatgt ttcttatgtg54121tatatatatt atataaatat ttatatagta tattaaatat ttatatatta atatataatt54181atatgtttat atattaatta tatatattaa atatttatat attatatatt atataaaata54241taagtatata tattatatat atatatatat atatatatat attttttttt tttttttttt54301tttttttttt tttttttgag agegagagag agtttcactc tgtcacccag gctggagtgc54361agaggcacga tctcggctcg ctgcaacctc tgcctcctgg attcaagcaa ttctcctgtc54421tcagcctccc gagtagctgg gattacaggt gtgcgccacc atgcctggct aatttttgta54481tttttagtag agacggagtt tcgccatgtt gaccaggctg ttctcaaact cctaacctca54541ggtgatccac ccaccttggc ctcctaaagt gctgggatta caggcgtaag ccactgtgcc54601tggccagaat ttagcttttt taaagcatgg aaaaacctag ctccttttaa ataggcttct54661ctctctttta tacccctatt ccctggggct tactgaaaaa aaaaatacca tatggccggg54721cgggtggctc atgcctgtaa tcccagcact ttgggaggct gagacaggca gagcacttga54781ggtcaggagt ttgagcccag cctggctaac atggtgaaac cccgtctcta ctaaaaatac54841aaaaattagc ttagtgtggt ggtgggcgcc tgtaatccca gctacttggg aggttgaggc54901aggagaacag cttgaaccca ggaggcggag gttgcagtga gcccagattg tgtcattgca54961ctccagcctg ggtaacaaga gtgaaacccc gtctcaaaaa aaaaaaaaaa aaaaaaaaaa55021aaagtagctg ggtgtggtgg tgtgtgcctg taatcccagc tactcaggag gctgaggcag55081gaggattgct tgaacacggg aggtggagtt tgcagtgagc caagattgcg ccactgcact55141ccagcctggg caacaaagtg agaccttgtc tcacaaaaaa agaaaaaaga aaaagaaaaa55201gaatacaatc tgagtatcat attcctatat ttaatgtgga agccttattc ctgtgggaaa55261aattatactt aaaatcatcc cagaggagga catttgtaaa ctcctataga gacaaagaac55321tccatagagg ctgctaagtg gaaatttact aatgatttac atgtaaaagc tataacatca55381tatttccaca ctgaatctcc cccaactctg tccttccttc ctccacttgt ccctggccct55441ccccacattg caccaccatt aaagatgcca aagagataag ccagcgctct gcacctcccg55501aacataaaga ctcagcattc agcRgaaaag cagtaactaa ttaaagagac caatgttcca55561attacaacca cagtgacatt taggatgtga ttggggtgat tgtttcagct ctaaaggctt55621ttgcatgggc ttgaggtatt ttatctccct gctacctaca tgctgtattt atctgttacc55681tggtaaatac acataaaaaa attttggttt attcaatgta tttttttaac atctcaagtt55741ctgcagtgaa gaacagctag cccctttgct gctccgcatc tggccctgac tctttttgtc55801ctctacagca caatgtagtc acagggttta atattttctt aatctatgcg gaagcactgg55861gtatttgcat ctttggatga gagacatgag tgacagggct gatgaatgga atagatcgtg55921ctgctgcctc tgaaaaacgt atcatggatt cgtagcttct cattcataat aaagaagctt55981cgcttcctgg taaaagaaaa cagactctca cctgaattta ttttaacaac atcaataagg56041gattaagagt tcttggcagg gcgcagtggc tcacgcctgt aatcccagca ctttgggagg56101ccgagggggg gagtggatca cgaggtcacg agatcgagac cagcctgacc aacgtggtga56161aaccccatct ctactaaaaa caaaaattag ccgggcgtgg tggcgggtgc ctgtaatccc56221agctactcag gaggctgagg caggataata gcttgaaccc gggaggcgga gttgcagtga56281gccgaaactg cgccattgca ctccagtctg ggtgacagag cgagactctg tctcaaaaaa56341ataaaaaaat aagaaataat ttttttttaa agttcttata ccaggcatct tcctccttac56401caaacactga atgctcagtt tcctttcaga tcctcacctc ttcccatccc ccttccttcc56461gctaaccctc cttcacaaaa cacgaggtgg ctagggtttt gaactgtata atgtagggtt56521cagaaaaatc ctttaaaaca ttattaaact cctctaacta gggctagctc ctcttgctcc56581aggctgtaaa aatatgacct gtgtcctgag ctgcttctgt tttcaacagg tccttgtcat56641ccattctgag cagaaagggc atgcaaatga ctgccccata agacatgtct caagtgtttc56701ttgctaaaac cagaatattc tataggaaag ggaagagaaa ccgcactgct ataMcacaga56761tttcttccta acctggtgtg gtcatggtca ccatttattc taagggaact ttggcagact56821cttagagttc acacacacgc acacacacac acagaggaga acaaggcata acatatagaa56881attagatata ctaagaggta caaagaagaa aacataatcc taccattcag gaaagccaca56941gcagacattt tatcatatct atttacttcc agtcttttat gtatgcattt tacgtatttg57001cttaattttg ttcccattaa aatttttttg gctgggtgca gtggctcacg cctgtaatac57061cagcactttg ggaggccgag gcaggtggat catctgaggt caggagttca agaccagcct57121ggccaacatg gcgaaacccc gtctctacta aaaataaaaa aattagctgt gcatggtggc57181gggcacctgt aatcccagct acttgggagg ctgaggcagg agaatcgctt gaacccggga57241ggcagaggtt gcagtgagcc aagattgcac cattgcactc cagcctgtgc aatggagtga57301gactttgtct aaaaaaaaaa aaattatgtg gaaggaagaa aatatattac cacttccatt57361tgggctgcaa atccctactt taaaattgcc tttaattttt ttgttttttt tcttgactgt57421gagttatagg atacatacta ttttagaaaa tctagataat aaagaccacc aaRtaaaatt57481gctataaatc ctccgaMcca tagacaaaca ccattaatag ttagttatat aaaatgtaat57541atttaatatt gagtacctta gccgagcctc ctagttcacc tgggtctatc tccatatctt57601caggagactc gaRatccagc agaccctgca ttaacccaaa agtcttgttg aaaattaaaa57661tgtacattgc catcaaaatg tagattgtca acaaaatcta ctgtgcaaac tatctgccac57721caatgctaag ctgactgaga acgtgtgtaa atgtgtaaga gggaaagaat aaatgatgta57781tttggcacag ggtcctttcc acaaacctag aatcatattg tacacactat tttgtagact57841actttttctc attcaaccat acctcatgaa tattttccca tgatattatg tttttctaaa57901atatgggctt tgattgtggt agagtgttat atcttacaga taaaccattt ttctcattca57961gcaatatctc atgaatattt tcccatgata ttatgttttt ctaaaatatg ggctttgatt58021gtRgtagagt gttatatctt agagataaac catttttctc attcaacaat atctcatgaa58081tattttccca tgatattata tttttttaaa acatgggctt tggttgtggt agagtgttat58141atcttataga taaaccataa tcgaattata gtccccctta tcattaaaca tttaggttca58201acaatatttt ttactataat aatgataata acttttgtgc atttttctta aagctaaatt58261cctagagtgg aattgtaaat gttaagagtt ttgaggcata tttccaagtt cttcagagaa58321ggactgtctt cctgccagct gtataggaaa gcctgtctca ccagccccta gcctacaagg58381ggtagtacca tttaatcaaa aatctttacc aattgaatga aaagagaaat cctacctcac58441tgttgtttta atttgacttc cttagataac tagaggtgta gaactttttt aaaaaaacgt58501ttgctactag tgtttattct tttgcaaatt gctatgtcct ttgcgcatct ttttattata58561atttccaaga gcacatgatt cattaagcat actgatcatc tgttacatat tttgttcaca58621ttttccccaa tgtttcatga gtctgtcttt aatggtataa gctatcactc atcaccctct58681ccccaagatc ccatgatcct ttctaaagca tgaggcaatc agtccaacat tcatgctctt58741tcaagccagc acatgtgtgc gagatgcaaa ataagctctg cccctgggga tagagaaggt58801cctagatagg attacaaggt Ygttcctttc tttgcaggca cgtaatggcc tgagctggtt58861tcacaggcac cagcaagctt agctgtgggg acactgctct ggtctgcctt gggtagctcc58921cacggctcct cacagacccc ccgcaaaata ttttgtagta attctatctc ttgtttcttc58981agtgaaaggc agctaacaaa accttctaag tccttttaac ctgtattatc tcatttaatg59041ctcccaacaa gcataccagg aaagtactat tattatctta tttctatagg tgagaaatct59101gaggctgaga gaggttaagt aacttgcctg agttcacgca gcctggaagg gtcagagcct59161ggattcagac ccaggttgtt aaactctcga gtctgtgttt ccaatgacga tgccccacag59221ccctctgcgt ctggtaccga acctagctcc tatgtaaatg tcacctctgt gggaaagctg59281gaacctaggc tgagggagga aggaccatca ctttcgtcct gctcatgcct cactgggccc59341agaggttgga cttctacaat aggaatgaca gtgacaatgg gacatgcaga ggagcatgag59401gccctgagtg agtgctgggt caaacatgct ctgaggtgct gctcgctgaa agaagcagat59461cattatcctc atttctatgg tggtgtgaca gtctcaatgt ctaagataac agctacacat59521catgcagagc ttcctgggct gtgccaagcc ctccgcatgt gctaatcatc tgcttcataa59581cgatcttatg gaggaggttc tagtaccctc attttacata gaggaaaact aaggcccaag59641aggKcaaggt ctcataactg acaaatggca gagtacaccg aggctgaaac tgctaatgga59701aagcttgaaa ggagtaactt tgaaaaaatg tttttaaaat tatttttaca gatgaggtct59761tgctatgttg cccaggctag tcttgaactc ctggactgaa gggatgcctc ctgcctccac59821ctcctgagta gctgctggga ctacaggtgt gtgttatcat gtctggcctg aaaggggtaa59881ctttttctga ggggagactg ttgggcaatg agcttaacct tcctgagcct cagtttcttc59941acagtccaga gcatggctgg tatgtctgat tgtggagatt aaataagaaa tactgtaatc60001ccagcacttt gggaggctga ggtgggcaga tcacgaggtc aggagttcaa gaccagcctg60061gccaacatgg tgaaaccccg tctctactaa aaatacaaaa attagccagg catggcggcg60121cgtgcctgta atctcagcta cttgggaggc tgaggcagga gaattgcttg aacctgggag60181gcagaggttg cagtgaactg agatcgcgcc attgcactcc agcctaggca gagtctcact60241ctgtctcaaa aaaaaagaaa gaaagaaaga aaaaagaaat acacgtgggg aagtacccag60301taaacagtag gtgcttgttt ttgtttttgt ttttgttttt tattaagaaa tagtggccac60361tgggcaagag ctacctaaat gccttataga ggttaattca acagacaact tatcgtggtg60421gcccaaacct ttctctcaag ctcacaccta gaaaaccagc catgataggc cctcatatcc60481tgtttggagt gtctgagaat gcttgcctgc agatgtgcta gtgtcaatga cttatcacta60541aggaggggta aaggtcagag agagagagag aaaaccactt aggggttcag ggttcagata60601tagcaaagtt cattctgtta ggctgctctc agggtaagat cctaaatcta agaatggagg60661tcagtgctgc aaaaggatag aagacttcag ttttgtcttc tcccttccac aagttaaaat60721gcccataaaa cagtaacttt ggggaaaatc acactctcgc tcccaaagag ctctcttccc60781ctaagccaga ctccttagtg attcatgccc tgagctagac attggactag tgaggccctc60841aggtgccctc caactctatg attctttggt cttactccac attgaagagg gctgatttag60901agttggagga aagaaaaagc ctgcaggata gacgtatctt cagccttaga agaccaaggc60961acagctctac atgtgtaacg acatgggcac cacagtgcag gcgtctggtt tcccaccaag61021gaaaagcact gtctcattga ttttaccttc aacagcatct ggtattttat aagtctctgg61081cttggtcctt tgagatactt aaaaagaggg agattgtgat ccagttggcg ctggcatacc61141tttaaaagcc aaatagaaac aacataaagc aaaacaaaca acacacacag aataaaagtg61201gcagcattta ggtacaaaac acaaaattgc ttttcctgga caacaggggc agctgtgtcg61261agcagctcca taaggctgtg gggttgttct ttcccctagg aacagtgtgt gaaataagag61321aaagaggaaa gaggacggct cggctaatat ttttacaggc atctagggaa gcagaaccat61381ttatttcttt tagaaagcaa gttcactaga agacagtggg gcatttcaag tccttctgaa61441aaagaggcca cctatcttca agttgggggc tgccagagtc tattcaggcc ttttggagcc61501tgaaggatac agacggtttg tagacatcat tccagggagc ccaaagtgtg acatttttta61561cttagtttca tttttaaaac ccatcttaga agaagacact ggttttctca ccagatatag61621gtgctcctca caggcctatc ccattacaac ttttcatgtg taatttcaaa gtatgggaca61681ctttaaataa acataaatcg caatgccaag ttcctctccc tagtcccact tttgatttct61741ttaacaactt gatgcataga aacattttcc aggaagaagt ttgtcttctc aacattaccc61801caaagtaggc gcagtcttga cactcttgcc agattgccct agctcggggc agattcttat61861ggtatttaaa atatatctga agatcttctt tctaggtggg aaaaaattag aataaattaa61921tcaggcagca tttttcagta agtggacagg atgatacagt ttattcattc attcaacaag61981ccagagtatt ctaatgtgta aggaattggg ggtgtacagt aagtaatctt atgttgggat62041gtgtgtgtga tggagagata aacagaaggc tttaaacaac cataactacc agacatagat62101aggcacagag tgctctggga gcatctacaa gggctattgg taaatacata agtagactca62161caaacaggaa ttggttttta tctttatcat tcttttcctg ccctttgtcc aggacatcga62221catctcccca caacaggtct gcaatgagta gtaaaactga cagaaaagag gctggtgttt62281gatggtcccc ctctcttctc tctccaccct ctccttgtgg tcatcgtgac accaaccctg62341caaagaagcc caagaaacaa ccaaaagatg gaaacatgcc agaggggaga tgtggtagat62401cgggcaacca atacggagct cagtcatttg ggcaaccctc aaagtgacag gctccgcctc62461aaacatcact ttcaacctgc agcacaagac tctgagacag gaaatgttat gtgactgttt62521cggagctaga gagcaaggag gactcaacgt gctgttcaac ctgtattctc atggtatcaa62581agacgctgag aggtgggcac atatctgcca atctcccgga gagaaagcac actccaagcc62641tctggcgtca gcttgccagc ttcactcgct ctatcaggga gcctggccca cagcggctgt62701gctggccaca gatcccatgc cattctggtg gagaagccca tgtagccacc tccttgcaga62761agtctgtgtc cctgtcctcc tgctcagccc aactctggat ttccttcatg tcaacacaga62821tgattccttc cctctcagct tcaatgatgc ctgttctact cccaaataca ttgctatagt62881ggatgacttc catttctgta gctctttctt tctcccaata ggttgtaagt ggtcatttca62941gcataggaac tacagcaacc gtcctttgct attccctcca ggaaaaaaat ggcacacaca63001tttaagacag atggcccttg aaaaatgttc agactggtta aggagctaga ataataactc63061agagcttaac aatatagtat tgacctaaat tgctcttcta aaggctaaca gtccaaaatt63121cctcagagaa aggatgtcca ctaaccagca acatacaaaa gtgcccaatt ctcctaatct63181ccttatagaa tgaatcagga ggctataaaa ttgctaccag aaactcatat tcacacaaga63241atacatactt gcttacggat taagactgcg gggctctggt ggcggatggt ccaggttcag63301ttcttggctt tgccaaatac aaatcatatg gcctaaagta agttacctaa ccttcctaga63361cttcagtttc ctcatctgtt aagtgggccc ataacagtag tcaactcctg tgactgttgt63421gagattaaat gagatgatgt atagaaacct ctccacaaat gcccaatgga tagagtactc63481aaaaaatggt ggctattgtc aaagcacttt ttactttatg gaatcctctg catacattat63541tttgtttccc acaacaactg tacatattgg tactattagc ctgttgtgtg gaggaggaaa63601gtgagattcc aaagtttaag ttatttactg gaggtcatgc agatagcaag tggcttgacc63661aacatgataa atcgggtttc ctgacttacc agttactccc acatatcagt gtgagcaccc63721attccagtgc tctttccatt ttaccatgtg agatctcaga gtacttggaa cccacagtac63781actatggaca aatattattc tatatagaac atggtctctg gaggagaatt gtttcagaag63841atacaggcta aagaggctga ttaaaacact tggtcagaaa actatttcaa aattcattat63901cttggaaggc cgaggtgggc ggatcacgag gtcaggagat ggagaccatc ctggccaaca63961tgatgaaacc tcgtctctac taaaaataca aaaattagcc gggcgtggtg gcacatgcct64021gtaatcccag ctacgaggga gggtgaggca ggagaatcgc ttgaatcagg gagtcagagg64081ttgcagtgag ccgagatcac gccacagcac tccagcctgg tgacagagcg agactccgtc64141tcaagaaaaa aaaaaaaagt actacttgta ttttgtctct aacatcataa atcacatagg64201gctaagtcag tgttttctgg ctgggttaat gatttacaat gttcctccca acatggcggg64261gcgctatcaa aaaactttgt aaaactttac aatttaggag aggaattcag aaaaggtatt64321tagttaataa ttctctgaca atttcctcat atttgaacaa tttgataata tccactttcc64381cacaggaact ttgcccattt ctcattgagc aatttaaata atctttgcag taatgacata64441cataaccata aaatacttct aatctctgaa actagatttc acattagtcg tttgttaagt64501gcaaaaattc aaaatagtat ataaagcact aataatgtaa tagttcaaaa aaattaatga64561atcagaatga gtataaaata gttttcagtg tacattgaat tctggtgctt tgacacaaag64621cctatgatga gttgacatgg aaagccatat ggggccacca aaaggctctg agcatggaag64681attccttctc tccattaatg tcaaatatct tgaaacctgg aggctttgtt tgcttccagt64741tatcataagt attgctctca gcctcagtca taatatgagt tgcttacaac tttaagttgt64801ttgatctgtt gccttgggtt cacaaaaata aaaataagaa agagaatgag aaggactagt64861tgagaaagag aggagaaatg agaactattt agaaggcaca gggggtcagg atcatctcca64921tggtcgtgtc ctagaaagta cctggtgggg attgatgttg ggtggaacat ttctctgtgg64981cagctcccac tggcccatat agcctatttg ttgcctaaaa cagggtggag aaacagggaa65041agagggaaga agtctgggag gtgggaagaa ggggtagttg gaggtataat gttgtaggcc65101aagatgttca taaattgagt actaagccta aaggaggctg tagatttaga attttcgaat65161catcctctat gttgtaaaaa atagaatgga aagaaaatgt atttcctgag gtttttagtt65221taacaccagt gcttctcctc ttgagagcat tagtacagct ttattgtggg actctaacct65281cgctgtatga ttcttgtttt aaaacgtagt tgagtcattc agaagaggat cctctgcttt65341ggggaccatg gatggccagc cttccatttc atggggcttt gcaggaagcc aggcttgcgg65401ttactcccac atatcagtgt gagctcagtc aaattggact cattctcacc ttggataaag65461tcagataaag ttgggaggcc aactcatgtt ttccattcaa agggcagata caagatatac65521tgtcttgaca aattgcaagt gtacagtaca gtattattcc atgatagtcg ccatgctgtg65581cgttacatct ccaggactta ctcatctcat aactgcaagt ttgtaccctg tgaccaacat65641ctccctactt cctctagact ccagcccctg gcaaccaccc ttctacttca atgagctcaa65701ctgtttttgg attatatata tatacatata cacacacaca cacacacaat ggtaatgaat65761gtattcatta acttgattgc agtaatcatt tcacagggtg taagtatatc aaaccatcat65821gttgtatagt ttgaatatat gcaattttta tttaccaatt atacttcagt aaagcttgga65881gtcggaggga agcagatatg tttttagacc attgatgttt ccatttgtcc ttgccactta65941acgcagaaat gtaagggctg actttaacat gattatttac tgggagtaca gacttactct66001cttgagaaag caatgtgcca gaagttcagg gttctcagca cacttttcca actcttttag66061aaaagtccta gaaaaataaa agtatacaag taataatgtt ttgattttga catgtaggta66121attaattttt taagtacaat cacataaggt ttcaagaggt gcctagaaaa atgttctcca66181ggccttcttg ctcttatctt ctacacattg attcagRaaa aaaagctgta ttctgaggta66241ttactacaat taccctgaaa tcactcacaa ctttaagttg ttcgatctgt tgccttaggt66301tcacaaaaag aaaaataaga aagagaatga gaagaactag ttgRgaaaga gaggagaaat66361gagaactact cagaaggcac agggggtcag gatcatctcc aattatcaga acacagctgt66421tcgggtaatt ctaagcacta gtcatagata gactggatac attcactgat gctctctctt66481acatgaaagt aacgttcata agaactgctg ctgctgctgt tgctattact aatatcattg66541acagcttact ataagccagg cataagctaa gtgctccgca aatagtatct catttaatcc66601tcaaccaaag atagggtttt ataaatataa aacctggggc tcaaagaggc tacataactt66661ctctggggaa atcaacagaa atgggtttcc atttcagttt tgcgtctgac caacggacga66721ggaatggggt taggaagcaa ctgtggttca attcaccaag cagcttttct ccctctgtga66781attaggtgtg caatcttggg gtcatcatag cgaataaaga gagttaacaa gttaccattc66841ccatatgtgt aacatgaaag ggtttgaaga tgatttccaa agtcccttat tcctgcaatt66901ctctagaact caatatccaa gcagccccga gttaaaagta caacttgttt gagcagtcag66961cattttctaa caccctagtt cccagcatcc ccttatgata gtagtatgga gatgtgtatc67021ttggtcatct ttgtattccc aatgctgagc acagtgcctg gcacagaaca ggtgctcaaa67081aaatgctgat gcatgaataa ataaacaaag gaacactcaa ctgcatacaa catggatgtc67141tgacactggg tccctgttcc tttgatgtct cttccctttc tctccaggga tcctgtgggg67201cttctcccct cctttcactc caacccaccc caatccaatc cactgactcc aaaccacttg67261cttaaacctg aaaacatcta agtgttttca tctctcaatt ccatcagtct catttccacc67321cttctSttac tctccattct ttctgataac atgaattatt atatacctgt tgtgaaattc67381gtaaagttct ctaatattcc caaagagaaa gtccttgtta ttctgaagaa catctggaat67441tagatgcttt agccaaataa aatccattgg agtgatatat ccctgcagag gtgcaaacaa67501ggtaggtgtt acaaacagga acataccaga gatcatctga attagctact gcaaaaccca67561aaactttagt gaaatgattg aagaatatag cacacttgtt tcttgaaagc tatcgtattg67621agtactttct tttgatatca ttttcctcat gtgcccactt tcagaaggag atggcttaat67681ggcaatgatc ataaaatggc atttttgtgg gaagaacaaa tatatttaaa aatgtttatg67741ttacacaggt ttaatctaaa agaagggaaa atgtacccac tgttttatga actaatacaa67801ttactattat tattatgatt attattaata ttgagacgaa gttttgctct tcttcccagg67861ctggagtgca atggcgtgat ctcggctcac tgcaacctcc gcctcctggg ttcaagtgat67921tcttccgttt cagactccca agtagctgga attacaggca cacaccacca cacctggcta67981attttcgtat ttttagtaga gacagggttt caccatgttg gccaggctgg tctcaaactt68041ctgacctcag gcgatccacc cgcctcggcc tcccaaaatg ctgggattac aggcgtgagc68101cactgcatcc ggcccaataa ttatttttta atatctgaat aatgtttact cagcatatat68161atcatagttt actaaacatt ccctttttat ggacatttgg gttgcttcta atattttatg68221gtaaaaatgt gattataaat aatcgcgtac atataatttt ttccttaaga ttattccctt68281aggaaaatag ggaaaacatg catttttact cttaagaaaa agactacttt aaaaaaacaa68341gaaataatct tcccttatta aagtatcagg aacacttata atatcctttg ttggcaagaa68401gatggtaaac ctatttgggc tttgctggaa tcagtgtgaa ctggcttaat tctttggaaa68461ctatttggct acatggatca agaaaccaca gggatgttct tattcctact ggagacactt68521gtaatattct aagacctgaa accttggtgg gaattctgga gacttctggc aactattttg68581agtctctttg tacaacaaaa catctgcagt ttgaatatat gcttgatacc ccactcccca68641aatctactta catcaattat gcttttaatc tcttttatgt aaatctcttc agtctcaagc68701aagtcacgta taatgcgcct gaatcacagc agcaggtggg agggtgaaag agagagagac68761agggagagga gaatgttctt ttagaattct gttagaataa tgctcatcaa tacagttccc68821ttttagtggc tcacctactt agtttctggt cagttcattc tgttctattg aacacccaag68881gtcagcatct cacaaacgca cactgtgatc acactggtat caagaagaaa cagcaaggtt68941agagaactca aaatccttta ggcagccagt gaatgacctg tcctctgggt gggccatata69001gtgtgggggt caagaaggga gatgttggag tcagaaatac caggtctgga tccttagtca69061aggaaggtct gcctgacccc acccccaccc cctatattgt atacattgta taagtggttt69121cctagatttt ctctccagct ttctgctcac atcaagcttt cttttccttt taagagaaag69181ggtcttgccc tgttgcccag gaatgagtgc agtggcatga tcatggctca ctgtagcctt69241gaactcccgg gctccagcaa ccctcctgcc tcagcctccc aagtagctag ggctacagat69301atgcaccatc acacccagct aacgcctttt tttttttttg gtagagatga ggtcttgcta69361tgttacccag gctggtctca aactgctact ttcaagcaat cctcctgcct ttgcctccca69421aactgctggg attataggtg tgagacactg tgccaggcca gatccagatc tttgacccat69481atggatgtat tttgttgtac atggggttag atgtatgcta gctccttcct ctggcattgg69541atgtttcact gtgatttcct aaggcaaaag atatgacttc tgtctgcttc tgtcaaggaa69601tgcaggtgga agatgtggtg gacagaattt aagacggtcc ccaagacttc tggccccact69661gcacatacgc ctcttccaat caaacactaa tttaggggat gctgtggaag gattttgctg69721ttcatttgat aggtaatcca gttgggcctg tcctaatcat atgaactcag atctatMtgg69781gtcaagtggt cagagactgg aagcataaaa aagattcaac acaaaggaga ttcccctttg69841ctgacttttg agatggaggg ggccagatgg aatggaatgt gggcagccgt aggaactgag69901agtggctccc agctgacagg cagcaaggaa gggaaatcag tcctatagtt gcaaggaacc69961gagtcctgcc acaaccacgc gaacttagaa gaggatccag agctccacat gaaaacacag70021ccagccaaca ccttgacttt agccttgtgg gactcctgtc ccagggaaac tgtaggtctc70081ctaagtttgt ggtcagtttt tatatagcaa tagaaaacca gtagaaagag taaggccagt70141ccccacatct atcccagaca gactttcttt ctctcctcag gctacgtggc catatttatt70201atttctttta ggagtccaag tagatgagtg tttatacatg tgtccttgtg tagaatatat70261atatttattc ttgttaacta ttgatggatt atctattaaa tggcagcctc tcctagaaaa70321tgatttgttt ttctctcata aaaatggatg tgacaaatga tccaatagaa aaaaatggga70381aaggacacaa aataggagat tcacacaaat attcaaatgg atatgagact cgtggaaaaa70441atactcagta catacattca acgaaggcat attttaaaag agcaacaatt ttcatctatt70501agaatattaa acatttcaaa cctcatagaa agactggtaa atgagggtgt ggaaaaaccc70561tcacacaata ttggtaaaat gtgtaaattt gtgcaagctc tttggaaggt aatttagaaa70621catctcaccc aaatgtaaaa cacgtgctcc ttggttcagt aatttcactt ctaggaatgt70681tcattgttta taattaggac aatataactt caacaacaac cagatataaa ctggttactt70741aaatgctcat caaaaaatta tggtacatgg gccgggcatg gtggttcacc cctgtaatcc70801cagcactctg ggaggctgag gcaggtggat cacttgaggc caggaaatcg agacCagcct70861ggccaacatg gtgaaaccct gtgtctacta aaaatacaaa aaattagatg ggtgtggtag70921cgcatgcttg taatcccagc tacttgggag ggtgacgcag gataattact cgaacccagg70981aggtggagat tgcagtgagc cgagatcaca ccattgcact ccagcctggg caacaagagt71041gaaactccat ctcaaaaaaa aaatatatat atacatacat atagatatag atagatatat71101gtgtgtgtgt gtgtatatat atatacatat atatggtaca tacatataat gatgaaatac71161catgcaattg ttaaaaagaa tgaggctgac taaaacactg atatgacaga ggccaggtat71221ttttagtgaa aaaacaaaac aagacgtaga caagtaagca tagtatgact atttgtgtaa71281aaaatgaatg tgtatgtaga aatatacgta aaactgtata tgctcagaaa atttatgcaa71341agaaacttaa cacattgtta aaagtgattg cttttggaga gtggtactga aagctaaagt71401atgggaaagg agaatttcta catcttactc tatacccttc tacaatcttt tttaaagtga71461aacatttact gcttttataa tggaaaaata gggtttacat aatattttaa aatgaatgtt71521actggaggta atgatatgta aaccctattt gatagatata aataaataat acaattcaca71581tattttacag ctcattattc tttcttataa tcatttttgt gtctatttat aaatacttgt71641ataagacaag actgataaac aagatgtacc acagaggatg taatttccgg aagtctaaaa71701ctcccaaaaa gttacttaaa catcatactt tactaagtca ctgagaaaga ggttcctatg71761ccttttataa atcacccgga aacaacaacg gtttctatgt cagaaggaag tacaggcctc71821aataccaata tgtttctacg agccctggca tcaagtggga ccacagcaac agttaagcat71881tcatggaaaa cctgagtaca atcagcctct tatgccttca tgaagcactg ggcttaagca71941acttggcaag ctggcttcag gatgcattga caattaaagg aagtcagaag gcagaaataa72001ccaggaggtg gacagaagtc aaggttatta tccaaaaatg atctatgaac ttaagagact72061cttaggagct tttaggactc taatacagga aaatattcac atctctgaag gaaaagaaat72121cccttggtca tattctggat tacagtttgg aaaaaaagtc tagaaatctc atccaactgc72181ttcattttac ctgttggagt gcaagagata aaatgccaag gataggaact ccactgaaga72241atgtaggcaa atcaatattc attaaataca ttcaaattaa tatatgactt aaaaagagcc72301ctcacatcag tgttaggcca ttgcttttcc ttgcttctct tgttttcctt tcaaatacct72361ttataaaata ggagaaaatg tatgactctt tttttttttt tttttttttt attatactct72421aagttttagg gtacatgtgc acattgtgca ggttagttac atatgtatac atgtgccatg72481ctggtgcgct gcacccacta atgtgtcatc tagcattagg tatatctccc aatgctatcc72541ctcccctctc ccccgacccc accacagtcc ccagagtgtg atattcccct tcctgtgtcc72601atgtgatctc attgttcaat tcccacctat gagtgagaat atgcggtgtt tggttttttg72661ttcttgcgat agtttactga gaatgatggt ttccaatttc atccatgtcc ctacaaagga72721tatgaactca tcatttttta tggctgcata gtattccatg gtgtatatgt gccacatttt72781cttaatccag tctatcattg ttggacattt gggttggttc caagtctttg ctattgtgaa72841tagtgccaca ataaacatac gtgtgcatgt gtctttatag cagcatgatt tataatcctt72901tgggtatata cccagtaatg ggatggctgg gtcaaatggt atttctagtt ctagatccct72961gaggaatcgc cacactgact tccacaatgg ttgaactagt ttacagtccc accaacagtg73021taaaagtgtt cctatttctc cgcatcctct ccagcacctg ttgtttcctg actttttaat73081gattgccatt ctaactggtg tgagatgata tctcataatg gttttgattt gcatttctct73141gatggccagt gatgatgagc atttcttcat gtgttttttg gctgcataaa tgtcttcttt73201tgagaagtgt ctgttcatgt ccttcgccca ctttttgatg gggttgtttg tttttttctt73261gtaaatttgt ttgagttcat tgtagattct ggatattagc cctttgtcag atgagtaggt73321tgcgaaaatt ttctcccatg ttgtaagttg cctgttcact ctgatggtag tttcttctgc73381tgtgcagaag ctctttagtt taattagatc ccatttgtca attttgtctt ttgttgccat73441tgcttttggt gttttggaca tgaagtcctt gcccacgcct atgtcctgaa tggtaatgcc73501taggttttct tctagggttt ttatggtttt aggtttaacg tttaaatctt taatccatct73561tgaattgatt tttgtataag gtgtaaggaa gggatccagt ttcagctttc tacatatggc73621tagccagttt tcccagcacc atttattaaa tagggaatcc tttccccatt gcttgttttt73681ctcaggtttg tcaaagatca gatagttgta gatatgcggc attatttctg agggctctgt73741tctgttccat tgatctatat ctctgttttg gtaccagtac catgctgttt tggttactgt73801agccttgtag tatagtttga agtcaggtag tgtgatgcct ccagctttgt tcttttggct73861taggattgac ttggcgatgc gggctctttt ttggttccat atgaacttta aagtagtttt73921ttccaattct gtgaagaaag tcattggtag cttgatgggg atggcattga atctgtaaat73981taccttgggc agtatggcca ttttcacgat attgattctt cctacccatg agcatggaat74041gttcttccat ttgtttgtgt cctcttttat ttccttgagc agtggtttgt agttctcctt74101gaagaggtcc ttcacatccc ttgtaagttg gattcctagg tattttattc tctttgaagc74161aattgtgaat gggagttcac ccatgatttg gctctctgtt tgtctgttgt tggtgtataa74221gaatgcttgt gatttttgta cattgatttt gtatcctgag actttgctga agttgcttat74281cagcttaagg agattttggg ctgagacgat ggggttttct agataaacaa tcatgtcgtc74341tgcaaacagg gacaatttga cttcctcttt tcctaattga atacctttta tttccttctc74401ctgcctgatt gccctggcca gaacttccaa cactatgttg aataggagcg gtgagagagg74461gcatccctgt cttgtgccag ttttcaaagg gaatgcttcc agtttttgcc cattcagtat74521gatattggct gtgggtttgt catagatagc tcttattatt ttgaaatacg tcccatcaat74581acctaattta ttgagagttt ttagcatgaa gggttgttga attttgtcaa aggctttttc74641tgcatctatt gagataatca tgtggttttt gtctttggct ctgtttatat gctggattac74701atttattgat ttgcgtatat tgaaccagcc ttgcatccca gggatgaagc ccacttgatc74761atggtggata agctttttga tgtgctgctg gattcggttt gccagtattt tattgaggat74821ttttgcatca atgttcatca aggatattgg tctaaaattc tcttttttgg ttgtgtctct74881gcccggcttt ggtatcagaa tgatgctggc ctcataaaat gagttaggga ggattccctc74941tttttctatt gattggaata gtttcagaag gaatggtacc agttcctcct tgtacctctg75001gtagaattcg gctgtgaatc catctggtcc tggactcttt ttggttggta aactattgat75061tattgccaca atttcagagc ctgttattgg tctattcaga gattcaactt cttcctggtt75121tagtcttggg agagtgtatg tgtcgaggaa tgtatccatt tcttctagat tttctagttt75181atttgcgtag aggtgtttgt agtattctct gatggtagtt tgtatttctg tgggatcggt75241ggtgatatcc cctttatcat tttttattgt gtctatttga ttcttctctc tttttttctt75301tattagtctt gctagcggtc tatcaatttt gttgatcctt tcgaaaaacc agctcctgga75361ttcattgatt ttttgaaggg ttttttgtgt ctctatttcc ttcagttctg ctctgatttt75421agttatttct tgccttctgc tagcttttga atgtgtttgc tcttgctttt ctagttcttt75481taattgtgat gttagggtgt caattttgga tctttcctgc tttctcttgt aggcatttag75541tgctataaat ttccctctac acactgcttt gaatgcgtcc cagagattct ggtatgtggt75601gtctttgttc tcgttggttt caaagaacat ctttatttct gccttcattt cgttatgtac75661ccagtagtca ttcaggagca ggttgttcag tttccatgta gttgagcggc tttgagtgag75721attcttaatc ctgagttcta gtttgattgc actgtggtct gagagatagt ttgttataat75781ttctgttctt ttacatttgc tgaggagagc tttacttcca actatgtggt caattttgga75841attccctgct ttattattct aaagcaagct tgtccaacct gcggcctgtg gcccaacaca75901aatttgtaaa ctttcttaaa acgttatgag attttttttg cgattttttt tttttttttt75961tttagctcac cagctatcgt tagtgttaat gtattttttg ttttgttttg ttttgagacg76021gagtcttgct ttgttgccag gctggaatgc agtggtgcag tctcggctca ctgccacctc76081tgcctcccag gttcaagcaa ttcccctgcc tcagactccc gagtagctgg gactgcaggc76141gtgcgccacc atgcccagct aactttttgt atttttgtag agatggggtt ttaccatgtt76201ggccaggatg gtcttgatct cctgacctcg tgatccaccc tccttggtct cccaaagtgc76261tgggattaca ggcgtgagcc acctcgcctg gccagtgtta atgtatttta tgtgtggccc76321aagacaattc ttcttcttcc agcgtggccc aggaaagcca aaagattgga cacccctgtt76381ccaaagcatg taattttatt cacagaaaag actctcggcc gggcgcggtg gctcacgcct76441gtaatcccag cactttggga ggccgaggca ggcggatcac gaggtcagga gatgtagacc76501atcctggcta acacggtgaa accccgtctc tactaaaaat acaaaaaatt agccaggcgt76561ggtggtgggt gcctgtagtc ccagctactc gggaggctga gacaggagaa tggcgtggac76621cccggaggtg gagcttgcag cgagccgaga tcacaccact gcactccagt ctgggcaaca76681gagcgatatc cgtctcaaaa aaaaaaaaaa aaaaaaaaag actctcaagg atttaccatc76741taaaatcatc aagtgtatat catgcagatg aacaacagaa aacactggga gtattcaagt76801aattaaaaat aacctttcag caccaacagc aatttctgtc ctgatggcaa tctactcaga76861gctagaggac tgcacttagg ataccaaagg gagcttagga tgcaagagca gcctgcacta76921atgtactctg cgttagttta catccgggca ctttgcttta cgtttcaaaa cagacgccgc76981ccttagctca ttaaagggga aatggaggta taatgtgttt taaagggatg tttcttctct77041gaagccatat ttcagggtag catgaaaaca gagctttgga tatctggttc cattctacat77101gacacctcat gcttgtttca aatgacacca caaccaaggg gcaggaatga aaggaatatg77161ctaaaaaaaa aaaatgcaat cctttttagc aagaaagatc attaaggatt tcctgataag77221tttcttcttt gttcatgtgc cctcctctgc tccccctttg aactactgcc cctgtcaccc77281ccccttcccc gcctccccgc cgtttctcag ttctccaata gggatccagt ctgccagagg77341tctatttttg ctcattattg tcaacacaat ttgccatcaa gagttttcac ttactcctgc77401tatcctatca tcacattatg catgtcagaa agcattacag atttttactt ttcaagaacc77461cgaactcaga tttccaggct tctgtccttc ctgtttcatg ctgttgactc tcccacatct77521ttgtcttcct cctagacctt tggtcactct tgagcccaca ttgccaatgg tctatatcat77581tttcacctgg atgcctccca gacacctcag tcacatcaag ttgaaataga actaattaga77641cagaagtagc atgtgtttca gtggaactga catttttcta gggtccctaa aacacaggtg77701ttgtttcaaa ctcccccctc caacatccct tatattctct ctgtcaccca ggctccttat77761atcatctctc aacatgcttc ctgggtgact actgactctc cacttctggt gacaccccac77821agagcaagct ttcaattcct gtcatttaaa cactttagtg cactcataga atctcatcct77881tctgagattt ctcttccacc agtctatttt gcagaccacc aggctacgcc cttccaaaag77941ctcctttgag atggagtttc actcttgttg cccaggctgg agtgcaatgg catgatctcg78001gctcattgca actgccacct ctcaggttca aatggttctc gtgcctcagc ctccccagta78061gctggggtta aagttgcctg ccaccatacc cagctaaatt ttgtattagg ggttttacca78121tgttggccag gctggtctcg aactcctgac ctcaggtgat ctgccaccta ggcctcccaa78181agtgctggga ttacaggtgt gagaaaccac gcctagtccc ccaaagctcc atttttatcc78241tgtcttcatt ctctcttcaa gaacttgcdc acagctgcca gagttccttc taagagttta78301agactctctg ttcatgtggt aagaatcttc ttaaggagct tgctttaaag gtaaaaccag78361atttacacat cagaatgggg agaggtgggt gggagctaag atggaatctg taattttcac78421aagtgccctg gatgattcta ctgcagatgg tctcctattc aactaaatag cactcatctg78481acccactcct tttagacccc acttctgtta agccagtgtt atcgctattt tccactttct78541ttcaagttct aatcatcctt aaaactccaa cagcttcagc tgaaatcagt accacactct78601catccttgtt tcccacccaa aaactattgt actaattgac cagacatgta ttgatgccct78661actatgagcc tggctccatg ataggcactt gggatagaga aatgtaccat aatcctgacc78721ttaataaatt tagagtctaa tggaagagat aaaaaaaatc aatgattcca atgagtgtga78781taaggtaagg ctagtcagaa aagtcaggtg cagaggaggg gcaactaatt aaaccagggg78841ttgggggaga cactgccaac tctgtgttga gtgaagttta agcagaggtt tttctttaag78901taaaaaatca gtttttttaa ataaaaagtt ttttaaaaag taagggggaa tagaagaagg78961aggtttgtcc ctaaggggaa cagtgtggag gaggaaagga ggtgaaagtg tatgctattc79021tgtgtactgg caaattcttt ggtgggtgat atggtttggc tctgtgtccc cacccaaatc79081tcaccttgaa ttgtaataat ccccacatgt catgggaggg acccagtgga aagtaattga79141atcatgaggg caggtttttc ctgtgctgtt ctcatgatag tgaataagtc tcaggagatc79201tgatgatttt ataaagggcg gttcccttgc acatgctctc ttgcctgcca ccatgtaaga79261catgcttttg ctcctccttt gccttccacc atgattttga ggcctcccca gctatgtgga79321actgtgagtc cattaaacct ctttccttta taaattaccc agtctcagct atgtctttat79381taggagcatg agaatagact aatacagtaa attggtactg gtagagtggg gtgctgcagt79441atctgaaaat gtggaagcaa ctttggaact gggtaacagg cagaggttga aacagtttgg79501agggctcaga agacaggaag atgtggtaaa gtttggaact tcctagagac ttgttgaatg79561gctttgacca aaatgctgat agtgatatgg gcaataaagt ccaggctgag gtggtctcag79621atagagatga ggaacttgtt gggaattgga gcaaaggaga ctcttgctat gttttagcaa79681agagcctggc agcattttgc ccctgcccta gagatctgtg gaaatttgaa cttgagagag79741atgattcagg gcacctggca gaagacactt ctaagcagca aagcattcaa gatgtcactt79801gagtgctgtt aaaagcattc agttttatgt attcacaaag atatggttcg gaattggaac79861ttatgctcaa aagggaagaa gagcataaaa gttcagaaaa ttggcagcct gatgatgtga79921tagaaaagaa aaacccattt tctgaggaga aattcaagcc tgctgcagac atttgcataa79981gtaagatgga gccaaatgtt aatcaccaag acaaagggga aaatgtctgc agggcatgtc80041aaggaccttt gtggcaaccc ctcccatcac aggctcaggc ctaggaggaa aaagtggttt80101tgtgggccca gcccggggac ccctgctcta tgcagtctag ggacttgttg ccctgcatgc80161cagttgctcc agccatggct gaaaggggcc aaggtacagc tcaggccatt ggttcagaga80221tgcaagcctc aagccttggt ggcttacacg tagtgttggg cctgtgggtt cacagaagtc80281aagaattgag gtggatgtac agaaatgcct ggatgtccag gcagaagttt gctgcagggg80341tggggccctc atggagaatc tctgctaggg gagtatggaa gggaaatgtg gggctggagt80401ccccacacag agtgcccact gggacactgc ttggtggagc tgtgagaaga gggacaccat80461cctccagact ccagaatggt ggatccacca acagtttgca ccatgtgctt ggaaaagctg80521cagataccca acaccagccc atcaaagcaa ccacaagggg ggctgtaccc tgcaaagcca80581caggggcaga gttgcccaag gctgtggtgg gaacccacct cttgaatctc tatgagacat80641ggagtcaaag gagattatit tggaacttta aggtttgact gctttattgg atttcagact80701cgcataaggc tgatagcccc tttgttttgg acaatttctc ccattttgaa caggtatttt80761tacccaatgt ctacacccac attttatctg ggaaatagct aacttgcttt tgattttaca80821ggcacatagg tggaagggac ttgccttgtt tcagatgaga ctttgaactg tggacttttg80881agttaatgct gaaataagtc tttgggggac tgttgggaag gcatgatttg tcttgaaatg80941tgaggacatg agatttggga ggggccgggg tgaaatgata tggtttgtct ctgtgtcccc81001agcttcatca ggatcctccc acacatcccc attctaagtt gcagggtccc attcttttcc81061aatcaatgcc ctcattttaa cagtagacac ctggtgaggc tgtgcatgca cctttcattg81121caggtcagcc gctcccatga taagagcttg tatctgattt tccacaattt cagctctttc81181tctacaagag ataagactct cactctggac aatcttagaa gatttgaggc tcagtgtatg81241cttctggagc tgggagttag aatccctaag ttcatggttt tcttctatca gtttgtccag81301tgaacttagg agcaaccaac caacttcgtt atattccttg gtcctctata tatggtcaaa81361ggtattatgt atagagtcat taaactcctt gcctctcatg agtggtgaat caggagtact81421gaatgcattt cttttgcata agtgtttgaa cagttcgtgc caaggactat cagtgttctc81481cacacaatta gaagtagagt ccttagcatt ttggggtcta atcatattaa gcaaccaact81541ccagaaaccc aaaaaccaac taaagaaatc tatccttctg taatcccagc actttgggag81601gccaaggcag gcggatcacg aggtcaggag actgagacca cagtgaaacc ccatctctgc81661taaaaataca aaaaattagc caggcatggt ggcgggcacc tgtagtccca gctactcggg81721aggctgaggc aggagaatgg catgaatcca ggaggcggag cttgcagtga gctgagattg81781cgccactgca ctccagcccg ggtgacagag tgagactcca gctcaaaaac aaaaaaaaag81841aaaaaaaaga aatccatcct taaaattctg ttcctctaga accattccca gtaccaaaat81901ctgattaaaa aaaaaaaaca ggcagaggaa ggtggaagga ctagatcttt ctccagtgct81961ggatgcttcc tgccctggaa catcagactc caagttcttc agcttttgga ctcttggact82021tacaacagta atttgccagg ggctctttgg cacttggcca cagactgcag gctgcactat82081cagcttccct atttttgagg ttttgggact cagactggct tcctgactcc tcagcttgca82141gatgcctatt gtgggacttg gtatcttgtg attgtgtgag tcaactctcc taataaactc82201cccttcatat attcatctat cctattagtt ctgtaccttt agagaacact gactaatgcc82261gtggggttaa gccaatcgtc tagtaggttc ataaaatgct aaaagcagat ataaacttaa82321agacgatcca gctcatctct tcattttaca gatgtaaaaa cagaagtaga aatagaattg82381gaaccccagt ttcttgaaac ccagtgtttg cataatacca tgctaatttc attctaattt82441gtgttttatt taataatcag gaaacagttc aaatagaggc ccagggctct gaaacattgc82501ccaaggtcta tggcttttgc aaagcaagta ctgtttctgc tactttacct agttgctctt82561ggcctatgtt tggggtgcat ctaaagaact gtttgctgat tattaaataa aacacaaatt82621agaatgaaat tagcatggtg ttataaaaac acagggtttc aagaaactgg ggttccagtt82681ctatttctac ctctaggata cagggtaagt cacttccttt ctcagattct gtttctttgt82741atgtcaaagg gctggattag ataaacttga cttcccctct tggccctcat gtatcattct82801ataaatatgt tatcatttct aatagactgt ttgatgtaat cttttgtcta atggcccctg82861cttttcacaa taaatgaaac aaaggtcaca agacttttat tcatttgcaa ccctgattaa82921ctaacagtta atgtgtaact ggagtgccac atagaaacag aaaggagaag gggaatggat82981tgggttggag aaggtgaagt ctgacctatc ctctacaaga ggtacagggt ttatccagga83041agacaggagt gccatgagga gtaaactcca gcaggggctg gagtcatggc cacacacagg83101gccttacagg atccaggctg cccagagcag agtttggatg ggggctggga ggctggggga83161gctagctgag gagatggttg tcatgccagg ccacgagtgt ggatgagtgc tggccagggg83221aggtatagga gattgatggg gctgtggcaa gcagggcaga tacccttcca ggaacctgtt83281tcattaaaca cagaatacag tcctgagggc tcggtctcaa tacagtcctg agggctcggt83341ctcaggaaaa catgttctta agttttacat ccttcttctg ttttgattag gtgtttcctg83401attataaaat aaattcctag aactgttaat ggtaacaaca caaagcacta tagacccata83461cgaggatcat attgaaacca atgacattta agaataaaag atctgatgaa tatgaacact83521tccctggttc ctaggaggat aacagttgag ttttgctcag gtaatctgcc ttctcttcct83581tcttctctgc tttRtatctc agtttctata ttttgtctta cattaatagg atttgttctc83641attaccctga tgattttatg gtaaactacc tcaaattctt tttggaagaa gatgggatat83701aaattatttt taaagtttat ctgaatagat gttcttcaat atcacacaat aaataatgac83761aatgtaactt tgtgcatata gcactttaag agattgatca taaacacaat cctattaatc83821ttaattcaag ttaataatgc ttgcatttgt atggcatttt aggtattata aagttttttt83881taattgtggt aagatatgca taaaatttac tatttaaacc tttttgaagt gtatagttca83941gtagtgttaa gtacattcac aatgttgtgt aaccatcacc actagccatt tccagacttt84001ttcatcatcc caaactgaat ctctgtacct attaaacatg acctcattct ccacctcccc84061acagctcctg ggaacctcta ttctactttc tgtatgaatt ttcctattct aggtgtctca84121tataagtgga atcatacaat attcatcctt tggtgtctgg cttatttcac gtagcgtaat84181gctttcaagg ttcattcatg ttgtagcatt tatcagaatt tgattcattt ttaaggctga84241atatcttcca ttttatgtgt ctaccacatt ttgcttatcc attcttctgt tgatgaacac84301ctgggttgtt ttcacctttt ggctattgtg aataatgctg ctatgaacac tgatgtgcaa84361gtacctgtct gagtctctgc tttcaatttt gggcatatac ctagaagtgg gattgctgga84421tcataggatc attctatttt taactttttt gaggaattgc cataccaccc gctacagcag84481ccgcatcttt tatattgcca acagtgcaca aaggctctga tttctccact ttctggtcaa84541catttagatt atcattcttt ttttaaaaaa acgtaataSc taacccaatg ggcatgaagt84601aaggttgttt ttgttttttg tttttaatgt gtgcgttatc ttacttgatc cattaaatcc84661ctaacaagaa ctcctctagg gcagatgtcc tgtcttattc atccttggcc ccagtgtctt84721gcaagcaagt gaattctcaa taagtgttaa ttgaatggat ggttgataga tttataggat84781gcatgccaat tctgtggacg agagtaggta ctaattgtta ttttcatttc acagaagagc84841aagtcagggc tccgagcact aagtgacttg gctgaggtca aactgcctgc aagttttatc84901taatagtgac agaggaacca atgtgtcgag catgaatgtc agtccattga aacagtgccc84961acttttctga ctctgctcct taagagacag ggcctgtaca gcaaggacac agagaagcag85021gttacagaaa aagggctggc tcatccgtgt atgcctggca tttgaggaat gtggctgaaa85081tctcaacact ctggttcaga agcacatctg caatcaaata taacaagaca tggtatgaga85141gatgtctggc ataccaagga gattcctaga atacagcgga taggaaaacc tcattacttc85201aattcccaag aaagagtact actggtagta atcccaacag gagtatccaa gtaactcggt85261aatcttcagt aaagaaaaga aattgtgaaa caattatagt cagtcctcca tctctgtagg85321ttccacatct gtggattcaa ctcacctcat attgaaaata ttaataaata aataaataat85381aacaatataa caattaaaat aatgcaaatt ttaaaagcat aacaactatt tacatagtat85441ttatattgta ttaggtatta taagtaatcc agagattatt taaaacatat gggagagtgt85501gcataggtta tatgcaaata ctacaccatt ttacataaga gacttgggca tctgtggact85561ttgttatctg caagggtcct ggaaccaatt ccccatggat actgagggtc aactgtacca85621agYtgaaaac aaaacaaaag gaaatctatt gcaaaaagga aattcccaaa gataaaaagc85681atgtctatga aatagtcaaa gagccgaaaa tgttgggaag acccacactg ctttccctgc85741cctgtgcccc tttttgcaga tctatttgtg tctttatcta ccagcagata ttctattatt85801ctaatagatt cctgtttttc ccaagagggt ttacttattt attaaatatg atgcaaacat85861ctctctcaga gatgttgctc tctcttccta ggattcctta gccctaaatc tgcagagcca85921attaggtatt aatattgggc tttacaactt tggaccatct gaccaccaag actgattcat85981taaatgtata tggtttcaga tcacattaat ttatcataga ctttagaatt ggctttttag86041aagtactgct ataaggaaaa tctcagcata gcaagtttta tctaatagtc tacttgtatt86101aaagagtact caatgtaaac cctaggaaga cttttaactg ccttttggaa attggttgag86161tgggatttga accgtgtact ctctgtaaag caggaaatta tcacttagta attactaagt86221atttaaaaat gggaaataga aaattacatt tcagacctgg tgcagtggct catacctgta86281atcctaacac tttggcaggt ggaggcaggt ggatcgcttg agcccaggag ttcaagacca86341gcctgggcaa catagtgagc aactccattt ctactaaaaa taaaaaaaat tatttgggcg86401tgatggggtg cacctgtagt ccccactact caggaggctg agacaggaag attgcttgag86461cctagaaggt caagcctgag tgagcagtga ccggccattg tattccagcc tgagcaacac86521agcgagaccc tgtctcaaaa aaaatgtata tttttaaaaa aagaaaatta cattttagtt86581gttccataaa tatcagtaca accaaaccta agtgcaaaat tcccaacaca aatgatcgcc86641tctgggccag ccatgtagcc cccatcttgc tgtcaataat catttccagg ggctgtaatt86701gtcttccttc cccctgtacc accccatcac aggacacaaa ttgttttgct tagtttagat86761agctgtgact aaactaagtg ccaattgtct tttaaaatat gtgttaatca gcactcaaga86821ttgttcctac aaaaatgtca ctccctcact caatttgcat gtgccctcct gagtaggaga86881gaaagagctg agttagaggc agccctctgg gacctgcaca gaaccctgta tgcttccggg86941agtgtggagt gtgtgtctga tctgctgctg ggaaaaggag aagaaatgct gagacactca87001ctgccagggg ctggtatcag gccattttca caggggctgt tggagggttg acagcacagc87061tctactggac cagggagggt cccagccagc agggcctgcc cctccgaaac tgtccctgtc87121cctgtccctg agaggcccca ctgagtgtca gatggcacat aagagatttc cttatgcgtt87181ggtgtgaagg agatgatcag ttccaggagg cccctccccc atgcagaaga gaagaaaatg87241gaagaaaccg ggttctcaga gtggcctgcg ggtgagtgcc gccttgtgct gtcagttccc87301ttcaccttcc agttctgggt gtacctagtg tggtttcatc aaactgctga ggccctggaa87361ttgagggagg atgctgaagg gtgccaggcc atagaagcag tagcaggagc tgcagcaaag87421agctagtgtg tctccagcgt cagcttttgg gccttggtgg catcaaagga gacgtacaca87481gggccactgt actacggatg ggattcttgg aacaaaagtt tgaataattg atgagtgtgg87541aagtgctatg caaaaattca attcaacctg cagttaccag gcattcattc tgtgacaggc87601attattgtga gggtggcaag gagacgggga gtctctgaga gactcagaga agagcagggc87661atggtgtcca cccacaagag atctgaagac tttcaaagta gttgggaaaa cagacataca87721acttttttcc cctccccaca gctagttgag gcaaaagaca tataacttat acagtgacaa87781aatactactg actgttactg acacataaca gcctgggctg ggtcactggt gagaaaaagg87841aggattcttg cttttggggc attcaagtcc tgtccattaa ccatttccca atcccatatt87901tatacatccc attttagaca tattaagctg aagattgatg tgacataccc aaagacactt87961aaggttgaag ctgagaatct gggctagaaa tataaatcag gatgggctgg gagcggtggt88021tcacgcctgt agtcccagca ctttgggagg ccgaggcggg cggatcactt gaagtcagga88081gttcaagacc tgcctggcca acatggtgaa accccatctc caccaaaaat ataaaaaatt88141agccaggtgt ggtggtgcat gactgtaatc ccagctactc gggaggctga ggcaggagag88201tcacttgaac ccgggaggca gaggttacag tgaaaggaga tcgtgccact gcactccagc88261ctgggtgaca gagcgatact tcgtttcaaa aaaagaaaaa aaaaaaaaag aaagaaatgt88321aagtcaagat taaagacaat gggtgagatc agcaaggagc atgtgtgcgg agaagagaac88381accaaggaag gctgcgtgtg gtgggaggtg gccggggggc agagaaagag gcggcggagc88441caaggagata gggcatcgtc tgaatggtga tgctgtatca acagatgtga aattcccaga88501ggtgtgaaac acagcagatc ctttacagca cgatgacagg acacagcatg agcctacctc88561tgccaggtga gaggagcttt ctgcaacctg tgatgggctc aaggatgctg accattcatc88621cgcccattgg gatagcccag gctctgagct cagcactcca cccgtcactg cgattgcact88681aatcctcacc cacccttgca ggcaggtatt actgtgggca cagagaagtt tgctaacttg88741ccagagatcc tgtgtaggaa gccaggtcag gaaacaacca gagtctctct aacagcccag88801gccttgaatg aacaccggcc tgcttcagaa tacatggccc gtgatgtgtt tgaattcaca88861gattcactgg acaggttccc tatagggcct gtgaggaaat ctggtctaac agaatccaga88921aagacaaatt tcgctaaaca ggtcaagcct gatactgctg ctacacttca gctgtgttaa88981gccactcggt tatcagacct gcttctcctt tcatgatttt agtaacacag gcctcttcct89041tgggcccctg ttgctcccac catctcccag gttctcttgt actcagggtt tagtctcccc89101tccccactac taatgatgca tgtgccttac tctctgatca tctctcctaa atctgctact89161cctctgctct ttctgtgcct tatctatccc tgccgagtct aacatgcaga ttttggtcat89221tccaaagtca tgtatagatc taatcacagg gctctctgct taccagctgc tacttggata89281aggaaagcat gccaacacgg tcctccttct tcatgctggc caagtcagca tcattattat89341tacctaagtt tatttctaac acatctcaat atcttcatgc actccctctt gataaaagta89401actgagcata gcaccatcaa taccatcaaa tctgtcattc tcttcccctc tctctgggtg89461ggacaggaag ccaggctgct ctaggaaatc ttccctaaca agcaaagggg acttgcctgt89521cctctcgcat gtgtgatctg agcttgtgtg gatcccagag tgggcattct ggactacttg89581accttgccta tctctccttc acaccctctc atctctccct cctaccacca aaaaacttgc89641atcgtatttc caatctccag acatactttt gaaaccattt atctatctgg tgtgtttatc89701tgtatctagt atgatgtgaa tatgtgattt gtatgtgtgt ctaccactgt tttggtcagt89761ttgtatttct cgtgggtaca gttctatgtg ctcatgtatg tggaacatat gtatactgac89821acatggacct agctccaaat gatctgaaag gaatataatt gtaattgaat atttgcacag89881atatacaaca tacacatgtg atggctgggg gaaatgcatg tgggatttca gtcagcattt89941tattagagaa ggtatgtcat tagtgctgta ttaacaatga atcagcttat ttgtgggtca90001ctgtcaatga ctcctttgca aatcacacat gtaaatattt ctgtctgtgg tctgatgaac90061atgcagtgcc acagtctggg agatgctgag ccatgccctg tgtaggcagc atatgaaaag90121aactgcatga tttaaaagat gctgaccagc ttaaggaaag caatttaaaa acttcctaaa90181aatctagttt gaatgaacaa cagttttcat tttgtgtgtg tgttttttct tttagagatg90241gggtcttgct atgttggcca cgctggtctc taactcctgg gatcaagcaa tcctcctgcg90301gctcagcctc ccaaagtgat gggattacag gtgtgagcca ccgtgtctgc tggccccact90361gttttaaacc ctgattcgac aatcatacat ttaactcatt acctgtcttg ttccttttac90421gacaaactca aagcttttat tttactaaag tatttgggtt aatcttttgc ttttctgtca90481tgttctgaaa tatgtacaat aacagaatcg ctcaaaatat tatctccgtt aaatgttttg90541tggctttagg gagaggtcta acaacatgcg ggaaacaaga aatcaagcgc atccaggatt90601catttataat ctctctcgtt gagtagaagt ccgcatctct cgatattgtc tggttacctg90661catgaagtat tctaaaggag gaaaatagct caaagaggac attcatgtgc actctggctt90721ccagttggcc atttgagtaa gtgatcgcaa ttaactgacg agcggcaggg aaacacttcc90781tggaattctc atctacagac aagaacaaac tggggcgggg cccatcacct tcacctacgc90841gccgggaggg tggcggctgg cgggcggggc cgggctcggg ccgtgacgcc gagagtgcgg90901ggcgcgcggc tgggagcctc gcgcccccgc ccgggcccgc ccccatcccg cccgcataca90961gcccgcatcc cgccggggaa gcgagcccag tccagcgctg cccgtccagt cctcgcccaa91021gatttaaagc ccgcaagttt tgttcttgag accagcgact ttagctccga tgcgggaagg91081aaagccgacc tccgatttgg acatttaaag agctgggctt gaacttcgtg agtttcgctc91141taaactgccc ttgaaatgaa gctggacttg gaggtaaagt cactgggaag ctggcctggg91201gcggggtttc cccctcttct cgtattttag aaacggacag cggcagtgca gccctagttt91261gctgtaagtt tccttacttt gttactgagg cccccagagc tccacgcata agtggtgtga91321ccagaaacct tttaacaaga cccgcctgag cctgcgttag agctcccgct cggaaagtaa91381aagaccatcc taatccgcgg cgctgcggaa ccggtgtccc gtgtgggagg aaccgcggcg91441ttccctgggc gtagggcccg cgaggccagc acagtccgcc tcttggcgga gcgccctggg91501ccggtggttc cgcgcggagt tagtctgtgg tcagttacgt ggtgaaaaca cggctgtgcc91561gcggccgcat ctttccgcgg ccgaggcctc tctgggtggg agtgttggct tcctttccgg91621atcgctaaat ggggaaagtt ctggccgctc ggcgggatac gtctccaggc cacggatggt91681tcgttctccg tgccgcggcc ccgagctggg ctccctgggt ctccagcgcg ggctcccggc91741attgggggct gcgggccggc ccctccgccc cgcccccgcc ccgccgcgcc tcctcggccg91801agcggctcgc ggtctccggc gcgggaggct ccgagtctgc ccactccggg ccgagcgagg91861tctctggagg agaagagtgg cgaggaggtg agggcacgcc ggccctcgcc cggcgggtgg91921cgccaggact tcaggtggga acgcgcgctt gggccggggg cgcgtggctg gcgtggacac91981cggatcgggg cccgccgccc tggcccggac cgcgcacggc ccagcgccgg gaagtcggga92041agccggggag gcctctccca ccgcgggccc cggcagcccg ccctctgaaa gcgcggcgga92101gaaggaggct cgtcccctcc ccggaacgcc tttgttccct ccggcctgcc cgcgcgggtg92161gccagcggct gggacccagg ccgggccgcc gcccaggtgc ggcaggtagg ctcgggggcc92221gggcagctcc ggttggggcg gcttcccggg gcctgcgggt ccccgtccct gaggagctcc92281ggctcctcgg tggcgggaca ggcccgtgcg cgggagccgc gaggcgaacg ccgcgcccac92341caattcggtt gccggccggg ggccccaggc ttgcggccac ccgcctccgg ctggagggct92401gaattcgagt cgaaagcccg tgtcgggctg gaaagaagaa accgccaacc tgagaacgct92461ttcggcgagt tactggcggg ggaaatgggg acagggaagt gggcaggcgg ggagactgca92521gccgcagatc tccctggcgg ggaggtcgtg gccactcttt cctttgactc tgcctcattt92581cattttgaat cctgatgtga cagaggcaat tgcttgcttg gataccatat aggtaaaagt92641aacagttttc aactcgactc ttgactacac cctgtacatt cttggccggt gttggttttc92701ttaggttatg gatcatgtta aaggtacacc gatgtggtaa ccgcacagtg gccgatggtg92761gcctgaggct catatttatg gtaattatct gatgaaagta catccatcag aattggattt92821gtgcgtctgt gcctttattt tgggaaacct tgcctgttcc ctgtggggga tgggagagga92881atgtgaaaag ccgaagttga cccagaaaag gatgattgaa ggtagttgta ttaagtggtg92941gcaccgaaat gattccaccc tgaactttct gaaagggtga ttagtgatca gcagcagacg93001ttataacttt ctcaaaataa atttatggta gattttctat ctggtcacaa gtgaggaggt93061gaaagctgct ttttggggcc aactctttgc ttttaaagca agctaaacgc aataccagaa93121aggtttccat tctgtactta acctgcttgt ccttctcact cttccttatc CtCCCgCaCa93181cgctctgagc attgactgag cactctgagg aggaggctga ctcaggctga cccttcccgg93241ccctgcaagg ctctaaggta gaaccagtgt tatcacagga aaggcccaag ccaaagctca93301gagcagctgt tcctgagaaa gtgggagatg aggatgagta ggaggtagag atgcttataa93361ctgctctgcc cagagaaaac tcagaaggtg cagaagagtt ttcaaaataa agtgcaggcc93421ccatcaagta aaaaatgaaa cattgtattt cattaaaatg gtgatcagtt ttctcttttc93481ataaaagaca ttcaaatggt gagattgtaa aaaaaaaaaa aaagaaaaag aaaactttct93541aattctcaaa aatagaacag cttgaataat aactcatggg ttttgaaatg ggtcatcttt93601taaaatgggt cactttggct agaatcattg cacttggtga ctttcacatt gtaaagggtc93661cagttctttc tgaggcccaa ttgcactaga atctgcattt cagaacacag gaggtatcag93721gaagaaactg ggagaaattc agagggaaat tgtctcttct cagagtaaca aaatgtcccc93781tattcagggg gaattttata tatgctgaag taaatagatc tcagctttga atttttataa93841tacattatgc cttttctgaa atatttccat agccattatt ttaatgcatt gttagaataa93901ccttgtaagg agaggaattc attgtatctg tgttccagaa actgaggcac agtaaattac93961aagagctctg ccctttgata tcgaatctct gtgagcgaag atgtaaccag aacagtgtaa94021atctagaatt actttcctta cggtatgcaa tatctaatta ttatgtatta gtttacatat94081atatagggga tgtaagaatc tttatattta aaggataaga aacttgatca ggtgagatac94141aagatttgaa taaaaaagcg attttttaga aacattttaa ttctacaaat tcagttgctg94201gctttgatat gtaacttatt cagatttctc ttccatagaa ggctttaaca ctagaagcca94261gttctctaca aaagagaatg ttctaccaag tgtgtaggca acaaagccca aaagttcaag94321ttcaaaatac tgttctacag cctaagatcc acctaatatt tcagatttga ctcttttgct94381cctttcctat aacttcctat aactttttca tagtgctcta agcaaagtaa gttcaaggat94441ggactcacct caagtttcct tctcttactt tagaggacca tataatctta tacctgtgtc94501atcctaattg aaatgtattt taagtgcttg tgggaacaag aataacggaa gaccgttatt94561ccattaatgg aataatgggg aacatgagaa ggaccatatt cagtcaatta gggatgatac94621ttctgcctca acagtatttg cgatgtgtta aatggccctt agccatcaga tcagtatttt94681taaaaactcc tacctaatta atgttttttg agaagaagca tattatgagt atagctcagt94741attctaaaaa gaaaaaaacc tgaaaaaaaa atcagccatc cattaactaa cccatcctgg94801taaagctaca caaacagatt ctagagaaag gaaatttgca cagatggaac atctaatctg94861gactgacatt gtcaacaagt tatctcaaat gatcctgaga aaacactggt acatggttta94921gagacaagtc gagctcatgt gactagtaaa tggagaggca cagtatacat ctacttttgt94981tggcatttaa acactctcgg cttttttact ctctttcacc accatcaggt ccagattcca95041gcttgcactg gaatatttat tgaccctttg atagaagagc tacacctgaa acatctctga95101agtcttttta gcatcctatc ctgcccatgg cctactacac agtatgtgat aagttaatgt95161ttgttgaatt agttaaatat acgtattaac ctactttcag ggctgcccgc tgtaatgcct95221agaatagggc aggcacttaa taaatggtag ttaacttaga ctaaatgttg atccaccaag95281acagaaacat gttacatata cctcttgttt tacaccatct tctacttttt gtacctctgt95341gttataaacc ctctatcaag tgttgcttct aaagacaatg tccagaatgg gacgtaggaa95401ctgccactgg gcaacaggca gacactgggt tatatcgtca tcctgtttct gaatcctggt95461ttttcttatt attattcaac cacagctaaa ctttctgatc tccttttttc cgttttttcc95521ctttacccta acttctagcc aaactaagtg atttgacatt tccccactca agccacaact95581ttttctctta tgtgcttaaa aaaaattcct gcgtagtctc tcttggaatg tcttattcct95641tgctccctcc acttcaccct tttttttttt tttttttttt ttttttgaga cggagtctcg95701ctctgttgcc caggctggag tgcaatggtg ccatctcggc tcaccgcaac ctccgcctcc95761tgggttcaag cgattctcct gcttcagcct cccgagtagc tgggattaca ggcatgctcc95821accacaccca gctaattttt gtgtttttag tagagatggg gtttcaccat gttagccagg95881atggtcttga tctcccgacc tcctgatccg cccgcctcgg cctcccaaag tgctgggatt95941acaggcatga gccaccgcac ccggcccact tcacccttta agccagttga aatgctcctt96001gccctactcc tcccttctcc ttttctttct cccatccaag tactaaccag gcccaaccct96061gcttagcttc tgagatcagc caggatcagg tgcattcagc ggggtatggc tgtagacttc96121tctttctgag ctgtgtcttc ctcctttcct ccccaaaccc acatttgaat tctgttctag96181ctcctgctca tttgccacct ctcccacaaa gccttcccca gtttccatct tctccctgct96241tccctcatct cagaggaaag ctcttcattc acagagcacc tggtttgggg tccatagttt96301gttgtccctc agtatccttg gggaattagt cccaggacac cacccccccg cccctgatat96361ccatgcatgc tcaagtccct tatataaaat ggtacagcat ttatattata acctatgcaa96421tattcccatg tactcttttt ttttattttt atgtgtttag agatgggtct cactctgttg96481tccaggctag agtgcagagg catgtagcct tgagctcctg agtcaaatga tcctcctgcc96541tccgcctccc aagtagttgg gattacaagt atgagctacc acacctggcc catgtacttt96601aaatcatctc tagattactt ataataacta atgcaatata aatgctatgt aaacaattgt96661tacacggtat tgtttagtgc ataatgacaa gaaaaaaatg tgcatgttca gtacagacac96721gaccataaat ttttttttca aatgtttttg atctgtagtt ggttgaatct gaggatgcgg96781aacccatgaa cgtacacgac caactgcata tgggtttcta ataacagatt tgtggatgaa96841gcccacccaa cataatgcaa catttcaaat gtatcttagt cagtttttct ggggcaaagc96901cagcctaaca aatctcaaga atgtttgaaa aattctagct tgagtgaacg ttgttcttct96961agtgactcaa ataaagcagt cattgtgtct gaggagtcct agtggggtgg caggggtggg97021gctaggagta gtggctgttt gtagcatgtt ttatatcaca ttaaagggct gggtatgcat97081tttaggcaat aattcttact cttattgata ggagaacttg tattttttat tcatctacct97141tatgatggat aactggttta catctcttca tcaggtttac ttcttacgtg tcattttatg97201agctgacttt gaatatatct tcagattttc cctgccttta cacatgaaaa cggttttgat97261acagcttttt cattagagaa tggcagcttt tccaggccag ggtgtctgtg tctgactcct97321cgcctttcat tttacccaat acttgcttaa aacatcctcc ctgagtccgg tacttttttg97381cctcctctcc ttccttccac cccacctctt tttgtcaccc tcctgcgact ttggatctcc97441atccttggag tccctgaatc ttttttgtgg ttgaaagact acacccaaag gacacagact97501gatgaggtca cttctgccca ctgtctagta ctagtgagac caagaagaag aaggagggaa97561aactgaaatg gaaggtttga aaaagagtgt gttagtgaag gaagtaagaa cagtgctaac97621agaatgcagc aaaacagaaa tgacttcaca cttctggcag tgaagcaaat tctcatccat97681cttgggttgc ttctcttgac cctgcccacc tcctcccctg ccctcccctc ccgatgagaa97741ctgcaggaac acctgtgccc atgccaagga aaaagggcag gtgaggaaca cagggatggg97801gctgggactc acaagctgct ctaagctgcc acagggtctg gaatttgttg acattacatg97861gttaactcgg tatctcgatg cctcagtatc ttctgcaaaa tgtggaggga gatcctttct97921tcctcaaagg ttgttgtaag gcttaaagag ctaccacatt cgtaaggcat ttggaacagg97981gcctggtata tagtagacat acccatggta gtaactgttg ctagactggg taaaaggaga98041agtttcttaa gtaggcaaga aaaaaactga caacagttat atttaaaaga gcaagcaacc98101gtgtcagccc aaacaagtgt gttgcaagaa tgagcacaga gggccaagct cagaaaagcg98161agtgtttgac ctctctgaga cctcctttat atgtcagctt ttttatttgt ttcaaatttt98221gcataatcaa actggttact gggaattatt gagttcatat aacttcccta aaatctaaga98281ataatctata atcccatgcc accagtcccg ttaataaaga cttagggtct gtctttaccc98341atttgttcat ttgaaattcc ccgtctttac ttcccccata accaggaaac agatctacac98401ccatgtttaa cttataaaga gatataagtg agtttacata ggtggagatc ttgtacctgg98461attcacattg taggttttat tacccagctt tcccctctat cccaaagcca tgattgccat98521agtggaattt aaagtctttg gactaacact gaatcaagaa ctaactctac aaatgtattc98581tctgcaggag gataagaatt ccaaatggct tctaattgtt gcccatggct tgaaataaag98641ttccatatag ctaaagcccc agcacaaaaa cacttgaaga cagccattag gtagaatttc98701ttttcttttt tagaggtctt atattggaaa tgtaacagtt gcaaagatat ctaatgtttc98761accttaaaat gtgagttata aattcacatt tcacattgcc tccttcctcc ttgagcaaac98821agactaggca attagtacca aatagtaact agttatattt cttaacaccg attattgtaa98881gtaatttatt aagaaaaaat ctaggaagat caaattatag cttttccagt aaatctgggg98941ctttttattc ctgatctctc tcaacaaggc agtttggctt ctgaagattg gtcctagcta99001tacttaacag gaaacagatg acgagaagaa gccaggaaaa aatacttgga atatagaaca99061aaatgcagca taaagatggt acagaagatt ttatctttct ttcctttagt tatgtgtgga99121caggaactaa aaactctccc acgtgggact ttattaagta ataaaagttt aaatgtaaaa99181gatataaagg aatgaggata taaaggaaat ttttttaaaa actgtgactc accggaggag99241ccttatatag tctactttct aagcatatca cttttaaagg gatcattata ttttcatgat99301gcatggggat attccaagta ttaaattgat tttttaaatg aagaaaatta tcagttcagt99361cttgttttct atgtaggttt cactacagta ttttatttcc cccgcaagga aaaaaccaga99421gctagaatgg aatgattaaa tttcttagtt ttcttctaat ctgttagtct ttccattaaa99481ttatactgcc ttcttatata gaatttctgg gtttgttctt gttttggcaa taattgaagt99541aagagaggat gattttatgg tagaggtttg attccattct agattggtgt ttttcagcta99601tgtagaacac aatccattca tggttcagac aaccgtttta ggaggttttc atgtccagca99661ttaaaaaaaa aaaaaaaaga atagaattgg gcattcatat atatatatat atatgaatat99721ttattaataa aagtttaaaa gatataaagg aatgaggaat gcatatatat tatatatata99781tataccaaat taaagtatca taatactaat acaaggatta gtatcgtttt atgatacttt99841attatataca ctaagggtta gtcttgtttt atgatacttt attatataca ctaagggtta99901gtcttgtttt atgatacttt attatataca ctaagggtta gtcttgtttt atgatacttt99961aggttggtat acatacatat actaagaatg cagacatgtc catggaagtt ggcaatattc100021agcccccagc aggccccagt cagcaggaca gggattaggg gagtcaggtg aggcagggct100081gtataagtgc agggttggag cctgtcttgg tttaccgttt tgacattttg ttcactgtgg100141atttttttca gtaactttga ttttttaaaa atattgcatc aaaatattat actgactacg100201gagtttttgg taccccctta aattgtgcac ctaaaataag tggctccctt gtctccccct100261agtcccggcc cgatcagtat gttttataga gggaatggtg agtgttgggg aactagggag100321cccatgagga ggcggcccag aaggggagga ggagctgatg gtgtgtctga tgtctcctcc100381tttctctagg aagcagacag gaggtgaagt cttcagggtg ggggggacag agcctgggag100441ggggagattt agcatggccg ctgaagagac tgggaaaggg agaaggttcg ggacaagttc100501aggaacagtc acgtagcact gaaaactgct caaagctaga tagtgccatt tgtggtgacg100561ctgcctgcct ggtaagtccc atttccccag cagccctgga ggtgtcatag gaacaggaag100621atgggagggc gctggggtct ggggttgttg gggtgggagg gcaaaggtgt ccaatgattc100681tgcatctgaa acgggggagg tgtgtgagga agaaaggtca ggagactgct gggcagggtg100741gggtggcaga aggttctcga tgaatattta gaagttgcag ctgaggagtg agtgtactat100801agagtgagta tcctggaatt tgaggtctca gaagaaatgc agttctcagt gaagccatgt100861aaacaacttc ctggctgata aggtgtcttg agtgttggga gatcacatga tcaaaatggt100921atacacacca taaggtgtcc ttagacttga gtgtggtgta agtctactga ataaaatgca100981gaaatacagt tcactgttgc ttttcttcct ggaaattgcc ctccccaacc tcaaaccagc101041ccccaagtgg ggcagggtcc atctttagac cctcctgtag cacccagcac aaccctaact101101atatggtcaa tgtctctctt ccccacttag agctccaaga ccagggcctt gtttgtcctg101161cttacccact ctacccattt gttaacccca tcttaatttt ctgatgaatg agcccttttt101221tcattgactc ctcctttctc tccttctccg gagtttattt ttcctccagg cccattgctg101281tctctccacc tagagagctt atccacattc atgaaattag tcatcttcat gctcagagta101341cccacctgga tctctccagt cctgtctaac tcgtcttaga ttattacccc ctggacatct101401gtaccttctt gtctctccat cgcctcgaac tcaatgcgag tctaaaatca aatactcctt101461cactcctaac tcaggaaacc agttttccct cccttgttgg taatgcttga aattagctct101521tacttctctt cttcctcctt tactcgccat cccaggtcat tcatcaggtc ctgctaggtc101581tttgattttc ttgaaagggc cttctttatg ccttccttcc gtccccattt ccaccaccct101641cgactaggcc ttcctcacct catccggcat cagtgtgagc ccttgagaaa ccagcgtcct101701gatcttcagg cattctgcat ttcaccccat accaccatta gccagtttaa tccctcttgc101761tcaaacttaa taaatactga gcaagggagt tactataaca aacaaaacca gaaatttcta101821tgacttcctg ctgctttctg taccccccta agactcctct acctgatttt caaggttctc101881cataagcagg ttcccacctc tctgctttca aatcttctat ctgccataca cagttcttgt101941ctaaaacaaa gattgttcct actcctgcag ccacctaaat cctagtcgtc ctcaggccct102001cctaaaatcc tgactaatcc aacccccacc gatttctcta ctagtcccag agacttccct102061cttgtgcctg gggttggtgt catgcagaca cactgtacct taccaggatt tgcccattgt102121tgtctgtggg aactatgctt tcatgtggga actacgagtc ttgtcacaaa tagagtgtaa102181atgctttgag attggagact gtaaaatact tcttcatgat ctcccactgt gtctggtata102241agaacccgca gagtaaatac tcatatactt gtaggattaa ttgaaacaac tggagactga102301ggttgtttaa cttgtactta gaagtgtgga cctccccatc ttgattaaaa cttcaaaacg102361gatagcaggt ttcacatatt atctcagcat cacaaaagta gactcaacaa agaaatgagt102421tgacagcagg ggtaaggttt acaacaatca gggattattg cagggaaact tgtagccttt102481gggtgttcta actagttttt tcccaaaaag tttaaagagc tctcttgtga aagaatattc102541ttatgagtaa ctgaggggca cggctcctag actgaaaagt atttgggatc tgtcacctct102601tttctgatgt tcctacttct attctttatt cttctgacta cctctattag aaaagataat102661actaagaata cctgtccctt cttctcagtc caaatagaag caaacccagg ttgtatctga102721gatatctgca tattttcttc taagcaattc tttgtcctct tctctcccat gctttttcta102781tttcctattt tcagcaggct ctgaagtcat ttataatttt tactgcccct cggtgacatt102841acatggatat tcatccctga tttgcagatt aaagcaccga atcagagtga ggtgagggtt102901gcccaaggtt acacaataaa tctggcccca aacaggggta acccttgagt ttctagtctg102961ttgattggcc actgacccgt gctgcaggca cacaaaggaa gctgcaccca cagcagtctg103021ttgtggatgg ttgctgagct gcgcattcgg cattgggctt gctttgtttc ctgccaggcc103081cagcattttc ttctaccaga tcggcaggct tgtgggcttc ttcctaggtc cctcccctgc103141actctgaata ggaaagctgg aagctgtgct ttagagaagc tttaagacgc cgaaagaaac103201cagaagagtg agcgccagtt gtatgtgcgt ggtctccatc cgcaaagccg gagctgggcg103261caacagtgtt gacttgtaat tgatcaattt agatcgggcg caggccgggg gagggcagtg103321cttttgattt aggctgggaa aggcctccta gtgactatgt tcaatttgga ggaattcaga103381tgttcttttg ttatacaagt gaagctgtgt aatacaaatg aggagtttta cttttcctaa103441atcttcccct tatcattcaa gtattgagga gttttacctt tcctaaatct tccccttatc103501attccagtat tatcagtgag atctggttgt gatttatgta aatggtggct aaaaaattca103561aactactgag ggggagaatt ctcattttac agcttcacat gctgtgctga actaaataag103621tagcgtggga tgttggcttt gtgacaggtc ttttgtcatt tttcagaaag cattttgact103681tgttgatgtc aatttggaac agctgaaaaa atacaggaaa ataagataaa tacgtacatg103741ttgagggtgg ggacaaaatg aaggttctga accagctgcc ggcttacagt agccatataa103801gcaacagcag caatgcacca acctggtgag taataggcct gattcactgg agagatacta103861gcacctttaa tgagtcagat agatgcacaa tgggtgtggg agcagttgga cttgtgggca103921caaagtctag caagaagctc agacttgcaa acaactgtag gacgtgcaaa gcaagctggc103981attggagctt gccgggcaca gctgctcagg aataggcagc tggttttccc tttgatccct104041gagattccaa aggttacttt cctctttgtt cccttcccag ggtcaattag agtagaaact104101gcagatgctt ttcagttgag aattttccta gaattctcaa aaatgtgtat gctggcttaa104161aatctgccat caagaattct gttaccttgc tttaagcctc cagttccttc cagatgtatg104221gtggaggagg ccagagggcc cttgttttgg ggcttcagag gatggttgtt atctggatga104281gcactgtgga aagactgaga gagcaactga gagaaagtgg gcccctgaat gaaagtgatt104341tcgcaaattt taggcagatg ccaccatcag aaactgatat tttctgacgt ctttctcacc104401ttcctctaga gcattcagtc cagaaatgac cagcctgtcc aaagggggaa attactgata104461ttgatctgtt ccttagagca gtgtttcagt cttttttttt tttttgagat ggaatctcat104521tctgtcaccc aggctggagt gcagtggcac gatctcggct cattgcaacc tccaccttcc104581tgattcaagt gattctcctg cctcagcctc ccaagaagct ggaattacag gtgtgcacca104641ccacacccgg ctaatttttg aattttttat agagatgggg tttcaccatg ttgccaggct104701ggtctcaaac tcctgacctc aagtgatcct cctgcctcgg cctcccaaag cgctaggatt104761acaggcgtga gccaccatgg ccggccttca gcctttgtga tattaaagca cagcaacaca104821tttcccatta cacccctgaa cacacacaca cagaaaaccc aaaagtttca caaaatgatt104881cttgctctta ctactctcag tacactctgt atttaaaaaa aaaaatgctg gttgtggctt104941cctaagtggt gcgtgcagtt ttcaaatcaa tgcccttggc gataaagtgt gccctatact105001gattatctct ggacaaagtc tgaatggggc ttggctctaa tctctagtcc tcattggaca105061ttttacatac ctggcctttg cctccaccct gatgtggagt gatcatgggg gtgggaaata105121tagctggatc cgaaagctct gaagtgggga tggaggtgtc acagctgagg ctaggcccat105181tctgcagggc actcagtgtg tacagttggt tttctatcag gggtcaaccg gcggggggac105241ttgagaacag atctctgggc acaaagcagg gcctttgccc tggggcttgc tatgtggctc105301agcctacacg gctctctccc cgtcagtcct gtccaaagcc caggaaacta atgtaccacc105361cccgaggaag agagcctacc tttccatcca aggaagtgtt ttacctgtgg taagcacggg105421ggacagaatt cttgaggaag gagggtgctg cgtcccagtg gtggaggaaa agagaggacc105481tggtgtaagc agccatggca tggacctcat ccgaggtggc acctggctag ggtcctgacc105541tccaatcctt ccccagtaac catcactttg agtaaacagt ggctccaccc ccggcatggt105601tctttgcacc aacatttggg gaatgcctac caggggtcac acactgagct ggatgctgag105661tgtagggtgt ccacaacatc gtgcctaaaa agtctctgta tggggtataa gaaggtgctg105721gggcaataca gatgagatga gaagcatctt tcagggaatg ggttgatccc aattcaggct105781tcccagagaa ggatgtctgt agacttcata ttagcaaggg aggaaggtag ccaggccaca105841ggactgctgg tgtaaagacc agggcatatg aaatggcaag tgtgactgtg ctttcagcca105901ataatttggt attgtcaaat gatgggacca aacagctgga gaggcagatc ctaaagggtc105961ctgtgggcca ggctggactt catcttgtca ctaactaatg gagaggctct gaaggagtta106021aaagagctca gtttgtctcg tggttaaatc caagttttac aaaggtcacg ctgactgtaa106081agtggaaggt gggctggcca ggggatcatc tagtctgggt gagaagtgat gataacatga106141aggggtgaag agagatttag aagaagtgat tcacaggatt aaacatttaa ataatggaag106201tggagaaaat ggggggggcg gttccagatt tcaggcatag atgaaagaag tgcagttagg106261cacatgtaaa gagaaacagg aacagcaggt tttaggggag aagataacag aatgggtgag106321aaatgacact tgagtaccct agtgtgctag gtaatcatct gtctacttcc cttcatttgt106381catgtatatt cccatttaat ttgcataaag acttcgagtt aaacggtctt accccaattt106441gtcaaatttc tgcgcatgat atggtacaag aaaccgtaag tggctaaggc ggcattggtg106501ttcaaattgc ctgactacaa aggcagtgct tgttggctac attctgttgc ttcccagttt106561agaacatgtt acattgaggc gcctgctgca tttccaaata aaaaagtaca gaaagaaggt106621ggctgtataa atctggggct cacaaagtaa ttttgattac tgagagtttg ctttcaagga106681gcaaactgtg actccttgat tatgaacctt aatttaaaaa aaaagaaaaa agaagtctta106741ctcttattcc tgccttgtct ggggcaagcc ttaatggatt tttactgctg tgaattttct106801tttcattgaa gattttgcct tgatctatgt atctgctttc atcctgacca tattcaagtc106861agtatattca tgaatgtacc tgtttgtgaa atttgaactt aagtatacac gattatagcc106921gtttgggaag cttttttttt ttttttttta agagtaggag tagaaaaagg tctctgtact106981ctgaatggga agacagtgta aagcaatttt ttcccttttc ctgtcctcct ttaaaaaaaa107041taaacagccg tatgcctctg ctaagtacta actacctcat caccttttgt gcagacaggg107101caggttacat ttggttttaa ggaattagga atatgtttct ttccagcacc ttagtaaccc107161acgcgattgt gattcttttc tcttcttgac tgtgataggt ggcatggaat attcacatgg107221gagagccgca tgaggccgcc caccacgctt cctgaaggat gcccgtgtgg aagaattttg107281acgtgccagt gtcctcgttc tacagggtgt tccattcttc cgcaatctca gaaaaatggg107341actaaaagaa actattttgt aaaataagaa gacttccatt tttaatgacc aacatgtatt107401aagatggaca cctactctac gaaacacgaa gttctatggt ctcgaagaag cccgtgcctg107461tttaaaactg atcctaacta aaaacagact tgagtggata tgagaatgtt ggttagtggc107521agaagagtca aaaaatggca gttaattatt cagttatttg ctacttgttt tttagcgagc107581ctcatgtttt tttgggaacc aatcgataat cacattgtga gccatatgaa gtcatattct107641tacagatacc tcataaatag ctatgacttt gtgaatgata ccctgtctct taagcacacc107701tcagcggggc ctcgctacca atacttgatt aaccacaagg aaaagtgtca agctcaagac107761gtcctccttt tactgtttgt aaaaactgct cctgaaaact atgatcgacg ttccggaatt107821agaaggacgt ggggcaatga aaattatgtt cggtctcagc tgaatgccaa catcaaaact107881ctgtttgcct taggaactcc taatccactg gagggagaag aactacaaag aaaactggct107941tgggaagatc aaaggtacaa tgatataatt cagcaagact ttgttgattc tttctacaat108001cttactctga aattacttat gcagttcagt tgggcaaata cctattgtcc acatgccaaa108061tttcttatga ctgctgatga tgacatattt attcacatgc caaatctgat tgagtacctt108121caaagtttag aacaaattgg tgttcaagac ttttggattg gtcgtgttca tcgtggtgcc108181cctcccatta gagataaaag cagcaaatac tacgtgtcct atgaaatgta ccagtggcca108241gcttaccctg actacacagc cggagctgcc tatgtaatct ccggtgatgt agctgccaaa108301gtctatgagg catcacagac actaaattca agtctttaca tagacgatgt gttcatgggc108361ctctgtgcca ataaaatagg gatagtaccg caggaccatg tgtttttttc tggagagggt108421aaaactcctt atcatccctg catctatgaa aaaatgatga catctcatgg acacttagaa108481gatctccagg acctttggaa gaatgctaca gatcctaaag taaaaaccat ttccaaaggt108541ttttttggtc aaatatactg cagattaatg aagataattc tcctttgtaa aattagctat108601gtggacacat acccttgtag ggctgcgttt atctaatagt acttgaatgt tgtatgtttt108661cactgtcact gagtcaaacc tggatgaaaa aaacctttaa atgttcgtct ataccctaag108721taaaatgagg acgaaagaca aatattttga aagcctagtc catcagaatg tttctttgat108781tctagaagct gtttaatatc acttatctac ttcattgcct aagttcattt caaagaattt108841gtatttagaa aaggtttata ttattagtga aaacaaaact aaagggaagt tcaagttctc108901atgtaatgcc acatatatac ttgaggtgta gagatgttat taagaagttt tgatgttaga108961ataattgctt ttggaaaata ccaaatgaac gtacagtaca acatttcaag gaaatgaata109021tattgttaga ccaggtaagc aagtttattt ttgttaaaga gcacttggtg gaggtagtag109081gggcagggaa aggtcagcat aggagagaaa gttcatgaat ctggtaaaac agtctcttgt109141tcttaagagg agatgtagaa aaatgtgtac aatgttatta taaacagaca aatcacgtct109201taccacatcc atgtagctac tggtgttaga gtcattaaaa tacctttttt tgcatctttt109261ttcaaagttt aatgtgaact tttagaaaag tgattaatgt tgccctaata ctttatatgt109321ttttaatgga ttttttttta agtattagaa aatgacacat aacacgggca gctggttgct109381catagggtcc ttctctaggg agaaaccatt gttaattcaa ataagctgat tttaatgacg109441ttttcaactg gtttttaaat attcaatatt ggtctgtgtt taagtttgtt atttgaatgt109501aatttacata gaggaatata ataatggaga gacttcaaat ggaaagacag aacattacaa109561gcctaatgtc tccataattt tataaaatga aatcttagtg tctaaatcct tgtactgatt109621actaaaatta acccactcct ccccaacaag gtcttataaa ccacagcact ttgttccaag109681ttcagagttt taaattgaga gcattaaaca tcaaagttat aatatctaaa acaatttatt109741tttcatcaat aactgtcaga ggtgatcttt attttctaaa tatttcaaac ttgaaaacag109801agtaaaaaag tgatagaaaa gttgccagtt tggggttaaa gcatttttaa agctgcatgt109861tccttgtaat caaagagatg tgtctgagat ctaatagagt aagttacatt tattttacaa109921agcaggataa aaatgtggct ataatacaca ctacctccct tcactacaga aagaactagg109981tggtgtctac tgctagggag attatatgaa ggccaaaata atgacttcag caagagtgac110041tgaactcact ctaaggcctt tgactgcaga ggcacctgtt agggaaaatc agatgtctca110101tataataagg tgatgtcgga aacacgcaaa acaaaacgaa aaaagatttc tcagtataca110161caactgaatg atgatactta caatttttag caggtagctt tttaatgttt acagaaattt110221taattttttt ctattttgaa atttgaggct tgtttacatt gcttagataa tttagaattt110281ttaactaatg tcaaaactac agtgtcaaac attctaggtt gtagttactt tcagagtaga110341tacagggttt tagatcatta cagtttaagt tttctgacca attaaaaaaa catagagaac110401aaaagcatat ttgaccaagc aacaagctta taattaattt ttattagttg attgattaat110461gatgtattgc cttttgccca tatataccct gtgtatctat acttggaagt gtttaaggtt110521gccattggtt gaaaacataa gtgtctctgg ccatcaaagt gatcttgttt acagcagtgc110581ttttgtgaaa caattattta tttgctgaaa gagctcttct gaactgtgtc cttttaattt110641ttgcttagaa tagaatggaa caagtttaaa tttcaaggaa atatgaaggc acttcctttt110701tttctaagaa ggaagttgct agatgattcc ttcatcacac ttacttaaag tactgagaag110761agtatctgta aataaaaggg ttccaacctt ttaaaaaaga aggaaaaaac tttttggtgc110821tccagtgtag ggctatcttt ttaaaaaatg tcaacaaagg gaaaataaac tatcagcttg110881gatggtcact tgaatagaag atggttatac acagtgttat tgttaaaatt tttttacctt110941ttggttggtt tgcatctttt ttccatattg ttaattttat accaaaatgt taaatatttg111001tattacttga attttgctct tgtatggcaa aataattagt gagtttaaaa aaaatctata111061gtttccaata aacaactgaa aaattatcat gagatgtgta tttaaacttt ttcatgaaca111121ttgcttatat aatcattcct tctgtcttaa tgtactacat ggtcttagcc ctgttcctat111181aggattatca tgttctctgc attatagagc cacctaagat gtactttttg ttaaatgact111241catgctggaa tatctggatg gggagatgtt ctttcctaat gtagtcatgt gccacaaaat111301gacgtttcgg ttaacgatgg atcacatata tgatgatagt cccatgaaat tgtaatggaa111361ctgccctata caggtgtacc attttttatc ttttatttca gatttttact gtaccttttg111421tatatttaga tgtgtttaga tacacaaata ctttccattg tcttacaatt gcctgcagta111481ttcagtacag caacatgctg tacaggtttc tagcccagga gcaataggct ctaccatata111541tctaggtgtc tagtaggcta ttccatctag gttctcgtat gtataacctg ggatgtttgc111601acatcgatgt ggtcacctaa agatgcattt attggccagg cgccatggct cacgcctgta111661atcccagcac tttgggaggc cgaggcaagt ggaccacctg aggttaggag tttgagacca111721gcctggccaa catggtgaaa ccccatctct actaaaaata caaaaatcag ccaggtgtgg111781tggcacacac cagtaatccc aactactcgg gaggctgagg caggagaatt gcttgaacct111841gggaaaggga ggttgcaatg acctgagatt gtgccactgc tctccaacct ggacgacaga111901gcgagactgt ctcaaaaaaa aaaaaaatgc atttctcaga acttatcctc attgttaagc111961aatgcatgac tataatctgt tgagagaggg atgaaatcac ctgtagttat agcgctttaa112021gataccattt gaaaaggtta cgttttcctt ttctttgaca cggttagctg tctgaaatac112081agtcaatttt aaccctaatc tcttaatatc aggaatgccc ttacacctac tttggagtgt112141ctggtgcttc gatatagttg catgtaatgt gctctcatct gtttttacct gattcctgct112201cagttcttca catggcatat tgtgtaactc aatctatatt taaaacttgt aagcatccga112261attatttgtt tatggtagaa ctttttactt gcaagtcgtg gtaggagtgt ttgtagttgg112321tactaaaatg tgatgacttg gaagaattaa ttaatgacct atatttgggg actttaattg112381gatgctatag ctgcaatgag aatagaacca gagaactctt gatatgcaag gttattcatt112441ctgtgataat aatgagagga atattcgatg tctctttgag tcagttttcc ttccgatcac112501ttccgcattc tgcagtgaca caatccttaa tcatagcttt cattacaata ttcctttact112561ccagacctca aagactcctc actgcctcca gcatcaaatc taaactcttc tacctggttt112621tcaacgccct acgtaaactt ttcctccttc attccctata gcttggtttt ttttttttta112681tcactgccac tattatctat cacaaatgtc aatcatgacc ataccttgct taagttggtt112741tcccttgcca agagcactgt ttttcctata cctgttgaaa ttttggaaat ccaattctac112801ctcctctctt cccttaagca tctcttcctt cccttctccc caaatttata tttagtcaca112861tatattatcg tactacctac taatcattcc atgtgttttt ttacgagctg taagttctga112921aggcaaccat gccttgtaca gtgtccactt agggttctga ataattaatc atctccccaa112981aatctgaaag ccttctatat accaagcaaa tttgtttagt tatgcagcaa aactcaaatc113041tataaaatca aaaaggaata aggaaataca gattaaacag ttgcagcaaa gactggtgat113101cttaaggtat ttagtcaaag ctggtggtag aacaaaaaca gtagtcttac agattctacc113161tcttgattaa ctcagtggct aattttgcct tttctcaaag ttcttttgca agaacataaa113221gatatttttg tttctttagt tgagtgctgt aactttattc ctttgtgttt ctcataagta113281tgatttggca gtctgccata cgttttttgt tttttttctt cctctttgag acagggtttt113341gctctgtcac ccaggctgca gtgcagctgt gtgatcacag cttagctcac tgcagactta113401gcttcctggg ctcaagcaat cttctcacct cagtctcctg agtaactgag actacaggtg113461caccccacca catcccgcta aatgttttaa tttcttgtgg agatggtgtc ttcactatgt113521tgctcaggct ggtcttcaac tcctgggctc gagcaatcct cctacctcag cctcccaaag113581tgttggaaag tgttgggatt acagacctga gccaccacac ctggcctgtt ataagttaat113641acaataattc atcaactaac ttaaagaaca ctaagactct tacaaaagta ggtatgagtt113701ttagtaaaag tctcaaaaga taaactgtca cttaaggaaa actagagaac atatcattgc113761caaatggtgt ttttcagaga ttataccatt caacgcccac atgctgaatt gggccattca113821ttataactcc aggaacatgg caatcagtaa gagcccacat gtttctttga atacaccgta113881agtgaaagaa tataaagtag tctagttaat attatgttta atcaaggagc acattcctaa113941agatgtttgt tcattcattc tacagacatt tttcagaggc ctgctaagag tcaagcatta114001tgatagacgc catggataaa agcttacaag tcaaccagcg tgggtataaa taatgtgact114061agcactagaa caggtatcat gatggggatt ctgagtataa atattttttt aaaataaatt114121tccccgtgtt atttttggct tttacctccc taatttaggc tttctaaatg gcacagcatt114181tctgaggatg caaacacctt tctacagagc aaaaacagca tttgtataaa tttgtgtctt114241tggggaacca agagacttta aatgtgttta aaccaataat tcagtcaata tcaacattag114301cttacatgta atattctctt gatagcccaa ttttttaaaa cactgtattc ttagaagttt114361ggtttctaag atgtcacttt aagctctttt gcttgttgct tttgtgggat ccacaaattt114421tgttctcagg tacataaatg aaggttagta tagaggataa atattatgat tcttatctgg114481gaaagacagg tgctgaggtg taaaagagag gatcctcgcc acccatgccc cgcaccccct114541cgccccctgc acccacggat gtgcagtctt acctgcgggg ggaaaggtct ccgagcctgg114601cctgctgctc cagctcaggg ttcccccttt catgatggct ttcaaagatt tcttcactct114661gaagtgaaag aaattttggt aagatttgat attgtaggga cctcctaatc tatatttttc114721tctctcccaa tttctgtgtt tgattttggt tttgagtctc tcgataagca aaatatccag114781tttctcatgc cgctttctca ggttttcccc agccactctg gatccattat ggtttgccct114841ttttggcttc ctttaggcac actaaaaact ccttcccaaa agcaggtatc ggccgggcgt114901ggtggcaggc gcctgtaatc ccagctactc tggaggctga ggcaggagaa ttgctcgaac114961ctgggaggcg gaggttgcag tgagccaaga tcacaccatt gcactccagc ctcagcaaca115021gagcgagatg ccatatccaa aaaaaaaaaa aaaagcaggt gtcctttccc cttaatcatg115081aagggctatt catactttac tgccccaccc ctattgattc ataagaggac agtaaagcga115141tcactgcatt caacatctcc tttttttttt tcttgtaaga aatcaaggtc tggaaaagtt115201gcactcgccc tgagaccaga aagtgctgga ggcagagatg aagtaagccc agtgtaggct115261ttcacagatg cgtgataaca agtctaacta aagaagtacc tgggatacta gttttgccaa115321ttcagctcta aaacaatatg gcaatcttat attccaaata tatatatata tatttgtatt115381tatagtagag atggggtttc accatgttgg ctaggctggt cttgaactcc tgacctcaaa115441tgatccactg acctcagcct cctaaagtgg aggaaacata tatatatgtt ttccttttaa115501aataggatgt cagtccaata agaatctaaa ttttagttcc ctctaatata tatatctgac115561tagggaccag ataatatttt tcatgtgtca atatataaaa gttggccagg tgcagtggct115621catgcctgta atcccagcac tttaggaggc tgaggtcagt ggatcatttg aggtcaggag115681ttcaagacca gcctagccaa catggtgaaa ccccatctct actaaaaata caaaaattag115741ccgggcatgg tggcaggcac ctgtaatcca gctatttggg aggctgaggc aggagaatca115801cttgagcctg ggaggcagag gttgcggtga gctgagattg caccactgca ctccagtctg115861ggcgacacag tgagaccctg tctcaaaaga aaaaatatat atatatatat attttttatt115921atattgttta ttaaacaaat aaaaataaaa gatatctcat cagttacgat gtaaatgaaa115981aaattgtgtg tgtgtgtgtg tgtgtgtgtt atgatgtact tcttgtgagt tgtggtcagg116041ctttgaaagc cactatgtat gtgtgtgtgt gtgtacataa aagtaagtat cagtcccagg116101attcaaattc gaaccagtcc cagtcaaatt caatctaatt attttcacca cactaccaaa116161agtctttctt cacattttct atataaagtt gaactaatta atacagcagt gaatgttaca116221ttgtatcctt ttgcagtttc tcatctatga cattactatg cctgaattcc ccactggact116281ttgaactcag tcttactcat ctttggatcc ccagcgtgta atacaggccc ttcataaaga116341gtgaccatta ttactaacaa aatttcctct cactgtgaaa cctgctccca attataaaat116401gaattgtgct ctttcgaact ccgttgatct attgtatgca gggtggatca tagagtctta116461tttcataata acctagtgat ggaaaaataa caatgattca ggagtaggta atggaccttg116521tcatctttta cactgaatga tgagatttcc ctaatttata gattttgtca tgcatgagat116581gccctcagga gcttgcagaa atgccttggc acgttgctct gctgacatgt gtcagatggc116641tggtgtggag gtagagggag tctcctctgc caagcaagtc taatggaata taacactggt116701gccattgagg atgcaatgag aaggacccac agcagatcca gagactgcat tcataaaagc116761tgcacagtat accatgtttt attaaggtat agacagatta gttgtgttct agcatagtgg116821ttttcaaagc ctgaccacaa ctcacaagaa gtacataaca cacacacaca cacacataca116881cacacacatt ttttcattta catcgtaact gatgagatat cttttatttt tatttgctta116941attttttatt tctttttttt ttgagacgaa aggtgaattg tagccaaagt acttttagga117001aattttaaaa ttacacattt tgaaagctct aggaggaaga gagcatattc aagtaaaacc117061tttcttttat tcaaatagta gactaaaaaa ttgaccatag actaactcag caattgctgc117121catatttctt agtgagggat tccttatgag ctccattgaa tgataaaagg atactcttcc117181aaatcagagc aacaatcgtt tcttgtgaca ctgcatcctt tttcccttcc ttcaccctga117241attgccccta gggtatacct aggagaggga gggctggcaa ccagctgctg ttgtgaaagg117301gatgtcattc atggcctgcc ctattgggag gccaatcagg cggaacagcc cctctcccct117361tatggtcatt ttatcctgaa gaaaaagggt ggcaaaaaga tggcaaaaaa gattgctgat117421cacagatcac tgttacaaat acaacaattg gctgggcatg gtggctcacg cctgtaatcc117481cagcacttcg ggaggccgag gcgagtggat cacgaggtca agagttcaag accagcctga117541ccaacatggt gaaaacccgt ctctactaaa aatacaaaaa ttagccgggc atagtggcgc117601atgtctgtag tcccagctac tcaggaggct gaggcaggaa agtcacttga acccggaggt117661ggaggttgag tgaaccaaga ttgtgccact gccctccagc ctgggcgaca gagcaagatt117721ccgtctccaa aaaaaaaaaa ggagggggtg gcaatgagac agggaactgc tctgggtcca117781actcccctca catagcccca acccccatat ccaccccaca aacctccacc tccccacttc117841cagcctctcc agtttcaaag tgacgcttac caacacgcag gctctccagg agcaccttga117901aaggtaactt cttacatctt tccaaaacac ttataatcta attgttcttt ctcccctata117961ttttgaagaa atgcatgctc tcaaaattga aaaaaacgcc tagaggaatt ttgtaaaaaa118021attatatttt tccagtttct ccaaaggaca tataaaccct ttttaaactt agattttgaa118081aagtcccaat agctgatttt caatcgatta ttgaaattgt tttttttttc ttccctaaag118141gggagatacc aacctttgaa caaaattaaa ttaacttttc cccaaagtta aatgatttta118201ctttgtgatt ttaggaatgt gtagaaagtg atttcagttc caactctttt aaagcaaggg118261tatctgggcc aggcgtggtg gctccctcct gtaatcctag cgctttggga ggccaaggtg118321gggcagatca cctgtggtca ggagttcgag atcagcctgg ccaacataga gaaaccccat118381ctctactaaa aacacaaaat tagctgggta tagtggtgcg cgcctgtact cccagctact118441cgggaggctg aggcaggaga atcgcttgaa cccgggagac ggaggttgca atgagctgag118501atcacgccac tgcactccag cctgggcaac agagtgagtc tctgtcaaaa aaaaaaaaaa118561aaacaaacaa gcaaacaaac aaacaaaaac aagggtatct ggtaatttaa ggtgaaagta118621ttattcacta ttataatcaa ttttcttaaa aacaggagct attaggccca attctgagga118681gagaaaaaaa agcagatttc aagggcccgt gccaccttct ttgtttaaag catagagaat118741gataataaaa tgttaaaggt tcagcatttt ctggcattgt aaatttaatt aattaattat118801gtaaattaat tatggaaatg agaaataaag tgaaaaggta tgtcaagtaa gaatcaataa118861ttatcaaaac gttctctacc aaatgggatg caggggagaa gggtgagaag aagggaagga118921aataaaggca aaggcatttg cccacagcct cagtccaggg tgttctacat gacgcagccc118981cagagtaaaa aatactagcc acaggaatga gtggctctgt cttcctctcc agaactgacg119041ggcaaaagag ggggaacctc accttttttt tttttttttt tttggaaact cactgggttt119101tgatatggag aacaggaaga gaatctaccc tagcagcaca ttcacagatg gtttgtctgc119161cctatttgct ccatctccct ggctcttcct agcacttctt ttcctacttt ccattttcat119221tggccgcaaa agccacttaa atattccttt ggaaaactgg gcagtctgtc ccctttttaa119281aaccacaact atttccagga gagttaaagg gctttcggac tgcccatcat tcatgcattg119341tggtgaacta gctcagactg cctctacctt tagtccagat cagctgcctt gggagggcga119401ttcctggagg aaaggatgag gagaggaagg ttttaggaca tcgtatggac tgaagccccg119461ttggagggga agggcaggct tgaggaacaa gcctcagtgt tcctgaggct ttgtggaaat119521gagaaatgaa tagagaaaga taagagactg gatcctaaat gcaattttgc ctatttcaaa119581attttcacag ggtctttttt tttttttttt tttgagacaa ggtcttgctc tgtcacccag119641gctgaagggc agtggtgtga tcatagcttc ctgaagcttg cagcctcgaa ctcctgagct119701caagcgatca tcctgcttca gcctcccaaa gcgctgggat tacaggcatg agccaccacc119761cccagcctca gggtcttttt aatccctaag atcttaaatt tcccagctac tattgttagt119821aatgagttca atttacttac tggttaaatt ggcttttatt attattatta tttattttat119881tttattttat tttatttgag acagagtctt gtgctgtcgc ccaggctgtg gtacagtggt119941gcaatctcag ctcactgcaa gctctgcctc cctggttcat gccattctcc tgcctcagcc120001tcccgagtag ctgggactac aggcacccgc caccacgccc agctaatttt ttgtattttt120061agtagagacg gggtttcacc atgttagcca ggatggtctc gatctcctga cctcatcgtc120121tggactaata ctctaaacgc tattggcaat agtttgttta caggaaaaac atcttcttat120181aaagctgact gcaaatgttt taataaattt gcaaatatgt aattctgttt aaaatatcag120241gaagtgagaa acatgttatg tgataactct ttcccattcc cgaaccaaga aaatgtaaag120301gcagtaagtg tgccaaggac actgaaagga agctgcccgt acatctttga atcttctcag120361gctgtttggt ttcatctgat tttaagctcc atggataaat ttcattgtaa caatttttat120421gtctgtaaat cttaacccat aaataaaatc acaaatcaga aaagtacttt attaggccag120481tctttgtcca agcaaatttg gtcccaaagc tagtttacaa ataattgcca cacagctaca120541aggccagtgg gttgactatc gtagcatcaa tggtgtgggc agggctgcag cctctggggc120601agcattagcc ccaactgaca gagggtatag gtgctcttaa caatctatga gaccccccac120661aacctggact cagctgtcat aagcctttac ttcttatgtt cttcctaagt actttatcgg120721gccaacaaat tcatcccatg aggaatccaa gatggaaacg tcaaaactat ctttggtatc120781atgcttcctc cccctacctt ctctgccttg atcccctcct tcattctaca cattttctct120841gatagtcgtg ttctagccac tagggagaac gtttcagtca atgggtatga tttctgctca120901cctctttttg ccatagctat tagtaagctc tcaccactga tgtctcagct gactgtgaca120961actgccagcg gctggtcagc ctgcctgcct tcatctaacc tgctctttac tgtctaccag121021agtcagcttc gtaatacaca ggtgccctcc tcctcctgtc aacattcctc aaccaaagcc121081tcagtaaact gtctctcatc taccttccca gcattcttga gccattccca ggatagccta121141ggccctttag acctctgaga tgttataccc ttcctcattc tggaatgccc ttcagtgtct121201tacccacctt tcagagttct atttattctt tttttttttt tagatggagt ctcactctgt121261cacccaggct ggagagcagt ggcaccatct tggctcactg caccctctgc ctcccaggtt121321caagtgattc tcctgcctca gcctcctgag tagctgggat tacaggtgcc cgccaccatg121381cccagctaat ttttgtattt ttagtagaga cgaggtttca ccatgttggt cagtctggtc121441ttgaactcct gaactcaggt gatccaccca cctcagcctc ccaaagtgct gggattacag121501gtgtgagcca ccacgaccag ccttatttat tctttagagt tgaattcaaa tgccacctcc121561tttgaaagcc atccttgatg tccttgtgag gaattacttt ctctaccaca ttatatattc121621cttttactgt agaaacgtca ttctgcttta tattataaat tattagaaat atgttgtttc121681ccccatgaaa gtttcaagtt tcctgagttt aggcctgatg atacaatcat tttcatatga121741ctcacagcaa ttgccttagt atatattaaa ttgagctgaa taagccatgt acccagttga121801acacaccaaa tattttagtg atgtcatttc tttattggtg aaagagcaag gccaacgttg121861atcttaatgt tattctctct tttatcttat tcagctccct caacaaaaat acattctcat121921agattaatgt aatcaccacc tcactcctct caactttaga ccctatacta gcctgagaaa121981tccagatcca acttaatgag ttctccttta tcccaagtcc tcatgaccta taaatgtaac122041ctctaggaca atgttacaaa gagtgagatc tttataccac ctgcattctt gtcaccaaac122101gtgtaagtta aaaattcaga ttctgagtgt ggtgactcac gcctgtaatc ccagcacttt122161gggaggctga gccaggtggg tcacctgagg tcaggagttc gagaccagcc tgggcaacat122221ggtgaaaccc tgtctctact agaaatacaa aaattagcca ggcatggtga caggcacctg122281taatcccagc tactctagag gctaaggcag gagaatcact tgaacctggg aggcggaagt122341tgcagtgagc tgagatcact ccatggcact ccagcttggg caacaaagtg agactctgtc122401tccaaaaaaa aaaaaaaatt tagattccag gacccgaccc tacacctccc taattagaat122461ctcagagagt ggggccctgg gaatctgcat aattcataac cttctcagag ctctggtaca122521caagaaacca tgagaatctt tgttctggaa acttcagaga acttggctga gggccacccc122581aggatttggt ggcgtccctg aatctcccat tagctctgac actgactaga cttcaaatat122641cacagaaggc aagcattgaa gtgtgtttat attcaaatag ttttcttgtt gagaatcaga122701aatattaata aaacttttgg gagtcaaagt aatgagaaga caaggaactg aacttgcccc122761ctgatctgtt atcatttggc agtaaggtac atattcaaca ataggataat tctgtataag122821acctgaatct gaccttcttt catctttcac actgacaatt ctgtctctaa acacaggatt122881aaatgaggaa ctaaaattca ccaagatcct gctaggtgtc aggtacagtg ctagctgctt122941ccacacattt ctcatttaat cagccacctg tgaaattgct atgatttatc accatttggc123001agaaaaggac atttagggca caagagatta aataagctgc tggttgggta cattaagtat123061taataaataa tcagatagat aagttaggta gttaagtaag ctgccagatt agtaaacagc123121tagtttcaaa tcccagctcc aacatttact agttgtatga cccttgggga aactcaacct123181ctgagtctca tggcactgct gataaaacgg aaaacatcat cctcacaagg ttctgaggac123241tagggatgga ctcaggtaca cacagcaccc agtacaatgt ctggccttca gccagtgata123301gcaacccttc actcacctct ccattccctt ccagcccctg cattcaaaaa cttttattta123361tttatttttt taaittagga ggctctttgc tcagaatcct gaaaaggctt ttgttacttt123421attttttctt ttttttcatc ttctgggagc acagaatagg cttctgctcc tttaaataac123481tttaacaggc accaaaggaa cactgctagc tctttcttaa ttctgtaggt ccacatttag123541gaaaaagaaa ttgtcagcct ctgacttatt tccagcttac aaaaaggctg tgatgttggc123601agcccgggga aagcagttcc cgtgagtcat gctttcacct ttcagccagt gaagaacagg123661aaatagtcac atcactattg ccaacaagca cagcgaatcg cttccaccac cgggctttcc123721cagatgacgt cagtgagcca agtgcagggc atcacccttg ccagatggcc ccggaagagt123781ctcagctgcc ctgtcaagtt tagcttctca agctccccag aaccagcatg gcaaggatca123841cccctccaga aaaggaaatg atttctctga tcatgatcaa accatgtcat aattttagct123901gtaggtggtg agtatcagtg actgtattat agatggtttt ggttcacagc tatttttttt123961ctcggtatat ttactctcaa gggcaaaggg gtggcattta tcacaatgct atgattcact124021ctactagact ggctgggttt catttcatct ttgagttcta gacctaaggc caaaaggatg124081tcagaatcgc cacccagagc tagatgcatg ctcaatgcaa cctggccatc tctctcggac124141agtggccact aaacacaagc tgcaatgatt attgttgatg ttagtcaatt gatttgtccc124201ccttttaata atccatgatc cacacagaca tgaatctaaa cctttttttt gaacctatct124261ttttcttact agttttctta catattttgg aataacaatt tccctggtta taatacacaa124321tgtgtgaaac actaattgca tttattggtc ctaaattcat tcccaagtct aggatttggg124381gatttagtgc acaaatccac tttcttcctg ctcatgttgt tcatgacttt atggattctg124441cttacatttc ctcccaaagc cttggtcttt ctaagcagaa atctgaccag cctctgttcc124501tactctgctt cctccaccac cttgactgtt aacatacact gttgtgggag aagcttttca124561ttaaatacgc aaacaaatca acaataagga agaaaacaac tgaagcacag aaggatgatt124621gtaacatgga cttgtgcttg tttaacagta cccatactgt ttggtgagtt gcctaaatac124681agagggagat ggcaacttaa caggatgggt ttggagtctg aattaaataa acaacatggc124741aaaagaagga agaaaccaaa agttgggtga ctagggcttc ttggattcta ctcaacactt124801tccacaccta caggcctctg attctatccc caccgctgct cctacactgt ctatgtttct124861cttttacaac aacaacaaaa aaatagcact tgtttactgt tcacaattat tgaaataaat124921cactctaatt tggattcctt tatatgagaa cttccatatg cttaaaactc ccgtagcatt124981tttatagtgt acaggtcata aacatgttgt ctgaagatgg gcaaagtagg tcgtagagat125041aggaagtgag ttcacatcac ggcgtgagtc aaggcagcag catatgagct caggggccaa125101atctgagctg tgatcatgtg acacagtcct caccttcaga gatgacattc tcccagaagt125161ccagggtgca gaaatggata ggctgatgtt cacttttgaa gaggaccaca atgaaaccct125221tttaatatta ctcaatgatt ccacagacct cctgggtgtt aaatcaggtg aatctatttt125281taaaaattgc tatttacttt tttaggtggc tgatcaggac agtatgaaat ttcatacagt125341ttcctaactt gagaaaacat ggtgatgcaa ttcctccaac caggagggat ttatggacag125401cggtggctac gtcctaatct gcccagaata caggatgact aaacaaattg gcaaacggac125461gcagctttct ctctctctaa gaaaagtctg ctgagaaccc tcgttcccac tctgtttctg125521cctccaagaa gaaaagccta aaactcactt tcttccggac tctttcaagg tcagtggagt125581tcctctgggg ttcatattca gatactttgg ggattgatga tggatcataa atgttgctga125641agttcatttg agcccatggc ctctggtttc agaaccattc agccagtcaa atatttaaat125701tttagtgagg caggggaaag ggaacccctt cgggggctgc tatacagcaa cttatattca125761caattcacaa ttaaatacac ttcagtttct aaatatatgt tactttaaaa ttatacagtg125821cttagcaatt ttcaaatttt cattttgtgc tcaaaatatt ttcaggaggt agctgttgtt125881atacccattt gtacaagcaa gaaactgagg tttcaagagg ttatgttgct taaacccaga125941tctgcctgat tccaaacctt atgctttttt taaacttcta ttttgaaata attatattaa126001gtcacatgag gttgcaaaga aatggaaagt ctcatgtccc ctttctccaa acctcatcca126061atgttaacat ctaagaaatt gacactggca caatccacag agcctattca gggttcacca126121gttattcacg cacttgtgtg tgtgcatgtg tgtgtgcagc tctgtgcaat tttgtcatgc126181tctttttttt tttttttttt gagacatagt ttcgctctgt tgcccaggct ggagtacagt126241ggcacagtct ctgctcactg taacctccaa cttccagttt caagcaattt tcctgcctca126301gcctcctgag tagctgggat tacaggcatc tgccaccacg cccatctaat ttttgtattt126361ttagtagaga caaggtttca ccatgctagc cagactggtc tcaaactcct gacctcgtga126421tcttcccacc tcggcctccc aaagtgctgg gattacaggc gtgaaccacc gcgcccggcc126481tgtcatgctc tttttataca tgaaccatac actgttctgc caattttaaa tatgaaggca126541gattacagaa ataaataaaa tgatttttct tttactacaa cagtatctac caataatcac126601atacatgacc aaatagcttt cacttctagc tgccgttaag aagaaagaaa aggatgaaaa126661gaaaaaaaat cctataaacc ccagttcttg aaagcattag tctgtgctat gtgccttagg126721tacagattaa ggaaacacaa tttgttgatt tattgataat tgtgacagca atcttccctc126781ttgtcaggaa gttctataag taaaataaag gtaattttac cttgacttca Ratttagtct126841catcatcttc ctttccccgg gagttcaact ctgtctccgt ataaggttcc tcagacgttc126901tcagaggacg agctagaggg actaagagaa cctgccatta gtgtggttat ttaacttata126961aactataact cagtgcactt tgtctgattt ggacaaatag ctggaccacg tcaatgtggc127021taactataaa agctcacttg agctgctgcg ttgatttcct agggctggat gaaattggag127081gtgaaggaga gacacagagg agaaatagaa tccttgactc cagggacttg acatttcagc127141agaagagaaa aaagtcacac ccagcaccat atgaaacatt aaactacaac aaatctgtac127201atatagcaat gtggtaaaga atagtagatt ttctgtcatt cccattttta aggcccagct127261aaaaggtcac ttttggctgg gtttggtggc tcacacctgt aatcccagca ctttgggagg127321ctgaggcggg cagatcacct gaggtcagga gttcgagacc agcccggcca acatggtgaa127381atcccgtctc tattaaaaat acaaaaatta tccgggaaca gtggcaagtg cctgtaatcc127441tagttactcg ggaggctgag gcaggagaat cacttgaacc tgggaggcgg aggttgcggt127501gagctgagat tgcgccactg cactccagcc tgggcaacag agctagactc catctcaaac127561aaacaaacag acaaacaaac aaaaaggcca ctttcctcat gaagtcttcc atattacaaa127621ctttatggat tcttttatgc actgctgctt tggcatgcat catgtgtaca gcataatgtt127681gcacttgatg ttgttcttgg attcaaagac taaattctag gtactacatt gtattgaata127741tattttccat tataaaggta attaattttt gcttattaca gaaaatctga aaaacactaa127801actcttaacg ctgaagcaca atcacttagt atatttcctt acagtcttct ttcaaatgct127861ctccctcttt ttacacacat acatgtacac acacaatcat actatgattg tattgtaaga127921ggatggccat gcctgctgct cttgctcttt tctcttggcc actctatctc ccttctcccc127981acctgggaaa tatcctttct tcaagctcca tggccatttg gtagtaaaat tgggacttga128041gaggagaagg cctcaaggct tcctaaccca ccttaccagc tttgccaagc attgtgggtg128101atggccacaa ggctaataga taagaggtac tttgaattct tatttgtcac agtcaccacc128161cttgcatatg ctggtccctt gggaaactca caggagacat gattaatccc aggcaggatt128221tgagcatttc tttctttctt tctttttttt tttgagacag agtctcgctc tgtcgccagg128281ctggagtgca gtggtgtgat ctcagctcac tgcaacctcc gcctcccagg ttcaagcgat128341tcttctgcct cagcctccca agtagctggg actacaggcg cgcaccacca tacgcagcta128401atttttgtat ttttagtagc gacggagttt taccacgttg gacaggatgg tcttactctc128461ttgacctcat gatctgcctg cctcggcctc ccaaagtgct gggattacag gcgtgagcca128521ctgtgcccag ccaattttag catttgtagg tcccaagacc aaaatgccat tcattgaatg128581ccaccaatat atcaccctga ttcttagcta tggtagactt gatggaggtt gaccatctga128641tctccagagg ccccttccaa cccttccatt ctgtgagcca actggaagca gcttgggctt128701tctatgggtt tttcatagat gttatgttga aaatcgcaga aaattacact gctaccccag128761gttatacata ttaccattaa tgctgctttg taataacaga caatcctttg ggctcctccc128821tctctgtggg atctctataa agtgagtgat tccaggcaca ataactagat gctagaaatg128881catgcactat aatttgtgac accatgactg agaagcgcct gtccttgaca ctgtaagtag128941agtgaagcag tgaaaggcgg ggccacagaa gccacactgc cagtgttcaa accttgctct129001tccatgcacg agacaaacat gattacagtc acctctgtac cttacctttt tcatctgtaa129061agtagggaaa aatgagaaat cctacagtaa agggctgtga taaggcttta atgagttcat129121ttgtgaagaa tgtagatcat atacaatgca taacacattt tagctattat tgccacatgg129181cactaaaaag ttttttcacg ttccttatga acttcagagg tgttagaagt tgtagccaag129241gcatccagct aacaagagtc agagctgaaa ttccagctct taagcccctc cacacatctt129301ctttatactg tgaaatacaa ttgcttatct tggcacagac tcagttacta aggaatcaga129361caaaaatgtt tgaaaatcct tttagtgact tgctggagtc cacactcagt agatacttac129421caaaaacaaa agtgcaggat tgttctgcaa aacgagctag ttgtttgact taggtcaatg129481acaacctgtt cagacttgac aaagacctat ttattctggg aaggagtgtt atctattatg129541aaatcttgta tttgaaaagc tgagaaacaa ccctgtaatt cctgctttat ttacttgaaa129601caaacatatg tacctggaaa caacgaatga ggccaagtca tagatgtgaa catagtttag129661cttgaggaca gacgaaaggt caagagaacc aagttctgtt tccaatcatc taagaaggat129721gtctctgtgt atgtttgggt atgtctgtgg tatgtgtgtg caagtgtgtg agagtgtatg129781tgtgtggatg tgtgtgtgtg tgtttgcaga taaaaattca ggaaagaaat acactaaatg129841ttatcaaggc ttacttctaa aaagtaggat acatggtgga agacaaggga tcgtaaattg129901tactaaatgg agaattacca aaacacccca caattttcat ataaacaaaa actgaaagaa129961tttattgcta acaggccagg catggtggct cacaactgta attccagctc ttagggaggc130021agaggcagga ggatagcttg agcccaggag ttcgaaacct gcctggacaa tatagcaaga130081ccccgttctc cacaaaaagg aaaaaataaa gacaagaaaa gaatttgttg ctagtagact130141ccccaacaat aaatactaac agaagctctt tattccgaag agaaatgaca caagatagta130201attcaaatct ataataagga atgaagaacc ccagaaatgg tgaataaggg ggtatgtaca130261cacacacaca cacacacaca cacacacaca tgcacacaca cacgtatgta tttctcttaa130321tttgatacat gactatttaa agcaaaaatt ataataccat agtgggggat taacatatat130381agatgtgata tttatgataa gaatagcaca gaggatggat ggggagcata tggaagtatg130441acattgtagt atgtagtatg atttcctata ttttgcatag aatggtatga aactaattca130501atagatcatg acaagttaag gatgcatatg gtaatcccca gtctggtgaa aaacagtaca130561aagagatatg ataacaagcc aatagaggaa ttaaaacaaa atattaaaaa atatttacta130621acccaaagga aggcaggaaa ggaggaaaag aggaataaaa agcacatgag acatgtagga130681taacaaaaca ggaactctaa atccaactat atcaataatg atgatggatg taaacataaa130741aatctaatca ctccaattac aaggcagagg tcacagtgta taaaaaggca agacccaact130801atatgctgcc tacaacaaat atactttaaa tacaaagaca gaagaataga aaacaaaaaa130861aatatgttct gcaaacacta agcatgagaa aactggaatg gctgtgacaa tatcgcacaa130921gatagacttt aagagtattt ctagaggtaa ggagggaagg agagacattt cataattata130981aaagagctaa tatatctgaa agacataaaa accatgaata tgtatgtgct taatgacaga131041ggtccacaat acacgacaca aacaaatgac atgtacatcc tgcccaaggg cagtttattc131101caaggatgta cagttgtttt aacatttgaa aacaaatcat tgtaatttac catattaaca131161aataaagaag aaaaaccata tcattctctc aatacatgga ccaaataagc atttgaaaac131221tcaataatca ttcacgataa aaactctcct aaaaaataga aatagaagag aattccctca131281atctgataaa agacatctgt ggaaaaccta tagcttacat catacttaaa gatgaaactt131341gaactctttt cctaatattg ggaaaacaca cagatgtctg ctctcaccat ttctatttga131401cattgtagtg gaggtcccag tcattataat atgacaagaa aaaaagtata aagattgaaa131461cagaaaaaag taaaagcatc cctattcaca gatgatagga ttatatttct atatagaaat131521ctattcctat tcttaattat atatggtaaa ttccattcat tatagggtta aaaaaatgtt131581aaatgcctaa ggcctttaca ctcaaaacga ctgcattgtt gagagaaatt aaagatgacc131641taaaaaacat aagttataac atattcagga attggaaaag tcaatattgg taagataata131701gttctctcca aattagctca tatatccagt gtaatcccta tcataatccc agcagaaatt131761gaaaggtgat tctaaaattt atggaacaat gaaaaggacc taaaatagcc aaaacaacct131821tgaaaaagaa caacgttgga acatcgcatg acttgatctt aaaggctgac taataagcta131881tggtaatcag gaccatgtgg gattggcata agaacttacc tattttttaa atctttgctc131941aaagaaccaa ttttactact ccattgctaa taaaacatgg gccttttaaa ggtcctgaat132001ggggtctatt ttatgctgtt attattatgt tattattatg atgcatttgt tgttgttgtt132061gttgttgttg agacagagtt ttgctcttgt cgcccaggct ggagggcaat ggcgcaatct132121ctgctcactg caacctctgc ctcccgggtt caagcaattc tcctgcctca gcctcctgag132181tagctgggat tacaggcgcc cgccaccatg cccaggctaa tttatttata tatatatatg132241tatatatatg tatgtgtgtg tgtgtgtgtg tatatatatg tgtatataca tatatgtgta132301tgtgtgtgtg tgtgtgtata tatatatata tatatttttt tttttttgag acggagtctc132361gctctgtcac ccaggatgga gtgcagtggc gccatctccg ctaactgcaa gctctgcctc132421ccaggttcac gccattctcc tgcctcagcc tcccgagtag ctgggactac aggtgcccac132481caccacgcct ggctaatttt ttgtattttt agtatagatg gggtttcacc gtgttagcca132541ggatggtctc gatctcctga cctcgtgatc tgcccgcctc aggctcccaa agtgctggga132601ttacaggcgt gagccaccgc gcccagccta atttttctat ttttagtaga gatgggtttc132661aacatgttgg ccaggctggt ctcgaattcc tgacctcaga taatccaccc gccacggcct132721cccaaagtgc tgggattaca ggcgtgagct accgcacccg gcctttatga tgcattttta132781ttattccttc agtagattgt gtgtttctcc ttgcatccag gcacttggtg ttatctaagt132841gtttatgtct tccatgtctg cactatgcta tatctgtagt ttgttttaaa tagtatctgt132901taaaacagcg accattatcc attgtagaca accagtcaca gtcctcatgg tgctgatgaa132961acacaaaagc cacaaagctt cttttcctca aataacctac ccgaggtgga gggctggctg133021gtttttgatg acacccattt tggtgaagac tcaggatgtg gggccacagg ttgcactgga133081cgagtctgtt tggctgccag tttcatcaga ctcacttgcc tcttgtgaaa tatttcctgg133141acatcatcca gcctctgcaa aactttctgg gctttggcct acagtaacaa aagcaaatca133201tgatgaacag gtctctctgt atacagcctg aggacacgaa gcattccctt tctcccacct133261tcccctactc cccccatccc tacctccctc aggtgacccc ctctgggcat cactatgcaa133321gtcgctgcag gtcctgccat gctccagaat tgggtatcta aggattagcc tctcctactt133381gagacccttg aggacaatga ctacatcctt tcactatggc gtctccagtg cctggaacac133441cctggcacag gagtttgaga ccagcctggt caacatggtg aaatcacatc tctactaaaa133501atacaaaaat tagccgggtg tggtggctgg cacctgtcat cccagctact tgagaagctg133561aggcaggaga atcgcttgaa cccaggaggc agaggttgca ctgagccgag atcatgccac133621tgcactccag cctgggcgac agagcgactc catctcagaa ataaacaaac aaacaaacaa133681ttagaataca atgtggcttg tgtcatgtta gacagagcaa agaattttgg cctgagtcca133741tggatggact tcagggcatt ccccagaatt acacaaacag ttagacaggc tggatataat133801ctgtttgttc ctccactgca tcttctcttc ctttctttgt gcccaggaag ctgattaaaa133861gaagctccta aaccagaggt gcagacaagg tgatgatgtg gctctcagag gaaggtgtgc133921tacctacaac cctgctggct tcatggaaga atatgcttct caaatgcaaa tccaatcaag133981ttatctccct gcttaaatcc aaactcgctc atgtggccca caaagcctac cttgcctgcc134041tctctctaac ctcacccaaa acacacttcc attgctctct aggttccagc accctgacct134101tttggtctgc actgtgccag gctccctcca gccctgaagc ctttgcacat gctgttcctc134161ctgtctggaa aggctctccc atcttgtcta ttcgttctcc aggctcaagt gactcttcct134221gagagccttc tctgacccca gtccaggtca agttcctctg tcacatgcct gaccctgcat134281ccctccttga cagcacttat atcagcttgt aacacatttt tgtgtgatta ttttgttaat134341gtcagcctct cccacaaact gtaagctcag tgagggatgg aagcatgcct atttttaatc134401atcatggtat cctcagcact cagcacagca catggtacat caggaatgct cataagcatt134461aatagagaaa tgactgattt gagtcagacg aagactcagt atgccaggac gttcaggccg134521agagtctaag aggccgccgg agggcttcgg aaccagtgag cccactcaat tcagcctgct134581cagtaccctg tgtgtacttt atcaggaaga aggtacagtc cctccctccc ctatccgttt134641cccaaccaca ggatcaaaat aacccggaag cattaccttt gcatcgaggg tgagcagcaa134701ctcaaactcg ttgtaaaact ccttggggct gagcaacggg tactccttga ctgtgcccag134761gaatgtcgca atgtcgttca aggcgatatc aaccccttct cgagactggc acttgtctac134821agcttgggaa gccaagaggt agattcctgc ctcacaccat tggctgacct tttggaaaga134881aacagtgccc tgtgcacttc gcctgaccac aactcagagc caccgtaatc ctcagcaggt134941ctgagcttgt aaggtgtcta caaggattcc cagacaatgg gaaattgtca tgggacggca135001tcgagtttaa ggggtctaac cactgtaaat tacactatga gggggacaaa cccaaaccag135061ctgatacctg tccacttctc agggaagtca ctcggtcagc aaaatgagtc tcttccatta135121acagtaattg ctacatctcc aggaggagac agctaaatat atatttaatt aaagacaggg135181tttcactctg tcacccaggc tggagtacag tagtgcaatt atggcttaat gcagcctgga135241gaggtctacc ccaggctcag gtgattcttc caccttagcc tcctgagtag ctgggactac135301agatgcatgc caccacacca ggctaatttt tccttccttc ctcccttcct tccttccttc135361cttccttcct ctttctttct ctctgtctct ctttctttct ttcctttttt tgagacaggt135421tttggccatg ttgccgaggc tgctctcgaa ctcctgggct caagcaatcc tcccacctcg135481gcctcccaaa gtgctgggat tacaggtgtg aggcactgca cccacccagc cttatagcta135541aatatctctt aggctggtct aaccatagag aaatgtaatc aatggctttt ggggtttacc135601tgctagtcca ctcttcttgc atccgaattg gttaccagaa cacagggtga ttaataagac135661attagacctg gcccttacat ttcctgggag aagggcatgt cccttttaac aaaaacacaa135721ctttcatctt tggattccca ggtgatccct atttgcattt actggcgttt gtctttcgta135781aggaagcaag aatgcaaagc tttgtaactc agcacagcga tactcaagag tttctggatg135841ctgggaggac attagatagg tgatgagttc taattattca atttttaaaa aagactcatt135901ttctttgctc ttttgaactc cactgagaca cttgaacaga aagacaggga gcccttatgc135961tacctgaaga gttatatgaa aagaagtttc cagtgccaat acctctgcat ttccatttac136021catgtgacct gaaaagcaat ataaagtaac tatacagaga aaaaagatca aaatgcaaca136081cgccaaagtg gttgtctttc taagtgggaa aatgataggc aacttaagtt tttgtcttat136141ttttttccta gattatttac agtgaatatg taccacattt agaataataa aaaatcataa136201agatatttca gaattaataa ttaccattat gtagggatgg gggatagtgg gatatgtacg136261tgcccatgag taaccttttt cttcctacat ttttggattt ccacaataat atgaactcat136321gctttgatat atgctgtgaa aactttctct ttacacatca tgcccagatc tgcaaaaaac136381attaggctgg gattttctgt agagttacta tggctacttg ctttctctct ctctctgtct136441ccctctctct ctctcaaaca cacatgcaca cacacacaca cacacacaca cacaccaggc136501ttataatctc tggagcaaaa atggagttgg gaaaacagca gctgatccca cagcgagctc136561agcacacaga gcaggctgca caccagcccc ttcggagcta cttgcttctg aaacaactat136621atttcattga cattaaaatc cctttagcaa tgggatgagg taagcgcctg ggtgggtgcc136681ccctgccatg caagaggaac agctgtgggg atggagcatg ctgactcatt gccgtcagcc136741acatgctgcc tgggaccagc tcacagggaa gactccagaa accgctgctc ctgctgactg136801ggaacatacc ctagaggtca cctccaaagg gcacccctct ccttgtgggc ccctggcatg136861cgcccttgct gtctatcctg tgaagccttg gtgtggaatc tggcaggcct gactttaatt136921ctggcttccc ctgtgtgcac catgtgtggt cttgggcagt catttacccc agggtttctt136981ggtgacatcc ctgcaccacc tgcaccagaa tcatttagac actttactaa aatactagtt137041cctgggcagt attccagacc tatcgacgct gagtcttcag ggcagtgcat aagggaatct137101gccatataac agctcactag gtgattctcg tgtgctacat tttgagaccc agcagagtat137161cagtttctgc ctctgcacaa tgaggccatt aataccttcc tcagaggttg tcttgaggat137221tataaataga tgacataatt atgttcctgg taggaatgca gtaggtgctc gatacatggt137281agggggtata aaatggttgt tattacttaa gcttctccaa aaagagtcaa aaccctttgc137341ctttatatga gggaagcact ctgcaaatat agtgcttggt tctctgtaca cctgaaaggg137401aatcaagaag tgttcccaca gggccaagcc aaaacacact cttaaagtcc ggctccacac137461agatagaaat gggcttcagt taactttaat gggatgtggt gggatggcca gagcactttt137521taccttcgtg ccaggtatac ttctacaccc caggatctgc acagttttta atgcctctcg137581aacatctttt cacataaagc actcaagcct ctcagcaatc acacaaggaa gggaggacga137641gtatgatgga agcttcttca cagaaaatct tgcagacatc atgttcttgg ctgtgttttg137701ctcaccttgt ccagctgtct atgaaactct aaggactttc ctaaaatgtc ccattttttc137761ttgtttccat tgatgaaatc gtcacagagg tgcctgagct ccacacaccg gggcctgatg137821gcatctgctg cataatggtg gctttggatg agctggtccc caaccagtgc cagcagcwgg137881gccttttcca ggggctcctg caaagtgaac acccacagcc aggcgtcaga agtcagagca137941tcatgaggct gagagctgcc tggtactgtg tgctccaagc ctggagggag gctgtggaga138001tgctaaccca ggatgaaggc tggagaacct gagaaagctc ggaatggttc caggcccagg138061aagttaagcc tggcccagag ttgtccacat gctgaacaac agcagtcatt cattcaaata138121cctgttgagt tctgggctag acatcgagga tatagtgtta acaagcccaa aattttcaga138181ttaatggaga attcagatat caactaaatt acacaaatcg ttaaattatt acaattgcaa138241taaactctag ggcagaaaag catggagtgc acataataag agattttgaa tacccctatt138301aactaaagga acaagaagag ggactgacac ctgtccttga ggagagtggg gggtgagctg138361aagttgaaac actggtgaaa attggatttg gacaactcaa aggtggtcat gacacttaag138421aaatatgctt gtctaggctg ggcgtggtgg ctcccacctg taatgccagc actttgggag138481gccgaggtgg gcggatcacc tgaggtcagg agttcaagac gcgcctgacc aacgtggaaa138541aaccccgtct ctactaaata caaaaattag atgggcgtgg tggtaggtgt ctgtaatccc138601aactactcag gaggctgagg caggagaatc gcttgaaccc gggaggcgga gattgcagtg138661aattgagatt gcgccactgc actccagcct gggtgacaga gcaagactcc atctcaaaaa138721aaaaaaaaaa aaaaaaaaga aatatgcttg tctaaaccct ttcccaaagc ctgtaagggc138781cctgtctaca ctgaccctgt ctgctcaatc acatttccta cctctttctg catgacactt138841cgctctaacc acacgtgcca agttttcctg tttgtttaag cattccttca ttcatccttc138901tcatattatt gagaacctgc tatttgccaa acactgtcat aggtgctggg agttcattgg138961taaagaaagc aggcaaaaac ccccacctca tgaaatgaag cttacatttt aatgggagac139021agaggcaata aacaagtgca tgtgtaggtc atatggtatc ttagacagtg atgagtatgt139081ggagaaaaat tagatggtgg ggagggcagg gagtgctgga gctagtattt taaatcggat139141ggtgagacag tctccctgag aaggagtact caagctatgc agaaaagact tcacatagaa139201agcctgagac taggccgggc tgtggtggct cacgcctgta atcctagcac tttgggaggc139261cgaggcaggc ggattgcctg agttcaggag ttggagacca gcctcggcaa cacagggaaa139321ccccatctct actaaaacaa aaaaaattag ccaggcatgg cagcatgcgc cgatagtccc139381agctactctg gaagctgagg caggagaatt gcttgaacct gggaagagga ggttgcagtg139441agccaagatc gtgccactgc actccagcct gggtgagagc taggctctgt ctccaaaaaa139501aaaaaaaaaa gagaaaagaa agcctgacac tacagcctta gaaagaaaga cccgatttta139561agattggccc tttgttggca tctaggaact tagatttttg ggaaggtttc ctccattccc139621tgatgtgaat ggttcatgat ccctgaactg tttgtgcaaa cagtatggtt tatggtgatt139681acttgctttt tcttctggga gtctgaaatc ttggtacttg ccagacagaa gctgctgaca139741tgaccagcca ccaataaaac ctctgggcat tgagtctcta atgagctccc ctggtagaca139801acatttcaca catgttgtca caacccacag acgggggcag gaagtatgtc ctgtgagact139861cccacaggag aggattctaa gaagcttgtg cctggtttcc tccagacttc acctcgcatg139921cctttctcct ttgctaattt tgcttagtac tttctcatct taatagatca taactctaat139981acagctacat gcagaatcct cctagtgaat cttcgaagaa atgtgtgcat ggtcttggga140041gcgctctgca tacaagctga gacctgaagt cagggacaag ccgtgcagta cttggctggg140101aggtgaaggc gtgtttgaca agtttgggta gcaggaagga ggccagtgtg gctgcagcag140161agggagcaag aaggaaatga gtggaagact aactagagga aagagggggt tccatagccg140221gggtgagagg aaagcccctg ggtttggagg gaggatctcg atcatgtttt tgaaaggacc140281actcccggta cagtgtccag aataagagga aatgcaggga gactcattaa ggggctgctg140341caggaatcca gccgagagat acggcttacg gctggtcacc aaactagctc ctgactcgac140401ccttctctgg attgttcttc cctgggtcat gcagagctga gttcctgggt cacctcctca140461cagcgcttcc ctggcgacta tatcttaagt cattetctac aacctattcg cccagtcacc140521taggccctct cccacacttt aattctttaa cagcattatc tctatctaaa aactattttc140581tttatttact ttaatgtaga attcctccct cctggctggg cgcggtggct cacaccagta140641atcccagcac tttgggaggc cgagacgggc agatcatgag gtcaggagat cgagaccatc140701ctggctaaca cggtgaaacc ccatctctac taaaaagaca aaaaattagc caggcatggt140761ggcacacacc tgtagtccca gctactcggg aggctgaggc aggagaatag cttgaacctg140821ggaggcggag gttgcagtaa gctgagattg tgccactgca ctccagcctg ggcaacagaa140881tgagactctg tctccaaaaa aaaaaaagaa ttcctccctc ctccactcac tcccaccaaa140941atgtaagttc catgagagca tttagtaggc atgcaataaa tatttgatca acaaaataaa141001tgaatgagcc aatgagctac atgatgcggt gacctgcttg gctggaactc tgtgaagcaa141061tcagcacaga tgactgccac attccaaaag gtctccagga gcagagagcc catgagcccc141121cttgccagcc acactaagca tccagtgcat cactgcactg ctttagctgt ttacagtaac141181acaaggagtc acggtaactc caggtgcgta catcttgccc ctctcttaac ttgcactggt141241ttatggtttc aacaatttcc aaaccccttt cctcttaccc tcccagtcat tcacgaagcc141301ccgcagggac cgtcgccttc ttaatgcctt tcaaattctg accccatctc tgccacctcc141361ttgtcactgt ctgctcaggc ctcatggctt ctcatgggga caactggtct ccctgctttt141421cttcaggctc tccttcaaat catgctccag actgctgaca aaggagcaat tccaacatat141481cttattgtgt ctacatcact cccaagcttc aagccctttc ctgggcgccc agggtcttca141541ggagcaagct taaactcttg agcaatgcac acggggaatt tcattatcta gctcatacct141601gggtgtgcct gacttaccaa gtcctcttcc acttcctcaa ctccattctc tgctgcaacc141661atactaatta tccacttatt gttccccaaa tattcaggca gcttcaggcc tccatccctt141721ctccacctgc tgtctgccta gaaagcccat ccttccctac tcdccctcac ccatactcct141781ctggggccaa ctcgatctaa atcatatttc agacttcacc ttctccagaa aactttctct141841gtgcttctct tgatcagagc acctgcttca ttatgttgtg accacttatc tgctgcctgc141901gctatgccac agacacctat ggtccagaac cagctcttat tcaactgaaa acagtgcatg141961ctgcatctta ggtacttaca aataaatgct gcacaaaaca aagaggagta ctggtataga142021aacaagtgac acaaatcaag tagtggctag ttaaaaggac tgaggcaaaa atacccagaa142081cacttgttct aaacagcaaa ggcccaggtg cactggttac cacccctaca agatgactgg142141aatactcatt ccctgggcag tgattttttt tttttttttt tttttgagat ggaatcttgc142201tctgtagcta ggctggagtg cagtggcttg atctaggctc actgaaaatt ctgcctccgg142261ggttcaagcg attctcctcc ctcagcctcc cgagtagctg ggactatagg cgcccaccac142321tatgcctggc taattttttt tttttttaat ttttagcaga gatggggttt caccatgttg142381cccaggctgg tctcgaactc ctgagctcag gcaattcacc cgcctcggcc tcccaaagtg142441ctaggattac aggcgtgagc caccgcgcct ggtctgggca gtgatttttg actctttggt142501tcactgctgt gtcctcagaa cttaaacagt acctggcatg gtaggagatg aataaatatt142561tgcagaatag atgtcgaatg aatgacagac ctttcctagc actgctcagc taccgcagac142621tgaacctagc acatgttcca tagcccagaa tttatccctc tacctctgta atgttaataa142681caacagctaa catctactga gagcttaaca gatgccaggc actgttctga atgctttaca142741tttgcttatt tccttaactc ttcacaacaa accctttgat acaggtactg ttttaccaaa142801gggaagtgga gcacaatggc ccaaggtgac ccaggtagga aagagaagag ccaggcttca142861aacccaggca gtcttgctcc aggatctggc tcagaccaac atacacagag aaaaatggct142921gcacttgttc tgcctaaact tagagacctc atttggttgc tcgaacttgt ctgactttag142981tcaaatatag aaacatgaga cttggcatga aagtctctgt tgacactttt ttttttttta143041agtccagctg cctaatttat taagaacagg gcagaatttt ctgggtccag ggaaattcac143101cacaggatac ttccaaatca ccctgtggtg atcagagcct gcccttccct cagcatacag143161tatttcaccc ttcagaattt tccagaagac atttgagatg ttagagggaa gatgtgtgta143221acaggtccaa atgggtctag ggagaaacgc ccataaaggc aactgaggag gccgggcgca143281gtgggtcacg cctgtaatcc cagcactttg ggaagccaag gccggcggat cacaaggtca143341ggagttagag accagcctga ccaacatggt gaaaccccat ctctactaaa aatacaaaaa143401ttagccgggt gtggtggagg gtacctgtag tcccagctac ttgggaggct gagacagaag143461aatcgcttga acccaggagg cggaggttgc agtgagctga gattgtgcca ctgcactcca143521gcctgggcgg caagagtgaa actccgtctc aaaaaaaagg gcaactaagg agcaacccgg143581attcagccac cacatggctg gaaggtcact attacagaat tgaaaggaca acaatagttt143641ctgaccactg actactgacc accaaccata ttgcaagctg accacatgaa gtccctacca143701cacatctaac tcatttaatc ttcacaaggt ctctgtgagg caggaattat tacctctgct143761ttacagatga gggggaccat attcagaaag gctacgaaac gtgactaggg tcatacagct143821ggtacttgtt agagccaaga tttgaatcca tccctatccg acttccaaag cctgtgttct143881tgtcaccttc cagcccacct ggcctctaca catgtgctat gaaatcctcc tggtgcctgc143941aaagaaattt atggtgaaac ctccaaattg aagcttattt ttttagttta tatacctccc144001actcaggata aatagtcatc aaaatctcca aagtaaaaaa gaaagagtga gggaaaaaat144061ggctaaaatc ttctgatcac aagcccatct gggatctttc agatgctgaa aattccagaa144121ggctggatcg tcaagtttca gcttagaagt tgcaatcaga aatctttatt gaaataagtt144181tatttccccc cgaggactct gctggtataa cagatgagag atgagagtgc ctactaggga144241agaaagtggc gagaaagcga gtgatgctac tctatccggg aatctagaac aaacccacag144301aggatccaca gggatggagt gtgtgtatgg ggaggtgggc cagatgaaac aagaaaggca144361gaaagctaat ggttgttgaa attgaatgat ggacacttgg agttcattgt gccagtctat144421ctgcttctct gtgtgtttga aaatttcaca catgtacaca aagccatgac cctccaacaa144481gatgacatcc ttagatgtta atggcctggg ttccatgcct tcttagacac agcaccctta144541tggggagagg tcaaggctga aatcaggtgg ttcctccacc ctgtcctggt ctgttccctg144601ctggcccctc agcaagggtc tcagtacggc ccacagtcaa aaccctgcag caagttctgc144661ttttatagaa gaccttctgt aagtggttga aactactgtt tttcagaatc aggaaggagc144721attcaaaaga ctgctaaacc ctcaaacgag aacaagataa agaacaggct gaatcagcat144781gcgacaggag cctggttagt gagttgactg aggttacttg tgagaatgat gtcactgtgt144841ggaataagga agctggcaac accccagagc cagcgtgtgg ctgtgctggg agggagctgg144901ccccttagtg ccgagtaaag gacaaactcc aggcagatat ttgtcagatt gtggccagac144961acagtcttgt tcctttaaca ctttaaagga caaatggaaa gattagccaa gccctaatca145021tctgaagaag ccatgtgtct gagaagtctg agggaagata tattgaaaac gatctcagtt145081acgatgagac agctttgttt gatttacgca aaggcagaga cacaggtgta ctacatcctt145141caggaagcaa gtttagaaat aagatctgca agtcatagga tgtgacaggt ctgcaaatcc145201tgcaagtcac aggtcatcca cagtgggcta gtctagctgc ttcaagaatg ttgcccacga145261aaggtgggtc atgggttcac agagcattcc tgtgttccat aaccacaggt ttcatcccta145321actctggtca gcaacttttg aagtatatac caaggaccac aagttcaagg aagtgggcag145381aagaaagaat gtgatgcagt catgcagatc catcgccact attcaagaca cagcccagag145441cgccttccaa gggctttctg ttccactgag aataaaattc aaatcctcac aaaagatctc145501agggtgcaac aggactacct ggcctctgct catctctgtt cactcatttc ctcctggccc145561acctgctcta gcaatgttcc ttgaactcac caagctcatt tccactttag gacctttgca145621cctgcagctc gctcttgctt tgatactatt ccctaagtct ttgcatgatt acacagatca145681aacagatctc agaccaaagg tcgtcttctc aggcctttcc agaccattct agctaaagta145741gcatccccag tcactttcta ttatatcttg ttttcttttt tatatcactt gttactatct145801gatgttatta tttatttgat tgctttttag tgaactgtct ctctccagta gaatgtaagc145861tccatgaggg cagattctgg actgtctggc tcaccgctgc acccacggaa cctaggataa145921ggaatacctc ttgatgaata aataaccctc tggataggtc agtagctact ttcatatata145981tatgaaggca ttttttttga tgaggcactt tttcttaata tatgaataag caaaaaaata146041tagtatctat attcagtaaa aaattatttt gaaaaaacta aaatgatata aggttggggc146101tgtcctggag aatctaaggt atctagtcat catatatatg aaattcaact tttccattgt146161ttgataaatg ttcctgatga ctcatgtgtc tttagcacta gtttatctgt caaatggtca146221ctggtaagag aaagagcgct cgctgtgaag ggatgggatt cctgaatggg gatctggata146281cacagctggg tttgtgtgtt catgcatgtg cacaagcacc tgcagctcag aatctacaac146341caacagctct tagagtcagt gtggccttgg tatactttgt tttgtatcct ttaggggtgt146401gtgtctccaa ctttaacgta caagtcaatc acctggggat cttcttaaaa tgcagattcc146461aattccaggg tggggtctga gattttatat ttctaattag cgcttactca ggtgacatct146521gtgctgctgg ccagaggctc acactttggc aaatctctag tactgcaaaa ttgccgtctg146581agaaacatgc ctccagatta gctaagaaag gaagcgctaa ccacagggga cttggtcccc146641aagacccaaa aatatagaga acctaatttc aaacaagcag aaaggaactt ctctggaaag146701agacgactca gctttcttca tttgtaataa accaaatctg taaacactta aaatggaatc146761atttctaaat gctgacttgt gtgcggatct gggacactgt ttaattccag tatgggactg146821taaaatacat attcttttac aagtttcaca tttacaactc ttgggacatg agaaaggaga146881aagctttgcc aattctgtgt agcaatggaa ctaacatgga ccaatttccc ccatctaatt146941gtcttgctcc aggtataaaa ctagttgttt ttttttttct ggtttctcct ttgaaagttt147001cccatcctta ctaccaaccc cacaaccccc agccccctag tccaggctcc agggaggagc147061tcaagctgat gggtgagcct ctgatataat tgttctggtg agtgatgagc ctgttgtgac147121cttctcccac ttggctgctg accacgtgag agggcagggc tggtccagag tcctcacccg147181acctgagcgt ccaactgcaa ctgtatgttc cggcagcttt aataggactc tgtgctgccc147241gtattattca tagcagttgt taatgtgcct ctctccttgg gatcctgggg tgactgaagg147301gcaggactgg gcattcctgt gtcctttagc aaccttccaa tagcaatgac tggacatgat147361ccatcattgt ccacagcaac ctccctccca gtacacaaaa atgtcagaaa gcaaacctgg147421cttttttcct ccagtttttt gtgttcctta agaaKctgct ccacgtgcat cacgctgtct147481ccaatgcctg taaactctgc ttgctcttcc agcaaattat ccagggcaag cttagcctac147541aagaaacatt agaacagtcc agaagtaaac caacactcac tcacctgaag gtataggttt147601gttatgcttc aagaaaactc aaaattccaa aaaggattca agacttgtat atatctatat147661atgttaaaaa tttttttttt gcagctcact aactttcaaa


Following is a KIAA0861 genomic nucleotide sequence that includes the KIAA0861 SNP “KIAA861-AA” (SEQ ID NO:).

+TL,1GTGCCTTTCTGAACCCTGTGACCCAGCAGCCTCCATCAACTCGTCCTACCTGCCATGCACAGCTCCTCTGTGCCCCTGTACCTGAGCTCATGCTATTCCCTCTGCCAGGATGCCCTTCTCCTTCTCCACCAGGAGAAGAACACTTGCCAGTAAGACCCAGTTCTAATGTCACCCCTTCCTGACGGTATCAGGAAGAGTCA[G/C]TGATGGTGTTTTATGCTCCCAGAGAATTTGCCACATTGTGTTGTGATTATTTTTCCACATCTGTCTCCCCCACTGGAATGAGAGCCTCACTCATCTTCATACCTCCCTGGTCTCTACCTGGTGCCAGAACCATCCTCAGGGCAGGGGAATGCTCAGGAAATAGATATTGAATAAAATAAGTGTATCCATCCATCCATCCA


Following is a NUMA1 region genomic nucleotide sequence (SEQ ID NO: 4).

>11:71420751-716121001cctgccatggggcctggcacatagtagcctgctctgaatttttgttgaatgaatgaatct61cagcaaatttataattttccaataaacaatacttccttcttgagtcacaaagcagccact121gcctgtataattctttttattttattcaaattcgtttctcatttgatcctccccaccagc181ttgtgaggtaatttaatatctgYactcaacagaaaaagagattttctcattcattcaaat241aagcacctactgtgtgccaggccctgtgctgagtgctggggatacagagctggataagac301atggtccctgccctcaaggagtactctgtttaatggaggagatggacaagaaagctcctg361ttgcagtgcagttggtaagtgctatgacagaggtttgtgtaggtccaagagagcttgact421ggccagcctcaaagctgtgaccacctgatccaaagtctttcaaattgtagattgctcttc481ttcctattcttcttatgttctactttcctgcaagcctttctctggccttctggagtttca541ttgtataaggtaaaataggtgatccataagttcctctctggctttggtagtttactttaa601aggccactgtggaagatacaggatgtggagccagatgaatgtggattgggacccctagcc661ctgccacttgttcactgtatgaccttacctttctgagccttgaagtcttcatccctaaaa721atgggacaataattgctacctcacatagggtgataagatgatatgaagaaaaagtgcaat781agaacaatgtaagagtcaccaaggacaccacaaacagtgccaacttctggctaaaataat841tgaaaatatgtctgtaatacagaggatttttataatagtaactactagctttttttttga901gatggagtctcgctctgtcgcccaggctggagtgcagtggcacgatctcggctcactcgt961gcaagctccgcctcctgggttcacaccattttcctgcctcagcctcccaagtagctggga1021ctacaggcacccgccaccacacctggctaattttttgtacttttttagtagagacagggt1081ttccccgtgttagccaggatgtctcgatctcctgacctcatgatctgcctgcctcaacct1141cccaaagtgctgggattacaggcatgagccaccgtgcctggccagtaactactagctatt1201tatttatttatttagagacagggtctcactctgtcRcccaggctggagtgcagttcactg1261caacctctgcctcccaggcttaggcgattctcctggcttagcctcccaagtagctgggac1321tacaggtgtgtgccgccacacccggctaatttttttttttttttttttttttttgtctat1381ttttagtagagacagggtttcaccatgttggccaggctgacctcaagtgatctgcccgcc1441tcgggctcccaaagtgctggaattacaagtgtgagccaccacgcccagccctgtaactaa1501catttgatagtgctttacaatttcaaagcactttttaaaaatagagatgaggtcgcactc1561tgtcgcccaggctagagtgcagtgccatgatcacaactcactgcagcctcatcctcctag1621gctcaaccaattttcccatctcagtctctgtagtagctgggactacaggcatgctccacc1681ttgtctggctattttttaatttttatttttagtagagacaaggtcttactgagtttccta1741ggctggtctcgaactcctgagctcaaaSaatcctcccacttcagcctcccaaagtgttgg1801gattccaggtgtgagccattgtgcctgccctcaaagcacttttgtgaacatccttattta1861tacatgtagcatttcatgaacatgtattatataccaggaaatgggctctgtacaacccag1921taaaaaaggtagcagggttttcctgttttacaaagaaaatcacctctcttgtctcaaaga1981ggtgatttgacttatctgaggttatccagctactaaaacatcacttaatccatattgagt2041tttttgacctaaaatttcacatccttttcaccgtgtctctctcttttgtgatcagtgcaa2101Wccctggagaatagagctgtgtgtgttctttaagacaacactagaaggaagatatttggg2161acctttccctagcctgagaaaccatcactgcttgcctggccacagcaaggaggcatgggc2221agggaaggaccttgactttcctccctagggttcagcagggttggtagtaacctagtcagc2281tctcaggaaccacacaggcttgtgctggttattcagacagattactaaattgttcattag2341ctcccatcacagatagaatagtggctcctgatgacagggacctactcttgtagcatttaa2401aaggctctggtttggccaagcaccagtggcttatgcctgtaatcccagcactttgggagg2461ctgaggtgggaggatcccttgagcctaggagttctagaccagtctgggcaacattgcaag2521accccatctctagccaaaaaaaaacaaaaaaaaaggccctggttccttcagggaaccatc2581tttcttgctgagtctagtagctgggatccaccaattaggttgtacactgtcttcattggc2641tcctggggcacactactcctccttcaggagcatgaacaaccccattctacttcaccacca2701ccacacactttcatccaactcaaaggtacttcttaagtgcctctctcccttctccctcag2761aagaaaattcatttcagaagcaaattcattacacatcatttctttcatttttggcctgtg2821gataggagcaaagctgtattcagactaaccgggcccaggtacaaacaacctgtagctcat2881tctacctctgattcatctcttgaattctgtttctgaacaactagccttccctgcctgtta2941atcttctgagcatagttgtgtttaatactttttacttcctcatttgaggtgacatagctg3001tctaaggtcagctgtgctccttctttgaggcagaaactgcctttttaggaatcttttcct3061tggtctgaaaccatgaaaatacaaagcatagctgggtgtggtggctcacgcctataatcc3121aaacactttgggaggctgaggcgagYggatcatgtggtcaggaattcgagaccagcctgg3181ccaatatggtgaaaccccgtctctactaaaaaaaatataaaaattagccgggtgtggtgg3241tgggcacctgtggtcccagctactcaggaggctgaggcagaagaatcgcttgaactcagg3301aggtggaggttgcagtgagctgagattgtgccactgcactccagcttgggtgacagagcg3361agactctcatctcaaaaaaaaaaaaaaaaaaaagaaaaaaaatacaaagccctagttctt3421gagtatatggaggcatttctgcagttaagggagtgagcagctttggatagtaactgaagt3481tgctcagtaagtcctgagcaaagaccctggtgtccccattgatgtgagaataaaggattc3541tggtgatcaggaccattaaggccagaatctctgtgtcagctgcactaaccttctctcctt3601tccccaggttggtttataagtggttcctgctaatctataaaatcagctatgccactggca3661ttgttggctacatggctgtcatgtttaccctctttggtcttaacttattattcaagtgag3721taccctttgtttttgtttttgctggagtttggggaggagtgactgttgagatgtacctct3781tgttgcaagtcgtggttattaacaggagggacgtaatatccaggataggagacttgggtg3841ctgtggggggatgggagaagacaggctctccatgatttgttctggcagaaagcaaggaat3901gtctgaatatatacaaagtcagagtcctaaatcatattttccaaggctttatattttagt3961ggaaaagtctagtaaccaaagtaagcataataattatcataacctgctatccataattct4021atcaccttaacagagctgtttttctcgtcagtgtgtactgttcatttgcagcatccactc4081tgcatgaatggccttacgttcaactaggccaggggttggcaaactgtgccctctgtgcca4141aatcagcccacaacctgttattataaaatgaagttttactggaacatagtcatgcccatt4201catttatatattgcctgtggctgtttttccactaaaacagcagagttgaatagttgtgat4261aaagaccatatgggctacaaaacctaaaatatttaccatctggccctttataggaaaagt4321ttgctgactcttgggctagaccgtctacctacatgaccgtggttggctacagctagcaac4381aaattgacttagaagaatacaaaataaataatagagcagagtggtgtctgcaagtcttca4441cagtagactcagagcttaggtgtgagggaatgagaYgacacagatgggtgtggaagccac4501ctggcctaggagccccattcccccaggaacacatccagtttcaagaatgtcgcagtccag4561atgtgttgtactaatcacaggtcataagcagtgttgcctgtaatatagctgacattcgac4621aagatttctaaggaaacagttctggaaagttaacctgtggatgttaagtcctgcttcatt4681gtt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cttctgcacct188041tccttctcccacttcacaatgcacatggagatttttccgtatttgtacatcaggagcttc188101ctctttctttgttaccacattaaattccactgggtagatgtaccataatttaactgggtc188161cttattgaaagacaattgagctgtctcctagacaaagccttgtgcaccttcccgaacaga188221gggtctaaccaagcaggcaggatggggttataaagtaggtggggaggtgggagagactcc188281accctcccaggtgggctgaggatggaggtaaggccctgcaacaggacagagggaaaagtg188341gggatgagacatgggaggcgagatagcgctcactgttctcgctcagccccctcctccatt188401tgccgctgacctgttggcctcccccaacctctgagcctgcctctgcctaggtaatttccc188461aagacccaggaggggtgaagggtgaggtgcgattgcccccacctccttgcctcccgcagc188521atctgctccaggaccatgaacaatagctgacagctccatggcccttgctgtccccatctc188581agcttccctgggcatctaaacctcagttgccRtggggtaggaggacaggctgaggaagca188641gaagcctgaggctgtctagagtctcactcctgcatcagcaggccaccacctgtggttcct188701ccttgtgcaaatttgagaggaattgcataaaacactggagaaatccaagaggggaagtcc188761acaagggcggtggctccctccatgatctcagagcaagctggtgtcagaacctggacctag188821agcactgttgggtgggaagtaggaggagagtcctgcctccaggccagccggggaagggct188881ccctctcacctctacacgcagcgcatttcttggctcagctgccctgtaggggatgcaggg188941tggggacagcagagatctgggcctgggagggagacagtacacaatcacatggctgttgcc189001cctccctcaggccttgtctacctctgactgtggctctctggcaggaatagatggacatgg189061cctggcagatgatgcagctgctccttctggctttggtgactgctgcggggagtgcccagc189121ccaggagtgcgcgggccaggacagacctgctcaatgtctgcatgaacgccaagtaccaca189181agacacagcccagccccgaggacgagctgtatggccaggtgaggataaagtcgggtctgg189241ggcaggggagagagctgcctttgacagagaaaagttagcagggtgaagtcagctgtggaa189301ggtgatgaaggcagaggatgactgctgtgatcctggagggcctcccctgggaggacacca189361aatctacaataataaaggaaccacatacctaacacccactatgagcctatgagccttgtg189421ctttcactcatgccatgttagtgaatatgcccaaagggcagggtgggtgcgtggtagtct189481ctacttacgcaaatgaggaaataggcccagagagggcgcaggtgcaagtgggaaatgagg189541agagggactgtccatacctttcccagccttaattgtgtgccagcccacagagctcaatgg189601cacagtagaagaggagctgggcccatcatggtcatggtgcagcctacatgtacaaacagt189661ccaggtttccacccccattaggtactgaagagacaacgaccaatccaatatgctggggag189721acttcccaggcaagagaccattggccttgacctgggaagatgagtaagagttttctagga189781ggaaaaagcgggaaagggcagcctggtagaggacagcatgcacacaggtcagagggtgat189841ggcacgagcaatggcgggtccagtgtggccagagccagcggtgccactgcccacaaggaa189901ggggaggggaggccagggccctcatgccacaggtaaggccactgaggcagctcggggagt189961atgagctccaatttgaattccaagctcaggagagtgcctgtatttcatttctctggtctc190021ctggcctgctccctagaagggttcacattcccagagggtgaggatgtgcccagggagaga190081ctgtggcatggacaggctccgagggctaaagcaaagagaggacagcctggaagccctgtg190141acatctgagtcattcccaacattccatttgcttattttaaaatcagggtaaaatttaaaa190201taaataaataaaataagttctccattttagccatttttaactgtacaggtcagtggcatt190261aagtatgctcatgtatgccgggtgcagtggctcacgcctgtaatcccagcactttgggag190321gccgaggtgggcggatcacctgaggtcaggagtttgagaccagcctgaccaacatggaga190381aaccctgtctctactaaaaatacaaaaaaaaaaaaaattagccgggcatggtggcccatg190441cctgtaatcccagctactcgggaggctgagacgggagaattgcttgaacctgggaggcag190501aggttgcagtgagccgagatcgcgccattgcactccagcctgggcaacaagagcaaaact190561ctgtcaaaaaaaaaaaaaaagtatgctcatgtggttgtgcaaccatcaccaccatccatc190621tcctgacctctttcattctccaaaactgaaatggaaactttgtgcccaccacttcatttg190681cttttcagaaccttctaaagcacctactctttgccaagaaatggtgcagatgtagacttt190741gagagatacagatgattatcattctcagggccatgagctatatgagagtgatgatatttg190801ttgggccacttctatagccagggagtacttttcattatattcagtaactctttcagaggc190861agaaacccctgaccctgactggcaaaacccatgtctgccaaaccccaagacccatgatgt190921gcaaggggtcttgcaggaagaccaagagttgggacagccaaggaaaagcaagtgtgaagt190981tgtgctggcggggaagcatgttctgtgtcggccggcactgggcgtggtggcccagtgggt191041aggtctggctccactcccatggatttccctattgtttctcctggttgctcagacctgtca191101cgcctctgccatcacttgaccctaggtgcaagggttcagcccagaaatKttatgcaattg191161actcatgatttctcaggttttctgcatcctggcctagagtgatttccaaagaaaaacctc191221caccatttctgcttgtcttgcctgcattgtatttacctttctaggattgccttttccaca191281tttagtcaagcccgggttcaggcccacgttcaggctacagctcctctgttcccccaccac191341tctcaggatc


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AA” (SEQ ID NO:).

TCTCTGCCCGACTACAGTCTACTAAACCTGAAGCCCACATGCCCTTCAGTCCACATCCGTAGTGGCCTTTCCCTGACCAGCTCCTGCCCTATCTTTGCCTTCTTTGAGACCAGACACAAAGTGTCACACCCTCTTTGCATGCACAATCTCCCGTAGGAGGAAGGGAACCAATCCTCAGGGAACACCCAGGTGCAGAGCCT[-/T]ACTCTAAGGCACTTGGCATGTGAGCTCTCTTAGGACAGGGGAACTTGTTTCTCCTCAAAGCCACTCTGAGAAGTCACTTCACCCTCTTTTCAGAGGAGGAAACTGAGTTCAGAGATTTAAGCAAATTGACCAGAGTAACAGTGACTAAATGGCAGAGTAAGATTTGGTCCACCTAACTCCAAAAGCCCATGGGGGCTTAT


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AB” (SEQ ID NO:).

AAACCAATCACAGCCATCACACCTCTAATTCAGAACTACAAATCAACATTTAGGGTCACAGCCCAGTACCCGGGAAGCCGCCAATTATGGGATAAGGAAAGGGGCAAAATATGCAGGTCTCTGGAGAGACTGAAGCATAAGACAGGTGCTGGGACATTCTTCTCAACCCTCTCTTGGGGAGCCTTCCAGACCACCTCAGCCCTGAGGGGCCTCCATGCACACACCACCTTAACACCCACCTTAAAGGAAAGGTCTCCATTCTCCTCCGAAAGCTGGTTGATTTTGCGATCCATCTGGCTCTTCTCTGTCTTCAGGTCCTGGCACTGCTTCAGGGTTTCATGCAGCCGCATGGTAAGGCTGCGAGCGAGGGAAGCAGTGAGAAGAGAGTATGGG[T/C]TCCTGGCTGGGTGAGGGGAGGGGCTGGGGCCTGGGAAGGAATGCAGGGAGAGCTGTACCTCTCATTCTTGTCACGCAGCTCCTCAAGCTCCTTGGGCTCCAGTGGGCTGGCCCCCTGCTTCTCATTCAGCAGGGCTAGGCGGTCAATGCGCTGCTGCATCATGGCTATCTGTGCATCTGCCCAGAGTGGAGGGAGGAGGAGAGGAGAATCAGAACTATGTGCATGAGCGGAACTATCTGCACAGAACTATGTGCACAAGGGGAAGGGAGGAGACGGCATAGGGAAGAGGAGGAATATGGTATCCAATCTAAGGGAAAGAGAAGATGGGGACAAAGACAGAACCTAGCTTCCAGGAGG


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AC” (SEQ ID NO:).

AGACGGCATAGGGAAGAGGAGGAATATGGTATCCAATCTAAGGGAAAGAGAAGATGGGGACAAAGACAGAACCTAGCTTCCAGGAGGTCAGCCTGACCACAGGCCCAGGGCTGAGCTCTCAGCTCCAGGGGCCAGCAGAGGGGACAACATGGGAGGCCAGGGGACATCCTTCCGGCAAGTCTATTCACACATCTGCCAGTGTGCCAGCCACCTACCCTTCTCGGTGAGGAGCTTGCGGTTCTCAGCTAGCTCCAGCTCCAGCTCATCCCTATTACTTCTCTCATCACCAAGCTGCTTCTTCAGCCGTCTCATCTGGAACTGTGGGGTCTGCAGGATATCACCCATGGGAGAAGCTGGAGAACCTGAGAGAAAGCTGAGGAGGGAGAAGGCCCATATGCATTGGTAAGCGCCTAAGAT[C/G]TGAAGCAATCAGCAACAGGCAGCAGTAAGGGAGCGGGGTCTATGGAAGTGCGCACTAGCAGCTGGGAGGCCTGTGCACCTGGGTTGTTTGCAGTGCTACCTCAAGCCTCATGACATGATCTTGGGAAAACTTTTCTTCTCACTGCCTTAATTTCTTTGTCAGAAAAAAAAAAAGTGATATATTCTCCTTGGCTCTGCAGAGATGTGCTAAGAGAAGAGACTTCATTGTAGTCTCCGAGGAAGAAGGGTATTCCATAAACAGGGAACAGCTTTTGAGGGAGGCCTTCTGCACATGACAAATCCCAACCACTTCC


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AD” (SEQ ID NO:).

GCCTGCTACCACATCGAGCTAATTTTTTTTTTTGAGACGGAGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCACGATCTCGGCTCACTGCAAACTCCGCCTTCCAGGTTCACGCCATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGACTATAGGCACCTACTACCACGCCTGGCTAATTTTTTGTAT[T/G]TTTAGTAGAGACGGGGTTTCACCATGTTAGCCAGGATGGTCTCCATCTCCTGACCTTGTGATCCACCCACCTCGGCTTCCCCCAGCTAATTTTTTATATTTTAGTAGAGACAAGGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCCGTCTGCTTTGGCCTCCCAAAGTGCTGGGATTAGAAGCGTGAGCCACCACGCCCAGCCTTTTTTTGTATTTTTAGTAGAGATGGGGTTTCGCCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCTGCCCACCTCAGCCTCCCAAAGTGCTAGGATTACAGGATAAGCCACTGCACCTGGCCAGCTCTAGTCTTATTTTGCTGAAAAAGGGAGGCAATTGAGGGAAAGGCCTGCTGGCCTGGGACACTGGAGACGTGGGTTTACCACACAGCCTTGGGAAATTTATCTAACTCTCTGGGCCCCTTTGTACTTTTCAGCTTAGAGATTTGGGGGTTAAAGTAGATCAGTAATTTCCAAACTCTTCACAGAGTACCAGGGTCTGTAGAGATGCCTCACAGGCCTC


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AE” (SEQ ID NO:).

CACACAGCCTTGGGAAATTTATCTAACTCTCTGGGCCCCTTTGTACTTTTCAGCTTAGAGATTTGGGGGTTAAAGTAGATCAGTAATTTCCAAACTCTTCACAGAGTACCAGGGTCTGTAGAGATGCCTCACAGGCCTCCATGACAGGCCAAGAAGATGGCCTATGATCTCTGAAACCAGCCCCCACTTCAATCAGATCAAAGTAATTCCATTCTGTTTTATATGCTGGGATTCTGCTTAAGATTTCATTTGATAAAAAGAATCTTCTGCTTAAAAACATTTGCTTGCTGACTCCATATTAGGTATTCCCAGAAGAGCCTGGTCTGCTTTCTCTCTCCACCCCCCAACCCGCCATGTCTCCCTTCACCCCCAGGGGCTGTTGGTAATTCCA[T/C]TGAGTCTGAGGCAGGGCCCCCAAGAATCAAAGCTGCCTCAGATTCAGGTCTGTTCAGCTTTGACAGTGTTCCCATCATCACTGGACAAGGGACAAGAACAGTCTCATCCAGTCTGAGGTTAGCCCAA


Following is a NUMA1 region genomic nucleotide sequence that includes the NUMA1 SNP “NUMA1-AF” (SEQ ID NO:).

TCCAAGGAAAAGCAAGTGTGAAGTCGGGCTGGCAGGGAAGCATGTTCTGTCTCAGCCGCCACTGGGCGTGGGCCACGGTGTGGGAGGTGGGTAGGTCTGGCTCCCCTCCCATGGATTTCCCTATTGTTTCTCCTGGGTGCTCAGGCCTGTCACGCCTCTGCCATCACTTGACCCTAGGTGCAAGGGTTCAGCCCAGAAAT[G/T]TTATGCAATTGACTCATGATTTCTCAGGTTTTCTGCATCCTGGCCTAGAGTGACTTCCCAAGAAAAACCTCCACCATTTCTGCTTGTCTTCCCTGCCTTGTATTTACCTTTCTAGGATTGCCTTTTCCACATTTAGTCAAGTCTAGGTTCAGACCCACGTGCAGGCTATAGCTCCTTCGTTCTCCACCACTCTCAGGATC


Following is a GALE genomic nucleotide sequence (SEQ ID NO: 5).

>1: 23536001-236229501ggcaacctag tgagaccttt tctctacaaa aaataaaaataaaaaaatta gctgggcatg61gtggcataca cctgtagtcc caagctgagg caacaggattacttgagccc aggaggtcaa121gactgacagt gagccgtgaa tgtgtcaggg cactccagcccgggcaacag agtgagaccc181tgtctcaaaa aaaaataaag taagggctgg gtgcRgtggctcatgcctgt aatcccagca241ctttgggagg ccgagacggg cggatcacga ggtcagaagatcgagaccag cctggctaac301acggtgaaac cccatctcta ttaaaaatac aaaaaaaattagccgggtgt agtggcgggc361gcctgtagtc ccagctactc aggaSgctga ggcaggagaacggcatgaac ccgggaggca421gagcttgcag tgagccgaga tcgcgtcacc actccagcctgggcgactga acgagactat481actgagtaga ctatacttgc tgcaaaaatt caaaaaagtgtacggagcag atgagagcct541ccttgcccat cctcctcccc tagtatagcc ttgaattcatctcccaaaca gaataggatg601ggtcttttag ttactctcgc agagggctct gtagtgctgataagagagct gaggagcccc661tcttaggttt tcagatgaca cgtcaggcta gccttatatttaataattta aatttaataa721taattatttc agttttcaag aaacttactg aatctcacctatgtgctaaa tgttgctgat781tgaagatggg taaatagcct ctgaccttag ggatctcattcctgtgttga acactcgtgt841gtaaaccaag ggttacaatg gtaatccccc agtgaatacatacagagtac caattttaga901agtggttgaa aagttttttt aaaaaatcag agaattacacatgtataatt agctgctcat961cctagaagtc atatatccag accaggcgtg gtggctcatgcctgtaatcg cagcactttg1021ggaggctgag gcgggtggat cacttgaggt caacagttcgagaccagcct ggccaatatg1081gtgaaacccc gtctctacta gaaatacaaa aattagccgagcgtagtggc gcatgcctgt1141agtctcagct actcgggagg ctgaggcaga agaattgcttgaacctggga ggcagaggtt1201gcagtgagcc cagatctcgc cattgcactc cagcctgggtaacagagtga gactctgtct1261caaaaaaaaa aaaaaaaaaa agtcatatat ccaaatgtaagagtactttg caggtaagcc1321tgactcagtc tgacataggg gtggctgtct gggagcagcacacccactcc aggatccccc1381agaagcattc gttgtttctt tctgtttttt tttggttttgttttttctgt tgcccaggct1441ggagcagtgg tgcgatcatg gctcactgca gtcttgatctcctgggctca aatggttctc1501ctaactcagt ctcccaagta gctgggacca caggcacgcaccaccatgcc tggctaattt1561taaaattttt gtattttttg tagaggctgg gtcttactacgttaCCCagg ctggtctcaa1621actcctgggc tcaagcagtc ctcccgtctt gacccccaaagtgctgggat tacaggcatg1681agccactgtg cccaacctca ttgtttcttt tcattttggttattgagctc tctctggata1741acatctgcag aatgtttcat gtgtcccgag tatgtgccaggcCaattact cagcaattct1801gcttcaagaa tcagtctgta ttccattaca ccagtggtacattttcaaaa tggaaggaat1861ataaaatgta aaagtatttg ctacgcagag gagggagacactactgctgg gactagaatc1921gaagttttct cacacccagt tcaatgcctt ttctacaacatccctcagtt gagccttagg1981gtaccaagtg gatggtcatt agtcttgtat ggactttaYatccaatgctg attataaggt2041ctagatgatg ctaggtggca gagattcaaa gttggacaggtcggttactg tacttgataa2101ataaacagcc cagtggcaag acagataaat aaactgaccatttacaccct gaaaaggtgg2161tcagttgctt agggaactgg gggaggggcg ccaaatggaggagtagggac atggtagaga2221gggcttttca gcatagtgag tgaatgaatg ctcatttgaagaaacaactt gtgtttaaga2281tgtttttctt tcttccagag ctagaatctg gaagaatctctgggctttcc tgctttgagg2341gagagatcag gctaggtgca ttgccaattt gctgctgaagatctgattag gttctgcttt2401gatgtgatca aatgagatgt aatcagtgct ggtactttaagtgagtttgc aactatttag2461ttgctctttt tagtagtagt attagtaatg gtaaaacttagtgcttttag gatgagagta2521gacggcctga agaataatat cttgggctct tctaatcaagccatacggct cattggcaag2581tcatcagagg aaacatctat ctatctatac attcatgcaataagtattta tttagtgcct2641atgtgccaga cactgtttgt ggggaaaaca agacacatgggctattattg cctcatggaa2701ggaactaagc tgtttggatt ttgaaaaatc cctttctctgggcctcaatt cctcgacctg2761ttcagaaatg tgcgctcaca atggtcctag acatcttagattcaggttcc attttcagtt2821ctttcctgtc ctgcggccat ctgcaagtta atttggtctccctgaacctc agtttcctca2881tctgtaaaat gaagatcata caactcgttt catcaggttgtactgaggct ggaaaagata2941gtctaactac tgacgcatcg tgtgctcagc ctagggtggctgctaccgcg ggtgcctgcg3001gactcctagg acgggcacca gcccgggacc cctgacaaggtgttgattag ggtgtggcta3061agccccaggc gggagaaagc gttggcattt ataaggccagggtctggcgc gstggcctca3121ttccgtcttg aagtagaccc tggagaggtc ttccaggcttgggctcagca cgcgagcaca3181gggagcgggg gtgccggcgg cggaggcgcg tacggcccgagcagccccca gcccccagcg3241cgcacacttg ggccaggggc gcgaggagtg cgcggccgccgggtgggcgc tggggagcgg3301gccctggggg cggagcctgc agcccaccgc cccccacacaccccagccga ggcccggaag3361gggccaggcg cgcttccgtc tccgccgggg atgcacggagggcggagctg cggcccgagg3421acgcgacgcg agcccaRttc cggcgaggag gccgcgccagtgacagcgat ggcggcggag3481tcggcgctcc aagttgtgga gaagctgcag gcgcgcctggccgcgaaccc ggaccctaag3541aaggtaagcg agggggcggc gcgtagcggg atgggcgttgggtcggtgag ggccccgtaa3601cggtcgcggc ccgagcgtgg cggggttcgg gggctgggaccctgagccag gccccgcggg3661gctggggtcg tgaagttcgc ggccattgac cgctgcccgcgcgttgggac cccgtgcgtc3721gggcgtcggg acgcggggcc ccggccgctc cccctccctcacgggcccgg gatgggggcg3781cgcccggtgc ggacaccgcg tgcctagcgc ttcctcccagaggcgctccg tggcgtcccg3841agccagctgt ttcctgcggg agagcgtgcc cggggcgggagggcgctggc cgccgcctcg3901ttggcctccc ggtgcctgcg ctggtgcccg gctccccgcggagcggcgcg gactccccag3961cgggtgcgtg ttcgctggga ggagaagacg ggcgcccgaacgctgcggag cctggactcg4021cggtctggtc cgcgcctctc ggagacgcgg ttactactctccggctggat atcagagcgt4081ggacctttcg ctttctcagt gaatcccttt caaaacagaataaagcctcg cgtcacctaa4141gcatactcct gaaaacttag gttggaattg aaaaagaggcgggggcccgg ggttggaagt4201cgcagctagg tttccttttg gccattaata ggaaggtaagagctaccgtt tctcgttgtt4261cgagtgatgg acaaccattt ttaattgtag ttaactagtttttgttgttt attgtacaaa4321ctgaaYatta agttaaacgc gttcttgtac cttttcatctttctgtcact cacttctctg4381gtctccagga gacagtctgg tggttgtcag gatttttttttttctttttt ttttttgagg4441cgagtcttgc tctggtcgcc caggctggag tacagtggcgcgatctcggc tcactgcaac4501ctccgtctcc cgggttcagg caRttgtctg cctcagcctcccgagtagct ggtattgtag4561gcgcccgcca ccacgcctgg ctaatttttg tatttttagtagagacaggg tttcaccatc4621ttggccaggc tggtcttgaa ctcaRYtgtc aggattttttaagtggaagt acaacgatga4681aaaagcactt atgtgtttgg cattctccgt catcattctggccggggcgg gcagttctag4741gagttggaac tcagtcctgg tggaaaagga agtcgtggagggagggctag ggccgtgggg4801gaactgctct gctgagcctc ttcctcacct gctgcttcctaggactaacc tgaaaggcta4861aggtaccagg ctgaaagtca gtgctcagaa aaccaatcgtcattctttgg ggtttttttt4921cttgaagagc cactttctct ttaccttgtt ctagcctgttggaggtaggg tttctgcaat4981tccaaaggcc gtacacagcc tctcaccatc agaccactttttaaggctct tcgttcatac5041ctagctcgaa gattcacttc ctcaggaagc cattttagttacaaatctgg gaaaacttaa5101aatgctttca ttgtgccatg ttttctgttg cagcttcagtaccgtaccta gtggtcaggc5161atacttacaa gtttcttttt acagtaaccc cttgtggacatctaataaat ggtcattatt5221ttttagtact agtttgtttt cctgaacact gtaagatctgtgactgacgt ttgatacctt5281aaagcagtgc catataataa ctacccacta tttgttctttatttctgtca gataaaaatg5341ttctatgtag tgtctacagt catttttttt ttaactagaatttagatttg gaagtagttt5401ttctattagt tgatttgcat gaaatacaaa attaggaaaaggcttattcc acctcaacct5461agttgaacta ttaatgattt tttttttttt ttgaggatttgggctctttc tagatagaaa5521atcaccctga acttctagct ttgcattgtg aagtgagcatcatgaagatg agaaaatgtt5581gggagatcat ttttgcaaag ggcataatag tcggcattcagatatgagtt aactgcagag5641ggaaaattgc aagctgtcat gttggccttg ttcctctcaaccttctggta acctaacaag5701ctcctacagg ttgtatgtga aattgcaaga tgattatatagccctgttga atttacaacc5761agatcttgct ttcaaaccat tattagccaa gggtttgattccacacctgt gttcatggat5821tttttggtaY tagacattgc tgtaactctg ttttcactttttcatctgtt atcttggctc5881acttaaggga gaaggtatca gcagcctagg accacttggtttctgttttt atgtttcata5941gttcatggct gataaaaatt acctgtcctt aggccgagtgcagtgcctca cacctgtaat6001cccagcactt tgggaggccg aggtgagtag atcacctgagatcaggagtt cgagaccagc6061ctggccaaca tggtgaaacc ccttctctac taaaagtacgaaaattagcc aggtgtggtg6121gcaggcgcct gtaatcccag ctgctcggga ggctgaggcaggagaacact cgaacccggg6181aggcagaggt tgcagcgagc tgagatcgcg ccattgcactccagcctggg caacaagagc6241gaaactccgt ctcaaaaaaa aaaaaacaaa aaaaacacacacacacagtt ggccgggcgc6301agtggctcac gcttgtaatc acagcacttt gggaggccaagaggggcgga tcatctgagg6361tcaagagttc gagaccagac tggccaacat gatgaaaccccatctctact aaaaataaaa6421aaattagttg gtcatggtgg tggtgcctgt aatcccagctactcgggagg ctgagacagg6481agaatctctt gaacccagga ggcggaggtt gcagtgagccgagatggcac cattgcactc6541cagcctggac aacaaKagca aaactccWtY tccaaaaaaaaaaaaaaaaa aaaaaaggat6601cctcgtcctg tgttacattt tcactgtgaa agctaccaagaacattttga tggcaggtga6661cattaaaaat attttttgct tttttgggtt gaaggattgtacaggggaca actgagatgc6721ctcaacatgt accttgcaaa tgtttgatat ttctcagttgcctgttacca gttcttacaa6781gctctatagt tggtatcttg tttgataaca gcaagtttcgatccacctga ggatgcccaa6841tgtgcctttg ccttgttatt gctttgttct ttcttgaaatttactgaaaa tagaggggtt6901gtgaagtcct tttttctctt gtgttagact aaatgagtctgaaaatcttg agggttttag6961ttttgtctgc ttttaaatca cccctaataa cccaaagtaaagcagaaaga caggatttgt7021tcttccagtt agtgctaggc tttgagataa acacacccacagtgacttcc agcctcatcc7081ttatatgttg gctttgtaga ggtcctggga cacctttgttcccttggtga cctcctttac7141tatgtgggtt ctgaactgtc taatgacatc acaggaggagtttttctgct ttcttgcaag7201tatgctaaga agtatatgtg ctgccgctct attttcatttcctaaggaca gtgttctgat7261gttggatgct tctcctggct ttacttaact gtagtagacacatttgactt tccagcttgt7321taagcaagtt acctaacctg attgggttca gttgcaatatctgtcaaatg gggagaataa7381catccacttt atagagttgg ttagtgggaa tgaaatgaggtaacgtgtaa gagcttagtg7441tagtagctga cacacaatag atggtatgtg aatattcccaacctacccct tccaaggaat7501ggcattatga gagaaccact tgtttttgac cttttcagtgatttaaaatt ttcctttaag7561tgaaggaatt ggcattagtc tttgcaccca tagcttgggtggcaagaaac acaaaatttt7621tcctgagttg gatgatggtg gtgataggat ttgaagtgggggataatttt cactcatcta7681tgaaggtgag actccctaga tatgccactt ggcctcttacttgatctcaa gattatcact7741tgtgatccaa ttgctctgtc tggtgaccat gttaagtaatgattgaagta gaatgaccag7801aaaaacagac ttgttactcc acctaatagc aatatggcataccaattata gtctgggcca7861cacatggtaa aagcagatct tgttatataa tatttaaatgcaaaggtaac cacagttatc7921tattttaaac tacttgtatt ttgaagcact ccttgtatggtaagtatgtt tagatacacg7981tagacatttc ctagagaaag gtttggccag tcataacttttgttagagca agtaggaatt8041ggctgaggaa tatctggttg aagatcaagg gcagaacgctgaaagctgtc agtcgatgaa8101tgaaatgata agtatttagt gagctttcat agtgttctagacactatgac taaggactgc8161acatggtttg tctctgaatc ctcatagttt gtgaagtagagacaggacca agttcctatt8221ttgcagatga agtaactgaa gtttggggag gtttttgacttattcaagat cactcatcga8281gtgacaaagc cagattgtca agcctgtctc tgactccagaactccatctt aacagctctg8341ctgtactgat tttgacctag ttttaggaac tataggaaggaaatgtgatc aaacccagat8401cacttttcta atctacccag gcattttgtg tccaccgttaacatccaagc tctgattctg8461gcaacttgaa attactcttg gctttacact tatgtagaagaaaacaattc tgttaaacac8521tgtggccctt ctggaaacat gatggtcttt tcctgtagaggccttttctt ccttttactt8581cctctgtgcc aggtccatgg gtaattcccc taaaattggtacctttctca taaattctat8641caaaactagg gcaaaaatga tagttgttga tggcttttatcagagttggt aagttttgat8701tctcttctct acatcttatt tccccttggt gtagcacagtggttgaaagc agggaatcta8761aagccacaga cctgagtgaa tcttgcccca cttgcatcttgggacaagaa acataacttt8821tatgagccta ttttcatact tgtaaaatag ggatattacttactactgta aataggcata8881atacttatac tcattactgt aaatggttag cactaagcacttaataatca gatattcttg8941ttaaagtgaa tttgactatt gaaattaatg ttttcttctctgcagctatt gaaatatttg9001aagaaactct ccaccctgcc tattacagta gacattcttgcggtaagaac tgtgtgactt9061taaatattat ataatgatat cccattccct tctcactggagagtgtgtag aataaggtta9121caagtatggg ctttggaagt gaaagaaacc agacacaaaaggccatatat tgtctgattc9181catttatatg aaatgtccag aataggcaaa tccatagacagaaagtagat tagtggttgc9241caggggctag gagaattggg aggaacagga tttctttttagggtaatgta aatgttctgg9301aattagatgg ttataatggt tatataatat tgtgaatgttctggaaacca Ytgaattatg9361tactttagtt aaagtggtga atattgttaa atgactttatttcaaaatta gaattaaaag9421aacattgact ttggcatcaa ttagtcccag attcaaatctgagttctatg actttaggct9481gttcctatgt aaaatgggtc tgattcctgc ttcacagggttattgtaaag actgattcag9541aactgtatgc aaagctctta tcttagtgcc taacacctgccctaatcact cttgttatta9601aagttctgaa cttggtacgc tttgctactg tgtgtcattagagatttggg gcatagacac9661aaagtaattt agtgttaaga tttgcagggt atgttgtaggaaggaagtat tgcttgttga9721gtttctcaaa gtagaaagcc ttatttcttt agaaaaacgttagcctagtt ccagacccct9781ctaacaatta ctttgtcaaa ttttaggaga ctggggttgggaaaacagta aatagcttgc9841gaaaacacga gcatgttgga agctttgcca gggacctagtggcccagtgg aagaagctgg9901ttcctgtgga acggtaagaa catttctctt taggtttgttcaatttcatg gttaaattta9961cagatagaaa aggttttctt tattatttct cttttgccttctgaaattgt tttgcctcaa10021ttataaaaaa taatccatga tcattgtaga atattagaaaatattaaaaa tagaaatcaa10081aatttcctat ttctatcacg caaagacaaa cgttatgaacattttggtac gtttcttttt10141tttttttttt ttttttttga gacagagtct cgctctgttgcccaggctgg agtgcagtgg10201cgtgatctcg gctcactgca agctccgcct cccaggttcacgccattctc ctgcctcagc10261ctcctgagta gctgggacca caggcacccg ccaccacgcccggctaattt tttgtatttt10321tagtagagac agggtttcgc cgtattagcc aggataggatggttttgatc tcctgacctc10381gtgatctgcc cgcctcggcc tcccaaagtg ctgggattacaggcgtgagc caccgcggct10441ggcctggtat gtttctttct aactgctcct taaatggcatttttttaagt tgtgaactag10501ataaatagtg agcagccccc attttatata acaaattaaacatgtcccca tgttttaata10561aatctccaca ttttcatgta tatgagatat ttgatctttgcatcttgtgg ttaaactcac10621catttctcat ttgggttttc ccagttttaa gatttgagtatctttaagca taacctactt10681atcttcttct taagaccttg ttgtttctaa ctctgcatcttcacttcttt ggtgagttca10741gattctgtga ctttgtccct caagaagcaa gatttagacctactttgtct gctttttctt10801ttattttaga aatgctgagc ctgatgaaca ggactttgagaagagcaatt cccgaaagcg10861ccctcgggat gccYtgcaga aggaggagga gatggagggggactaccaag aaacctggaa10921agccaYgggg agccgatcct atagccctga ccacaggcagaagaaacata ggaaactctc10981ggagctcgag agacctcaca aagtgtctca cggtcatgagaggagagatg agagaaagag11041gtgtcacaga atgtcaccaa cttactcttc agaccctgagtcttctgatt atggccatgt11101tcaatcccct ccatcttgta ccagtcctca tcagatgtacgtcgaccact acagatccct11161ggaggaggac caggagccca ttgtttcaca ccagaagcctgggaaaggcc acagcaatgc11221ctttcaggac agactcgggg ccagccaaga acgacacctgggtgaacccc atgggaaagg11281ggttgtgagt caaaacaagg agcacaaatc ttcccacaaggacaaacgcc ccgtggatgc11341caagagtgat gagaaggcct ctgtggtgag cagagagaaatcacacaagg ccctctccaa11401agaggagaac cgaaggccac cctcagggga caatgcaagggagaaaccgc cctctagtgg11461cRtaaagaaa gagaaggaca gagagggcag cagcctgaagaagaagtgtt tgcctccctc11521agaggccgct tcagacaacc acctgaaaaa gccaaagcacagagacccag agaaagccaa11581attggacaaa agcaagcaag gtctggacag ctttgacacaggaaaaggag caggagacct11641gttgcccaag gtaaaagaga agggttctaa caacctaaagactccagaag ggaaagtcaa11701aactaatttg gatagaaagt cactgggctc cctccctaaagttgaggaga cagatatgga11761ggatgaattc gagcagccaa ccatgtcttt tgaatcctacctcagctatg accagccccg11821gaagaaaaag aaaaagattg tgaaaacttc agccacggcacttggagata aaggacttaa11881aaaaaatgac tctaaaagca ctggtaaaaa cttggactcagttcagaaat tacccaaggt11941gaacaaaacc aagtcagaga agccggctgg agctgatttagccaagctga gaaaggtaac12001cccttcagcc ccttggtggc ttcccaccca gagcacctggccctgcagag ctcagaggat12061tgccctgcca ctgttttcct tagcttgctt ttggggggcatgttgaattt cagtgtgcag12121taatttcctc tgggcttcac tggttgtcag ggtatatggtaccgcaaata agaattttct12181gcattattct cttgtgatgg gctcatctgt atttatttcctgactgaggt ggtgtcagac12241atgactgtgg ccccctccaa cctggatctt cctgtgcaagatgtccagtt aatgctcccg12301ggaatagact gtaggaaaga gagctgtgct tctactcactgactctccac ccatgggtct12361gtcccctgca ggtgcctgat gtgttgccag tgttgccagacctcccgtta cccgYgatac12421aggccaatta ccgtccactg ccttccctcg agctgatatcctccttccag ccaaagcgaa12481aaggtaattt tctatatctt ctttttctta atgggaaaaagatttaaaaa ttcattcaag12541gcagggtaca gtggctcaca cctataattc cagcactttgggaggccgag gtaagaggat12601tgcttgcggc caagggttct aaaccaacca ggcgtggtggctcactcctg taatcccagc12661actttggRag gccgaggcgg gcagatcacc ttaggtaagaagttcgagat tagcctggcc12721aacatggtga aaccctgtct ctactaaaaa tacaaaaattagccaggcat ggtggtgcgt12781gcctgtaatc ccagctactc cggaggctga ggcaggagaattgcttgaac ctgggaggtg12841gaggttgcag tgggccgaga ttacgccatt gcactcaagcctgggtgaca agagggaaac12901tctatttcaa aaaaaaggag ttctaaacca ccctggtcaacacagcaaga tgctgtctct12961acaagagaaa aaaagtagcc aggcatggtg gcacatcccaggtactcggt aggctgaggt13021gggagtatca cttgagccca ggagttcaag gctgcagtgagctctgattg catcactgca13081ctctagcttg ggtgacagag caagactgtt tcaaaaacaaacaaaaaaac tatcaccata13141acatcagatt tttgatgcat ttcctaagtg catagactctgaagtttgat ggcttgggtt13201tgaatcccaa ctctggtttc tgcaagttat atgaccttgagaaatatctt aatttctttg13261gaccttagtt gtatatattg tgtaaatggg agttataatggtatctgccc catagggctc13321agtttaatga attcagaagt gatgcctttt tgctctgggtttatcacata gtaattgttc13381agtaaattgc tgctgctgtt attagcagcc ctttatcctatgtgttacat aggatttttg13441tctgaaagaa aaaaatgtct aattttcata gcaaaagaagtagaagccac ataagggtct13501atcagcagga gactaacaga taaatcatgg ttcatctacacagtggcatc ctatgccaca13561gtaaaaaaaa aatgtggaaa gtctatgcac tgacatggaatgatctctca gatgtggcaa13621atgaaaaaaa gcaatgtatg tagtgagtat gttattaattgattcattgg cttaaaagga13681ataagataca tttgcttttt tttgttgttg ctgttgagagtcttgctgtg ttactcaggc13741tggagtgcag tagctccatc ttggctcact gcagcctccacctcctaggt tcaagcaatt13801cctctgcctc agcctcctga gtagctggga ctacaggtgcatgttgggca ggctgatctc13861gaactcttga cctcagatga ttcatStgcc ttggcctcctaaagtgctgg gattacagga13921gcttattttt aaattctctg gaaggatcta caaaaatctgtagcgtggat tgccattggg13981aaagggaagt aggaggctga agggggtaga aggagagttttcactggatc acttagggcc14041ttttgtgttt ttcttgccct atagcgttct cttcaccccaggaagaagaa gaagctggat14101ttactgggcg cagaatgaat tccaagatgc aggtgtattctggttccaag tgtgcctatc14161tccctaaaat gatgaccttg caccagcaat gcatccgagtacttaaaaac aacatcgatt14221gtaagtcaca cgcttctctc tagctctcaa gcacattgtagcacttggac cttatcactg14281ggtggcttgg ctgctactca gtgtcttcac ctttggtttctctgcagcaa tctttgaagt14341gggaggagtc ccatactctg ttcttgaacc cgttttggagaggtgtacac ctgatcagct14401gtatcgcata gaggaataca atcatgtgag tattctgtttgggtgggaag agggcagttt14461tctggcttgt acctccagaa atagctttgt ccctgtgactccgctgtggc tgaagggcag14521atcagtggtc agagcattgt tctggatata tttggtttgccactgggcct ttaaacaagc14581atgttattag cacttgctcc tggcacctta agtgggcctcttgggctagg atcagggtgg14641gattcaaagg gagaagaaaa acacttaaca tctcccttgagcttgcctag tcatgaaggt14701aaagggagaa ttctggcagc agagtagctg ggacccagggcggggaaagc actttgtgtt14761gacactctga catctggtga ttggctggat gtctcttaagaaacatcaag atttatccag14821aatcctcctt aggatgtagg gtatacacat ttgattgcatcagctgtctc tctttaattc14881tgaaagttct atgacctaac accttttttt ttttttttggagatagggtc tacctctgtt14941gcttcgactg cagtacagag gcctaatcat ggcttactgcatccttgaac tcctgggctt15001aagtRatcct cccaagtagc tgggactaca ggcacataccaccacagctg gctaatattt15061ttatttttta gagagatgga ctctcagact cttggcctcctgaagtgctg ggattacagg15121catgagccaa cgcgcctggc caataactta acatccttcttaggttgccc ctttgccatc15181acagttcagc gtagtgttgg gaagtacctg atttgacttgatcgcagttc taccctttgc15241tgattttcta aaggaaaaga ctgatgttac acagatttttgtgatattct gtcacagcca15301ccaaaagcaa ctagcatagt gcctcacact tcgcatttttaaaatttagg gagttatttt15361tttcctagaa ttgtggtatt ttaacaWact actaagatgaagaccaaaaa atttttggga15421aactggtcac tcctaggtaa ttaaataatc agaaaaagatatgaggctgg gcatggtgac15481acacgcctgt aatcccagca ctctgggagg ccaaggtgggcggattatct gaggtcagga15541gttcgagacc agcctggaca acatggcaaa accccatctctactgaaaat ataaaatagc15601tgggcgtggt ggtaagcacc tgtagtcctg gctacttgRgaggctgaggc gtgagaatcg15661cttgaaccca ggaggcaagg gttgcagtga accaaaattgcaccactgca ctgcagtcta15721cacgacagag caagactctg tctcaaaaaa aaaaaaaaaaWatggaaaag tgcttgtaca15781caaatgatgt cctggttctg gtttcaggta ttaattgaagaaacagatca attatggaaa15841gttcattgtc accgagactt taaggaagaa agacccgaagagtatgagtc gtggcgagag15901atgtacctgc ggcttcagga cgcccgagag cagcggctacgagtactaac aaagaatatc15961cagttcgcac atgccaataa gcccaaaggt aacagagacgggagagctgg gggagaactg16021gcaggatgag tgttctggtc aatagcaggg tgttggtgggcttggctggt gtaggactgc16081ttgcccctac atcaggtagc agggtgggta tttcttctgccaccgcccat tctaccctac16141aagtggggtt tcagggcact caaaaagccc gtggattatttaaataacag tagcatctct16201gctcaagaag gcagatgttc atctccataa ttccacaggccgacaagcaa agatggcctt16261tgtcaactct gtggccaagc cacctcgtga cgtccggaggaggcaggaaa agtttggaac16321gggaggagca gctgtccctg agaaaatcaa gtaagatctgtgttcttacc tggcttttgt16381gtgctatcaa cccttagagg tagccatagc ggcaggaagcaaattgcttt tggtgaaagt16441gaggcagtgc agactgtggg ctctggaggc agacctcatcagctcagcac ttccctcacc16501tccctcagcc tccgcttctt ggactgcagt gcaaggtgataattacccct gccctagggt16561agtcaagatt aaatggagag caaagcctgg cttatgggaaacattccctt atgctttccc16621ttttcccatc taaacaaaaa acacatttct gcaatgattgttattttgtc taagccacat16681tagccttttc aaaatacaga tttataccaa aacagtgaaaagttagttga gattatcatt16741ttttctgaaa ggataatgga gacatctctg agccaccaccagaatccagg gtgatagggt16801ccattggtca aagccacaaa cagggtgagt catcctcacacaggccagct tcaggctgtt16861catgctcagg gcagatttct tgtgctcatg cctaaccagtgttgtcctgt gttgcaggat16921caagccagcc ccgtacccca tgggaagcag ccatgcttccgccagtagYa tcagctttaa16981ccccagccct gaggagccgg cctatgatgg cccaagcaccagcagtgccc acttggcacc17041agtggtcagc agcactgttt cctatgatcc taggaaacccactgtgaaga gtaagtaact17101tggagttcct gctcaaatat tatYtcagca ctagtttttaactctcaatg tcattattca17161ctgtattaca ttttgtggac tgcatgttgc atgtacatgatgccttgcac atagctggtc17221tgaatgtcag tccctccttc cccctgcttt gtccatagtgcattatatct cttaaatagt17281tatagtgagt ctgggtgcag tggctcatgc ctgtaatcccagcactttgg caggctgagg17341caggaggatc ccttgaatcc aggagttcRa gaccagcctggacaacataa tgagaccctc17401tacaaaaaat taaaaaatag ggcatagtgg tacacacctgtagtcccacc tactcaggag17461actgaggtgg gaggattttt tgagatggag tctcgctctgtcacccaggc tggagtgcag17521tgScacaatc tcagctcact gcaagctctg ccttccaggttcatgccatt ctcctgcctc17581agcctcccaa gtagctagaa ctacaggtgc ccaccaccatgcccacctaa ttttttctat17641tttttagtag agacggggtt tcaccatgtt agccaggatggtctcgatct cctgacctcg17701cgatctgccc gccttggcct cccaagtgct gggattacaggcgtgagcca ctgtgcccgg17761ccgaccctgt ctctggaaaa aaaaaaaaaa aaaaagtgaaagtagaaaat agtatctggc17821caggcatggt ccctgtctct attaaaaata gaaaaattagcccaccatgg tggcatgtgc17881ctataatctc aggtactcgg gtggctgaga caggagaattgcttgaacct ggcaggcaga17941ggttgcagtg agctgggatt gtgccactgc cctccagcctggatgacaga gtgagacact18001gtctctaaat aaataaataa atatcattgt gaatgaccattttggcactc ttcttttttc18061acctaaatat aaactgactt ctctaggcaa taccacagtgttcataatta ctaatattaa18121cagctaaatg acaggccctc ttactgtttt tttatagWcttataactcta gcttccaaat18181atttattctt tatatctaat tgggtcttcc aatttatttWtttWtttttt tttttttttt18241tttttttttt tttttggaga cagagtctca ctctgtcgcctgggctggag tacagtggcg18301tgatctcggc tcactgcaac ctccacctcc caggttcaagcgattctcct gcctcagcct18361cccaagtagc tgggattaca ggtgcccgcc actaagcccagctaattttt tgtattttta18421gtagacacgg ggtttcacca tgttggccag gctggtctcgaacccctgac cttgtgattc18481gcccgcctca gcctcccaaa gtcctgggat taccagcgtgaaccaccatg cctggccRgg18541tcttccaaat atttattctt tatatctagt tgcgtctattttgtattttg ttaactttat18601taccatagac tatccccagt atcctaaggg gatgtcctaacttaagtctt attctgtatt18661aattgcaggg cccatgggag ggtgggagtc ctggcttgagctacagctat gctcagatga18721accattcagg aggcaggctg gccttcctta ggcagtacttgcatagccac cttagacctg18781tttctacact ggacagattg ggggtagacS tgctgtttactggtttggct atttgtgagg18841caaagttaag ttatgactga gtatggcctt tagagtctggcaagggccgg ggcacagtgg18901ttcacacaca cctgtaatcc cagcactttg ggaggctggggtaggagggt gcttgagccc18961aggagatcga gaccagcctg agcaacatag tgagaccctgactctacaga aaataaaaaa19021aaattagcca ggcatggtgg cacactcctg tagtctcagctactctggag tctaggaggt19081agaggctaca gtgtgctgtg attgtgccaa tgcaccctagccagggtgac agagtgagac19141tctttcctta caaaaataaa aacaagaaag tctgacagagattgaattgt aattctgtac19201cttactgtac aaccatgggc aagttggcca ggctctctgagccttggtgc aggtggttag19261agagagtggt ggtcatgccc ctggcaggtc ctccgaaagtgtctgctctg tgctgttgct19321tttattgcat tgtgaacaga ggagatagtt actacttgtatctctgcctg gtggtgcaca19381gccaagaata gcagagctgg ctttgactgt aaactactgggggtgtgtct aagccgccac19441agatctgaga cagctgcctt gtttctcttt tcacagaaattgccccaatg atggccaaga19501caattaaagc tttcaagaac agattctccc gacgataaactgaggacttg ccttggaaat19561ggaatctggg gaggcaggaa tacaaggaca gtgggggttggggaatggaa ttctacagga19621gactggagtc ttgctttgtg gatccttttg gtctccgagtcctgcagtct gcaggtgctg19681cccctgggaa cctgcgtgcc acagccccgc ctccctgcctggagcacact ttagaattct19741gaagatgtga agcctctgtc tcactgagga ttttaaaggtcaattatact tttgttgttc19801attagcatct ttgtaaacta taagacgtag ttttaattaataaatattgc ccccagattg19861tatttatatt atcccccagg tttgtttttg ttttttgtcctctaccacac atttagcctt19921ttatcttcca ggtccttatt aaaatcagat gaaagcctagtgaaagccag tctcctgccc19981cagctcagct ctgtgtggac tctggtccag acagaggactgggcatctcc agagcctgca20041cagtacctgc tgcacgtagg gcaaggaatg agcactagaccgcctgtccc caagggagcc20101tcagtggggc gacagggtgc tcggcggact ccacctcaggccctccccac tgttgctgtg20161cattcctgtg caggtgcatc tctttcttac taactggtatttattaaggg aggtgctctg20221taggtctgga gcctttccct catccttttt gcgagtccccacctttttgt tttttttttt20281tNctttgagg ctcactagag gacgcagaac cttgggagattgatttgcac agaactcccc20341acctcccact tttacaattt ccagtttctg attgaaaattttagggtttc tccccactgc20401ccttccctat ctttccttcc cctcaacacc atgaaggaaaaacacacacg gcagggcttt20461ttgtagccct gaaggcaact ttagacattt aaaaKccagcactttaatct cttgttctct20521gtgaatcact atgagaagtg aatggtttta aaggctgtaatgctatgttg gaaattggtt20581tgttttgcct tttattgaaa aggtaagatc atgtgattggaagaacacaa ctRttggctt20641gggaagagga ctttgctgYt gaagtgtttt ctaccttctgagtgtgttta aggcaggatt20701tggagggaag gaccagctta gggagagtgt ctgagccacagcgtcaggat gggggaaacc20761acatgggatc catcaagttc cagttgaaca ggagcaagatcagaacttag gagggcagtg20821tcagctccct tgttggctgt caaggaacac cgatctagtagaaacccact tggttgtgac20881ccaggtagag gtagatgcca tacatttgag atatgcgtccttaaggaacc tgacaagcag20941actgaaggga tggtaagtgt gacagcctga taagttttctcaaagcccag gatacagagc21001cagtgttttc tgtaactgga gacctcagtt aggccaacttcgaattccag agcaacgtag21061gaagtctatt cagcagaaac tcgacattgt tcagtgtgtattgctgtgca gggtgcctat21121tgtgacagga cacaaatgtt actatgtttt aatttgctatatttttgaat gggtaaagca21181ttactttact tctcttggtt acttgtacca ccattccacccctatcccta gcctgcccca21241caaatctaat attaggaagc ctcttaactg aaaccaaatgaacatttggg tcaggtgcca21301gatgtctgct gcctagaata gctttttcta ggtgtctaccaccttgaatt tatctcttaa21361ctgtgtgttc aagtctttgt cattgaaact agtttttcatatcttagatt cagttgtgta21421tgatttaatg tcccttatta ggagtcttta ggcagggagggaagaaaaaa cagatttgtt21481catagcaatg tcagtatcca ttttggcaca taaagatttttgatgagccc tgtttgcata21541gagccagatg ttttcccctc ccccaagagt atctacatcagggatgtgac ttggtgcgaa21601gaRtcagggg aaagaggaaa aacccaattt ctaaatgacctccttgccca gcttactaaa21661atggctgcag agcagacaca ggatgaattt gaacctgacacaggatgaat ttgaaccttt21721ggtctcattt atggaaaaac ttgtgcaatt ttttttctgtgctacactac atacaaatca21781ccaaattaca aattaccctt ttgtgatcct tggtgtactgagcagtttct ttggggcttt21841ttctttctgg gaagcgggag ggaaaggagc aaggtgtcatcctgctcttc atttgtattt21901tggtcccaaa atgtaaatac aattttctat gttacttttttgtggtaact accgagatga21961atattttaat tagataagtt atatgaaaag gaaaattccatgtctaaata aaaaacaaac22021tccatatact gtgtcttcct tacttatagc atcagtggaaagaagttaga aaatgcctga22081ttcttggact gtttaaggca gagttttttt ttttgtttttttttttgaga tggaggaggc22141aatctcagct caccgcaccc tcctaaggca gagatcttaatcagcatcct tgggctgggc22201cttaaacgat gccgaattta gtagtaagag gaatttcagacggaaagaat tctgtgagca22261aagggcggga actcagcatt tgtggggaac aggcactgtcccttattata cttggaaccc22321tggtaacccc atcttaaaat tagaaactgg ttcaaaggggtgaaatgggg ccgggcatgg22381tggttcatat ctgtaatccc aacactgaag ggcggaggcaggattgcttg agcccaagag22441ttcaagacca gcctgagcaa catattgaga ccctgtctctagaaaaagat taaaaattag22501ccaggtgtga tggtgcacct atagtcccag ctatgtgaaaggctgaggtg ggaggatcac22561ttgagcttgg gaggtcgagg ctacagtgag ctgtgattatgctactgcac tccagtctag22621gtgacagagc aagaccagcc tgggcaacat ggcaaaaccccatctctttt tttgtctcaa22681aaaaaaaaca ggggtagggg gttaggaggg actgtggctcatgcctgtaa tcccaacact22741ttgggaggcc aaggagggtg gattgctgga gttcaagagtttgagaccag ccttggcaac22801atggcaaaac tctatctcta caaaagatac aaaactagctgggtgtggtg gcacacacct22861ttggtcccag ccactcggga ggtagaggtg ggaggatggcttgagcccag gaggttgagg22921ctgcaataag ccatgattgc cactgcagtc cagcatgggcgacagagcaa gaccctgtct22981ccaaaaaaat aaaaaacaaa cggggagggg ggggaaaggagtgaaattaa catggccaag23041ttgcgtagct aataaagtgg caaaaggaag gatttgacaccgtgattctc taactgcaag23101gtttgtgcca ctctgccttt cagtttccac gggctgtgagggaccagtag gtctcagctt23161acacgggcgt tctaatgagt acagaaggaa catgaatgcaggaaagtcgt gccagcaaag23221acttaatgag aacctgctgt ggtggctctg gctgacctgcaggagcttta gcacttgcta23281atggagccat ggatttggct tcaaccctgc atacagcaagtggattggac cttccatcaa23341acatacaaat ctgtccttta tcgattaatt aaacatttgctgagccagga cctgtattag23401accttaggat atggagtaat agactctgac acttaacagttagggaggag taactgactt23461tattgattat gcacctacta ggtgccacca ttccttcttctgtacactgc ctctgttatc23521acaatgatcc tgtgaggtaa acagtcatgg ccccattttaaaaatgacaa cttaatcctg23581gtaaatccag gggattaaaa aataaaaatg agaacttaagtcaccatagt gtctgtagaa23641ataaatttta aaaaattgtt ttaatgaaaa tgagaaaaaccgaagcacag agagatgaag23701aacttgccta agttcacaga atcagtgagc agtggtgctatgtattggcc tgactccaaa23761acacatgctc tcagtcacat ttaccatctc atacactgacatgcataccc aatttggcct23821ctgaagcaaa gctgacctcc aaaacaaaag atgcctgagccaaggccaga gtcgtttctg23881tttttttttt ttaaattctt tttttgtgat ggagtctcgctctgttgccc aggctggtgt23941gcagttgcac gatctcggct cactgcagcc tcagcctcgcgagtagctgg gattacagac24001atgtgccacc acgcccagct aatttttata tttttagtagagacagggtt tcaccacgtt24061ggccaggctg gtctScaact cccaacctca agccatctgcccgctttggc ctcccaaagt24121gctgggatta caggtgtgag ccaccgtgcc cagcctaaaaattctttatc ctcaagttca24181acagtcattt Ytaagaatga tatcttttgt ctgcttcatgtaactgatgc ccagcagaat24241cctacctggc ttatcaactt gacagatgcc cccatcacagggtttctcat ccactttcat24301ctcttcctgg ttatttgcta aatggtgaaa cagtttgtcttcagaggccc ctgaacttct24361ttctctcact ctttttgaga cagtctcact ctgtcacccaggctggagtg cagcggtggg24421atcttggctc actgcagcgt caacctccca ggctcaagtattcctcccac ctcagcctcc24481caagtagctg tgactacaga tgtgcaccac cactcccagataattttttg gtattttttt24541gggagatgga gttttgccgt gttgcccagg ctggtcttgaactcttgagc ttaatcactc24601taccttggcc tccaaagtgc agggattaca ggcatgaggcacctcgcccg gccccctgaa24661cttctctatg atgtctattg tctcaactct tttcaaagactaaggaaagt tccagccatc24721aaaattttat atcactgtat ctgtttctca agcacagagtcttgggttgg ggcctcagaa24781tatgcattta aaaagatgca actcaagtgt tatggactaaatgtttgtgt ccccccaaaa24841tgcctatgct gaaatcctaa gacccagtgt gacagtattagataggcctt tggaggtaat24901taggtcacgt gggtagaggc ttcatgaata ggattctccctcataagaga aatgagagtt24961gctcttgctc cttgttctcc accatgtgag gaaatgagaggacggcagtY tgcaaaccaa25021gaagagggcc ctcaccagac acagaattgg ccagcgccttgatcttggac ttccagcctc25081tggaactgtg agaagtaaat gtttgttgcc taagccagtcagtYtatggt aagttgttac25141agtaScctga aatgactgag acactaagcg attttttttttttttttttt tttttttttt25201tttttttttt tttttttgag gKgaagtctc actctgtcacccaggctgga atgcagtagc25261ttgatcactc tcggctcact gcaacctYtg cctcccgggttcatgtgatt ctcctgcttc25321agcctcccta gtagctggga ctacaggcgt gcaccaccaacttttgtatt tttagtagag25381atgggtttca ccatgttggc taggctggtc ttgaactcctgacctcaggt gagatcaggt25441gagatccacc tgcctcgacc tcccaaagtg ctgggattacaggcatgagc cattgtgcct25501ggcctgacac taagcatttt ttttttgggg ggatggagtcttgctctgtt ccccagactg25561gagtgcagtg gcgtgatctc agctcactgc aacctccgcctcccaggctc aagcgattct25621cctgcctcag tctcccaagt agctgggatt ataggcatgcatcactacaa cccggctaat25681ttttgtattt ttagtagaga cggggtttca ccatgttggccaggctagtc ttgaactcct25741gacctcaaat gatccacccg cctctgcctc ccaaagtgctgggattacag tcatgagcca25801ccacgcccgg ccgacactaa gcaattctta aaatgtacactgaagtttga gaactgctcc25861agagaatttg ccacagtgga atagctcttc acagcaggtccctaggtcag gactaggaag25921cttgttgatt tagtagtaag caaatacttg cattgcttcccactctgtgt cactgactaa25981gtcagacatg gcaggctggg gacagtggct cacagctgtaatcccagcac tttggggggc26041caaggtgaga gattacttga gtccaggagg ttgaaactaRcctgggcaac atagtgagat26101cttgtctcta aaaaaataaa atattaggcc aggcgcggtggctcatgcct gtaatcccag26161cactttggga ggctgaggcg ggcagatcac ctgaggtcaggagatcaaga ccagcctgac26221caacatggag aaaccccatc tctactaaaa atacaaaattagccgggtgt ggtggcacat26281gcctataatc ccagctactc gggaggctga agcaggagaataccttgaac ctgggaggtg26341gaggttgaag tgagccaaga tcatgccatt caaaataaaataaaaataaa acaaaataaa26401ataaaatatt agttgggcat ggtggcatga acctgtagttctagctactc aggaggctga26461ggtgggagga ttgcttgaac tcggggaggt tgaggctgcagtgagccaag atcatcccac26521tgcgcaccag cccgggtgaa agagcaagac cctgtYtcaaaaaagaaaaa agaaaaaaaa26581aaaaaaggcc aggcatggtg gctcatgcct gtaatcccagcactttggga ggtcaaggca26641gatgaatcac ctgaggccag gagttcgaga ccagcctgacccacatggag aaactccgtc26701tttactaaaa atacaaaatt agctgggcgt ggtggtgcatgcctgtaatc ccagctactt26761gggaggctga ggcaggagaa tcgcttgaac ccaggaggtggaggttgcgg tgagccgaaa26821ttgtgccact gcactccagt ctggacaaga gcaaaactccgtctcaaaaa aaaaaaaaaa26881aaaaaaagag acatggccct tgccctcatg aagctttcatctagtaggga gacagttatc26941aaataactgc acaaataatt cttttttttt tttttttttttgagacaaag tcttgctcta27001ttggcaggct ggagtgcagt ggcgcgatct tggctcactgcaacctccgc ttcccggatt27061caagcaattc tcctgcctca ggctcccgag aagctgggactacgagtgtg cgccaccatg27121cccagctaat ttctgtattt ttggtagaca cggggttttaccatgttggc caggatggtc27181tcgatctctt gacctcgtga tctgcccgcc tcggcctcccaaagtgctgg gattacaggc27241gtgagccacc gcgcctggct tttttttttt tttttttttttttttttgag acggagtctc27301actctgtcac cagggctgga gtgcagtggc gcgatctccgctcactgcaa gctccacctc27361ccggttcacg ccattctcct gcctcagcct cccgagtagttgggactaca ggctcYcgcc27421accacgctcg gStaattttt tgtattttta gtagagacggagtttcaccg tgttagccag27481gatggtcttg atctcctgac ctcgtgatcc acccacctcggcctccaaga gtgctgggat27541tacaggcgtg agccacggcg cccggccaca aataattctttaaagtacag gtttctgggc27601cctactgaag aaatatggtt gaataggtca aaggtaggatctggaaacag gtacgctttt27661gtaggcttcc cccaatgaac tcgatgagcg gcctggtttgggaatgtcta gtgtagtgga27721aaaagcatgc atgacctttg ggatgagacc caggttcaaatcctgcctcc accactccca27781cacctctctg agcctcagtt tcctcattgg taaaatgggaattatgacac tctgcaggaa27841ttcttataag gattcaatga cagaagggga gccacattttagtgtccctc cttctttccc27901tctaaatgtg gaatgaaaga aaaaggtttt gttttttactgatgggaatt caaacttcag27961ggtcacaagc taagaactat tttgaggtca acaagtccttcctgataaat gaaatcttag28021tgcctgcttc ctcagagtta gtttgacttt tctgttttggggccccattc taattttttc28081gggtccctta aactgcagct tctaacaacc actaaaaaggaagaccacct aatttcttac28141ggccacaaac tcaaatacca ggggtttggt atgtgacagcaggctgtgat gggaacagaa28201agaaaatgga gctattcaca cagctccact ttattgcttccgggttgaag acagggccca28261gtgttgccac ctcttctgga tttaaagaaa atggccggccaggtgcggtg gctcatgcct28321gtaatcccag aactttggag gtgaggcagg tggatcacttgaggtcagga gtttgtgacc28381agcctgccaa catggtgaaa ctccgtctct accaaaatatacaaaaatta gccaggtgtg28441gtggcgtatg cctgcagtcc cagctacttg ggaggctgaggtgggaaaat ctcttgaacc28501tgggaagcaa agtttgcact gagtgacaaa gctccagcctgggtgacaaa gtgagaccct28561gtctcaaaaa aaaaaaaaaa aaaaaaaagg aaaaaggaataggctcagca gtagttctca28621actagaggtg actttgttcc cagtatgaca cttggcaacatctggagaca ttttggttgt28681cgctgttgtt ggggagctat gggcatctag tgggcagaggccacggatgc tgctatccat28741gctacaatgc acaagacagc gcccctcccc caacaaagaattatctggcc gaaaatgtaa28801atagagccaa ggttgagaag ccttggacat ggttctgttgcagcaacaac cctcaaatct28861cagtggcttg caacaacaga ggtctcaccg cctgtccattgtgagtctga cagggatctg28921ctttatgtca tcctcactca ggggcccagg ctaagggaggtgccattccc atgcttgtaa28981gatcttcgag gcaagtagag aatattaata tattattaacattaattata ataataaaaa29041ataatattaa ttacaatatt gatataactg ttaagttttgtctagaagtg acatctatca29101ttgccatcat attgcattgg ctgcacctta attcatggggtcaaggaagc acaatccatc29161catgttcctg gatgcagaga attgggaata tttgctaacagcattaaaga ttccaaaggt29221tgggtgcacc aaaacctcag agatcaccac taaagaacttattcatgtaa ccaaacacca29281cctgttcccc caaaacttat tggaaaaaac taaaaatccagagaaaaatg tatgctgacc29341aaaaaaaaca aaaaaacctc caaaggtaat catgacagcctgggctctag gtaatccaca29401aggctcagag aagggcagct aagggcacag gctgtggagtcagacgtcag acttggcttc29461aaaccccaca ctttctagcc atgtggactt gagcatgtcacttaatctct cagtttcttt29521ctctaaaaat gaggaaaata ggctgggcgt ggtggctcacacctgtaatc ccagcacttt29581gggaggccca ggcaggcgga tcacgaggtc aggagctcgagaccagcctg gccaatatgg29641tgaaacccgg tatctactaa aaatacaaaa attaggccagacgtggtggc ccacgcttgt29701aatcccagca ctttgggagg tcaaggaagg cgggtcacgaggtcaggagt tcgagaccag29761cctgaccatc atggtgaaac cctgtcttta ttaaaaatacaaaaattagc caggtgtggt29821ggtgtgagcc tgtaattcca Rttactcagg aggaagaggcaggagaattg cttgaacctg29881gaaggtggaa gtcgcagtga gccgagatta cgccactgcactccagccta ggtgacagag29941tgagactcca tctcMcaaaa aaaaaaaaaa aaaaaaaagtctgggtgctg tggctcacgc30001ctgtaatccc agcactttgg gaggccaagg tgggcggatcacgaggtcag gagatcaaga30061ccatctctac taaccctgtc tctaataaaa atacaaaaaattagctgggc gtggtggtgg30121gcacctgtgg tcccagctac tcgggaggct gaggcaggaRaatggcgtga acccgggaga30181tggagcttgc agtgagccga gatcatgcca ctgcactctagcctgggcga cagagtgaga30241ctctgtctca aaaaaaaaaa attaattaat taaaataataataataataa ttaSctgggt30301atggtggtgt gcgcctgtag tcccaggtac tcaggaggctgaagcagaag aatcacttga30361acccaggagg tggaggttgc agtgagctga gattgtgccactgcactcag cctgggtgac30421agagcgaggc tccatctcaa aaaaaaaaaa aaaaaaaaaaacaagggaaa ataaatcaac30481cttgcagtgt taaaatgctt agaacagtgc ctggcacacagaaacagctc aggacatgtt30541agccaggatg atgatgatga tggattaggc caggcgccaatcacggagtg ggcatttagt30601aaacagttgt tgttataacc taagctctga ggaaaatgacttgtccaagg taacacagct30661ggtaagtgca gcatggtgga gaagagccta agctctggggtctcagcctg gcacatcgta30721aatcataaat attaaataat atttggagga ggttcagtgtggttaagaac atggactcag30781gccaggcacg gtggctcaca cctgtaatcc tagcactttgggagcctgag gcgggcagat30841cacgaggtca ggagatcgag accatcctgg ctgacacggcgaaaccccgt ctctactaaa30901aatagaaaaa attagcccgg cgtggtggcg ggtgcctgtagtcccagcta ctctggaggc30961tgacgcagga gaatggcgtg aacccgggag gcggagcttgcagtgagctg agatcgcgcc31021actgcactcc agcctgggSg acagagcgag actctgcctcaaaaaaaaaa aaaaaagaac31081atagactcgg tagctcacac ctataatccc agcattttgggaggctaaca ggggcgcatc31141ctttgatccc aggagtttga gaccagcctc ggcaacatggcaaaactccg tctctacaaa31201atatacaaaa attagccagg catggtgatg tgtgcctgtagtcccagcta ctcaagaggc31261tgaggcagga ggatcactta agcctggggg tgtcaaggctgcagtgagct gagatcacga31321cactgcactc cagtctgcgt ggcagagcaa gaccttgtctcaaaaaataa ataaataaaa31381ataacatgaa ctcccgaggc tgactgccgg gttcaaatcctagctctact actgaccacc31441tgtatgaact tgagcaagta actcagcctc tctgtgcccagttttctcat ctataaaatg31501aagctaataa taaaacacct gcaattagga aaattaaaaaataacattag taaagccctc31561gggacccata tggttgttag ctgctacagt attactatgccctcagttcg ccacaaagaa31621gcattcaaaa gtaacagaaa ataattaaca gtatcatttcacccacccaa ttgagatagg31681agagaagaaa atggatacaa attcagcaat ccttgagctaagaaaatgtt tacagccagg31741ggtggtcgct caggcctcta gtcccagcag ttagggaggctgaggccagc agatcacttg31801agtccaggat ttcgagacca gcctaggcaa tgtgatgaaactccatctct acaaaaaata31861caaaaattac ctgggcatgg tggcatgcac ctgtagtcccagctactcag gaggctgaag31921tgggaggact ggttgagccc aggaggcaga agttgcagtgagccaagact gtgccactgc31981actccagcct gggtggcaga gtgagaccct atctccaaaaaaaaaaaaaa gtttataaat32041ggagcaatgg gaaaaaactt ggatgctttt Yttacctgccccagggtagt cctagaaatc32101agtgagaatt cccatttgtc ctcagagatt cctgcaacataggagtgcaa gagaggagac32161agtaagcaga ggcacaaggc attactccca aatcacagctaagccaccct gcaaccctgg32221ccggctcctt acaaacccag ctcccttagc aactgcagtttcccatccaa ccagacgagg32281gcgccgagct gacagtcttg ctgctggcaa tagtgatagccgctgtgaaa gcacagtaga32341tgctcgtcca cttgtcgagg agaatgctga attcttaccacttttgcacc actgtaaagt32401cacaaagtca taagtcgaac caccataaac tggggattatccgcagtccc cccttatctg32461tgggcgatat gttccaagac cctcagggga tgactgaaatagtactgaac gctatatata32521cagtactatg cttttttcta tacatacata cctatgattacatttaattt ataaattagg32581cacgatgaga ttaaacaact aataataaaa tggaacaattatagcaatat gatgtaatac32641agttatcagg cactgtgctc ataacttttg cagtttcatgtgtggcagca aaactagcag32701gtatttcttt ttccttcttc ataatttcac agatagaagattcgttctta ctacagatct32761tagcgacctc agcacacttt attttttctt tccttattataacttttacc ttttcattta32821aagaaagaac tttatggctt ctctttgcca tatccaaattgctagcatga Ctactcttgc32881actttggggc cattattaag tcaaataagg gtgacttgaacacaagcatt gcaatatcac32941ggcagtcgat ccgataacga acagggcact tacttagtaagtgactaacg aacagggagt33001gtatacagcg tggaggcact agacaaaggg acgattcaggttccccaggt ggacagagcg33061ggacagcaca agacttcatc acgctactca ggacagcatgcaatttaaaa tttacagatg33121gtttatttct gaaaatttcc atttaatatt tttggacagtggttgactgc atgtaactga33181aaccacagaa agcaaaaccg agtcaggggc aggggaggggggcggctaca gtaatagcct33241ttccctgtgg accagatgtt ataccaaaca ctttcatgtgttatttcaca ttactgtcat33301agcactccac aacataggta ctgttatgat tcccattttatgtaagacaa atctgaggcc33361tagaaaaata aataaataaa aagaaaaaag aaaaaaatctgagacctaga gaggttaagc33421aatttgccta gcaggccaaa cctaatattt gcaggacaggagcaagaata cagctgaatg33481catacttaaa aagttataaa tgaccctaat gaactattaaataaaagaca atctattctg33541ctatgtcaat aaataaacct tcacaatgac ctggaagaccacattcacat ttttgggcct33601ctcagagttc tgtactagaa ggtggtgaga ggcagagaacaggacoctag ccctgcccca33661ttctctccat atctctaaat ctgtgtgcct ggaagggYcttgtgtccacg catgcagagg33721tcctaacctg tgtgctcaca ctttgttcta ggggttctaaattgaaaagg tccctcaggt33781atccagcaca atgaatgaca aaagagacca aagcacaacaaaaatcatca cattctagaa33841taccaagaga agatcttaaa agcttccaga aaacggggtggggtgggggg aaaacccata33901aaaagaatca ggattcagaa cagcattgta tttatcaaagccagaagaaa accagagcaa33961tttcttcaca attatgaaag aattctatcc acagccaaactactaattaa gtacagtaga34021ataaagccat tttcagtgcc acttaacatg tatggcagcatggtagccag ccactaaggt34081ggcctctaat gatttctacc tcctggtatc tgcactcttatgaagttccc gcacacactg34141aatatggctg acctgtgaaa ccatgggatg ttgcaaaattgacaatatgg gacttctgtg34201gctaggtcat aaaagacatt ggtggtttct accttgcccttagatcactt gttctgctga34261aaaccagctg ctgtatcatg aggacactca aacagtactattgagaggtc catgtgttaa34321ggaactgggg cctcctgcca agagcctgca caaacttgccagccggggct tctccagccc34381tggccaagcc ttcatatgat ttcaggctca tgagagaccccaagccagaa ccacccagct34441aggacgctct caaattccta actcacagaa actgtgagatgataaatgtt aattgttgtt34501ttgaggagag aggccatttc tcttactgtc tctgaagagaaggaagaagt aaaagctgaa34561aaacaacagg aatgaagtca gtggcaagac caactgatgccacttaccag gcctgaggtt34621aaagattaac gcccccaccc taaccacatg tgttacctatagatcacttg ctcaatctat34681cacaaccctt tcacgtggac ccccttagag ttataagcccttaaaagggc caggaacttt34741ttctttggag agcttggttc ttgagacaca actctgccaacgctcctggc cgaataaagt34801ctcttccttc tttaacctgg tgtctgacag gttttatctgcagcttgtcc tgctacagtt34861ttaagccatt aagtttggga ataatttgtt acacaacaaaagacaactaa tacagaccta34921ctgggagggg aggagccaca gtattttgca gttcttccaatcaggaggtg aagtctacag34981tctagctctc cactctagaa tttggatttg gctgatgggtcattatagaa agattataga35041tgtaaggctt aaaaagtgct tgtgctggca gggcgcagtggctcatgcct gtaatcctag35101cactttggga ggccgaggtg ggcagatcac ctgaggtcagaagtttgaga ccagcctgcc35161caacatggtg aaaccccatc tctactaaaa atacaaaaattagccaggcg tggtggcagg35221cgcctgtaat cccagctact cggaaggctg aggcaggagaatcgcttgaa cccgggaggg35281ggaggttgca gtgagcggag attgtgccac tgcactccagcttaggtgac agagcaagac35341tccatctcaa aaaaaaaaaa aaaaaaaaaa gtgcttgtgcaattgagtct tgccctctct35401tgctcctggg aactctgcaa ttatcaccat gtaatttagctaggcttgtc tgctggagac35461acgtggtccc atcatcccag ctaacagcca gcatcaagcagacgagagtg agaccatccc35521aaactttcca gcccaagctg aactggccca gaaaMgctaatccacaggat catgcgaatt35581aatcaatgtt tgttgtttaa agctatcaaa gttttagggtaatctgttac acagcataag35641ctaattgata cagcatattt actttgtgtg cacctcccgcctcaacctcc ccaccctaac35701caggaaacta ctgatgtgtt acaagaacac tacaggatgtgttcaaagcc tggttacctc35761ctaactttac ctagtctcag acaagttagt ttgcctctttcagcctcagt tttcctcatc35821ttcaaattgg agataacagt aggtaatagc acctagctctcttttttttt tttttgagat35881ggagtctcgc tctgtcgctc aggctggagt gcagtggcacaatctcggct cactgcaacc35941tctgcctcct gggttcaagc gattctcctg cctcagcctcccgagtagct gggattacag36001gcacacgcta cgatgcctgg ctaatttttc tatttttagtagagacgggg tttcaccatg36061ctggccaggc tggtctcaaa ctcctgacct caagtgatctacccgcctcg gcctcccaaa36121gtgttacagg tgtgagccac cacacctggc tgtacctagctcttaaagtt catgtgacaa36181ttaattgaga tgaactacat aatgtgctta gcacacagtgctcaaataaa tcattaatga36241aggcaacagg aaaaagccaa aatgagtaga tctccggggtaaggcctgag ttggttcttc36301aaaaggacac tcttaccaaa gaaaggctac caagtatatcagtcaagtaa acatttactg36361tttgccacat tccaggtccc ttacctgaaa ctgtgacctaaaagcaggaa taattcacgg36421cactgagcta ttttgaaaca gaaccaagct tgcttattgcacaagtaact aaaataggac36481atcaaaatat ttttcttgtt tttatttttt tgagacagtcttgctctgac acccaggttg36541gagtgcagtg gtatgattac agctcactac agcctcaccctcccaggctc aggagatcct36601tccacttcag cctcccaaat agctgggacc acaggcatgagccaccatgc tgggctaRta36661tttttaatta tttttgtaaa gatggggtct ccctatgttgcccaggctag tctcaaactc36721ctgggctcaa gtgatcctcc caccttggcc tcccaaaagtgctgagatta caggcatgag36781gcactgcatg tggcccagaa aatatttctg aatggaacttgaaaaaatgg atattttggt36841ctatacttca ccagccccac tgagcactcc agagccagatgtgaagggaa gagggtagcc36901agggtatccc ataactctct ttctgtatcc tgtcttttccccaccaggga gtaggaaaac36961attctatcct gaaaacaaga ttatttcacc tctaaacagtgacttttaat tattttgatc37021tcaacccaca atatgaaaaa cacatcatat tgtgtctgaatacaaactca aaactgaaac37081aaaagtttca tcaattgaga cttgaaatgt gtgatacattctgggttttt ttttttttgt37141attctatttt ttttttaaat gttgatcaca attctctataaacggatttt aaaacctatt37201gacaggccac aaccagctgt tcgaaaaaaa gtactttgaaatatcacatg ggggaggaaa37261cgcagagatc atctagtcca atcccttcac ttcacagggggtaaactgag tctcagaaga37321tcaagtcact tgcccaaggc cacgcagcta gtaagttgctgtggttggat ttgaccgtaa37381taaccatcgg ctactgaatg cccatcatgt gtcagccatttgctgagttt tttctttttt37441tttctttttg agacagagtc ttgctctgtc gccaggctggagtgcagtgg cgcgatgtcg37501gctcactgca acctctgcct cccgggttca agcgattctcctgcttcagc ctcccgagta37561gctgggacta caggctcgcg ccaccacgcc tagctaatttttgtattttt agtagagacg37621gggtttcatc atgttggcta ggatggtctc gatcttttgacctcgtgatc cgcccgcctc37681ggcctcccaa agtgctggga ttacaggcgt gagccaccgSgcccggcctg ctgagttctt37741taattgcatt atttcattta atactcactg tgatcctatgaaacagatac tattctttcc37801accttacaga cggggaaacg gagtctcaga ataggggaaatgacttaagg tgtcacaatg37861gccagtagca gacccaggag tagtctttag gtctggccgtgcacaaagcc ccatgctctc37921aagctgtaac cccgctatca agaaagtggt tatgcaagtgggcctgtgag ctctcaacgt37981ctaagccgtg cgcatgtgag acagcgataa gctcgcgttctccagtctcc agggccttat38041cattcctcac gctttccttc atcggctcgc aaagaaacgtggcgatcaag gaagacagcg38101aaggctccat cctcgtcggg ggaggataat tcgaatctcagcctgtgagt ttactcagca38161cacctgttta atctcttggt ccttcagttt ccacacctaggaagctggaa cagcagcagc38221atccagcgcc aggactggag tcatatacga actctggcacctgggaggcg cgcgtcctac38281gtcagttccg ctcgacccca cccYccccgc ccccccgccttctccccacg cgcatgcgcc38341gcgcagcggc gctttttacg acgcggcagg cgcggcgcgcttagttgccg gagctgaacg38401gcgcggagct ggtctgaggc gagccgagcc gagcgagcgcggcggtgggg ccgagaggac38461gcgcaggtgg cggcgttgcc atgtcgcacg gtcacagccacggcgggggt ggctgccgct38521gcgccgccga acgggaggag ccgcccgagc agcgcggcctggcctacggc ctgtacctgc38581gcatcgacct ggagcggctg caatgcctta acgagagccgcgagggcagc ggccgcggcg38641tcttcaagcc gtgggaggag cggaccgacc gctccaaggtgggccgcctg gggcttgggg38701cgggcggggc agggtgcgtg tggggcctcg ggccgtcggtctactcattt ctgatgttaa38761gaataacgac agcctggttg ccaagcgctt ttccgtgcctgtctcctgcc agctctttgg38821gaggcgagca gcgttgtctc cccattttgc atatagggaaactgaggcct agagggaacg38881gggacagttt tgtcaagcta cacagcctaa cgctctattccagggctgtg tgggctagag38941aggatggtcg tgagggccgt tggaccattg gtgctaatggctgcctcatc atattacctg39001gtgaagaYga gcctagggag atgaaaggtg gttcccatatagagcaaatg ttctttacat39061tgtggggtcg caggcccctt tgctatctgt ttgaaagcagtggaccttct tctcagaaaa39121atgcacataa acacctgcct ttcagttcac acttcagaaggctcttcgac cctggaaatt39181cattcatggg ctttttgtta agaaccttcc agttgggtggcctgtggctg ttatgacact39241ggataagact ggttagcttc aagttaataa gtcttggaaaaccaagggag agtgactctt39301cccattgcac cccagttgta gagcagggtg ggagatgcctgaaattgtag gctctcagca39361aatatttgtt gctttctcct cccccctccc catcccctccagtttgttga aagtgatgca39421gatgaagagc ttctgtttaa tattccgtaa gtatctccttggtgcctacc tcaggctaaa39481taggctgtac ccagttgcct cagatggatt cattcactggtgtcaagagc acacatttgc39541ttctagaaat gggataaatt actttggtgg gtttgaggaggaaagcatca tagctttctt39601ggtgcagact ggaaacagat gtatttgtag aacaataactgagaaattga ggtagatttc39661ttagaattgt agaatgctag aggtagacag gatcttagaaattatctagt acaagttgac39721agatgagtaa actgaagccc atacagggga agggtcttgcccagggtcac acaactaaac39781aggtattcaa actcaggttt gacaaccttc tcttttgcattctggcagat ttacgggcaa39841tgtcaagctc aaaggcatca ttataatggg agaggatgatgactcacacc cctctgagat39901gagactgtaa gtggcaaagg cttaggccct caaaggagctcctaattctc tttttctggt39961aacattttat tccagaatag tatcNtttNc ttcttaccgggtttaatatt tcccctttta40021aaatatcttg gtcctgttct cattctgcat tggaatacatatatttcttc ctgaattaat40081gactttttta gattaagcat ctttaggccc aacagcgtgtctcatatttc aaagtgctta40141ctatgacatg attcattcag agagcattgt gtaaatgtcacttgttgatg actctgcagt40201tttcttaata actagctgca gatctcatat gatctttatggattctaggg gttagcttca40261acatttttcc ttgctatttc atacagtaat gatcttatgtgttttgttga catggaattg40321ctccacctga ctttgcgtgg catttagtta gcaaagttgtgtatacctct tgcaacactg40381aatcttttgc caccagagct agtacccttt ttgacaacttaccttattcc agaacagcct40441tcctaaaaga aggggaaaac tgctttctga gtgctggagaaacatataag aagaacttta40501catttaaaaa attcagtccg ggtgcagtag cttatctcacaaaaccaata aaagatgata40561tataggctgg gcacagtggc ttacacttgt aatcccagcactttgggagg ctgaggcggg40621cggatcacct gaggttcgag accagcctgg ccaacctggtaaaaccccgt ctctactaaa40681aaWacaaaaa ttagctgggc ctggtggtgc gtgcctgtaatcccagctac tagggagggt40741gaggcaggag aattgcttga acctgggagg cggaggttgcagcgagccga gatctcgCca40801ctgcactcca gcctggatga cagaatgaga ccccatctcaaaagtaataa taaaaacaaa40861taaataaaaa attcaaatcc taaaggccga gcatggtggttcacacctgt aatcccagca40921ctttgggatg ccgagactgg ttaggagttc aagaccagcctgaccaagat gctgaaaccc40981cgtctctact aaaaatacaa aaattagccg ggcatggtggcacacgcctg taatcccagc41041tacttgggag gctgaggcag gagaatcgct tgaacccaggtggcagaggt tgcagtgagc41101caggatcgtg ccactgcact ccagtctggg tgacagagcaagactccatc tcaaaagaaa41161aaaataattc aaatcccagc actttgggag gccgaggcgggcggatcact tgaggccagg41221agttcaagat catcctggtc aacatggcga aaccctgtctctactaaaaa tacaaaaatt41281agctgggtgc ggtggcacag gcctgtaatc ctagctactggagaagctga agcatgagaa41341tcacttgaac cgcggaggtg caggttgcag tgagccaagattgcaccact gcattccagc41401ctgggcaaca gagtgagact ctgtctcaaa aaaaaaaaaaaaaattcatc tgaaaaattg41461attaaaggac ttccagagat ttaagatata ttatagttgagtattagaaa catgaatttg41521aaagcaaatc catgtattta atcattttaa ggaaataatacctttgatgc ttttggagac41581tcatttactt ggaagttgat ggactgacct gagaatattaggcatccatg ctgcattgtg41641atttagagtg tgggatctgg agtaaactgg gttcaaataatggctgtacc acttgttagc41701ttcatgactt tgagacctta tcttctctat gcctggattttctatatcta acatgggaat41761ggtaacagtg catacatacc tcataagatt gtggagaggcttaaatgaga taaaacatgt41821aaagagctta gattaggtct ggaacacagt aagtgtccaattttgggtga acagatacga41881atacatagcc ctcagttcta agcacactac atatattatactttatcaaa tgtaagatgt41941cattgattgt aaaatgtacc attatattca attaatacagaaaaaatgct attgaactat42001gacatgtcat tgacacatcc agaaaaatta gattgagagtattaaatcag ggaagtttga42061acacagatga ggtgttacat gttactaaag aattaccattcagccaggcg cagtggctta42121cacctataat cccagcactt tgggaagccg aggcaggYggattacctgag gtcaggagtt42181caagaccagc ctggccaaca tggtgaaacc ctgtctctactaaaaacaca agaattagcc42241agtcatggtg gcagtcgcct gtcatcccag ctattcgggaggctgaggca ggagaatcac42301ttgaacccgg gaggcggagg ttgcagtgag ccaagattactccactgcac tccaacatgt42361gtgacagtgc aagactctgt ctcaaaagaa aaaaaaaaaagaattaccac tgggctgggc42421acagtggctc atgcctcaat cccagcactt tggggaggccgaggcgaaag gatcacttga42481gcctaggaat taaaggttat ggtgaattaa gatcgtaagatcatatactg gaccccagcc42541tgggcaacag agcaaggctt aaaaaaaaat tatttatatagtttgagata gggccttact42601ttgtcaccta ggctggagtg cagtagtgtg atcatagctcactgcagcct cgacctcctc42661agttcaagca atcctcccac cgcagcctcc caagcagctgggaatacaga cgtgtgccac42721cacgcccagc taatttatgt atttttttgc agagatggggttttgttatg ttgcccaggc42781tggtcttgaa ctcctgggat caagcaggct gcccacctcagcctcccagt gtgctgagat42841tacaggagct agccactgca cccagccaaa aaaaaatttaaaaaagtgaa ttgctgttaa42901ttttgttatc tgttgatatt gtcaattatt gtaaaatggtattaaatata tgtattttat42961tttattttat tttatttttg agacagagtc tcactgtgtcgcccaggctg gagtgcagtg43021gcgcgatctc ggctcactgc aagctccgcc tcctgggttcacgccattct cccatctcag43081cctcctgagt agcggggact acaggtgccc gccaccatgtctggctaatt ttttgtattt43141tttagtagag atagagtttc actgtgttag caaggatggtctcgatctcc tgaccttgtg43201atccacccac ctcagcctcc cgaagtgctg ggatcacaggcacatgtgtg tatatatata43261tgtatatcta catatatacg catatatata tacacatatatgtgtatata tacatatata43321cgcatatata tatacacata tatgtgtata tatacatatatacgcatata tacacatata43381tatgcgtata tatacgtgtg tgtgtgtgtg tgtgtgtgtattttttgttt ttttaagacg43441gcgttctgct ctgttgccta ggcttgagtg cagtggcccaatcttggctc actgcaacct43501ccgcctcctg gggtcaagcg attctcttgc ttcagcctcctgagtagctg ggattacagg43561tacacaccac caggcctggc taattttttt tttatttttagtagagacag ggtttcgcca43621tgttgaccag gcagctctcg aactcctgac ctcaagtgatccgcctgcct ccgcctccca43681aagtgctggg attacaggcg tgagccacca cgcctggcccatactggaat atttataggt43741gaaatgatgt gtctgggatt gctttaaaat attgagcttaagcaaaatca ggctgatagg43801caagatcaac aaaatgttga tcatcgaaga tgagtgaaaagtatgtggag attcattatg43861taatctctgc ttttgtgtaa gtttgaactt ttccatagtaaagttttttc aatatatgcg43921ttacttagaa tcgattcaat ttcatctcca taccaaccgtgtggaatatg tactattacc43981attcccattt tacagatgag gaaacagagg ttaaatcaggtgcccaaatt tactcagctg44041gtaagtgaca gagccaggct tgaatcctag aaagtctagctctagatttt aactacagcg44101ctatactgct tctcattatg ccgctcataa atgtttactattattattat tctgtggtgc44161atcattctta gaaacacttt gaagtaaaca tttgctttcttttttttttt tttttttttt44221tttgagacgg agtctcgctc tgttgcccag gctggagtgcagtggcgcca tctcggctca44281ctccaagttc cgcttcccag gttcatgcca ttctcctgcctcagcctccc aagtagctgg44341gactacaggc gcctgccacc acgcccggSt aattttttgtatttttagta gagacggggt44401ttcaccgtgt tagccaggat ggtctccatc tcctgacctcatgatctgcc cgcctcggcc44461tcccaaagtg ctgggattac aggtgtgagc cactgcgcccggSggctttc ttaaattaca44521tgcattttgc cccagctaat atcgaggcct cttctgtgtgggtgtgtcaa taaaacaccc44581tggaattggt ggggacatgt ggcttagtct ttgggaatttgtgggttata gagacagctg44641ctttttagat tactctttga aaaacatttt cttctctagcagtttacttt ttatttattc44701tgagacagag tctctctgtc acccaggctg gagtacagtggcgtgatctt ggctcattgc44761accctctcta gcggtttgga tgtgagattg cagtcttttgtgatctttca aaatggaaat44821cctcatgtta taaatgtttt aagaactgta aggtgactgagtgtatggcg tggtttttgg44881acacaaaaaa atgcttgagc attgggttac ctgatcttttatctcttaac tgtgtgtaat44941atgtttctgc caaagtatgt atttttccca tgagtaagctgttttattta ataacatcct45001cagtttggtc tgaatgtgct gagttgttta ttttctccatgcatttgctg catgtgacct45061agtttgagcc gtctctttgt gtattgcttc tcatgtgatattaacccact caaagatgcc45121atggggttat gttgcagatc tcagctcttt ttttgttggattaaagatat ttgtaggcta45181gacgcggtgg ctcatgcctg taattccagc actttcggagaccgacgtag gcggatcacc45241tgaggttggg agttagagac cagcattgcc aacatggtgaaaccctgtct ttactaaaag45301taccaaaatt tgccgggcat ggtggcgtac gcctgtagtcccagctactc aggaggctga45361ggcatgagag tcacttgaac cYgggaggtg gaggttgcagtgagctgaga ttgtaccatt45421gcactccagc ctgggtgaca cagtgagact ctgtctcaaaaaaaaaaaaa aaaaagatat45481ttggagatac ttgtataaaa tgtcatttct aaaatatgacccccaaattc agtctcctat45541tgatagaacc aaagccattt aagcagtcag tagaaaattttgaaaacctg aaacgtgata45601atgcacattt cttgactttt ctttcctttc ctttctcaggtacaagaata ttccacagat45661gtcctttgat gatacagaaa gggagccaga tcagacctttagtctgaacc gggatcttac45721aggagaatta gagtatgcta caaagtaagc actgggcctgtcttccattc tctatggctt45781cttatagggc ttgccattta tttttggcca gtctcctgctctcttagcat tggaaatgag45841ttaaaacagt ggaggagact tgatctttgg cttggtcagtttttggcaga gattcagtgc45901aagccacaga cttgttaact tgcaagcaat tggcagatctgaatgaactc ctagggtggt45961tttaggaaag atgtgtctcc cattagttta ggttaacactaaatgtgctt tagaatccct46021gctgggttat gcagcatttc tcattcctgt tccttgagggcaggagcagt gtttatccct46081actgccttgg acaggatctg gcaggtgctc agtaaatggtcattgaatta attgcctgtc46141caaaggagaa ggaagaactc aggagctctg Mctttgcctggcttttacaa gctggagctg46201aattgttgtt tcacatggtg gtgagatact cattgaactataattcatac cttctttccc46261tattcctgtc atcctctaga atttctcgtt tttcaaatgtctatcatctc tcaattcata46321tttcaaaaaa cttcggagca gatacgacaa aggtcttttatattggcctg agaggagagt46381ggactgaggt aagatggggt tggaaaggtt ttcccctcatgtctacatat ctgcacactg46441tggtgatggg agcttccagg gaagggaaaa gagcaagtgtcataattact cccagtttat46501tatttttctt ggttttatca gtataaactt ttcgtctcatttgagaaact acaggtattt46561ttaagggggt tgaaactgtt atttttatat aaataatatatataatatat atatatatat46621ctcagctcac tgcgacctcc gcctcccagg ttcaagtgattctcctgcct cagcccccca46681agtagctggg attacaggtg cocactocca cgcctggctaatttttttgt atttttagta46741gagacagggt ttcaccatgt tggccaggct ggtctcgaactcctgacctc aggtgatctg46801cccatctcag cctcccaaaa tgttgggatt acaggtgtgagccaccttgc ccagcctgaa46861attgtcattt atattaattc acagttttct actttcaaatgctttcattg agtatttttg46921ataatctttt ctattcatga accagggata agataataccatagacaagt tcctattctc46981atggtacccc cattatagta gggagactga atcttcaaagttacagggtg aatcaatgat47041aatgatcttt gcagctttct ggagttaaaa agtatcaaaattgggagata ttagatgatg47101acatctaagt attaaaataa ggagatatta aatgatgactcctagaaatg aacctgaata47161aggactaccg caatgtgtgt ggtgtgggaa aggacagttcttttaatggc tggctgaccc47221agcctcaatt ttcttgcagc ttcgccgaca cgaggtgaccatctgcaatt acgaaKcatc47281tgccaaccca gcagaccaYa gggtccatca ggttaccccacagacacact ttatttccta47341agggctggcc aaggctccca tagaggcgct gtgtcagtgaagatgtacga ctacctgttg47401ggaaggacaa agggatgagg ctccagagag agttggctgccacagcctct gccaagcttt47461gtctttgggg cttgctgcag aaacctggcc tacggaagatacgacaccac tgggagggtt47521gtgtaggtgc caggggacca tcgtggttct ctagggcgctgtggaaattg ggtcttgggc47581tgggtggcat ctggcagtca tggRtaacac ttgcttttccagttaatgtg gccatgtgat47641tccaagtgtc atgttgcttt gtggcaagat tgttgtgtgacttgtttttt tgtttttgtt47701tttgtttttt taaaggaaac tatttgtggg ctataggaaactttctgatg cctccggatt47761gtgttagtag tagccatcag gagggtctcc aactaaaacacttgttcctg cttgctcctt47821tcccctctca ttgttcagca ttcttgtcaa gttgcccagcttggagttgt ctgtcacgca47881catgtgtcct gtggttatag ctagaaggac aggagtctcctgctgatgcg tgatagctta47941agcttgggga gaaggtcttt tccactgcct agctaagcagtctggggaga gcatggggat48001catttctatg tgtgtgggta atctggtcag taagattgagacttagttaa gattcccctt48061ggaaattcct taatgtttat tagcttctaa ctagtgttgtaagtccgatg ccagaatttg48121gagatttgag ttcttctttt catggctttt attcactgtgactaataagc ttcctaataa48181atccttgcca gacttaatgt ttgtattttc ttttgagttcttgatagcca ctgatgcaac48241tttcatttca tggggaactg tactgaactt tgaaattttttgttgttgtt ttggactagg48301tagattatag gaagtgccac aattaaatca agactggagccgggcgcggt ggctcacgcc48361tgtaatccca gcactttggg aggccgaggt gggcggatcacgaggtcagg agatcgagac48421cacggtgaaa ccgtctctac caaaaataca aaaaattagccRggtgcggt ggcgggagcc48481tgtagtccca gctactcagg aggctgaggc aggagaatggcatgaacccg ggaagcggag48541cttgcagtga cctgagattg caccactgca ctccagcctgggtgacagag tgagactccg48601tctcaaaaaa aaaaaaaaaa aaaatcaaga ctggatcagtttctccagga atggtcaagc48661ttaattttgt acagtaggcc aaaaacactc ctacacccatatatagtaaa gaagaaggtg48721gggttgaaaa cctgtatttc acagaaatta actgggcatggtggcgtgca cctgtagtcc48781cagccacttg ggaggctgag gtgggaggat cactggagcccaggaggtcg aggctacagt48841aagccatgat tgcgccactg caccccagcc tgaggcaacagagtgagacc ttgtctcaaa48901acaacaacaa caaaacccta tatttcattt tgcacaaaaggaagtgattt gtagaatgac48961atttacaaaa ataagggaga acagattttg gagctcatcagaagaaatga gggtgaggaa49021agtaattgag cagctcatgt ggtctccagg tagaccaaagactttggact taaattttga49081aagtcagttt agcaattgaa gagaatgtaa gtatctaaaaaggggatttg atatggtcag49141tattctctcc cttgcagaaa acaggaacag gtaataaagggaattagtgt tgaatctgat49201ccttttggga gaattcctct gaggcattgg cccatgctgttgtttggagg atatagccac49261tgtttctcca gcctgtccta ggaaaggtct gotaccaccaaaccttgttg gccctcaaaa49321tttctaaaat gcagcctgaa ataaaccaga atgcaaatgctgttcttgaa aagcatgaag49381ggtcctattc actcagccac agcctcttta tttcagttggatcatttttt ggagttaaaa49441gaagggctat gtttaaattt ggagtagggg gaaaaataaagttaaaaatc ttagagcaga49501ctagcccttc actaattcca ctaattaaag cattaatcacagctcctggg actgagcctc49561tgaatttgaa gcttcactct gaagaatttg ttttaagtgtcatggtgtct caggtgatcg49621aggttgcagg aggaactgtt cattcttcca taagtggggacattaccctc cattttcttt49681tgacattcag tcctgggtcc ttggcttgtg gtggtcccataggctcaaag gtttcctgcc49741ccgaatcctg gtattgtagg ctccctgacc tgttgagtacttaggaccaa agtgcctctg49801ggcctggggg aaagtgcttt gttgagcttc caactttgtactgttttctt tttcttttct49861ttcttttttt tttttttttt tttttgagac agagtctcgctttgttgccc aggctggagt49921gtagtggcac tatcttggct cactgcaagc tccgcctcccgggttcacgc cattctcctg49981cctcagcctc cccccgagta gctaggacta caggcgcccgccacagcgcc aggctaattt50041tttgtatttt tagtagagac agggtttcac cgtgttagccaggatggtct cgatctcctg50101acctcgtgat ccgcccgcct cagcctccca aagtgctgggattacaggag tgagccaccg50161cgcctggctg tactgttttc tttctgttca aagaaaacactagtataggt taggctggga50221gagtgagtcc taagcggctg agggtcaagt gtgactcatttcctatttgc agatccccac50281acattctcag ggacatgctc cttcaactca gtttgcctgccttctgactt ttctgtggtc50341cctgatacct atttccactt cagcttgatg gcagcgttttgtgcactgtc tgcatgacat50401tgcttgtgaa gggcagcgct aacactgcca gtgcctgtccagctctcctg atacggcctt50461tgtatttttc ctaggtcctt ttttgcgtga ttaacacctcacgctgtgat tttactgtat50521aaaccatgtt cacacaacct catttaagcc taccaacaaagctgtgaagg aggcagggtg50581gttattacca ttttatatat caggaagcag atccagagaggcagaattta aatggaatcc50641cgaggttgct gtttacatgc cttccttgag cctcagtttccccatcttca aggctggaga50701actagatgat ctgtaaggtc tcttcggttc agagtgtgtcattccattca tgatcctgga50761atagggcatg aaagccagtg gcagaMaccc gaggccttaagaggtgtgtc ccatgaggat50821gggaaggtgg taaagtttat gcaaacaata gtgtgagggatgcctctcct tccggtcggc50881cctcctccag gaggcgcatg ggtggtggta gcaagtgggagtcttgggtg ccctgtctcg50941aatctacaag gtgggagcgg gtgagaaccc agcgactgcgcggctgaatg acagggagta51001gccccgccgc ctccaacatg gcagcttcta tccagcgaagccgggtcccc gcttccKggt51061tccgtactgt cggccaggct acttccggca gcgcgatggctgggttcccg ggactcgaac51121ggaagttccg gcgggggcgg ccgaggggga agagtgtgtctgcgggagaa agaggagaat51181cgcccaagcg gcctcggaag tcccagggag tggaggtacccagccggcgg CtgCggagga51241tgggcgtgta gggggaggtc ggcctcggga gggtcccggagagcggggag ggggaaccgt51301gatggggggR atgggggtgg ggagtgaggt gcgaaggcgctgtccagtct tggggacttc51361gggagtggag cggggctagg caagggggtg tctgagtataaagagacaga cttcagggtc51421ggaaatagaa gagcccattg tggggcgggg gcttccccagagtcaaaggt acaaagcttt51481attgtgggca ggtgggagtc ctgggtcagg gtagaaaatttcactgggta gggtgacctt51541tggtcagaac agaagttccc attgtgggga gcgggagatcctgggtcagg gtggaagttc51601tcaaggtgta tagagagaga caggtcaggg ggaaggcacccctccgagga gggagcctgg51661gcgggaggtg caagtcccca cggtggagaa ggaagggaatcgcagctcag ggcaggaggt51721gcattcccca tgggaagagg aaccccgggt cacaggtgaacgatcccatt gtggggagct51781gccctcaggg gtcagagatg gaaggtgagg ccagttgggaggggtgggca ggcacttgag51841gcaggtagtg gaagcttccg gcgagtttgg aggacgccgaggatggggag gggccagcca51901gcctgacatt cttttgtgtg tttgggagtc ccagagcgtggtcaagccag ggctcgtttg51961cagtcagtgg cagcagcagc aggtagctcc gtttaNggggggcgtggagc accagtttgg52021gggtgggtgg agttcttacg ctttctgggg acatgggcagccccctgggg gtctgggaat52081ggatgggcca gaaactgctg tgaaggctgg atgggggctgggtgggggga ggttgagatg52141ggggttggag gcggcactga gtaggggatg gaagctcctttccctggcac ttttctctcc52201atttcccata gggcccggag ttggggaggc agggacccagggatgattgg agaggagggg52261gaaggcactc acccctgagg agttagaggg ggaatgaagcaggcgtgccg ctgcctcccc52321tctgccccct gccctacagt ccctatgccc tgcctctgcctgtctccagc aagctcaggt52381cctgtggttg ggccagaacc agagacacat gttctgggccactagggagg ctgtctctgc52441ctttcagccc tggaactgag gcagacttct tctcctgtgccctgggactt cttgcttgac52501tattctttgt gcccaggaca gaacctgggt gctgtgtggggctgaKggcc tggtggcctc52561ttgggccagg agtgtgtcct gtgcctggtt ttgctcttgacYgccgcccc gatgtatgca52621ggcccccgcc gtggagccgt gtggtgtatg tgtggtaacaccatgtctgt gcccctgctc52681accgatgctg ccaccgtgtc tggagctgag cgggaaacggccgcRgtaag ggtccccttt52741cacccacggc cagacactgt gggagcagct ggaggaccggctggaggggg tgtgggaaaa52801tggaggtggc agtgatgagc agggagtatc ctgaggccagcaggctcggg gtagtaaMct52861gtttggctgc tacctgggtt cccccaggtc cttgggggtgggggaggggt gggcagaagt52921tggaggacct agggKaagcc ttcctgtYtc cccatttcccatccttttcc aggttatttt52981tttacatgga cttggagaca cagggtaagt gactgaggaggggtgctcct taaggagggg53041tcctggccca gcagcggact ggagaggcct tctcttcctaccacatcgga gccttttctc53101cYgtccctcc tacaggcaca gctgggctga cgccctctccaccatccggc tccctcacgt53161caagtacatc tgtccccatg cgtgagtgtc accccagcaagggaggggct gaggctgggg53221atcatctggg ggtggtcctg tcatcccagg cctgttctctcctgtcagtt gcatcctggg53281gcttgggctc agggcagtca gaagtggcat tttcagcctgagctcctgtg gagcccccag53341gagtggggtc cagcaccagc ccccagccct agggcctcctagacctgagc tctcctagaa53401cccacacctc cctttgcccc ttccccaagt actcaccgactacctgggac cccgtcacac53461caagcgctgg gctctgcttc tccattactg gcgctttgccccaaccacag cctccagccc53521cacgtggcag gttgcctggc aacaccttaa acacaggccctgcctgctgg gaggggccac53581caggggcggc gcggccccac tccgggctct gagctctggcctcctcattc ctcctgagca53641tgatgggccc tctggctctc tttccccagg cctaggatccctgtgaccct caacatgaag53701atggtgatgc cctcctggtg agtttgggag tgggggtgggcagggggacg aggacacttg53761ggctgaggga gccacagggg gctggctggg gttttctatagctgccagtg cctctactcc53821caaggtttga cctgatgggg ctgagtccag atgccccagaggacgaggct ggcatcaaga53881aggcagcaga gaacagtaag accccagccc ctcctccacatcctccttcc cctgcccccc53941aggaaagcgc tgggcggttc ctcagcctag ctcccttattgggccccttg gcagcttccc54001tctacccact catgccccct cccccagtca aggccttgattgagcatgaa atgaagaacg54061ggatccctgc caatcgaatc gtcctgggag gcttttcacaggtgagggga gaggggtggg54121ggggtagggg gtaggggtgg ccggtgagtg agctgtgccMtcatgacccc tctctctcct54181ccctccaggg cggggccctg tccctctaca cggccctcacctgcccccac cctctggctg54241gcatcgtggc gttgagctgc tggctgcctc tgcaccgggccttcccccag gtgaatgtcc54301ccactgaccc ccccgccctt tgtgtctgca tcctcgtggcttggggactg ctgcagcact54361agctttgccc tgagtcctgt ccggcctcca ggcagctaatggcagtgcca aggacctggc54421catactccag tgccatgggg agctggaccc catggtgcccgtacggtttg gggccctgac54481ggctgagaag ctccggtctg ttgtcacacc tgccagggtccagttcaaga catacccggg54541tgtcatgcac agctcctgtc ctcaggtcag tggggggaccatttcccact cccacttctc54601tgcctccagc caggtgcctc tcgtgatccc ctcttaatcccctcaggaga tggcagctgt54661gaaggaattt cttgagaagc tgctgcctcc tgtctaactagtcgctggcc ccagtgcagt54721accccagctc atgggggact cagcaagcaa gcgtggcaccatcttggatc tgagccggtc54781gagcccctgt cccYaccYtt cctgacctgt ccttttcccacaggcctctg ggggcaggtg54841gcaaggcctg gcYgggcctt ccttcctggc cttagccacctggctctgtc tgcagcaggg54901gcaggctgct ttcttatcca tttccctgga ggcgggcccccctggcagca gtattggagg54961ggctacaggc agctggagaa aggggcccag ccgctgacccactcactcag gacctcactc55021actagccccg ctttgggccc cctcctgtga cctcagggtttggcccatgg ggccccccca55081ggcccctgcc ccaactgatt ctgcccagat aatcgtgtctcctgcctcca ctcagctgct55141tctcagtcat gaatgtggcc atggccccgg ggtccccttgctgctgtggg ctccctgtcc55201ctgggcagga gtgctggtga ggaggtggag ccttttgaggggggccttcc ctcagctgtt55261tccccacact ggggggctgg gccctgcctc cccgttaccctccttccctg caggcctgga55321gcctgtaggg ctggactgag gttcaggtct ccccccagctgtctcacccc cactttgtcc55381ccactctaga gcagggaggc agtgggggag gagttgtgtctYgtcttctg tctccatgtg55441gtttttgggt gtttttcttS ttgtgtcctg gattccgataaaattaaaga aattgcttcc55501tcaacgctca ggcctggctg attctattcc aggggtggatagtgaccatc tgtgagaacc55561tgccccagtg taagaaaact tgtttttatt tttaaatactttggaaagct ctttcagagc55621aatataaatg agtgcctggg aggaKgaggt tttgtgccaRagccttgccc cctcactcac55681tcttgggggt cctgatgaac tcttggaccc tgtggaagataagagttaRa gacctMggcc55741tcctggtcag tggagccctt ggcctcatgc ctggtgggctaagcgggccc agctggggtt55801tgaggtaggg gaggccttgg Yttggcccca gcagctccagggccctgagt tcctgccaga55861ggctggagag caggcagctg ctgcttttcc tggtccttggtaggggaggg tcctcaggct55921tgcgtgccaa agcctgaagg attctgcttc tgccagcgccagagatcctM acctgcaaca55981cggcgaggtg tgtgctcagg gcccacggtg gaatgcagagcctcccccac cccacagccc56041gccctgggtg ggcatgccca gatctgattt agcccctccctggcccctaa ctgcaggggt56101caggccagca ctcacacatc ctgtccagcc ctaaggctgctgtccacccM agctcctctt56161gggccaRgct Kgggttggcg taacaggctg ccacatcaccttcccgccgK gcMaccacct56221tgtacgggat ctgcaagaca ggaggtagtt ggagcttaKctgagccggcc ctggcccagc56281tgctggccag gtctttaaga agcagaagtg cagagcagcggctggcccgc aggcaccggg56341tgctaggcag gctgaggaga ctgggcagtg ccaggtaccctccagagagg tgagtgggaa56401gggccaaagc tgctctgttg ctgagagctg ggtggggtgaggtgggtgag gtgggtgggg56461Ygggggggcc taccttcttY ccagaRgcct tctccataRcctggaccatY tgcagcactg56521aatagcctgt gcccgtgccc agKttgtaga tctggcccacggagaacagg gtttatggag56581cgggctggac tgaccacgcc tctgggccgc tctgcctggatctggtccct cccctccctc56641acttctccct tctcttccta cccggcagcc acactgttctttcagcttcc ttaaggctgc56701aatgtggccc ttggccagat ccacgacatg gatgtaatcccggacacctg cagagaaggg56761agtgtgttgg atggggagtc tgttccccct gactctccttcctggctccc actcctaggt56821ccccctSgtc ctaggctcac ctgtgScatc ctctgtgtMatagtcattgS caaagacatt56881cagggcctcM cgtcgcccga tcgccaMctg gaggtggagatcaggtcagt tcgtcccaga56941tcccaggcac cagctttaac cccagggcca ctcctctgtcccttcccttt tgccttacct57001gggagacata aggcatgagg ttgttgggta tgccctggggatcctcacca atgcagccag57061aggcatgggc acctgtgggg ttgaaatagc gcagcagcactgcgttccaa gtctgtggga57121tgtgggtcag gtggtgaggc cagaggcaca ggcagcgtgtcccagctgaa cccagagccc57181tcctcatgcc tattctgttt ttttgagatg gagtctcactatggcccagg ctggagtgta57241gtggcctgat ttggctcact tcaacctctg ccttccaggttcaagcaatt cttgtgcctc57301agcctcccga atagctggga ccacaggcac acaccaccatggccggctaa tgtttgtatt57361tttagtagag atgggggttt taccatgttg tccaggctggtcttgaactc ctgacctcag57421gtgatctgcc cacctgggcc tcccaaagtg ctgagattacaggtatgagc cactgcgccc57481ggccagttgt ctatttatta tctttagaaa caagcaggggatggggccct ccactgcaac57541tgcctgagcc ttagcttcct ccttagtggg ggtgttcggaatcccacccc tgggctcagg57601gtgggccctg aggagtccat cgatcagtgg agccagggcactgtcaaggg ggccctcacc57661ttgtctgcct ggcacaggtc ccggatcatt tcctcgatgaagaacttgga cttgccgtaa57721gggttggtac aaccacccgt ggggtgggcc tcatcaaggggcaggtRctg ggggttcccg57781tacacagtgg ctgagctgct gaacaccagg ttcttcaccccgtgggcctt catgatctgg57841ccgtggagag atggcatcag tgacctctgc ctcacacattactcccaccc tgttactcct57901ccacaggaga atggggctga ggtgatgagc actctcatttacagatgggg aaactgagac57961tgggaggtaa agacatgagt ccaggatgat acagcttgggctctgtgttt ggcactgcct58021gccaggctgg ggtccagctg gacaccctcc tagtgtctgtgccctgtccc atgcctctca58081cctccagaag ctggatggtc ccggtcaggt taactctgtaataatccaga ggcttctgca58141ccgactcgcc cacggccttg agccccgcaa agtggatgaccgccataaag ctgtactgca58201ggggtgacat ggccagaggt tgctctactg gttttagtccttggcaatgc cctcagcctg58261cctgcctgca ctcacctttt tttttttttt tgacagtctcgctctgttgt ccaggctgga58321gtacagtggt gccatctcag ctcaccgcaa cctccacctcccaggctcaa gccatcctcc58381catgccagcc tcccgagtag ctgggaccac aggtatgggctaccatgccc agctaatttt58441tgtatttttc tgtagagatg gggtttcact gtgttgagcaggctggtctt gaacacctgg58501gctcaagtga tctcctcacc tcggccttcc aaagtgctggaattacaggc gtgagccacc58561gtgcccagcc tgcacccacc tttttgaaga gacgctgtagggctccctgg tccaaaatgt58621ccatctcctc aaactccaca gagcggcctg tcagctcctggacccgccgc aggctctcag58681gcagggagcc ccctcctggt agggtacatg taggccacatcatcacgaca tggggtgctg58741tgttcccagg gactagccag acacacattc cccScccggtggtggaggtg gaacccaggg58801ttttgcttct gccatcccct caagtagccc cagccccactgccccgctca ccacggaagg58861cattatggaa gttatcgatg accacaggca agtagccagcctccagcagc tccagcaccg58921tgtggctgcc aatgtagcca gccccacctg ttaccagcaccttctctgcc atggcacctg58981gcccaggata cagagtctca gaggtggctg aggctgcctgctcagagctt ccttcccact59041ggaatcctgc cccctaagct cgctttggaa ggaggcggcagtgtgcccta ggtaccagac59101tggctcagaa gtcagccctg gggcaagtct gggtaccatcactttctggc cttaggcttt59161ggaaattaat tagcctcttg gcctcagttt ctatctctgtaaaacagagc taataattgt59221ataaacttca tgaggcagcg tgagggttca gtgaggtgatcttaagggcc cgccacagca59281gagctgggga gacctgacac acaggcacct tattttctagttccacttgc cttggagttg59341gaaaagatgg aatctgagga tccacacttc tttgtccaaggtgactgagg actggagagt59401cctgggcaga aggaaaatgg cagcacgatt gggactccagggtYgcagga aRgggttctg59461tctgctcaga cccaggcttg tccaatgcct ccgccttcgctaggtgtaaa ctggctcctg59521ggcgcagtga ctaatacctc ctgctctagg cggcccccaccccctttccc tcaagggtca59581gctgggagga agcaggaaat agatcacatg gcctcaagggtgaggtcctt tgccaggcag59641gctgaggcca gctcaggggc aaccacaccg tggttggtcctggagggggc cccaccccaa59701cccccgctca gcctctgccc atgccagggc cagcccggtcactcctggct caRagttagg59761aatcccgccc aacttaggct actctgggtg ggccgtgtagacgtggactt ggccaggtgc59821gcacctccac cctgaacaaa ctctgcgggt agtacggggaggaagcccca gacactgagg59881cctttcattc ccagcgaccg ggcccgctgc cgccttcctccacgctgcct ctatcccctt59941ctgggctcac gcagctccaa cccacttgac caagagccctctgcgtgcca ggctccgtac60001caggcacttt tgcatgattt tcctgaattc ccccagcatctcggtgagac aggtgttatc60061actggcactt tacagataca gatactaggg ccagagaggtgaaacagttg cccttcggtc60121ccacagctgg cgacagcggg ctggaatctg gatcgccaggctcgcagccc ggccctctcc60181ccaggcggct cgcccttccc ccaccgctgc ccgctggactctgcccgccg cgccgaagcc60241gcccccgccc ccgccccgcg cctggcgcgg accccgaaagtggtcgcaga gaggccctgg60301gaagcacgaa agctggtctg aggccggctg cgcccccgacagcggagtga ccttgctcag60361ccgtcgccca ctcggttttc ccagtctgtc tgttggagggaaggggagct aggccgtggg60421catacgaggg cggctgggtc tcaggctggg ctttgggctgtagcgcggag cggggccgag60481ctaggagtcc tcaggccggc aatgaatgaa ccccggccgccccagcccgg gcagcgggga60541actgggacaa agggggcggg cctgccctgg agggacgctgccaggaacac gacccgcccc60601tcggaaactc cctcgctccc cgcggactcc ccggcccctcgcgagcccac ccggcccttc60661attccgtctc ccgaacctgc tcgggttccc gcgccccacgcttgctgcag aggcaccgcc60721tcctacgccc gagccgcggg ccctttaagt gctgacggcccactcMggcc ccgaccccgc60781ccctccacgc ccccaaggaa acatgtcact cgggttacggccactacggg gagggcggga60841ggacaaaagg cctccgcgct gtgacgaaga ctgcgcagcgcgcgcccgcg gaaggcggaa60901gtgggcggtg ccaccccgcg agaggcgccg ccggcgccaggtcccagtag cgggtgggtc60961cttgccggtg ccccgggtcc ccgcgctagc tcgtcccaacccctggaaga gggctgcgct61021tccgaggggg cagggggcag agggtagggg gcccacgcctccgccccact ctgacccgca61081ggttttcaga cttgccggtg tgtgccaaac catgaattcaaaatcttgaa ctacScgatc61141ccacgggact aaggcaggag ggggtcgcag ggggcctggtgctggaagtc cagtttgcaa61201ataaaccaag gagctggagg aagctgtcag gccacactagcggttccagc gctcttggct61261ctcagccccc acctgccggg aagggtcggt ctgcactctgccttccacga cggcaggtta61321gaaaatgatt gtttgtttMc aatgaaaagt agtagagctagagaataata tgcacaaaat61381gtgacatcct gcgtgatgaa accagagcaa aggagccctaaatgcaggag cgcacaggtg61441tccgcgcagc cgggaatcag ccagcgcctg cccgcagagtccagggaacc gacaggtgag61501cgctcccggg cccgggagcg ccagggagag gccgggccaccgaggcccaa agcagcaagt61561gtgtcctcag gggagcttgt gcaatagccc cagtcacagaggcaaagctc agaaacaacc61621ccgtcgggtg ttctggccag caactgccgc aagcagcctcctgagtaagc ccaaaaccac61681tgatttccag tcactatgga tttggggctc aggtggggaaacagggagga aatccaaaga61741ttaataaact agttcatagt ctccattttc ctctcagagtgcaacatggt aaagtatttt61801actcccccac gcgcatgtat acacacagct gcacaaccgaatgctggaat tatgatgtgc61861cattcaacct ttaattacat aagctgtttt caaaaatcacattcagcgtg gagattttcc61921aRagatgctg gagttggcag aYggccacca cgtagctYtccactttccac aaatggcctc61981tgccagcttg ggaagaacct ccatgacctg tgtcctgagaagtcagagag caagggcccc62041acggccatgg cagggtggag ccgtgtaRag ggtggccaggtggccagctc gcggattcca62101tccagagagg agactcaagg atcatgctaa gtagggaacggggttcccac acgtcctcag62161gcattcaact cctgggccag ggtccgtaac aaagggagacttcagccctc aaagcctctc62221actcctcagg tctgggcagg aggtccttct gccaagcagctcctcctgcc cttcgcctgc62281tttctgccag gagagacctc tgtgtagagc tggctatgaggtacctgcac catttaacct62341attctcattt ccatgtcccc atccatgaat catctgtgtgtgcccctatt tccacatcat62401ccccagggct tcaggtgggc aaggggctca gagtttacaggtagcctgag ccactttgga62461gctagttttt ctgttcaggg cttgacagat aaagtttccagcttccagaa gcttctggag62521attcacaccc tttgagaaac aagttagagg atgcggtaagtcatggtatg ccctcaacac62581cagggaaaac atcagcatgg Rcagacaact gtgatactgaaaagtaaagg tgaagataaa62641caggcttttt ccttgacagc Rgggcaccag ctgcctgtgagctcctgtct gtctggcacc62701tgggttattc ctctgactcc ccctcatgta agatgcccaatctctgtcat ggtttgtagt62761gccactacca gggcacagat cttatcagtc ttgttcagtactccctcttc agggcccagc62821acagggcctg gcccacagag gtaaaaaact gatattcaagtgacaattgt gaggcagaga62881gKgagggata aaaacaccaa ctgaaagggc cagacagaaaccctctgttc atacagtagc62941tcatatttgc tgaagtgcac tctgtgctca gctctgtgataagcattcta cataactttt63001ctttcttttt ttttttggag acagagtttg ctcttgtcgcccaggctgga gtgcaatggc63061acgctctcag ctcactgcaa cctctgcctc ccgggttcaagtgattctcc tgcctcagcc63121tcccgagtag ctggggttac aggtgtgtgc caccacacccagctaatttt tcttttcttt63181tttttgagag ggagtctcac tgtgtcgcca ggctggagtacagtggcgtg atcttggctc63241actgcaacct ctgactcctg ggttcaagca attctcctgcctcagtctcc cgagtagctg63301ggattacagg tgcgtgccac cacacccagc taatttttgtatttttagta gagatggggt63361ttcaccatgt cggccaagct ggtctcgaac tcctgacctcaggtgatctg cccaccctgg63421cctcccaaag tgctgggatt acgggcgtga gccaccgtgcccagcaattt ttctattgtt63481agtggagaca gtgtttcacc atattggcca ggctggtctcaaactcttga cctcaggtga63541tccacccgcc ttggcttccc aaagtgctgg gattacaggcgtgcgcctgg ccctctacgt63601acgttttctt acttaatcct cacaatggct ccatgagatggatggcatta ttattcccat63661ttcttaggtt cagagagatg aaataatttg tctgaggtctcatagcctgg gagtggcagg63721agtaggcttt aaacccagtt ccatctgatc tttaagcacagatgctattc tgcttccgtc63781ccgccactga gggccctggt ggactctggc ggatccctggtgagctgtct aacgctactg63841tcctcatttt acagagaaca aaacaaagcc aagagagaactgactcattt caggtcatga63901acctgaccct tcccagggcc ccttccatgt tcctggtgtctcctaggaMt gaactgtcaa63961agtcaccctg acactccagc cttcttatgc ccatgcgtgtggcctcactc aaccctactc64021tcacaaacat taaaatatta gatcaaatat ccataatccccaacaccctt cccctctttt64081gttttgtttt gaagagatag ggtcttgctg tttcacccaggctggagtac actggcagga64141tcatagctca ctgcagcctc aaactcctgg gctcaagtgaccctcctgcc tcagcctccc64201aaagtgctga gattacaggc atgagccact gcgcctggctaaccctttcc ctctttactc64261ctcagcacct taacaacccc aaataccccc atccacttttgttctcagct tcaggccccc64321tggtcagttc ggggctgtcg ccaccagggg gtgggtgggcttaccgtgtg aatgcccaag64381ccctctagca tgtagaccag gtcttctgtg gccaagtttcctgatgcccc ctgtgcgtag64441ggacagcctc caagtcctgc cacagaagag tccacgacactcactcccat ctagaaacat64501aaggatggtg aaacacagtt gttgctgggg acaagaggccacagagatga gccttgcaaa64561cctcccaatc gtctgttgcc tgaaattcta gagtcattctttgctttggc ttatgattct64621gttgacatga caatcccaca gaaagagaca gtgcttctccttttagtttc tgttaaactg64681tttcctctgc cagcagtatc tttcctttca tggtgaactctcattcttta gNttccagtc64741tgaaagccac ctgctcaggg agaccttttc tgatcaccagcctaaccccc tcccactgct64801gagatttcag acccctgttg tttactgtga ttcatttattaccccccccc cacttacccc64861ccaccacctc caggctactc tcactcagtc agggccttgccacacgaggg ccacatccca64921tcttcccagg tcagtcacct cccactatcc caaatgactatttcactttc tcctctcttc64981ttaaacctct atcaccccct tccccatcct cattctcatctgctgcttta tggaaatgga65041tgcaatcaag agatgtctcc attgattccc accatcacatctacccacct gcctacatct65101gggcctacag acccactgtc cctcatgctg cctgagatggacccYgagct cctagccaag65161gccaacccct ccaccttggc gtgaggccca ttcccacctgcttcaggatg tgctccagta65221agtctctccc tctctgctgc aacctgttac tcccctccactgggtcatct tcacacagcc65281tgcgatctct cccatctttt acaaaccttt ttggaaccctctaacctcca atttctttcc65341ccccattcaa agcaaagtcc ctcaaaagag ctgttcccatttaacatcta ccattctcat65401ttgaacccat tcgaaacagg tttgcgtccc cacaactcctccactgaaac agctctagtc65461aaggccactg gtggcctcca tgtagctaag tacaaaggtcaagtctcttc atctttgcac65521ttgactagcc gcatcatctt ggacaccttc tccatgtggcttccagggct ccacatccct65581tggttttcct cctagtgctc tagcctctcc tgaggcctcgatccagtctt tgctggctct65641tcctcacctc cctgatctcg gttggagccc ttactgctcattcctcagac agcttctcta65701tctccactca ctcccagtta actgcaccca ggttaacacacctgcctata gatgtctcga65761gcttcacaga tcagaacacR aactgctgag atccggtcacgcacctctgc cctccaggcc65821tccttgccat gtctctcacc tggattgctg taggctccaaactggttctt ctctctacag65881tgtattctct acacagcacc cagaggagcc tcttttttttttttgataag aagtctcact65941ctgttgccta ggctggagtg cactggcgcc atctcagctcactgcaaatc actgcaacct66001ccacctcccg ggctcaagtg attctcatgc ctcagcctcgcaaatagctg ggattacagg66061ctcacgccac cacgcccagc taatttttat atttttagttgagacagggt ttcaccatgt66121tggccaggct ggtctcaaaa ctcctgacct caagtgatccacctgcctca gcctcccaaa66181gtgctgggat tacaggtgtg agccactgtg cccagccgaggagcctctca aacggaacat66241ttcagatcat ctccctcccY gcccctgctc aagactctctgttagcttcc cagctcagtc66301tgaaagagtc aaagtcctac aaggcccccg atctggccttcctctaaccc tgacatctct66361gcccccctct cctcagtcac actgctcccg ccacatgcctcctcctgatc cctgaacaca66421gcaagcacac tcctccctca gggctctgcg cctgctttcctgggtggggc tcccttccct66481ccccctccct gctagggatc cgcagggctc actccctcgcttccctcagg tctctctcaa66541atgctacctt ctgagtgagg ccactctaca gaaaggcctggcactgcctt aacctgcttc66601attttttctc cacagtgttt atgaacacct ggcctgctgtatgtttgttt atttattatc66661tgtctcatag tactagagtg tcagcctcat gagggcagagactctgtttt ggtcacagct66721gaatccttaa tgctgagaac agtgcctagc acactaggcaccgttaggtt aggttttaat66781aggtgaataa atggtcttac aatgtgctat ttacacgcctgtaatcttcc atctgtcttc66841cccacccacc ataacatgag ctcccagagg gcagggattgggtcttgtta ccattgtcta66901agtcagcact taacctggca catcgatcca tatttccgaagtaactgatg gaagagggag66961gtcagaggaa gctactgcca gacgtcacac agctcaacctgttccctgat aaattttcaa67021aaaggggatt ctgagatatc actgccatga aacagagaagcacagaggag caggagtgtc67081ctgagcRtga tcaggatgaa gttttgcctc agactcacctcagctgtgca gaattcccct67141ttacctgcct ggcaaggcat aggagaggaa gtcactcttcctgtctgcct ggctgggaaa67201cgcatgagct gaaggaaagc ccaggaacca gggcagggtatcacagtaag ctgaaaaatg67261aggagaccac agaactacga accttaacct tgacagccacaactctgagg aaaccgaccc67321agaacataac agactcacct ggcttagaca cgaacctctaggggataatt gagaggaaaa67381aaaaagtggc tggaactgcc atcactatcc tagagatggaaggttaggcc aatgctacag67441caaggtagct gtggtcagac actaagaatg ctccttctatctggctgcca gccaatggat67501ctccattctg gaccagocca cgagaagcaa acctcaaaggaaactaatct gaggtcttag67561ctcaatctgt ggggaacggc attaaagcct ctccctctgagtgacctctg ctagcttctc67621tacctcctgc ttcctcatct gcttctgcta cacacccgcacactgaaaac cctgtatatt67681gtatgagtcc tccctgaacc ccacatcagt cctgaggtgcaattctgcct agtcatcttt67741cctcttccct caacagcagc ttactttatg ttcttcaagcttcactgagg cctcttttgc67801aaatcctccc agatctcctc agctgggatg gggcccctctaggcttcctg agccccatgc67861ttcctccctt catggcatct gtcataatgc agtgggattgccatgtaact cccttgactg67921tctccccaac acagagYtgt acacttcaca tctgggcagggtcaccatga ctgtgtccac67981cattgccagc ttggaacctg gcatactggc atcagtaaatgtttgctgaa agaataaatg68041ataacaagct gtcctgccca ccgtgacctt tgggagaatgggcatatgct tttgattacc68101tgcagggcca tcaaggtgtt ggccagggct tgaccataggtgtcatggca gtggacagcc68161agggcagcca gaggcacttc ctgcatgaca gcagaYagcatgtctttcat gatccctggg68221gtgcccacac caatggtgtc ccccagggag atctcgtagcagcccattga gtagaacttc68281ttggtgacct aaggaagcaa gcaggcactt ggaggatacagaatccacca gccaggggat68341ccatgcactc agaagagggg gcctttgcct gggcagaacacttctgggta tgacgcactc68401agttcctact ggattacatg ctcctcacca ctccaactgggaatgatgat cctcaatcta68461tgatcaggag actgaggcgt aaggggcaga gccagccgctggagccagcc cacagtcctg68521aagctccaac ccccgtgctt tcctccctac ctgtgcccctcagacttcag tctcacttac68581ggctgtcaca tcatactgtc agacccaggt gctggaatcagtgaagttga ttccttccat68641gtcgttttat cctcagcaat aaaatccatg aaatcatgggtctgagatgc tagttatatt68701ttttttcttt tttttttttt ttttttgaga ccgggtctcactctgtcatt cggctagagt68761gcagtgKtgt gatctcggct tactgcaacc ttggcctctcagactcaagc aatcctccca68821cctcagcctc ccaagtagct tggaccatat gtataaaaatgtatatattt tacatatata68881tattttttga gacagagtct cactctgtcg cccaggctggagtgcagtgg cacaatctcg68941gctcactgca agctctgcct cctgggttca agtgattctcctgtctcagt ctcccaagta69001gctgggatca taggcaccta ccaccacgcc ccactattttttgtattttt agtagagacg69061gagtttcacc atgttggcca ggctggtctt gaactcctgacctcaggtga tccacatgct69121tcggcctccc gaagtgctgg gattacagtc atgagccaccatacccggcc aatcaatagt69181ccatatatat atatatatat atattttttt ttttttttttttagatggag tctccctctg69241ttgcccaggc tggagtgcgg tggcgcaatc tcagctcactgcaagctccg cctcccgggt69301tcacgccatt ctcctttctc agcctcccga gtagctgggactaccggcgc ocaccaccac69361ccccggctaa ttttttgtat ttttagtaga gacggggttgcaccatgtta gccaggatgg69421tctcgatctc ctgaccttgt gatctgccca tctcagcctcccaaagtgct gggattacag69481gYgtgagcca ccgtgcccgg ccaatagtta tattttttaatagaggtaca tcactattta69541aatttttgga agcccatttg cacatctcta aaaccactgcaaaatgggtc catattggaa69601taggtccaat atgggtccaa ttggaataag ccatactggaatagggtggg cccctaatcc69661catacgactg gtgaacttaa aaaaagatgg cctcacccaaggagctgctg cccacacggg69721gctgctggac aaggtgcaga gggatgtggc agggaaaggggaccagaaga caccagtgat69781ctgctaaata aatgaaatgg tgacgtcgct tccccagtggccctgcagag tgtggggcgg69841cagtggctgg cctttagggg gcagcagggt gcaggggaaggagcaggcct ttgaagtcac69901gagatgctgg gttaaagtcc tagttctgct gttcactagctgtgggcctt ggcaagcaac69961ttcacttttc tgagcttcaa tttctgcttc tgaaaaatggtgatgaccct ttggtcataY70021ggcaaggatt gtggcaactg aggctaagac ctggagcagggcagctgctc tcaagaaaca70081gttgctactg ttaccattcc acctatctgg atgccacaaagtatcctggg aagaagtggg70141ctttggagag agaaaaaatg gggtttgata cctgatttcaccatttgtaa cctgtgtggc70201aagttattta gtgtcagttt tctcaactgt aaaagggaataataatacca aatttgcaca70261gtggttttga ggactaaatg acataagttc ttgggctggtcaaactcaat tcccatgcca70321tgttcttctc agtgttgacc tggtgactgt tcagaggacatcagggttgt ggcctttcaa70381tcactacaag gaactatggg aactcctggg taaggagcccctcctcagag aatcacctca70441acgaccagac tggaaactga attggaggtt ttcaggctggatagaggcca ggggcttcaa70501ggactacatg ttcggctagg aggggggcct ctagggagcaagtgcagggc tgtgctcaca70561gcaggagctt aatgaaggag ctgggtgaat gaatgaagtcaggaacctgc cagaaagggt70621ggggagagga acctatgcgc tcaggggcag acaaggtggccaaccctcac caaacccccc70681gccctgacac atgcacacac ctcagctact ttagctggggagatcttccc ttcataaggg70741cagccaagag cacaggagac gtacctgtgg gaagacaggggaggaatgag gtcagtgtcc70801tgagcttttt ggctagcaga actgaggcag ggctgtttaacacacatttc tgatcagtgt70861gcaatcaaca cctgcagctg ggcggagtaa gggcagggatggtacaattc agtgccagga70921ggaggcagta gagagcaatg gcagggaact gggggacaatggacctacaa ttgaggaagc70981agaagttgca caggcctcag gagaggcagc caaggatttacaataagcgg aggaggagct71041agagagggca aggagagtaa gcagctgggt tgtaaggtggggagatggag caaaactacg71101tgccagagga gctggggcca gtactccaaa aggagaccaaagactgggta aaaccaaact71161cagaacaaga gctgagttgg atatgagtca gtaacaggctgggctggcct gaggaccaag71221ggatgagctg ccccagtgag atgctagagg attcattcattcatttattc acctgatgtt71281tactgagttg cctgctatgt gccaggcact ggcacagagcagtgggcaag actgataagg71341ttcctgccct ctcagagctt atctcaagtt agggagatggccaataaaaa agcaaccaag71401taagtaatgg agaaaatctc agaagtgatg tgccacagaggaaagatggg aaatgatagg71461aacaagtgga ggaggccaac tagtgagggt ccaggaaagatccctctgag gacaggatgc71521tggagccgag aggagccggg ggtggtctgt gagaagagcattccaggcag agggaagacc71581tgggcaaagc cctgagacag aagagccagg catgctccagacagaacaaa ggacagctga71641ggcagacaga gcaaggggaa aggaagtatg agatgaggaggtcagcaagg tgggcacagg71701tctgatcatg ggtcttaggg ctatggtaag gagggtggatttgggatgta ggtgacttct71761attcccacct gcccttttgg gagctgtctt taaaaccctttagagtcaag caaattctgc71821atattaagag gcataataaa tgttcaacag ataaataatttcagactcaa agatctcagt71881gtacttttcc attttgatgc tcccacttat tctcdaaccactgctgagca agaaaaaggt71941aagagagatg cttagaaaga cacagatctg ggagttgggccaatgttact ggagcacctg72001cttccccatt catccacctg cccgtcagtg actgagtgcccactgtggct aggccccaag72061ctgggagagt ggagcacccc agggactggg agagatgtgggctttgccct catggagtgc72121acggtctagt ggggtggggc agggagggaa tttaacaagcagctaagtgc tacatttaga72181ggatgtcccg acaccatggg gtcccagaga agggcactaactccagctga aggactggag72241cagcttctca gaggaactga ctcccacaag aagacctgaaggatgagcag gagttatccc72301cgagaagcat gatgtggagg aagtgttctt tattttttggagacagagtc ttactctttc72361acccatgctg gtgtgcagtg gcatgatttt ggctcacttcagcttggacc tcccaggctc72421aggtgatctt cccaccttag cctcctgagt agctgggactacaggcacat gcaaccacac72481ctggcttttt ttttgtagag ctggggtttc accatgttgcccaggcccaa gccagtcaca72541aactcctggg ctgaagcaac ctgcccacct tggcctcccaaggaaggttg ttctgagtct72601agagagagca cgtgcaaagg cccagaggca agagtggaggcatgtgacaa acagaaagaa72661gttccagttg ggctggagtg taccatgaag aggaagcaggggccagaagg gaacttgaac72721ggtacggcta cagaaaagag ccgggaccaa atcatgcaRggtttgtaaac ctcattaaaa72781agtctgcact tgattagtca ctgaaagctt tttaaccaggagggatgtga tcagatgtgc72841acttttgtgg ggtttttttg gtttttgttt ttgagacagagtctcactct gtcacctagg72901ctggagtgca Stggcgtgat cttggctcac tgcaacctctgcctcctggg ttcaagtgat72961tctcccgcct cagcctcctg agtagctggg attacaggtgcatgccacta cgcccggcta73021atttttgtat ttttagtaga gatggggttt ccccatgttggccaggctgg tttcaaactc73081cttacctcag gtgatctgcc cgcctcggcc tcccaaagtgctgggattac aggcatgagc73141caccatgttc agcccagatg tgcacttttc aacgatcattctggctgcaa tgtttttttt73201tttttttttt tttttttgag atggagtttt gctctgtcacccaggccgga gtacagtggt73261gtgatctcgg ctcaccacaa cctccgcctc ccagattcaagtgattctcc tgcctcagcc73321tcccaagtag Mtggaattac agctaatttt tgtatttttagtaaagacgg ggtttctatc73381cactaccacg cccagctaat ttttgtattt ttagtagagatggggtttca ccatgtcggc73441caggctggtc ttgaactctt gacctcaggt gatccacctgccttgtcctc ccaaagtgct73501gggattacag gtgtgagcca ccatgcccgg cctctggctgcaatttgcac agcagtgtga73561ccttacagta gagtattcgc ccttcctggg cctcggttttgtaatttata aagtgaggat73621aacctactcc ctgctgggct attgtgaggt ttcaattattatagataata cacacacaat73681gcctggaacc actgatatta gagatgtgat gttggaaacatagaagccta ggtaattctc73741cagggatgtg tgaagagcta gtgataaagc caggactcaactgacctcca caaacccgtt73801agtgtcctgt cctgctagat tcctttagca tgatagcagtggtgctatca tggctcactg73861cagcctcaaa ctcctggtct caagccatcc tctgcctcagtctcccaagt tgctaggact73921acaggcgcat gctatcatgg ctagctggta aactgacccaaaattcaggt ttgagagaaa73981gtacttccta ggatttcttc tgaccacact tatttgggaaaagatgtcta ggtgtggagc74041tcaggctgcc cccacccagg ataagaagtt tgtggcaggaggaccacttg agtcagagtc74101tagccccatt ccagaacggt acagaggaaa ggataccaatgtgctctgac tcacccccgc74161acagaaatat tggctgactg cgctgccttc aggattgcgtcaaacctctg aaaactctcc74221tctatggaac aattgatgtt cttcttggtR aagagctctgaggcagctcc aaagatgact74281acttccttgg ctccagcagc aacctgccaa catccaggtgaactcctttc agcacttttc74341tctttttttg tttgagatgg agtcttgctt tgttgcccaggctggagtgc agtggcatga74401tctcggctca ctgcaacctc cacctcctgg gttcaagcgattctcctgcc tcagcctcct74461gagtagctgg gattacagga gcccaYcacc acgcccggctaatttttgta tttttagtag74521agacagcgtt tcaccatgtt ggtcaggctg gtttcgaactcctgaccttg tgatccaccc74581acctcagcct cccaaagtgc tgagattaca ggtgtcagccatcatgcccg gccagcactt74641ttctctttaa agaacactga cacagagtag caaaaaatttctcttaaggt aaattttatg74701ttatgtgaat gttatgggtt gaattgtgtc ctcctaaaaatatatgttga aggattaaaa74761cccagcacct cagaatgtga ccttatttgg aaacagcgtcattgcagata tcattagtta74821agatgaagcc atactggaat agggtgggcc cctaatcccatacgactggt gaccttaaaa74881aaagatggcc agccgggcgc agtggctcac gcttgtaatcWcagcacttt gggaggccga74941ggcgggcaga tcatgaggtc aggagatcga gaccatcctggctaacacag tgaaacccca75001tctctactaa aaatacaaaa aattagccgg tcgtggtggcacacgcctgt agtcccagct75061actcRggagg ctgaggYRgg agaatcactt gaaccYgggaggtggagStt gcagtgagcc75121Ragatcatgc cactgYactc cagcctgggY gacagagcaagactctgtct aaaaaaaaca75181aaaacaaaag atggccaagt gaagacacag agacacagaaaaggtggccc tgggaaaacg75241gaggcaaaga ctggagagat gcatctacaa gccaggcaatgccaaggact gctggccacc75301accagacccc agcagagagg cataggacag attctcccagaggcctcaga aggaaccaat75361cctgctgaca ccttgatttg ggacttctgg cctccagactgtgagagaat aaatttctgt75421tgtttttaag ccacccaatt tgtagtgctt tctttttttttttctttttt ctttttttga75481gacaaagtct tgctctgtca cccaggctgg aatgcagtggcatgatcttg gctcactgca75541acctccgcct tccgggttca agtgattctc ctgcctcagcctcctgagta gctRggatta75601caggtacctg ccaccaagcc tggctaattt tttgtatttttagtagagac ggggtttcat75661cgtgttagcc aggatggtct cgatctcctg acctcatgatccgcccgccc tggtctccca75721aagtgctagg attacaggcg tgagccaccg cgcccggcctgtagtgcttt cttacagtag75781cactaggaaa caaacacagt aatttctctt aattaaaaaaaaaaaaactt tgattttccc75841caaggaaacc accaccactg ccatcaccac cctggaagtcactcttgaga aaaagctttt75901ttttttttct tgctgtgtca cccaggctgg aagagtgcagcggtattatc atggctcact75961gcagcctcga actcctagtc tcaagccatc ctgtgcctcagtctcccgag tagctaggac76021tacaggtgca tgccatcaca gccagctaat tgattttttttttttttttt gtagagacaa76081ggtctcctta tgttgctcag gctggtctca agcttctggcctcaagctgt tctccggcct76141cagcctccca aagtgctggg attataggtg tgagccactgtgcccagcca aaaaaaggtt76201tttgcctaaa tacagaacca acgcctccaa agatgttcttgtctaaaatt gtaagaaagt76261tggcagatgc cagcaactac tgttgaaact cttgtggagagtttggttac atttctctaa76321agaagtggat aatcaaaaga gctaacattt attaagcagttaccttttat ctggctcttg76381ctaagcaatg tacatgcatc ctatcttctg aaatgctcacaacttcaggt actatcattt76441agccctattt tataggcttg tcaacttgtc aagatcacagagcagtgagt ggcagggcca76501ggtttgcccc agggtctggc tgacagacaa gctattcagatggacatccc aggacagggg76561actgaggcgc caagacaagg cagggaccaa tgccatcaatctcatttcag gagcccccac76621caacaagcta tcctcttacc gctgcctcga agcctttcaaatttggggtc aggactgggt76681agttgatgcc aggaaacttc tgaatgccct tcaagacttcagtgtggtca cccatctagg76741aaccaaggga gacattgcca agtcatcacc aagagcagacagagagttca gttagagaaa76801accttttcat cacaaaacct ctgttctcca gaactcttagcgagtaattc cttctgcaga76861gctgagtctc tccaatactt ttactgtttg tttgactgctgatggctcag aagggccctt76921ggtttggctg agatcccaat ttctccatat ggcccatactgccagcttta catatgcaga76981aacagcagga atactactac cagccattta ttgagaatgtactctgggcc aggcactgag77041ctcagctctg tgttaagcac tcctttgtaa caggatgtttcttcttcact taactatctt77101tgtgaagcag gagttgtcaK tcttcctctt ttacaaacaaagaaaccaca gacaggcata77161gagggtttta gactttaggg ctagaagagg tcatctctaacactgaggag gggaaggcct77221tagcaatgtc actgagcaag tcagagcaga gccaagactgaacccaaggc cctgaatcct77281gggtcatgtt cttttgctgc aacacagtgc tatgaatcacctgagacctc tcaaagccag77341gggcttggaa acctatgttc tcaacttcta cttgcttcaaaggcaaatgc aaaacttttc77401atccctRgag aaaggccttt cattgagggc tagggctcacctggggaacc cacttaggag77461acacaaagct ggtggtttct ataacagaga gtcctgcttcagaaagcatg tctatcagct77521tgattttcac tggagtagat acgatattct atagtggagagagaaacacc aaggcagcaa77581agttagtaac aaaacagcct caaaatgcag tacctgttagttcaagtact atagataatt77641ttttgcagtg gatgcagctt ctcacctgaa aaggagttatttacatagaa acattattct77701gccatgcagg ctttcccgta agtaaatgtg tgttaatttataatcccatc ataaacaaac77761tgagagcaat gtgtgatggc ctgaaagggc agagatgactaaccctctgg ggagtatggg77821atggggcccc caaagtatca caccctcctc gcttctgtctcccaattggc ataggacttc77881agcctcatgt gttcagcgta tagcttcttt atcttcctccccaccatgtc cagtagctca77941acagattcca tggattcctc tttccaaatc taccatcattatcctgtata taacatggca78001tagtctcaag ccactaattc atcttacaca ggaatcctcctaaaatgcag cttccaacct78061tccattctct tgcatcaaaa gctttctatg gctccctaatatttacagga ttacgcaaaa78121aattctaaga actccaggtc caggcggaca cattggctcacgcctgtaat cccagcactt78181tgggaggctg agacaggcag atcatttaag cttaggagtttgagaccagc ctgggcaaca78241tggcgaaacc ccctctctac aaaaaataca aaaattagccaggcgtggtg gcacgtgtct78301gtgatccagc tactcaggag gctgaggtgg atcactggagcctgggaagt cgaggctgca78361gtgagcaatg attgtgccac tgcactgagt gacacagagcaagaccctgt ctcaaacaaa78421aagaacacac aaaaatactc caggtccttc tcgctaggtcctccccttgc ctgccttctc78481cagtttctct cccactgctc taacttaatc tttccacaaaaWtttttttt ttttgagatg78541gagtctcact gtattgccca gagtggagtg cagtggcacaatctcagctc actgcgacct78601ccgccttccg ggttcaagcg attctcctgc ctcagcctccagagtagatg ggattWcaca78661agcatgccac caccccagct catttatttt agtagagatggggtttcacc atgttggcca78721ggctggtctc aaactcctga cctcaggtga tctgcctgcctcagcctccc aaagtgccag78781tattacaggc atgagccatc atgcccagcc tgtcaaataatttttgaaag ccctccatgt78841tgcaggcatt gtgctaggtg ccggggatat agcagtaagcagaagcagaa cagacaggat78901tYtgcccttc Rggaacttac acactattgt ttccaacaagcactcactat taaagctagg78961atggacgtgc taaaaaaaaa aaaaaaaaaa aaaaaaaagagaaaaagaaa aaagcttttc79021ttattgaaaa aataatcaat atatgattct ttcagaaaaacatgccaaaa acaaaagaaa79081accaccctta gaatctccca gtgataacgc tattaacaccctggtgtgta actttctaga79141tctgtgcagc ccaatatgtc actagtcaca tgtggttatttaaatttaat aaaaattgta79201taaaaataaa aatacaattc cttggccaca ctagtcacatctcaagttct caagggccac79261atgggtatag tggccaccac atggaaaagc tcaggtccagaatatttcca tcttcacaga79321aagtgctggt ctaggtccta gtctagataa atgctcccatacatatataa acttttttct79381tacataaaag tgttaagatt aaaaaataca tggccaggcgcattggctca tgcctgtaat79441cccagcactt tgggaggctg aggcaggtgg atcacctgaggtcgggagtt caagaccagc79501ccggccaacc tggtgaaacc ccatctctac taaaaatacaaaaattagct gggcatggtg79561gcaggggcct gtaatcctag ctattcggga ggctgaggcaggagaatcac ttgaacccgg79621gaggaggagg ttgaggtgag ccgagattgc gccattgcactccagcctgg gtgacagagt79681gagatgccat ctcccaaaaa cacacacaca cacacgcgcgcgtgcgtacg cgcacatgca79741ctatttgttt ttgtttggag acagaatcgt gctctgcctcagcctcctga agtgctggga79801ttacaggcat gagccaccac catgcccagt cacatgtactattttataaa ctgcttgagt79861cactttatat atacctatgt tattaatggc ttcataatatttcattttat aaaaagtcca79921tagtgtatct gacccaactt tcctcatact aaatatttaagttgtttcca actgttctgt79981gcttaccaaa caggtttgta aggaacaccc ccaaggctaaatctctacat ttggccttcg80041tgacttgctt tggataaatc cccttacatg gaattgctgggtctacccca ccccactggg80101ctgtggacct ggggacacca aacctgttgc accaccattcagtttatata tatacatata80161ttttttaata agatagagtc ttgctatatt gcccagactggtctcaaact cctgggctca80221agccatcctc ccacctcagc ctcccaagta attagggatgacaggcatga gccacccatc80281cagcttgccc caccatttta gatcatttaa ctgtcacaggtgtctgtccc tgtttggcct80341cctctactct cccctaactt gtgcagagga atcacatcttgcatagctct gtcaactgcc80401attgcaccta tcacacgtaa tactcaaagc agatgcttgaaaaaactgtt tttttggctc80461atttccaact ttaccttttc attttgtagt ccatctcggggaccaacttc cacaattttc80521acccgctttg gtaaagtgcc catagatgag gtgctgacctttggtttaaa agaggaaaca80581aaaagtatga ggaagagatt gccacaattc ccagggagaccaatatgaaa gaatggatct80641atcttcacta ataatgagac aagaagaaat atttctcaccatttaattca catttggtct80701attttagaat taagaacaaa aagaatattt cacttagtaacaggaacaag caagagattc80761atccttccag taccggttct cccctgaagt ccagactccttttccactgc ctacctgaca80821gctctattcg catctcttca tatagcagtc ccgaaacagaactctaattt ctcctaaagc80881ccatctgact ccatcctttc catctctgtc aaaggcatcgcatgtaccct actgcataag80941ccagaacttc attgagccat ttcacctatt caccatggcctataggactc tgtatgctgc81001tgtatgtatg ttagaagtag tttaaaaagg ccaggtattgcggggggcag tggctcatgc81061ctgtaatccc agtactttgg gaggccgaag cgggcgatcacttgaggtcg ggagtttgag81121accagcctga ccaacatggt gaaaccccat ctctactaaaaatacacaaa aaatagccgg81181gtgtggtggt gcacgcctgt aactccagct actcaagaggctgaggcagg agaattgctt81241gaaccaggga ggtggaagtt gcaatgagcc aagatcgtgccactgtactc caccttgggc81301gacaSaggaa gactccattt ccaaaaaaaa taaaaaaaggccaggcacgg tggctcatgc81361ctgtaatccc agcactttgg gaggccaagg caggcagatcacttgaggcc agaggttcga81421gatcagcctg gccaacatga tgaagaaacc ccgtctctactaaaaataga aaaattagcc81481aggtgtggtg gaatggacat gtagtcccag ctactcaagaggctgaggtg ggagaatcgc81541ttgagcccag aaggttgagc ctgcagtgag ctatgactgtgccactacac tccagcctgg81601gcaacagagc gagaccctgt ctcaaaaaaa aaaattaaatgactctatat gtcacttgat81661gctttccaat taagaaaaga aaagactgta tgagttgcctcctctgacct cctggaWtca81721tcactcgccc ctacYgtcca ctcccaacct ccacccaacaggttgctaag ctccctgcct81781tctcttccct ctgccccagg gttcctcatc tggctttttttaaaaaaact ggctgttctY81841acatctctct ctcatctttc agttgcagag aggcttcctctgaccaccct ttgcaaagct81901gccattcctc ccacccccat tattttcgct attgcagagctataattatt tccttcaaag81961cacgataaag aatgcctact caatgtctct tccagtagaacataagctct ttgagggacc82021ttgtctgtct caactccact tcatccctag tgtttggcaccgtgtttggt acaaagtagc82081cactctttaa agttattaaa ataacacata aaccatgaaggacacagctg tcccagaaga82141gagcaattac tgagtgtggg gaggagtagt cagtcctggacttttcgggg tatgggcgag82201atgcaggagg gctctcttct gttacagtca taggctgggtgatgacaagc atgggtctaa82261ggggaggtga cacccccagt agctgaagac agtttttacaaaatgccctg agtctcctct82321atataaagtc agctcaaaat cttagtcttc cctatcaagtaacacaatac tttttttttc82381ctctttcctc tacctgtctt gatactgtaa cttttcaaatcaactttgtt ttacagattt82441aatctggata aatatactac aacgaggcaa agcggaaggcacactgtgtg atccgctaag82501gatctcaacc Ycctgaagtc ccccaggaat tccctgctaggaagcagctg gaacatgtac82561aactcacctg actggccttg ttttagccaa caagctttcttagagactaa ggcgatgagc82621cattgaattt catgacgtca acaggctaag ttggaaggtccctgcaactt gaatctccct82681ccaacaggga tgttcagcct ctgctagtat atcaccctaaaactatctca ctggaacata82741agtttcatga gacagggact ttgttttatt caatgctgtatttctaaggM cctgggacat82801aataggggct cgataaataa cagttgagtg ttgctgaaataatctaaaac ctgcttcagg82861ccaagcgtgg tggctcacgc ctgtaatccc agcactttgggaggccgagg tgggcagatc82921acctgaggtc agaagttcga gaccagccta gccaacatggtgaagcccta tctctactaa82981aaacacataa attagctagg catggcagca ggtgcctgcaatcccagcta ctcgggaggc83041tgaggcagga gaattgcttg aacccaggag gaggaggttgcagtgagctg agatcgtgcc83101attgtactcc agcctggggt acaagagcga gacttcttcatctcaaaaaa aaaaaaaaaa83161aaaaaagctt ctaaaacctg cttccaagct gcttttattagaacattata aactcaattc83221cacttccttc cttccccgta acagctcttc acataataattcagttttta aacacttaat83281atttgccagg cacatacaag agccatttac atatttatttatWtatttat ttatttgaga83341tacagtctca ttctgtctcc aggctggaga gcagtggcgcgatcttggct cactgcaacc83401ttcacctccc aggttcaagt gattctcctg cctcagcctcccgagtagct gggactacag83461gtgYgcacca ccacacctgg ctaatttttt gtattttagtagagacagga tttcaccagg83521ttggccaggc tggtcccgaa ctcccgacct caagtgatccacccacctca gcctcccaaa83581gtgctaggat tataggcatg agccaccacg cctggtgagccatttacata ttaacccata83641ctgtcctctc aacaatctta tcaggtagga actatcatcatccccatttt actgtaagaa83701atctaaggcc ccacttggga ggctgaggca gaagaatcgcttgaacctgg gaggcagagg83761ttgcagtgag ctgagattga gccactgcac tccagtctgggtgacagatg acagagcaag83821acaccgtctc aggaaaaaaa aaaagaaaga aaagaaaagaaatctgagac ccaaagagat83881taagtaatct tcccgaggtg acatggggag ttactNNNNgaggcaatatc taaacctggc83941agtgtggctc tagagcacaa gctcctaacc tctgggccactgttgcctct ttaccaccgt84001tcgttcggtc cacagtcttc tcctggttaa acatcccgttcctcctctgt aaagctctgc84061tcagagaggg tccccctaac cacacaagta ctgtgccacagtgtcctgag gtatggtgta84121cctgcatcaa caccaacagc gaatactgac taaacccagtgttaaactac aggccaggga84181ctattattat cccaactccg taggtgaaga aactaagcctcagaaaggtt acccaaaaat84241cacaattaga aagtgacaga gcttggactt gaacccatatctaggcctaa tactaatact84301ggttcctatg cttggaaccc catggagggc catctcattacaccaaatat ttcttaaaag84361cttattaata tctactattg cgtttaactt tccaagttggaattgccatc ttcattttac84421acatgagcag gtggtgcagg tgaatggcca agtaaagatattaacgtggc tttctgagag84481ggacccagtg ccaggagtgt atttttccct ctatacagttataactcctt ctcaactccc84541taaggtaaaa ataccaccac cgactgatca cttattaggagccagaacac tgccagatgt84601gttacttaca ttttctctaa tttccaaaac aaccccaagggaatgttgtc cgttttacag84661acgaaagagc tgaggtttag agaaagtaaa taactatgtcattaagtcta gaaagtggca84721gaactattgg gacaccctag cttcagcttt tattttttctgctccataca gctacgtctc84781ccacactttt tctgcgctga gaatgggaga ggggaaaacatcaggatcga acaggatcaa84841agtgcaattc caagggaatc acagcttggc tccaatcaacgcaagtcccg ctcggtaggc84901tgggatagtt ccccaagcat ctctaaaagc aacaacagttggaaatggag acgaaggaaa84961tggaagcgtg ttcttgattt tcactaatga agagttggagaggtctgaag ttcaattaga85021gggagaaagg ggccagggtc atcggaaagg gccctgggcggggaatcagg gcacctagga85081tggcgtccca ggtctccatg acccagacaa gtcactccacctctccggac ctcagttttc85141ccatcccctt caaaggattt gaggggaaaa gggagggtccaggactccaa cgccctcccg85201actctggcct gagagctgtc cggcctcgcc tctaagagagcagtcaccac gggccaagcc85261cccaaccctg acagtcagag tgcctgcagg gccgccgcctcggcggctcg gggcacttac85321agcccggagg gacgccaagc ccaccagtcg ccgcggaagcgccttcctca ttgctgccat85381cttggcccag aatcccccgc ggcagtccag ctgggccccgcgtgaccgat ggctcgtctg85441gtgggcgcgg ccccgccccc gcccctccgc Mgtgacttccgaagctggct ccacccccag85501cctctctccg ttttgattcc gagcgcctct tccatgccaggccaagtgag acgctaggaa85561tataaagatg aacagaatca gcctggacac catgtaatcctagcactttg ggagaccgag85621gcgggtagat cacctgaggt caggaattcg agaccagcctggctaacatg gcgaaacccc85681cgtctctMca aaaaatccaa aaaaaaaaaa aaaaaaaaaaaaaaaaaaaa aaagccgggc85741gtggtggtgg gcgcctgtaa tcccagctac ttgggaagctgaggcaggag aattgtttga85801acccgggagg cgaggttgca gcgagcggag atcgtgccactgcactccag cctgggcgac85861acagtgagag cctgtccaaa acaaaaaacc caaaaccaaacaaacaaaaa catgaaaaga85921aattaaccaa attctgtggc ttcttgtgtt tagagtgtgggaggtgtgag gagacacata85981ttaatagtta cacaaacagt tgtgtcattt ctaacttgcactataagaag caacgatttg86041ctactcactg ttccgagttc ttagcacgga ttaactcacgcatcacgatc ttcaggattc86101aaacacaggc aggcagctcc agagaggggg catccttagatttcatacct taaaaaaatg86161attaagattt atctaggtgt actttctgaa gggctNaaaaaaaaaaaaat ctatccaggt86221gaagaggata caagaaaaac tttccagacg gtgtagcattcgcaatggcc ctgaggcaaa86281gaaaatgctg agaacactgt ttttctctct tttgttttgttgKtttgttt tgtttgtttg86341agatggagtc tcactctgtc acccaggttg gagtgcagtggcgcgatttc ggctcactgc86401aacctccgcc tcccgagttc aagagagtct cgtgcctcagtctcccgagt agctgggatt86461acaggtgtgc accaccacgc ctggctaatt ttagtgtttttagtagaaac gaggtttcac86521cgtgttggcc aggctggtct caaattcctg acctcaggtgatccgcccgc cttggcctcc86581caaaatgctg ggattacagg cgagagccac cgcccccggccagagcactg ttttcaaact86641gtatgttgta ccccactaat tggtcacagt atcaatttagtgggtacaaa ctttatttaa86701aacaaRgaac tagaatttta tctatctatc atctatctatctatctatct atctatctat86761ctatctatcc atctatattt atttattaag acgaagtctcactgtgttgc ccaggctgga86821gtgcggtggc gtgatctcgg ctcactgcaa cctctgaccccggggttcaa gcgattctcc86881tgcctcagcc tccggagtag ctgggattac aagtgcccatcaccgtgccc agataatgtt86941tgtattttta


Following is a GALE region genomic nucleotide sequence that includes the GALE SNP “HT014-AA” (SEQ ID NO:).

GATATCCTCCTTCCAGCCAAAGCGAAAAGGTAATTTTCTATATCTTCTTTTTCTTAATGGGAAAAAGATTTAAAAATTCATTCAAGGCAGGGTACAGTGGCTCACACCTATAATTCCAGCACTTTGGGAGGCCGAGGTAAGAGGATTGCTTGCGGCCAAGGGTTCTAAACCAACCAGGCGTGGTGGCTCACTCCTGTAATCCCAGCACTTTGG[G/A]AGGCCGAGGCGGGCAGATCACCTTAGGTAAGAAGTTCGAGATTAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGGACGGCATAGGGAAGAGGAGGAATATGGTATCCAATCTAAGGGAAAGAGAAGATGGGGACAAAGACAGAACCTAGCTTCCAGGAGG


Following is a GALE region genomic nucleotide sequence that includes the GALE SNP “HT014-AB” (SEQ ID NO:).

TGTTACACAGATTTTTGTGATATTCTGTCACAGCCACCAAAAGCAACTAGCATAGTGCCTCACACTTCGCATTTTTAAAATTTAGGGAGTTATTTTTTTCCTAGAATTGTGGTATTTTAACATACTACTAAGATGAAGACCAAAAAATTTTTGGGAAACTGGTCACTCCTAGGTAATTAAATAATCAGAAAAAGATATGAGGCTGGGCATGGTGACACACGCCTGTAATCCCAGCACTCTGGGAGGCCAAGGTGGGCGGATTATCTGAGGTCAGGAGTTCGAGACCAGCCTGGACAACATGGCAAAACCCCATCTCTACTGAAAATATAAAATAGCTGGGCGTGGTGGTAAGCACCTGTAGTCCTGGCTACTTGAGAGGCTGAGGCGTGAGAATCGCTTGAACCCAGGAGGCAAGGGTTGCAGTGAACCAAAATTGCACCACTGCACTGCAGTCTACACGACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAA[A/T]ATGGAAAAGTGCTTGTACACAAATGATGTCCTGGTTCTGGTTTCAGGTATTAATTGAAGAAACAGATCAATTATGGAAAGTTCATTGTCACCGAGACTTTAAGGAAGAAAGACCCGAAGAGTATGAGTCGTGGCGAGAGATGTACCTGCGGCTTCAGGACGCCCGAGAGCAGCGGCTACGAGTACTAACAAAGAATATCC


Following is a GALE region genomic nucleotide sequence that includes the GALE SNP “HT014-AC” (SEQ ID NO:).

GTCCAATCCCTTCACTTCACAGGGGGTAAACTGAGTCTCAGAAGATCAAGTCACTTGCCCAAGGCCACGCAGCTAGTAAGTTGCTGTGGTTGGATTTGACCGTAATAACCATCGGCTACTGAATGCCCATCATGTGTCAGCCATTTGCTGAGTTTTTTCTTTTTTTTTCTTTTTGAGACAGAGTCTTGCTCTGTCGCCAGGCTGGAGTGCAGTGGCGCGATGTCGGCTCACTGCAACCTCTGCCTCCCGGGTTCAAGCGATTCTCCTGCTTCAGCCTCCCGAGTAGCTGGGACTACAGGCTCGCGCCACCACGCCTAGCTAATTTTTGTATTTTTAGTAGAGACGGGGTTTCATCATGTTGGCTAGGATGGTCTCGATCTTTTGACCTCGTGATCCGCCCGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGCCACCG[C/G]GCCCGGCCTGCTGAGTTCTTTAATTGCATTATTTCATTTAATACTCACTGTGATCCTATGAAACAGATACTATTCTTTCCACCTTACAGACGGGGAAACGGAGTCTCAGAATAGGGGAAATGACTTAAGGTGTCACAATGGCCAGTAGCAGACCCAGGAGTACTCTTTAGGTCTGGCCGTGCACAAAGCCCCATGCTCTCAAGCTGTAACCCCGCTATCAAGAAAGTGGTTATGCAAGTGGGCCTGTGAGCTCTCAACGTCTAAGCCGTGCGCATGTGAGACAGCGATAAGCTCGCGTTCTCCAGTCTCCAGGGCCTTATCATTCCTCACGCTTTCCTTC


Following is a GALE region genomic nucleotide sequence that includes the GALE SNP “HT014-AD” (SEQ ID NO:).

AAGAGTTAGAGACCTCGGCCTCCTGGTCAGTGGAGCCCTTGGCCTCATCCCTGGTGGGCTAAGCGGGCCCAGCTGGGGTTTGAGGTAGGGGAGGCCTTGG[C/T]TTGGCCCCAGCAGCTCCAGGGCCCTGAGTTCCTGCCAGAGGCTGGAGAGCAGGCAGCTGCTGCTTTTCCTGGTCCTTGGTAGGGGAGGGTCCTCAGGCTT


Following is a DPF3 genomic nucleotide sequence (SEQ ID NO: 6).

>14:71066151-713514501tccaatctgt aggttctcct ggagattgtc acaatctgcc agctctctgg gaatcacaga61accatcatgt ccccttagga tggcagaaga tgtggcacag cctcaatctc caacactgaa121acactgagag agcttgatac gttccttagg cagggcagaa acatcacagc acttcacgtt181aggaaccacg aaagagtggg aacctgRcac acgtgggaag ggcacatccc cagaggacag241aggacaaggg tggcacacac acctacagag accgcaacca catcacagtg aaggaggagg301acagctaacg gggtgggagg tgggagcttt ttgtttgtct gttgctgtcg ttgcttttta361gagaagccag ggtgggccaa atggagatat tgtctcaaga ccattacaca cagcttccca421aatctgtagc ccttttctgt aacctcatga aagctgtgtc agactcagtc ctggtctgaa481gtaccMaagc agcccaaggc aaaacctcat ctgcaagagg caatgcggcg ttgggtccca541aggatcagtg gggagggtgt tcaaaagagc aaaaagggaa accctctttc ataggcattt601ctctcactgg agacccactc tcttggtcat tcctttatga ctgagagtct cagaaggagt661tgtgagtgtg aggtaaaaga gacaagcaag cattttggaa tgatggggat aaaatgttgc721agtggcttcc ctctctggtg cccatacctg gaagaagcaa tcccaggttt gcttcgtatc781tgcaggtcta gagacatcaa tggaggcagc aattggagat ctcagtgtgt ttccagggtc841tctgactcaa ctagagggca tccaaggcct ggtggagcct gtgcaggcct gagcttcctc901gtggagcagc aggtaggcag ctcattccca gggacctggt catccttcct accataggag961ccacctgcca aagcccaccc agaggaatcc cagcgttcac aaatggaggc gccctcacca1021aagccactgg accagcctgt ccctgagaag agacacagag gggcttcagc aatgagaaga1081agaaaaccaa tttcttttgg cttcttagca gagatgctcc atgtcttggc tgtcagagaa1141attgagctta caaattgccc tcaccctgaa cccacttggc aacggggaga tgacctggtt1201gaggtctagt tctggctttt gtgaatcgac cgtgtgacgt agacagcaca gcatcaggcc1261aggaaggcgc ctgatgagac cgtgttctca gcctgagagc gcgctcaagg gcaggtggga1321gatggagcct tctcagagct cagccactgg ctcttgggct cccaggttca tccctcaagg1381agctggggac ctgagggctc agggcccacc actggctgcc tgggggaagt gctgccagtc1441tggtgtggaa agggtccaag tcagaggcct ttgcctcacc ccttccacca gcagggccat1501tcagagaagt cttggctcaa aagaacgttg cccacaggct ttcaagtagg tgagtggacc1561aaacccctgc atgcttttca ggctgtcacg cactttaaaa ccagactcac agccaagcct1621tgtgtccctg actacctcca cagagatcac cagaattctc ctcactggga gtcatgtgcc1681atccagggcc ccagaggagc cttcccttgg gccacccccc acagagaagc tatagctctg1741agccRacatc cacacatgga cagatacaca ccttccccca agcccaggca ttttgcttga1801aagcaaggtt ggtgtggctt cttcagggaa taactcaaag ctgaaatctg gctgtgacac1861gtgtggagaa aaggaaagat gaaacaaacg gtttattcct aatgctgtca acacaaacaa1921cYgagagtct aagccagcac gaagctagga tctgacaagc acctggccaa aggtgagcat1981ggaaggtttg ctgaaaacct ctctgatgct gggtttcatc cctgcacaca ccagcagtgc2041cagatacagg cgtggggcag ctgaccttgc tggggtctgg tggagtgtgc ccaatctgta2101cttgaagccc ccaccccccc agtcccgctc tctgctttct ctagcaggga aaagaccact2161gtgggggtca ttttctgcct ctgatcaggM cctgccagtt gcacctccct gccttccacc2221ccagaaaccc acaagcagct ctggggacac tggctgccca acacactcca ggccaggtga2281cttcatcagt tcaccagttt taatgctgag gatgctgtca tccaagggca tccagtgctt2341ggaaaagcag attaaagcaa ctaggctgag gtcatctgtt ttcttccccc gacccctcag2401cctccacagg gtagaaatca ctggatgcct ccacctgctt gtcttctact gaggaacacg2461catcctcaac agagaaacct acatatactt acaccttccg tgatggcgcg atacttgacc2521tacaatcacg attgcttggc agagcttaat ttcatggctg aaaagcaact tgaaggctag2581gccagcatgY ggtttatttt ccagccccta caggacctag agcattgcct cgcacaYagt2641cgatgccctg ccaagggttt taatttagcc agtaacagcc tgccctgcaa tgattcatgg2701caggcaaaag atgggttcat tttccttcag aggaaaaacc cccagggtgg acaaccatgg2761cagatgagtg gggggcagct tggatggact ctgttccctt tccYgRccag aggagcacaa2821atgcccccta agcatctgac cattcattgc aaaagcatga cccatctgct ttcccaaatg2881ccatgtggac cagaYgcatt ggtgagccag ggacgccctg cctacctacc ccgcctctct2941ccagccacct gctccccacc tcctctgctc tgagataatc attctatatt ttcatgctct3001tgctcacata tcaggcagtg tttctgtcct tttttttttt ctagtaccta atttaggctt3061cttcaactac atgttgaaaa tgtgcacggg gtatattttc tttttcctWt acgccactgt3121tgcttcccac ttcccacctc caccccactc cttagcatct atcacggcag agggaaggga3181ggaaNcagtg cagggaaggg agagggcagg aggagaatca gggtctcagt ggggagtaga3241catggaaggg caaaccaagt ccgtataaac cacaaacccc attctagcca taaaagcttt3301gcatcccttt gatagcagaa ttgagacttt tgaagtaccc aactattgcc aaatRtcttt3361catgaaaaga agcataggtg aacgaaggga agagaaggag agaggtcgcg gagccagtag3421ctttccaagc acaaggctcc ctttgcaacc ctggtggctg tgcagaggct gagagctgga3481ggagcaggac tggagaagac ttcaggaaag atgcaccttg cctggcagcc cctggctctc3541cctcttgtcc tggagcaaca tcaaagtttc cctttggttc attaagtagg gcgtgtgtgt3601gtgtgtgtgt gtgtgtgtgt gtgtgtgtgt atgtgcgtgc gYgcacgcac gcgcatgcac3661atgggcattc ctgttctcat catcaatatt cataacattg aaatgaagaa cagagatgca3721gagaggcgag caaatgagca aatgggatgc agtgagtgaa aatataacct gggagtctgt3781agggttgtgt tgctgaggga atatRtaggc cccaggggct cacaggcctc tgccatttcc3841tacaaggccc acttacctgc cctcccgtcc ccaccatggc cgcgtttatt tgctagacag3901ggttggtgcc agcctacagg gccattttgc tcaatgcctg ggctagaggt catgataagt3961aattatatct ctgtccaaga gggttctggc tgcctgccag tcctggttcc tgccttcctc4021tggcctgccc tgggaaatgt cgccatcagc aaaatactcc cttctcctgg tggagccaaa4081gaaggggaac tgtggaaggt ccctctctca aggccacctg ccctatgacc tgaggttggc4141actggagcag agaaagggaa ggagtgggga cagaagctgg aacaaagggc cctggggagt4201cacctcagga ccccctcaca gccagggctc actcaRaacc cagagagagc ctgttcccag4261gaacccactc acttccaaat ctttcccctc atgcagggag ttccctgttc cttctagaaa4321acccatggta Sggaactggc aagcccggac ccctcctcct cagagtttcc tgacagctct4381tcctttgggc ctctcttcta gctgcctggg ctgcgcacat ggagggggcg cccgccgcac4441agccaggcct ccccggggac agctgctgag aggctctaag gcagttccca ctcgctctgc4501ctgggaggYt gtctatcctc ccacatcccg ggtgcccagc aggaagcacc cccatcttcc4561tctcccctcc ttccccctgc cccactctca gctgtccact cacagaccag agggtctcca4621gcctccctag gaaggggttc ccagctctcc aagacccacc accagctgcc caaaggcctt4681gaaccaaccc atctgtccca ttgtttccac actcagggct ggtggccgtg gcctctggca4741gagaatcata agcagactcc caaaccctgg gaatgctcag aaatggggga gggagcccca4801acccccagac agctatggag cccaccttct gaccacggac cagttagact ctatggcaag4861ctggggttca ggtagggaga ttcataggcc tgaggcaaat taaaacagct gttccccacc4921atcaccatcc ttccccttca cctggtatcc aaaagcatRc tttggggatg ggagtaagat4981ttcaaaacgg gcaacacaca gcaggaagRg gaggagctct gtccactttg cagaggggag5041aggagcagga tggccagtcc ccctcttccc ttcccagcta ctggtgtcct gggcttgggg5101gacaggggcc tgggggcctg acccctctgg tagcagtgcc tggaaatgct tcactcccca5161aggctgcagg catgatccag ccctccctca ctgccttctc tccccagctg ggtgaggggc5221ttactttgcc ctcagaagca tccctgaaac cccacacaac caacgggcgg cctcaagaaa5281gagggagctg aatcagtgtt cagaactggg cagaggtttg gcctttttac aaaataataa5341taataataat ctgttgccca ggatcacaag cctcagaaaa aaaaaaaaga gttacaatca5401ctgttcactc ccacctgctg ccctccagct ccttagctcg aggatttctc cctgaggaca5461tccagctctc tgcctttttc caccagagat cctcacccct cccaaatgcc ctcccaccct5521cccttcccca ggcacccctg tctttctccc tccccaggaa tggaagcctg ctaaaaggga5581caccaagtca ccactgctac caggagccag gcctgggact tgcggcatcc tgtgggagtg5641tgagcgtggc tctggccaga gccaacttct ccctcRggct gagacatggg gaccccctga5701agaggggcta ggaggggcag ccggggagtg agagaagaag gggctgcttc tgtcccagca5761cttccacgac aggctaaaaa ccagcctggg gggcagggat gtggtcctca gggcccgccc5821tgggccacgg gcggcgcaac accccctacc tcctcacaca cagacccaaa gaggagacta5881taagcccctc ttctttgagt cctgaggcct gaggttgcca gcaacctttc ttcagcggca5941taaaagagca caggtctcct ccacttgccc cgaaaggaaa agtaataaca atcatctcat6001ttttcttcct taaaacatca aaacttttta agcggagggt tgaaaggaag cgggctgtat6061tcaaagcacg aatacaaaaa tgcaccagga gtgtgcaacc ctccagggta tcatgaaacc6121atcactgtga aacccaaacc ctcccccaac ttcaaaacct gttctcttcc ccagttctgg6181aggaatctgg cctccttccc tcccttccac ccacccacag gctcttccct ggttccagtc6241ggctgggctc agcctgccca ggcttccggc ttcctacctc gccctggggc agggacagga6301gcaggggagc cttgggacct gctggctcct gcttcagggg cgatgagtca gtgaggggtt6361ccaaaggaaa gccagaatgt caatctccta gcaggagccc tgtttctatt tccacataat6421gttgcctgca ctggatttgc tacagatcca aaaagcaggg tttcaaaaat gcctacagga6481aacaggattt ccacttccgg ttgggtStgg cagcctcacc tctctggttt gctggagcca6541cagtacagag gggtgaagcc cagcaaagtt ctcctggctg ttcccagcat ttgagccgga6601agacaaccac atcattatct ccatttggtg gcctctgcag aaaatgacaa tagctaccat6661ggagtgggga ccatcatcat gccagacccg ggccRggatc tttaccaatg tcacctYgaa6721tacctgcaaa gaccatgctg gataggccat gtttccccac cttacagaca tgtgaaatga6781ggctcagaga gttgaagtca ttggcccaag gtcagtcagc tagaaagtgg cagtgttggt6841cggaaagtga gcgttaccca tgaactgaaa caaatcatag ccctctctaa aagtcacctt6901tccattctca actgcattaa tcttatagaa ggagtatcct gagtaccttc attttaaagt6961ccccaacccc atgtacatcc ctcacctcca ccccacagcc catgcaagtc atgatttcct7021tggtcgcagc ccagccctgg caatataaac tccctttggt cacaagggag atttgaagaa7081gacgtctaac attggctaat gcacacaaga aggcggacat ggaaaacatc Yggagttctt7141cccagacaag catggctctg cagtgcttgt ttatgtaaca tgatgcttaa gagtcccagt7201gtcactctgg aataggcagg gcaagtgtta ctatctccac tttccaggtg ggcaattgag7261gttcagggag gttaggtgac ttgcccagtg tcacacagct actccatggc agaggcaaca7321caaaaactct gatccttcac atgcatccta tgattctatc tcattctctg gggttcaaaa7381aaaagagacc aatttaaagt ttaccaaccc cgtcctcttt tgaacacaga ggtgataaat7441gtgaccacgg agacttttgt ctgcttgtag taccctgaca gtgccagccc acaagctggc7501ttgctatccc cgctttccag atggggaaac tgaggcctcc aaagatgaag aatgggttgg7561gcccattctt cagggagtaa tgaagctgag aggggaactc cggggccatc ctaacgtcac7621tccagagccc tgaccctcac cagtgcaggc aagttccagt gccctgcctt ggcctgggag7681acccagctga ggctcagctt gtgtaggcag agcagacatg gggctgagat cgaacagggc7741tgccctatca cctgcacttc tgtggaaaac aaatttgcac atactctgaa gaggacgtgt7801gaagttgtag agccacagtt tggggtttcg gacttgcttt ttaaactttt aagctattgt7861ggcacttggg aaYatttggg gaactttttt ttctaaattt aaattaaaat gacgctcaaa7921aNcaattatt agcctttgga gacagcctgc tttgggtttt gtgggaagag agagagctgg7981agtagtcagg agaaaaaatg tgcccctctg atggaatgtc accctcccta tccctccctg8041ggccttcagg attcagacaa gctcaccgac cagcaggcgg aaggaaatta cttatgagga8101agatgaaaat tccatccggt cgggggccct ttaaatgaga ccattatgta tgtgtgtgat8161tccctctgag gccacaggcc cctgcaggag agtgaccccc atcgcttgcc acaggtcact8221ctgctgaagc gtgggggaga cccacactgc ttggtttcat gccaggctgc cctgggtcca8281ctggccaaga gcaattagcc tagagaggag cactcctgcc gagggacagc acaaatactg8341cggccgggca gaggtggccc aactagcccg agtctccggg agcgtcctca ggagctgaag8401aactaaaaat aacctgggcc tttgttgtga gcagccagac cacagagatg gagctgattt8461cagagaagcc aagcatgcgc gagggttccg ctcaccgaga cctgcccttt gggcaaatga8521tttttccaga aatatgtcag ttattgtgct gctgctgcga ttcaaagtca gcccaatccg8581ctccagccct cggggctatc ttccaacaca cagagttctc ggaagctcag cctccccacc8641tctttcttct aRacacattt ttttttgaaa acaagagtcc tgcatgtttg gggagcttag8701gagacaagag cagcccccgc actgagagtt ctaaaatgtg gccaccctgg tcgtgaataa8761tgaccatgtc accctaatta tttgtttaga taacaatctt ctctccccca tcctaaaatt8821cccagtcagg tctcagtaga caatagcgaa caaacactac gtggaaggaa gaaattactt8881ggaaaaagga attcagagcg tcgcatcaat actgaaggtt tctcaaagct gcagccccct8941gtatccagca ttcggacaca tgattgggca gccttcgctc cccttcctgg ttcttcagtc9001ccaccaggag aagctgaacc aggtctccag aaccaggtgg gctgagaggc agaggcttga9061ccgtcttcct ctgtccatag gccatgactg gtctcaccta aaggatgccc cagctctgaa9121ggtcaaggaa ccagcctggc ctcttgcaaa gtctctcccg atggataaca agtactgact9181ggctatggcg gggccttggc accatttcca caatgtttcc tcccatgtct ctgcgcgtct9241ccctccctcc ccgcccccat ctagtaactt taagcagtgg ctcaagacca ggctggctgt9301ggatgccact gctggggttc tagaaggcaa ctctttgtct ccacagacac caaggaacaa9361gaaagggttt caagacccca agtctagaag tttccagtga ggcttgccat aaacgacaac9421ttctccacag ccctttgttc ctcaggtgag aatttcagga tgcagaccct aagctggggg9481cacgggggct gtgccaagat ttcttggaac acaatagata aaaaaacacc acactacaca9541caagtaatgg atgagtggtc aggaaatggc ttcccttaaa atgggaacca atgagagggc9601ctcggtgcta gggtaaaagt gagaggggtt ccacagggct ggggccggag gtgttctccc9661aaagtgcaac ttccttccgg tagagacaag gaggtgctgg ctgaagttcc gtacatatcg9721ggggaggtca ggagatgcct caccctcttc gttccatgtg tccctgcccc tctgggacta9781tttcttttcc ttgcagttgg tctggctgga tatgtgRgag gagggcgcgt tctggtttga9841actgggctct gctttaggat ctccagcagc gagtcacatt ctgtgacctg gggccctagg9901cctggcagcc aaaggctgag gctttctctt tgagcagttc ccagcataag tggcagctcc9961agcttcctgc aagaaatgag acggctttag tagcagcccc tctgctaact ctggagcccc10021accccactgg ccctaacttc ttgtaaatcc tgtttccttt gaactttggc aatgcagaaa10081ccaagtccca ggcctgaaaa cgtgccagag tctgtggctc agcagaaagc aggtgctcag10141aggagatggg ctcaactctt atcaagaccc tcactactag cgtcatgcct ccaaactagt10201gtcgccgggc ctgcgccagt tctcctggaa gctcacacct cccggtcatc tccactgcat10261gtctgggaaa aNcttccttg gccctcaagt tgaaatttca gctgcttgga ctgtgcctca10321gtttcctcat ctgtaaaatg gcagtcgtcg tacctacctt gtggggttgt gatgattaaa10381tgagacaaga catgaacatg taaacccatt agcataaggc ctgtaccata gtgagagctc10441agtaagtgct agtagtagta gtatctgttg ctgttcttat tgttgacttc atcatcatta10501ccttctgggg gctcagccac cgggggattt aaacagtaca tgtgatagcc tcggtcacag10561tcatcgcaga agagtagctg gtcctggtgg aacacagagt aagcacagag gaggagagat10621tccattattc ggggccaatg tctggccccc gcttacccat cagccttatt tccacgtcgg10681tctcactgga tcccctttcc aggccccact tggagtcctc actgtcccct gaacacgcct10741gtgcttttcc cacaactgga gtttccccct ctacctccca gcctatataa atcctacccc10801cattttaggg ttctgctcaa ctYgtacctc ctccaagacg ccttctgtga ctaacacctc10861acatccaaat ttaaagggat cccttattct tctgaacttc caaagccaat agctctgctt10921ccaaagggca gaaaatgtct ctattctcca tgactttata tatttgaaga tcttaattga10981attcttctgg actccactct ctccatctgt gaaatggcca acagctgtac tgggatgaac11041ctcagaacct cttcagggtt tcattagaat gtagaaaaat gcaagtagcg ccatccctcg11101gcttccagaa gcttcctcac tgtctggagg ctggagcccg ggtgagagca gggcacccca11161gggttgtggt taacttcaaa ggacacaggc catatctttg cacctatggc tacttctgcc11221tggaggctct cccaggccct gaccctttct ctgcatgtcc attccctgcc tgcccttcaa11281gtacgtcttc ttcaagcact tcttttccac aaagtctttg ctaatctacc tcaactggaa11341gttgtctctt ccctcgtgca gccctgtggt actttccctt tctgtgacat ttaaatgcat11401tttcctttac gttacatgcc tggcatgtgg tagacatcta atcacgtttg ttttcttggc11461tgggYgctgt ggcgcatgcc tgtaatccca gcacttaggg aggccaaggc gcgtggttca11521cttgaggtct ggagttcgag accagcttgg ccaacatggt gaaaccccat ctctactaac11581aatacaaaaa ttagccaggc atggtggcgt gcacctgtaa tcccagctac tcaggaggYt11641gaggcaggag aatctcttga acccgggagg tggaggttgc agtgagccaa gatcgcacca11701ctgcactcca gcctgggcaa ctgagtgaga ctctgtctca aaaaaaaaaa aaaaaagaca11761tctacatgtt tgttttcttg aatagttcat ttggaacatg cctctttttt ccacccttta11821tcccctttat ggactataaa gcccttgggg gcaaaatctt gttttcctca tcactgcatc11881cactgtagag acttccttgc atacaggagc tgctcggaaa ctgtttgtga tctggcccca11941ccccctagtt tcagctctgt tctatttggt gattgttgaa actgtttgga tggcttatga12001gcctttttca aaataaagtt ttatatcaaa tctcaccttg gcccccacca gtgcagaaat12061cctggataaa attagatata gctgttggaa tccccaggga gcaagcaatg agggcttttt12121ttgtcatgct aaaacccgtc agtggggcaa caggaaagct tttgaagagt tatcaaYagg12181ggagtgatac gatcagattg cagtttagaa agatcttact agctgctatg taagagtaga12241tacccagtgg gggagaggtt cattcaagag gcccggggac cagttaggaa gctgctatag12301ctatccaggt gcgtgatgat ggtggcctga attacaattg cggcatggag aaagaaatgg12361gtcttgctcc catttaagca tcattgatta gatggggaga gtgataggga agaagccaag12421gatgccgtct gggttgtggc ttggtcagca agccagatga tacagccacc caatgggaca12481tgggaggaag agcagactca tgggagggag agggcaacct cagctataga catgttctac12541agatagggat gacctggagg ctgttgaaga gagcaggaga gaagtctggg cctgagatat12601ggaYttggga ttcattgtaa ttagatggca agtgaaggtc ctaggagagg aagcccagaa12661tgtgtgagag caaatgtctt tgaccttgtc ttcatggaga agtgtccatg aaccccttga12721aatgatacac acaattttgt acataggtag aaatgtacat ttttctatgg aaagagtaag12781tccgtagctt tcattgaatt ctctgaaaga tcaaggaccc aaaagagttt actgagaaga12841aggccaagag tttactgaga agaagtacac ttggggtact ccaactttac aggacaggca12901gagaaaaaaa gactgaaaag gaacagtcag agaggtggga tgaagacgag cacactgtag12961tttacgccaa aacagttaca tcattattgc agagccagca taagctacag gacaatttga13021tttagggata atacaaggag aaacaagtta ggatggagac agaaaacaga caggacttgt13081cagaaacagt gttattaatg ccttaaaaac agtaataacc cctactacag cagtgacatg13141ggaaatacaa ataggtagaa tatcctggat tacaatttcc caaaggaaaa ctaggcatct13201gagagtttaa gtgcattttg catgggttga ccactgtcta gcaccatatt ctcttctctt13261ccaccaccaa gagcccccag cttatgctaa ctctcatgac aaacacaatt ttagtacctc13321tcactaccaa ctatccagga accaggaatc acctattact acRgttccag cagaatggga13381atcccattct cggatatcca gggtaaatcc ctgaccatgt gagaggaatc ctagtgcccc13441aacaacctca cccSctgact cctcctcaaa ggctctgcca agtcaacaaa aaaatcctct13501acatttacac tatctgtaaa gccaaagacc agcgtcaacY taaatgtcca tcaataaggg13561aatggttgga taagtaaaaa ttatgcagct gtaggaagga atgaagaatg tctatatatt13621cctccagatt aatctctaag atattcagag aaaacaagca agatggagaa aacatatata13681cttgttacca tttttcatgg attcatatat acacacacat gtttacattt aaacaaaatg13741gaaagacaaa tcatattttt tagtggttgc ctatatgcag agtgaaggaa tagtgtggaa13801gaggtaagta gagagctaca tttctttgaa tataatgttt ctttataaat ttgattttag13861aaccaataaa tattttacac agtcataaaa caaaatttaa atagcaatat gtccctaaaa13921aaMacaaaag aaaaatgagg caaatgaatt tggttatgta tccaattggt agcataacca13981cacagagaga aactattcca tctgactata aaacaattaa tttgacaata catccttagt14041aggacatacc ttaaggtcat acataaatgc agatctgcat atatatgtgt gtgtgtgtgt14101aatgttcagc aattatatta ttggtttaaa tattggaatc aatattctga gactgcttta14161tgtgcatcaa atgagtaatt atgttggtat tattgaagag caagattttg taacatggtt14221gaaagaaaat agaaatgtag gccaatgaag ttaagtcaaa agtcagtagt tggttctaag14281tatgaactgg atgcatcagt ataaattcat ggtgtagtgt atctttaaaa caagcaaaaa14341atattttcta cctctgtcca cagaaagtgc tccaaaacaa tgactaacag caaaattagc14401acctctagca cccatattat gttctctaaa gaccattgcc cactaaaagg aattaggagt14461cctgggagaa ataagtgatt ccaggtctgg agcataaaat gtataaRtat atttacatat14521tacaaagtaa ggaagctatc aaatactatt aggattatgt caaaaggact caggatccaa14581cctgaatatg ttaccactgg tcaaagatgg gacaatttta cctataatgg attataacaa14641ataaaatatg tttaaaatct taagttcata aacatatttt ttaaaacctt agtcaccttc14701agaagatgct agagaaacat cacactatat ttttatttat ttatttgaaa taattttaaa14761cttagagaaa agtgcagaaa ttatgcagag aattgtactc actgtgccct aatattaaca14821tattatatta ctatagcaga attacgaaaa tcagaaaatt accattggtg taatactgtt14881aactaatcta cagactttat tttaatttct ccagttttcc cacctatgtc tctttttttt14941tttttttttt tttctgagac agagtctcac tctgttgccc aaactggagt gcagtggtgc15001catctcggct cactgcagcc tccttctccc gggctcaagc aattctcctg cctcagcgtc15061ctgagtaact gggattacag gcatgtgcca ccatgcctgg ctaatttttg tatttttagt15121agagacaggg cttcaccaag ttggccaggc tgttctccag cgcctgacct caggtaatcc15181gcccgcctca gcctcccaaa gtgctgggat tacaggcgtg agccaccacg cccggccccc15241aacctatgtc tctttaccag ggatccaatc caagatccct cattgcattt aattgttgtg15301ttttctcagt atccttcaat ctgtgacagt tcctcagttt ctttgtcttt catgagcttg15361acactttcaa aaaatccaag ccagtgattt tgtaaatgtc actcaatttc agttggatct15421tttctcatga taagatccac atatgcatac attttttagc aagaatacca ctaaagtaat15481gttgtgccct tcttggcgca tcatatcggg ggaaattgag gccagtacgt cttattactt15541gtaatgttat ctgtgattat atagttaagg tagtgtctgc catttttttc actgtaaagt15601tactgttttt ccctttgtaa tatactaata agtaatattg ttggggagat acttggagat15661tatctcctca acaagagaaa taggatattt gagattatgt aaatatccta cttctcatca15721tacttttgcc cactaatttt agcatcaatt gacagttcgt ccttataacc ataactgtga15781agtgtgccca atgattattt cccctttccc tctacattta ctcattggaa ttctgctcta15841aggaagagct taccttctcc tctgtttact tatttattca atttttatat tagtatagat15901atttattttt tctttaggtt ataacctaat aatgtcatta tttttttgct caagttttcc15961tagatttggt cattacgggt tccttcaagt tgcttcctgt gtcctctaga cgcatgaaaa16021tatcctttca ttttttgaac acttccttac tttctgacac cacataatcc tccaggctta16081tctggcatat tttgcatccc agccctggaa tcagccattt ctctaaggat ccatggttct16141ttttatgaga gaatggtgtt tagaaaccaa ttccttgatg ccatgtgtct tcattgcttc16201tgtgttgtca ttgcttctag gccctcccag ccaacacagc taggaaataa atgtatgtgt16261aggtacacat gcatacatct ctacttattt ctgtctatta atatatgtgt acacatatgg16321ctagatataa tatgtataaa ctatatataa cacattgtat gtaaaatcat gaattcatag16381tgatacccac tattccaaac caatgccttc aatctagcct tccccccttt atttggttat16441tctttttctg actttgagaa actagactct cattagtcac aatacacagt cattagttca16501aatctagcat acgtagtttc agaattacta attcatatac ctatgaaaaK aaattaacta16561gagtacagta tttgtggtgc agttatttct gtccttagct ttacaacaca cagtcaaaat16621actgttttcc aaagttactt aggttattct tttcttcctc actcttcggt atagttacat16681tatctattta cgttatactg tttatttgtt actgttttta tttcatttta gtttttccct16741acatcttggt tgattttaag tatttatcta tttgggaggt atgtaaaacc ttatgatggt16801tgtaagagtc aaagctatac aagaaagtat tctcaaagaa gtgttgtttc tcccttatcc16861ctactatccc attttcattt tcccattttt ctctacccca ttctcccaga cccgtgtagg16921taaccagtct cattagcatc ctgtttattc ttcttatatt tcttttacac aagtgagcaa16981atgcatgtag gttttcttat gtctcttttt tcttacaata aggtcagcat actatagata17041ttctatttta ctttgctttt ttacttaata tattctggaa atcactccaa atcaattcat17101agacatctgc cttattcttt tttacagctg tatagtactc cactgtatgg ctgtgccatt17161gtttattcaa caactactct tccatatatg gatatttagg ttgtttccaa tattctgtag17221taatgaacaa tgctaccaca aataacctta tgcattccat catgttgcag gtatatcttc17281aaggtagatt cctgtaggtg agaatgctta gtcaaaagtt aagtgcatat tagctctgtt17341aggtattgtc aaatttccct ccccagggtt gtactaattt gtattcccac caacaatgta17401tgaaggcacc atttttccca tagcttcatc aacaggatat attgtcatac ttttcaactt17461ttgcccatct gataagtaag aaatgatatc tcagctttga gtttctttgt gagtgcattt17521gaactttttt ttttttttgc atctttaagg gtcattttta tatcttttgt gggttgtctt17581tcatgtattt ttctcatttc ctatcaggtt tctggtcctt tgtcctcaat ttttaacact17641Yctttttata tagggaatta gcccttaaac tgtggtacat gctgccaaaa tttcctccca17701gtttgtcagt tgtcttttga ctttatcatg tttttgacta tgcaaaatgt ttatgtagtc17761agatatacca acattttatt taattgcttc tggattttga gtcacagttt gaaaaccttt17821tcctgtattt agattaaaga ggaatttact tgtgctttct tctagtacta gcgtggtttt17881actttgtaca tttagatccc caatgtattt ggtgattatt tttatgtatg gtgtaagata17941taaatctaat tttgtctttt ctcaaatggc taccccattg tcccagcacc attcatttaa18001aagtctgtct ctgacccagt aattttagat gtgaccctta ccctatactg tatttccata18061tgtagttgga tctatttatg ggctttctat tctatctcag ctggtctatt tctctcctca18121tgcatcagtg ccacactgtt ttatctatag aggctttaca gtatgtttta atatctggta18181gggctagttt ccatcacagt ttgtttatca gtattttctt gcctattttt gcatgtttgt18241ttcttcatat gaacttaagt atcgatttgt ctaactccat aaaaaaagtt tgttgatatt18301tttattggac ctgagataaa tttataaatt aactcaggaa gaactgacat ctttataatg18361tcaagtcatt ctatccaaga tcataggatg cctttcaatt tgttctttgt gtttttgaaa18421agtgtttaaa agttttgttt atataggttt tgcacatttg ttgttaaata tatccctaag18481tatttcttct ttgttgctat tataaatgga attatgttct ctaactggtt attgtttgta18541tatgagaagg ctgttaatta tgtgtgttag ttttataatc tgttaccttt tatgtttgag18601ttagcttatc attgattctc taaggttttc cagatatact atcatataat acaaaaatag18661agttttatta ctttgttatc cattcttaca tctctaatta aattctcctg tctaattgca18721ttaggtaatg tctctagaat agtgtcgaat catagttata gagatagtga gcatcctccc18781ctggttccta atcttagtgg aattgtgcct agtgttttcc tcattaaata agatactggc18841tttagttcta aggtacaaat actttatcat gttaagaaga tatcccacaa tcactatttt18901taRtgttttt atcataaata gatattttaa ccacactgtt tttttaaaac tgacaaaggg18961aaagaatcaa gcattttttt cctgccattt ctatatgatc tacacctgaa ggtaaccaaa19021tgaaagattg ggcaagttta tcttcctgga attactccag caataaacaa aaaagaaatt19081atccaataag aatatcacta ttttgcaacc cctaacaaaa tagtcaatcc agtcaaaggt19141catcaataga tgctaccttt acaaaaagag aaacatcagg cattatacat cctgatgaaa19201gtgtacacca ccatctatga agtagtcttg ccaaaagaga gagagagaga gagagatgga19261gacagagttg gtgagaggag agagagagat aaagacagac acagaaaaag agacagacaa19321tctgaatcaa gcctctagcc ctaacaattg acaagaaatt caagagacag aggaaaatgt19381cagacagcac agagRtatac tcagtcaaat acagtcatga gaacttgaac aaatgatctg19441atttcttcaa caaagaattt aagggaggaa gaaagagaat aagatggagg gaaaagtcta19501tgtgttattt aaagaagcta tatgtaWgtt tatatgcacc tacagatatt taaataaact19561tcaaagacat atcaactaat tgcaatgtat gggccttatt tgaatcccaa ttcaaataaa19621caggctgtaa tagaaacatt tatgagacaa ctgaggaaat atgagacgac tggatgtttg19681attgtactaa ggaattattg attttttagc tatgtaatat tttggttatt taggtataaa19741agtaagtcct tatccttttg agatacatat gaagtagtta caggtaaaaa tgatattatg19801acggagacta tggagaggga ggtcatggta tttatgaaat aagattggac gtgtactgat19861ctttgtcgaa gctggtgatg gtttacatca attctattat tctctctgcc tttgtatatg19921tttgaaattg cccataataa aaaatgttct tgaaaatttt gcacttatta tatttaacat19981ttagaccaaa tgagatcata tactgtggaa tgtggtggaa acaatcaaat acatccctgc20041cataagcagt gttaaccact gtcagtctct gagccctcaa gggctaatgg ccaggttgct20101cccaagtgcc agggtaacag gccccagggg cctagtgaca agagtccttc cttcctcttc20161acccctcaaa ggaccccagc tctgtggatt tctccctccc acagggaaag ccccaaactc20221acatcattct ctgaggtccc acagaggata caggatttgc actctatgca ctgccacttg20281taggtcttga cagcctcggt catgttcagg gtaaactgca ggcaggttgg gtgacctgga20341ggaagccaga aacaacagca ttagggccRa agtatgaact gccacccctc aacaccactc20401actggaaaca cattgatgcc cagtgtgcag gcagggcagg gtagcatgac gtagggaaaa20461aaatggggac ccaaacaggg ccctacccac attcttcacc acccMgttat tcagatcaag20521ggcaaaacag agatataagc acatccaatt ctgcttgcac tRagaccata ttccccagca20581ggtgtaacca gttgatgaag atggaaaaca atgatcagag agaacgagag aggaaactgc20641agagtacaca gcctggggca gcactatgag agacaccagt gggaccctcc aagccccagc20701atcagctatg gcagcacaac aggtaagaac tatttggagc tgggccttct gatccaacca20761gttattcaca ctgccttagg gtgcaaggga ggctatcaga aggattgtat gaggtttcca20821gggtcagtgc tcagggatag gatgaggcat tgcactgtta cctaaagtat ccatgcccac20881actcatgaga ctagcaaaag ttcataWcct gaacagtacc acggactaca gaaggaagtg20941gcctggcaRg gatggcaaag aaatggagca tcagagcaaa tggccaggtc tatcctaaaa21001ggactggttc ccggttctaa ctcttttctc catcccaagt ttcatgggag ccaacccaat21061cacaagatga gagaagggac attaagctgt gaccttcaag cacagccccc gtgagccatg21121cccaagactt ggcctgtgga actggactct gtcctcagac ctaggtcacc taaaagagag21181atgcttgcag ggagaggacg gccatgaact gtagaatgca aagacccttg gccttctatg21241tggcatggaa ggataacttg gatgacattc ccaagtcKcc cagtactgtg aaacagatca21301gaatctgccc agaRcaccca gggcaaagcc aattactgac tctgtcacaa aaaacattga21361cagctttgcc cagtgccgag cactcaccgt tctccagagc ttccagttct gccaaaccca21421ttatatggtg ccttgtgttg cctctttcat ttgaaggatt atatgcttta aagaaggatg21481ctagagacag gggacaccaa tcatggttag caccgccaac ctagtatcct ccacagacag21541gatcccccat ggcgccacca ccccttggca aagccacatc ttaacaggag cccccatttc21601ctccctttca aatcttcaga gagctgttca catcatgacc atttggatga aatactgtct21661attcagccaa cataaggatc cttcacattt tgagctccac aaatagaaac catgctgagt21721tatcttggag agggcgaggg gtgtagaaat gacttgttgg tggtggggag gggacactca21781gtgaatacag gcagaagcag caaggagagg cctgatctaa aagcttttca aggacttctc21841aggtaccatc caacttagag acttccgcag ctctgaacta ataaccctct caaggtgata21901ccatSacagt ggccccaaag aaaaagaagc cttacattaa aagcctgtgt gaacagccag21961ctgatattct tgaaagcatc tcaaagattg gtctaagaag aacattagcc agggttactc22021cctattccag tctctcagag agaacactgg gatgggtaca gggtaggaaa tatctgtttg22081ggactccatg tggtatgacc acagatgccc agtttctctg accaggcacc actgagagca22141tgaacatgag gtcatggagc tgatgctcat ataggcaagt tgactttggc cagttctgtg22201ccacacccca gccacaccca gccagcttag gataactatt cattaactta cSaagtactt22261attgagcacc tacaaggcag gccattgtgc tagacagaaa agacacagtg gggatgagca22321agataccttg agcccttcca gcctagccaa agaggcctca gattaatcag ctacacatgt22381atctatcaac tacaattgta taattagtgc catgaaggaa aagcataatt ggccgtaaaa22441acacatagaa gaacctaacc tagactgaga tgacaaggaa accttccctg agaaagatct22501ttaagctgat atgtgtcaga tgagacgtta gctaggtggg aagaggagga ttccaagtaa22561ggggaacagc atgggtggag gctttgagca gtgaagcagc ttagcaaatt acaaggaaga22621gaaaggccag tgagcagagg cttgatgagc aaaaggaaag gggtaagagg tagctgcaga22681ggtagctgga gaaggattac aggcatttgc agcccttatt taagaatctg ttttttaagt22741cattaaaggc tattaagcaa ggcagtaagt gggtcacatt ttgtttttaa aggagcactc22801tttagcatga gtgctattgg gatgaagtgg ttctgtatct tgattgtggt ggttacatat22861gtgataagat tgcatagaac tgtacataca catacacata tgtatttgta catgtaaaac22921tagtcacatc tgaataaagt Ytatgattgc attaatatca attgcctggt tttgatattg22981tgctataatt acataagatg ttgcccttgg agaaaactga gtgacgagct caaggacttt23041ttgtaatata ttttgtaact tcctatgaag ctataattat gtcaaaataa atagttgaaa23101atatattttt aaataaggaa aacaaataaa aaattaaatc atcaaaaaga aaggaaggtg23161gaaggcagat aagaaaaagg agagagagag gaaggaggga aggaagaaag gaaggaagga23221aggaaagaag caggaggaag ggagggaagg agggagggaa ggaaagaagg aaggaaggag23281aagggaagag atgaaaggga cagaagggaa ggaagggaag gaagggaaag aagggaagga23341gggaaggatg gagggagggg aaggggagag aagaggggaa ggggatggga aggagagagg23401aagaggaggg gaagggaggg gaaggggagg ggaaagggag aggggagggg gaaggacaag23461agaaggggag gggaagggag gaaggaagga tgaaggggct gtacgctaag gaaagaattg23521ttgaggggtg ggagggtaca gSaatgtaag aattgttgcc aggaagctag ttaggaggct23581aatgcagcta ccaggagaga tacaagaatg attcaactaa ggtggaaatt tgagaaatgt23641taaagaaata cttgacagga cttgactatt gtttgaatgt tgggaatatg ggaaaatgat23701gagaaataat cccaagttct gacccatgaa actaggtaga ttgtagatta cagtgaaact23761tagatgagaa agactgtaga aggattgcag ggaccacata gaggaagagg attccttctg23821tgttgagcat gctgaaactg agaattctgg tggaaatgtt gagtggatag ttgaatgtat23881gggtcgaaat tcagaagttt ttgctaaata ggtgataagt gaaaccatga gaattaatga23941aattatctag ggaaaaggga atgaggaagt atctagggaa agaaaggaag aggagagaag24001aaaggagaat agagaaaagg gtctaggact gagcttggag gagctcaagt cctccaagat24061caaaagaaag aaccagcaaa ggaaagagag aaacatggca agaggtaaga agcaaatcgg24121gtgagtatgg ggtcacagta accaaaagaa gaggtttcaa gaaggagaag gtggtcaact24181gtgtttactg ccacaggttc tctagtttgt ccttgctcaa taaagacccc gagtgaggga24241atgttgacag atcagggcaa aagctaccct actaataata acacgcttca gtcatgccat24301cttcccaagg aaggaaagtc agcacattcc agagcatgac agaactcagc agccaaatgt24361gcatctgagc tgtctctgtg aggaggggcc gggggtggcg tgtgctgcat gcatgtagca24421acactccacc aatatttatc gagagccagc tctgtgtctt agttctctaa gactcctgtg24481ctgagctatg aagacatttt ctgggatagc tttggacaat ggatggtagc aagtgggttt24541tggaaatgcc tgttggaagt ttctgaaaca atctcatggc tttctctgtg ttcccatctt24601gagaaagtca tcagcctcct gaagatcttc aaacccgaag caagggagct aagttcacac24661agcctcaagc ccccgaYaaa atgcaggact aagatgggcc ttagcagtgg ctgcaggaac24721tccttctcct ccacactcag gacatcactc aagcgcaaga agaaagtagg ggagggaaat24781actattgtaa cttctcagcc agggagggtg agacacaaaa agtttaagtc atcagcaggt24841gcaaaaactg tgcccagaac taaatcctcc tgtctggacc accataacag atttgctcct24901gcgcctttct ccaaaaactg cagaaatcat ttgccagaca aaactgcaag aatgagactt24961cttacctgcc acaaaaatta cttcaataat acacactgtt agacaaaaRg aagtgtctaa25021ggaaagtaat agcagcttgt ttctaaggtt cactggtctt acttttgccc agaactaatt25081cctaaatgct ttgaaagtaa gagaataaca aatacggtct ttccaattca aaggtgaaag25141aaaaaaagag gcacatggct ataaggtaat ttgtaatact tatggtcact tgatatttga25201ggatccctat cttaatctct tttgtaaagt taaccctcat tctctagggt attaggctgg25261tgcaaaagta attgcagttg ttgccattaa tggcaagtac tgcaattact tttgcaccaa25321cctaatactt gcttggaaat ctagattttt tcatagcccc agttttcttt agagcaagaa25381atacccatat tgctatttaa atagcctact atagtggagg gaagacaacc cttcccaggc25441ccccctgggt gccatgattc aacagagcat ttataagatt ccaattacca aaatgaattt25501agaaaatggt gcactgtgca tgattcagcc cagccggatc attaaaaacc tagtccttcc25561cggatgttcc tctaaatgta ttctatcagg agcattcagt aaatctcctg ctagcttRtt25621gagctgggtc agtggtgaac ttggtgtgaa gagccattcc tgattcagcc ctaacccttc25681cagaactgac ctcaatcctc cctagaggtt gacactgggt atgtcaccca tggccactat25741gtatgggaga tctaactgct ggagtgggct tttgggagat cagcatttgg cttcagggtg25801ctatttcagc agatggaggg aaagggaaac caatgggtta tgggaaactt ctcagacaga25861tgataatcca tgaggctggg agtacccggt gtttctgaca ctacagccta ctgagctcag25921taaaaaagga aaggcaggca tctgagagca gtgacagcag ccttggcact ggaaggacac25981atctcatgtc tttacagaaa catgtgcaca gatgctgaaa atgttcaagg gacagcaaat26041gggatttgtg gtatttgagt gagaaggcac acagataaat aYccaggcaa aactagtgtt26101agtttcatat tcacagctgc caatttctat gcacgMtaat acacaactgc cccaacacaa26161gggtatttcc agccttttag gggagaaaat atctaaatat accttgtgga ttaagctgac26221attatgattg caacttaaaa gctaacctaa gtcacttact agtcaacctc ctctatagat26281attcagtaca ttgagagaaa cacagttcat tttcaacaaa ccctgggcaa aagaaataca26341caaactgcta tgacatgtgt ctcttacatt atgatcctta ttaaaagagt ttttatttta26401ttatcaccgg tatttaattt ggactaggct aagccacatc actgattgaa ttagggctcc26461aggaaaaaaa attatcttcc taggtatgca Ytgaaaacat aaataaaaca aatataaata26521actttggaat cagcatggtc tattatttat tcattgtgaa attataaaca tctaattata26581ctttattacc ttatttatca atgttgatct cttaaaagct aatttctcag gcaaagagaa26641cttaaatatc catggttctc aggcaagtaa atgcaaaact caaattgtgc tccttattct26701gatgcttggt ttacagaaat tgtattacat aaaatacata gaatcaattc caacccaaaa26761tagcgccaaa aacaagtctc catgggcatt cattagaaaa taatttggct caaatttcaa26821atagttctct atattctcat acacatataa aattcctggt atttacaaat tgcaaatgta26881tatatgaagt tttagctaaa gcatttatgc aaagtatagt catatctgaa tcatcatgct26941acagggtaat ttgagaagaa aaattattac tagttctctt tgggaagcca tctcattcaa27001tcagatccat tcattttcat tctctcactc ctctcttctc tctttctctt ctctccctct27061tctgtctctc tctctgcccc attccctccc cctctcttca tgctcctcca ctttgagacc27121cagcttggca ggtggagaga aggaggctca gtcattatat tgaatctgta aaggggaaag27181ggatggacca attctgagca atcaaaagtt caactccttt atgtatatac tatggcaagt27241atgataactg ggcactgctg cttcacataa ttatttctca agccctgctt tgtaaacctt27301ctgcaaaggt ctgcaggttc acctctatct gcccccagat gttacttcta atgctgaaga27361cacctgcaaa tcgatgatca caatggcact ccagaggcat ctgaatggct ccctttttct27421ctcaccattt ttattgcact tcaaagagga caaagaagag aaagagaatg gaaaggacaa27481ataccaaaca aacaaaaatg cattaaaaat aaatgatagc gtgagctgtg tggctgccct27541ttcttgggca aaacaccttc ctgtgcatcc agctccactc ctcttagagg tttgtttatc27601ctctcctcca gttgtcaagg tctgtggcac ccaggaaaca catgggatgc aagccccagg27661ggctattgca ccagtcattc ttataaataa ccatacaaag cacattcatg caagagtatt27721acgggcactt ttaataggct aaacagccaa gggctcatgg cgccattctc aaatggtcct27781agaaattccc caagttttcg tggtcaggtg tggtccaagg tggagtctct aggaagtgga27841tctacacctg tctataagcc tgagggcata catcatggtt ggtcttctta aagtgaaata27901atgggatagg gaagccttga cctggattta tacaatttac tcgactcaac ttggggccaa27961tgcacagcac taggaatacg ttgagagtca tagtaatgac cccaaagccc ctaattagtc28021actgcagctg aggatcaaaa ataatttatt catttattca ttcctttgac agtatttgtt28081gaatatataa atatggcagg cactcttcca ggtactgggg atatagcagt gagaaaatcc28141aaacccctgc cctcaattta caactgccac actttgagat atattacagc acctgagtcc28201tttggacaag tcaattgact tctctagcat tagtttttca atatattaag ttaaagcatt28261ggaatctgct atccatgaag ctgtagcttt gtctatgcca cccaaaaatg gtatttttaa28321agatactact gatccccaat tgcccatctg cttggtggga taaacaagcc ttctaaagtt28381tgccagctaa aactgaaagt taaaaaagaa aaaaactaag aaagaaatta aaatagccag28441taagtccttc tagaattcat gtcaactttc ccatattgac cagcccagtc cgatccaatg28501tcgacacaac aaaagatggc caagacagaa agcaaaagaa atctagaaat ctaaaggact28561tttcatcaac cataccaccc accgccatgc aataagttag gcctatacag atgagctgtc28621ataaactgaa ggtagacaga ggccttgggt aaggttccat cgatgaggaa tattagatct28681gggatgagct aggttgagct gctgtgtgac agctgcagat attgccaggc aggaagtgac28741taagagaaga gggtcatcgg tatgagcaac tctggatgac tttcctttta aatgcttctc28801tggatttgta gattgcaggc aaccagctgc ccaaagtgat tcttgcccca caacagtgtg28861tgaaggtcag gcNgctgaat cattgYccag agcccaacat caattttaga tgccaagcct28921tgacatttgc tgtgcattcc aggcctctct ggacctcagg agcatccaac catgggacct28981ggctaaaggc tctgtgtttt ctttaggaaa atgagcctga aaaagaaacc attgcttaga29041ttggaaaccc tgtaatccct gtacttccta ctgtcctgag tacatccagg agaatttcaa29101aatgNNtgta attgatgtat agctggtgga aaacagcagt gattggtcaa cacttgattg29161cccatgatcc tccaactgct gatcatccat gaattagaag atgaattcat gagtggtcta29221agttcttgag ttgcctgagg acctttgaag tagcattcta attttttctt ccaaaaaata29281ttccacagag ttgtgctaag tcaaaaggaa aaaatgcttt cctatccttt tctacgtgag29341cctgggaagc aatcatagaa gtacctagaa gtagaggact gacagtgtac tcatgacact29401tagacacttt gttttacatt tttttttttt tttgagacgg agtcttgatc tgtcgtccat29461gctggagtgc agtggcgtga tcttggctca ctgcgagctc tgcctcctgg attgacgcca29521ttctcctgcc tcagcctcct gagtagctgg gactacaggc gcccgccacc aYgcctggct29581aattttttgt attttttagt agagacgggg tttcaccgtg ttagccagga tggtctcgat29641ctcctaacct tgcgatctgc ctgccttggc ctcccaaagt gctgggatta caggcatgag29701ccagtgcgcc atttttaaat cattttagtc taattttgag tgttcttgtg gactttgcaa29761tctacccaat tgtgatcaga ttctcataga aaaataattc cacttaattt ggcaaaattc29821actgagcacc tgttcattgc caggaactgt acaaggtgct gaagtttcaa agaggaatga29881ggcatgactc ctgccttgag gagctcagtt tggtaggtgt gctaggcagt ctctggcgtg29941gctatcaatg aaggacacca tactcttttg tcattctccc cccttgagtg tgggctgcac30001taaatgactc acctcaaact agtagaatat ggcagaagtg atgagatgtc acttataata30061ttaggttata aaaagactgc aactttcatc ttccgaatcc tctcttatgc tttctcactt30121acttgctcta agggaagcca gctgctatat tgtgagatgc cctacagaca ggtccatgtg30181gcaacatatg aaggaaggcc tcagtgcagc agcccaaggg gaactgaatc ctgccagaac30241ccacacgtgt gggcttggaa ttgaattatc tcccaagtga gccttcagat gagaccacag30301ccccagctga caacttgact gcaacccaag ggaggccttg ggccagaggc acccagataa30361aacacacata gattcctgac ccacagaaac tatgagataa taagtgtttg ttgttttaag30421ctgttgagtt ttggagtaat ttcttacaca gataactatt atatatagag agagagactc30481ttttaaatga ctataataca atgtgataag tgccataata ggagaatgaa tgaagttcct30541acagataagg aagcaataaa taatgctgga gaggctcagg gaaagccact gagaggaggt30601agctttcaag ctgggcctta aaggataaat aggagttttY taagtaaaaa aaaaaaaaaa30661aaaaaaaaaa aaaaaaaaat ggaaacagca ttacagggaa aggcaacagc aggaaatata30721aggtgcatgg tccactcagg caaagcagag tagctcaagg agagcaggga aaagaggaat30781tgcaggagat gatgctagaa Rggtatgagg aaagattatg aagagcctct tatgtaggca30841tgaggatctg aatttaattc tgtaaacagt ggggactcct cggaggtttt taagcaagaa30901actgatgtgc ttgtacccat gctttagaga gatgagtctg gtgataggtc agaaggcaga30961tRtgttggag atggctgggg aagggggacc agtcactaaa tccatctatt caatgagttt31021gtattgagca cttgcaatgt gccaggtgct gtgatagatg ctgagcaatg gaaaacagac31081aaaatcctac ccttctggag cttacactgt aatgaggggc attagtccag ggcagatcta31141ataattgtgg ggatgaaagg aggaaacatt tgagaggtag aattggtcaa taggacgtga31201tacctgcttg aatatgtgtg tgaggaagag gcagaagtaa aaaatggcat caagattcct31261aggttgggcc acagagtaga tgataaaact gttagcagag atgcgacttg cagagtataa31321caatggattc aaactgggca cattccatta attgtgcaga tgaagatgcc caggaattgg31381tgtgaaaatg tgggtctaca ttcaggagac aagaccaggc tagagatata aatttagaaa31441tcatcaggtt tgggtggtag atgaagcctt ggaagttggt gagacattca ggaagagacc31501acagagcaca aaataaaaag gacctagtta ggggtagagg gaagagtaac cattggagtt31561gaaagcgtta aagagcacca agaagagagt ccactgagaa agctggagac aatgtggtca31621gaaagggaga agtatctgga gagaggcacc tcatgacatc cRaggaagag gaagggtggc31681accaccatca agtgacagat gaagtaagat aagaaacaaa gagaacgtgt tgccctgggt31741gagccattgg tgatgagaac taacacagtc actagtagca atgggccctc atgcctctcc31801aaatcactga tggcttcagc agcgcagaga gaagaactca tacacagatg gcctcacaac31861atgcttcttc tgccgcaggc tttgtccagc actctcaagc ttggaagcac cgtgcacaat31921gatctcagga acattgtctt tacctaactc cattcactca tagcaggaat cattttctga31981tgtagattct ggggccaaag ctaggccctg ccagcctcag tttctgtcct tcccccggcg32041atgaatcaaa tcccactgga agccgtgcct ttctttctga ccttggatcg aagatcttca32101gtcctaggtg actgagcctt gcccacaagg ctggggcagg tcctgatgga ggcttctccc32161acagccccag agtctgatca agtggcagtg atgaaaattc tccaggaggg aagttggggc32221caaaggtagg aggagcagca ctgggagcca aacggaatgg tgaggtgagg acagaaatgg32281tggcaggcag caatgttggt ggctgcagtg ctttgcaaaa atgcccacaa attccttggt32341cctcctcttt tcaagaagtg gaggctattc ccctcttctt gaatgtagac tgggtttaat32401gacttgcttt taacaaacac agtaaagagg agtgacaata tgcagttttg gagactaagt32461tataaaaggc actgtggttt ctgtcttgac tgtgcactct gtctctatgt ctctgtctgt32521ctccgatcac tcactctgga ggaagccagc tattgtgttg tgagctgcct catggaaagg32581cccacatggc aaggagctga gggaagcctc tgttcagcca gcaaagaact gagactctca32641acgcagcagc tcatgaggac ctgaggccta atggcaacat gagagtgagc ttggaagtga32701ctccttcagc cctgatggag ctttgagatg cctgcagcct tggccaacat ctggactgca32761gcctcatggg acaccctgtg acacaccacc cacccaagcc attcccaggt tcccaaccct32821cagaagctat gagataataa atgtttgcag ttttaagctg ccaagttggg ggataatttg32881ttacacagca atagctaact aatacaatgg caaaggagga acagtaaggg gcctggctga32941acaccagaca tttgacagaa ctcctgctta ggcagtgtct gcattgtgct cccagccaca33001gtgaggccca gcactgggct ggacaatgaa ggagaggagc agggtttggg attttagatc33061atttatctct tccatgctgt tattattttt tttcagtgaa tctcctttaa aagagctaat33121agtgggaaca aagataattt cagtggcaat atgaatgggt gtgacccctc agcatttaca33181gcaaggtgag tgcatctgcc ttcggtttcc tgggtccaac ttgtttccat ggcatggccc33241gaggagactc actgcaccaa agagcctgcc gtcttcccct caggccttgc cctccatgcc33301cctgtctcac tctcaccctg ctctgccttc cttccacctg cctgagcctc tctcacctcc33361aacaagcctc ccctttaggt tccccagaac acaaccccag tgttagaaag tcagaggctt33421cctagaagta agccaaactg atatgagcag aggaagaacc tgcagctagt attctggcct33481aaagaaagcc atgtttggat actttaatga tccttataac ttttccaagg aagcaccttt33541ctattgactg attttgtttt gattccccgt ggggatcctg tgaggtgggc agaacagata33601ggaacattcc tgatttacaa atgaagaagt tgaggctcag aatggctcag gcagcccgca33661agtaagtagt ggagccaggg ctagtggaac atccatgtct tcacattcta atcctttggt33721ctctcactac accatgtcct aggatggcca acccaaaagt ggcaacccaa tggcatttca33781gctccttgtt taagctgcta aatatagcaa cattttctcc ttgcatgcat aagaagtttg33841ccagggcatg atgaaatatg tcactgactc tctccatgcc tcagtttcct ccatttgcac33901cacataaggg tgaactagct gtcccctcag gcccctttaa gcctcaatgc tccatgcctc33961tagcgaaatc cctcaagaag ccagacttgc ttacatgagg cagaggactg agtcctcacc34021atctggcagt gactaatcct ggaaaaccct ggggaagaat tgctcaggag tgagccagtc34081cagcccacac aaaggggcct ggaggctgca ggaagtaggt cagcagccta tggtggtgtt34141actgggcttc ggctcctgac agaagctcct cagcccctgg ctggagtgag gaggggtcat34201gccccccgcc acctcacagt cccactcaga cttgccaggc cagctattcc cacttgcagc34261tgggtgtcca ggtcctccct agggctcccc caagtgaccg cccatcacca gctttccctg34321tgaagcctct gagaggagca caaaagacgg ctggcatcca aagccaattt cacRccacac34381ctccattaca ctgtcagtca agaaaggaca gaagtgttcc ccactcacct tgtctaagaa34441aggaacaaaa gagcacacag gaaggatccc ctttttgtca tcacaagact ataYtacaat34501Sgagacaccc acaaccccac ccccactgga gaccccaacg aagSctcact ggctcctttc34561aatccttttc cccctttcat tctccacctc ccgatttccc caagtcatga attcactttc34621caagttgcag tggcaggaga atggaaaatg aggatgatga tggtgacaac cagctttccc34681tgaagtctct cacccaggtg tcttgagccc tggagacacc tgatgtcctt caacaccctc34741aaaaagaaga aacagcaatt gcactgagcc aacactgcat acgggagaaa catccttgga34801gctccatggg agtacaacaa aacccggcac catctggcgt cgtattacct ctgcatgcat34861ttgcttccaa gccccaacat ccaggcagca ccgggtctgc actcctcctg tatctgtgat34921cactaaaccc aactgataga tctgtttcca tcggccaaat tttcatctaa gattcatcca34981cttttcctga caatcaaaca aatatttatc caacaaattc ctgaatgaga attgatctcg35041ctgcttactt agaaagctag aggggatgat ttttacatgg gctttctttt tttcctctgg35101agaaattaga gagttggaat agtacaagag aaagcaaatc aatggctatt tccagtgacc35161agcatctgtc ttcaggttta atagaaatga tgccctaaga catatagtct atttggccta35221ttcaatacaa aaacacccat caatattaaa gtagtgcagc aggagggcct ttcctggtac35281tttgtaaggg tagacaagag cctcacaagt gttcaaagat tcacgaggcc cttctggata35341agcagtgaca aactccattc cataatcaga gaaatgaaac catcaaccat ctctaaaatg35401gctctggttc acctgagcat taggtgtgag agaattagga atacatcacc agaaatctga35461cctcctttca gggatagcta aatatgtggc acRtatacca ccattctatc ccatacccag35521ggcagacatt actaatcaat tcaacattgt cttccaatct gcatggataa gaccttatga35581tccttttcag cacMgcactc caagtggctg tcactggtct agagtttgca tacaagaaga35641aaccaacttg ccatccctga gctaggcact attaagctga ataggttaaa agtttcatgt35701gagaattaag gactcacatc ttaagcaggt cactggtcag atatataact tctgttttcc35761tttccatgag gcagaaactc tatcacaaca gctaagaccc aaaccaaatg gtggccatgt35821tttgtggttg gactcaagta ttgctacggt cacatacttc tgtcttcaaa gcaaacagag35881atgctaagaa gggatttttt Nttttttttc agagataggg tttcactctg tcacccaggS35941tagactagag tgcagtggtg caatcttggt tcactgcacc tgccgcctcc ttggctcaag36001caatccttcc tcctcagcat ccacgtcccc ctacctgcct cccccagtag ctgggactac36061aggYatgtgc caccatgcct ggctaatttt taaattttat atagMgatgg ggtctcccta36121tgctgcccaa gctggtaaga agggattttt taatgatggY Kaatattttt tctactccac36181cagctagaag gcatcaaccc attcctcctt aagtaattcc tctgtctttc attgcctgca36241gcatgaagta agcttcttag cattgcaagc ctctttgctg tctggccaca gctgcctttt36301taagattYct cttcttttcc caccatggac cccaRcccca ccataccaca gaaaagtatt36361tgccRcatcc cacaccctca acgctcctac accccccacc ccccaaaaaa ccactcttct36421ttttgacttg cacttttgca cacaaaggtc tctcactatc tctcaactcc cattcatggc36481caaacctNtc aaacaggttg tctacactcc ggctacacaa aagtgggccc atcgaccact36541tgcatgagca tcccctgggg gctggttaga aatgcKcacc ccggatctga cctagggact36601gcagttttaa caagatcccc aggtgattcg catgcacagg Rtattttgag atgcacttct36661ctaaactcac tccctttctg ggacacccac tcagtcttca ctctctccac actgacttcc36721ctcctctctt ttccaccaaa aaaactctca tcaaaggagt gaatgtgtcc atgcagatat36781gaataaaaga ataataaact actacttcca ccttttgcct gtcctgggaa cttctattca36841tcctccaagt ccagtccaaa agacctcact tctgtgatgc cttctctacc ctctaacgca36901gataaggaaa ccaaagtcct gggaggatgg gaWatctgct tacagctctg cagcYactaa36961gtggagWcca cctgactcca agcccatgag tgccctcagc atcgccagtg cactgccttt37021acgaagtgca tccagaaaga tgcccacaac ctcagataaa agccctttgg ccactgtcag37081ggacaggact ccaaggctgg aaccagtaaa acaagtctga ctttgctggt ggatgagacc37141ccatggaggc tgctcataaa tcagattccc ttgtttaagt tcttagcccc tgatgactac37201tgcttaccca ggcctctcaa tctccctgaa gacctttctc caYccccttc cttcaaacac37261acatcccagg cacccatctc ttttgccctc cttgcctcca tgcggaattt ttcctttgga37321gaacaaggac ctcagagtgg aaatgtccat cactggtctt ctcatttctc caagccacag37381caatgccatt ttggcgaccc ggctgctctc aaacttcaga gttcagaaga attaccggga37441gagatgtttt aaacatgcag attctcaggc cccaaagctt ctaattcccc tgccctggag37501tgggtaggaa tctgcctgtt tagctagtgc cctgaggggg ctcagatgca gatggccctg37561gacacacttg gagaccctct gctgccagcg tctcctgggg actcttgcac atcagcaagc37621tgctctataa tgcagcgtgt ggaacctcag ccaagtcttc ccaccactct catcctgagt37681cagccttgct caatgagggc tcgaaagcct ttcctgccca cctcatcctt cttctattat37741gaggatcaag accatgggct atgtactact gctttgttaa gctggaaaac tttaaaagaa37801caaaaggcca aggtttacca ctcttctgct ttgttttggc accactaaac ctctacgccc37861attcccagaa attctgtatt tctttcaacc ccatagccca ttgtcgacat acccgtaagt37921gtttcagaca ggcctgtgat tgttgcatgc aaaggacatc aatccatact ggcctgtatc37981caggcacaag ctgtcttccc gatagcaatt ctccttgcca gagacctgtg ggtctcctgc38041ataaacagga ggtcttagct tctctcagca acttgagaca ggcaccatat actctctccc38101caagataaga tcttttagaa gacaaagcat ttagattatt tcctttgtag gattaaaaac38161aaacacaaat gcccattcca gtatttgtag gactgattca actggagtag taggaaagat38221ttaggataca tttaagacac ggtttccatt gtttcactat gaagctttga gtatctttgc38281aacctaatta gattgcacct attaaatgat gactggattc aacagcccYa gaacaagcat38341tacttttgat cattttctat tttagcKtct attcaactat tttaagagga atatacctga38401gccaaaaatc acgaggaggt ggctagcagt agcaagattg gtcctaattt attgagggca38461gtgaggcaga caccaYcaat tctttaatct cgccaggagc tccagtccaY ggacagtacc38521acttctcacc atatctcctc tcacgtcgtc actgctcatg cacctatctt agattccaca38581tccagccttg cacgtgtctg cctacccctc tacccctttt tcctacttac tcaacttcca38641gttaatacca actcttcacc tactcttggc ctataccaag cacagaaaaa tacaccactg38701tgctgagcag tcgtggtttc agtggtgacc acagatcttg tcattgtccc cgtatttcac38761tagtcgaatt attctcccat ctctctctgt cttttcaaat ctcccatatc ttatacccca38821tcctcacact ctccttattt agttgaaaaa tacataaaca atcagaataa aactattgcg38881ccaggcgtgg aggctcacgc ctctaatccc agcattttga gaggtcgagg caggcagatc38941acttgaggtc aggagttcga gaccagcttg gccaacatgg tgaaacccca tctccactaa39001aaatacaaaa ttagccaggt gtggttgtgc atgcctgtaa tcccagctac tcgggaggct39061gaggtgggag gattgcttga aaccaggagg cagaggttgc agtgagctga gatcatgcca39121ctgcacactc cagcctgggt gacagagtga gactctgtct caaaaaagaa aaaaaaaaaa39181aaaaaagaat aaaacgatcg catcttctcc atgccacacc cacccagctc cccgcctctg39241tatccctacg cttgtctccc tcctattacc gggaatgaac ggtctcagct cctaacccaa39301agccgactgg caccaggatc cctacctctc accctgagaa ttttgctcct gctgttattc39361cctcttgcat cgtcaatgtc tctctctctc tctagYagac cattcagcca gcatacaaac39421aagccataaa agctcccatc ttccaaagag atccttcctg accaagcatc cccctctgtt39481gagcgtccaa tttctctgct ccttcttctt ttagcacaac tggaaagggc cagttctctc39541catgcccctc ctttccacac tctcccctct ccacacactc gcctagctct cctcccacct39601cgctggctgc cccttcttgg tcttctttgc tgaatcctcc tcttctccct ttctcccagt39661tcttcctttt atgtggactc acttcccctc aatgtcttct atMcacttgt tattcccaat39721ttatatctcc agcatgaacc tctttctgaa ttccagactc atatatccac ttgtcatggt39781ggttgggaac ccgaagaata Raaagttaaa aagacctaag ttaggaaagg attttgtggg39841aaaatcctca tcccaagggg tgatgagtac cctgccagcc aggaggggag ccttcagctg39901gggggctgtg gagtctttat ggaggcagga ggtggaactc acagcaagca gaaaattagt39961tgaatggcac cagctttagg aactgccagg atgcactttg gatcatgaat aagtaaagaa40021aagaggtcat cacaggttcc agaagagtga ggacagagag aagcaacaaa gtgagaaRag40081gaagaaggaa ggagacaaag aagacaggat acagagaaga agggggctgg aaggagtggg40141tgaaagaata agaactcaga aaagagattt tggttcttgc ttattcagga gcttaaccag40201aattctgtct aaactcttta aaagatgcag aaactcaatt gtctcactca tccctgggtN40261ggggggggga ttaatgtatt agtactattg ctacaacttt atgaggcgct tcctatgtgc40321taggcacttt gaacacactt ccttatttac ctcttaaaac aatctgtgac tcaggtatta40381ttgtctccat tttatagaca aagaagctga agctcagaac agctaagtaa tttactcaag40441acaacccagc caactgctgg cagagacagg atgaaaacac gtatcttatt ccaaccaaca40501tccatgcaag taRccactac accgctcggc cacaggaaac aagcactggg aaagaccctt40561cccctgacac aggaggccga gcggctgatg agcaaactcc agagagcact gggctCtgaC40621catccggtgg cctcccctgc cagagggctg gggcaataga cacatcccca cctgtgctaa40681agtcctgctt tcctctccac aaccctcccg ccccatccac actccacact gcccttgagg40741gaaaaatgag gacccagagg atggcctggg gatgaggggg gactgctcat tagctaccca40801gccgtggtag ctaatctaag atccgggaat aaaggccctc cctgaatgac cccagggcaa40861aaccaggtca aggccacttc caaaccccRc cccgacagag ttaaaggcga ggatctagaa40921aggctgaaaa cacaaagaag ttaatcagct ccctgaaatg aaaggggaga aaagagactg40981gataaaggga tcagctgaag gaagcagcct ggcttgggag agaacactcc actcagccac41041gagtccacag actcaggcca gcactgcccc gggggccagg agatcttggc Ratggctctc41101tgctgtctgt ttccttctct gttagacaag ctctagggtc tttgcacctg acagctgagg41161atagggcagc acctgtggcc aacacagcct catctggagt gggtccagcc aatgctgtga41221ccagcggctc tctgtaggtg cacaccccat aggtaccctg gatccacaca gatgccccct41281ctaattccat gctgcctctc catctgcctc ttcaaggtaa aaggtggatg gagctagggg41341gtcagaagga gtcacaggga tgggtgagct aagaggacaa aggaggcgtc tccctccaag41401acaggatcag cgtgtgtggg tgggaggtat acaaaacgcc atctctcctc cacagacacc41461cgggaacact gcctgaaact tccaccactg atgtcgctcc agtggcttaa aaaccaccct41521tccaaaaatc cccagttaaa atgcaaacaa ctttcttaaa gaggatagca ctatcatggg41581ttcctcactt gatcaactca gacactgtca gaaccagagt gaatcttgga gaccaccaag41641tccaacccct tctttagaca cagaaggaaa ccaagcctct aagaggtaaa gtgacttgct41701cagggtacag gaagaggtgg cgcagagcta gaactgtaac caggtctcct aagtctttct41761gcagcatggc cctggcccct gagggaggtg gcccaggatg ggggcgggca gggggtctgg41821aatcttggca tcgtgctccg gggctgctcc ttcttcctgt tcagccacca cRgcaaacaa41881gagcccctgg ggcctcagcc agcgactgac ccctccctga ccctgccttc cggaaggatg41941aatgcacatc agaagccagg gccaaaatat tcctgggcac tgtctgctgt gcacccagct42001ctctttttcc cagcctctta ggagggagaa gtttccaaaa gggacagctc caaaggcttt42061cacagaaggg gagcctctct aagaagtgct cctgtgtttg ggcaatggag gYaagtcagg42121aagacagggg gatggaagaa gaaagtaatt ttttgaatgt cacattttca ccaaaatggc42181atctgggaac tttcaagatc atctgactaa taccaggttg tattcgttat ttgcaaagat42241ggaggtggaa tctcctttga agtagtacaa ccaaatgatg tctgtagcct tMaaatgggg42301taacaagagg caaagaaatc tggggagagg aaacgtgtcc tgccaggggc tgagggtctt42361ttttgctctc ctYctgacag tctcacagcc agccacgtcg tggtagggtc ccacagagct42421gcccagcatg gggcaggctg gccagagcag ctggctcttt gcaaccaccc agattgcctt42481tgctgggaag ctcaggctca tttgcacact ggcataactc cacgtcactg accagcccat42541gggcaacagg actcacagcc aggatgggtt ctccctgggg ctggcacgac tctgtcactg42601cacatgtgca ttttcctgat cctgggcaag ttactgaaac tttctcaacc ccagttctcc42661agctataaaa taggaacacc ccctacatca caggattgtc acataaggga aaatgaggct42721agagaacctg gggtaacgtg gaattgactc tcagtgagcc tggttccctt tctctcgcaa42781taaaagccgg caccacctgc tccaaaggta aagcctatgg ggaaagtctt tcccagtgag42841ccctgaacaa gacagagggc ccttccccac aaagcttccc aggcttggag aggcgggtgg42901tccccatgac tcattggtgg tggtgggctg actcatttgg ccaactgtcc ttaatttccc42961tcctcccatt ttgggagtcc tggagcattc gttccccaaa tgaggcttgc agccagaatg43021agctgtgatt agcacagcag agaccagaag gatggtgctg gggggaggcg gggtaagctg43081cagagagttt cctgaaatta aggcaggaga agcagggagg caaggtcttt ctccctgggc43141catttagcag acagagactt cctttagagc caaccttctc aacctctgct gggcaaaatc43201aactcagagg actgcctgca atagccctaa tatggccctc agaggcagac ctggggtgtt43261tatcacagag cacaccatga aatttcaaac cactatgtag gtaacatagg tgggtgcata43321aaacagaaca ttgccccatt gcactgaatg cacaatgaac agtgggcccc agaatgcggg43381ctgtaccaga tctacataaa tattacaatc tgaaggcaga tgaacaagag ggagtttgca43441agggttgggt gagaccacgc tgtacaaggc ccaggtgctg tatagatgat gcagaggtgg43501gtagggtggg aagagaggtc aatgtgaagg ctcacatcca attgtttttc ctttcctcag43561gaggaggatg gatattcttc tgttgtgggt ttcaattcca tgctgtcaaa taacctcttt43621agtccaatgc tctgccactt tcagccaggc ataagcaaga caattgtcac tgaacattat43681tgggagtaac atgcaatggc acatgcacta atgcgaacat cagaaggaag acccggagtc43741tagtctagcc ctatcacttc tgcacagctt tggcctgagt cacttaaccc ttccgagtgc43801tggtctactc atctgctaag tgggacaatc acttctgaca aggctgctag gaagattaca43861ttgagagtgc actggtgatt attcagcatg tcagggaggg cctaccactc cgggcctcca43921cggagtggat ggctaagatc ccctgactcc cagtgcacac tcctcacaca tggctgcacc43981tctttcggcc tcaggggcca gcgaggagcc taccgacaag gtgaggtgaa gagcgaagag44041aatcagtgat ggaaatggaa gccagcagtc agggcttgca agctcagccc ttctcaggtc44101ctccaagaag taaatcagct gagggtcaga ccccaaggag cttcacggcc agcaactcag44161cctggtttcc tctcttttcc tcgcatcaca ttcagtgacc tatcagtcta gatagagggt44221gctttttcaa ataaaccctt ttccaacttg tctaggagaa caatcataga ttttgatccc44281aaagttaaat tggcctgtca gatacaaagc tttctggagc cagccagcat ctcaggatat44341cccacactcc tcccaaatgc attaccaccc agcaggtagt gtcatcgcag tttctctggt44401ttcagaataa taactggtgg gaaatgccca tggaattgac actcagcact ttgaagattt44461tatcagttgg gtaaatatca cccagaagac aggagaaact ggggttctgt tacgacatct44521acaactagaa ggagtgctga tcacttcttt tccccataag gtctaggatc ctataaccac44581gacaggatca gaggcaacct ggtggtgaaa ggtagacaaa cccaaactcc ttacatgccc44641agttcagctg tcctcacaat catcctacac atcacatgca tcctgctcaa gagctcgtgg44701ccagcctcct ccttcctaca gtgccctaat gccctagtga atcaagcccc accacagtgt44761ggacgctcgt aacatacctg tgactccccc cagcagcctg ggatcttcct tccactccat44821tcacgctcat ctctgctcgg gctccaagcc tcctgggccc attcacacct ctgagcYttt44881gctcaggtat ttcccactct tgctctcagt ggtctgcctt ctatttgtct accccaactc44941tatgcctctt tctatacttc ccccgctact ccaacctgca ctggtccctt tcctgagcct45001aactggcact cacattttgc accaagttgg cacttaattt taaatggtct tgtcttgaat45061aatatgctaa ccacctcttt cacctcctcc agaacagaaa aggtgcctta cacagtggag45121aagSctttag agccagaaaa atccttgatt ggaaaaatca gactttacca gcaatcacca45181ctgcctttgt caactcaatc tctctgagcc tcagtttcca tctctgtaaa atacgaattg45241taatcttaat ctcaaagggc tgttatatgg ctttaacaag ttaatatcta taaaaagcct45301agactcagta actaatgcat agaaagtaac ccccaaaagg ttattccagt tcccctttgt45361ttcttttatg tcttgcagaa cctagcacat tatggcaaca caagacattt ggtatatgtt45421tgattcattt ataagtagta taaagaaaac cagtaactgg agggtcatta tacaaagtag45481cagcatgcgg tcaaaacaca tggatctatt tttcaattac ggacaaaaag ttgagatcta45541tggagggtaa aacagtctac tttaactaaa gaagttttca ggattacaaa ctgccagtct45601ctctgtactc atcactcagc caagcagaag tttcagcaca aatgttcatg ctggcaattc45661atactacatt ctttcttaca taagttgtct ccatccccaa actccataat atgtatggtc45721cacagaaagt tcacttcacg tgctaaatgt ggtacaatcc ttgctacttc tttaaatcaa45781acacagagca aaatttttct ggagttcttt ttaaaattat ttagaaagaa Ygccgatcac45841ttcttttctg aagcagaatt tttgtcattt atctatatat gtaacatata taaatataat45901tgtatatata attaaattcg tcttctaata agacctttcc tccccagatt ggagacaaca45961tagtagacaa ccatgaatat tagtgaggtc attcaaccaa aatcatgctg agaataatat46021ccaagtcctR tgagcaatta tgaaatccat gcaccaaaga tgatgttgga tgtggtggtg46081tccagtgaga tgaaaactgg agtggaattc agatggagtt tcagcagaac cattttcacc46141tggtggcctt ttggccttac tgttcttaca gtttcttctc actgtctctt tttcacatac46201ttggcatttc tctggaggaa aatgtgtctt gccactgcat tcacttttca gctcgtggct46261catgctaccR aaacaatgga agtcaacaaa aggcttgaga cattgcttYa gtgtgaatat46321aaacaagcct agaaatgtaa ttttagttag tgatcagaat acatatccgt gaaactaatc46381ttctccacgt ctccccactt cctggtggtg agttaggcac caactcttcc aggtcatcta46441gctataatgt aaaacattac agaactaaat ggggacccca agaggtcatc taacccatgc46501ccccaactct atgcaagaga aatgcttggc tatcagtgag ttccScatca gcctcgacag46561tctaaaatgc ttggtgtcaa aagaactgct tgtctatttg ttttaggcac caaggtgttt46621ctcctgtgct ccctggagac caaatgtaac tggtcagtgc ctttatctca gtgatacaca46681taacaacagc tattaagtga cccctaattc ttttccccaa gttaaacaac cccaaatcca46741caaacctttc cttaaagggc ttattgttca tcctgttaaa catattgtta ataagctttt46801ctgtactttt tggatttccc acagtctttt tccgctaatt caaacacagt ggtgtcaaat46861attaaataga gctgaagcat tgcttcccag accttccaca tcattcctag tttaacgcag46921cttggttatc atgctttctt aaaaataaac aacacaatac tcctccagct tgtgatccac46981tacgacttcc agatctatct cagctataat tgtgccttgc caggtgatgg ccaataatac47041aatcaacata atccagtcaa gcagattgat gctaaaccat tgatgaccac tgtcatcacc47101tctcaaaaaa gtatttccta gtctggtgta aagaaagatc aggtaaccaa acgatgtgtg47161tYgttcacac aatgtttaat aaaatacaaa gcatagcatt ttctaacttt tagtttgaag47221actctttctc ctcctggtct atgcctgaaa actaacttct gggtgaYttc atatgtgatc47281acagggtaga acttggagaa aatgaaacag atatttaacc tgcttatccc aaacactgcc47341ccttttcagg aaacttggag gtaactgggg taacttagca ataaaccccg ctgaaagtta47401tcctgaggtc tgaaagtcac tgatcctctc agcacaatgg agtatccact aacaatggct47461aaagagcatc tcttcaataa acttagcttg actactacca cctatcatga ctagctcatc47521gaccaccctt caggatcatt tcatgtgcaa ctagtaagaa ggtttcaatt cagtagtagg47581tctggcatca gtaatcttct ccaccatcca aggaagaaca tgttatctta ctggttgttt47641tgggaggtga agtaagaagt tgggaaagtg tgattctgaa tatgaagaat ctgagtactt47701aggaagaaat atatctcagc aacatcctca acattccata attaaccact ttaaggagcc47761acagccatta aagaatctgt gctgacccca aagagaccat ttctctaatg gcaacaactc47821cacatctccc aagttgggcc ccactcattg tctcctatca tttgtctcat acagatgaaa47881ctctaccatc tatgttcact taactcataa gacccaagtt gctagagatg aataatatta47941gtcatgatgt ccacaatgga gagtcgctgt tatgcattgc tggattattc atagacactt48001ctggtaaaca tggcactact gcagtttgga ctctgtacca aaactagaaa aactagtaaa48061cagctttcca aaatcttgtg gtgagatttt tctggctgtg aaacatttgt tgcatttggc48121catgaaatag tttacagtac tgatcatgaa atgcatcagt agcctttcac ctggtaatgt48181gaaattctct ttccatagtc ctgaagctta gaaaatgccc tattaccacc accaccacca48241cccccaactg agcagtgcaa tactctcatt tctaaattag ggatcagcaa actatgtctt48301gtgggccaaa tctggccaac tgcttatttt tgtaaataaa gttttattgg aacacagcca48361tgcccattcc tgtacatatc ctctacagct gttttcatgc ttcacccaga gctgagtagt48421tgtgacagat gtttgcctta caaagcctta aatatttact atctggtgtg ttacaggaga48481aatttgctga tccccattat aaatgataag gcaaaaaaat ttcttattca gaataacctc48541ctctccaacc caacaaaaga aaacaaaacc agaaaacaac catgacccca gcgagtagtg48601ttcgcatact taaaagccag cctaactctc ttacaaagta tactctgaaa taagatgcat48661acaaaacata aaatactatt tgatggcaca gtagggtgac tgtagtcagt ggtagcttaa48721ctgaatattt taaaataatg taaagagtgt aatcagattg ttcataactc aagggataaa48781tgcttaaggg gccggatacc ccattcttta tgagtgctta tgttcacatt gcatgcctgt48841atcgaaacat ctcatgtacc ccataaatat ctacatctac tatgtatcca caaaaaattt48901aaaaaatttg taaaagtcta tatataaaat acttacaagg ttaatttaaa ttaaaattcc48961ggaaggattt ttttaatgaa aggaagttct gaaactgatg atttagggat ataataaaac49021tcaaatatgg ttctagttac atggagtgat ttgggtttct tagaaaagaa gggtaaRagg49081aatgtgatgt aatagacaac tggtcatcaa taagaataaa ctgaattttt taaaaaatct49141ctaaactgta caactctacc cagagttcta aagagaaggt cttccaggta catgcagagg49201aaaaagaaat ggatagggga atgttttctg gtggagccat atcttgaatc atccctaaca49261tgtgctgaat aatgacctag ctccatccag agaccaaccc agggacccat tcccaccaca49321taacaatcct aagtcaggat actgctagag gcatccatag attaaggcaa agatccRctg49381ttatgagaat ctgaacaagg catgccaacc tcaacttcca ccttacccag actggcagcc49441cttgggaaaa gctgccccaa agccatctaa gtgtgcccag taggcacatg gtcatgttca49501gttagggcac tcaaagctga tcttcagttt tcatttttca tttatcacca acactgaaaa49561atggggagat ctcatcaaaa tgtttgaatt gtgacctccc ttgaaaaaaa aaaagatctg49621ggaaccctgg gcccacctcc tgcaggctgc atcccctgag ctgagtcacg gctgccccat49681tggaagcaca ggtgcttcct ggtttgagac actccctacc actcctgttg tctccctgtg49741acctgagact gagcctcaag ggctgttcca catctctctg gcattgtcat ttatgtcaca49801cctgccctgc ttcattcacc aaagatacct gctctgtcag catcggattg gcaaccccag49861agctaaccat ctatggtaac tacatgtttc cgagtggatg aggaacatga tttctttctc49921tctttttcat tctctggccc atgtgtgtac ttttgccctc cctcttggtc agtgaccatc49981tatagacaga aagcacatca ttcttggcct acaacccatt atcagacacg tgaaaaagtc50041agtccctgtc ctcatggccc actattatgg acatttgatc atcctggatc tcctctatcc50101ttagttattt acatggatag tacacSttca tgccagacct ctcatccctg tgagcagccc50161aaagatagta tatgcaaaga aagcccgagt catgaggaaa gacacactct aggtagaaag50221cactggccca tcagaatcaa ggtcctcttt tctagagagt aaattagagg gtgcaatcgc50281ttcccatgga agaagatatt ttattcctta ggtgacttct taattgaacc taatgtctca50341aattttgagt cactatagga agtgggtgat gtgtaataaa tatgKgaaac ttcattttac50401tcWgtgttca tcaaaagata cRtggataag ctaaatgcgg tttacacatg caatgaaata50461ctatttagcc ttcaaaagta gggaaagttt gacacatcta cgtaaataat ccttgaagat50521attacactaa atgaaataag tccgtgacaa aaggacaaat gctgtatgat tccatttata50581caaggtactt agaggagtca aattcagagg gacagaaagt agaatggtgg ttgccaggag50641ctggggaggg aatggggagt acgtgtttaa atggtacaga gtttcagttg gagaagatga50701aaaaatccta gagatggatg gtgatgatgg ttgcacgaca atgtaaatgt acttaatgac50761acagaactat atcttaaaag cggttagaaa ggcaaatttt atgtaatgca tatttcatca50821caataaaaag gaaaaaaaaa accctaagga gggcaccata ctggtgtggg gctttctttt50881tactgctagg aaWacttaca aagtccataa tgcaaggcat aacgtgatat tcagtctaaa50941gaaagatgga gtacactagc agcagcatta cagtgtcatg ttcatctcca cttggcccca51001ctgggggcca gcaatgctca aaggtcaaga cctggcctga catgctcacc tggttctgtc51061tgacctagag gacccctcag ataagagggc ccatcttcac acacaaggaa agcctacccc51121gggggttcca gctgacagct gcaccaaccg gcagcttggg aggctacacc aacagcacct51181tccaggcaat gaaaatttta acctcccacc tattctaagc acacattaaa tcttgcattt51241ttgtgcaaaa cttctattct tggcacaggt gtgacagcaa ccttggacag gtatactaag51301tcggttcaca taatcaggct ttcaatccat caattttggc catggagagg gtgatgatgg51361tgatggtgat ggtgatgggg gagtgggtga cagcaaccct ggctcagaga atgaacgctg51421gcaccaaccc tgggcattgt tcactttcca ggccaccatc tgtcagccaa gccagtggca51481actgctgttc tagaccatgc ttgtaaataa aacaacaagg ttcaacaaat cttggcatgg51541aagtgggaag aatcatctca ggagtccctg ccgcatgacg gcgtgaaagt gaactcacac51601aggatgagct tggttggtca agcaaatttt acagagatgc tataggagca ttggaaacag51661actttttatt taacagaaac ttacacacac ttggtacaaa ccctacatta tgcaaacctt51721tatcacagtt ctacacaggt tgtcacttgt gggagttggt tggaaagcag attattatga51781taattattag cattttgaca agggacattt tctaccagaa aacgtcagag aaaagggcta51841caaaatgata cagacactct cggtgatccc ctccaccaac aggactggct ttgaacagga51901aacctgaaag gactggcagg aagtcggtgc ccacctgccc tgccctttca gaggccaaag51961agattctcag gctcagaacc atttcagtaa cactgtgact caaggacctc tgctgaccag52021aatacccagc Sttagactat tcgtgtgtta ttatgactct gcttacaagg gagggaaacc52081caagagcatg gctgtgtgaa agcccagtgc agtggggagc ctgcgggtag aacccagtgg52141ctcagccagt cagccctgca cctttgctgg gccacagaca cagcgccgag atacatccca52201tcggccaaaa cgcccacttc cgccagctca gccagaaagg gccaYgttag aacacccgcc52261gtcttccttg gctcccacca gcaactgaat ttgaggttct catccttcag gtcggccttc52321ctagcccttg gggacagctc tggaagctca ggccccagaa gccagctcag cagaaggttc52381cctttcctca tctcttctag gagttgttag gtgactgaac taatatcacc tcagctgatg52441cttttatttt tgcttttttt tttttttttt ttttgctgca ttattttaaa caaagctctc52501tgtgttcgaa tctattgaac ttgaggggat atattccatc aatagatgga attccttcct52561gagctagacc tcatcagaca tgataactag gagNcaggct gcttctgaca ttcagataaa52621aggggcttgc ctggggtgag ggggcaatga gggtggggga aactgctgat ttgtggctaa52681gttatttcag tcaaatctta acacacaatc atttaacatc accaacactt tcaatagact52741tttgaaggag gaaaaaaaaa ctgagcactc ctcacttacc acatccaact cgcagaaata52801aaaataccta aagcacatac atgaatggct ttttaaaaag cctgagagag cagagttgat52861ctttattttc ttaYttaaaa tgtggggcat ttttctttag agttaatatg cagtctttta52921ttttacatta agtactctta tgatttcatg tcttcacaaa attgcgctta acttttgaag52981taggaggtac tttaaacaaa aatactgtgc Matgtcagca cttttttcct tttaaatatt53041gaaataaata aaatagttaa ctcttttttt ccatcagttt gtttgtgttc agttatttct53101actgtagagt aattccaggc ggacctgggt actttctcac agacaatcaa agaaaatata53161atgaagattt aaaaagaaaa aaaaaatctt cttattgcac aaactgaggc cattcccaag53221gcttctgtgg gctgagctga gttgcgctgc aggattttcc actcctgtgc tggctcctgt53281gttgtctgaa acacacgcac aggagggggc tgggcaaggg aagaggaaga agaggaggag53341gaggaggagg tgccaatcat cctggcttct tttcaccttc ttcggaaatg gcttgcttga53401aggatgctgg agtccccagg tcataatgtt gactgcagag ggaaaggcaa tgaaagataa53461aacaaaaaac aacagcatgg aacaactact taaaaaagaa agatgaaaat taaggggtga53521cagaaatgaa atgaattaaa aaaaaaaaag aagaagaaag aaagaaaacc accaactaat53581tgccaagtta atgaggctag gccaggtgca acaaaaatca gggtagtgtg tccagcgcct53641tgaacttcag cagcaWgaga tSagccagga atagggcagg tcagttgcta ctgggccaga53701ggcagagaga Rcacagctgg atggtcaatt cccaggtggt gtagcaggca gaactgggtg53761ttagcaaaaa aaaaaaaaaa aaattcccct ccacttaRaa accaaacaaa ctgaatcttt53821tcacagttaa aacaccccaR aaaggacctt tatgatgtca tctctctccc tgYcatccaa53881gtaRaaatga gtagttctat ggtatagaac caattcagcc acagaaaacc ccatcaRatg53941cctcatttgg cctaagccca aaaggacact gcttccttca caagcactca cactcagccc54001caaccctgcc ccaagtgatt caagtgtgtc aRagttactc ggagacagtc cccaaccaag54061agaccagttc cagtcctcta ctagcacagt gatccctttg tcagccttgg aacctggtgg54121tggttcacac aggtgggccc ttttgcctgg atagccacgc atagcttttg cttctagctg54181aaatgaaatc tgccattttg gtctttggaa cggagtagtt gacacaaagg agtgagcaat54241gaaaccaagt actgccacat ttcaccccgg aagcagtttc tgaaagcaga gatgggtgtc54301ccaacagtgc ctagatcaca ttaagctgag cgataaggga gggagaagag gSagaatggg54361cctaaatgga aaatggccaa gccagcaagg aaaaaagctc aaaagcaaat gagcagctca54421gcctcttcca agttgaaagg cccctcccct gccccacctc tcctggtacc caagcatcac54481tcaatggcca ggtgcacagg cctggattag atgctcttcc aaagctgaga ctccattcat54541ccaactttcc tccttgacca agtcctccct ccacacctgc tcctgttcct tgcctctacc54601ccatcccacc ccactgtctc cctttctgat ccgctttgct ggtgcaccct acccccactt54661ccctcatgct ctttgctgtc accacctgcc tctagctcct tcccttgact gatcaaaccc54721aggtgacctt tcctgggacc tcccacagaa cgcctgccga ttgttctctc catgggcatc54781tgtcatcatt tcactccctg ccaggagtct ttctgtccct ctcccagtgc cctgacccct54841ctggtcagat gttacctgcc actctgtagt gagtctgtct cataagctta ccccacacct54901ttcagtttct tcaaatttcc accccgacct cccaacacac acacacatgt atttttcctt54961tgccccacta aagccaccta gaaaatcatg cgtgagtccc aacttggcac tcctaacttc55021cattttctct tttgtttcct ctggtcaggt caactgcagg ccacaaaaat gaaacaatgt55081gcagctgtgt tcttagtctc ctgctctcaa tcccctgcaa gaaggcatag ttttctaccc55141ctccacacac atggtcaacc cctccccacc cctgtcctga catccccctt ttctctcctt55201tacccctcac caccacctca ccacctccca cctgccccct ctgacttaac cactggatgc55261tgtgtccaga gacttctcca ttctttctgt caacaatatt tattaagcat cctctatgca55321tagagtgaga tttggtaaga cttccactaa ttatctcaga aactgctcag ttctcagttt55381atttcaacaa ataattatgg cacactggtg tcaggcactg tctggaggaY atgagtgata55441tcacctttgc cctcaaggaa cacgccatct gtttgagaag gactacaagc aaacatgatg55501tgttgtgata agcacaggag cggcaggaac aaaatgctat ggaatggtac ttaggcgggt55561tttcaaatgg tgatttttgc cattttacat gggttaggtt gtgattccca gctttgcttt55621ttgttcgaat attatctcca ttgtctctga caatagacat tcttgcctac agattcaaca55681gcaacggtcc atctggagct ctttgttgat ctagatggct tcctccaaga aaatcttctt55741gtctactgag atccatggca aaaataatca catactaccc catgacagct cttacatgat55801tttaactatt tgtgaatttc tagtctgatc cactaggtca caaaataaat ccaatggcca55861ataaattcat tgccccatgt ttaattttat cctatccttg acagtgctga gcagtcacaY55921gcatactgtt attactcagt ccctagttgc caaatgaacc gaggtatatc tgaatgaaaa55981tgttatcatc caaggtctgt aaacagaata gcctgaaatc tcagctgaaa ggccaaatgt56041ctgagtcacc agtaatgggg taaatcaatc acatacctcc Kgatgtaatg cactgagaag56101gatacaacat catttctaag gtattctaac caaaatgcac aacttcagtt tagtcattag56161aaaaacagca tccaagcctg aactgaatgg cttttgctat gaaatgacta accagtatcg56221aggttgWgaa aaacaagatt gtagtactaa ctattccaga ttaaaggact tgtaagagga56281catggcaacc tgtgagccca gactggatcc tggaccagaa aaaggacact agtgagacaa56341ctggcagaat ttgcataagg tctgtaggtt atagcattgc atcgatgtga atttcctgat56401tgtgatcatt gtactgtggt tatttgaaga atctgggtga aggacatatg ggaattcttg56461gtaaaatctt tgtaagtttt ttgtaagtgt aaattatttc agaagtaaat tttttaaaaa56521gccatagtta ttggttgagt tccagtggtg agatactttg aaaacctaat tgccaatgtt56581ttttatctaa taattcagtt ctgacaggaa tcttccatca ttcccattta ttttgtaaac56641caatcatgca gaatggcttt tcctatattg ctattttgaa taggtgatca gaaatcactt56701ttattaaaca ccacaatatt atataattca atgtttttgt gttagaagca attgggtttg56761tgaccagggc ccaaaatgtt cactccctgc caccattact cccgctacca ctggcaccac56821aaaaacagtg accatttagg aagctcaact ttagttctcc cagaaagttc atgaggactt56881agacattgct acttctcaga aagattctaa tgtgtcatag tttcatttgg ggtttctgtt56941gtttcagttt tttcttttac agaatcaaat acctcctttt catccaataa attcttgaat57001aaaagaccta caggcatttt actgatttca ctcaagaaat cttccaaaga tgatctttgg57061ggaagtcagt atagacttag gaaagattat tagaagatcc atacatcatt tactgagcct57121ggaactttag acaagtcatc aaacaggatc aaatctcagt ttcctcatca gtaaaacggg57181aataaataac atctacccta cctcatagag ttaagcatca tcatgaaata atataagcta57241catattctaa tagggaaaga aatgtccatt tcctctctca gaaactgagg cagagatccc57301tgtcaacaaa ttcacacagg gagctgagcc cagagcccag aacttgtcaW ctccactcta57361ggcttccaca caccagatca aagacacctc actcagaaaa tacacaacac aagtcacttc57421tcctccaaag gctgagcaaa atcccctgag gaaaaattcc taacagatga gtctgctcca57481attttaagta caYgttcaag atcatattca tcagatgtaa caggaggtat actgggataa57541aattaattaa ttttattcca ccatgaggtg agaaccccca aacacccttt agttctctcc57601ctgagtaatg atcttgcatt ccctccagtg ctgtataaag cagtatcagt ctgtagccca57661ttagatgcag agagagatgc aSagtaagca ggaaccctta aagggatgct attgatgtga57721acatcacatt tttttttatt aaattcttct ctctaaaata ccggtagcaa attggattac57781tgtctttata gtacctctaa aaaattaaat gcatatttct aattcccagg gtcatagtga57841ttatagtgtc tgatctttac atagtctctc agtaacagaa ataaaggatt tgattgttct57901aggtagggaa aaaaatcagc tagaccataa caattgtcac ctttaggtca acagcccccc57961tccccagggg attaaaatgt tgtaacaaat ttagaaagtt ctatatcttt ggttcccctc58021tctttggcct gggactcaga aaactcaggg tggtacttta ctgagctgag ggcaaaggaa58081gctggccaga tYgttttcat cttgatgact ctaatttctt ttgtatttta aattttgagt58141agtgatactt atttaacaaa agcaacaaca gaaaggtgtg ttgactgttc acacagctcc58201tacaattcct aaggtcacaa aaaaggtgat ctctttgtac attgtctaga agtgatgatt58261aagaaggtaa gttatctaca atattccgca gagaatctga attagaactc tcttttacag58321gatctaattg cttactcttc cgttgttgaa atttctttta atgacgttac cttttaaaag58381ctatattcat tacaaaaacc cttttcttca gttggaattg agaaacagca aagtatgtat58441acatgcatgc atatatattc cttaattata gactatgcaa ggggcaatgc aggcaacgat58501agagtatagg ctctacaatc aggttgccag ggatcaaaac ctggctcctt cctaggtgta58561catttcttaa ccttattact aacctcagtt tccgcaaact ggggattaat ataaacacct58621atctcatggg agtagtcatg aggattaagt gaaatattcc aaggaaagcg cccagaataa58681tgcctcacac aaaaatgtag atgactgcta tctagaaaaa gggagataaa Katatcacat58741ccaccactaa agtggttgga aaccaaggac agccagcttc ctcatccgac accttctctc58801tcggagcttc cttcctttgc cttaaWacat ttccctccaa tgcaatgccc atcccagtcc58861ctccaactta actcacttaa cctctctggg tcaacttttc tcaactgaaa agtgaaagat58921ttgaacttga tcatcttaaa agtcccttcc agtttttaag ggtataaatc ttgagtccgt58981tcaaagactc tataagcaag gtgagacaag atggtctggc catgctaaga aaccttacta59041tgcttctatt accccaagga agaaaagtga ggatatcaac tacctccaag aagagaaact59101gaagatcaaa tatcaagcta tactattaaa tataaaatag acaagcaata cccattctca59161gataaacatt ctcctgggag tttgccttgt tagttctaaa tggttagttt ctctgttaga59221ctccaagcta gactctgaaa ttaggtagcc ttttataatt tgctttaaat atgtggatta59281aaaaaaaaaa cacctcaagt gtaaaggcaa attgtcattg agaattctgg gactatgagc59341aactagacag aattcaaatg agagtgtaga ttggttgaac atatgtttat taacatagaa59401gctcacattt tatcaatgaa agcaagttgt aatcccatga atccaatatc tgagtcaaag59461gtacagagta aagaggtgga aaatgacagc aagtgtacat tgtatccccg tagcagaaac59521ctactggaac aaactctatt ggctgacgtg tgagcatgca gaatatgaca accttggagg59581tttatgccat atttcctagg aacaggccac atatagatta gacagaacaa cccaaaagtg59641gttgggattg ttactttcat tccctcaaaa ctgagaataa atgcccaggc gatcacatac59701acatctcaag catgagaaaa gtggaagccc tttctgtctc aggctaccag gaaagcacaa59761aggtctcatt tctgggtttc ttggcttgtc cttgtgtttt aggttggttt gttattttaa59821ggagcggtct aattcatgag gatctgcagg ggctggactg tcaaagtaga tcttcccaga59881gacactgata agcagtctgt taaccaggca gctacttggg tctcccaacc catgtcaaat59941ggttctgcct gtgtttccag aactgtgcac tcctggaggc aagagaccct ggccaacctt60001aaagggagtg cagaatcttc caaacagcca agttgagttt tgtgcctaat cagggatctt60061ctttaatttg gactcatccc cttggttttg aaattggtac cgagagtaag aaataccacc60121tagacatgca gtgccctgtg gccacaacct ccctattcct acccaaatcc agcagccaac60181tccaacttca gttccctgga tttcacttcc aggtttagcc aagggaggca gagttagcca60241agcacttccc cagccatttt ctcttgtagt tgaagccaga agcctgccat tctccacact60301gagcccctcc catagtccaa gcaagactca gatcacacac ctatgccagg gcccacatga60361gttcacatgc acacacaggc cacagagggc cagggggaga cactccagca gccactctta60421cactaagaag ggagtccaaa cccaggaaaa caaaaaagca agctggggga aaaaggaaaa60481agaaaaagaa aactaaaaaa tagatatgat ggttttgccc acattgcaag acaggttagc60541caagacatac cttttgacta ggacctcgca gccggtcatt cttgggactg tcagtgaggt60601gggtggcctt ctccatcgcc ccaggggcct tgagcagtgt tgctttggtt tatttcagga60661agtgctattg gaaacataaa acaaagtgcc tggcaggcac tataaaaaaa aatagaagaa60721atacggtagc cttgatcatc caatgggtat tgatacgttt cttaacaggg gcaaggggag60781gggaaacaca cgatgatgtc tccttctatc ttccagaagc acggcctcgg cctcgggtgg60841tggagtcact gctgagccca tgacgttctg cttatattcc atccctgcat ttggaagtcg60901ttctttgcca ggaggRaagt gaggaaaaac cagcaataac aaaacagcag ctctactgac60961ggaggaggag gagcccagga ggcggctggt cagggcccag gtgtggaggg aggccaggca61021taggcacccc gacttctctg gaactactga cattttctcg caagcagaga ggaagatgga61081aaggtcaggg aggagaatga gggaggggtc tgccgcgggg agccgcaaac tccgtggggc61141acagaatagt gcaaccgtct cccattgagg aaattctccc caccgggcgg cttgcctcta61201aacaggatat tgcttcgatt tctttgattt cccttctctc tctctctctc tctctctcgc61261aaaaaaagtc tgattctaat aacagctaga atatataaat aataatgttt taatgttatt61321ggttctttgt ttccaaccca aagttcctct tctcttcctt ttgccaataa atatgaaaat61381tgaggacatc aactctgctc ctgtcaaaaa gaccccctcc cctcagaaaa gagacaatcc61441gtctaacttc ctatttctat ggaaaataaa tagcgcatca cgatgccatc tctcggaaga61501acgctcattc tgctgttttg ttttgtttca gtagtttgtg cttctgttgt acatacccaa61561aacagagggg tggggggagg gatggaggga cacgtgggag gtgaagggaa aaaaagcaag61621gatagaggga aaatctaaag ttgcctttca ttaaaaaaaa tatatatcag aaccagcaca61681atgaccaaag tcagaggggg atggctaatt gcccagagag tctgttccgt gggtttagca61741actgcccttt ttatctgctg tgggcgaacc ccggccactg cggcgtcctc gacaggagcg61801aggctcttcc aaatcgtcct catcaaagcc gtggaaagtt gacgtgtcac tttctgacgt61861ggaaccgaat aagtcctccg tggtacgtgc tgcggccgct gcctccttct ccttcctgcc61921ttctcctccc aaatgagctg acatgtatga tgaatatatc agcacatggg ttaagcaaca61981gacagcatta ttaatattct cattacatta ttacaatgct attcttaata gcaagatata62041aaaccaYttg cacaccaaag ggattaaccc ggtgcatcaM ctggtgacgg ggatttggga62101caaagcaaac atttccaggg aagaggcttc ccccactccc cgaaaaggca tcatctctac62161catagtacat atgtccacag cttccgacag caaaagattc aaccatgatc tttcttctgt62221tgtgcataca cacaggcgct tgcacgctca ctcaaccctg ccccagacaa tgattttcat62281tggtggtttt taagcctggt tgggatttct ttggtgtttt ctgttggtgt ttctttgaac62341aatgtttgtc cttcactttg acagtcagct gtacaaaggt attactgtca gataacccat62401tcaaggtggt taagcctcca tctatttcat ttttatttta cccgcttcta atcccattct62461ttcagaaccc tttcaattct ccccttacgc catgtcgttc atttgcactg aaagcaaaag62521gaagttggaa agtctgataa gtggtaggtg ataaaatagt ttgtttcctt taaccacagg62581aggaaatttc tgtgatctgc atccacatac atgtgcacgt gtgcacacca cacacacaca62641cacacacaca cacacacaga cacaSacaca cacacacaca cacccagcca ccagccatgc62701ccaggtatcg gttactccag aaagttcagt tgtcaaatct cattcagggc actacaaagg62761tgagaaatag gagtagaaaa gccctaataa atcagagcat cctgaaatYt gtaaaactca62821ggtttaaact tttttgcatt ctaaatgagc cccaggactg ctcttgtata aaggaatgat62881acatccctca tggtgccaat ttcaggaacc tcactttctc ccaggaaaca gcagtggtag62941ggtagatggg aggggaagga agctcttcca agctccatac tcttctctgg aaggaccgta63001gggaggctcc agagaagtat tcgcccacct gccttaacaa gcacatctca tctcatgggc63061caatgacacc tgtttcttcc catggtatca actatttcag gaacattaga gtcagacctt63121gactaaatca tctaccaaaa ccaatccttg gcaaatgcag tgagaatacc taggctggta63181gaaaatggct ccctgagcca catagcagac agaaccttgg agggaaagct gagggaaggt63241tgtggaaaga ggctttgcat agaaaaaaac aacttcccac tcctgacatc ccatggcttc63301gattctagca cccctctttt gtaagaaagg aaggggagaa attacagcag tttgcaatga63361gaattctgaa gctgccccct ctaacccatc caaacctaca gcagtccata acgtgttgct63421tagaccatca cttcaagtga ccttgcttct ggaagtagag atttcatctg attgcttgct63481tttaaaaaaa cactgcattg aatttcatct gtttttttta agtatcttaa aaaaacagag63541tccgctatca caagggccct gtcttctacg ctagcatcca tagaataaaa aattcaatgt63601taggtaccat gtttggaaag taaatgaaYt gacagaattg cacaaatgga ccacccttga63661gagtcacacg ttgagggttg tgtgcagcag aaaccacagt ccttttaaaa ttactgattt63721gctactcaag ccagccttaa gccctaaaca gccctaccat caaaatataa aagggctaaa63781gctaaggttt gcagacagag caaggaaaga gctgagttgc tacagtcaac catgatgggg63841tcatctcagt tcttctctgg ggactgggag tgaaaaagac actggataga aaggtagaaa63901ggagaaatga ctcctcattg ctggaacaaa gcatccaacc aaactgtttc acctactcat63961atcaggggct gatgagacta aaaatggggt tgaaattccc tcctccctgc ctcacactgt64021ggtctagtgc tgacataata caatatgaaa aataggtagt accaaccaac catggccagc64081caaaaataat ggtttggtta gaactaaaaa acaaaacaac catttgaaca taacctgaag64141acctgaattc attttaagaa tgaaggaaca agaccaaaag tctctttctg ttattttagt64201ctttggatag gttaaaatat aaacatatac accaaatcaa ctgcagatta gccctaggaa64261tgcctgtcct tttgcctcat tgatctatcg gggtctcttc tgttctgttt tagaaaatga64321gattagtggc caatggcggt ggtgtttatg cagctagcca ggagcccggg gatctctgac64381tcccacaatt caagatgtgg ttgctctccg aatactcatg tttccacacc acaccacact64441cttcgggttt gccctaggca cttccacaga acaaactcat ctttctgtta catgtgcatc64501atccactaca agaaagcacg ttgccttctc tccaggtttt tccactctac ctcgctgtgg64561tccgtaaaaa cacgcacaaa gaaatatgca cctcatggaa aggccagaca caaacccaaa64621acttctcttt gccctttccc ccggatccta gggcataact tttggttctt gagacccaaa64681gaagaaaaat atcagaatga gctgaaaact cctctccact cgaaagcatt gccaccatcg64741cttccctctc cagtctccag caccacaaga tggaagagga atgcaagagg agcattcctg64801gtctacgggc acccggtgtg ggaaggggcc acactcacca gagcgtccac agtctgcgca64861ggacaccagc tcttcaggcc gcccactctt cttgttcatg ttggagcccc ccaagcagaa64921gtcacagtag ttattgggaa tgactgttcc atccggtcct ttctgggctg tgggaacatt64981taaaacattc caatttcagg cttacatgag tttcaactgc cccttcttct cctcctacag65041tgtggtagaa tctgctccag aaggaatctg aggttttatt ataaccaagt tggcaaattg65101ggctacgctt tcttttggat ccttccgggt ttaatggtac taataatatc ttgcaagtca65161cccagagttt aatttttaga gtattcccca gctctgtgtt gttgcagaaa tcaccctgct65221cctctgattg catccttaga tgatcaaacc atccagaaga ggtactggtc aagtgaacta65281ctctcagccc taaacaatca gccctgtggg cccaggcccc aggcatcaga tggaaaccac65341acaccatggt gtgaggacag ggagaggaaa gagccagtgc ctggaccttg ccattgggaa65401cagtgctctt gtttaggaga tattcttcct gYccctgaaa tggaaaacaa agaagcactg65461atgggaggtc atttccagga ataacaccaa agatgctctt ggggacttgg acaaacaact65521tggtggagta tcaatctccc tgaaggggag tctcatctcc ctgaagtcca gacccattga65581tcatggaaaS tgcccaagac cccaagtgcc taaaatcaga actagaccca ggcttctagg65641cacttggctc agcctcatgc cagagatgga ttaaacggtg agttactgag catgtcttta65701ggcttaagac cgtcacgaat aactgaacac actaacttca aaacccactc ctgctggagg65761tccttaaaca aaagcaaaga aaaatcttag gacatgactt tgaaaacaaa gcctgtgagg65821agaatagcac ctgtccttat gcaccaaaat cattccattt ccaggggctg cttgaRaagc65881cttgaacaga ttatttgcat ggagagaaat acttcccttt ttctgtttct ccctccctat65941tgcgggcatt tctttgtcat attcacactc cctgtttgta actaagaaga aaagtctttc66001tgtttatggg atcagcccta accacccaag tatcttcctc ctcaccagac ccagtgtctg66061ctgctgcctt tcattattca ctggctaacg ttaatcaggg tcccatacgg tacaaatctg66121aaaaaggaag cagagatgtg agcagaaata ccatccagac agtaagtgat aaacggattc66181acccacttta atgtgattcc ctctggcctc cacttcctcc atgcctctgc tttgcctcca66241ggaatagaaa acctacctgg ggaaggcgga agacaaaagc tagaggaatt tcattataga66301gggttaatcc atttatcagt tgctatttgg attgtttaat tggtttctaa gtcattgatt66361tccatcttca gggaggcaga caattctctg caagaagtgt tagctgtttg ggggacacag66421aggagctggc cacattctgg ggtctgttca gtgtaggctt gtcttcatca gtccctggat66481ctcaaacaca tttgcatggc atacagaatg cttttgcaaa taatctccaa aaagcagtat66541atctgcaaat attttactct gcctataaat tttcattgcc caaatccaga agtaccagag66601tccccttctc ccttctccct caattgccat cttagtcatt tttagaactc tcctaagaaa66661atccaagcat ctctatgaag caaataaact cagggtttcc tcaacaagat atggatggaa66721aactatcaaa tggtgaacag aaagaagaga tagggtatac taaatttagg ggctgagggt66781aaaccaaagt taagtgtcat gattgatatg agctagatat aaaatgtgga gatgccagtt66841gttacttagg tagcttcctg tatggaaggc aatcagagaa tcccatatat atcattcata66901aaaacttaca gggggcctag tctcctcagc tgtctctctc ctatactctt agggacttcc66961tataattttc aatttcctcc ccattcacaa gatctttaag caactaaaga atctgatttt67021ctccaacaca ctgtctccct catgacgtat gaggatgagt aagtaaaata tagagtataa67081aagcttgcag attaattctt gatatggttt ggctgtgYcc ccacccaaat ctcatcttga67141attgcagctc ccataatccc cacatgtcat gggagagact gagtaggata taattgaatc67201atgggggcag gtttttccct agcagctctt gtgatagtga ataagtctca tggcatctga67261tggttttaaa aggggcagtt cccctgcaca tgctctcttg cctgctgcca tgtaagatgt67321gcctttgctc ctcctttgcc ttctgccRtg attgtgaggc ctccccagcc aggtggaact67381gtgagtccat taaatctctt tgtctttata aatcacccaa tctcgggtgt ttcttcctag67441cagatgaaaa tggactaata caattctaca cagcattcac taccaacaga ccattggtag67501aacaccctat tgaatcagga actctaatac tacaagaaat aaaaaattag aaatgatcta67561gtagagctaa gcaggcagtg atggaagaat tcagccttcg taaaaagacc aaaggaaaag67621aattgaattc atctgaaaaa gggaagcttc tgacgagatg gagtctgagc agcatcctgt67681tggccataca gagttcctgt ccaaggggtg agggaggtcc taaaatccca tgtataggcc67741ccggtatgtg caggagtgac atgccaggcc agctggggtg tggaggtaca tttttagtct67801ggcaatggcc cagtatagaa agtgatcatg cacagctgtt ttatttttca gagaaatcat67861ttttgcttca gtttctactc tttcttacaa cagtgagctc aaagcatcct tccattgtgg67921tcagatggtg tggaatggac taattgctta tgcacctgat tttcttaaac attttggtac67981ttgggattag tttcagagca agggttctcc catggagctc tcccaaactt cagctaaaac68041atatcagtca tgccctgggg agggtactgt tgatatcacc attatgaccc ttgtttatat68101tgagtctgtg tgcctcctct ccccgtttca cattatcatc tctccatatt aaataggtct68161actccttcag gttggagacc aggtctaacc cgttgttgga acccctacaa tctgtgggat68221gagtgacttN agagagggat ggcagggatg ttagtgggtg gYacagtgat gccctgggag68281caccggatat cattcactgc ccctggttta tttccctacc agaggagagc tggtccatgt68341gtgcatgaat tggtctgtca cctggtctca tggccagctc ccagagtaca cagaagtcgg68401tagccaatgg ccctgagtca ctggaagaat aatactgtac ccctcctgtg ggaggcgaga68461catcattctg caccaaacac acaagaacat agaagacaat gattcattgt ctcttgagaa68521gaggatacct ggtcatgcct atccactcag cttccctttt gttcaactgc gtattgaaag68581gagaagaaaa ggaagcagac atttatcaca ccacaaaact gtggcaaatc ttttgctgga68641tgctttatat atgttatttc attgattctt gcaaaaactt tgtgaagtag ggaatttttt68701gacagatgca gtaactgaaa tccaaagaga ttaaagcgct ggctccaagc ctcggttggg68761ctcttcgaag gcaggtttca cccccagttt gtctgtgtcc ccagagattg tgcctctaat68821cacacttctc tgcctcctgg gaagtccaga ggtaaacact ttgcagccat accttgcata68881taaaatattt cataaatctc tttagagtca aYctgattcg cccaatatga tatttacgaa68941gcccaaagct ataaaaatta ttgagaccgg cctgataaaa gtggaaattc cctttgaact69001taaatttaat gtccctacta cagtaatcca tcctgggtga tcctgtttat tgtcatctac69061tctatgaaaa cacttctctg gagaattcca gaggctcatg aaggaatttt tttaagtaaa69121gctcacatca tggctaggtt ggcctatggc ctgacccagc catgagcaat ttcctggtac69181tgtatatgag atcattataa aaaagatttt actacaaata ggaagctcgc ccagaccttg69241taagtgggat ttaaatagag attttgcttc tgcttatggg aaattgagtc ccgctttata69301gaataagatg acggggaggg caaagacccg actggcatct ctatggcagc atctgcgatg69361atggatgtgg ttttctgttg attaatgttc atgggctgag atcatataag agatacaagt69421aagttgctga gaaaataaag tgagccttaa gagtttagaa atctacctga gggagataac69481tctaaaaagc tcaaaggaaa aaaaatggaa atcaggaaca aagttcatga agaaagtaga69541agaaaaataa cagaaggcag ggaagagcat tcagataaat caaagcaaga aaaatgaaaa69601gtgaagcttc acacagcccc atcaccacgc tcagggaagc gagagcaggc attctggaaa69661ggtatcagtg ctcgctacag gatttttgag ttaaatcagg ttttatgtct atggcaaaca69721aggccccaaa tcttccataa aactaccgcc caggcagcac cgcctctccc cctcccagtc69781ggatctccgc tgtggtgtRc ctgccactca cagaaagaat gactggcagg gacaaaccag69841ccgtcggcaa cagccactcg tctgggttct gctgagacca gagctgcgtc ccaagcatcc69901tagggaacag gaaactggcc agaagttcag gctcctcctt ggcacgtgca caaaagcatg69961gcctcacatc ctgagcagac gctctgacca cctgccaggg cctggtgtgc acaaatgcgc70021ggccacNctc ggtgcccacc acccaccacc cagccccagc cccagcccca gctgagcagc70081tccatttctg gagcctgcta gcctgggaag ttggggtgca cagcccttgg ggaattcggg70141ggcagtgagc agagccctct gggaagagat gcgcctctcc tcgcccctct cgtttgttcc70201ccccgccacc ctccacaggc tgacagttcc cgtgtccctc tacaggtctg acatgtttcc70261atggcaaccg gaatcctggg ctccggcagc ctccgctctt gccacctgtt atgacttcat70321ctctcaagtg taaagcatgc tagccccgtg ccacttggct gtgcagagcg catcttcaga70381ggacgacgga gggaaggaaa ggggagagga aaggagggaa agcagacagg cagcccaggc70441cggccaggcg ggacgtgctg gctaggccag tccagaggag gaagcttggg ggccggagat70501gagagggtgg ggagtaaggg tggaccccga cgtgccttcc ctgcagaatc aggagcaagc70561ctcagctgga ggccactgcc acagcctgct acctcggcct agcctttaat gagggctgcg70621ggaggaggga gaggcgggct ggggagacaa ggcgcctgcg aggagctccg gcaggcccag70681cgtgaagcag agccaggaga gggttaaaag tggcgtgata gagactgtgg ggaaggctgg70741accagagggc aaagggagca tcaaagccgg gataaatggc cttaattctc atgctcccac70801tcgctggtcg tgtttactca tataaattat cccccaggcc tgacaccttt tttcactgct70861tccctagaac tgatgaaaaa ataaatccca cagatcccag gaataaaaag tgtggggctt70921tcattcaggc tggttctcct tggccactaa tagcaactca ggtcccgccc cagggctcca70981ggaggaagac aaaggaaggc ttcatcccaa atgtggaggg gcagggggcc tggaagcctg71041gcggggaagc agacagtagg gcccgctccc cacaggaccc tccaatcgtc agagccctcg71101acggcagaga actcgctctc cccacaggcc atcttgccac cagctctgag gacaccgtga71161atatatggga aagtaaaggg gactacgctg gagcggatgc ggaaggcgct gaggccaggg71221ctgctgtcat gagtcctcac atttatggat ggggctgata aactgtcaca ctccgcaccg71281tcaaggacaa ggtgagaaga tgagctggaa tggcagcaca tgccacagga gagctggaaa71341ggcaggtggc taacaacgaa agccatggcc agagggcggg cttctctgga gaggcctctg71401cacacaggga agggccccta ggcccggggt tttgactgcg ttgccgatct agaggcaaga71461gaacacgcta ggtgatgtcc tgaggtccct ttcaggccta ttattcaagc attataatca71521ggtgaagaaa gagacagaaa agccaagttt tccacaccca gaggaaccca gcctttcatc71581actgttctat actcatgtaa atgcctcttt gcctgttacc catgtgctac ctgagggcac71641atgagtaaca cctgagggca ggaaccatgt ccttcactgc ggtatccctg gcccctggcc71701agcagtgagt gacacagagc tgacaatcaa tgctgagtga aaggatggac aaatcatcac71761agaggctttt tgaggggaaa aaaaatctgc caggcaaagg gaagttaatg actaggaatt71821gagtggacgg agagtccccc gagcacaggg tgaccatcct aagtccctct tatatcgggg71881cacagaagaa gtgggaagga gaaatattgg agccccttgg agagaagaaa gctgtggtgt71941ggaaagccac tgcatctacc tcccccagga atcctctctc ttaggcattt cttagtcaac72001cagaatggaa ggcatcaaga atccccaggc tcagctggcc ccagagtctt gagactcatt72061ctgtctctca ccagggactc agcaggagcc agtgagaaca gaggccccat cttgctgcgt72121gttttggtga ctgtagaaat aatataaata tttcaaaatg tggcgtcaac cctccaccct72181tcctatgcct gccttctttt cctccatctt tatccaatac ttacatcttt agatacaaac72241ctggtgaata tttactccca aaaactgtgc cataaaagca gaaaacatat ccactcacac72301tgatgtctcc atcctgagat ggatatattt ggtgagagtt gtaatttgcg gtttgccaaa72361aggccacaac aatttgccag cagtgtgtgc accatgtcac cagctctggg gctagatggt72421cacacggccc ccaaggaatg tcctttgtgc tccagcttta ggtgggcaac cctaggtctg72481ccattaatgc ttcggaatag taagaaaaag accaagtaaa gcttaggaat gggtcggata72541tgctggctca cgcctgtaat cccagcactt tgggaggcca aggcaggtgg atcatgaggt72601caggagttca agaccagcct ggccaacatg gcaaaaacct catctctact aaaaatacaa72661aaattagcca ggtgtggtgg cacacacctg taatcccagc tattcgggag gctgaggaag72721gagaatcact tgaacctggg aggcagaggt tgcagtgagc caagattgtg ccactgcact72781ccaggctggg caacaagagt aagactctgt ctcaagaaaa aaaaaaaaaa aaaaagctta72841ggaatgttct cagtgttcat gacactgaga tgaatatctc attacgtgac acgtaatgag72901atatttcagt tttccagtgt ttggtgatat gggtcagttc atgccctggt gtggcaactt72961gtgattgcta ccaaatgagt ttgttgaagg agaaaatgtt aatttgagag caactatatc73021aaccaggctc tgaacaaagt gatgtcactc cccttaatga attccagaca gcttggtgtg73081ttagagctgg atgagttttg tctgtttaag ttgtcgggat attattatcg acataattag73141gattcaacaa gccccttgtt ttgctttgcc cagccgtgcc ctctcaaccc tcttcactag73201caccactgaa ctctgtctgc aaggggacca gcattttctt tgttcttcag acagaaagcc73261gtatttaaga aaagggaaag catgagcctt ctgctttaga cctgaggatt tggaaggaat73321caagagacca cagaRtcttg gggcagcaca gcctgaggat ggtggcacac gcaggggcgc73381actccaaaag caggccggga agttggtgct gagagtcaga gacgtctgcc ctacatggga73441tagagcatta ggaaaagagc aaaaaccaag gctgcccctt caatttgaca gtacaaccta73501actcctggcc agttacctgg ctcagtgcat ccaaaagaaa aaaggaatta aaaggaagtt73561gactgactga acatcagtct tggaaagcta gatttctgta aggtagtggt ttacctggga73621acttgtcaaa aatgcaaatt cccagtcagg cacagtggct catgcctgta atcccagaat73681tttgggaggc caaggcaggt ggatcacttg aggtcgggag ttcgagacca gcctggctaa73741catagcaaaa ccccgcctct actaaaaata caaaaattag ctgggtgtgg tggtgcacac73801ctgtaatccc agctactcag gaggctgagg caagagaatc acttgaaccc aggaggtgga73861ggttgcagtg agccgagatc gcaccactgc actccagcct gggtgacaga acaagacccc73921atctcaaaaa aaaaaaaaaa aaaagcaaat tccagggcct gaattgctga atcagaaact73981ctgggggtgg gatccagtgg gtgggctgtg ctttaacaaa tgctccaggt gattctgatg74041cagcctcaag cttgagaaac atggctttaa ttggtgtgac agtcatgtca ccYggaagtc74101attcacttaa tctKcatcat agcctatgag atagatgcca ttaatgatct gatgttacat74161agtgatccat gaggcatatg gaggctatgc agctcagcta aggtcacacg ttagtcagtg74221gctcacttgg ctctgaaccc aagcaaccgc gcacctgagg ggaggtgagt cggagaggtg74281gacacgcagg gcctcacagg ctagggcttc ccagattttg ctgtgcaaat catttgggga74341tctcattaac aatcaggttg gaattcatag atccagggta cagcctgaga ttctacatgt74401cttaaaagct cccctggtag ggtggccacg catccaggtt tgactgggac agagggttct74461agggcgtggg gctttcagtg ctgtagctgg gcaaacctgg acaagctgtc accaagcccc74521aggtgcttct gaccacactg tcagatgcaa aacacagacc cacaagatga ggagtttggg74581ttgtattcaa aYgtgatgaa agtgttgaga gcatgagagt gacatcatct gctttatatt74641ttacatatat atatattttc ttagaaacaa gatctctctc tgtctcccag actggagtgc74701agtggcacaa tcatggctta ctgcaacctc aacctcctgg cttcaagcaa ccctcccacc74761tcagcctccc gagtagctgg gattataggc atgcaccacc acacctggct aatttttgta74821tttttagtag agatggggct tcaccatgtt gaccaggctg gactcgaact cctgagctca74881agaaatctgc tcagctcagc ctcccaaact gctgggatta caggtatgag ccacagcctg74941ctttagaggc tgggagacca atcaaaaaag ttttaacaac ccaggcagaa gccaggggtg75001gccagaagat agagagaggg agaaaatgta gggtatattt tggaagactg aaggaaaacc75061Ragaggcaag gatgaatcct aatatttcac ttcaggctca agcttttttt tttaaaagag75121caagtttaga agaaaaaaaa aatgagagcc aggaaagaca gtgagacaca gaatgagaga75181gaaagactca ggaaaattat tgaatagaat gatgtgtgat ttttttttct gtaggaaaaa75241aactcattta ccaattaaag tatgacctag aatttgtaat gcaggggtgg ggtctctaaa75301acatcccaaa cagcctaagt tagtaaagag ctttgaagag taaatgtgcc tactatggac75361tgaagtgtgt ccctcatccc caaaattcat atgtcagagt cctaaccccc aaagggatgt75421tatttggaaa agggtctttg gaaggcaatt aggttcagtg gggtcatgag ggtggggtcc75481tcgtaatgaa attagtgccc ttattagaca ccaaagagct tgtttctctc tctccacccg75541tacacaccaa agaaaggcca tgtgaggaca caatgagaaa gcagctatct gcaatccaag75601gagagagccc tcaccacact ctgaccctac cagaaccttg atcttggact tccagtctcc75661agaattgtga gaaataaatt ccKgttgttt aagccaccca gtcgatggaa ttttgttaag75721acagtgccta ttaacatgtt catctctttt gaaaagccac aatgcagcat gatgcattag75781acaactggtc ttgaggcaaa agttaaggga catcggtagg accatgacaa agatccaagc75841cttgggacta gggcccRtca ctcagggttc caaagtcctg acataactga atggtatcca75901actcaagccc attcacatct cagcttccca ccttgctgtc tgttactcaa cctctctgag75961cctcagtttc cttgtctgta aaatgagaat aataacatgt ccctaatgga cttatgatca76021taacatgagg tgatgtgtgt aaaatgcctg acacttacta gttgttccgt catctctttc76081cctctttcct cttctacgtg caagataatt ttatttctaa caaggcagga aaaatcaaag76141acctaaataa gtaaactctc ccaataagtg gtacatgact catgaattca cattcatcct76201ccctgaccat ggatacatga cttggtcttt gtgtgccttg ctgtcctctg ggggatacag76261cacctgcctt gcagggttat tgtgaggaat gaatgagata catgtggcat gcttagcacc76321atgtctgaca cacttaagga atgcaagcaa gtaccattgc cactgttgct gtttggtatg76381tgggtctttt caatcctgca catttctagg taattaggcc caaaatgcga gagaaataaa76441agagattcag agacagScaa gagacacgtg gagccccaat cctagggcaa tggcttggca76501aataaaaggg tgccacactt gtctagattg ccctccacag ctttctctgg ctgggtttta76561tgactctgtc ttatttccac aattgcacca gaagttctcc cagggctgag accacgttat76621ccctttctgg aggcccagtt acacttctcc caacaactgg gtgcatgtac agtaagtgct76681taataaatat tcataatgag cctgttcaga aggatctgtg tcccatatct aagatttagc76741caaggatatg ccagggccag gtcaggctct gatagttact gctgatgcca atgacacccc76801acaggcagtt agcttcacag tggtggcaaa gtcccatcac atgggctcag atggaaccat76861gattcagatg agtcatctgt ggtcacagac atgcctgtgg gcccaaatgg gacagagatg76921ggacattagt gctcacaggc atggtgccaa acattcacat tatctcattt aagactcaca76981gcaatcccat gaagtcagga ggattattac ccccgtttta tagatgaggc aactaagaag77041cagaagtgta ggtaagtggc ccacatttgt accactggaa gatggcagat tgccagggtc77101accattcaca ccctggactg accaactccW cagccattcc ctcagccaca gggtcaagga77161tgtagatgac ctttgaggcc agaaaatgag ccccaagtat cccctgcaag gaccagagca77221actctatgga ttctttgcta tataatctga aaactgtcta gttaaataat aatttctcta77281aagaacacct gttactagtt tccaaattta ctctttgaga aggaagaagc agcccaattt77341cccagaaaga gctctgtatc taaactttcc tctgtctccc ctaataacaa aggctggatt77401tctggtgtca agtttaggta cgcagttggc tgtgtaggct ttatggcttt tcagtcacct77461ttcagagtaa tctaaaattt ctaagcttgt ttcaaaggta attttcactc tatctcttaa77521agcttttggc cgccctcaag ccatatgtta gaggacaaga gatgtcagaa gactaacatc77581tgttagatct ttcccaacag tgtggcaatg acatcatatg cttcttttag ataatttgca77641cattatcaga ctaattttca gattatctaa tcagcagaca ttacccttaa tcaacttggt77701tctccccttt cagctctgca gagtacaaca tgccctccaa aggcgtgcta gagctggggc77761tcttttttct ctcaacagag gtgaaaagcc taactttgca ccaggcatac cacccttgca77821caaaaggctg agacctccag gaacctagaa gaacccatct tcaattccac agacttgaaa77881aatcagctgg aaatacattt tatagactca tattttttta aatttccctc ttaggagctc77941tgagtaYgct atagagagta tgttatattt acttatgcta ttaaataaaa gagatacaac78001atataacaat aagactccaa acagatgttt tttaagttat ttgtttttgc cttctagtaa78061ttgctactct ggcttcccac tgtctatagg aataaagact acacagaggg gcatagaaga78121cgcttcccac tgtggcccct gattacattt ccatctttcc tctgcatccc ctaaatccaa78181cattactatc agacccaaag acttccaatt gtctgaatgt gccatgctat ctcatacctg78241cctgccttca tgtacagttc cctctacctg ggaagccctc tccctcctaa gaaattcctt78301ctcattctcc aatggctaac ttgaatgtca cctcttcRgt gaagcctttg caaaccccct78361aatgcagtag tcctaaagct tgagtatgca ccagaatgcc ctggagagct ttgtaagacc78421cagactgctg gcccccatcc ttggagtctc tgtttcagga catccagtag aacctgagaa78481tctacatttt caacaaggtc ccaagggatg ctaatgccac acttggaata ccactgccct78541aaggcataga aagtaccctg tgcccttgag tcctgaactc cctcacggtt ctgtacacac78601cccattgcac actcccactc aagactgtga gctcaaagac agggctgagt cctatttatg78661cctgtcctcc ctagtcccag catatagaca atattcaata catggttatt acatggatgg78721gtggatggat agatggacag atgagatgga tgatggatgg atggatggat ggatggatgg78781atggatggat gggtgggtgg gtgggtgtgt gggtggatgg atggatggat ggatgggatg78841gatggatggg tggatgggtg ggtggatgag tgggtgggtg ggtgggtgga tggatgggtg78901ggtgggtggg tgggtgggtg ggtggatgga tcgatgacgt atacacggat ggatggatgc78961atggatggat iagactgaat ttatttacac agcttttcat ccaggcccag gacttcataa79021atgtctatcc tcactctaaa aattacctca aaaacatcat ctataatcaa ttcccactgt79081gcagagaagg taaaaagaag ttcaaagagt ttaacatcac aagcctatgt taagggggtt79141ttgaattcta gtccagagct ctttctgcta ctctacccca ctggggctcc ctaccaaggc79201tgcatttaag tagtcacaat ggtatgcttc tgagtgtatc tttcagagtc ctatcctccc79261cagctgccct cccttcattc atgtatgtgt acatctatgt gtaggtgtat gtgtgtgtac79321atatgcatgt gcacacacac agtcatttat ttcatttgca aaaagtaggt gaaggtggta79381aaagaaatgg aggccgaaga ggcacccagc ctcatgcagg gagagggtgg gatgcagccc79441acatgcagag gaccccatca gaaaagcact atttcccaga ggggagtgtt tgagctccaa79501gcatccctgg cttcctgtag ttgaggcaga gaggcaaggg cacacaggaa aggggacaaa79561cgtacaggaa acacaagaaa tgtatactca ggagaaaatg agagactgag ggagaaacaa79621aggcgYgaga gcatcagctt gggggccagg cgatcaggag tggcagtgga ttgctgagct79681tgcagcacag ggcagcatgg gcgggggcgg ggaaggtcag cgccggctcc agcagtccac79741tctgcccttt cagcagcagc accaggcgcg ggatgagcca tgggctctgc tgaagacaaa79801gctggggggc gatagagcaa gcgacagcag gaggaccaaa gtcaaaaggt cgctactgct79861gcaggtggtg caaacccagc tgcccttggc cctgcaaacc ctgtgtctgt aaggctgttt79921ttccattagg cctccgctca catgcagctt gggtcaccct gcagctctgc taaaggggga79981aaaagtcagc atttccactt cactggtgtc cagaccttct cctgggggag ccgcagatta80041gcctcttgga ttaagctctc ctacctgccc ctcccctcca aaagcctcac caagggagga80101tcacgaagct gagaccttag gatgctgccg agctgtcact tccaattcag cacacagccc80161cagtagcatt taggggcagg atggatggga gccaccccct atccccaaac agtgggagca80221gctaatgact aggtattaat gatgctggca attagtgctc acaagaaaat agtcgggggg80281ctgctcacca ggggaatgtg ggagggagca gagcacacat tcggggcggc gagcaagtca80341gcggcgtgtg tggtgcagag aacctgggac gaccagctgc ctcatgggtt tgtccagaga80401aattgggggt gggggaaagg atgttttctg caggcactaa aagcctttct gctgtaccct80461ccccactagc aaaactgggt taatcacaga gttttcRagg agggcactgt gagatgtcac80521taaaaaggtg tttgtgagga ttctggaacc ttcttcgtgt ggggaggccc cggatccRcc80581tgggaatacc tattattttc taggaggttt taaacccttg gccaggcaaa tgatcctttt80641tgaagagccc actttctcat cagcagggtg agaaagagaa aaaggggagg gggagttgga80701gtgtgtgcca ctcactgaca agcccacaga ggtgagaaca agccacccat gaaatttcgt80761aggcagacgt ctccacatct ccacgtaggg cgaggggaga caggcacagc ttctttccca80821agcaaggctg tgtggcctca aggggagaac actagaaggc caaacacacc cgcccacgag80881ggctcgtgag aagatccaca cccgagtgct tgtctcagaa gtcaaccaac cctgagggga80941ccacagggat cactggggag actgcctcct tctacttcgg gtctgcagca cacctccccg81001tgcagccaca aacaccaagc acatggacgg acacatatgc acatgtgcac acacgcatgc81061acacatatac aaaaacacac acacacgcag gtacacacac aatacacatg cacacaaaca81121agcacacaca tgcacaaaca acacgcacac acatgcacgc acacacacaa Mgtacataca81181caacacgtat acacacgcac acacaacatg cacgcacaca cacacacata cacgcacaca81241caSgcataga cacacacaca cccggctcat aatgaggcta caggagaacc aaggaaaatg81301agacacagac agacaagaag Mattccaaac cccagggcat gaataaagga acaaaatggc81361ctgacatttg agaagagata taaggagata agctagcaca ggggagtgag aaataaggtt81421accaagctaa taaacacttt agagagcgcg acaatggcga agaaacactt ttcagggagc81481aaccaaaatc aaaggagatt cttctcagcc tcctcatggt gggagacaac agctccgtgt81541gacctcttgg tcacttagac cagggaaaag aggagagaaa gggaaatgca agtattggct81601gcctcagtac aggtcagtat cttttccttt ttgaaagaca agggtgactg gaccaaggaa81661agctcttccc agagagaaga cctcagtgtt ggagctcctc aggccctggc aaggagaggc81721gggcaaggct cggggggcac ctcctgctct gctgttcagg ttctgtccag gtgacaacag81781caggtgagaa agcaagggtc tgtcgcacta aaggcttgca ccttggaagt gagcaaaaat81841tcaagaaggt gctgaaggct gaattgcatc ccctccccac tcccaaattc ctatgttgaa81901agcgtaaccc atggtacctc atactgtgac ttggtttgga agtagggtcc tcaaagaggc81961atttaaagag gtaaagttaa aatgggcttg tcaggataga ccctaatatc caatctgaca82021ggtgtcctta caagaagagg aaatgggctg ggcgtggtgg ctcacaccta taatcccagc82081cctttgggaa gccaaggcag gcggatcacg aggtcaagag atcgagacca tcctggccaa82141cgtggtgaaa ccctgtctct actaaaaata caaaaattag ctgggggtgg tgatgagtgc82201ctatagtccc aactgcttgg gaggctgagg caggagaatc gcttgaacct ggaaggcaga82261ggttgcagtg agccaagatc acgccactgt actccagcct ggcgacagag aaagactccg82321tctcagaaaa aaaaaaaaga agaagaggaa atgtggacac aaaagcagat gccacagcac82381gcatgcacag agggataact gtgcgagcgg acaggagaag gcagcatctg caagtcaagg82441agaggaaacc aaccctgcca gcaccgtgac cttggacctc cagcctccag aactgtgaga82501aaattaattt ctgtggttta agccacccca tctgtggggt tttcttatga gaaccctagc82561aaacccataa agaaggcaat attacgaggg gaaagtgggg tggaggttaa gggagacccc82621acactaatct gaaSaatggt cttggccaca ggtgtgttct ttatttcaaa tctttggtga82681aagtggccag tggacatcag ttgactaagt cgttggctaa cacgcatcct ctaatcctag82741agtctgaata ttttaaacgt ctgatccctt tcactgcatt gagttgttca ctttcagaac82801acctaccacc aaatcttctg aacaaaatga aaaacacatg gcctgtccac gaatattctt82861cactgagaga tctcagtgtg gcccacatct tcaagcaggc tctaaagatt ccattatccc82921atttccatgt tgagatttct gcaggcccag agaccataag ggatgttcta gaggaaagtc82981aaatggaaaa tgctaagccc ctttggattc cctaattcat aattggaagt tgaggtaaga83041aagcagagaa acggaaacac aaaatcttca ggatcatttt gggtcttgag agcccaacat83101cccaaacgac aaatccaccc agatcacatt tgccatttga atgctgaagc aaagaacatg83161gggtctccag gcagcatttc taaggcagga gagccctgta ccaaaatgtg atcccctccc83221ctctacaaca aaaccacagc aatagataag aatattctaa ggcacttcRt agccaagcag83281gcatttcgaa tgtgtgtctg aactgacaca cctattacct atgcccaacc cagtctgagt83341ggctggctct tcaggagtga gggaaaagag ttgtaggtct ggcatctgac agtggccagg83401taaggacttt ctcttctgct taacactcac cttccttcct ctgggagcag agcagggtgt83461gtgagcccag ccctgctatt gctaagccta gggttgggct gagctgcagg ggcNgctggc83521tggctggctg aaagggccaa cacactacag cacattgaga ccactcaacg gttgctacca83581gaagatgcca gcagtgagaa aaaggaacaa ggaacgctcc ccagcctgtc taacccactt83641cttcactgcc ccaacctaac aagtaggcac tcacgcctgt ggttctcatt tctgtggttg83701ggtggggacc gagtctcctg gtcttgagct tcatccccct cctcgctggc caggtgagtg83761tgagcatagt ggtagctgag ccccggtcgg ttcttgtagc gcttgccaca gactagagag83821gaaaagagga aaaaagggag agatacaaat attagcaacc tgtgcagcca ccgctatcat83881tctcccagac agtgatccca tccatccacc ccagagccag gcttccctta aaactgtctc83941ccatcccaac atccctttcc cccacccaac agaaccaaca cccttgtaac aactcaggtc84001atggaaagaa aaactgtaaa agtaaaatat gaggttaaga gctgtgtgag cactccaccg84061tttctagctg tgagacccag ggcaagtcac ttgacctctc tgtgcctcag tttcttccga84121gataaaatgg gaacaataac agtacttacc tcacagggtc attgtgataa gtttatctct84181atgcaaagta cttaaaacaa tatcaggcac tttgtgaggg taattgttat gacgttgaat84241tcaaagggca ctgggaatct acccaatcca acatcccatg acacagatga ggcaagtgag84301acccagcaac accaagtgac ttgcccagga gcacacaact agtgtggcag agccaccaga84361acccatgtct cctgggttcc tgtgcactgt cccttccacc accccatggt tggcctctgc84421aagaagtaga aaagttttat ctggataatc cttttgatgt ctcacccagc gattttgtgc84481cagaaacaca tgctgcactt ctaccatgaa cgccatggag ttaaagcatc cttggtgagt84541gtagtcacca agagcttgtg cccctgatgc cccagggcag ccaaatctgt aaaaggtgct84601ctcacaagta ctacctctca aatggggcag tttgagccaa gggcagcgag caatcgaaat84661gtgccttctt ggagccagga agaaagggca gcagttctgt tggttagatg ctcagttcct84721gggaagcaga agtctggcta aatggctcaa ggtcacacta ccaccctcaa cctccccaca84781tagggatcat tatctcggcc cctaggggga cggcattgct ggtagcagaa acctcgagag84841tcttcccagt gaaatgtcca tgccaacctt ctatgcttgt cccccagcct gggtccccat84901cagagcaaac caacctgctc tctgctggag tgcctgaaag ttacaaattc taaaagactt84961ctcccttgtg ctgacatgac cacgtcatac aaggaagcat aaatgcttca caaggtggga85021agagcacaac tttagcatca ggcctgggtt caaatcccag ttccagctgc tgaggttcac85081tggctgtgtg gtcctgagag tatacagaag tgctgtcatc cagtcatctt atccaatacc85141cttattactt ctgatagagt ttctcttcct accagattct cttggggttt ttcagtagac85201aaacattggc caaaataatg tcacctcttc ttccccatat ttacataaac tattttatct85261tagcttagat catttgtaag aaccaccaaa acaatatctt caaatggcaa aagcaagcat85321ttccaatgtt aatgaaggtg gatttagtgt ttcactgttt agaacgRtgt atctggctaa85381tttttagtct ttaccaaatt taagtagttc ttcttattcc tgYtatagag ttttattata85441ggagaatttt atcaactacc ctttcagcat ctactataat atgattctcc tttagttggt85501tgataaggta aattacgttg atttcctaat atttcctatt attgaaccat tcttgcattc85561ctagaatgca ctccatttgg tcagagtata ttatttattt gatatactgc tgcattctgc85621tttctaatac tgcatcttga atctgtacta agacttgagc tcaatctata atttttggac85681tatcttttat taggtttcaa ttttatggtg atgttgattt ctaaaaatta actgaagagt85741tttgctgcat gaaattggac aagctgcagc tctgtgcctt ttcttttatc tgaaaatgag85801gataacagta cttatcttgc aggatgggta aaggtattat aaatagcatt tgcaagcagc85861tctctcaata cccagcacat aatagatgtt caataaatgg taaatgaggg gcaagggctg85921tcagcatttt ttgctgcatc ttaggtactg gatcttcctg aaaagaggga ctttgaccct85981tgcctcatat tataaaatct ggcaaYtggt tggacttctt tgttaaggta agatgagagt86041ctgaaattca agttggtgac ccagtgacta taaattcaag gcccaatgtt tagctcccac86101ttataagtag aacatatggt atttgatttt ctgtttctgc attaattcac ttaggataat86161ggcctccagc tgcatccatg ttgcaaagga catgattttg ttctttttat ggctgtgtaa86221tattccacgg aatatcctga acactgggta cacacagacg taaagatgga aacaacagat86281gctggggact ccaaaagggg gaagggaagg aagagggcaa ggcttgaaaa cctacctatt86341gggtactatg ttcactaatt ggatgatggg tttaatagaa gcccaaacct tagcattatg86401taatatatgc atgtaacaaa cctgaatcta aaaaaataaa aaattaaaat aaataggcct86461atcattggct acttacattc atatattctc tcttcctctc tctcataaat attgKaaaaa86521aaataaaatt aaaataaaat aaaatagtgc tatgcatctt aattccatgt gactcaggaa86581gctggaccca aagaggcccc tgaggtgcac tctggatctg cttgtggctt tttctattta86641gctttttaga taatctgaag ttaatacaca gcaaattatg gggtcattgc atataaatcc86701atttagttgc caggcatact gttagtaagg aataaatgct tattaaaagt aatgataatg86761atatcagtat ttacacaaag aggcctcagc cacctctgca gatccccagt ataaactcac86821agcatttcac ttgtgccatt ttgttatgtc aatcatcact gttgcttaat cacacaattt86881caggatctta atggtcattt tgtctatcta gagaagtgtt ttattcccaa taactStaga86941aggctgttct ggacaactcc attgataggg aactcactac cagtcaaagc aggcatttct87001cctttagact ccttgaatta tggctatgtc tgcactatgt ctcttaagga cagtttcata87061tcaatttcat cttgatatca acaactccac cttatatgtt gacatataca tactacgcct87121tcaaaacata tttgttgagt ggctcatgaa tgaatacaga accattttgt gggaaggcca87181ggagatgggc gaagaggcaa RttgYagaat ctaatccttc tacccacatt aagctcagac87241taattgttct taaaagtcta caaaaccaaa cctaagcaaa aagctccctc tatctccttc87301cccaacatgg tagaaagtaa taatgtttag agcaaatcct tttgctagaa cagagattct87361caaacagtgg tccccagacc agcaccatcc acatctcctg gcaacctgtt agagatgcaa87421actcttgggc tccaccccag actgactgaa tcagaaactc tgggggtggg gcccagtgat87481ctagattttt aaaagccctc taggtgattc tgatgcacac taaagtttga gaaccactgg87541gctagaaggc tggatctatt taggcttggc tccaccaacc ctatgtccac atgcccttct87601tgatggatgg ccgtagcagg caggggcagg ataggcagcc ttgagacctt tgttcagtta87661ttagcagtta ttagcagaat caggaccaga caatacatgg aggtcccaga agccagactt87721cttcatgaag agccctctgg atggagctcc atttttaacc gggtatttgt accatgtcat87781tcttctatca ccaggtcttc aattcaagaa atatttatta gacacctaat atgtgcccca87841ccctgtgcca caagaaggac aaaaatgaac aagccccaga cccctccatg gaggaggtcg87901cagtctagca gagatctgca tgtaaacaag ccagggggag gtgggttgga tacagggtga87961gaccgtgcca ggcaaagagg gacatcaaag aggggacagg aaactggctt gagtgagtag88021ggtagggctt cccagagaag gagcccctga catgagcagg acttcagcag gcaaaggggg88081ctcaaagcac atgcagttat cacctctgca aactgcgaga agtctaacaa agttgaagag88141gtggagcggt gggggtggat gtgaggaaga ctaacaggag aggaagctga gcaaggcttt88201atcctgacaa tggggcagcc aggagaggat tctatcctga ggaccaagtt aagcagactg88261acatgttaga aatactgctt aagattgtag ggcagaatat ggatttgaag gtRgcgaggg88321gctatttcaa ttgtttacct gtgcaacaat gaggacttgt gcatggagag gaaaaatggg88381gtgggagagg ggttaatgag agaacttggt ggaaaaggga gtgagtaaga aagcaaggag88441gaacccagaa agactaacat ggccttcctg gccaggcctg acccagcccc acccacctct88501ccagcctctt ctgacaccac gttctgcctc cacacagccc ttctgctcgc tggccttttc88561gtttattata gatttctctt cccaccacag agtcttcaca caagctcttt cctctgccta88621gaatgtcccc atccccaatt tgcctgatta aggtctaatc atccctctga tctcagttca88681aatgtcctcc cccagggaag tctttcaaat caaaattaca accttagttt tttgccttcc88741taggactaat cacgtgtcaa tacagacagt ccgcaattta caatgctttg acttttgatt88801tttcagcttt acaatggtgt gaaagcaata cacattcgat agaaaccata cttcaaggac88861ctatacagct gttctgtttt tcagttcagt attcaataaa ttacatgaga tattcaatgc88921tttattctaa aataggcttt gtgttagatg atgttgccca actgtaggct aatgtatatt88981ttcaaagtag gctagggctg ggcatggtgg cttacacctc taataccagc actttgaggg89041gccaaggtgg gaggatccct tgtgcccagg agttgaagac cagcctaggc aacatggtct89101ctacaaaaaa tacaaaaatt acaaaaaata caaaaattag ccacgtgtgg tggtgcgcac89161ctatagtccc agctactcag gaggctgtgg tgggaagatc acttgagccc aggaagcaga89221ggttgtagtt agctgagatc acaccacggc actctagcct gggtgacaga gcaagaaaaa89281acataaaata aaaaagtagg ctaggctaca ctatggttta gtaggtttgg taggttaggt89341gtaagacatg cattttcgac ttaggatatt ttcaacttat gatgggtttg ccaggacata89401gcactaccat aagtggatga gcatctgtat gcatctctcc cactggcagc aagcatggca89461ggtcctgtgt atccgcNgtg ctgtgtcccg atgaccagca cagggcctca cttgtggcag89521gtgctcaatg tcagctacgg aaagcaaaga gatgcacatg tttctgacgt gggcaactgg89581gtagaaggat gaaggaggaa aaccagattt aaagaaggaa gaaaatgagt tgagttcacc89641taaagcttgg gaaagagacg tagattttgg agctggcagg gtggcaatgg atgttataag89701tatggggaaa agtgtcagga agagactgtg gagagagaaa agaggtgcct acacaggata89761gaactcagaa aacaccagga tcttaagaaa ctggtggaaa aagagaaact gattttttaa89821aaatttgttt agaaagggtt gagtgtggtg gctcatgctt ataatcccag cactttggga89881ggctgaggca ggaggatcac ttgaggccag aagttcaaca cccatctggg caacatagca89941aggccccatc tctgcaaaag acaattcaag attagccagg tgtagtggca tgctcctgta90001gtcccagcta cttaagaggc tgaggtggga ggatcacttg agcccaggag gtcgagggtg90061cagtgagcca tgattgtgcc actgcactcc agcctgggtg acagagattc tgtctcaaaa90121aaaaaaaaaa aaaaaaaaat tagtaattgt taagaaaaac tcacacagga gtgagcaaca90181taagccaaag gaacagggtt tcaagacgac agtaacaatg acaccaccag tcacaggtcc90241tgYcaacagc tattgagtgt ttaccacgga ccaggcccac tccaagtgct tcaagtaaat90301tgactcacag caacctgcat ccccatttta aagaaagatg aggagattct gcaccgaggc90361agagccacag taataaatta atcagatgcc tgagaagggt caagaaggtt ggagactaag90421agaccactgg atttggaaat tgggaagttg ccttagcaag aagagaatcc acaaagtcga90481ggagcacaac tgcagggtgc tccaagaaat gaggaagtgc tgatggggcc agctgtggga90541ggaggaaaga gggaggttgg tgggtggagg ggagcttagg atcagggcag accagggtgg90601agcctgtgtt ttaccagcct attctgactc ccaagtctta gtccttggaa tgatttcatc90661ataggggcaa gaggaagagt gaagacttcc aagagttatt ttggttggat tgcatcagga90721tgaaactgct tcatYacaat ggaaagaaac gtcttgaaat cctgctttga ctggcttaga90781aaagccagca ctgtttctcc ttctgtgttt aatcatgtct tcctgtcact gcaaacacca90841tgggccagct tcgtgagcct gtgacctgtg cttccagaca gggtccgagt tcagaaaggc90901cccacacttg gtttaatgcc ctgctgttgg catcttgaaa ttcttaatat ttattgaaca90961agggcccccg cattttcatt ttgcagtgga ccctacaaat cacgtagcca gttctagaag91021tctgttgggt tcagagtgga gatctgagac taagttactc caaatagctg acctgatagt91081ctgagagctg ccaaggtgaa cccaggtccc aaccagtcct gagtcaggca taaaattccc91141ttctgagata atcttgaaag tctggccaga gtgattagct gctcagtagt catcatctca91201gtgccatcaa ccacccaggc ctggcttcta gatcggctct gccctcagag aggcagaatc91261tgcagcaggt aagtgggcag gctggatctg aactgcctgg gttcaagtcc cagctctgct91321gttgactctg tgatcttggg caagttacta atcctctctg tgcctcagca tcctctctgt91381aaaacaaggt ggatcatgac agcacacctg ctccccgcgg tgagacccat atgagagaat91441gtatttaaaa caaagcccag ctcatgggga gtcgtggctg ttctcagctg ctctcatcac91501cactgctgtc aaagtggccc aacaaagaga ataaacccca aagtggggag ttatttctcc91561tctgaagtct ggagtggaat agcaaggaaa agagggtggg aaaagaaaca ttttgaaaat91621aaagtactgg aaccatctgc tctcctttta tcatgtcggc attctcactc tggaaatatc91681tgtcgtgcgg aatcagcctg agccccagga gcgctgaagc agcagagagg gtcatgcccc91741atcttcccac tccagtctcc ttccccgggg gcaagcgctt ttgcaccatg cacctctgaa91801gccaccaccc ctgggaccag tcagccctgc ctgtgcacga cctaaggtcc ttcttttcac91861cttggcaagc gtgcacctgg attttgtgtt cctggcatgg tgcacatgga gagcagtggc91921tgtgacaata agggaggtcc agcttgcctt ctctttctcc ttccccctgg ggcggatcca91981tctgtcaagS tgcagaagga gtgtttgccc acttcccaat ccagaactgg attctgcatg92041caggacctcc tgtctggagt tatggatgcc ttcagtgccg ctccaaaata tttactgcac92101gccccctgcc ctccttcaaa cctaccccac tcctagtctg ggcgggggtc ggggggagca92161gggaggagga ggaatcaggg gcagcttgtg tgaacaaagc cgctgcagca gacagcagaa92221tccttcctgc cggggagaag cggctgcctt ccccactgat aacttaatga ctctggcaca92281ttttcatcag cccaacttgg agcacacagt gggaatctga gccagtggtt tccgagagac92341tgaaagcagt gactgaaggc aattacagga tgagcatccc agagacaaag cctgggccct92401gggagtcacc agccagtcac cagccacagc tcattcccgg ctctgccccg tggcactgac92461atacaaccct gaggacaccg cttccttctc tctgcagctg gacttcctca tctgtcaccc92521agaccccacc atgcctgtca tctgccgatg cctccaaggc atcacaccta ccatcaggca92581gcacccattc ccatgcagaa tctcacagct caggaggcaa ggatccccat tccacagatg92641aagaaactga gtctggggga gtttaagcaa ttctctggat ggcacagcca gagtttgagc92701cctggtctgt ctgcccttga agcacgtgac tgaaaggtgc gctggtgagt ctctgcttgg92761cactgcctcc ctccccaccc accccaacgg cctggggctg actggcgtgg cctgcttcac92821ccatgctccc ttgctctcgg caagaaggag gcaccagcag gagaacggag ggtgggaaRR92881aaaacacgtg gggacttggg ccctgccctg cctgggcact gtgctataca ggggctgtat92941aggggcccac ctccaagact ccagtcctgc ctggctctgg gaaccccatg tctcccctgc93001tccttggagc tggggatagg gagggcttcc cgctctccct gtcagcacct tcatcttgcc93061cacaccttca taatcactct ggcatcaaat tcccttccat ccagcccttc tgagtggaat93121cccacatcct gccggatacc atttggacac atattcacac cctaccagac cggctcgtag93181aagtttgggg ccaccaacac ctcccaacga ccctccatct tctctctgca gaaccatctg93241ggggatggag gcattcctac aaccaattcc cccgagcagg gagaagcccc aactgagaaa93301agccctgtgt gactcccaga tacaaactca gatcgggata aagcccagga ggtacttcca93361aaagccacct gctcagactg ggtacRcagg gtacagKtgt tcatcccaca gccacttcaa93421ctggccaggc ttttctcaaa agccaacggt ggatccaacc cccaggtggg cttctcctcc93481ctcccctgcc cttgaagttc gaggccagca gactcggtgg ccttctagag accgggggtc93541tggctctggg tctgatacta acccgctatg cacccttgga caaattcata cctttctggg93601tcttgatttt tcttatctgc agaatatggg ggttggatca gatgatctct aagtcctttg93661cattctagca cttcacaacK ctctgtaggt cctgaagcta ttatctcctc aactgtgata93721ggaaaatgat gaggctccca gaggctggct acatccacct ccccccaccc caccctgcac93781gattggcagc tgccgtcccg tggcttcata ccttctttca ggccaccctt gatgcttatt93841ttaagctgaa ttcctttgga tggagacaca ggggattggg ggtaggggtg gggtaaaaca93901ccctgatttt tcacagccac atttcttggg gcctggtggt gacccaggat ctatcaaact93961ccagtgaccc aaaagtcctg tgtcttcatc aagggagagt gtcctgctta ttttgggaat94021ttactagatg tgaggaagaa cagagacaag caaccagact ctcgtttcaa aatattctat94081cacctgattt ctggatcctc agcagggaaa tgcagaaacc ccccaaaacc aaagcactcc94141atgtgttatg ggaatgtttc ctgccctgct gagaagccgg gtaacagaat gcaggtgaac94201tcgggagtct gccttcttgg gtcagctgat ttgcaatgtg accttgggca agtgacttag94261tctctctcag cctcggtttc ctcgtctgta aaacaagggc aataacagtt tgtagctcat94321gggggaggtg tgagaactgc aggagttcat cttcttacaa tgctcagccc agtgcctggc94381acacagcaca tgttcaacaa acatcagcta tttttgatca ttcatttaac ttgatcagac94441aactccctta gatcctgcag cagctagggc acagaacaca actggggccc cagcttaggt94501gttaaataag taccttttct tgattcagta taaagaaaat aaacatttat tgaaaatatc94561tatgaaccaa gcagtgagct aattgttttt acacaatttc tcattgaacc ctcttggaaa94621cccactaagg ttaatattat tgtcctcacc taacagacca gaaaacaaag gctcaaagtg94681gttttgtgat ttgcctgagg tcatggctag gaagtgacct ggtaaagatt caaatcctag94741ctttctgact ccggagccac cttcttccaa ctggcatccc tttcagggtg gtgtctttga94801ttcctgattc tagtgagtcc tgcgttagca tgtccttaat gagcttaaat taagagtgaa94861actgaattct cttttcaatt gtacaataaa aataatttaa ataataaatg tcattgtcaa94921catttctggg gaaggtaaaa agagaaaggt caaaaatcag acctgattac cctaagctga94981ggcagccccc aggcatctgg gaatcctgct agcatcctct ctctcaatat ctctgtacac95041ctcccatgcc aggacatcag tgcggcctca aatgctgagc aggttttatt tgtgagttcc95101aggctatcca gtgtgattcc ccaccccctg cctgaggtag gccttcttcc acctacaatg95161tcagtgtaag ctcctcagtg ccttagagga aacaacaact gtccattagc atctgttaag95221acgtttctgc ctggattcct gccatttcca ccaactcata tgtcagtttc atcacactcc95281caaaattact tcccctttta ggatattcca gttaagctac cccttttgtc tcaatgaccc95341aagtgcaaga tgtcaagagt catcactgcc acctccctct ctcctctcct gctctccaca95401tcctgtccat catctgccgg gttctgtgaa tttctctttc attaagtctt cttcatctgc95461cccgtctatt tcactgctgc tatcaccacc atccagattt catgtcttct cctagctgac95521tagaaaaggc tcttctcggt catcaggctt caggctttcc tccctgaaca ccgaatccta95581cagaYcaacc ttcctagaga tgtccctagg attgtcatga attaccacgg accatgcagg95641ccaacctcta agccaggggt ccccaacccc ccgggctata gactgacacc tggactgcac95701agcaggatgt gagtggcggg caggcaagag aaacttcatc tgtatttaca gctgctcctc95761atcactcgca ttaccacctg agctccacct tctgtctgat cagattagat gtcacacKgg95821attctaacag gagcacaaac cctactgcaa actgcacatg caagagatct aggttgcaca95881ctccttatga gaatctaatg cctgatgatc tgtcactgtc tcccatcacc cccagatggg95941accatctagt tgcaggaaaa caagctcagc tcagagctcc cactgactct acattatggt96001gagctgaata attatttcat tatatattac aatgtaataa tcatagaaat aaagggcaca96061ataagtgtaa tgtgctcaaa tcatcccaaa acctgccctc cgcccctggt ccgtggaaaa96121attttcttcc atgagtccct ggtgccaaaa aacttgggta ctgtggctct aagcacctca96181gcctgatgtt cccagcaacc ctSgtctaac tctgtgcccc caatctccct acccacatgc96241tctgggttag tcgagctgag ccttcttctt ccctggtatg cacatcccac attcccttct96301ccagacattc atcaacagtt tggaagcacc actgtgctgg ggctgggctg caagttgatt96361ctggcctggg ccctgccctc agaaggctca cagtccagcc tgagggagca gagaaacaaa96421ctgtcatcac acaatgtggg aggcagccta ccaggaggta ggcacaaggt accagcagct96481tccagaaagg gacagtgata gtgtgtgtgg tgggggaggg aaggagaatg agagagagaa96541aaaaaaagag agagagagag atgaatgact gggatcaaat cttggctcta gcatttattc96601actatgtgac ctcaggaaag ttaattaacc cttcctctcc ccagtttcct tatctgtagg96661atagagatga ccaaagcatc catttcatag cacttttgtg ggagttaaag agttaatata96721gatgaagcca acagaatatt ccaggtctat aatataagtc aacaaacttc agcattatca96781ttattacctc ttccccctac ccctgggcac acccatccac ccctgggggc caatatcaat96841tccatccatg cgccctaagg gccttcttgg catcccgggg ctgcactctc tgacacagca96901gcccctcttc Rtgtgaccac tccctgccct gttccttcag tgctcactgt cccctcaatt96961aaataccgcc ccggcagtgt gctatctcct gcacaatatc agcctttctc cttccaagca97021tattggagaa agagaaaata agaccaaggt gggggaaacc tttgtcaagc acatgccacg97081tgcaaagctt tttacataca tcatcacagt cagctttccc actgtgcccc atccccacca97141tacaccggag gacatggaga ctcctacagc aaaatgactt tctcgatgtc acagataaca97201agcagcagaa ccactccaaa gtcagggcac atcctgcttc acccagctct ctgcaacctg97261gcagacccat caggctcctt gctttcctat actccccacc atgactcaaa ataagagaga97321tcaaaggcca tgcaccaggc cctgcagcct cacaactgta cttctaggaa acaataaagc97381attatgcaaa ggtatagctg gaacagtgct tttttttttc ttttttcttt tattattatt97441atactttaag ttttagggta catgtgtaca atgtgcaggt tagttacata tgtatacatg97501tgccatgctg gtgtgctgca cccattaact cgtcatttag cattaggtat atctcctaaa97561gctatcccta ccccctcccc caaccccaca acagtcccca gaatgtgatg ttccccttcc97621tgtgtccatg tgttctcatt gttcaattcc cacctatgag tgagaatatg cggtgtttgg97681ttttttgttc ttgcgatagt ttactgagaa tgatggtttc caatttcatc catgtcccta97741caaaggacat gaactcatca ttttttatgg ctgcatagta ttccatggtg tacatgtgcc97801acattttctt aatccagtct atcattgttg gacatttggg ttgattccaa gtctttgcta97861ttgtgaatag tgccgcaata aacatacgtg tgcatgtgtc tttatagcag catgatttat97921agtcctttgg gtatataccc agtaatggga tggctgggtc aaatggtatt tctagttcta97981gatccctgag gaatcaccac actgacttcc acaRtggttg aactagttta caggggcagt98041gcttttaata gtaaacagat attagactgt ctaaacatct aacagtagaa cattgagcaa98101attacgagac atgtccataa gctgtggcac atctgcataa tggaacacta tatagcccta98161aaaactatgt cataaaatct atttattgac acagaaagat gttcctgatg tatcactgag98221tggggcagMg gggcKttaaa atggtacgta tcatttctta gtcgtcttct gtgtgcgtgt98281gtgtgtgtgt gtgtgtatgt gtgtatagac agagacagaa ttaatcctag aatggaatac98341agcaaaacaa atacagcaaa aaattatctc caaggagtga gattatgggt catttttgtt98401ttttcctcta tttttttttt tttgagactg cgttttgctc tgtcatccag gctggagtgc98461aatggcgcaa gctcagctca ctgcaacctc tgctttgcgt atctgtaatt cctgattatt98521ctgcaatgaa caaatactat ttccatagaa aaagttattt taaaaaaata atgaaaagca98581cctctacaat ggttaatatc taccctatta tgggtcatct acacagaaat aggaattgtc98641atgaagtgtg catcaagaaa cagttagtgg agagcaaggt tgtgactgaa tagaaaataa98701ctccagaggg tgtgggtcac agcccagaga aggcaggtgt aggttagaag gtcaaatgcc98761aagatgcgag ccctggagga gaggaggcag agacaggagg gtctagggac agcaaagaga98821aacttcaccc tctccccagc cctgcctctg gccagtcctg ccggaacacc tgcaacctgt98881gtccatgaca caatggcatt taaatattta aacagaccca gctttgctgg aacggcgcac98941tcagtctcca gggatcaatc ccatgccaca agccccgctc cacaaatcaa gtttctgggg99001gcaccgagcc tttcctcccc tccccgatcc tacccccatc caaggacctg caagacaact99061gagtgatgag cccagcttcc cttccgcgac aaaggcagtg agcctgaagg ccgcgttatt99121ggcttttcca ctgcagcttg aagcgaaaag cacgtgagcc ttaaagaata tgYgccttaa99181tgccctcaaa aaaatttttt tcttagcaaa actgcaagag tcatctaact ctccctgctg99241cactcaggta ggggtaaaac cagggtagtt tgaaagaggt tgaggtcaag cagattttct99301gggactgcct tgggctcaag cttttgtctg tccagtcagc agatccaccc atcccatcgc99361acctcttggc ctgtggcaca gtttcccgtg gtattcccca atccactgct cccttcatgt99421cctccagaca tcttgcctcc ctagtaaaga gcatcattgt taagctgctg cctgggaaga99481aaggcgccac tgtgtgggga aggagtgctg atcagggcag tccggaggcc caaaggagga99541gccatcccct cacggacaaa ggaggaaacc agtgccatag caactgaggt gtagaaccag99601gactaaacgt ccagcctgct cctcccatca gcctgatacc cttctctctg aagtacacca99661ctgccaagaa acaagagact ttagaacggg aagagaccct agaccctatt ctgatactac99721ccccactggg tgtggcaaca cactccccga ctgggtttct agaagggagg caacagggtg99781aagcggccac acagctgaag acgcacatct gtagggtgga ggtggtagag aacagagact99841ttgctgagac agaggtggcc ttgagagggc ccgctcctgg tgtgtgacac ctgacgtgac99901tcaggagtga gtcatgcttc taggagggct ttagccatgt ctatttgcct tttgtcacta99961atctagccta atgccgtagt tggggggcag tgattttaat agatttaaat ttaaaagact100021ggaaatcata taattccttc catcctactt caattgtaac tactacctga ctccagcctg100081cccgcctgat gcctagaaat tgcccatcga cagcggccag ggcttcacct cataagtaag100141ttgtgcgttc tcattaatta actttgaaaa tgctttttcc gcagccttca agagaatgaa100201actccagggt aggagagcat atgtaagggg cagttagtat ggaagatgtc ctagggtatg100261gcggttctag agttgaggac gctgggatca tatcccactg ttcgcatcct agatcccagc100321tgtgtgacca tggacaaggc cctacacctc tctgagcctc agtttcttca cggtaaagtg100381aggtcaactg tccctgcctc tccaggttgg tgtgggggtt tacagaaata atccatgtga100441aacacttagc ctagcgctct acacacccta agcacctact cacaggaatt aagaccatga100501ttcaRaaaac acttcgagga aaaaagaaaa cttcctacac tgcttccctt gtgtctagca100561aaagggcata tgcctgcttt gctcctccct gcatggctaa tgcttagaga caaaatgttc100621tccctgaata tcacaacgtc atcaccaact tctttgctat gatgtttctt gaacaaagaa100681aatggaaaag tgggtctctc atcaggagtc tgctccaatg acgctaacag aaaaattcgg100741gcttgggagc aattaggaag agaagaggca aactcttgaa atgactttta aaactttcta100801gcagcccaaa cccaaggatt ccttccacct gcctgtcccc agttatcatc ctgcctacaa100861aatggggcta aggatactgc taggatttaa agcgattaag tgaattaaaa atcaagcgct100921ggatagctga gttgtatatc aatgtgaaat aaatggaaag aatagattct aaggagacca100981actaaaacac tgatgcaagc cagtggcaac ctgcctggag aattcctgga gactccagaa101041tgtccagatg caaaaagcag aaaataataa gagctgagca gtcaggagcc agaagccttc101101atgtttaaat gaagtagact tgtcactgtc aaaagccagt atacacaaga atcccctgaa101161gagcgctcag aaaatgcagg ccccttggcc ttccctccag tgattctgat accggaggtc101221tgatgtggag cccaggagtc tgaattctaa gaagcgtcta ggcattgctg tgcagctggt101281ccgggcctac actttcacaa acaccaacag acttttccac aatgtcctat tcagttgctt101341tttttgtgca taagaaacac ttttccttaa gcaagagatt aaaagggaag aaacagaact101401ttaaccctta agcttggtaa actttcaagg taattaaaag agactggtta cttgctggaa101461aacaaagtat tcatacatcc atacaccatg gattgggtaa aacataaatc atgttcaggt101521gatttaacat ttctctgaga cggaagaaat tcaatgactg agtaaaaggc atcaagcaaa101581ctctctatca cctgcagtta gcagctacaa taRtattcaa gccacccatt ttgcaaagga101641agcttggagc aagaacacaY aggaccacta tattcaggaa Kgcattccag gaagggttaa101701ataaatcaca tcagaatata gcttattacc actacacata aacccagaaa ggggttgggg101761tccaaggtga tctaatattt tcataaataa cttgaaagat ggagtgggaa ttatgcaaat101821cacaccatag atgatacaaa aatggcaggg acggcaaatc tgtggagaat gaaatttaac101881tactgggcaa tgtctttaaa tttgccttta ttgaatcttg tatattgaag tcacatatta101941ttggatctgt ttattgagac tcaatgggac caaatgcaga ctgatttatg gaagaaggaa102001taatcaaacg cataagtaga aaagagcatg cacctggaga ggcatcgaca ccgaggctgg102061gacaggctcc gactagtaag ctgttgagag ggtggacagg gcataagtaa ggagatatgt102121ccgctgctct ttgagccaca tggacttgat gctacttctt aggaRtgcca tgcttaagtg102181tagacctgga agggaattcc aagcagggtg ccatagagac tatggggtgg ggccctaagt102241caaccaagaa tatatgggat gttcagaagg tctcccagac ggacaaagcc ctaatgtgcc102301tattcgtagg ggaaagatgc gcaaacgaca aggggacctg taggagagaa aatcttcagc102361tcctattaag gaaaaacact cattcgaagc acagctggca tcatggaaga aagggcagct102421tatggtaaca ccatccctag ggacgctcga ggaggtggcc agacacctct ctacttagga102481tgcattagag attattaaaa gcactccttg cccagtttgg gggtggtggg ggtgggcctt102541gtgacctctc caaaggtcat ttctatccca aaggatcaca tgtctgaagg gcaccagata102601aaaataaagt ctattaatca ccgagctgcc acacaatttc caaagagagc cagaacagag102661aagggcaatc gacggtggcc cctgctccac cgagagaggg agaggaggca gcacgcatgc102721ggacagagcc aagaaagcag ccgctgagac ttccagaaag cctgccgtca ggcctcccag102781gcactacagg gcacacagaa ggtgggagag agcctgcggg gagggcatcg agagaagcaa102841acgtcactga gagtcccgaa acaaagccat ggggactcag gagacagtgt gtgatgcaag102901cactttgcag aaagaggggt gcccagtaag agagggatgc ccacaaacag cacttcatgg102961agatgatcca caaggaggca gaagtcagag gcaaaggtgg gaggagagga actgggaggg103021gatgaagtca gagaaaaggg cacacaggtg tgtgtgtctg ggagtccatg ggattatgat103081gggctgggaa tccaatgaaa gctgcagaga tagagcaaaa agggatccca cggtctatag103141tagcagacaa ttacatacga agataaagca ttttaaaaga ggaacaaatg gctgggtgca103201gtggctcaca cctgtaatcc cagcactttg ggaggctgag gcaggaggat cacttgaaac103261caggagttca agaccagcct gggcaagacc ccatctctac agaaaatttt aaaaacttag103321ccaagcatag tggcatgggc ctgtagtcct agctactgcg tatgctgagg caggaggatg103381gcttgagtcc aggaggtcaa ggctgtagtg agctataatc ctatgattgc accactgtac103441tccagcctgg gtgacaacgc aagagcgtct cttaaaaaat taaataaata aaaatgaata103501aacgaagaat atagtagcaa tgccccagtt ccaaagcagt tgttggcatt cttgatagat103561gtgctggtca agccaaacac agctagaaag cccaagacgg tctgagggcc cttcccagcc103621catggcttac agccagtctc tcaagggtca gcatgctggg gcttctatgt atcagagtga103681aactgaacgc catgtaggaa gcaagaccca ggccaaggca ggcacctcct ggtgctgcca103741aaaggcatca gaccccatgc ccYgctcctt cctcatcctg gactagaact gctttggggt103801ggagacgtta cctgcaggag tcatctcagg aatggcatct gcatggagta ttaagcagcc103861aaatgggagt catggagttt gagttcttct agcaaaatgt tctccaacca gctgtcaccc103921cattggacac agaacaactt tttgaaatca aaagaggcca gtgaaggggg agacaaaaga103981caccaccccc agggtgctcc ctgggcccca cccctacccc gccttgccag ctctctccct104041gccttcaggg agactgcaga ccctggcgag atgggtggga cacccagagg gagacccgtg104101ccagggtcca gcctcgactg tttcactgcc atcctcgctg cagcctcttc cctcctatgg104161cgaagctctg catcctcaga gaggagaaga cggcaagtga agatcattag gagtgtggtg104221gtgagggctg ccctcccata gaatgagcaa atggtacccg gtacagtgag aagatgacta104281gggcacaggt tttcaatctg cctcccagtg ctctgctgtc tggagctgac cacctccctc104341atcaagctgc aggtttcccg aggtccaccc actgccctgg ctccctgcga ctcccctccc104401gtgggctccc tagctctgtc tgcacgccct aaactcagga gccagccagg cagtcgcttg104461tccaaaagat gtttctgaag caagcaagaa aggctggaga tagattgagg gccatttatt104521aaagtaagtc atcgtcatag aaagattcat aacttgccct acctaggaca ggagaggaag104581agggaaagga aattaaaggg aaacaaatga aaagccatgg cgagccaagt acctttgtcg104641gagggttttg agttatgctt ttgtttgtaa ctctctgaaa tacagaaaga aatagaggat104701gaatcttaaa ggagacagag cgcgtgagag agagagccgg aggagagcca cacaggaggc104761atggcaggag gtgggggtgc agaactgagg gtgggggcca ccccagctgg cttcccctct104821gcagaaaccc cctggggcag cagaggccca aggaagtggt gactgcggtg gaggcggcag104881gcgagtaagc tggggtgcag acagaggaag aggagagcac acactgaggt tggcaggcgg104941atggccaagg aagcacaggg aagaggggcc ctgggggcag gcgcacaggR aggaaggaag105001gtgggaccgg cccatactta ctgtcacaga cgtaaggttt gtcgtggtct tcctgagagg105061cggcgtcgtg cctcctcctg ccccctgcag agccgcgagc ctggggagac attggggtac105121aggatgcttg ttaccatggt catcactaca gctccggagc atgcgctctg cgagctcctt105181acaccgtctt catcccaact tttgtgccaa caccagtccc atcttacagg ggaggaaact105241gaggcccaga gaggtcagga gacatgcccc caaatcactc agttgctcac ctgtatcacc105301tcattaaatg ttcacaacKc caagaggtgg tttctactag ggtccccatt ttacaaacca105361aaggactgaa gccatagaga ggttaagtag cttgcccaag gtcgttcggc tactcagggc105421agctgtactg aaaagccctc ctctacMaaa ttcccacaca ctaccgtgcc Rctgaggccg105481cttcctcctg ctccttagcc tcctagcttc actgRcacag ctgaggttga caaccccagg105541cccctcagca gaccagctga tgcacgtatc aggagcaagg cctgacgggg gcaaggcWag105601gcttctgtgt ccatccccgc agtgtcgcaa gagccagaca gtcctgacat ccaggcccag105661tgcacgagtg tagMtacagg ggagctcccg ccaccagccc atgcttggcc tactcagtag105721gggtgggctt tggctaaggc ctccctgtgt ggtctgcctt gggccttcag ccagtgacga105781agaccttgac ccccatggtc tcctgggctg gacttctgat accaccaccc tgtgtgaatc105841tcccagggtg gcggtggaat gagctctacc ttcaagaatc aaagagccca gtcagagagg105901ttgctggcag ctctgcagcc ccagggcggt ggtgacaaga acacagcgag gtttattttt105961aaacctttgt aagtcccaca ctggtcacgt gtatagcacc ctcgcctctc caggtcattc106021tttggtaatg agtagcagtc aactcccaac caaggaaagg gcctgtcggg gtctttgggg106081acagagagga aggggcagca ggtgaggaat aagacctggc agcagcctgg ggtgcagggg106141aaatggggca gcccctgggg cctggcttgg aaaagtggcc atggggactt gatggtggaa106201aggccttgga tactctcaca cacacactca cactctgtgc acacacacac tccatgtaca106261cactcaccgg ggacttcaca gtggaaaggc ctgtacccta ggcctgcaac acacccactc106321agaaaacaca cccacttccc aatcaacacc acctgccaag ctaccacctc tgccacctcc106381tcagcttgtc tctctccaaa acaaattcca cttcctccct ccctcccacc aStctccctc106441cccaccccac ccctgcagcg ctgacagcca gcagccctcc tcccctcgcc ctcattactc106501agagttgacc ccaagaagga tctgtaggtg ctggcagtca ccccgggcac tgacaggcct106561cctgcctgcc cgcactgccg agggtggtca ccctcagctg ccctccccct ccacacccct106621ctgtgaagcc agggacagct tgacatgtag cctgcagccc tgtcacagcc gcctctgagc106681aggtgaaagc aagtcaagca gaatgacgag gcaacagcag actggggaag gggctctggg106741agactaaaaa tacctccatg gggaagggga ggagtcgagc agaactggat gtacgagggc106801ttctggggga gctgccagca ggaaagggag ggtgctgtgg gagccaggtt ttcatctcct106861acagcagggc tgaccagcag agtgactctg tgccacactc gctttgcctc agtttcctca106921attgcaaaat ggggatcgtg tctatagggc acttcagggg acatgcaagg gactcttcct106981gaggcagYag cactcttagg gtctcttaga agatctcagg tttggaaact cagaatccta107041cttggccttc tcaaatgtca cctcctcaga gaagcYctcc ctgaccaact tacatccact107101cacaccctct ccattgtttt ctttcccctc ccatttcatc atggcactga gcgctgtctg107161gcattagatt atacctgtgt tggtttacaa gttgattttg tctcccctac atggagagac107221aaacatggtg gagaccatgt ttattttggc ccccactagt ctcagaacct ggcacagggc107281cagccacata agaagcactt aataaacatt cgccaaatgg atgaatcaat caggcaggca107341gcgagtcagt catctctggt tcttctcctt cattctctgt atccaaatgt tattgcttct107401tcctccaaag gccatctagg ctttgcattt cctttccatt gcacacccta atccaggagc107461tcatcgactg acccctgagc tgttcaaaga acccactaag ggggatctac ctccacattg107521cccccctagt ccaccctaac gggggatcta cctccacact gcccccctag tccatcccaa107581gggactttca gaccattaga caaagggatg aaagacagga gcccatggtc ataggttcac107641gcattcacac gttcattcat tcattgccat ctacaaccca cttacacagc cagtggcaac107701ctagtgctga tcccctcggg ttcaccccat gattgtgctc tcctctgccc atgcacatct107761gatccaggct ttgcccttgc taacctccac tcctccaaga atcttcctct tgccacacta107821aggagtgaaa agagcatccg cttaaagtca gatagacaca ggttgaaaca ccagctatgt107881gtcttgggca agttacttct ctaactttta gttttctcaa ctgtaaaatg agcacaccaa107941cacctatata gcagagctgt tgagagagtt tgagctgaga gtgtgtgaaa Scacagggga108001cagcactaag tccacaggaa gcactcaaca catcatttcc cccctccttg cctaggctga108061tctctctcct ctgaactcct gttgcctttg gttagtgcac agtcaggtgc ctgctgtttc108121taatggtatc atgggtatta gcatcttctt cccagtttga ttcgaaggtc cttgagggca108181aaaatggcat tctatacttt attatgaccc cctaacactt Rgcacatagc gtgcaaagct108241cttttgcata tagtaactca gttaattcct acaataaccc tatgagttag accaagcagt108301gttatgattc ctagctggcc cttgatgaag caggttctca cctgtccaca gtcccagggc108361cagcagaagg agcaggacct aggtctccag gctctgttat agaaagcttK gaaggtgacc108421agccaaagga agccaatcct tcttccccaa gaactgccca ccctacttca ttcctctcta108481ccagtattcc cacactgctg ggccatggca gccatgagtg taccacatgg ccctgtccca108541ctggccacag ttgattggct ggctcgggag tagtcacctg attcaagctg ggccaatcag108601atcctacctc caaggggttt ggaattagaa aacagtgacc ctagctagta taggccactt108661gaactgaggg cccatacatt caggagcctt atggggccat gtacacatgg aagcaggaag108721aatgaaggag ggagaagtag aggccagaaa ccacctgggt tNctgtttcc caatgctaag108781tccctgccat gttcctgctc ttcctgtggt ttggatcttc aaaggttgct caaatttggg108841gcagtggcct ggcagctttt caaatccttc ccatttttat tgaagctgaa agacccttga108901ctaggacaga ctcggtccca agcWgagagc tagatcttct ataccagttg ttctcaaaca108961gtgtggccca ggaatcctgg gggatccctg agtgtccttt cagggactct gcagtgtctg109021aactattttc ataggagtcc taaaacgtga tctgccttgt tcactctcac gctctcacag109081gcatccagtg gagtcttcca gaggcgacat gacacgtgac gatgctgtca ctgtgtgtgt109141attctctagt ttaaaatttg ttttattttt cttgtaaatc ttttttactg ggctacctct109201taaaccacaa taggttcaga gagacaacct ttttaatttc taaaatggca aatatcatta109261gtggtatgaa tattactggt tataacctga ataacagcct ttgggggctc tcagtgtaag109321gaattcctga gatcaaaaaa attgagaacc actgctctac acccttgcta tttttttNtt109381ttttgagacg gagtcactct gtcatgcagg ctggagtgca gtggctcaat ctcggctcac109441tRcaacctcc gcctccgcct cccgggttca agtgattctc cgcctcagcc ccctgagtag109501ctgggattac aggtgcatgc cggcatgccc agctaatttt tcatattttt agtagagacg109561gggtttcaca ctgttagcca ggatggtctc aatctcctga cctcgtgatc cacccgccYt109621ggcctcccaa agtgctggga ttacaggtgt gagccaccgt gccaggcctt tttttttttt109681ttttttgaga tggggtctca ctctgtcact agggctggag tgcagtagca caatcacagc109741tcaatgaagc cttaaccact caggctccag tgatcctccc acctcagcct cccaagtagc109801tgtaaccaga ggtgcacacY gctctgcctg gctaattttt tcagagatga gttctcacca109861tgttgcccgc aggctggtct caaactcctg ggctcaaacc atcctcccac ctcggcttcc109921caaagtgctg ggattacagt tgtgagccac cgcacccagc ctacaccctt gctatttaaa109981gtgtggtcct gacaccagca gctccagcat cacttgggag cttattaaaa aggcaggagc110041tcagccccca ccccatggac ttactgcatc agaatttgta ttttaacaaa atcctcaggt110101gctccatatg cacataaagt ttgagaggca cctgaacacc acagtacata aataaatact110161tcatgattga ttgataattg attaattggt aatactcaca tggatgactc acaagaatct110221catgaatttt aaagagcttt gacttcttgg gctgaagtta ccaaagacac aattattaat110281tgttgggctc ccctcaccac tcagagaata cccattatca aaattccaag agttattccc110341tttgcttgcc ccctcctgat aatatctagg cagtatgaag cactcaaaac ttactgatga110401agaaactgag gcccagggta cttatacaat ttgcccacca tcacagaggt tacataattc110461atccaacgtg tagtaagtgg tagagctgga atttgaactt gcaaggtcta agttcaaata110521aagcagagcY tattctgtaa tccctacctt agccctggcc tcctcagtga gcacacaaag110581cacctggggg cttgtcaaag tgcagactct aattctcatt aatctagtgt ggagtctggg110641cttctgcatt cctaatgagc tcccagatga tattaatgcc accatccaga gaccacacac110701agaggtgtca agacitagac tgcctctagg ttctgacaag acaaatgggc atagttgttc110761tccagtgcca gcagcagctg gaatatacca ctttaaatgg tgggcaatga gctgggtatg110821gtggctcatg cctgtaatcc cagcactttg ggagacccgg acaagaggat cgcttgaggc110881caggagttcc agatcagcct gagcaacaga gtgaggcccc catctctaaa acataataat110941tataaaaaat aaagcWtggg caaaacagct gaactgaggc tgtgagtgca gcagcttcac111001acaccccagc acaggaggct tgcccacagc cttctgggtc cttccatggc tccgtgcatg111061ggtaacatgt ccacagtatc actgtacaac atggaaccat tcagctgctg cttggccagt111121atctggtggg cccagagcca gtctaggctc catccagccc cctcactgtg ttcaggtgtc111181tctcatctcc cctacagctg aaatacgact tttctttctc ttttccatca ttcaatcatt111241cattcgacaa gctaatcatt ggctatatgc tgggccctgg gccaggcatg aactcagagg111301agaaagcaca gacctgtgtt caaatcttag cctcttcctt actaggctga gtgaccttga111361acaaattgct taacccccct gggagcaata gtaccagctt gtggaaatga aagaagttct111421gaccaataga aatacaatgt gagccacact catcatttta aaatttccag cagcacattt111481tttttaaaaa aatagatagg tgcaattaat tttaataata tattttattt aacaatatat111541ccaaaatatg atagttttat aatttaatat aaaaattaag aatgagatgt tctgcattcc111601tttttcatac taagtcttca aaatttcata tttattttat atttacagca catttccatt111661aggactagac acattttgag gactcagtag ccacatgtgg ccagcagctg ccataatgca111721cagtgcagaa atagagatag gagtctaaag cacctggcac aaaggcatca ctctctatgt111781ggtagctctt gttatacaga gcccatcaca ttgcctggtt tacaggaagt acacagtaaa111841tatacatggt tgcactgact gctgatgttt tcacagacac ccaattcata tccactgact111901gcaagctcaa tcttctaaat gtaggttggg gagaggtgtg aagaggacca tttcccacac111961ttgcRtcagt ttggttgggg tgagagaagg aaagSaagtg ggtctggaca tgcacagctc112021tttgggagtt caccaaaggY ccaggaagtc caagctcRaa agtctccttt aataatggaa112081ttcaattttc tttttaatac cctcccctcc gtgaatgggt ctaggccagt ttatcaatgg112141ctgcaaaaat cattaagtaa aaacttgatg aggaactgta taagggagag atcaggctga112201caacactcaa atctactgat caattaaaac accacccaaa gcagaactgg acagggtatg112261cccctgatgt gatacgagaa gaacctatca ccacctagga aggattctta cctccccaca112321agaaatgttt gtacacacat acacaaacac acacacacac aagcacacac cttgaatcta112381agcaagtttc taatcaaact accagttttc aggaaacaca gaggatggag aaagacatta112441aataccaccc tcccaccact tctagaatgt gagaagttcc acaagacaaa caacccaaat112501tcttcaacaa attaatggca tggagaaaaa aaaatgtgtg tggtggggtg caatacagaa112561gagaatacag aagaggtatg ctgtggaatc cSggagactt cagtttcaaa caaaccaact112621ataaaatggc attttttgac aaaaggggaa atgataaggg actagatagt aggtattata112681actattattt tattggatat gataatgata tctgttaaag acacacactg agatatgtgt112741cagttaaatg ataagatgtc tagaacttgt tttcaaatac tccagaaaaa aaatcaaaca112801aacacaaatc aacaaaaagt aggagaaaag aagagacgag dcaagatagc caaaatcttg112861ctaagtgatg aggctggtcc cagctgtacc agaagtgcac catcagagag ctgcccgccc112921agcccctgca caggctgcac agccccacat gcgacaggct ggagcatctc agctcagtgt112981gtgccgcgct ggccgatgtg cagcggccgc ctgggaactt gcttctaata tagtataaag113041cccYgcccca gagctcctaa agcagaattt ctgagtgggg tcctgggaat ctgcattcaa113101taagctctct cagtgatcct aatgtctgct gaggcatgag aaccacaaga gtggagagcc113161ctgccatggt tatcattggc agcaaaccca cagaatgcct gggactaagt gcttatccgt113221gggaggggta agagtcccgc ctagagcctg aaggggtgag atYctcaagc ctgagagtcc113281attttccagg tggacagcag Yagtttactt ctggaggtcc ctctccacct ggttattgtc113341acatgccctt gcagacccca gacggccacc acagaaagcc ccttcgggcg tgaactctag113401attcaacctg aatgcctgga agtgcctgac cagtctcttg tttttattcc ttccacctgg113461gttttttccc ctctgccctt ccccaggctc tggctttttc cttgtcccat ccRaggaccc113521ctgggatggt ctcaagcctc cagagctcat gccaaaccca ctgggagcca ccagctgcag113581ccccctgcta ccccggcaaa cttctttttt tttttatagt catgattatg gtttatttNt113641tttttttatt atactttaag ttttagggta catgtgcaca atgtacgggt tagttacata113701tgcatacatg tgccatgttg gtgtgctgca cctattaact cgtaatttaa tattaggtat113761atctcctaat gctatccctc cccccagccc ctatctcaca acaggcccca gtgtgtgatg113821ttccccttcc tgtgaccatg taccccaaaa gcaggtaccc tgactctgtc attctggcac113881agcaccaggg acaaggcagg aaatgtccag ccttctttag taaccaagca gtggtgacaa113941caggcacatt ctccttatct tccaccctca ccctgatccc acccttcagc cctccccaga114001cctcaccacc cactcagggt accccctctg cctcctctcc tccctcttgc cagctctgaa114061ctcttccagg ctacgacctg ggatcagagc tSttctggag ttttctcctt tgagcgttct114121ccatgtaaga ccatggccat gatttccatc tagctgcagt ggagatcaat cgttggccgg114181gcaccccagc ctccctcatc tctttcctcg ctcatgtcat ccccaactta cccgtcctct114241agtcctgttc tttcgcttgg gaatatcctc ttccaaatcc tcttcttcat tcccttcttc114301tacattttca tcattttcca aaaccctctg aaatgaaaaa aaaaaataga aaaggtgaga114361aacgaaatgc aaagggaaaa accatcagag agtaatttta agggtgttct gatttgttgt114421tattttttaa cMaagtgaag acgctgcctt tgcttgggca gttgggccct ctgaaatgct114481gtctggagtt tgaactcttg gcactaccga ggctctccta agcccttggg ccccttccag114541acaagtcctc ccagaacact gacctttttc cattcttttt gcccaagaag agttttctaa114601caagagacta tgctggtagg ggcccttttc tatgtggggc caWaatgttt acttttgtaa114661atgtaatgtt tctttttgct cccaaagggc cacctcagaa atatgaaaat gtttctcctt114721tccctgccat tctggaaccc tgccctgtct gatgaaagca agtaacttcc tgttcatctg114781accagattta acacgaatgt gctgttcata ataagccact gctttttttt cttttttttt114841tttttaagaa aaatagactt tcatttagta cccgacttgt catggagctt aaagataatg114901aattttaaat tatctctctc cagcagcccg ccagtcacat tgcaacatag aatccaattt114961ccattttgca ggtgaatacR ctgaggctga aaacagtttt gagtgctcca gatcatccag115021tgaagccatg accaaagcaa ggtcaggttc atcggctcag ggttccccat tcatttctca115081gcacagtggc tgagaattcc agatgtaatc tggcatactc tccatgtagg ggcctaagca115141cgtcactccc tttagaggaa ggaaggaggt aggatgtgtt cctctgggct taagggaggg115201ataaaagact gtagcagagg acccagcccc acaatgggag taggaaaaga gggaaggggc115261atggagctca ctgggctcca tgtcaggggg cccagagggg tttttgtttg tNttNttttt115321tttctgagac agggactcac tttattgccc aggctggagt gcagtggcac aatcacRgct115381caatgcagcc tcaacctccc aggcctaagc gatcctccca cctcagcctg ccaagtagct115441gggactgcag gcacatgcca ccatgcctgg ctaatttatt ttttgtagag atgggggtct115501cactatgttg cccgggctga cctcgaacac ctggtctcaa gtgatcctcc caccccagcc115561tcccaaagtg ctaggattac aggcatacca tgcagatgag ctaccacacc tggccacctg115621ggggKttctt tatgggctca ctgtgtgatc tagggcaagt catcatctct tcatccttca115681gtttccccaa ttatacaata ggaattcatt cattccatct acaaacattt atctagtgcY115741gactacRtgg caggctccat gctaggcaag ctgcaaaatg gctacagtcc cagccccaaa115801tggactttcc agtctaggaa agggagaaca gatttaaaca atgtgcatat gtcaccatat115861aattacaact cttctcaaaa cagtggtagS caagttcaaa gtgctatgag agggtgttag115921gagggagttt tccctaatcc aagggccagg ggaggcctac atgagaacat gagctgagaa115981gttgagatgt ggaggatgag caaagactgg ccttgtgaat gaggacagag gggagggagg116041gaaaaggttc taggcagagg aaacagcata agcaaactcc ctgaggcagg gagaggaaca116101cggcttgtcc aaggagcaga aaggccagtg tgaccagtgc ttagtggctc aaggagagat116161ggcataagat ggagctagta aggggaacaa gtaccatact acacagggta accccatctc116221ctcttccttg tggtgatggg tcaaagatca caaatatgtt gagaaggctg agacagtggc116281acacactgca ctgttgtctg ataaccatcg ctgtttaagc cgcctcctgg atgacacctc116341tggcctgtcc tcaaagcagg aagcccgggg tgagccacca ggcagtgatc ttccaccact116401gcccctggct agaatgttct gctctaaatc acagggatca ggacacttct agtcacccaa116461tccatccaaa gaactcaaaa caggtctagt aaattcttct ttgccttttc tactaggttt116521atttgggaat ccaccagctg acagcactta aagggtctct gagccagcct taaccatcta116581acagagaaga agcattgtct gctggacatg acctctggcc cataactagg aaacgtcagc116641ccccattcac agtataagtc tcttgagttc ctgacctgta ggtgggaaca ctagcaaaag116701ccgactgaga cagtgacagg tcaaatgctc tgcagccttt ggggcaaaga catagtataa116761atataaggtc tggttatgac tgttgttgct gttcgtagaa ccatcttgca aactttccag116821gtcttgaagt cacttaatca tggtaagttc caagtgcctc gaatttaaag gtcatagcct116881ctggcatctc agtacaactc cgactctcat ttttcattat aagggtattt attacccgca116941atatggactc tgggttggaa ggtgaaagac tggtagaggc agctgagcta gtccccagag117001tgtcacatgg cctccatatc tgggagtaaa ctgacttctc ttctccctga ggctccatcc117061tccctctgcc catcagcttc cctgtgactc taaagcctct gtctatgccc tgggcctcag117121atgtgatggc ggcagaccca gtgtgtctgc atttcctgcg atgcggccct gacaccagaa117181gcctctcgac ataattcagg aggagccagg agtttctaac aaacaaagct tgtttcagac117241ctcaggaagc ggagggggag tcctgcatca ggagtcgcYg acgggggtgg ggtgtccaac117301tacaaagtca gctgaccccc cagtaacaga catgcattcc ttgtccaagg acattatctg117361gaaaataaac acattttaaa ataacttttc tccctgttac tctaaacagt ctttatggtg117421ataacagcgg tttgtggttg tgtttaaaaa aaaaaaatcc tttttaaaga ctacattatc117481tctggcctgg aatactgcaa aaatctcctg atttccctcc tKccattgct ggccccacat117541ccaatctcct ctccatgcag caggcaacag gatctttatg aaatacaaat tcacggccct117601gatcaaaatc ttccaaatgg cttccttctt tatatcacat ggaaccaaaa gccacttccc117661tgtcctgtgg gaactaggtg gtctggtctc ggcccacctg tcaaactcct gggctctttt117721ttccctggca caatactccg gccacacagg tcttctgttc tctcaacaaa accagctctg117781acctgtcttg gggccatcac acccactgct cctctgccca gaaagctctt ccccaggacc117841atcactttcc tgactcttct catcccatag ggttgaggtt aaatccctca actcgaccag117901atgcggtggc tcacgcctgt aatcccagca ctttgggagg ccgaggcagg cggatcacga117961ggttaggagt tcgagacgag cctggccaat gtggtgaaac cccgtttcta ctaaaaacac118021aaaaaatagt tgggcgtggt ggtgggcacc tgtaatccca gctactcaga aggctgaggc118081aggagaatcg tttgaacctg ggaggtggag gctgcagtca gctgagattg taccattgca118141ctccagcctg ggtgacgagg cgagactcca tctcaaaaaa aaaaaaaaaa tccctcatct118201tcctcaggaa ctctactctg atgctgaatc ttcatactgt ttgttctcat ggattttatc118261ctaaaatgca cttattttat ttgtattcct tgtttcctgc ctgtgtgtca cattcgaata118321tgagtagaga ggataggtat ctcttggtct ctgtgtccct agcacccagc acagtgcctg118381cacagaggaa gccctcatga aactttggtc aaatgaatga atgaatgaaa aagcataatc118441cattcgctac atgtgtattt taataatgca aagtcaataa aaacacgtaa actcatttga118501cttatggtcc tggctttgtc ttctagcaca gtagacagca gacccatgcg ctgcactcag118561cagaccttca gtttacatag gagatgatgg tgacatgatg acgacaatac agcaccagcc118621cagtgctgca tgagaagaac tcaagcccac caccagcttt aaagggaaag ggacccacat118681acccagagca tcaaggctct gggcagtggc tctgccccat Kcattgattc tgtcaaatta118741catgaactaa gcaaaaaaat actctagcaa gtaacacaga gatgacagac cttgacttca118801aaatctgaaa gtcacataca cacacacaag gaagaaagca gtaggtggct taaacaccaa118861aggcaagaag agatccctct ggctggaggg gagatcaaga aaggcttgat ggggaaggtg118921gcactggggt tgagtctaaa agatgagtga gatttgtaca catggagatg gaagaaaagg118981catgccagat aaagggcaca gcgggaccaa tggcatggag ggaagaaggc tgaagaacag119041agcggcgaaa ggagtagtgg aaaataagcc tgaaaactag gttaggaatg gagaggacac119101gcccaggaag gtcacgctca tccttttcga tttatttagt gggaaacaac agttttttag119161cagagttttg ctctagaaca aaaggacagc tagcaaagta ggacatgtca gagacgggaa119221gaactgggga cagggcgatt cctggaatct gttccctcat gtgtccattc aacaaatatt119281tatgttgcac ctggtaagca ccaagcactg tttgggtgct tatgagatat aagcaagcaa119341aactggcaac ggatcctgcc ctcgaggagt ttacattcta ctggaagaaa acagacaata119401aacaataaca taataagtaa gtaaattaga aagtacatta gatgatgata agagtgatgg119461aaaagaacaa gaaaagcaga gtggaatcgg gaggcagggg cagtcagggc aagggtgtga119521gatgaagtac ggcacggtca gggacatctt tgagagaaga ggaaggccag gcaccgtggc119581tcatgcctgt aatcccagca ctttgggagg ccgaagtggg tagatcacct gcagtcagga119641gttcgagacc agcctggcaa acatggtgaa tccgcgtctc tactaaaaat acaaaaatca119701gccagaggtg gtggtgcgca actataatcc cagctactca ggaggctgag acaggagaat119761cacttgaacc cagtaggcag aggttgcagc gagccgagat tgcaccactt cactccagcc119821tgggcgacac agcgagactc tgtctcaaaa ataaataaat tcataaataa taaaaaataa119881aaattaaaaa atgaagaagg tgagggtgag agacaagtgt acatcYgggg aaatggccag119941ggcaaaggcc tgaggtctgg gacaggcctg gcaWgttctg ggaggaacag aaggagattc120001ttgtgcctgg agtggagtgg gtgaggaaaa gaggaagagt ggagtcagag aggggtgaga120061aggccctgaa tttcactctc agatagcagg ggcggtagcg ggttctgagc acagaaatga120121taagaataga cttaaatttt aaaaagctcc ctctcctgtg gtgtatctag acaacagaat120181attattcagc attaaaaaga aatgagctat ctggccatga aaagacatga aggaacctta120241aatgaatgtt actaaatcag agaagccaat ctgaaaaggc Racatactgt gagtccaagt120301atatgacatc ctggaagagg caaaactatg gagacgggga aacggccagt ggttgccagg120361cattaggacg gagggaggga tgaacaggtg gagctcagag gatttttagg gcagtgaaac120421ttctgtatga taccgtaaga gtggacagat gccattacac atttgttcaa acccattgaa120481tgcRcaacgc caagagtgaa ccgtcatgca gactttgaac attgggtgat aatgatgagt120541cagtgcagct catctattat agcaaatgca ccactctagt ggaggatgtt gatcatgggg120601gaggctatac caggggtaca caggaaatct ctgtaccatc ctcttcattt tgctgtgaac120661ctaaaactgc tgttaaaaaa tatttttttt taaagactgc ccctcaagca ctatcaggga120721gaccactgag aagacaaccg cagcagttca cacaaaagat gagagcagct tgggccaggg120781tagcagtggt gggtgcgggg agaggggatg cgggagaact gggcttatgt tgaaggcaca120841gtcgacaagg ctcctgatga gcaggatgtc aggtgtgaga gacaagcagg agtcaaatat120901gaccccaagg tcccttagac aaataaaggt gacagttaat gaggatcttc actagggctg120961cagctcgtgg aaaagagagg agggaacaaa cacaagccat gttgtggcaa ctcaatggaa121021aagatttgac aattcatctt aacacgggaa tggcggagaa gaaggccaaa ttctgtgatt121081cattcaatgc ctttatcgag actcaactct acccagcttg ggaaaggccc cggggacact121141ggtgagcatg accgcattgg ccctggctat cgatggaact taccaagcca accagcaatg121201tattattcca ttattattaa tttaattgta gttttaataa attaatatat aaattaataa121261atttattgaa tattaaatat gcacaatagg tatagcataa aatataaaca tttaatatgt121321aatataaatt taatagaaat acaatttaat tttaataatt taatattaac taccaatgct121381attatttcat aataggatca attcatatta caatactcaa tggcaaacat tgtattagac121441aatgaggatt ccagacaaat aacaaataag agatggtagg tgtgaagtca ggtgcagtga121501ctcacgcctg taatcccagc actctgggag gctgaggcag gcgatcactt gaggtcagga121561gtttgagacc agcctggcca atatggtgaa accccatctc tactaaaaat acaaaaaaca121621gccagatggt ggcacatgcc tgtaatccca gctactcggt aggctgagac acaagaatca121681cttgaacccg ggaggcagag tttgcagtga gccgagatcg agatcatgcc actgcactcc121741agcctgggtg acagagcgag actctgtctc aaaaaaagaa aaagaaaaag aaaaagaaac121801ggtaggtgtg cacccttata atcctattca gtgagagttt tagaagtggc atggatagag121861ggtagtggac ccatggggac agagcagcca tccgcctgaa gggtgaggac ggcatgggct121921tgagggatgg ctgggcactg ctgggaaacg gagtgtgcag tcatggggac cggtgaggct121981gggtgtgagg gtggggggtg ggcaagccgg actcacgtgg ccgtagctgg agcagacgct122041cccacgtttc aagcctagac aatggactct tggttccatg gggacaagga ttcagactgt122101tttgtccact ctgtgtccct gggaccctgc acagtccctg tgttcactag gctcaacaaa122161ttcactttgc atagacagac agaagagagg gaagggaacc gaggtgaagg caataatgac122221tccttcggaa gataggttaa gtcagaaaag aatttgggag cttcctggcc accatagaaa122281caaggcagtc tgagactgag ccccggccct tgaggggagg atctggagcc aagccggtgc122341tggagttctg gaagcgctat ggtgacagga acactctgtg gggtccccag caggtgYggg122401aatacctgta tttcctggat gctttcctcc tccctggcat ccaccttctt ctcaaccccc122461tcgccacgga gcaaggcttc cagcgtggtg ctctctgagg tgaacccatc cttcttcagg122521ggaagctcca cttctgaaaa acaaagatag aaaggcaggt caggccacta gaagcaggca122581gggcaggagg gacagtcctg gaggacacgc agggcccagg gctcctgagg aggactcggg122641gcctgtgctc tctcctcctg gagggagagg aacactggag ccctgtccag cttttccatc122701tccatttcat aatccagaga cagattccga ccatgcccac acccccagag gaagctgagc122761cagagcagaa agggtgcggg gtRgatgtgg gctcacacgg ccatgcttct gcctctccag122821ccatgacatc ggacaaggca ggcgtcagga gcgtggagcc cttattgcat ccacaaagca122881ggggtaacaa tacccaaccc cacaggtggt tttgtaaggg gacatgtgtt catttgcggg122941aaagtgtttc aaaaactcaa gcaatgcaca atgctggcaa ccaagtatgc tcattccctc123001ctatcccagc tcttgtctgt caaccccaYg acctcctcat ggccatgctg gctgcccagc123061tctgctttcc tccatgaaaa gctagttcag cctcagaaag gttgttctct tcaacccagg123121gggaagtgag agcttcaaaa gccacgggaa gaggagcgac ggcgaatgcc tcacaagccc123181cggatgagca gagtggccac tgcacagcca cgccacgacc tttttttctg aaggtatcag123241gagtttgatc agctacctgg ggcttgagaa gagaagccct ggggttgcca gcagagaagt123301ggcaacccga gccagccctg cccagaagag acaccagaga gaagctgaac cccttcctcc123361aggtgtccca aactcctgac ctgacagagg gttggtgtgt ttctttcttt tctttctttc123421cttccctcct ttctttcctt tccctccctc cctcctttct ttctttccat tctctctttc123481tttctttctc tctcccttct ttctttctct ttctttcttt ctctctctct ctctYtcttt123541ctcttttaga gacagggtct tactttatca cccaggctgg agtgcagtgg cactatcata123601gctcactgca gcctcaaact tctggcctca agcaatccat ctgcctcagc ctcccaaagc123661actggggtta taggcatgag ccaccatccc ctgctgtttt tttaattaaa gatgcaaacc123721taaggtacag gagatcattc tgatttacta aaatatttct tcaacctctc ctctgatcct123781ggacctcata cccccacact gccacagttt gatatgtggt ccttaccatt gcaccaggta123841agctgggggc aggaactatg atgcagtggt gtcccagaaa acaggagaga tgaatggcct123901gctcttttgg gggtattgag agtttagtgt agggactatt tacagagatg gggagaggtg123961attaagggat ctgacaaggt aggttaaagc atcccaggtg ggttttgggc aggggtgagg124021gtggagaggg gccattaccg ctgctgctat ttttggaggg acagagggag agtgcttgca124081agaacctgga gatagcacca ttagcaSagc cecaggacag gagctatggc ttgcagaagc124141caggaaccaa gggaagaaac aatccaacca ccctctccat ccatcctcca tcagcctgct124201gcgtcctctc ccaagggcca accttaaaca gaagcgagag gggaagggag cccccttcac124261acagcctacc gagctccgag cagggtgaag acggaaaagc atggatctgg aggggcaaat124321ggaaagagca gcaccaccga gcctgctcca ctgggctctg tcctgactcc aacagaatcc124381tacctgcact ttccacttcc tccaccagaa acagagggag tctgacYaat ccatgaggaa124441gcggcaagcg ggcatccatt aaaactgaac aaatgcacac ctgtgggtga ccggccccca124501gaaaaagaag gtgggaagga gaaacagcat ctaaaatctc ttgagaaaca aagtctttgg124561gatttttcct accaaaaaag gagagcaaag gatccacttc ccatcaagga gcgctaccac124621gaaatcagcc acctctgaat ccatctatcc attcaacaga tatttactga gcacctgcca124681taggaccacc actgtgctgg gactagggac ataggaggtg aaccaaataa agacaggYcc124741tgcctttagg aggcttacag tccaaagaga cagatagtaa atgcaaaata caaaatcaaa124801atgcaattac gaattgtcgt aaatgttagg gaggaaaacg acagaatgaa atgtgaaaga124861atataggtaa cggggtctac cttagatcag ggagtcaggg aaggcctgta tgatgaagtt124921acatttaagg agagtgtcag acaaacagcc aactgtctgc tttaatgagt tcatggagta124981catctccata gcctgctctg atgacatatt actctttctc ccaagtcaga aaagtcttcc125041aaatgtctac tctaaagcaa ttagtgtgtg ctgtctcatg tcctgtcctc agtcaaaaga125101gaacagctgg tcacaacccc tcaaacttat aataatcata tatacataga gttgaagttc125161atattttagt atccccctta gccttcgcag cactaaataa atcctattta ttagtgttat125221ttcccagaat ggtacagcat tttagagcta gaaaagacct tatagatcat ctaattcaat125281catctcattt tgtagatgcg tcacccgaga ccctgaaaag ttaagtaaMc accaacagcc125341acacagcagg atgagaatgc agctgaatga tatttccaag ttgccactga aatcacgaca125401atggccccct ctcattgtat tcttattagt ggttgacagg cttaggctga gccctgaatg125461agctttggta catccgtgta catgcagagg gcttggcaag cagcaaacat tcaaaactta125521gcagctgtta ctgctacgta tcaatcccca ctacacccaa gagcacagtt attaacccgt125581tttacagatg agggcagtgc agcttataga ggttgagaac ttgcttgata tcacacagct125641ggtaaggggc aaagcccggc cttaaactca atctgccttc agacccagtc acctaattag125701gctgcatgga ctccaccctg tctctctgtg gtccttcctt gaaaagtctt tttccaaacc125761tttatgcatt ttcattacat tctgagactc actccRtagt tttcatattt caggataaaa125821ggcagatctt taactgagga tgagggcagg tttgtgccat ggttttgggt tctgctctat125881acgatcatcc ccgtgcaatg ttcaccattc tgcgacagta tctacccact atagaatgtt125941ccatcaatag tgaacttgcc cctctcttcc ttctcctgct cttccttcct cctctgataa126001atatgcctcc atcctgcttt cccataattg aatctactct cttggtcctc tttaaccaaa126061ctttaccaga taggcacagt agaagaatca agagggaaaa cagaaccaaa tgggaaaagt126121gaaatggaaa aagcaagaag ggatctccaa tagcatcaag agtccaatcc cttaaacagg126181aaagtgaagc acagaaagat atagagattc ccccagggtc acagagacat gtagtggcat126241cttgcttccc taattaccac aataRttgat ttgctcccat aggttctgcc ttcagacagc126301cctggagtca atccctagcc ttgccacgta ttagtaaagg gaccatgggc tagctacgta126361acctaagcct ccatttccat atgtggtaaa tgggtgtggt catagtatct atttcagtgt126421tggcgaatca aacatggcaa tgtgctacat aaagaaacgc taaaagaatc cacacacaaa126481aaaactagtg tgataaatag ggtagaagat gaggcttatc aacttttgtt ttattctatt126541caaaacttag attcaaaatt agatcatata cgtaaagaat ctacaacatg gtaagtatcc126601taaaaatgct agatgttatt ccctaagttt gaatagtttt gatttcaatg gtacagctgc126661actgtccaac agaaatgtaa taccggccac ttatgtaatt tttaacttac tagtagtcac126721atgtagaaaa aggaagaaag tcaggtgtca ttaattttaa taagataWtg tatccgatct126781ggtatttcta aaacattacc attcaacatg aaatcaacat aaaaatatgg acgcaaaatt126841ttacattctt ttatctgcat tgtcttcaaa gtctggtggg tattttccat ttagagcgta126901tctcaattca gactagccac atttcaagag ctccatagcc acaggtggct accagctacc126961ataatggaca gtgcagattt gcagcattaa aaataacatt aactatgact ttgcttccaa127021aaaatggaaa gaattttact gtggttctta atgttgtcca cgtaatagct gccgagtgcc127081attccaagag cagagttcta gcggatcact gcaaaccctg gttgcaaagc atgatgggta127141aggcctgcaa ggtcagagtg aaagggtagc catccctccc tacaaacaaa cacagggtgc127201actctgcctc ctgaccacag gaggtcccag aatgaaggag gaagaaaggt aacaggtcca127261agcccttgca caatgtatgt cctaaacaca cttctattga gccctYaggg atttcattta127321tccaatttta tttgaatatg gcccatctgg atataggatt taataattct ttgaaagtgt127381actcattttg aacctcacac aaacttgggg cccacataac ccgacaggag ccattgaacc127441tttaacatta aaagaaaatg gtccaaaaca cacacataat tcatctttaa attagcctga127501ttttatacac atggatataa acccatggat cgttactctc tccRgagcgg cagcagctgt127561cacccaagcc agccgcctcc ctgggccccc gtaagcagct ctgcctctac ttctaattgg127621gaacagagat actccttggg tgacttccag cacgatccat cacaccagag acagcttctg127681tgcaaaccga agcaaatcgg tttctaaata agaaaaaacc tccgagacaa acaaggattg127741aagcatagaa agtcttttaa aaacaaccaa aaaaagcaca aataaaagca aaaaaacaaa127801caaacaaaMa aaaaaaNcca cacacacaca cagaaatttc cagcaaagag caatggcttc127861ttctctttag ggctacagac agggcagcca tcctcttggg tgcagatcaa agccacaagc127921ttttgacaca ggtgccccaa gcctgccacc caatgcactg aaagcaaagc ttccactggg127981ttgttggagc caccgagctc attaacagga tgcaggcgag atgagtctga aagtgcaaca128041tgggagcaca gtgagtaatt aaatcccagg tcatttaaaa atgcaaacgc cacgaatgtc128101atgagctccc caagcctctg actccttctc cttcgttatt tggctcagga tgaaggactg128161gaaacctgca agtcgtatat ggattataat aaaatatgcc atatagaaaa cagattaaga128221cagttcttct ttggggaaat atacaaggag aggagctgtc tgttagctgt cgagtttgca128281agagatacca tctttcggga ggcagtgtgt tctgccaaca gacagactgc cccaagggaa128341attgtggtga aacaccccga caaggcgcat ccatccgtcc atccatcatg ggctccctct128401gatgcagggg cctggagata gagttatggt gcaaaaggga gggagaaatc ccacagacaa128461tggcaaagaa tcctcctgct agatcatgag tgctcaattt tttttttttt tagctgcctc128521tagtttttct tcaaaaatac aaacatgcag ttttctcgtc tgggtgctta ttatattgag128581gagttaagct catcatattt ccttggattt atacatcaaa ttacacgaag gagaaaagag128641cttaagaatc attatttcat ttatccccat cagactgtca gactcgtgag gagggagaag128701ggagggaggt attgttatct ctcacctcac aggggaagag actggggagg gggatcagag128761acctgatttc ctaagatggt ggcaggccca gggatccatc tgctcattcc ctaggggtgc128821cactttcttg gctgcctttg actccctgtt ttgtgactca taaagctcga aatagatgag128881gttcacattg aggacccatc acccaggctg caccctgcag gccctattac cacttgcttt128941agaatctcag gatatccata taacaggagg actcatccct cccccatatg gcctctgctg129001cacctaccct ctcaccccta agtagacacg ccaggatggg ttacggcatc cagatatcag129061gaccacagat aagcattccc ccaccccgag atacagaaaa acacccacac tgcccaagga129121agctcaccac tgagctgcca gcagaccagg taaatgcagc taccaggagg gtgagacggg129181gagggtggtg ggagtggaca gagtgcgggc agcatttcca aaggcaaggt cggggaatca129241ggagaggctg gtcagatggt acagagtgtc agtcagacag gatgaatatg ttctggagat129301ctgttgtaca gcatggtgac tccagttatt agtaatgaaa attgctaaga gagtcaatct129361taaatgttct catgcacaca caaaaaatga caagaatgtg gagtgataga tacattaact129421agcttcattt agtcatttca caatgtatat atatatttaa acatcacact gtatgccata129481aatatatata acttttattt gtcaattatg ccttaataaa gctcggaggg aataaaaaag129541taaataataa aaatgcaggc tgggagcagt ggttcacacc tataatccca atattttggg129601aggcgaggtg ggtggataac ttgaggtcag gagtttgaga ccagcctggc ctacatggtg129661aaatcccatt tctaccaaaa aaacacaaaa attagccatg tgggatcgta cgcacctgta129721gtcccagtga ctcgagaggc tgaggtggga gaatcgcttg aacctggaag Sgggaggttg129781cagtgagcca agatcatgcc actgcgctcc agcctaggtg acagagtgag actctgtctc129841aaaaaaaaaa aaaatgcata gtgcaaagaa atacagacaa ccagaaagtg caaaaagctg129901ctctggggtg aactctcagc tccattaccc taaagcacac acttggcctt gatctcctta129961tctgtaaacc tgggagaaca aaacccactt cccactgttg ttatggggcc aaaggagata130021atacatatga agtgtctggc acaggtgaga tgctcaataa Statgagctc ccttctttcc130081acctcctaca gtttccctct ccttgtgctt ttcagcaaaa aaaccctcac ctttctgaca130141ctctaagacc accagatgtg gtgagtgagg cacagctaac cccaccatgg gcatgagccc130201agggaggatg gaaacaaacg gaatctgagg caggtaacag gatggaagag gccaagaatg130261agacgcagct ggaaagcaga cgctggtgct gctccaagtc cagggtggcc attgctcctg130321gagcttcggg ggRaaaatca tggcagagcc acagtggaag ataccctgct ttatcccttc130381atttggcaag taattatcaa gcacctacta tgtatcgact ctgttctagg tgctggggca130441atgactctga agaaaagaga caaaaatccc ggccctcata gaatttatat tctagcaaga130501gagaaacaat acatgaagca aacaagtgaa accttcagtg tgacagatgg taatcagtgc130561tttggaggaa aaacagagcc aaggaggaga agttggagtg tcagggtgat gggagggggg130621ttacactttt aaatgtggcc aggaaagtgc aagcctgaag gaagagaggg agggggctac130681gctgacatcc aggcaaagac gttccaggca aaggggcctt cagcacaaaa gctctgaagc130741cggcccatct gcctggagca cggtgagcca gggggatggt aggagaccag cttggggagc130801tacaggggca ttgaaggcca tgtaggcacc tgcaagaatg ttggcgtcca ccccaaatgc130861aatggcaagc cgctggaggt gttgagcaaa gcatgatata atgatgccta catgttaaca130921gaatcactct gagaataagt gaagggggtc ggagcagatg tggggtgacc agtgaggagt130981tactgcaaaa tgtatgtcgt ctcttaatga gtttggtgct tggggaggga gctatgcacg131041atatggacag agctctgtcc tcatggtact aatattgtgg ttctcagatg tgtcctgggg131101gcagtaagca ctggggagca gtgccctgag cagggggctt ccccaccagt gaaccaggat131161ggaggccaag tggagaggct ggtgtcaatg caaagtgggc aaaggtgtga agccacacca131221gggtgagtcc acggaggaat ggctcttcaa gaagaaagtg gaccagccca ggccaagggc131281agggaaaaag atctagccac atgggcctgg cctggcatac catggtttaa caggtgtagt131341aaaagcagag aggaggcctt cccagttcat ctctgtgccc tgggccatgg gtgcctcggg131401gctgagttct gggacatagg agtgaggtcc tgcaagctgt ggttctggta aaggtgggtc131461ccacggccaa gttctaggtc atctatagac tggggccttt taaaaggcta taagacagag131521ctgggcatgg tggcgcatgc ctgaattccc agctactcag gaggctgagg caggaggagg131581atcacgtgaa cacaggagtt caaatatagc ctaaggaaca cagcaaggcc cgtctctaaa131641aataaataaa taaataaaat aaaatgaata gactctaagg cagaatgagt tgccattctg131701ggccagatgg cacacacttt tccagcgggg cagYgagctg tctgcagcaa attcattttc131761ggtgttgggg acgggaactg tgttgcRgag acccacccag cagtgcagtg tggaggtaga131821atcacagtgc ctcctcacac ttgccaagtc ctccaccctc catcccacac gcctctcaga131881ataaccccgc aaaatcacca tgacccacat ctcacagatg aaggactgag gcaggagtgg131941ttaggaaatt gtccaaaatc acacagccag tggctggagg gatctagact tgaacctagg132001cctgtgatcc ctgtttggtg cctgtcctcc tgcagagcaa ggatatttgg acagggaagg132061cccctacaac ccaaaaccaa acagccaaga tggcaacact tgggcccccc aggccaggct132121gggaaccaca agggaagcca agctcagcca ccccaggcct ctcctctctg gcggagcctc132181cctcatctgt gaagcagaga tgatgagagc taagtcatgt tctccaaggt taagatcaaa132241caccagacat gtctctttcc ctcatccctt tagaaatctt tactgcccat gtactatgtg132301ccaagcctca tgctgggtgc tagggataca gatgaagaaa cagatgggcc ctcgccgtca132361agttgtccac ctcccagtgg gcagaggtac aggtgagcag gcaatggcat aactgggtga132421tccctcagac tcacaactca tgctctacac gtggctctgc caggtcccac tgcaaaacat132481gaccgtggac actcagcagc agccgtgcca ctgtcctgcc cactgcctgc tgccagccca132541cctcctcggc cagcccaagc tcccagagcc ctgcagaaca ccagcagagc tggggaacac132601gagcagagct gaagtcacac agacttcgtc ccYcagtccc tgctcctttc ctgagacgga132661caggaaggca aaaggagcag gtcccttcca gcacgtaata gccacagcct gagtgggggc132721tgcacgccct gcccacctcg ctccagctcc ccttctcatg aggccaacca gagctgacga132781agctgccggt gcaggcctcc agatggatgg ctgcaggctc tgacactgca ggaaagagat132841aaatgactgg tcatttcccc ctgatgcact tgaaggcatc cattctccca gccgtaccaa132901gctcaggcaa cccccaccgc ccagagacag ataagcactg acagatgggg gtgggagccg132961gagcgtcctt ccccctcgga aggacacagc cagactcctc tgcaggccgg gagaaggtcg133021cgttgtccat tggctcacac ctggctcgag gctccgcggg tcccttcctc catctccccg133081ttcttgccca cccccgcctg gctcatccat ctgaagagca cacggcagag ggggaaggct133141gggggcagaa ggagccgctg acaggctcat caatctcagg ttacatgctt ggcacctcgg133201cgttccttaa gttgttcccg gattgggagg gtgtcgcagg agccaggggc actgtcttga133261ggagaagaga aatcgcaccg aacatcagag agcaaatggt ggagaagcct ggagactatt133321aaaatgtggg ccatgtacaa aagcagtagg gaactaatta agatgcagga ttttcaaaag133381ctggggaagt tggccgcagc ctgctcccat ctgtagagtt ctggcagttc agcgcagcag133441ggacagcacc ctgggtgggt gaagtaggcc tcaccacccc tgctcgagct ggccagactc133501aagtccctcc gcctggacca cccctttggg agatacccct ctgcaggtcc ctacgacttg133561cttgttggcc agcctgtggc cctctctgct ttgggacacc ttaagccact gtcgtcttcg133621gggtgcatgc cctcttgtct gagtttcccc caacgacatg ggatgggggc gatcatcctg133681gtcgttcatc cccagtcatt gaaggactgc caaaaacaga aaaaatacaa gagaaagaac133741actatccctg gctgccctcc ctcccatcac cctcggaatt cggcaagggt ggcaaagagc133801caccctgctc cccaagagtc ctggagcaga agggatcgac aaggcctcag gtgcattcca133861ggtacaggag gagcgtcaac tgtaaagccc ttttcatctg cgggtccagg ataagtgagt133921gtgtcgggcc ttcaagcaac atggcagcag ctccagcagg ctccccatag ggagcatcac133981caggatcctg gcatcaccag gatcccctgg gaaattagct tcctaattct gtgccgcagt134041ttcccaacct ctaaaatgaa gataatatct gtcctagacc atggggaccg aaggtctggg134101gttgaaagat gctaaattga tctaagcaga ctatctgggc atttacttca aggggacaca134161agtaaaagtt tgttcccagc ctttgtcttt tcttcattca aaaaaaaaaa aaaaaggaaa134221agaaaaagaa agaaagtgaa gttaaaggcc tcttttttaa tcagctggct tttgcccaac134281atctgctgtg ctcccaggcc ttctggtgga tatttactct ccacctttct cttctgccag134341ctccactccc ccttcacaag gacagagccc ttttcctggg gagatggtcc gggggaggcc134401ccttgctggc accaggcccc tgcccaagtc tttgtgttgt agaattgtga tgtctacatc134461atgaaacacc ttgcattcgc ctctgtggcc aagtgcaagc tgcagagaac actgaactca134521attgtcagtc actggggaga aataatgttg tgtgtgttgt ccttcagatg cccaggcaag134581taggaggttg caagatgttt attcaagact gactagaggg gtgacatttg gcaggagaaa134641cacataggtc cagggacact gagaacactt gcaaattcca aagagttctt cccagatctc134701aggcccttcc tatccccatg cagacagatt tttattttca gcaaataata aagaaacaga134761agagggatgg tgcatttacc acactgaagg ggtgaggaca gcaggactgg gagtcactcc134821aggagggaat aatttcaccc aggaacaaat gactcgatgt cagccaagac ccagctcccc134881actttttttg agccagggcc tccctctgtc acccaggctg gagggcagtg gtgcaatcat134941ggctcactgc agccacaacc tcgcggactt cattgatcct cctacctcag cctccctagt135001agtgtcaccc tacaggtgcc caccaccaca cctggctaat ttttgtattt tttgtagaga135061caggttcttg ccatgtcacc caggcccagc tccccacttt ccagcctgaa aggtccactc135121atcccacatg agcaaagtgc ttcgggggac tgaatcagaa aaggatggtt ctgtggcact135181gtcctcagat cttctccaac agccctcaag attcttgaac gtgcaccccc cactctttgc135241cctgacctgg tttcctgaca cagctccgca gacctgagSt cagagaaaac tctgaccctc135301gttacccctg gacttcgttg ctgaaacctg cccatcactg ctggactcag gcagggacag135361aaaggaatac aggagggaca agctgaatgt tggcataaat tttttgtgac atctcctcac135421tgtccatagg agagtctgac gtggaaagaa actcatgcct tgagacaatt ctgctccagg135481ccagtggccc ctcagtctct tgaagagcag gcagactatt ctccctcttc ccggaggaga135541tgaggacatg tcagggtgtg ctgacggcag aacccaggtg ggcttcaaca gtactaggca135601aaactagatt cctgagcatc ctctgtcaag gggaggtcac accaggaggc tgggagggaa135661gatgaggaaa agacaggcat cctcaggggg tgggtgtgga ggggcaccWt gggtgggtgg135721gttggttggt tgggttcttt ccaacataac tcagccttcc agtttccata aatttaaaga135781gatgcaaccc aggatggaca aattatcgtt cttcagcaag ttttgcccag aggattatat135841acaatgttgt acaatttgct ttttgttgtg caatttgttt tttttcgcca cttagcaata135901tatctttaac atctctccat atttttttta ctcattcttt taaaggacaa aataatattc135961cattcataga atatacaagt actatatatt taactagtcc tcatcaatgg atcttctgga136021agtttccatt ctttgttgtt attacaaacc atgccacaat aaaaaatata tacccaatat136081atattatatg catatattca tttatagaat aagttcctag caatagaatg tctaggtcaa136141agagcatgtg tgttttaaat actggtaggt actattcatt gtacctcaaa aaggtcatac136201caattccRtt gcaatgtgta aaaaagagcc tctccctcca tctccatctc tgtttccctc136261acctgctccc ctctccttgg gaaggtcagc ctcagtccac ccagctaatg atcctcacct136321cctaggaatt tgcagcaaat tctccagaga ctctggccaa tgactctatc ctgagtcacg136381cgcgaagtat cagccaaaaa actgagctct ccttgagccc aaatcaaatg gaataaaaat136441aagagatagt tattttaaaa tactgtccga gttagccctg ttaaccctcc tgagggagga136501cataccccca aaaaagggag gagtcctctc aagtggaaac tgcattttat gaatgatgag136561ggcagagcct ctggaagttg ggcaggttgt gccctcaaag ggacccccac caggtgcaca136621gaagaggggc tgagatctag ctcgtgctct actaacccac cagaaagggc atcatacgtt136681ttgtaaacgt ccacccccca gggggcacca ccctccactt ttgcacaaac aaaaccatat136741gtgctagtca aggccctgga tgaagtcact cttctgaaat tttggcctgt gcaaaaaatt136801caaatgcaaa cttgcatcac ctctgggaag acagtgggta catttctttg gctgcgctgt136861ttctcattct ctagatgggc cctggctgct tggaggtacc aggctgaggc tcgttaccac136921tgactccagg gcactccgac ggcctcttca ttcaccaccc gcagctgcag gctggcatgg136981tggtacattc tgggagccag gtgcagcccc ggctgttcag actcagaaga ggattgggaa137041atgacaagca tctgccctag ggtttgtggg ggttgtttct gtgtttttag Yaggcctagt137101agtaggtctg tttacccaaa gaggggaaca agttcctctg agaaggtgct ctgccatgtg137161acagtcacgc attccagccc cggctgttca ttgcttctca gcatctgggg gctggtgtgg137221aggaataagc ctgccttggg ggaacccaac ttttcccccg agggcggata attgcaaagg137281ccagcacctg tctctgcaga tggggtcctt ccccgggacc ctgcccatcc ctggggtgga137341ctttcaccac tggaaacctg gtctagccac ttctgcctca tgcttgggca gaggctgaag137401aagcctctca aatgatcaca gatacaagac gccatgtgca ggtggggact tggctatggc137461aaaccgctag ccctaggttc ttcctttccc ttcccctcRc atgttacggc aggcccgaca137521acggggcatg gccaaagcag gctgtgaact cagctgctcc acgttcaccc acaggccagg137581cataaacact ggcaggcccg tgtgcccaaa gtaaatgttt ttaggcagaa ggcacaaaca137641ctcaagaaat agctgcctgc ctcagtccca ccaacatggg ctcctcagat acatgagcag137701cacaRcaaat tcttcttggc tctgtMcaca gtctgatttc tctcacctct aaaatgggct137761cacaaccctc ttacctcttc cttccctctc taccttccag ggctatggta gggaccaagg137821agctgacatg aaagaaaatg ctgcatgaac tacagcatgc tcttcggact ctggttatga137881tgatgatgat taaccagagt gtcccatccc ctgggtggca gcaattggtt gtgggggggt137941aatRacccca gccagctaat ctgtccttcc taggtcttct ctgccacagc tgttgagggt138001gactgccttt ctgctgggtg tggtatgtgc tgagactgga gctgctggca gccccctcac138061ttaccctatg aggagaagag agtgttaaag gtacagagag actggctggg tgtgatggct138121gatccctata atcccagcat tttgggaggc ccgaggcagg aggattgctt gaggMcagga138181gtttgcaacc aggctgggca acatagtgag acccccgtct ctaNaaaaaa aaaaaaaaaa138241atagctaggt gatatggttt ggctctgtgt ccccatccaa atctcatctt gtagctccca138301taattcccac gtgggaggga cccagtggga gatgatcaaa tcatggggga gggtctttcc138361catgctgttc ttatgatagt gaatgggtct cacgagatct gatggtttta aaaacaagaa138421tttctctgca caagctctct ctttgactcc tgccatccat gtaagatgtg gcttgctcct138481ctttgtctcc ccagccatgt ggaactgtaa gtccaataaa ccagtttctt ttgtaaattg138541cccagtctca agtatgtgtt tatcagcagt gtgaaaacag actaatgcag taaattggta138601ccagtagagt ggggcattgc tgaaaagata cccgaaaata tggaagcaac tttgcaactg138661ggtaacaggc agaggttgga aaagtttgga cggctcagaa gaagacagcg aaatgtggga138721aagtttggaa cttcctagag acttgttgaa tgactttgcc ccaaatgctg atagtgatat138781ggacaataaa gtccaggtta gggtggtccc agatggagat gaaaaatttg ttgggaacta138841gagcaaaggt gactcttgtt acattttacc aaagagaatg ggggcatttt gcccctgccc138901tagagatttg tggaatgttg aacttgagag agatgattta gggtatctgg tggaaaaaat138961ttctaagcag caaagcattc aagaagtgac ttgggtgctg ttaaaggcat tcagttttat139021aagggaagca gagcataaca gtttggaaaa tttgcagcct gacaatgaaa tagaaaaaaa139081aaatccattt tctgaggaga aattcaagct ggctacagaa atttgcataa gtaatgagga139141gcccaatatt aatccccaag acaaagggga aaatgtctcc agggcatgtc aagggtcttc139201acggcagccc ctcccatcac aggcctggag gtttaggaga aagaaatggt tgtgtgagcc139261aggctcaggg tccttctgtt atgtgcagcc tagggacttg gtgtcctgtg tcccagctRc139321tccagctgtg gctgaaaggg gccaacatag agctcaggct gtggcttcag agggtgcaag139381cctcaagcct tgacaaattc catgtggtRt tgagcctgtg agtacacaga agtcaagaac139441tgaagtttgg aaacctctgc ctagatttca gaagatgtat ggaaatgcct ggatacccag139501gcagaagttt tctgtagggg tgaggtcctc atggagaacc tctgctaggc agtgtgaaag139561ggaaatgtcg ggtgggagcc cccacacaga gtcccaMctg gggcaccacc tagcggagct139621gtgagaagag ggccaccatc ttccagatcc cagaatggta gatccactga cggcttgcac139681cttgcacctg gaaaagccgc agacactcaa tgccagccca tgaaagcagc caggagaaag139741gctatactct gcaaagccac aggggtggag ttgcccaaga tcatgggaac tcacctcttg139801catcagcatg acctggatat gagacatgga gtcaaaggag atcattttgg agttttaaga139861tttgactgcc atgctggatt ttgaacttgc atggggcctg tagccccttt gttttggcca139921atctctccca cttggaatgg ctgtatttac ccagtgcctg tacccccatt gtatctagga139981agtaactaac ttgcttctga ttttacaggt tcataagcaa aaggacttgc cttgtcttgg140041atgagacttt ggactgtgga cttctgagtt aatgctgaaa cgagttgaga ctttggaaga140101cggttaggaa ggcatgattg gttttgaaat gtgaagatat gagatttggg agggggcaag140161ggcagaatga tatggcttgg ctctgtgtcc ccaggcaaat ctcatcttgt agctccccta140221attcccacgt tgtgggaagg acccggtggg agatgactga atcatggagg tgggtctttc140281ccatgctgtt ctcattctag tgaatgggtc tcacaagatc tgatggtttt aaaaacaaga140341gtttctctac acaagctatt tgcctgctgc catctgggga agttgaggct gcagtgagct140401gtgatcgtgc cactgcagcc agggtgacag agtgagaccc tgtttaaaaa aaaaaaagaa140461aagaaaagaa aaaaaNgtaa gaaagagaga gagaggtaaa gagagacatg tagccctcac140521tacgctcact atgcttgagc acctggatgt agctatgcct gaagccagat aaaccctggg140581atttactggt acatgagcca actttccttt ttctgcttaa gatagtttga cttgagcttc140641caatgtttat gactaaagga attccaacta tctcttggtt attttaataa tttatatatt140701agttttatga tcataaaata aagtttttaa gagaagaagc ctggctaaag tttctttaag140761ttagtatacc tatcaatagt atgaggaagc agaaaaagta ttgaacaRgg aaatcaggca140821acctagattc tctgctggac ccacaaaaat tgctgtatga ctttgaacaa gtttcttaaa140881ctgtctagac tccaataaaa taaagaatca gagttagtga tatctaaggt atcgtatagt140941gctaaaagtc tttgcttcta taaaagaaga cctaattagt ctgatataaa ttgttcttaa141001ccaagacttt ttatagaaat gttaagaata aagactaata atttaaaaca tgtcaagcac141061ttataataaa accctttaaa ttgacaactt acatatgaga cgtcctcata tatacatgca141121aaatattcat tgcatcactc actggttaaa ttggaaaatt tagaaacaaa aattgagaac141181agcccggtta gacaaattca tacaatggaa tattatgtaa ttacaaaaac gaaatgaaga141241aactttatat tttgctgtgg acaatatcta aggcacattt ttaattgaaa agtgcaaaat141301ccaaagtggt tgtgctgtgt aaaaagagga gggaaagtca gatagattta attcctggtg141361caWgcatgga ttatctcttg aaagaatctc aaaaaaaaaa aaaaaaaaaa aaaaaacctg141421ctaccactga ttacctttgg agagactggg tcttattttt catgatacag tatatccttt141481tatcttttga atgtcaaaat atgtgactgc caggcacagt agctcctgcc tgtaatctta141541gcactctggg agaccgaggc aggaggatta tctgaagcca ggagtttaag actagcctgg141601gtagcatagt gagaccctgt ctctacagaa aagacaaaat tagccagaca tggtRgcatg141661cacttgtagt ccccacacac tgaggaggcc aaggtggaag gagtgcttga gctcaggagt141721tggaggctat agtgagctca ttgcaactac tgcacaccag actgggcaac agagcgtgac141781cctaccctct aaacaaaaat taaaaaataa aattaaaaaa actgtacatg taactgtatt141841acctactcaa agtcaaataa attttggaag tttttaattt aaaaattaca taaggctttt141901ttggtactta tggtcatgtc agggtgacat gtagcctagc tacctgtaag tcttcgagac141961cagcatttct cacacttcat cgtgcattct gaggatgcac tccaggggat cgtgataaaa142021tgcaggttct gatgcagcag gtctggagca aggaccaagc ttctgcacgt ctgacaagct142081ccaggtgatg ctgccgctgc aggccaggac cgcactttga atgtaggtct agaaccacac142141tgatcaatac ggtcaccact agccacctgt ggctactgag tgcttgaaat gtggctagtc142201caaaaagaga tgtggggatg tgtaaaatac acaatggaat tgaaaaagag tatcaaaaaa142261gatcataaat gattttatat cgatgacatg ctgaaatgat gtttttgata tgttgggtta142321aatggaatat attattgaaa ttcatttccc ctgtttcttt ttcctttttt taatgtaacc142381actagacaaa gtaaaacaac acacatggct tgcattatat ttctattgca tcatgctgtc142441taggagaacc tgatctccta caacctgcaa caaggcaggg gttgggacaa ccttgtcatc142501accctggagt atttgcaagg gtctgtaaat tggtataagg acactggaga cttgggagag142561agcacattga agaatctggc acccactcac ccctaacaaa taaaacttct atttaagtga142621aatacggatt gaagcgaaca atcaaagcag tcgtaaccct ggaactgtag gtagagcttt142681tgcagagcag agtcagccta agggaccagt gttgMaagga aggagtgagg tacctttgcc142741aggcagccag gcttgacagt ctgcaatgct gtggtgacag tgggaggaag tatgtcaact142801ctacttgcac cactgaacag cactgtccct accaccctga gtcacatccc agcctggcac142861cctcaaaaac aaagatgcgt ttaaagctaa gggcctgggg taatcacttg gcttgctgca142921acacagacac aggtctgaag acagccaaat agtcagaagt gtaatattag atcagcatag142981gccaggcatg gtggctcatg cctataatcc cagcactttg ggaagccaag gcaggcagat143041cgcttgaggc caagagttca agaccggcct ggccaacatg gtgaaacact gtctctacta143101aaaacacaaa aattagctgg gagtggtggt gcacatttgt aatcccagct actcgggaag143161ctgaggcagg agaatcactt ggactcggga ggcagagtct gcagtgagcc gagattgcac143221aactgcactc cagcctgggc aacaaagcta gaYtctgtct caaaaacata tatatattag143281attagtatag acataacgcc accaattcct tctgtgtggc cacagagcaa tctgcatcac143341acgggtaaat tgtaatctca aactcttcca tcctcatcca aggtaagtgc aatttttagt143401gaattggccc ctttttgtgt aagatgctcc aaagctcata cagggtaagg ggtagagggt143461ccacggtgta ttatcttctc cttagaaaca tacaaactgg gccaagattt ctttacttga143521ggccacaaga aaagtatcac atgacccgaa agagctgcac atccttcagt tctgttggga143581aattcatcct gcacctgggc tggggtgcag cctttctttc ctccctgggg tggcaaaggg143641aaggcatgag acacccagag gggagaaaag ctcaggtgga cacgtggtca tgtttctact143701cagcaggcac agaggtgcac ccttaagcat gatgtgggca tgttccctct cccagaaaac143761ttagctctat ggacaaagga gcaaaccaac cttgtcctgg gcccagccca gtcctcccac143821ctttcccatc acagacccag ccaagctcca gagggcactg accaggtttt atctccagca143881gccgcagttt tggatcttca ggtgggtgca Rtcgtctctt cttgcgccag cagcgggcag143941ggtatgtata cagctggccc ggggcaaggc ctgtggacag agacaatata aagattaaag144001gctccaggct ggaaggggcc ttggaaacta ccctgactaa cccYgtcatt cacaaggaga144061ggaagctgaa gcccagagag aagtgacttg tcaacatcac aaagctgatt gctagtggtg144121gcaaggctga atctaggtca tctgacccca ggaccctggc tctgtcagct ccaccatgct144181gttcagcaag cccatgccaa cgagagccat tgccttcacc aaaaccaatt ctgctctcct144241gcctggagag atcaccaact ggaccttcag acaagaagga cctttgcagt gtctccaaag144301cagtggatct ctatccactg cccctctatc ctgatccagg ttaagcaggt tcccttcaaa144361acggagcagc agtcagttgg cctactgtat ggacagcctg ggttgagaag catcgcaaag144421agacagaacc aaaaacacta gatctactca aaggcgtctc ccacccactc ccagctgctg144481gcagctcact gtaggcaaat ggaggcttgt gtagccccca tgagaacata aacccactct144541ggtgaccagg ccacatgacc tgcagagccc gcacacctct atatccccgc ctacatgcct144601gggccttaca aaaaaaaaaa aataggcagg aggccagggg ctgggcttac gtgccaccct144661gtgtgtgtgK cctttgacac caacagcatc actgtcatgc caagcaccat gaggagcctt144721cctgctcacc cgacaacaat tgtgtgtggc tctggtggca gccacgggcc ttagaggaac144781agggacttct ccatgccagg tcacagacta ttcccaggga aatggggcgg ggaagaggct144841gaggggtgag gaggcaggta tttgagactg gctaggtaat tttcagactg gctaggtgat144901ttgtagtcct gaagagagtg tctgataccc cccataataa accagcaagc caacaaatcc144961Ytaataggaa gaaaagccta atgaagacag ggactttttt gtcttgttct tgtcagaagc145021cccagaatca gaactgtgcc tgacacagag cagaaccaaa ctaaatactc attgaattaa145081tgaatgaata tattgcagct tcctttaaaa tcacaactct gtcttctgca ggtaaatgtg145141gcacatggca gctgttggac gcaggcggcc taccacaaaa gtgtcactgt gcacacctag145201gaccatggat tcagaaaaca tcagcacctg attcccatct gccgtcttcc attttagggc145261ccttaaaagt taagaaggga aactggcttc atttttcacc tttgcagaga aaatctatgt145321aactttcatt gctatatact cattcattca ttttcatttt taccagtcaa ctctacccat145381ttattgggat ggggccaaaa caaagtcaat tatcccagca ttaaaggaac caaaatactc145441aggtctcttt atgtttaatc acacagctgc tccacaggtc acaagattgt gaacaagttg145501gaggttctga ccaccccacc cctttggttc ttagaaacta gaactgacct ggactcagaa145561atgtcagaat tgaatgacca ttggccctgc tgttcctggc tccaggggac tcatccaccc145621agatccaaag catccaagag ggactccaga agtggaggcc caggcctgag gccagagccc145681cctgcacccc ctctcccacc atggccatct ctgggcctta ggtttccttc gttccccagt145741ggctgcttta cggtgcttcc aacctaatca aacacaggta agtaagagtg agctggcccc145801caccagcacc ctccaaaggt ctacgtggca agagtgcaaa agtgtccaca cttgtccagg145861tcctacaccc tccctgagac agcagtcact gtgcttggtg gtcagcggta ccagagaagc145921cccaggccac tctgcttgga gctttagacc cattcttctg ggagaattca ttttagcaac145981tagtttgaat ctccagaaga aggggctgtt tttgttccat tctttctctg ctggattgga146041gacactctgc agtgcaaagg aagagcacgt gagtcctggg aagcatccta acacctttct146101gagcctattg cctcacctgt aagataaggg cattgataac attaatacct acctcctggg146161gctgttatgg ggatttgctt atattcaaga gaaagctctc tatatccaca aagatgacaa146221atgtcagttg ttaattgtca tgagttagct gacctagtct tggactccac actcatgcaa146281catgacagac cccctgcccc atccaccatg ctgccacttg gttctttagc catgaaggtg146341gaaacaggct tctttttgat gtctgctttg aatccacctc atcacaacaa gcaaatggtc146401gcaagagctc tcttggagct ccctggcccc ttccttgccc tcctcaacag gctgacaggc146461accagggttc ctttatagga aaaacacgtt cagccctgga gttccactta cagagggaag146521agcagggccc catgagactt atgttgttta tctcagaaca ggaggcagat aactcaaagc146581atgtgtgtgt gtgcatatgt gtgcgtgcat gtScatgtgt ggtagatgga ggtggggaag146641gaggatggag tcacagctgc tgtcagggaa attaaccttg gggagtgagc ctagggctgg146701ggaggggaca tgaaggaggg gaaacaagtg gccaaagaca agaggggaaa ccagtcctcc146761ctggtaacca aggccactgc cacccctcac ttcacatacc ccactgagca aactactttt146821ctgttacttt gagctgcaac tcgagctaca acattcctgc ccatgtgtaa gcacaaatgt146881gatgcacaaa gacacacaca cacaatcaaa aactcacaca cttgctggga gaactggctc146941catggaaata cctggcattg aaaggcttga tgcctttatg gttagcagac tccagacaaa147001tacagctggt tatgcacatt gcacaagttc agcaggtgga tcctgagggt tctgggcatc147061tctcacagac aaagcatgag ctattcagaa tttagaagat gaaatgggag agaaaagaga147121gggaagagtg gccgggtaca gtggctgacg tctgtaatcc cagtactttg ggaagccaag147181gccagcagat cactgaagcc caggagttca agaccagcct ggccaacatg gtgaaacctc147241atctctatca aaaatacaaa aattagccag tatggtggcg catgcctgta atctcagcta147301ttcgggaggc tgaggcagga gaattgcttg aacccaggag gtggaggtta taggagctga147361ggtcatgcca ctgcactcca gcctatatga cagagcaaga ttctgtgaaa gaMagaaaga147421cagaaagaaa gaaagaaaga aagaaagaaa gaaagaaaga aagRaagRaa ggaaggaaRg147481aaggaaaNaa agaaagaaaN gaaaaaaaga aagaaagaaa gaaagaNaga agaNaagaga147541agagaaaggg agagggaaag agggggagag agggaaagag ggggagaagg ggagagaggg147601agagaggaga gaagagggga agaaggggag agagggagag agggacagag ggggagaaag147661ggggagagga aggaaggaag gaaggaaggg aggaagggag agagggaggg agggagggag147721gggagaagaa tgatatggga taggaacagc aattgaaatg gggaagaaaa aaactgaagt147781agtttcatct ttccccatcc agagctgaac tgtggcagtt caagcccccc agggaaaggc147841tctctctctg caggatctca gagaggtgga cccacagctg cccctgaaac ttcctttcaa147901tggagaattt attatgtcac aggacacagt gtcccactgt cggccaactc ttactgtgat147961aaagagattc accatgacct tattttgaat caaaatctat ctccctataa gttataccaa148021tttgtccacc ctctgttcca acagcaaaca gctacatccc aatcctgcat cccatatatc148081tgcttgggtt tgaagggcag ctaaccaaga agccgaggaa ctaaagagga ataagagttg148141taggaaagag ttagtgacta cccctgctca gaaccgggta acaggatcaa agtttccaaa148201tagaaaatga caatacaaca atttaaaata caatttaaaa aaatacaata taatacctat148261ttacatagca tttacattgt attaggtatt ataagcaatc tagaaatgat ttaaggaata148321tgggagaatg tgtgtaggtt atatgcaaat actatgccat tttatataag ggacttgagt148381acccacagat tttggtatct tctggggtcc tagaaccaat tcccagtgga tactaaagga148441tggctgttat gtatataaca tactatcatt tatttaacaa atggggatac acacatattc148501agacaaatat atgtgtgtgg tgtgtttgca tgtttttttt tatgggggta taagccaaaa148561gctaaaaaaa attacctaga gagagagcaa aaataaaata atagtagcaa gaaaaagaga148621aggacgaaga ggaaattgcc tatacgaaaa agaaacaggg taaaagtgaa gatacagtta148681gactttctca taatatacca ttggaacaat gcaaatattt tacacaatta taaagtaaaa148741ttaaattaaa ataaaaagca tacatccgtt tctgactaaa atggagtata aagaccagat148801ttagctccca cctaaaacca aaagagagga agaaaaaaat caacaacagt tttgaagaca148861atgaacatca ggcattgaag gacagtgatc cctgagacac tgaaaacaag caagataagc148921cctgtgattg ccccagctta cagccttaag agagtctcca gactggaaca caaggaggag148981gaatacaggt ggagacctgc agattcccca cgtttgagtt gaagagaaaa tgccaagagt149041ctgaggagac cacagtgact agaacccaag gaactgaagg gtaaacaaaa gagagctgca149101cagagaatgt ggagatccag agggtccctt tcaagtattc agcttagcgt tgatccattt149161atgcctgtga ggaaactaga taggactggg aaaagaacta cccaaaaaga ttagaggtaa149221cagcgctcgg tgtgcacaag ggggcggaaa tagtctgttt ccaccagcca atatggaaaa149281ctgtatgatt cccggggtac tgggtagagt acagtagaaa gatcttgcct cactaatagg149341gaatacttag ccctagacta agtactgctc tggctccacc taacaaatct taaaagcaag149401acaagaaaac atcaaactgt tttcaaataa cttaaatatg tcccaaaaca atgttcaaga149461acatttatag gaataaaata tatctacagc attcagcaag gtaaaattca caatgtgagg149521cacccaaccc aaaattacaa ggcatgtaaa gaagctggaa aatatgactt atMataagga149581gaaaaatcaa tcaattgaaa ccaacccaga actgaaactg atattagaat tagtagcaag149641aacattaaaa cattatttgt atgctctgtg ttcaagttta gtaaaaattt gggagataca149701tatgtatttt taagactcaa atttaacttc tagaaatgaa aactataatg tgcaagatga149761aaatcatatc agagggagtt aatgtcagat tagatattgc agaagaaaag acagataaac149821ttgaaaacac agcaatagaa actattccaa aatgaaaccc acaggaaaaa acagaaaaga149881aaaaaaaata atggcataaa tgagctgtgg ggcaacttca aacagcctaa tatatgtgta149941attgaagaaa gggaagaaaa aatatttgta gaaataatgg ctggaggctg ggtgcagcgg150001ctcatgcctt taatcccaac actttgggag gccaaggtgg aagaatgcca taagcctggg150061agtttgagag cagcctgggc aacatagtaa gatcctgtct ccacaaaaga gagagagaga150121gagagagatg aaagagagac agagagagac agagaaaggg aggaagggag agagggaaga150181aagggaagga aggaaggaag aaagaaagaa tttaaaaaga aataagggct ggaaatttct150241gaaatttgat gaaaactata aacccatagg tctaagcagc tcaataaagc taggtacaat150301aaacattaag aaaactacag caaagtatgt cataatcaaa actgctcaaa aatagtgata150361aagagaaaat attaaaagca accagagaaa ggaaacatgt taacatatac aggaacattc150421ttatctttgc aatgcaagca agaaaagagt ggttcaacat ccctacaata ctgaaaggga150481aaaaaaaact tgtcaaacta gaattctata cccagctaaa atatctttca agaactaagg150541caaactaaag atagtttcag atatacaaaa gctgaaataa ttcatcatca acaaacccac150601actctaagaa atgttaaaaa gaagtacttt aggcagaagg aaagtaatac cagacctaaa150661tttggatcta cacaaaggaa tgaacagcat cagaaatggt ctagtacatg aataattata150721cgagatgttt ttcttattat tttaaactca ttaaaagatg atcaactatt tttaaaaata150781caatgatggc cgggcgcRgt ggctcatacc tgtaatccca acaatttggg aggccaaggc150841aggcacatca cctgaggtcg ggagttcgag aaccgcctga ccgacatgga gaaaccccat150901ctcgactaaa aatacaaaaa ttagccaggc atggtggcgc atgcctgtaa tccatcaaca150961catctactct gactctgaac tcctcctgcc ttccttttat aagaaccctt gtgattacat151021taggcccacc tggataatcc aagattatcg caccatctca aaatccttaa tcctgtcttc151081gaagtccctt ttgccatgta aggtaacata cgcacagatt tcagtaatta aaatgtggat151141gtctgaggtg aggaggggcc ttattctatt aatcacagta ctattgtaga ctccttatac151201tattcatgaa atagaataat ataatttgaa agttaactat aattaaagat gtacactata151261aacactaagc aatcactaaa ataacaacaa aacaagagtt atagttaata aaccaacaaa151321aaagagagaa aacataatca cattaaatgt aaattgccta aataccccta cttaaaaaag151381attgtcagat tacatgtaaa aagcataaca caactatatg ctgcctatta aaaaactact151441tttaatataa agatgcaaat aggcaagaag taaaagaatg gaaaaagata 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ataaaacaga154021actgagagtc cagaaataaa cacacatata tgtggacatc taatttttga caagccaatt154081aagtggagaa agacgagtct tttcagcaaa ctatgttgaa acaattgaat atccatctgc154141aagaaaataa actaatgcat actttgtaYc atatacaaaa ttaactcaaa atgaatcata154201gacctaaatg tgaaacctaa aattataaaa ttttaggaaa aaaaaataag agaaaccctg154261accttgcatt aggtagtaat ttctcagaca taacatcaaa agcacaattc atgaaagaat154321aaattgataa actggatttc accaaaattg aaaacttctg ctctttgaat gagactgcta154381agttaatgaa aatacaaacc acagattgta aaaaaaaatt tgcaaagcat aggtctgata154441aacttattgt atctagaata tataaagaac aatcaaaatt caataataag caaatagctc154501aattttaaaa tggacaaaag atttgaactt taccaaagaa catatatgga tggtgtaata154561ttgtgatata atgagaaatg tatattttgg tcttaatccc cacttcctgg cacacagttc154621ctaaaacccc tggcatctcc aagtgatgtg tctttttata tgctaatgag atgaccctgg154681ctgggacctg ctggatagcc tctggataag ggattataaa cagcggagcc aaccacaaga154741ttagcaggct gtacctttta gccccaactc taacttccca cctctgacct ccaggaagaa154801aagaggcact agtagttgag ctagtcacta atggccaatg atttaatcaa 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acgcacgctg162421cgctctgcac acagccgtga gttgtaactc cggcagtgct caatggcttc cttgtagaac162481tggtccccga gcctgccaga gtcagagagt gaaggggtga ggccagggaa gactgaaaca162541cacccagagg gaaacacacc cagagggaaa cacacctccc tggaaagact gaagacctcc162601cagttatgaa gaccaaggca atgagcacca agagccttgc caatgagcag aatgcaactc162661aatgtcaggt cttgactaga ttttattttc tatcccaaat ccaccaggca acttagaaac162721tcctttaaca aagagcatgg gcttccaagg atgaatcacc agtaagagag agctgtccat162781gttctaggaa gcatgaggtc ccactccaga agggaagtag ctctggaaca accttctgca162841tggaatctag aggacatcac acttctagaa cctcctcact catattagct acattttatt162901ctcagaggtc accagcaaag gcactctagg tgaacccaaa tcaccagcaa agatactcag162961ttttccatta caacagaaga gaaacactcc atataaacaa aaactaggac agaaaaaaca163021ttctataaaa gtagggaaat tgcaggaaga agggggtgta gaggaacagg caccaatctt163081ttaaaaccat attacttaaa gaaaaataac tttccgatag aaaacaaaca gaattcaaca163141attttaaatt caaaataatt caactcatgg agtttaaaaa acaaatagaa agacctttct163201ggtttgctag actgagaatc tgattaagca cagtatattt tacgttcctg actctttggt163261atttttggac acgtggtgat gctactaatt ttaaggtagt gtccttttca aagaccaaaa163321atggagcatt gatataattg atcaaatgca aagcactaaa ataatcaatg agatcaaata163381cctaccaaat aaaacatagg cacaggttaa taaatgcctc aaagaaatac aaatgtaata163441acataaStta tgccaggtaa attcaagcct cttactggRg tcggggggca gtggacgcaa163501aggagtggag tgtgggaaga agaagtagga agggaaggag ccacagagtt cacaggggca163561aaagggagaa tcaagtgttt attctgaagc aacattatga tatctttttg ttttggttct163621atgtagattt cagaaagcca aaatgagagg ggaagtctct aaaaatatca tttcttaacc163681aaagtattta gaggaataaa aaaagcaaaa ttggggtgtt gggttttttg ggtttttttt163741tttttttttg agatggagtc tcactccgtc gcccaggctg gagtgcaacg gtgcgatctc163801agctcactgc aacctccacc tcctgggttc aaacgattct cctgcctcag cctcctgagt163861agctgggatt ataggtacct gccaccatgc ccggctaatt ttttatattt ttagtagaga163921cagagtttca ctatattggt caggctggtc tcaaactcct gacctcaggc gatccacccg163981cctcagcctc ccaaagtgct gggattacag gcgtgagcca ccatgcctgg cctcaatttc164041ttaattgtgg taaaatacac ataacataaa atttcccatc ttaagtgtac agtttaagtg164101tacagttcag tggcattaag cacatgcata ctgttgtacg accaccacta ctatccattc164161ccagaactct tttcatcttg caaaactgaa acactatacc cattaaacaa taactccccg164221ttccgcctct gcccccatct ccagcaacta ccaatctgct ttctatctct atgattctga164281ctactccaag tacttcataa aagtggagtc atacagtatt tgtctttttg tgactggctt164341atttgactta gcataatatc ctcagggtta acctatRtta tagcatatgt cagaatttcc164401ttccttttta agtcagaata atattttaag tcagaataat attttttaag tcagaataat164461attccattgt atgcatatac cacattttgc ttatccattc atctgtcagt ggatatctgg164521gttgcttcca cattttagct attctgaata atgctgctat gaacatgagt atacaaatat164581cttttcaaaa ccctgctttc aggctgggcg cagtggctca tgcctgtaat cccagcactt164641tgggaggctg aggtgggtgg atcgcctgag gtcaggagtt cgagaccagc ctggccaaca164701tggtgacacc ccgtctctac taaaaataca aaaattagct gggcctggtg gcagacgcct164761gtaatcccag ctactcaaga gtcgcttgaa ctcagaaggt tgtggtgagt tgggattgtg164821ccactgcact ccagcctggg cgacagggtg agactctgtc taaaaaaaaa aaaaaaaaaa164881aaaaaaaacc tgctttcagt tcttttaggt atatactcag gagtagaatt gctgagtcat164941atggtagctc tagttttcat tttttgagga accaccatac tgtttttcat ggcagctgta165001ccattttcca tttctaccaa cagtgtacaa gggttccaac tactccacat tctcatcacc165061acttgttaga aagcaaagtt ttaaatgcac ttttctatac tctttttaaa aagtcaacgg165121gtcaggttct aacaaagagc ttaaagcaaa tatcttactg tgggaaaaca caaccctgga165181agcttctgag gcatcatttg gaaattactt gttgacaagc atccaaaaaa aaacaaacaa165241caaaacaaaa accctttgct cctttttcac ctctgaacat cttcacattc ataagggagg165301cataatacgc tcagaaagtg tcctggcagt tgcaaaacca aactgtaatc aaattgtaat165361agtcacgcag ctggaaatga attggggagg ggagatgaaa gcccattaca atgctataaa165421actgaatggc acataagctg atgtaatcaa agctggtaac aaggatcatg agattgatca165481aaaataaaga accacttttt acaaagtgtt tgtgtcacac cagcttaaat gcttccttct165541gctatggcga tgtagctcag tggaacagaa ctttcacagg cagcttggcc cagacaagat165601gacccaggct gttcagggta tcctggatgc tccagccccc acccatgaaa cagcaagcag165661ccataccaca tcgatagaga actgacaaga acatttgaca gagaggtgtc caacgtgaga165721gcagcaatct gttttcccag gaccttctga cagactgcca aaaaaaaaag atgttaatta165781tcccaacctc agaaattctg ctgaaaagag aacccataaa atcaggcccc ccaaaaaaac165841aaaatgaaaa attgtatagc aaaactcatc tactggagat gatcactttc aaaataaatt165901tctggaaacc aatacaaaag aaatctacac agtaggattc caaattggac ttgtcctaat165961atgctagtaa ctcacttcca acagcgtcaa tccagacaag aggaacaaga aactgaactt166021gctaaaaatg caaagtgagg ttggccaaca ctggtgctcc acaccaactg gatcgagaat166081gtcaaacaaa gtggcacact gggcgaaaat taatttcatc ttaaatactt tctactttca166141taacatgcaa tgttattagt tacaagcatg ctgggggaaa atgtatattt ctaaatataa166201tctttgtgtg aatgatacct gtcttatgta aacagaaaag actttctgtg gactggaaca166261actgtattaa agatcgaagc tgcaaaaaca tgacattcaa cagcccctct accatcatct166321ccagggaRgt ccttttaaac agaccaggtg ttggcagaga Ytcggaacca aaatttaaag166381cctttttcaa gatataagag gagaaaagag atttcatcct ccctgataaa ttcaagaagc166441acttctccaa aagttaatta gccaaaatcg tcacagggct tgctatgctc tctagaagaa166501aatcaatgac tagttctccc taacccgtag aaagcaattt aaacagcaga ggacaaatgt166561cctttccaac atggtatttc tgccaaaaaa aaaaaaaaaa atcccacaat gatgggatcc166621caggagtgac atttacatta aagttgaagg cgtcagatgg agcagggaaa ggctggcagc166681aaatgactca tctgtggagt ggtgaccagt gtaccctggg ttggatcaca catgggacag166741tcccagccat cacctgcatg caccaaactg agggggctgg atccccaagg gatgattgat166801gtcttaggct agaggaagct ggcacaaggc agggtagaat gatgttctta tcaacaactg166861acttcaggct actcaaggct gcaatcagaa ataggaaagg caagggaaac aaattgctgg166921gctccccagg ctccccagac agcattctgg ttgcagcagt gctggctgcc tagttctagg166981gggctttgtg agtgatggag gtMcttctgt gatcccatct gaattgagaa gccagMccag167041ctctgagagc tgagtgtttc tacatgagat ttccagcaac cctccttgag cctatctgtg167101gagatggact ccagggggcc aaagaagact cagaatggga aagatgagac ttctccaaag167161tgactgccaa ccaggctcca aatgtgattt ttcagagccc atcaatcaca acccctctaa167221gaccctctgc tcctcttcct ccaacctcct gctctcaaga ccacacctgc ttgctccgat167281ttctcagatc actctcaggt ccagccagac acctgggctc ctccctttca ctgtctctct167341ggttctgtgc tctgacctga ggacaggtgt cctgccatac cagaaatgtg agtccaatag167401caagtttctc atcttctgcc agaagcctgc tcccgcccac tcaagtctca atcctcctag167461gggcgggggt gggggtgggg gccgaggcta tgctgccctc cctctcccta gcaacttggc167521cttgactctc cccttgcctt caaaccatct ggaactgagt tatttcattt atcaggaagt167581cgtcctttct ctccactccc cctgtgtggc cccaagtccc ctttgctgtg taaacaggac167641cttggcccat cactactatc tgtgcacaga agcagagata agcagagctg aagagaagcc167701ctggcctgtg gcaggattgt gggggctctc cttcccccag aggcgcctct tcctcactRt167761gggcaccaag ttttcctgct gtctcactca gctgttcaca ccgccagagc cgcccacaaa167821cacacacgRa agctcatcta caccaatatg ctaacttcct gctatttgca tttaaacatg167881tttaactcaa actgttcatg gaaagctccg tctcccattt agtcttttag aataactggc167941acacaggggg caatatctgg caaggtgcgg gaaagttttt attttccttg aagtggtcct168001gttcctaatg catctcttga aagaagacca agtttagtgt ttgttacaga ctgaattgtg168061tcgttcctcc tcacagaaaa aatccacatg ttgaaggcct aaccctcaat gtgatggtgt168121ttggagatgg agcatttggg aggtgatatc atttgatatt tacccctgcc caaatctcat168181gttgaattgt aatccccaac tctgggggtg gggcctagtg ggaggtgttt agatcatgtg168241ggcacatccc tcatggcttg gtgctgtctt cgtgatagca agtgagttct tgcaagatct168301ggtcatttaa aagtgtatgg tgcctccctg ctgactctct ctctcttgct cctgtttttR168361tcatgtgaca tgcctcctcc ccctttgcct tctgccatga ttgtaagttt cctgagggct168421ccccagaagc caagcagatg ccagcactgt gcttcctgta cagcctgcag aacgatgagc168481caattaaacc tgttctttat aaattaccaa atctcaggta tttctttata gcaatacaag168541aatggcctaa tccaggaggt aatcaggtca ggaggatgga gMcctcatga tgggattagg168601gcccatataa ggcagagaca tgagcaagct ctctcactct ctcaatctct gccatgagag168661gacacaaaaa ggcagctgta tgtgagctat aaggaggact cttacctgga atctgaccct168721gctagcaccc tcatcttgaa cttcccagcc tccagaactg tgacagacaa ttatttaagc168781caggggtccc aaacccctgg gccacagagc agtaccagtc catgcctgtt aggaactggg168841tggcacagca ggaggtgagc tgtggggtac aagtgagcat tgctgcctga gctctgcctc168901ctgtcagatc aatggcagca ctagagtctc atagaagcgc aaaccctact gtgaactgca168961catatgaggg atctaggttg cccactcctt atgagaatct aatgcttgat gatctgtcac169021tgtctcccat caaccccaga tgagactgtc tagttgcagg aaaacaagct cagagctccc169081actgattcta cattatagtg agttgtaaaa ttatttcatt acatattaca atgtaataat169141aacagaaata aggtgcacaa taaatgtaat gcacttgaat catcccaaaa ccatcccctc169201cccgacccca gtcggtggaa aaatgatctt ccatgaaacc agtccctggt gccagaaagg169261ttggggactt ccggtttaag ctacccagtc tatgccattt taatacagca gctggacatg169321actgaggaag tgtttctgga tgtttcccaa aaaagggcta aggaggacag gtgagagaga169381ttccaatccc ctttccttcc acattttttc ttcttctaac aaagacaaca ataataacac169441tataatatca atttcaactc aWttcaatgt ttagtatttg tcttctctac tagactataa169501actccatgag ggcagaggcc acatctgcag agccactgca cacagacact caggctgaac169561aactccagca agtaccattc acatcagcgt caatatgaag gccaccccct ggagtggtgg169621agcccagcac tcctgcatac ctgcctggcc ttcttgctga tttacccgca gtgttcagca169681cagagcctgg cacataacag gtgcccagta agtctccatt gaaaagcatt tgacaactca169741cattccactc acctagggca ggcatttaaa ttacagcagg aaggctaatg tggcatgctt169801gtgcacagtc tgcagagtct gtgactggca atttaaactg gatggctgtc cacttgcagc169861ttcagaaaaa cattgagaga atgtctgcat tcactctcct gtagtcctca tcacccagca169921cctgggacat tgcagcactg ggtggcctaa ctgcaagcgc tatagcccta ctcttaccca169981tcctgacaaa aggaattctc cctgaaactc agtgtttagt ctttcaaact cctcagtgta170041gaacccaaga tggctcccaa tggtgcccag gttcctctgc tgggctgggg atgcacccgg170101aaaaactatg tattggggta aagtggaaaa tcaagacttg gaattggtca tgtctgagtc170161cagctccacc tcttaatagc tacacaaccc tcagcaagtt acttaccctc cctgggccta170221aattctacta ctcacaatat gggtaatata atctctactt cagacctgag aaaatttaat170281aagctagaac ctctggcaca cagacataaa agtctgMaat caatagccat tcctttctcc170341ttccccaaag tgcagtactt gctgccactt tgtggcatga ccctctgcct gagcaggctg170401atacccacca tgtgatgcaa cactcactat tgcggtgtcc ttgaggctgt cggggaccca170461ctcaaacctc tgtcccagga cagaaggcct ctgggtcacc aaggctgagc ctcaggcatc170521caggagagca gggcagctga tgcatggtga ccccagcaat ccacccaagg actgccctaa170581gcacagagac cacatctggc ttgtttactg ctctctccca aagcctagta catgctgggt170641catgcctgcc acattgggta aatgatgaRt gaatgagtga atgaatgaat cctcctctga170701cccccctgca tatatgaaac agacagccct acccctgaat ctcaacaaaa cactttactt170761atatccttcc tcccacctgg aatttttgta ttctgtcctt gtcctggctg atcttagcct170821agtcaagagc tggctgaaaa cttgcttctt ccaggaaggt tcacaggtta tctctaccag170881tagggtttgc tctctggctt ctctgagcta ccttatctgt cttactttat ttttgatggt170941ctttgccacc ttccttatct ctgctcactt aattagattg gaagtatctt aaagacagga171001actgagagct atgtgcttgc atgctaccca accatgcaca gtactgggaa tgtagaagca171061tgtgatagat acattgcttg actgaactat catgtcatcc tcagcaaact aatgaaagct171121tcacagttga gaggtgcttg gaacgttcta actttctcca tgggaacatg aggtgagcct171181gaagttatct ggctacttct ccagagccca ggattaggca tctgaaaata gatatcctcc171241aagttcaaat cctattgagt tttttcccat atccttaaaa aaaggtcact tcagYtcctg171301agattttcat ttctccatgt gcaaattcat gctaccctgc aaggtgccac agaactgaca171361ttctccttct ctgaacttta caagaagctc actgNttctc aatgctgctg acatcagacc171421tatgccagga Raaccagctc cttctctgca tgggtagaaa tgcccttctt gtgcttagtg171481agaatgccat caccacatgc tccaaaagaa tgctctcaaa ctcaggattg tgaaagaatc171541gctaaggggt gggaagctgt gcaattctga ttctagaggc ttgggatgtg atccagacat171601cagctcccca gtgatcctga gaaatWtgag actagctgat ctaaagatag ctccccaacc171661tctaaaacaa gggcatgaat gagaggggac ttgtgttgct cctcagccac catgtttgaa171721tggcagagct ggacRgccca gttagcagac tttgtttcat tcagctggtt ttgtttctgt171781gggaaaactt ctttcaggca gctggcatgg attaccctgg cagcactaac ctgcagcaga171841ctaatcccac aaaagtcctc atccctaaca aaattgccaa aagccctggt caaggcaaat171901gtatgaagat ctgacatcct tagtcattct gtgggtggct ctgaccttca aaacatctca171961ggaagggcac aYtggggaca aaggtatccc ttgggaaagt tatgtccgac aaacagcttg172021aaccctaaaa catccatcat gacttcgatg tggctcagtc tgatgttcag gcccagtaga172081cccaataaat cccttttcca gcatctaccc tggtgaagac ttttcaggga cttattatgc172141aaagctgcct aagcaagaca gaatttatat tgaacctggc catgatttct gagccgccac172201tgggtgttct gatgacatac acatctcgag gttgaagtca aggagctgcc aaggacaWga172261gactggtggc aggataaaag cagtgtgatt ccttccagta aataatggtg gggtggcggg172321ggaggtggga aggggacgct ccggggagga agaggaccgt agcttttctt gtacccaagg172381tttgcctttc aaatggcatc cagacgtgac caaataaatc tctcctctgg aggctaaaga172441atgtgtaSaa tgcaacaaaa gtgaggtggt ggagaagcct gctttatcta gggtgaatca172501tacctagaaa gaaaacatgc atccgtcaca gaaatttcat tgattgagaa aatattttta172561gtttcctggt ccacagactg agtccttcct gaaactctca ctatgagctg ggcactcgga172621tgttgcctcc tgagtgtgat cgcctataga agcagactat tgattagaga aaattcttag172681acaaacagat ccccagccct catctttgcc actggaatgc aaagggtgct gccctcccca172741gtaaagggaa tatcggtctg gtatttaaca cggccacaaa gaacatgttg ttctatagtc172801aattctctat acagcagccc aagtgatttt tttttttttt tttgaaacaa ggttttgctc172861tgttgcccag gctggattgc agtggtgcag tggaggagtg tagcctccac ctcccagMtt172921caagcaatcc tcccacctca gcctccagag tagctgggac tacagacaca cgccaccaca172981cttggctaat ttttgtattt ttttatagag gcagggtttt gccatgttgc ccagcctggt173041ctggaactcc ggggctcaag cagtcagccc gtctcagtct cccaaagacc tgggattaca173101ggtgtgatcc actataacca gccccagtga tcttttaaaa acagaaatca gggctgggca173161cggtggccca cgcctgtaat cccagcactt tgggaggctg aggtgggtgg gtcacgaggt173221caggagttcg agatcagcct ggccaacaca gtgaaatccc gtctctacta aaaatacaaa173281aattagccag gtgtaatggc ggacacctgc agtcccagct acatgggagg ctgaggcggg173341agaatcactt gaacctggaa gacagaggtt gcagtgagcc gagattgcac cactgcactc173401cagcctgggc gacaRagcga gactccatct caaagaaaaa aaaaaagtgg aaatcaggcc173461atggcaKtct ctcctactaa cacctccaat gtcttctcac tgcactcaga gcaaaatcca173521aactccttcc catggctaca ggtccccagg ctggctgggc tcacctttcc tgcttcatcc173581tgtcccctgc ctccttcccc gctgggctcc atcctcactg cactcctttc tgttcctctt173641ctatactaag ggtatctcac ctcaggacct ttgcatatgc catctcctct acctggYatg173701acatgcttct cccagatctt cttgtagctg actgctcctc tgagatgtct tcttaggttc173761accctatctg gaagtagccc accccacccc aaccctgccc taccctttgc tatctcatat173821actttatttt tttcataaca ccactatcaa agtttttctc tttgcctact gatcatctat173881acacaactaa attgcaagtg ccacgagagc agcgtccttg tctcatcaga ttcccagccc173941ccaacgcaag acttggcaca taggaaatgc tcgacacata tcactcaaca Raaaaatgaa174001agctctaggc ccacctgcaa ctgacagctt gaatgatacc gaatcctggc cttgtagaag174061gctggaagtc agtgctggca ggagaccccc Wgcacaggga ataagaatca cacagctgcc174121accacctgat tcctggccct ttctgcccaa cacaacataa atgacagcag gtcagtggca174181cagtccacag tccacactca aatcttgatc atggccaccc acatacccca aacctggaga174241gagactgggg tgaggtagat aaacgatgcc attcaagaca tcagacattg ctttciatgc174301ccaaaaggca cattccaggc ctgatattgg caccggaaac tagcagtgcc agaagatggt174361ctccaacata cccatcccat gtccctcaaa gggcctctct ctggactaac ctcttctgca174421tggtctttcc tgcagagctg atccgtgtcc tcctgcagag ccctgggccc acgggtggtg174481ccaggggcag cggcaggatg ggggtggggc tgcttgacag gaaatcaatg ggaactgaag174541gtcatccgga gggcgcagtc tccccatcac Kcacctgctg gcatgggatt tgtggtcctg174601acctcgcttg ggggcctctg ccctcctgtc agagttggtt aaaatcagcc tgcagaagca174661aatgtcctgc acaccaaatg atctccaggc agcccttcta agggacatcc agccaaacaa174721agaagcactg agtctcattt cacccgccgc aaagttgaga gtcaccccaa tctctcttgg174781cagcctccta ggaaaactgt ctcagacctg ccatttttgg aggcacatac ttgtaaatag174841aacaaagcca gactgaccaa gaggctggtt atgtccccaa acttaagttg cctggtggtg174901gaggaagtaa aaatacactg ggaaccaaga tgactgaaac tgaaatcttg agtgcaccct174961agaaatgcct aaatctgccc tcaacacctc tacatgccag gataacgaca aaggatacca175021aaacctctgt actgccggag ggaaatctca ttttcttctc atcccaaaaa atactgggga175081gcttggctga atctagaatc tgattttcct tcccccacta tacttatttt cccaggttcc175141cattctccct tgcttcccag acctttcccc tctaccatct tctttcccaa ttcgtccacc175201tcatcaagag tcatttatca tacaggccag gagcaaagcg gtcagcctaa gtctccaatt175261caaaagttga aaatgggcca ggcacagggg ctcacgcctg taatcctaac actttgggag175321gccaaggtgg gaagactgct tgagaccagg agttcaagca ccctggccaa cttggtgaaa175381aaccgtctct actaaaacta caaaaattag ccaggcttgg tagcaggtgc ctgtagttcc175441agctacttag gaggctgagg caggagaatg gcttgaaccc agaaggcgga ggttgcagtg175501agctgagatc gcaccattac actccagcct gggcaacaag agcaaaacac cgcctcaaaa175561aaaaaaaagt tgaaaatgaa tatggtatga aaataaagaa aaggccaggc acagcagctc175621atgcctggaa tcccagcact ttgggaggcc aaggcaggag aatcacttga ggccaggagt175681tgaataccag cctgggcaac atagtgagat ccccgtctct acaaaaaaat aaaaaataaa175741aaaatgtttt aatgaagaag agacaccctg gacatattta cagaaggata acaggatgct175801ggttatagta gcaatagtgg catagctaat atttattgag catttactat gtgtgccagg175861cactgttcta agcactttac atgtattatc cccatacaac ttgtaattgt attattccca175921tacaactcca tgattttata cccaccccct cacacacccc actttacaga ttggcaaact175981gaggcacaga gagtcttacg tgatttgcta aggatctatg tggccttgtt aatacattac176041agtcttgcca gaaccttact cttggccact gcactgtcag cctcttacaa gggcgccatt176101accccctcac aatgagtttt gcctccagaa ctagaataac ctgaacactt cctttcttgg176161aggcactaga acacttcctt tcttggaggt ttctatcagc atcaccaact tgctagctaa176221tcttagctat ttcttttctt tgtgcctcag tatcccaaac tgccaaatag cccagaaata176281aaccttctta tcacagagcc acctctcagt aactcaaaaa aagttaatat ggggcttcct176341gaaaatatgc catcagagaa atacaaaatg tcattatgca gtttagaaac caaatccatc176401ccaaatgtga gcaaggggcg atggacttga agaggccctg tggttctgaa catcaactaa176461ggcagaaaaa gagaaatgcc agaaagtcat aaactaaagg gtcagattaa agaatcccag176521aatgttagac actgtctagt ctggtgcctg gttttattgc aaaggaaatc aataaccagg176581ccaggtgcag tggctcacgc ctgtaatgcc aacattttgg gaagccgagg cgggtggatc176641acctgaggtc aggagttcga gactagcctg gccaacttgg tgaaactcca tttctactaa176701aaatacaaaa aattagccag gcatggtggt gcatgcctgt agtcccagct actcaggagg176761ctgaggcagg agaatcgctt aaacccggga agcggaggtt gcagtgagcc gagattgtgc176821cattgcactc caacctgggc aacagagcga gactccacct aaaaaaaaaa aagaaaaaga176881aaatcaataa ccacagaggt gaggtgacgt cctcgggaca taccgaggca gagctgggat176941cagatcctca gtccagactc ctagttcagg gattcctcca tcgtttatgg caagggtcaa177001caaactacag cccctcggcc aaacatagcc caggactaat ttttgtaaat aaagttttat177061gggaggcaag ccatgcccat ccgtttacat attgtctgtg gcagcttttg tgctgaaatg177121acagagtcga gtagttccaa cagagaccat gtggcctgca aagcctaaaa tatttaccat177181ctggaccttt acagaaaaag tttgccgact cctggttttt aacataagcc ttgaataatg177241aaaagcctcc accctcagaa tacaaaataa tagaatagga aacctaagag tcacacagct177301taagcagata gttttacaat tatctcagct tggtacaacc taataaaaac ccataaatac177361agttaataat aaggaaaaca agcactagct caccctacct atttaataat tattgttaac177421tacagcaagc aaaactcata gctgaaaatt cgtttgtttg cttttttcta gcctcccttg177481aaagccctgt ttcatctagg aaatgctgtt ggccaatggg cgaaaggaca catcctagag177541gcgcacagcc ctaatttcct cctgttgagt tgcaggctgc tgctgaggca gctgaagact177601tgagagcatt gccctctctc cagagcggac tcagagagag ttgattttct ctgtcaaagg177661cgatggcgcc aaaaccctcc tgtgcccctc actccagata gaaccctcag gaacagccag177721gcatggaaga gactgtcttt atggcttcct ctccctactg ggcctccatg ccctgcttaY177781acccctttcc tccccagaaa gtgatcagga tatgcacacg gcccacagaa gcccagccca177841cagctatgcc atcattctat catcccatgg aatagggaaa agcgggtctg cccctgttag177901gctgatgtgg gaatcaagag acctggattc cagattggag ttggaactta gtcactttgg177961gtttttggca aatctctcaa gccctctggg cccaggtctc ccacgtcaaa tggagagatc178021gtcttcacat attccaaatg atggaacacg ggcagagcca aattaagggg tggggcaggc178081caaccacgtg gcacccgggc tccagtctct aatcacacta agtcattaSc aggaacatag178141aaaggtttac tagtgtcact caggcagaga actttgagaa ataggacctg gctttcatgg178201aatagtccag ttcgcatcaa ggtcccactg taatgattat tacacttttc cctctcaaaa178261gcgcccttgc ttggctgata aatgataaag tcaccctact aataagctgt ttgtggtggg178321agtgaggtga gacacgtggc ccaaggcacg gacagtaatg gcaatacatg ggcttctaag178381gaagacaagt tcagtttggt caagaggtgg ggtgcaggtc cggggccaga actgagctgc178441taaggacaag agaggagagg ctgcctctgg tggcccggct tctccatttg ccatgcacac178501agcctttgcc tcttctttta tttgtcaaat atttagagaa tattcgccaa agtgtgagct178561ccccaggagg cccacaggtg ctggagagaa gagagggctt tggagagtac tgtaaggtga178621aagaaaccta ccaacaggtg cctaactgcc tggccatgct aagcgcctga gccctgggac178681agggtatgat ccMagccctt cacagtgcct gaccctgacg ggcatgcact tggtaagtgt178741tcattctggg gacctggaac aagcgaagct caagccctcc ttctgttctt ggaaaactcc178801tcctccccat ggcagctgca tctcgaccac caatcctact ggaccacagg atgcaggagg178861actacactgt gtcctggatc tcgtcattac aagagcagga ggtgagcact gagaaagatc178921cagaagaact catgcaagca gaggctgtgg tctgtgggga ggagggccgg gcagggcagc178981ggaccagagg aagaagcaac aaagaaggaa ggggaagagg aggaggagga ggaggggggc179041cgcagagtca ctgtgggtgg agggagagca ccgccagcac atgccccaca gccatcaata179101tctcttcgga ggacagatta tctggggaat ttatgctctc taataattac cttgcagagg179161gttccactta tcttaccaga ggaatctgcc agttgccaga cacacaggat tctagtcaat179221tccatccaca ctgccctccc cctctgccct cctccccacc tccctggctc ctgacttctg179281acctctgaat tctaaccttt ctttgcctct ccagtctagg gggaRgttga tggtggaagg179341gtcacaacaa cttttaacag atgtaaaggc caacaaaggg gttggtgggt tgtcccttat179401cagtagatat gagagttaac gtcccaaagt tgaggccagg cctgaggaag tataggctct179461tgccaaagac agtgtgtgaa gggccaagca atgctttggg gcagactgac Wtgattattt179521ttgtcttcac ctgatgccat cagacctggt taggattaat tttatcttct agtcttcaca179581tccctcctca aagccttcct atccccaStc cagccctcca gtgaggcctc cctccaataa179641tggYgtggct acttattcga aaaccatcac gtgttgcttt gggttgctgt ggtttcttta179701aacgcacgtt gcagtcctgg ctgtgagctc ctggagaaca tgggtactgc atccgtactg179761aatcaggact acctgagcaa cagtaacaac atccagatgg ccctgacRgt gggcgggaca179821gtgccctccc tgcttagaaa caggaaccac atttcatctc cacaacaacc ctatgaaaga179881gatgctacta ctacccctca ttatacagct gaggacctgg gagctcagac agcttcagtc179941acaggcccac ggtcacttgg tcagtggcca agtcaggatt tgaaccaggt ggtcttgttt180001cagagtctgg gctcttaacc actccacacc acgctgcctc Ygtaggagag gtttgctgac180061tgattcggac attttgtgtt gtatctatcc gcttatttaa gtcatccttt tctaaaataa180121taattttttt tgagacatgg tctcgctctg tcactcaggc tgtgcaggag ctctgtcact180181caggagtgca gtggcatggc tcactgcagc ctcgatcttc agagctcaag caattcacct180241acttagctac cccagtagct aggactacag gcatgtgcca ccattcccag ctaatttttt180301tttctttttt taagagagat cgtgtctcac tttgttgccc aggctggtct caaactcctg180361gactcaagtg atccacctgc ctcagcttcc caaagtgctg ctgggattac aggcatgagc180421ctgggtgcac ctgggctggt gctcctcctc cttaggactc cactcactgc tccctcctca180481gggggcctcc cccaaactcc ttagctctgg cactcattct ttttccatca ctctggcacg180541atgccaacta tcaaaaatta ttttataggc taggtgtggg tggctcatgc ctgtaatccc180601agcactttgg gaggccaagg caggcagatt gcttgagccc aggagttcaa gaccagcctg180661ggcaacatag tgagacctct tccctactta aaattaatta attggccagg cacaatggct180721catgcctgta atcctagcac tttgggaggc cgagatggga ggactgcttg agaccaggaa180781ctcgagacca gcctggtcaa caaagcgaga ccccatctct taaaaaataa taataaataa180841aaaataatta attaatgtat atgtttattt actacctgct tttctcaata gatataaaag180901cttcctggga gaaagactgg tctaatttgt tcacccctct atcaccagtg cctaaagctg180961gtccctagca tatagtaggc actatataaa tatgagttgg atgaatgaat tgtctgatgt181021ccccactgag cattccataa tacatgatgg ctacttaatt ggacacttta ttttatgcaa181081actcatctat ctgttcttta tttattagac tttacagtgt accaggcacc ttgctgagta181141ggttaggatt tcactgtacc ctgatatgag gtagagaata ttgtctttat cattctcatg181201ttacagatga ggaaactgag actcagaggt tacacagctt gcccaagacc atacagaaat181261agggtaagac ttaaccccca ttctgtcagt ccccctgagt ccatgatatt aagcattctg181321cctcattgcc tctggctggg tcccctcagt aacatgattc tctttacccc tgaacctcta181381aaatgtcccc agccttactt ctcccccctc aagagccccR tcRcctcttt ctctggcctc181441tgtgtgctgg ctctcctcca ttggtccctc cagattctct ctctgccatt cttttccctg181501ctgggtgctg cggaagtctg tcctgtatgg tcagccattt gccctcttcc ctctgctcct181561ggtggtctgg gtcaatggca ggtgccgaga gagggaagag agacagggga tttcctctcc181621ccgccccttc ctgctgtgga gtgtctgcat ctgcccactg aaggtcacag ctcctgtggg181681ccagccctct tcatacagct acctctgcaa tctggtgacc ttccccactc ccccgaccta181741gccctaggct gctgcactag ccccccacca tgtgagtccc tgcccgcagt tttgaaacta181801gacatgttac taaacactcc tcagtttact tcgtgtggag ctgctgcttt gctggaaccc181861tgcctctcgg acatatgagt gctacatggc ctctgcccct cccccaggtc ccccaccact181921gccgctgccc cYtggtcact gcagctgcct caccaggccc ttctttgctg ccagggtttg181981ttctctgtct cYaagaccta taaataaatg ttgatttgct ggcttgaagg tttgccctgg182041cagccccacc agggagagca gtgccctggg gagcccagca agcccacagc aagctgtcct182101cccaagacta ggagaaagca gagagcatcg ggtccaatgc aggggtcccc tatgctcgga182161gcttccccct gtgcggggtg ttaagggacc cctcagatga tgtcctggtg cctcaaacaa182221agccgccatc acagcttcaa aatcacaRta tcatttgttg agcaactact atgtggcagg182281ttctgggttg ccatttgcat acattcactt tcatgttaaa agacgagaaa aacaRgttca182341cagaggttaa ggaatttaac caaaacctca aaactactaa gtggatgaac tggaattaga182401tcccaggtca gcccaaatct ataaggcctt aattccccac cagtacatgc tgcctcatga182461ccgatccctt tgaatgacag gaggcccaca gactcgaacc tagtccaggc aggcagctca182521gagatgccag ccacccatgg ctgggaggag atcaggtgga gcaggatgac agttaggata182581aagggcacag agggctccat gctgcctaga gtcactttgt ccaaggacca tggcacagtt182641tggccatagt gactgctgag cagccagggg gctggaacat gccccccacc cccgccccca182701accccgaccc actgctcctt cctgcagagc cagccaggag ccatcactcg tccttgggca182761cacaccagca tttcaagaaa acaagcctgc aagcacagac ccctctgagt caggcccagg182821actgtcacga ggagactctg aaggggaggg gagggacagg gtgacacaaa gagggggaag182881gcctcctgcc gctggacctg gagccgactg tgcttcccta agtcctttct gcagccaaaa182941ggcacattcc ctgagaacac cgctcaagat ccaaaggctt tcgcttttta ttttttagga183001agcaatggca aaaaaagaaa agaaaaaaag aaagaaaaga aaagaaaaag aaatccacat183061ttctagtgtt gggagcgatt cttggaggca aacacactct cttgcacaca cacaccccac183121agcgcttccc ccacacagcc caaaatagtc cacaccatgg actcctggag aacccggctc183181agcacagcct cccgaccttg gtccacatga ctgctggcca gctctcagtc cccagggtaa183241caaagtactc caaggacccg Sagtagcagc gcctgctcct acagaccatt tcacccctcc183301cagcgaagtc ccatctgctg tgtctcgatg gagccaggtc cagttagcag aggccacttc183361caatgaccca gtgtggccca aatctccaga gctgacctga acctctctcc ctcaacccct183421ccaaatctta gattgctgct gctgcttctc caggggaatg gctcccacaa cattttatag183481actgcaagga aaatatccag aactgagacc gttcttcaaa ataataattt aaaaaaaaaa183541aacactgctg aaacacagaa ctgggtgtta tcttaaaatc tctgcacaaa tagaatttga183601atgctctcac tccaatcaaa atcattctcc gtccctccct ttaaacactg aaagttcaat183661tccccctaaa gacaggattg caaacatgat taggtccaat taatttatgg agaaactcag183721aatgaaagga gagaaatcaa tagaactgcc ttgttctgat cactaccgca aatgaagtaa183781taatttgaag gagatctgga aagaaaggaa accaaaagtg tcacaccgca gccattggcc183841atttaacaag gcagcattgc cccatgtgga ctggctgggt ggagaagacc actcaagctt183901acaagacact cctggggaca gagggagggg agagacagct gaggtcactt gctttctctt183961cattgtacag catgaggctc actggtggta aattctcctc tttctcacaa aagcaagacg184021taaaagaaag taaaaggcaa aaagcatcca cacaagctgc cagtctaata aggacactgg184081taatctccag gcaggccaag gccatatggg ctccccctgc agcttcatgc taagtttatc184141tccatcctca cactctacct ccatctctct tccatatcca ggaaggaaaa aaggaaatta184201acaagccggc atccaacatc catcctgaat caccagctgg gccatgtaga gcatccaaag184261atggggtRgg gaagccccag gggagagaga gacattgaca gatcaccgtc cccacctctc184321acttgcctgc agctcccttg catagatgat gctggcaaat tcaacRtgat tttcattgga184381cctgcccagc agtccagatg tgggagccta ataacaaata acaatgccag ctccatgtga184441tccttgcacc ttcaagagaa aatgccttgc tggccagctg ggttctctgg ccaccctcca184501gcccaccttg ctgcttctgg atggaggttc gtgaagctgc tcctggccta tccaaatggc184561cagtaaacat taacattcat ccagtcaggc aacatccatg gagtgcctat tccatgccat184621gctgccccat gtgggaggca gcaaagcgct tcagtgaaag gctggggcac tggcatgagg184681acaccaggtt tgagtcccag ctccttgctt acttgctgtc tgagctgttg aactctgtga184741gcttcactac cctcagctgc aaaatgggta tgataataag acccttctca tggcttcact184801gacaagaaca aatgaggtga cctcactatg ggtgatcagt aaatattagt ggttRttacc184861acaatgtggg gtcctaccct ccactcattg ccaccaccag tgccagaaaa agccagctca184921tgagttaact cccaggcagt attatccact ccaggggcct ctctgtccac acagatgagc184981agaagcagaa tgcatgaaaa aataaaatag ctcaatgcca ttgctacaga ttgccccacc185041accaccatct caccagtcag cttcaagcca gcggggtcag cagtcagaag cacagccaag185101agtgtgggga tgattccgtg acaaaccatc cccagcagca gaaacctatc tcacagcaca185161catcctccca gaagtgggtc aagggcatcc attgcctttg tttaaaggca ctgggtcaca185221aaggaggagg agccttagca ggttggaact ttgggatatt ccacaggaca ggtagaaggg185281tgctgtgttg gttttctatt gctgctgaga caaattacta caaactttgt agtttatgaa185341aacacaaatg tacgatttta cggttctaga ggtcagaaat ccaaaacgag tcctaaggct185401aaaaatccag gcatcagcag ggctgtattc cttttggaag ctctaaggga gcagtttctt185461ccttgacttt tccagtttcc agcagctggt ggcctcttcc tcccatgtgt cacttctacc185521tccacttcca aYgtcatatc tccagctctg actctgaccg tcctgtctcc ctcttgcaag185581gacccttgtg attacactgg actcacccac ataagccagg ataatctcct caYctcaaag185641tccttaactt aatcacacct gcaaaatccc tcataccatg taaggtaaca tattcatagg185701ttccaaggat taggacRtgg acatctttgg gggtaaggtc acgcttctat ctaccaaagg185761cgtgttctgc tgctgctgca aggtacactt gaataccgtc aaagcaatgg tgaagaattg185821aaagaaacgc agttatgtcc taagcccagg aatattgaag ctgtcctctt tttgacaaaa185881aaaaaaaaaa aaaaatatat atatatatat atatataagg cagatggtgc ctaagagcat185941aggatttgga accacatcgc tctgggttca aatctaagct tcaccaccag tcccagctga186001agctattcaa gaccagaagc tcatctgtgt gaacttccat tttcccaaca ttgtagggtt186061gatgtatcct aaggaataaa gaacaaaatg cacgcagaat ctttcacacc atgtctggca186121cacagtgaat gcttagtaaa tggcaactaa gaaattgctc ggtactgtta ttctattagt186181ttggttctat cagacccagt cactaaataa accagtttga cgtgaagtac ttggctatca186241gcaaatacta ccaggccctg tcaagtccca ggaatcagag gggctgtttg gccaatgcag186301actgaccctt tcatgctgac gtcagggagc cccagcagag acaaccaaag atctagagac186361atgatcaaaa tttccctgtc aggacatggt ccagaaccat ggatctcagt ttactttccg186421cagaaagaag aagaaaaggt gaagcccgca cacttctctc ttccacaaac tcaggcccca186481ttcccttgta cgtctttctc ttataaacaa ttgcacttta ttttcaattg tgttgtgata186541aatttgagct atagcttaca gtcaacaatt tctatcacaa atctttctgc cttccaattc186601tgtgtatgta caaactgagg ctaggaccaa aggaacRaag actttatctt acatgaatca186661tttgattcca ttactgaaat ctctcaggtg aagttaaaat atatatacac tgggtctata186721ttagaatata tgagacttga atttgatctg ctaattagct gggtgacttt aagaaagtat186781gtaacttatc tgagcatccc tttccccatc tataaaagga ggcagaggcc aggtgcagtg186841gctcatgcct gtaattccag aaggcggagg caggcagatc acttgagctc aggagtttga186901gaccagcctg gacaacatgg cagaacccca tctctaccaa aaatacaaaa aattagccag186961gcatagtggc atgggcctgt ggtcccagct actcaggagg ctgaggtggR agaatcactt187021gagcccggga ggcggaggtt acaataagcc aagatcatgc cactgcactc cagcctgggt187081tacagagtga gatttattta tcactaaata aataaataaa taaatggaga caggaaaatc187141tgcctcttaa gactacagca tgggttaaat agcatgtaaa acctttggca tgttggattt187201ctagagcatg tactatgtct cagacactac aataaacatt gtatgtgcat taattcattg187261aatcctaata acaactctat gaggtgctgt ttattattcc tattttccta gaaagtagac187321ctcttggggc cagggatagt ttttttcatc ttcaactccc aactcaWata ccctgtgagt187381ggtaaatgca agctacaact atcattgtcg atagttgagt ctggaatcac cgcagacgat187441tttataaaga tggaccccaa gaggtaggga ggtttagaga aaaggaggaa ggagagtgtg187501caggtcttcc caatggggta aggYRaggca tgaggaagtg acaagaaatg ccaagccagt187561aagaagacag gacgaagcat cgcacctgga tagaagacta agtaaaacta ccttcctgtg187621gctaaggggt ctactaggat acactcattg acttgctttg gccaacagaa tacagtggaa187681gttagattac accagttcca agctcaggcc tcaagaggcc ttgcaagctt cccttctgct187741ctccgggaac cctgcctagt tgcttagcat atgaatacgc ttgggctagc ctgctggaga187801atgagcagac acagaacaca aacaagctat cctagatgaa gctattcatc taggacaagc187861tgactgcaga cacataggtt aaccagccca aatcagaaga accagctagc tgagcccaaa187921tcgaattgcc gacccacgga atagtaagca aaataaatgg ttgctatttg aagccattaa187981gctttatggt gttttggtat gctgcaaaac taacagaggc aggagtcaat gtctcattca188041tctttatatc ttcaacagcc aataaaagtc ctggcatgta atagttacac agtaaacgct188101tcatgaataa agtattgaac tgatatatca atacagctgt gaataaataa atgtcatatg188161ctggaaaact gaaatcatgt aagatcgcat aattctattg agatacttca gcttaaagaa188221tatttttaaa tggggttggc tgctacctaa ttttaaaatc cattttcttt tttcttccta188281gccaacatcc ttttccacaa agtttagtca aatagaaaag aaagtttcac atgaacatac188341aacgtaggat gYggtgatcR aaaactagac tggttgctta gagatccgag ttctagactc188401aactctccca ataactggga gaccttgcta attctcttaa ttaccatttc tacgtctata188461aaatagatat taaaaaatta cccttccctg tcaacctcac agggttgttg tagcaaataa188521gacagcatgg gaaggctctg agcacttttt accgtcaatg attctacttc cagccaggct188581cagtggctct tgcctgtaat cccagcactt tgggagtctg aggtgggtgg atcacctgag188641gtcgggagtt caagaccagc ctggctaaaa cggtgaaacc ctgtctccac caaaaataca188701aaagtagttg ggtgtggtgg caggcgcctg taatcccagc tactcaggag gctgaggcag188761gagaattgat tgaacccggg aggtggaggt tgcagtgagc caggatcgca ccacggcact188821ctagccaggg aagacagagc tagccttcat ctcaaaaaaa aaaaaaaaaa aaaaaaaaaa188881aagattctac ttcctctata agcagaactt tactttttga tggtttctag tgtttttata188941atatatcctc ttaagagccc catttatcct tttgctgtct tccttttaat attctgtatc189001ccagtagcca tattttcaac atacatacat aYatacatgt atgaaaccaa gataggaaat189061ggttaaaatt atccttgata gtggagaaaa ctattgctct atccaaagag agctggtatt189121tctggcactg aggattacat gtgaccaagg tcagacatga tacctgcaag atgtatcctc189181tagctccaga gttcccatgg agaactcggg gtccctagtt ggctgcagca ggggctgcca189241gctgctaagg atgcagccag atccctttcc ctttccagag acttctgccc agtatgggaa189301gtcagaagct ccacactcca agtatggctc ttccacaacc tcagttcctg ccttgggcca189361agtcttgaga tcagtgtagc tgagctccga gcccaggtct ggcactgcta aatggaaatc189421cttcatcttg gcaactcctt ccaYaatggY agaaccaggt tggaagttca caaggtgctc189481caggcatatc agggcttact gccctctcct aaagctcccg aaacctttgg aagtcacagt189541tctggagtaa acatcaggtg tcctcatacc caagcatctc aggagtgtgc aggaggcagc189601agaaggtagc ctgtgtcctg aggcagtgca ttctccccat cccatgaatg atggggctgg189661acagaagaca tcagggacag caactcaaac cactgggcag gtggggctga atggatgggc189721aacactggcc gtgctcaggg ctctgggtct tccttgacag tgcaattgta atacctccat189781ccttccatca acccatcctc cctatggtgg acataggttg tctgcctgcc cagataccat189841tctacctcct tctagtaaca atacctccat tttctacctc tccctcacta tcagttgtgt189901aaaatcaacc ccactctacc ctccaacttc agagacaggc ttgtgactag gcctggccaa189961taagaaaacc ggccatgttc tagccagcca tggtgactca cacctataat cctagcactt190021tgggaggctg aggaaggagg attatttgag gccaggagtt caagaccagc ctgggtaaca190081tagtgagacc ttgtctctac aaaaattggc caggcatggt gatgcacacc tgtagtccca190141gctactctag aggctgaggt aagaggatcg cttgagccca gtgagccacg attgcaccac190201agcactccaa cctgggcaac agagcaagat catatatgta tatatatata tatgagaaag190261agacccacat cccttagtga tccgttcaag agtgatcagt tcaagggtga aaatgtggtc190321tgaggcaggc aaattagagt caatcctgga acttctgggg gaaagaggca ctttctttct190381cttagtatgg aaaggcagat aacaatatat acctgaagca gctgggagcc Mcccatcaag190441caggcctgtt tacaaaggat gccaatgtaa agaaaagtgg agtttagaga tgaaggagag190501atggagggag tcaagaggac cttgctgagc ccctagaccg agtcacgagt gaagaagata190561cactcacgag ctgttagtta catgagccca cacattcctc tgtgtgctta agcactatga190621gttgagtttc ttgccatttg caaccttaaa aagccctgcc tgatgcacat cccaccattt190681gatgttacca acagactcta ataaggctga ggaagaaccc aggggcccca tccaaatacc190741tctaggctgc ttgaactcaa atgcttttga aataaggatg gttcactgtg gctgtcagat190801gccacacatc aaWcctgaaa ggaaattcta gccagggaat gctacagatg gcagctcacc190861acggccccca ccactcctta ttgtctttgt caagcccatt tcctcattta ctttacctgc190921ctggtccctt taaatacata agtttaccat cccttattag atggataaat agataaatgg190981atRgatggat ggatggatgg atggatggat ggatggatgg acggacacat ggatggatgc191041atggatgcat ggatggatgg atggacacat ggatgcatgg atgcttggat ggatggatgg191101atgcatggat ggatggatgg ttgcatggat ggatggatgc acagatggat gtatggatgc191161atggatgcat gcatgcatgg atggatggat gtgtgcatga atgaatgcat gcatgcacag191221atggatgcat ggatgcacag atggatgcat ggatggatgc atggatgaac ggatgcatgg191281atggatgcat gaatggacgg atgcatggag gaatggatgg atggatagat gcatgggtgg191341atgcatggat gggtgcatgg gtggatgcat gagtggatgc atgggtggat gcagggatgg191401atgcatagat ggataggcag acaagcaagc agttatgtag ttgcaagttg aacctacaca191461caaataggca tgatacaact aaagaattaa aaYggcagcc cactgcagtc agggggccat191521ctgacaatat aggaaaggag ataactatag gcttacttct gtatggtttt gggtgtctgg191581aataacgRga gatgactctc tgggtagcac tcaccctgta gttgtgctcc tccctctcaa191641gccacagtgg ttaacaccac cttaccaata gtgcagtaca aagagaagcc agtcctggca191701ttcacaggta gctgtgaaaa gctggcccta aaaggcagtc tcgctcaatc cccagcatct191761actYggatct gggcaggcag ccacagaaac agaagaagct acagaggatg Saggcactgg191821gttttggtgt ctggacatgg aagaattgca ggccaatatc cacaaatgta tccgtgaggc191881tctggtcttg aaacaaggat gtgaggaccc caggatggct ggtgagggac actaagtggc191941tcaaagaact gagaaaaaaa taaaaacata gcagcaatag agaccagagt ccgagccagg192001acaaggcctg tccctcagcc acctggctga aggcatcatc atgacctcaa ggaggtaact192061ggtgagtcat acagaaccac actgtgcact cttcaccatg gtttatatgc tcacagttca192121ggcaaYtgct tagaaaactg catatcgttc atgcccctat gaatcacttt cctccttttg192181ttgtctttgt gaagtcatca caaagttctg agtggaagaa ttcttccagg gactgccaag192241gagtgacact gtagccaggt gggttcagct ctcactttgc tcaggatatg ggtgtccagt192301ggcgacagat caggaaaata gccccatact aaatggtgcc tggacaaggc ccataMacac192361ttggatatgc tgtcctgaac acaaggcaca agacacaaca cgggaggacc tttcatctca192421tgtctcttac agccagggac tgaaggtgta ggacagtagg agaaaataga gtttcacata192481aaacacccca aggacatcaa agaaggctag ctgccaagag gtaggaagaa ctagattctt192541agggacttat ccttggggat tgataccacc cctgccaggc atccaccttt ggggtgactc192601agagccaaga aaacaaaggc atgggataag ccatggaaaa caaattcctg ctgagtagca192661aagagagtgg caccaacaag tggcaccatg tgagtgacaa gagcaagcaa atgctcacac192721agggacagct gggtgtgcag ggccatcaca gctcccccta cccccaccac ctgaacacta192781cgagacaaat gggactcctg gtttctgccc tcaacatgct tatatttgag agaggccaca192841ggaccagcga gtgcagagtc atggcgaact gtacacaacc tggagtcagg agacccatgt192901tctcaccctg ttctgttgcc tcgggggccc tgaagcccat cgctaagtgt ttKgggctcc192961agtttgctca tctgtcaaga gagaaccctt cacacagctc ctaagtgctg tgagtccctg193021tctctcagac tggctaatct ccaagggcct gccaggtccc acatgcatgc tcttgagagt193081cacatagata tcaaagctca aaattagctc ctgggagtgg gagcaaagct tctgagcccc193141cagcccctcc tgtgagcaca tacctcaagg cacatgcccc caacagccca gaactgacac193201atttttgata gttcctgagt acatggattt ccagccctgg aaatgtttgt tttaacttac193261caggagaaaa gaatttggat tcttttttaa atatacacaa agggaataca tttgtatatt193321ttcagataca aagtggatgg gaagcaaggc taaagactgt tcttttccct tagctcatgt193381gagtgctatt cctcacggtg aattctccaa agaccatgaa tggcagagat ctttgatctc193441ccttctagcc tgtctcgatg tgatagcctg gacatgggca gctatcacgc cacccttcag193501aacctcagca cttcaatgac cacatcctgc catcatcacc cccatggagg tccagggccc193561ctgccccact gcctacctct ccacctgtgc ccacctctcc acctacccgc cccttgtcac193621attgacagat aaaatacagg actcccagtt aaatgcaagt gtcagatgga gaacaaataa193681tattttagta taacatgtgc cttcctaggc agcacaactg aagcaggccc cttccaagga193741tagaaaagtc ctcctctctt cctaagtttg tgtccataga atctcatcca gtggcctttc193801tgtcccctgg cttcaaatga aacctgccac tgcctctctc tcagggtgaa gtgtgaagac193861cgtggcttcc aaggccaata ggcatggagg tagtcatccc attcagacgc caatggttct193921tagtcaaaaa agctgcttat ggctggagtc aaaaacatgt ctaagcgtga ctatcagccc193981cagtgcagaa gagtctgggg agagggagaa acaagaaaca gatattacca caaaacactc194041caagggaaat ctcactacaa aaaaagaggt tgttgcctgg tgatggctgg caatgggcca194101tgaaaaccta gttctgattt ttagatacaa gaSacaagcc caacgtgtca cccagcctgg194161atcccataga ggtcacatgg acaaaacagt acttgaagat ctttgacctg cctaggtggg194221caactggagt ggaagctcca caagggtatg aatgctgtct tttgttttcc tcatctctat194281ggactagtcc atctagtcca ggactagcct cagagtgagc atccgatgat cgtaggaaga194341ctgaatgaat gcgtgaacac atgaatgaat gcctacattc tccaatatgt cccagaaagt194401gtcaagagct ttgtaacgca aaaggctctg aacaactcaa ataagaaaca caaacatgtg194461cagtgaaagg gctaggcctg gatggcctgt gaggtcattg gcaatgtggt gagcccttga194521gcctgtcata cacaggcaaa taacttcact gaaagaattt taaacgctac ctccaacacc194581ctagctcagc atctatggtt gaagccacca tgcccagtca tggtgataac cccagaaggg194641aagggtgcag agacgccaag aaacaagaac ttggagagga caatgaggac caaatgactg194701gggaaataag ggatgagtgg gtaggaatcc aaagaacaga ataggaaaaa taactcaaga194761tccagcactg ctttccagga cacacacaca cacacacaca cacacacaca cacacacaca194821cacgcagaca aagattcccc ccttccagat ccacactgcg tgcctcctgc cagccccatc194881ccatcatcct gtgacagtgc ttctttgtgg aatagaacaa taggtacatt atgccaacct194941ataattatcc taggagaagc gatggcgaag tcaaggcatt atgtgaacac tggaatactg195001gataccaccc caccaggagc aaacaacaac aaaaacaaca acaatccaca aaatctctaa195061cgcagataaa gactgaaagc tgcctaagcc agtgcccttt cacattcata tgagggtggg195121attttttcct tttcacatga ttatttaagc acaaggcctt ctttcatgga attgatagag195181tattggggga aggggctgag aggttgggtt tgtttgtgtt tttgtttttt ttcccaataa195241ggaggcagaa agtagaggag gtcgtgagca cgagaaagtg ccactgctag ggtatgacac195301atagagccct caaaggtagt tgaatctgat tcWactgagt gaaatcattt cattaataga195361gattccttct cactactcct gtgaaactac tttccaggga cgttggtata aaataggctg195421agtcctggga ggtgtcatgg aagacagaga caagaaatca gaatatctga attcttatat195481cacagccact aactagctgt ttccttgatt tattcaagag gtatgtgttc cctatctgcc195541acatgctagg catcaagcta gcaacagaag gaaaaaacaa agcagtagtc actttcctct195601cggagcttca gcttcctact gtgtaaaacg agggagtccc acagccctgg acacacNcac195661acacacaMac acacaSacac acacacactt ctaaatacaa ggtgcagccc cagcctccca195721caggacctgc ctatacaggc catgactgaa gaagggggaa acctgcagct tctaaaactg195781cacagaaggc tgggcacagt ggctYacacc tgtaatccca gcactttggg agggcgaggt195841gggcagatca cctgaggtcg ggagtttgag accagcctga ccaacatgga gaaaccctgt195901ctctactaaa aatacaaaat tagccgggca tggtggcagg taactgtaat cccagctact195961caggaggctg aggtaggaga atcacttgaa cccaggaRgc agaggttgcg gtgatctgag196021atcacgccat tgcactccag cctgggcaac aagagtgaaa ctctaYctcc aaaaaaaaaa196081aaactgcatg gaagcccaaa cccccagggc aaatggaaca gtcacagcat gccatgcacg196141cacagggtca gagcaagagt atggccaggc gcggtggctc acacctgtaa ttccagcact196201ttgggaggcc gaggtgggca gatcacttca ggtcaggagt tcaagaccag cctggccaac196261aaggtgaaat cccgtctcta ctaaaaatac aaaaattagt tggacattgt aatgggcgcc196321tgtaatctca gctacttggg aggcctgggt attagaatcg cttgaacctg ggaggcggag196381gttgcagtga gttgagattg tgccactgca ctctNcNtgg gtgacagagc aagactctgt196441ctcaaaaata aataaataaa ataacaaagg tgtgaaaagt aggatgggtg tttcctagca196501catctctagt ttctgagggc tctctctaat ggggaccYtc ctcttgaatt gtggtcccat196561gggttccaYc tcttctggga tccagtcagg gcttcttcct tcattctcag gcaccttcag196621Mcttgaaact ccttggcctc ctttcccttc accttcctgg tgaaacataa cagagggtct196681tcgagacaat tcctttaaat catcaaaggg cctatctagc aatgtctaac tccattcctt196741aacgtttact gaaaagctcc tcaaatacat gatcctcccc tctacccgtt cccctcagct196801cttagYcatc cttcctcaga tgStactttt tcatagggac taatttcttc cttcttgcca196861aatccagtgg ccacccgtgg gtggtcctgc tgctcaacca acgtatgaca gtattagcca196921tgcgctcctt gaaacactca gagccttgat tctactcatt catttagttc ctccccaaaa196981gttccctgag cccctgctag gcagtgggga tttggcaata agacccagtc cttagtcctc197041tgctcatctc tccacactcc gctcttatgg ctccaactct cacatcagca aagggctttc197101aaagactcaa agcacctcca cactcattac ctcttgtaat aacaaaattc aactctgcaa197161actttgcaaa acactttata tcgtaatcct tttttcccca cccScactgg gcgaaagaac197221ctattcttgc aaccaacact atcctgaaaa tgtggaaaac ctctaatgga agtgcaacca197281agtgctcctg gaattcgaca tgctttttta tgtccttccc acccctagtt ctcccctccc197341tgcccactct cccttcgcac ttcgcttgcc taccttacag cagagttcat tttgtcggtc197401tcttctaagt ggtgggctcc tggagggctt ccaaYggact gatctctttg tagactccat197461attactcggt gcttaaatat ttgttgaaat gcagcaagat cagggagtaa ttcagcacca197521attgtttacc tgatcctgga aacctcatct ctgccccctc cattccccag gagagtctgc197581ccatttgaaa actgttcctg ggtttatttc tagcatggcc ctggagaggg ctgccctacc197641ccgcagggtc agggaggtga gttttctctc accttgggta ctgcagagcc caccaccagt197701ccaccctgaa acctcaaagc aggcccacag ggtagatatc tagggacctt gaagcaaaca197761tttcacctat tcaggacaca aactaaataa gcttgtgtcg cttagtaatt ctgtaatgtc197821ttacttatgc ccttgggcaa actccttaaa ataYttgttt ctgttttccc atcaataaaa197881tgagaattga agcacctatt tcttaggatt attgtgaaga tttgatgaat taacactagg197941aaatgtgcct agcactgttt aatatgtggc agaggctcaa taaatacatt attattatta198001ttactattat tgacaggtta aaggcctgtg atgatactga ctccagcata actctgatac198061tgcccctttg actcggctag ttttgacaga gggccctttg acaacaccta aaaaacaaac198121cactaaactt tcagttttta aaaaaatacc aggtaagctg ggtacagttg gctcacgcct198181gtaatcccag aacttgggga ggccaaggct agaggatgat aggaggatct cttgaggcca198241gtttttaaca accaactctc cagYgaacta atccattcct gccagaacaa atccagtctt198301acaagagtat gaatattaga gctacaaggt accgccaaga gacagggttt tgctttgttg198361accaagacca gcctggtcaa cataggaaga ccccatctct acaacaaatt taaaaattag198421ccaggcttgg tggcacatac atagtcctag ctactcagga ggctgaggca ggaagatcac198481ttgagccctg gagttggagg ctgcagtgag ttatgatcac gccactgcat tccagcctgg198541gcgacagagc aagaacctgt ctctaaaaca acaacaacaa caacaacaag taatgtgaga198601aacaaatgcc ctccctccct ccctgagggt cacccccagc ctgacctgat ggatgggaaa198661agataagctc agagatgggg taaggataag gtgggagtta ggaatggggt agaggtcagg198721gatggactga gaactaggaa agggaaggat caaagatgga ctggaggtct ggaagcagga198781agagagaaat ggagtaaggg tcagggctgg agaccagcag aaccgaggtg aaatKtagga198841ccatctgatg gatggtcaca ttaataactt taatttttca ccaccagctc ccactacagc198901atccaaacat cctgctctga aggagtggga gcagggacag ggaagaagaa gaaaccttaa198961ctgagtgaac attttaaaac aagcaggaca tttcgaactc aaatagtaag agtcactttg199021ctgtccaaat cccaccagtc cttggtgtaa tactacaagt gggacttaca agcaggaccc199081gcaagaaggt tctagtaact acctcagctt gcaggacgta aaatgcctgg cgaactttgc199141attccaagga caggagtctt ccaaattaaa attttaatag tgtgtgaaaa tagttcgcca199201tttactctta ggatgaggta gtgtttagaa agtcagcctg gaaatccagg ccaacatttt199261cagggatgcc tcctRttctg ggaggagaaa aaccagcttg ttgcttccct ccagtagcac199321aaagcagcag ggaacYggaa agagagaggg gtctgaacag cttcttctac caggaaacca199381gccaaaggtc tccgggcatg taaggacatc tgttttcaga agctatggtt tggattttgg199441cattcttagg agtctaggag caatcctact aatttgggtt ctagctccaa ccatactacc199501tacctgctgt gcgaacccag gcaagtgatt ttacctctct gagcctctgt ttgctcatct199561ggccctctag acaagattaa cttggcagtg ccttgtagct ctaatattca tactctcata199621agactggatt tgttctcaca ggaatgaatt agttccctgg agagttggtt gttaaaacac199681cagggccccc ttgggtttcc ccatcttcac acgtgtctac tttccctttg accttccctg199741ccatgttgtg atgcagaagg aaagccctcg ccagaggaca gggccatgcc cttgaacttc199801tcagcctgca gaaccataag ctaaataaat ctcttttctt tataaatgat ccagttcctg199861gtattccatt acagcaacac agacagacac tcccacatca tcRtcacaca gggcttgggc199921tgcctggccc tggccactgc ctgccaacac caggcctggt ccctccatca tctaggacct199981tggggaacat ggcaccggtg aagggcatgg gggttaYcag aaagagtgag aagtcggcag200041gtcagcacgg ccacacaagc caccctctcc caacttatgt gcaggcatga tggctcccca200101tccaccagca ctcctgaggc cactacacca gggaggaaag Wagtgcatgg ggaggcctgg200161tcacacctgc ccttcctttc agaaccctgc atgtggctga tggcaggtcc tcggcgcctg200221gtggaagaga aagggaaggt ggcactgggc tccacaggca gtgattctca gccctgcttg200281tcactgggag ctggttcctg ggtcccaccc caatctctta tgattccata gatcaggagg200341agacccaaga acccaacttt tcacttagct ctccagggaa taccaatgca aacggccact200401gaccacccct tgagcgccct gtggatgaga gggtggaact agaggttcta gaagcaagtg200461cttgagtccc ctcactagct gaatgactct gggcagttta catctccttt caaaccctca200521actgcccatc tgagaaatgg ggatataaaa gYgtctgctt cttggggtta tttagagaaa200581tacatgagaa aaaggatgga aagcacttag cactgtgcct gtacatgttg agaatctata200641agagaagatc ccctcttact attcaggggt gacttgtaca aatgccttct tccatagcaa200701tcccttacta aactggagca tttcataggg aagatgcgaa taagggcaat gaagcctcag200761atacagaggg cagcggagtg ctgagacacc tccgtgccct cccacaacat cccagtgctg200821tggtccagca acatacccgc cccatccctc caactcagaa catgctcRtt gatgtgcctg200881aacccaggct aaatgggagc acacctatag tgggggttcc cctgtcagag atatgcactg200941caagggcctg cggtccagga cacagaggaa ggaagagacg ggMggagaaY gtgaatcaca201001ttcatgccag ggtgtgttct aatacgtcag caaatgtgta ccgaScttcc gggctgcaga201061ggaaggtggg cgtgtgtggg gttagtgact tgaagggaaa gaggggcatg aaaaagaagg201121gggtgaagag ttagaactgg tgcagcagct gggtctcaca cacaaatggc atgactctac201181ttcacaggaa ctactcagaa agggaaaaga ataactctaa gaaacaaaga tctgcctcca201241aatccaagaa tggcagtaga aaatagggtc ccccacccag caagcaccca catcacgttt201301catcagaaga actctctatt ctcagccagg cctggcacac tgccttgacc ttcccgatcc201361tggagctggg ccctgggctc agaagacccc agactgtcat tgctggaaac agaatcattg201421cagatatagt tagtcaagat gaagtcacac tggaatagag tgagccctaa tcttacagga201481ctagtgagtt agtccatttg tattactata aaggaatgcc taagacttgg taatttgtaa201541agaaaagagg tatatttcac agttctgcag gctgtagagc aaccacggtg ccggcatctg201601cttctggtga ggcttcagga agctacaatc atggcggaag gtgaaaagga gagcaggcgt201661gtcacatggt gagagcaaga ccaaggcagc aagggtggga agtcccagac tttcaaacaa201721ccagatcttg tgtgaactaa ctgggtgaga cttcactcat caccaagtgg acggtgctaa201781gccattcgtg agagatccac cctcatggtc taataatctc ccaccaggcc tcacctccaa201841cattgggaat cacatttcag catgagcttt gcaggggaca aacattcaaa tcatatcaat201901tagtgtcctt ataaaaaagg gaagtttgcc ccatgaagga agagattggg gtgatgtgcc201961tacaaagcaa ggaatgccaa agataagact gccagccaag ccccagaagc cagcagagag202021gcctggaaca gattcttcct cacagccctc agaaggaacc aaccttgcca acaccttgat202081cttggacttt tagcctccag actatgataa aataaatttc tgtgaagtta cccagtctgt202141ggcacttaca gccaccctaa caaactaata cacccagaac cttactatcc ttcaccacac202201cgatcaccaa tgaggcaagt cagaaatttc caaaaagtct ccacatttat ttttctaccc202261aataaaccag acatgataga ggaattcaaa tataaacaag acataggccc tgccttccag202321agctcctagg cacacaaatg ttagtcactt tacactttgc aaaacacttt cacatatatt202381gtctcttgta gatcccccca tctcacattg agatgggaag ggcaaSctgt aggttactcc202441cattctgcag atgagaacac tgagttttgg agagttggtg gcttgctcca gggcacccag202501ccctggagcg gcagagaggg agctgcagta aagtcttgag tccaagacaa cattggtgtg202561gctgttttct ttcagcctgt cttgctgcct ctcctgccgt cttggaacct cttgcctcct202621tcaaacagaa gcccctgcac tgaggtctct tgtatctaag atctgcccca agtgagctcc202681aggaggcaag gagggaggcc agccatgtta aagaccaagt taaagaccaa agtggctgca202741gcaccatgag ataccagtgt agtcccccac cttctctcat agtcccttac cctgaggctg202801ctcccaccag ccccgcttac ctttttccca tccccacccc Mggcccccag cctctcccat202861cccacaggca gggcaggttc ctggtaacag cattgcccag tgttgtcaaa atagcgagga202921gctggaaaga attccagaat gaaatctatg tgcctctgca gcctcccaac tgactgCCac202981tgtggcagct aaacccgcta atgtgctaag cgttttctgg cagggccagg aggcagggtt203041ggtattttgg gagctgggag gggcttggag gcaacatcct cggcaagtct gggaaggagg203101tggaggcagg gaggcaaagg gaaccgaccc agaacacttc ccatgacgtc accgagagcc203161acctgagctg cacctcagga ttcctgaaac actgctggcg gagcggagag tacggagagt203221acgctgggcc cggtgggcag ggctcagcag ggcatggagg ctttgtagct aggcctgggg203281ggagagggcg ctctagtatg ccacttgtca Ygtacacttt ttctgctgac acagagcagt203341gtgcaatgcg tccgggaggc tgggcagccc agggctggcc caagctctgt ttgcctgagt203401tggcagtggc agggcccatg gtgaccaaac aaaagacggg aagccaaacg cccagaggct203461ggcgggtgag gctccctgag agggctctga ggatacaggc actggcgaag aagggccagg203521ggctcatagg gataggaatg ggKttggggg caatgggaac ttgcaggcag ggtcccctct203581ggtttcccag acacaccgca tcgcctctgg gcatcagcct ctccacactg tccttgcttt203641tcgggggctc cttcgaaaat gcttcaaacc atgacaccag gaaggggagc aaaccaccaa203701atctgagatc caaacaaggt cccagcattc ctttgtccct gatgggctYg gctccaaatt203761ctgggagaaa ccagagggtt ttgagagagt caggagaggg gttcagggga caaaaaatag203821ggctggtgaa gaattccttc cgggagccgt ctggtagcag ggagtaccgt gggtggcaag203881gccgtgctgc tcaggtgagg ggacatggtg tcattctggg aacagatgag ccagtaaaac203941cctgacagga ttcaatctgg aggaaaaaaa tcccagctga taggaactgc tgagcgcttg204001cagcttttaa agcccctcta gcaaaaggat ctgcaaaagY tttgcaaact ctgaccacgc204061agccagtcag ccacttccca gcccacagca acgagagagt ttttgctaca tcagaacaaa204121cccactcaca aatatctcat cctggcctcc cccccggcac ccattccttt tgggtctgtg204181tgcctgcctt cctcagaaat gacattttgt cagagcagtg agagatagtg ttgcaggggc204241caaaggcagc cagggggctg gactgcaaMt aggctcccct gctcactagc ggctgacccc204301aggcagggYa cttaaccttt atgaatctca ttttttaatc tgcaaaaatg caaataatga204361agctgctctt acagagttgg tgagaggact aaatgagatg atggatgctg gggctcgagc204421acagaRatga ggggctccat gacggctggt ccccctcctt cccaccttcc tctccagggc204481cctccggcac cataatcagt gtgggaagga tgcagaacaa tgggagttta attcagaggt204541tggcgaggca aaggcatact ttaatagaat tctctctcgc ccagtacatg gtttcttgtc204601caccccaccc acctttcccc atctctaccg gctgatagtc tctcagctag tagacctttt204661cttgtttagc agggccactt tttttaaaaa ctccagacgg gtaccctcca tgttgcaggc204721gacgtggccc tggatcactc aactgactgt catttgaatg gtgcccccag agtgaggcaa204781tggtgcagcc ctcctaaggc ccttcctgag tgtccctcct tcatgaagat gattctgagg204841cttcccaggc cttcaccctt ctttgaaagc ccatagcagt tcatatgcac ttctcttcta204901tgctcaccaa actctgcctt catcatactt gggggatgtg tgtgagagcg agagagagag204961tccagcaggg attagatctg acttttatat tctctacagt gcctggcaca atgctaacac205021atttgatgag gccagaatta ccctgatacc aaaaccagtt aaagacatta ccaaaaagaa205081ctttttcaat attttaattc ttacctcata ccctagataa aaattaactt gagcSgggtg205141tggttgctga cacctgtaat cccagcactt tgggaggctg aagcagacgg atctcttgag205201accaggagtt tgagaccagc ctggccaaca aggtgaaacc ccgtctctac taaaaatata205261aaaattagYt ggtcatgatg gcaggtgcct gtaagcccag ctacttggga ggctgaggag205321aaYtgcttaa ccgggaaggc agatgttgca gtgagccgag atcRcgccac tgcactccag205381cctaggcgac agagcgagac tccgtctcca aaaaaaaaaa aaaattaact cgacatggat205441cgtagagcta aatggaagac taaaactttc aaacttcaga aagaaaactt ggaagaaact205501ttttctaacc ttgggttaag caaaaatttt cttaaatagg acataaaatg catgagtcgt205561aaaggaaaaa aattgataca ttggacttca ccaacatttt aaatgtctac tctttgaaag205621gcactaatat gaaaatgaaa acacaagcta cagactgaga gaaaatattt gcaaaacata205681tatctgataa aggatgttta gtcagaatat ataaagaact cctaaaactc aataagaaga205741caaatgactc catttctttt aaggtcaaag aactgaacag acatttcaca aaagaaaaga205801tacagatggc caaaaagcac atcaaaaaaa aaaggttcaa cattattagt tagcagggaa205861atgcaattaa aatcacaatg agataccgtt aaacatctat tataatggct aaaatttaaa205921aggctgacaa tgccaagctc tggcaaggat atagaataac tacgactctt acacactgcg205981tgtgggaatg ctaactggta cagccacttt ggaaagcagt ttggcaattt cttttaaagt206041taaatataca attatatttt catttctccc agagatttgc tcaaaagaaa taaaaacata206101tgtctacaca aagacctata aataggaata ttcatagcag ctttctgcat aatggccaaa206161acttgggaac acccaagtgc tcatcagttg gtaaatgaat aagcaagttg ccatgcagcc206221acacagtgga acgcacccat acatgcagta acatggataa gtcttaaacg catggtatca206281gttcctattg ctactctaac aaattactaS aaactcagta gcttaaaaca acacagattt206341actgtcttac agttctggag gtcagaacgt ccgaaatcag tctcactggg ccagcatcaa206401ggtcagtttc cttatctttt tcagctccta gaagccacct gcattccttg acccatggcc206461ccttcctcca aagccagttg tgttgcatct tctatctaac tgcttaaggg aacaggactt206521tatcaaggca cagagccaca gcaagtatgg gaaacatata agtagttcca tatttccagg206581gtgtgtaatg taacatttcR aagataagga aactgagatt cagagagatc caatatctta206641cccaaggtcc aggacacagt gaaaatcatg ttcaacccta aggcctctga atccaaatcc206701agagtccacg tgagccctca gacttccctg ccttgaccgt ggatagtcat ctccaccttg206761tctcagagcc ctgcactccc accctWgtac actgcRccag cagctaagcc tgtggagcca206821ggcagaaccc tgggcctccc cacctcccca ccctgggacc aacagattcc cagctccagc206881aggataacat cataacctta ataagattga catttgcatc ctgttttata ttcatcagca206941ttcttacact tacgttatgt tatctggcct tctccatcgt atgagtctaa tggtgcagat207001attctccacc ccacattctc caaccctcag aaagctgagg tactttctta tacagcaagt207061gggtagaagc caagatcaga accttacccc caacccaccc cttgatacca gaagagccta207121ttgactcaga acaaaactca ggcaaacccc ccacctagct gagcttcccc tccttcatct207181gcaggatgga aaacagggta atacctgccc tgcctatcct gatacatcag gcataaatgg207241aaaaaaaaaa aaggaagtag tatgtaaaag cactttggaa atgttaaaat gctatgcaaa207301ttataaggaa ctgttctgat tatactctca agaaatgtca caaattttct ccaaaagtga207361ataattgtca ttacttttca acttcatccc cttgaaaagc cagtttctcc tcctgtcatc207421ttttatttct ggttaaagca gagatgttat actcaacatt ccaactggaa tatcaagatc207481aatctttaat tcctccttcc agcttcaccc tttctgaaat caagaacagg caattctcta207541ctccacccac catctcatcc tcagtttctc ttgccatctg cccccctctg aagctagaaa207601tcaccagcaa ccattttcat tcctcatccc tcYggtctct cctcagtcag agccaaccta207661catgatgcaa aagcaccact ccaatcacct ctctcagagg ctcacagccc cggggggaca207721gcRtccaggg gtcctccacg ggctgcccca gtgaagctct ccagcttgtc tcccatgact207781caccaaccca ggtaagccta aatggccctg tttcccaaaa ctcaactctc ttcccacttt207841tatgtcccca ctatatctgg aactcccttt cccactattt aattagctat gggggtagga207901agaatcaaac tagaccccca gctcttacat caacctaaat atattccaag tgaatcaaag207961aattgtggtt aatggctggg cacggtggct cacacctgta atcccagcac tttaagaggc208021caaggYgggt ggatcacctg aggtcagagg ttcgagacca gcctggctgg gtaacatggc208081aaaaccccgt ctcaactaaa aaataataat aataatacaa aaattagcca ggcatggtgg208141cgcaagccgg tagtcccagc tacttaggag gccaaggcag gagaattgct tgaacccacc208201cagcagatgg atgtttcagt gagccaagat tgcaccattg cactccagcc tgggcaacag208261agcaagacac cacctcacaa caaaaaccac acacacacaa agaattgagg ttaaaaaaaa208321tccagattat atagatgaat atctatctga tagctgaatg gggctggaat ttctaggcta208381catagcaatg gagtaaatca gaggagaata aaatgaataa tagttaacat ttacctattt208441tcacttcttt taactggata tccatatttt aaaagtaaac atacccttta cttcatgttg208501tacacaaaaa ataacaaaat ggatcacaga atgaaagaaa tgctaaaatt agaaaaattc208561cagaagaagg ccaagcacgg tggcctgtaa tcccagcact ttgggaggcc aaggtgggca208621gatcacYtga ggtcacgggt ttgaaaccag cctggccaac aYggtgaaac ccctattaaa208681aatacaaaaa ttagctgggc atggtggtac acacatgtaa tcccagctat tcaaatggct208741gaggcacaag aatcccttga acccaggagt cagaagttgc agtgagcagt gatcgagcca208801ctgcactcca gcttgggcaa cagagcgaga ctctgcctca aaaaaaaaaa caaacttcca208861gaagaaaaca tggggaaaat cttcataacc ttggtgtagg caaagattct taggacacag208921aaaataagaa tcacaaaagg gaaaaataac ctggacttca aaattaaaaa tttctgctct208981tcaaaagaca ttgttatgct gggtgtggtg gctcatacct gtaatcccag cacactggga209041gaccaagacg ggaggatcat ttgagaccag gaattccaga ccagcctggg aaacacagaa209101agaccctaWc tctacaaaga agtttattaa ccaggtgtgg tggctcatgc ctgccgtccc209161agctacatcg caggctgagg cgagaggact gcttgagccc acgagttcga ggttacagta209221agctttgatc atgccattgc actccagtgt gggcaacaaa gaccttgtct ctaaaaagat209281aaaaatttaa aaattaaaaa gacattgttt aagataggag atatggttgt acaacaatgg209341gagtataatt cacaccacta aatactcaac atgattccaa tggcatcttt tatgttacgt209401atattttact acaatttttt taaaagatgt tgttaagagg atgaatagac aagccacaga209461ttgggagaaa tgattcatag tacatatatg tacatagtat agtcatacag tatatagata209521catgtataca cagtacatat atagcacata catgtacata catacatata tgacaaagga209581tctatatcca gaatatataa agaactctag caatttagta ataaggcaaa caacacaaca209641aaagatttga acagaccctg cacaaaagaa gatagccaat aagcacgtga aaatatgctc209701agcatcatca gtcattaggg aaatgcccac taaaactaca gYaagctacY gttcacaccc209761attaaaatgg ctaaaattca aaagactggt aatgtcacct gctggtgaga atatatRgca209821accaaaagca cagccactgc tgacgggaat atgcaatggt gcaaccactt tagaaaatag209881tatggtagct gcttattcta aaaacatgca tttaccatat gattgagaag tttcactact209941aagtatttat ccaaaagaaa tgggggaaaa tggtatgtca aaaaagagac atacacagat210001gctcgtggca actttattca taatagccaa aaactggaaa caacccaaat gtccatcaac210061tggtgaatga ttacaatatt ttggaaaatt catatgatga aaaactcagc aaaaaaaaag210121atgttactgc attggtatca ggactgaaaa aaataaaaat aaaaattagc tgctaatgta210181cacaacaatg Yggataagac ttttttttta aaaggccgag tgaaataagc tagattcaaa210241agagtagata gtggtcaggc atggtggctc acatctataa tcccagcact ttggaaggcc210301tggggcgagt ggattgcttg agcccaggag ttcaagacca gcctgggcRa catgggaaaa210361ccccatctct actaaaaata caaaaattta gccaggtgtg gtgatatgta cctgtggtcc210421cagctactag ggagactgag gtgggaggat cacttgagcc caggaggcaa aggttgcagt210481gagctgagat tgcaccacta cactccaacc tgggcgacaa agtgagaact tgtcttatta210541aaaaacaaaa ggtagatagt gtatgattgt gtttacatga actcttagaa tcagcaaaat210601taatctacag ttacagagag ggggtgagta caaagaggca ctaaggaact tttggggata210661ataataatat tctattgtgg ttacatgggt atacacattt gttaaaattc atagaactat210721ataYtttgaa tgagtacatt ttattgaatg taaattatac catagtttta aaagaacttt210781ttaaaagtca agatgcaaac tggggaaaat atttgccaca tgtatgacaa attaatattc210841ttaatataca aaatgtcatg caaattgata taaaaagcat taagacctca acaggcaaat210901ggccaaaaga cacagaaaag ccacaaaaga ggaaataaga atatctaata aacaggttaa210961aattaaagca atgaaatact gtatttcaca aaccaaatga gcaaatttca cctatcaaat211021gagttttttt gtttttgttt tttgctttga tgataatttt tgttttgttt ttactttaat211081gataatacta gtattgtagg acaagatgag cactcttctg gtaaaaatat aaattgatac211141atttctagaa cacaatttgg aacactatta tataagcttt agcaggaaca ttaaagttaa211201gacccaaaac cttaacaatt ttcagattat ttgacccact tctagaaacc tgtgctaagg211261aataaacaaa gatgaatgat caaaattaga gatttacagg caagagtttt cagccaggca211321ctgtggttca cacctataat cccagcactt tgggaggtca agctgggagg atcacttgag211381gtcaggagtt cgagaccagc ctgggcaaca tgatgaaact ccatctctac aaaaaatttt211441aataattagc ccaggcacag tggctcactc ctgtaatccc agcactttgg gaggctgagg211501caggcagatg acttgagacc aggagttcaa gaccagMctg gacaacatga Kgaaacccca211561tctctaccaa aaatacaaaa attagccgag tgtggtggca catatgtttg taatcccagc211621tgcttgggag gctgaggcat gaaaatcgct tgaacctgRg acgcagaggt tgcagtgagc211681tgtgatcacg ccactgtact ccagcctggg caacagagtg aaactctatc tcaaaaaaaa211741aaaaaaaaaa ttagcgKgcg tggtggcatg cacactactt gggaggctga ggtgggaggc211801agagcctggg aggcagagtc Wgcagtgagc tgaggtcaca ctactgcact ccagcttggg211861caacagagta ggactgtgtc tcaaaacaag aaaaaacaag tctggccatg gcggctcagt211921cctaiaatcc cagcacttaa caaggtagag gcaggaggat agcttaagcc caggagtcca211981agacctgcct gggcaacata gcaagacccc attctccacc aacaaaaggg acaaaaaaga212041atttttatta ctgaccttgt ttctagcaag aaacaatcta ggataagcca ctaggttgag212101taaacgctgg catcaatatg atgaactatc gaatattgtc catggtacaa acttaataaa212161tatttctcaa atatactcaa cgtatacact atataagaac cttagaaagg agtgagatgt212221gtagatgact tacacNNatg ggtagagaaa cacataaaca aattgtttca ttgcagcaaa212281tattggaaat catctaaatg ttcatcaaga gaggtgaaat taggccgagt gtacttgctc212341atgcctgtaa tcccagagct ttgggagacc aaggcaggag gactgcttga ggccaggagt212401tcaagactag actgagtaac atggcgagag ctcatctcca cNaaNttttt ttttNaatta212461gccaggcact gtcgtgtgta cctgtagtcc tagctactca gaaggctaaa gtcagaggat212521cacttgagcc caggagttca aggctgcagt aagctatgac acgccactgc actccagcct212581gggtgacaga gtgagatctt gtattgaaaa aaagaggtga aattaaataa atcatggtat212641gtccacacaa tgaaatgcta tgcatctgtt aaaaacaggc cagatctaat ctatgtccta212701ggctgggcgc agtggcttgt aatcccagcR ctttgggagg ccaagRtggg tggatcacct212761gagatcagga gttcaagatc agcctggcca acatggtgaa accccatctc tactaaaaaa212821tacaaaaaaa ttagcYgggc gtggtagcac atgcctgtaa tcccagctac tcgggaggct212881gaggtRggag gatcacttga acctggaagc cagtggaggt tgtggtgagc caagattgct212941ccactgcatt ccagcctggg caacaagagt gaaactccat ctcaaaaaaa taaaataaaa213001taatctatgt cctagattgt taaaaaaWWt ttaaaggtgc agaacagggc acttggaatg213061ctactatttg aagggagaaa aaaataaaag gacaSataaa tatttatgtt tatataacat213121caccagaaag atacagaaga aaaaacaaaa caggtaagtc tatactgaaa gactagggtc213181tgaggatgtg aaaacagggg tgacagagac ttagatttac tttttgctct caattacttt213241ctgtagtgtt taaatttttt accatataca ggtttttctt tttcaaaaaa acaccaccaa213301aaacaaaaac acagattttt ttttagaagg aaggggagtg ttatggattg agtttcttag213361aaggaaggag agtattatga gttgagtttt ttagaaggaa agagagtgtt atacgttgca213421ttatatcccc tttatatgtt gaagtcctaa cccccctaca ggttgaacat cccaaattca213481caaatctgaa atgcaaaatc ctccaaaatc caaaactttt tgagcatcaa catgactcat213541gaagatctca cccaatttcc cagaagccct cgctcccatc ggactagaat cttcttttga213601gaggcctttc cttttctcat ccctattgca accagtacaa aaagcaaaac agaaagacac213661taaagcaaaa ccaaagtttt agtcacaaaa accaaatggg ttggcgaggg aaggtggtgg213721ttacagggaa ggttttaagc tcaccaggcc ctgtagctga ggtttcaaaa tggcagctag213781ctggacgcca tctggtctaa atctgctcac ccaaacctcc ctccagttct ccaagggatg213841tccctaatta ctagcacagc cagctgccaa catggaatct aggtctccct tctttcaaat213901attagagatg tgagaccaga aagattactt cccaatacca gagaaaaggc tacgagggag213961gaacaaggga gagaaggaga ccttcactgc agcatgcaag gacatggcgg acgcgtccca214021tcccatatct cagctattat gcattcccaa ctggcttggc caacatccag agagactcca214081ggctggtgag tctgtgaatg tgaagtagag ataagcaagg cggcgagggg gagctcgccc214141actgttatat acgggctgca gcattgcgtg gcgaggagtc aggggaatct tccatttcca214201agacatttct gcactcgatc ctgctcccca agactaagaa ttctttMttg gcttcctccc214261actccctgga atgtaactaa gcagttacct tgagaacaag gaaaaattgg gggctaggga214321ggtgtatgag tgttttaatg tgttaaaaat cacatttacc ctggatactt gtttgcaata214381aaacagagag taggaaactc cattcttacc ttcatctatg ggacaggcac ccagtggcaa214441tcattgtgag aaatagggag aggctgatct atgcttaggg agctcagaaa atgctatgct214501tccttccagc tgtagggaag ctgagccact ggggaagagt ggatgcattt ggacaaacag214561gaatggatgg aaggctttct aggagagggg accacatgag caaagcctga agaaggggtg214621gttcttatct agcaatgagg aagtgtgagg agaggcaaag aaatatcttc tagaagctga214681gggatcaggc actggaagct tatctacctt ctccaactcc agggtaccac caaggagagc214741aaaatccaga aacaaggggc acctgcaaag tggtggagga aagaggagga aaggaatgtc214801tgccccRagc ccagccccag ggtcagatgc cgggaaaaat tcctgggatt atttggtgct214861gtatgagatg gatctggagc caccctggct ccaagaggga tgtgggtttg gactggggct214921Kccaggactg gtctggggca agctaaggac actttcacgt gtccacactt ttgtacttgc214981tgttcaccag tatctccttt ccccccftct cctccctgtt catggaaatc cttaaaaatc215041atctcctctg ggaagttctc ctgatgctct cattcagaat taacccacca ttctttatgt215101cgcttcaaca agttgcttgt atctcttttt ccatttacgt tttctttttc tttttttttt215161ttNgtttgtt tgtttgtttg ttttgagaca gagtctcact ctatcgccca ggctggagtg215221taatagcgcc atcttggctc actgcaacct ctgcctcccg ggttcagttc aagccctgct215281cctcctcagt ctcccaagtg gctgggatta caggcacctg ccatcacccc tggctaattt215341ttgtattttt agtagagatg gggtttcacc atgttggcca ggctggtctc gaactcccga215401gctcaRgtga tccgcctact tcagcctccc aaagtgctgg gattacaggc gtgagctacc215461acgaccagcc tacgctttcc tatatgcctt tttttttatt ttttgagatg gagtctcact215521ctgttgccca ggttggagtg cagtggctca atcttggctc actgaaacct ccacctcccg215581gattcaagcg attctcttgc ctcaacctcc caagtagctg agactacagg cgcatgccac215641catgcccaac taatttttgt atttttagta aagatggggt ttcaccatgt cggccaggct215701ggtcttgaag tcctgacctt aggtgatcca cctgtctcag cctcccaaag ttctgggatt215761acaggcatgg gccaccgtgc ccagcctatg ccttgtctta taattagtct ccctctcttc215821taaatgtaaa ctctcagatg tcaagaacta gatcttatac atctttctga ccccatcccc215881cagcaccagc tcttccccag agcagacact cagtaaatac ttattgaatt gaatatacag215941acccacaagg agcaacctgg tactggcgga catttttgat tcctgcatcc attcattcat216001ttgctcaaca accatgtgag tgcctaatac ctgccaacct ggctcacact ctctcacaga216061gcacactcRa attgtttcat caaccagcta aaagtaagtt cagtatcaat tcagggcttc216121ttttcagttc tagaacatag aaaatttcac aggatcacct gaacaccgca gggcgggtgc216181agcctacatc ccattgcctg tttctgtcca gatggaaagt cacaccctca agaaggcccc216241tggggaagac agattgtctg ggatgtggat gagggccccc acaggctctg cccagcccag216301cccagcccag cccagcccag cccacccagg ggaaccctag atacacctat cacaggagat216361ggcagttaag ataactctat ctacatacac agtaccctgt ggatactaag taaggagctg216421gtcatttgga atgaggcagg agagctctag gaagtcctct ctgcagagta gatgtggcca216481tggaggtggg aggattaact gaaggtcata agaaaagtct gcccttctca gagatcaata216541agtgcaaatt acttgagagt ccaggaactg ctctgccatg gaggaaaaat acagatgggg216601gcaggggcgg gaaaggaagg gggcaggtta gggacagtca ttgatctcgg cgggctcttc216661caagtctaaa attgtaggat tctaacctga acctcccctg ccaacaactt gaaagagttg216721tcttgagatc agggacatgt ggagagaaag ttgaatagca tgtcagataa taaaccaaga216781agaaattgtg aagtcaaaac aagggataaa ttttccttat ctctctaaga catgcatcaa216841agcagctgRc tgctgtctgc ctggcctggg aagatgataa tggtttttaa tggcccgtaa216901acaataggac cagcctttgt aataaagttt aaccaattaa tcctctaggc ttcctccctg216961cactctgcct actctccgct cctcctttct gtgatggggc aaccttcagg ggtctgaaaa217021gcaagggatc cagcccctag acgcaaacct ataggtgaca ataagagttg cccagaggaa217081gtgctaaaga aaattgcctc tatcctgatc tggctaaaag gaggaagaaK ccctcttttc217141agSgaaaagg agaggagaga tgatgcatca aggaatttgc acaagaggta aacttcattc217201ttattcagga gctcattcat tcattcagca aacattcatg aacacctact atgtgcaagg217261catctgcaga gggtgcaaaa atatacaaag aaaatacctg cccaagatgg aattaaagcc217321tggagggggt ggtactggga acaagacaca ttcacagatg gccgggcgcg gtggctcacg217381cctgtagttc cagcactttg ggaggcagac gtgggtggat cacgaagtca tgagatcaag217441accatcctgg caaagatggt gaaaccccgt ctctattaaa aatacaaaaa attagctggg217501catggtggcg cgtgcctgta gtcccagcta ctcgggaggc tgaggcagga gaatcgcttg217561aaactggaag gtggaggttg cagtgagcca agattgtgcc actgcactcc agcctgggca217621acaagagcga aactccatct caaaaaaaaa aaaaaaNgac acattcacag atatcaatcg217681taaaagttag tacaatagcc tctgcaaacc actgtataag tccaNcttct ttttccattt217741cttctttcat gtgccatgtt ccgcttgggg tggttacgac agacaatatt cagaaaatgg217801aagaatcaga aagagaagaa agtggaacac acaagagaaa gaaaaccaag gccctcctcc217861ctcctgccat ggccctctct gtcttcagcc ctagttctgg aaaagaaaag ggtgtgttgt217921cactagaggc ctccaggcag gtccatgcca ctgagtcaca tttcaagctg tgtttgcttc217981ctacaccaac aaggcatatc ttttctgaat tgtgcaatat tctggccacc tgggtttttc218041tacttggtat accaactcct agtactcaac aaccattccc tttactcttt tttttttttt218101tttttttttt tttttgagac agagtctcac tctgcacaat ctcggctcac tgcaacctcc218161gcctcccaag ttcaagcgat tctccctgtc tcagcctccc aagtagctgg gactacaggt218221gcccaccgcc atgcccagct aatttctttt ttacttttag tagagacagg gcttctccat218281gttggccagg ctggtctcaa actcctgacc tcaggtgatc tgcctgcctc agcctcccaa218341agtgctggga ttacaggtgt gagccactgc gcctggcccc cctttactct taaatacagt218401gtgtgccagc tgtagtagtt tatgcctgta ctccRagcat ctcaggaggc tgaggcagga218461ggatcacttg agcccaagag ctttaggctg tagtaagcca aggtcacacc actgcattct218521agcctgggca acagagcaag accctgactc ttaaaaaaaa atacaatgtg taatggtgat218581ataataattc aaaggttaat catctctact tttgaaaaca ataatgaata ccttgctttg218641catttgttta gcctcacatt tttttcagag ttcttcaaaa aatattatct catgttcatg218701ctacaagcaa ccttggRtgg taacaaaggt taaacatcat tatttccact ttaaattttc218761cctcctttct ccatttgttt tctactcaac aaacagtggt tgagtacctg cYatgtgcta218821agcacYatgc tgggtacagg gtcatgcaac atagcagaaa aacagcagat cMtgccttca218881acaggttcaY agagctatgg ggaggagaag tgaggacgtg gtccctgtct ccagggtctg218941gggSatcttc tagaggagaa gattgagaca agcattaaaa gattatcatg ggccaggtgt219001ggtgctcaca cctataatct caacactttg ggaggccaag gcaagaggat cgcttgagcc219061tgggaggtgg aggctgcagt gagccatgat ggtgccactg cactgcagcc tgggcaacaa219121agtgagacca tgtcttaaaa aaaaaaaaaa acttaatatg attttaccag gtagaaaaga219181gaggaaaggg gattccagag agtgggccag caatctatgc acagagaaRa gtgagccatc219241tggggcatcc agaccatggg gtgaggagca atgaagggca aaggctgaga aagactgaaR219301agggaggctg ggcccaaaca acggagccaa gagtgccttg ccaaggagtt tggactttat219361cctgggggca atgaggaaat cactgaaggt tttaagcaga ggtgggtgac gtgatcagat219421ttgtgtttca gcaagattac cctggccacg ggatggagaa agcactggac tgggaagaga219481ctgggcagac tctagaaaca ttcccaaaat agaattcgca ggactgggtg tcccactgga219541gataggagga aaaggagata atagaaacag ccttctcact tgggcttgag gggccctcgt219601ccaatatagg agaccagtaa gaaagccttg cccaaggtca cctcaagtta cttgatggct219661aactcgaatc aagaagctca agttccttct ggtagaaacc tcttagtctg cctcattcac219721attgatcagc aaataaattt aaccatcatc tgccagRctt tccttgtttt ccactttata219781catgtgcact ttttgtccta tggagattat taagatcatt agggcaaaat tccttttgac219841ctcccataag gcctctcaca gtacaagaca atatgtggtc aataaatatt tgttattaaa219901tcaaactcca ggagccccaa gaacccatca ccaggcattg ccttacttac aacatgagat219961atttgccttc tttaatccct aataaacagt tttttgtttt tgagacagag tcttgctctg220021ttgcccaggc tggagtgcag tggcacggtc tcggctcact gcaacctctg cctcccaggt220081tcaagtgatt ctcctgcctc agcctcccaa gtagctggga ttacaggtgc ccaccaccac220141gcccagctaa ttttttgtat ttttagtaga gacagggttt caccatgttg gccaagctgg220201tctcaaactc ctgaccttgt gatctgcctg cctcagcctc ccaaagtgct gggattacag220261acgtgagcca ctgcatctgg ccaacagtat tttttattta attcctagat aaagtaattc220321ctagatgctt gaatttcaca atccaagata attttttttt gagacagagt ctcgctctgt220381cacccaggct ggagtgcagt ggcgtgatct ctgctcattg caacctcacc tcccaggttc220441aagtgattct cctgcctcag cctcccaagt agctgggatt acaggcgcct gctaccacac220501ccagctaact tttttgtatt ttttagtaga gaYggggttt caccatgttg accaggctgg220561tttcaaactc ctgatctcaa gtgatccgcc cacctcggct tcccaaagtg ttaggattac220621aggcgtgagc caccatgccc agccacagtc caagatattt ctaacaacaa caacaaaatt220681ggagcgttca atgtggtctt gccaactttt gttttaacac cattgtttct taaaagaaag220741aacattgaat acatatcccc aaagtcagga taatataatt ttaagatgaa ttttccaaat220801taaatcagag ttcctcaacc tcagaccaat taacactgga ctgaagaatt ctttgctatg220861gcagtggagg ggaaggagaa gggggagctg tgggcaaaat tgcaccagtt cagaaccact220921gaatttttta aagtacgctt tcttaaaaat ccagttacac tgtccttata ttttggatca220981gtgaaaacta tcacagactg ccaccagtcc ataaacagct tttgggaaca agagactcag221041aggtgaagaa tgtggaattt gaaatcagac ttgaactcaa atcccagttc cacctctcct221101cattccctga ccttgagcaa ggcactgttc caagcctccc tttcctcccc tgcacagcga221161ggacaatacc accccatccc agttgtgggg aggattcaat ggaatagatg tgacgcactt221221agcatgtgac catcgggaac ggaagtatga cattattaac attatttcta ccacttctat221281aacatatgtg gtatctaata caaattaatg actgctaccc aaatttcaga ctttctgggt221341caaaaggacc ttacacataa tatagtggac tttcaataaa cacttaccaa atggacaaat221401gaaccccttg tcaccccgat ctcactagtt ccttccctga aacccgacac atctgagtcc221461ttttctcctt tactaaccct ttctccaatc ctgctcatgg gaattaaagc tgtaaaataa221521gcctggcgca cctYgggcct ctgccctggg ctctgtgggt gggagcactg tggaagccgt221581atcaatcgcc cccacctatg agagcctttc ttcagggcca gccatgaacg tYccccatgt221641catcagcatc ttcaggctac tgctgtcctt cttggatatt taacctggag gcgggccagg221701gacagaaaaa ggaggtggca agatccttga acaaaaggag ctataaaagg gcgttggggg221761aagcaaggca aacggcagat taaacaagca ggcacctcaa ggaaacgtga cgcgggaggg221821gattccgagc ctctctgtct gcttacttga cagcaagcag gtcagagttc ctgccatttc221881cttctagtag aaaccccacc aagaccacct ccccgccttg gcaggcaaag cactggtagc221941tctcccaagg gaaaaaaaaa acaaaaaaca cacactcctt gttacaaacc agacacagtc222001ctggacagag cccagctaac aataaatttc tggggttcat ctcacaagta cattaagtat222061cttctgacaa tctcccaaag ggctgggttt ttctggccat cacagggctg tagaatattg222121agtacaagga gagggcttca agaacagggg atccaagccc tcgtttcatt gatggggaaa222181ctgaggctca gagaggggga aggaacttgt tcaggatcat ccaagtatgc tccYgtcagt222241Rgcagcactg agccaagaac tcaaggcttc agttttggca ctgggttttg ccagaggctt222301gaaaacatac caagaagtgg aaggtgtact atgagctaaa tctcactttt cctgaaaata222361tagatgtgtg ctcacacagg cacacatgtg cataaaaggt agggaaagag gaaaacaaat222421gtagcaaaat gctagtaaat ggtgaatcta agcaaagRgg atattggtgt tcattgctct222481attttcacaa cttttcagaa ggcttgccat ttttccaaga aaaatctgag gaagggctag222541gtgtggtggc tcatgcctgt aatcccagca ctttgggaag ccaaggtggg aggatcgctt222601gaggtcaaga atttgagacc agcctgggca acataacaag accccatctc aacaaaaaaa222661ttaaaaattg ccaggcatgg tggctcacac ctgtagtccc agctactcag taggctgaag222721caggaggatc gcttKagccc aggagttcRa ggctgcaatg agctatgatt gcactactgc222781actctagcct gggcaacaga gtaagaccat gtttctttaa aaaaaattaa aattaaaaaa222841taaaaaattt tgagggagaa agataaagca ctaactagca atctaagata aaaaattttt222901ttaaaaaaat cacttggaaa agagtaggaa ttcctccttc aatttcattc agtttcccta222961gctagggact aatatcctta gaaaaagtta taagaaatcc agaggttaaa ggggtgggac223021tccaaacaag taagagatcg ccagtattca tagcagtccg cagctacagc aatcttagaa223081tccaaatacg atttcagata ttttgtccca tcagctccta aaatacatat attctggtca223141caccatgtat cctctgttgt ttttggtgca aaaagtaaag taaccaYgaa ctacagatag223201ggcaaatgtc agaatttttc caggggactt tatcaccttt gcaatacagg tagtttataa223261atgcaataca atatagttta atttctattc aatttgcaaa ttctttcaca tgagtaaatc223321atttaatcaa aatccacatc caacccacac tcaccatgtt ctctatccat attagtattt223381ggtttgggcc atactgggtc cataatccag ccctgaaaat ctatcctggg ccacatatat223441aactcatacc aatagcaggg cactcaaggc atgaagattt gagggaacac aacctatcca223501agaaacctca aggaattcct tatggctgaa gtaaggtctg aggaaaccat gagcagggga223561atatgacttg gagagaaggt agaggttaaa tccaggaggg ctcatacacc caacaaagga223621gttggaagtt tatccttcag aaaacaagga gtcactgaag ggttttaagt aggcagtgat223681ataattggat cattctggca gagtacagat ggatgaaagt aactcaaagc taggaagact223741atcggaatga caaagacctg aactaaggca gtctgagcgg gagtgaactg ataacacatt223801aggaagagct attgaccaca gcaaatggac aaaactgggt gggaagaggg cagatgtgtc223861tgagagagac agaaaggatc ccagatgacg tctagcttgg ccaactaggt agacgatgac223921aacactcacc ctgacgggga atccgggagg aggcgaaggc ttggcagagg aacgtggtga223981gttttgaacg tgttgaggtc ctggttggat atacaaatat ggagctccag aaagaagccc224041aggatgaata tgtgcattgg gagtaaccaa cattaatgta cggggatgga tgccaagggt224101gcagaggagg tcagccagag aattgggggc aaaacaagaa ctgagtcaag gacagaaact224161ctgggggaaa aaaaaaattt aagggcagtc agggaagaag agaccccaaa aaacgttgag224221gagtagccaa agaggtaaag acctaggcct gcttttaagt gacccactaa actcctccat224281ctccacaggc tggtcacacc atgctggggc tggggaagga ataatcatgt gttaaaataa224341actcatttct caatgaaaag acaaacagcc caatttaaaa atgggcaaat aacaaataga224401catttctcca cagaaaacat acaaatggcc aatagacaca tgaaaacata ggaagtatca224461ttcggtcatt agggaaatgc aaatcaaaac cacaatgagg ccgggcatgg aagctcacgc224521ctgtaatccc agcactttgg gaggtcgagg caggtggatc acttgaggcc aggagttcga224581aaccagcctg gctaacatgg tgaaactcct tctctactaa aaatacaaaa attagccagg224641tgtgctggtg cacgcctgta atcccagctg ctcaagaggc tgaggcacga gaattgaacc224701tgggaggaga aggttgccgt gagccgagac tgcgccattg cactccagcc cgagtgacag224761agtgagactc tgtctcaaaa caaacaaaca aataaacaaa aaacccacaa tgaggccagg224821catggagtct gacgcctgta acgccaacac tttgggaggc caaggcgggt ggattacttg224881aggtcaggag tttgagacca gcctggccaa tatggtgaaa tcccatctct actaaaaata224941caaaaattag ctgggcatgg tggcaggcat ctgtaatccc agctattcgg gaggctgagg225001caagagaatc acttgaaccg gggaggcaga ggttgcagtg agccgagatc gtgccactgt225061actccagcct gggtaacaga gtgagactgt ctcaaaaaaa aaaaaaaaaa aaaaatcaga225121taccacttca cacctggtgg gatggctaga gtcacaaaga ggtagaggaa ctggaccccc225181catacatcac tgattggaac acaaaatgcc acagtcactg tggaaaacag cttggcagtt225241cctcaaaact tcaaacacag agttattata tgacccagaa actcctcccc taggtatata225301cccaaaagaa ttgaaagcat atgtccacgc caagacttgt acatgaaagt ttgtgttagc225361attcttcata acagccaaaa agcagagata aagcaaatgt ccatcaacag atgaataggt225421aaatcaaatg tggcgtattc atacaaggga ctattattca gccataaaaa ggaagggagt225481actgaaacat gcaacaacat ggctgaacgc tgaaaacatt atgctgagtg acagaagcca225541gatacaaagg ccacatgtgt tatatgattt catctctatg gaatatctag aatagggaaa225601tccaaggaga caaaaagcag attagtggtt accaggggta gaggggacag gggagtgggg225661agtgtctgct tcctgagtgc agaatttctt ttttcttttt ctgtcaccca ggctggagtg225721cagtggtata gtctaggctc actgcaacca ccgcctcccg ggttcaagca attctcctgc225781ctcagcgtcc tgagtagctg ggattacagg tgcacgccac catgccccgc taatgtttgt225841atttttagta gagacgggat ttcaccgtgt tggccaggct ggtctcaaac ccctgacctc225901gtgatcctcc ctcctcggcc tcccaaagtg ctggaattac aggcatgagg ccaccatgcc225961aggccaggat ttctttgtag ggtgatgaaa atgttccggc atcagatgtg gatgatggcg226021gatgtactaa ccaccactga attacgcact ttcaaatggt tagaatggtg aattttatgt226081tgtgtgaatt ttctctcaac agaaaaattc aatcatcctt tacaaagtga cccacagcca226141caaggagctg gggaagcagt ttctccagct tgcagcagga gctccagata ttctgagtaa226201agaagccaaa cagcctgctt cccgggagac ccttaaatgt cttcacacat ccacagctgg226261gggaggagac gctgatgaac aggagaagat ggagcatcgg cctcccctgg ctactcactc226321tgtgctcggg ccgcctcgcc cacttgtaaa accccaaatg ccagggtggc agcaaggcat226381acatgcaact atgacttgac ccgcagcgag gcagcaacca ggtctcacct gggcatagtt226441accccacaag gacaggaaag gagaaatggt ttccaggccc aggacaccca gaagccacca226501aaaaccaacc tcatggttca tcccccttat ttgactcttc gacacctaaa acctgtgcgt226561tgtgttcaag atacacccgc cggagaccac attcccagac atcccgaggg ccagccgtca226621ccacaSgggt gcctcgggga gatgctggag acacaagtgg ctttgaaatt agcacaactt226681acatggcctc caggtctgct gtggaaatcc aggtccaaag aagaagccag tgaggaacag226741gaggctgatc attgtgttct cagaaggggt tggagcctct ggggaggggg cactgaggac226801agagcacggt gttctgcaga tcatatcaca tctctacttc cctctccagt gatatgcttc226861cctcRctctc ccattttgct ccctctctcc tgccaaactc ccagggcaac cctggataat226921aaagtgaccg aatgtgaatg cttccaggtg gcacaccagc actccagaga aactgtcaga226981gcagggggca aacccctggc ctactccagc cactggataa gcgcaccctc ctccatgcct227041ccctgctcct gcctgccctg aagggagaag gagcgcaatg aaactaggtc ttcccttggg227101gttctgacca cctcgtgggg agattatgat tgccctgtgg ttgccatgcc tactgtgatg227161tcactccttt tatcagtcta tctggatgaa tttttccccc ttttctctga aggaaacctc227221ctacccagtg cttaggagcc cattgggagc tcccgccctt gtcttatctc gatctgggac227281ctcagaagac tccacattcc taacaggact agctctcagg atgaagaaaa tctctctcaa227341gctggtcaat ctactcctag atttaagcag aaccaaacag aacctatttc aacatcccct227401ctcagaatgc aaacaggaga cggctgtgtg gaaagatcca atcaccttta cttaattggt227461cagaataaaa tcactttttt ctttttaagg cagagtttcc ttctgtggcc cacactggag227521tgcactggcg caatctcagc tcactgcMac ctccacctcc caggttcaag caattctcct227581gcctcagcct cctgagtagc tggaattaca ggcgcgcacc accacacctg gctaattttt227641gtgtttttta gtagagacag ggtttcacca tgttggccag actggtctcR aattcctgac227701ctcaagtgat ccacccgtct cggccaccca aagtgctggg attacaggca tgaaccacca227761cacctggcca gaatcacttt ttcagtaaaa taagtgcaaa gaagaatgag ggtgKgggaa227821aggtttactg atcccacact ttgtcatgca cagaggaagg caaagaaaga aagaaaactc227881tttcctaaat gatcacttgt ctccagcagg tgtatcttga ccattccagc catggatcta227941tagggagttt catgccaatg aaaagcattt ttttggggtc ctactatgca tcaggcactg228001tggcaggtac tggagactta gtcccagccc ttaaagaact aataatagga tcatggccag228061gcgtggtggc tcacgcctgt aatcccagca ctttgggaag ccgaggcggg tggatcatca228121gaggtcagga gttcgagacc agcctggcca acatggtgaa accccatctc tactaaaaat228181acaaaaatta gctgggcgca gtggcagtca cctgtaatcc cagctacttg ggaggctgag228241gcagaagaat cgcttgaacc tgggaggcag aggttgcagt gagccaagat tgtgccattg228301cactccagcc tgggagacag agcaagactc catctcgaaa aaataaaaaa agaaaagaaa228361gaaaaaaaag atcactgttc acaatcacaa catttacaca gcctccttca aaagaatttc228421ttctctagaa agataagctg agagaccaga cagttYgtct gcggccttca tgaagtgaaa228481ggaggcagag aagaaaggag ttggccatgg acaggttttg ccccagatcc ttgagtgaag228541accccagcct gctgcaagct ttttcctcat tctgtcctcc cctcctggaa tctgtggcag228601cttccacagg cggtgaaaga aggcagcaag cagtggctcc agtgccagct gcagcaacca228661caccagggga atggggccat ctgacacaga gagggtgtga gggccaggga gactgtccct228721gtagccagct aacccctcca gtcaagtcga ctttcacaaa atgggcctgc tcctggaagt228781cattgatgcc attgttaaaa cacagcacca ggccgggcac ggtggctcac gcctgtaatt228841ccagcactct gggaggccga gacgggcaga tcacttgagg tcaggagttc gagaccagcc228901tggccaacat ggtgaaactt tgtctctact aaaaatacaa aaattagctg ggcgtggtgg228961tgcacacctg taatctcagc tgttcagaag gctgaggcag gagaatcact taaacccagg229021aggcRgaggt tgccatgagt cgagatcgag ccactgcact cctgcctggg caacagagtg229081agacYctgtc tccaaaaaac agcaccctgg agaagacagc agtccattca cactggaaac229141atccagactt attacataaa aatggcaatt agtggccagg cacagtaact cacgcctgta229201atcccagcac tttgggaggc cgaggtggcg gtgtaatccc agctactcgg gaggctgagg229261caggagaatc gcttgaaccc aggaggtgaa ggttgcagtg agctgaaatc acaccactgc229321acttcatcct ggatgacaga acgagactcc gtctcaaaaa aaaaaaaggc aattactgtt229381ggcatcagca gcacagttgt tttcagccaa aacttaagac acagaactag ccttatcttt229441ccagtatatg gtatgtctct tgctattttt tgcaaattat ctatcatata tattatcata229501tatattcttt tttttttttt tttttttttt ttttttttgg agacagaatc tcgctgttgc229561ccaggctgga gttcagtggc atgatctcgg ctcactgcaa actctgcctc ccgggctcaa229621gcaatttttg cacctcagtc ccctgagtag ctgggattac aggagcacgc caccacaccc229681agctaatttt tgtattttta gtagagacgg ggcttcgcca tgttggccag gctggtctca229741aactcttggc ctcaagtgat ccatctgcct cagcctccca aagagctggg attacaggtg229801tgagccaccg catctggcca tatatattct tttaatggca agcgggaaca aaatcgtatt229861cccattttct gaatgagaaa accaagccta aaagagggac tcccaagtaa tatcaacttg229921caaacctatg aatttttatc ttaaatactg gctttgaggg acctttggca acagcaaagg229981cattcggcaa tttgtgtgga agtcacatta ccagcccacc gaataagcca caactatgag230041ttcttccgtg attagcgggg ctggggatgt ggcaggcagg cgtggaagtg agatccacgt230101gaaagaccta agcactgact ccccgaggga ctggcgaaat gacgcagggg ccagatagat230161gtcagatttg gccaaagtgt cctcctttct cacaagcccg tctgcctttc acctgtcctg230221aggtaggaca accggatgcc ctactttgct gtgcagcccc actctcttgg ggacagtagc230281ccaaacaggc tgctcttgct acacacagat aagaagcttt gccacccaaa accaagaaag230341gggccggtga ggacacacag ggaatgctca ctcagtggtg gctgagtttg tggaagtagc230401aaaacctgca ctgtaggacc cacacctgtg agagagggcc ccacgggaat ctcagcttgg230461atcaaagcag gcgggtgctc actccactga gggcagcaga gcccagctcc aggtgcgatc230521aggaagtgac ctgagaagct ggagttctgg actcacagac ccaggcttga atttcagcac230581cactcagtca ctgtgtggtc ttgagtgact tgcccttgtt tttcctcatc cataaaatag230641ggataaaaat acctgacctt gaaaaattat acgaatgcca gcacacagta catacgcaca230701gcagagacag gagctagaat tattgatttg ccaaatgcag cagtgtctgg actcagccgc230761ccacttctga ccaatggcct tcacttgtaa cacagctgat ctggagggta aagcctgcag230821ccgtggaacc aagctctcgc caaggtaact gacccatgtg gggctcagag ccttgttctt230881actagaacca ctctagtttg tttgattttt tttatttatt tatacacata attctgtgca230941ttcctttatg catatgtata catatatatg catatgtata atttattcaa atagcatcat231001atcactgata ctattctcct acgccctacc ctcccacatg gctactcaca gcccctgcct231061ttccaggcgg cccgtgttaa catcttagtt tgtatccttc cacaattctc cccatattca231121tgtaatttta cacacacaca cactgaatag tgaagttttg gacagtgtgg gggcgttatt231181gtttaacaaa aatggaatta tacatcatac acagtctctc cctctttttt tattctacca231241taatttgcca aaatcctttt aatggttctg ttataattca tgatataaag gtgtcaaagc231301tattcagcca ttcctctact gatgggaatt cactcagttt caacttttgg ccactaccaa231361caaaaaagca ataaattcct tgacagtatg tcctaaccaa agaccatttt ccaaccagac231421aaaaggccag gtcccaggat gtgagggtca cccatgaaaa ggacctcatg atgaactcct231481gattcagcca catcatcctt aaaattctcc ttagaagaga gaccctctgc tcctagaaat231541acaaattccc aggcatgggt ctggcttcca aactctagct cctccagttc ttactgcatc231601aagtcaattc tgcaggtctt cattttccca tctgtaaaat aaaatcataa ctgccttagg231661cggcaggatt tgagagtgct ttagcaaggg atttttatga gggagcagtg tgtgaaataa231721tatttttgct gtaattctgt gagatgttgt ttctagNttg tNtgggggtc agggaaggga231781gggcaaaaca gaactaacag attcaattaa gttccctctg agactcaagg tccctattta231841taaggtacct ggggctggat gggaaggcac ttctatcttc tgcatttctg aaacacctgg231901tactgtggtt gtttacaagg aaaacttagg aactggacag gggagctttg gagtgtctac231961ttgcccagtt ttgtcagatt ccaaagaggg gcaactataa ttgaaattat aagaagaatg232021gtccaatcag caaattttgg aaaatctgta atctcactgg tgtttgattt tcactcaaaa232081attccctaag ctctacattt cattcagtaa aaagttgggg ttaggggaga gatggagaac232141ttcttttgca ggggtatagt gatttatttg gtctattctt gaaaaaaaat gagaaatttt232201gggaaaacaa tcttaaaatt tccatttcga gtagcagttc taaaagactt tcaagagcct232261ctctgaaaag aagcagttac agcaacttga atgaatttac ctggttatca tatggctcac232321atgcatgaga gtgggggaga agacacggta aaatcaacag agttcgtgtc atgatattct232381gctttaaaac ccaaatcaag gccaggcaca gtggcttatg cctataatcc cagcactttg232441ggaggccaag ataggatgac tgcttgaggc tgggagtttg agaccagcct ggaaaatatc232501atgagactcc tctctctaca aaagaaattt ttttgtaatt agctgggtgt ggtggtacac232561ctgtaatcct agctattcag gaggctgagg taggaggatc gcttgagccc aggaggtcaa232621gcctgcaagg agctatgatt ataccactgc actccagcct ggatgacaga gtgagaccct232681gtctctaaga aaaaaaaaaa aaaaacctca aaacctgact atagaaKaat tttcttcatc232741aaaatcgaat caagcagata attggcaccc ctttggaaaa ggattcagca gcctctactg232801aacatacgcc tgccccatga cccagtaact cccctgcaag gtgtatatac ttaaggtctc232861caaaagacaa gtaccagcat gttcccagca ccactactca tggaagaccc agaccaaaaa232921ctaccacatg ctcatcaaaa gtaaaatggg aaaaKaaatc atggtgaatt tacataacag232981agcactatat agcgatgaga atgaatgatc tacaaccaca gccaacgctg ggtgaatctc233041acaaacgcaa tgttaaaggg gaaatccagc tagtaaagtg aacgtgctag aagattccgt233101tcgatggggt tagactcaga atagtcaccc ttggtgggat ggggtaggga gcgttggggt233161gcctggaagg ggcacggcta ggcttctgtg atgtttcttc atctgggggt ttgtgacaca233221agcatgctca acttgtgaat tttgggtggt gaacatatgt gcactttttg gtatgtatgt233281tatacttcag tttttaaaac tKaagaaatt agccaatgaa caaaaataaa catgattgtg233341agctgggcat ggtggctcac actggtaatc ccagcacttt gggaggccga ggcaggcgga233401tcacgaggtc aggagtttaa gaccagcctg gccaacatgg cgaaaccctg tctctactaa233461aaatataaaa aattagccag gcgtggtggc agacgcttgt tatcccagct actcaggagg233521ctgaggcaag agaatcactt gaacccagga ggcagaggtt gcagtgagcc gagatcatac233581cactgcactc caacccgggt gacagtgtga gactccatct caaaaaaaWa aataaataaa233641taaacatgat taaggataaa gcaatccagY ggacaaggct cttggagcca tattttattt233701gKcatgtatc attcYgggga gctctcctct gtcaatgcca agactagcta gtcgagtgtg233761gagaaaaggc attctgtgag aacagatgaa agggaacaga gaaactggca ctttctttgg233821aaaagagttg tttccaaaac ctagatgtgc agcctctacc ccaggtaatt agtccaacac233881actatccatt acagctgagt ccgggtttgc ttcaaaagca tcgggggttt tttgggtttt233941gcttccctta aaaaaaaact tgttttgaat gaggggaaaa aggcgtagtt aatttttata234001cagaaatctg ttaaagagat ctgatcaatg gtgacaaaat ggaagccaga gatggaaaag234061attcactgtg aggctctggc actgaaggcc aacttgggct tccattcagt tcaataataa234121tatttatcat agctgctaac aatttttttc tcttttttga gatggagttt cactctggtt234181gcccaggctg gagtgcaatg gcgtgacctc ggctcactgc aacctccacc tcccgagttc234241aagtgattct ccggcctcag cctcctgagt agctgggatt acaggcatgt gccaccatgc234301ccagctaatt ttttattttt agtagagatg gggtttctcc atgttggtca ggctggtctc234361aaactcccaa cctcaggtga tccacccgcc tcagcctccc aaagtgctgg gattacaggc234421gtgagccacc acacccagcc aatagctgct aagacttacg caggtttaca tatgctaggc234481attgctctct gagcttatat atattaactc attccatctc tatctatgag gttgggattg234541atataatccc cactttacac ccagagaggg taataacttg cccaaagtca cacagctaat234601aagtgacaaa gctaggcagt ttggctagag tctgtgctct taacaattat accatattgt234661ttcctagtaa gcatttctta tgcccgtact atgtgctggg caccatgctg gacaaaagga234721gtactgagat atataaaaca cgggtacaca cataacaggt tctagtccat gcaatgatga234781gaatcataca ggcattctga ggtctaattt cagaacaaaa cgttagaaaa ctgcctccac234841acatctggac attaagacta aaatgcagtg cctgttttct cattggtatt attctattca234901atagagtcaa ttttaagact aagcattcct tgacacccca cccatccttg ggtcatgaaa234961ctcaataaag ctctcttcat tttgattgga ggggggaaaa ttccccgtaa atatgtttgc235021ttctttttcc tgaatcaccc tcttgtgtga aaaggattgc ttaccactga tctaacaggg235081tcttgaatac agggtccctc agagggtaca agaagcccag gtgttcaggt tattaaaaaa235141tgaagaaatg caaagcagga ttacaacatt tttggcacat tatagatcct cacacaacaa235201atttacattt tcacacacac tcacgcacaa acacacatac aaagtcaaat acacaatgta235261aaataattat gatcacaaga ggatgatagg ctctacattt ttaaatattg actcagaatg235321ccctgggaat gacgtggtca aggcacagac tgtgcatttg acactttgtg atgaacatct235381tggtgcacat ataatctagt gcacagataa tgtcaaagtc tcattagaat cctccatgga235441accaggtatg gtggctcata cctgtaaatc ccagtagttt gggaggtcaa ggccagacga235501tcacaaccag gagttcaaga ccagcctggg caacatagtg agtccctgac tctacaacaa235561atttaaaaat tagccaggcg tggtggcacc cgtctgtagt ttcagctact tgaggatcac235621ttgagcccag gaattggagg ctgcagtgag ctataatcgt gccactgcac tccagcctgg235681gtgacagaga aagaccttgt ctctaaaaag aagcctccag gaatgggaaa cccaagttaa235741atcagctccc actccaccct aactcccttc ctaagccttc cttaagggaa aaagaacaaa235801atactgagcc cagtagtaag gaaagaNcag tgaaagcccc agttaggaaa ccatgaaaga235861gaagaaatga ggtacacagg gagaaaacgt ggatgaaaac cctagactat ggccaccaac235921agacccaagc tagccaggtg tagacctctg tgacacctag aggtcaagtc caagaggtca235981gctgaagtta cgaaaggcag gcaggaactc aatcagctac ctacttgtcc acgagctagc236041cctccccagg cctggcatct atgcttacct cctggcccac tcctgctggc ctctccacag236101gcacaggtga ggccctaaac accaggaatc ttctaatgtg tgctgccttc tcccacgtct236161gtcccatttc ctaggagtta atcatggtgc ccattgcaac atggcaccca atgccacttt236221ccagagtagt gtgacgtcca attccaagac ctggaggata aaaggtatta aagctcctgg236281gaccacagaa gagacagggc agaaagctgg tggaaaacca tctccaacat ctgtttcttt236341ttctgttaaa atctatccac tgtgtgaatt gccaaggaaa gttaagattc ctgttctgaa236401acgagaaggg ttctcttttc acatgacacc tgcagaagat gggaaacatg ataccccctg236461cagatcagag gacaccggct ccctgtaaga ggatacccca acccttgtca gtgcagcacc236521cggcagggcg atttttacat ttttctcctc ttgctgaagg gcctccagaa aggccaccag236581ggctttcccc aagagtaaaa ttctccccag ctccctagga ggtctcactg cccaccaccc236641ctttatttag ctaagtagca gagtttttat tttactgttt attttatttt attttatttt236701attttatttt attttatttt attttatttg agacagtctc cttctgtcac ccaggccgga236761atacaatggc atgatctcag ctcactgcaa cctctacctc ctgtgctcga gcaattctca236821tgtctcagcc tcccgagtag ctgggattac aggcacgtgc caccacaccc agctaatttt236881tatattttta gtagagatgg ggtttcacca tgttggccag gctagtcttt tttttttttt236941tttttttttt Ytgagacgga gtctcactct gtcgcccagg ctggagtgca gtggtgcgat237001ctcggctcac tgcaagctcc gcctcctggg ttcacgccat tctcctgcca cagcctttgg237061agtagctggg actacaggcg cccgccacca cgcccggcta atttttttgt atttttagta237121gagacgaggt ttcaccatgt tagccaggat ggtctcRatc tcctgacctt gtgatctgcc237181cacctcggcc tcccaaagtg ctgggattac aggcgtgagc caccacgccc agcctaggat237241agtcttgaac tcctggcctc gagtaatctg cctgcctcag cctcccaaag tgctgggatt237301atgagccact gcacccRgcc agtagcagag tttttaaata acttccagag ccctttactg237361gaRacacacc caagaagatg ggctcttatt cttcccacag aggactatag accatcaact237421aaattcactg gctcctactc aagctataga aagctgagga ggaccttgga acatcctctc237481taaattcctc ccctagttcc agtccaggta aacaaaaatt gattctattt tttcaaaaca237541ccagcccctt cagatggcct ggttaatctt cattaacatg ttatcttcat taacatgttt237601atcttcatta acatatttct cagtgataag aagggcccag ggttcaacat cccactttgc237661atccatgcag acaagggctg tgggaagctg taaaactgaa gaggcggtga atccaggagg237721gattccccag atatccgtga gttggtgttt gactttcttg aacacgtctt tcctttactt237781tacacttaca cttactgagc attcactctg gaccagaccg cgtcctaaga gcttcacgtg237841tgtggtcatt caatcctcaa accaatccta tggggtaggt actggagtta agtgatggcg237901ctgggatttt aacccagaag tctgattgca aagcccaact taccatgagg gccacgacat237961atgtctctac ttacggattc caccagtact cttgacagga gcatttacct cactatatta238021taagccttga tctacttttc tatctccctg aagcataatc agccataatc tgctaaccgt238081gcctcagttt tcattctcct ttctattttt ttttcagcgg gggcagggga gacagaatct238141tgctctgtca cccaggctgg agtgcagtgg ctcaatctgg gctcactaca acctccgcct238201cccaggttta agtgattctc ccacctcagc ctcccgagta gctgggatta caggcacgta238261ccaccatgcc cagctaattt ttgtattttt agtagagacg ggctttcacc atgttggcca238321agctagtctt aaactcctga cctcaggtga tccacccgcc tcagcctccc aaagtgctgg238381gattaaaggt gtgagccacc gcccagcctc attctccttt ctttattttt atgatagcct238441ctaccttgag tttcacccaa gcctatggcc atctgctcca aactacattt cccaacatcc238501cttgtggcca ggtgtggcca tgggcctaag ctaagccaat gggatatgag tggaagctcc238561ttaatgacaa gctacttgcc tttggatttc acctcctgct tctcacatcc tgaaatacag238621acttaaggat acaaaataga ctaaaacctg ggtccatgaa tgatgacttt ctggacctac238681cttacctgcc tggtgtgctc gccaaacgac ttatttgaca aataaataaa cttctgtctt238741atttagcttt tttaattttt tttatttttt tttggacaca gagtctcgct ctgtcgccca238801ggctggagtg caagtgcaat ggcgcgatct cggctcactg caacctctgc ctcctgggtt238861caagcKattc tcctgcctca gcttcccaag tagctgggat tacaagcatg caccaccatg238921cccggctaat ttttgtattt ttaagtagag acagggtttc actatgttgc ccaggctggc238981ctcaaattcc tggcttcatg tgatccgccc gccttggcct cccaaagtgc tgagattata239041ggcatgagcc actgtaccta gacttatgta gccattctat ttggggacct ctttgttata239101gcagcttagc ctgtatgctg gattcagcac ctgaagtccc acagcttgtc ttattctatt239161caacatctcc agaacccttt cttagggctt ggaacatagt agttgctcag taaatatttg239221ttagctgaat gaaaacacca ttatgtaaag caggtagtac cagggctaaa caaactgatt239281tactcaagct gtgcaggtgt cccgtatcca ggtgactaca atgtttcctg ctttcctgga239341aaacaggagt tcaggacaga gagagtaggt ttaggaaagc atttgcaata ggaaaggggt239401aagctttcac tgcatctgtt gttggctctc tgctgagaca acagattttg ggcttaatca239461aaagttagct gaggttactt cttgtctgat aaaaataatg ggctccattt gagcacttac239521tgtgtgccag gttctgtact aagcgcttca catacattat ggcattcatt ttcattcaat239581tctcacaata accctacaag gtagaaaata ttaatatctc cagatgaaca aaccaggccc239641ccaaaaaagt taaataactt gccctagctg catggctcgt tagtgacaaa agtaaaattc239701aaacccaagt tgtttgagcc taaacttact ctcttcataa ccaatctgcc actctgcttc239761tcttcctgtg tgacaagcca atattcccMa ctatggttat aagtttcaag ggctggacca239821cgttttgtgc ttatctcaat agacgccaca ggcacggagc ttccactggt ggctgtgaca239881cttcttctct gtgcatgatt ggtgaggggt tgcacacacc caccaggaga catgacggca239941gagggcaaac actctgagac ccagggtcca cccagctctc ttttgccctc tcctctccct240001gggctgcccc ggctgcctcc ttgacctctg cactcttctg cccacgctgc tgccgcccac240061atcttggaca gcatcccccg gggccgcctt cctgcctgtc tttgtgtaca attcctgcca240121ggcccggcag ttctcctagc taaagccggc aaggtccaga cctgcccgtY tggcctggta240181atggtgtggt ccacatttca cctcccacct tcaccctaac ttcatcctca tggccattct240241ttatccacaa caactccttc ctccccattc cctagactca gcaaagcagt caggagctag240301gcaaggtggc ctttatccca gaggttggga taaacctagg gctcataaat ctagggctgt240361gagccaaata cggcccctgg gattgctttc tggttgtgca ctatgctttt tgaaaactga240421gttagctagK tttaggctgg gcacagtggc tcaYgcctgt aatctcagca atttgggagg240481ccaacctggg tggatcacct gaggtcagga gttcaagacc agcctgacca acatggtgaa240541accacatctt tacttaaaaa atacaaaatt agccaggcat ggtgtcatat gcctgtaatc240601ccagctcctt gggaggctga ggctgaagaa tcgcttgaac ccaggaggtg gaggttgcag240661tgagccgaga tcataccact gcactccWgc ctaggcgaca gagagaaact ccatctaaaa240721aaaaaattag ctaggtttaa agtcattaga ggtcatataa aaatgcaaat ttcaaacttc240781tctcagaaaa tcaggagccg tgacaacact gggctcacct ccccatgtgg caaatggctt240841gggttgaatg tgaacatcct ccctggaagg gcataaactt cccagttgac cacagtacag240901tcccccaacc cccacctccc accaactccc tattcttcgt ctcctacagg tttacatggc240961ctgactagcc cccagaggca ttggagtttg acacgcccac agcagtgcct ccattttgcc241021gatgagcaaa ctgagaaaag gcaaagagaa attagtcccc cagatctcca agtgagttca241081tcagcaaatc cagggctggc aatcattaga caatatttat ccagctccca gatgtccccg241141cccctgctct gttcagtcac tgcactcatc catgtggctg ccccaatgcc ttgggcatgc241201cagagagaca cctcattctt tcaacacaca ggtcacaaac atcttttgtg ccatgacaat241261ctgattctcc tcacgtcacc ccaagattaa ctcttttcaa atctgtggtt cagattatac241321accctgaagc tgctgagggg tgacctctca ataaggctaa tctcccctgg acctaaatac241381tggtggggcg tgtgtgcatg tgtgcatgtg tgtNtgtgtg cgcRcgcgca tgtgtgtacc241441catgtgaact cgctcatgca tgtgcttcta gattaacact ctttcttctc attaacttcc241501cagacaggtg agaagtcaac atttgcccca gttagagaac cagaaagtat cagtcccact241561gccccatcta aaggggcagc agctgctgat ggttgccata gtggaatgaa gattcagggt241621tgccagatct ttcaactttt caagaagcca ggaatataac ttagaagagg ggagcaatgg241681tctctaaaga cctgtgctga gaaacaagtt cctaagtgct tgggagaatt tatgaggacc241741Rggtgctaga gaatgccggg aaatgaaYgc tcccctttga acgtcccatt ggtgaggtca241801gaactatgtc ctcaatccct catcagccta tcccaggact ctgaagagga ccccagggtg241861cttggctggc tttgccttcc agcctaagaa tgtctttgac taatattttt cttaatccct241921gtttgctctg tcctcaaaac aagccttttt ctctttttct tatccatctt ctccatagag241981ccctcaggtt cttaactcac acggcactat ctggatcttt ccagtaagta ggttgccgtt242041tccatttctt tgattaaaca actctaacaa agaattcatt gagatgaaaa tgcttatcat242101gaagcaggta acatcctttt cctccccaaa ccacaagcaa ttaacatata aatggcctgg242161caaagggact tctttgagag gtggcagatt ataactactc ttgctcctac acggataaag242221ctttttttta aagacaggaa agaacaattt acaaatgaga aaatgtcaca gatggccaca242281aactaacttc ccgagggatg agtattttga tgcagatact tcttcaagtg aaaaatgtac242341aatgtacaaa atgtccactY gaggatctgt tcctccccgt gtgggtaatc gccctcctac242401cacgggcaac gggtaggcaa ccgatatgcc cagaaaggcg gccaatggga ggacagctcg242461cccagcctcc cgattggcca ggcccgccac cagctggaac catggcgagc tttgaggaca242521gcagagccac ttgatgggat tctctctctc ttcaaagcat agagcaaaca tcaattaatc242581ctcaaaagac gctttcaaga agaacattat cccttttgga gacgcagaag ctaagaggtg242641ccgcaggtag gtgaagggaa ggcaggaagt tgaagaggag aggagaaagt ggagcaccgg242701gctttcagcc ccagttctgg ttctcctgag agagtcaagt tgcaggagaa gaatgaacct242761gcagaagccg ggcagggaga ggtggtggag aagccgctgc tcttgggtgc gcccctcaag242821gcttcccact gccccatccc ctaggagacc acggagtgaa aaaagttgga ggcctaagta242881cagccgtgtg tacccagccg ggcaccagag ttaagacaac tggacttgtg ctcaaaaacc242941cttctttagt aaaacaWccc gtaggagtct gtgggaggag gaaaaattga agtctggatg243001caatttgcca cactgagtct gttctggtaa ccgcccccaa cacactcaca cccccttgcc243061tgaaatgggg agaggggtgg gatcggtgtg tgtaaacaga ggcactgccc tgcctggctg243121ctctttccat cttaggagaa ccaatccaga actttctacg gctcacactc tgatcacagc243181ctgtcgccat gattggcaat aaacgtcaca cattctcacg ttatacattt attcgacctt243241taatattgtg ctctgagatt cctggaaaac ttgtatgtca ttggtcaaac gttataaaaa243301cagcccacta ttttttcccc actcacatcg tccgtgttga ctgccttaca caccRatttc243361tacatggaat gtttttagcc tgcattttaa cacttagaat aactttcttt gccacacact243421acatacatac tgtttgcatc aataaacaga gcccgtgcca catgcaagtt ataggtttat243481tggagacatt taagtgttta tagaaaggac ttttctaaag aatctgaatg ggagttctct243541caatttacca atagtcaaag aaataaagaa aattacccta cagctgattt tttttWaatt243601aaactaccaa caactattct gccatagcct tgcgtgtgtg tgtgtgtRtg tgtgtgtgtg243661tgtRtgcatg cttgctgagg catagaaaat atctggaagg atttacaaaa actccttagc243721tttggggaac agaatggaca gacagagaga aaacctcttt ttttcttgtt ttatgttctt243781taYtgtgcat tgtttacaat cagcatgttg ttgtttttYt ttttaagact agtcaagagc243841agcagtgaga aagggggaag gaaagaacaa ggagttcaat ctgtaactgt gaacaatcaa243901ttgagataac tcactaccct cagactagcc accatgttgc tttttaaatg tttcaaatca243961caaaatgaaa aagttactct aagatcatct attttttccc caggtgtggt attttgtccc244021catgcctgtg caaagtaagc cagtagaatt tagaaatagc ttgctgcctt tttttttttt244081tttttttttt tgagatagaa gcttgctcta ttaaccaggc tgcagtgcag tggcacgatc244141ttggctcaac acaacctctg cctcccagat tcaagtgatt ctcctgcctc agcctcccaa244201gtagctggta ctacaggcgc ggaccaccat gcctggctaa tttttagtag agacggggtt244261tcactatgtt ggccaggatg gtctcaaact cctgaccttg tgatctgcct gccttaggct244321cccaaagacc tgggattaca ggcatgagcc accatgcccg gcctgctacc ttttttacat244381acacaaaata attgcaaact ttcactgcag tactgccaac cctcatgtca ccatctacaa244441tgtaccacgt caagaaagga caatatcttc aaacccactt accagaagaa aaggttgaag244501ctgtatttgg caggatactg acatacaaac ctccaagatc tgggaaacaa ctcaggctcc244561ttgacttgac ttccttaacg atgacttgag aaacaccaga aagtccagaa cacataaact244621catgaaacca accaatagac tggaatctct cctgttatta aagtcatctt tttggccagg244881cgcagtgcct cacacctgta atcccagcac tttgggaggc caagatgggc ggatcacttg244741gggtcaggag ttcgagacca gcctggccaa catggtgaaa ccctgtctct actaaaaata244801caaaaattag ccaggcaagg tagtgcatgc tatagtccca gctactcttg aggctgaggc244861aggagaattg cttgaacccg ggaggtggag gttgcagtga gccgagatca cactctactc244921tctctactct actccagcct gggtgataga gtgaaatcct gtgtcaaaaa aaaagaaaaa244981acaaatcatc ttttattctc ttaaagaatg aatttttcat gggccatcaa cttcttcagt245041catttaagta tttgtttaga gaatatttca gttagaaact caggaaatgg agacctgacc245101tcaaagggcc ctttccagtc ataaagtaat tagaaataaa ataaaaacag gttgaagtga245161taagctgata agaaaatcca atttgtttcc aaaattgttc acttacagct gtttttctca245221tgaatatagc tatagttgtc atcagcaaat cagtggcttg gaattcgaaa ggagtgaaaa245281tatacatcct gggtctcttg aactcctagt gtttgccaga gctaggcagc aggatcaaat245341ggtcaatttc agcctggccc tgaaatcaaa accctctaac agtcacagaa gttctgcagc245401tagtcagtta cttactgccc acacttcact cagcacaatc cttaaagtca ccagagggag245461cccaaatttg cgacaaacca gaatgctttc cttttagggc atagttgtcc ttctgattct245521acttttgccc tctcctttcc aagactaatt tagaaacgaa gggaagtagg ctaagaaaat245581cctcaccttt aatattaata agacttgtgc agtccccgga tgatcagagc ccagactaca245641taggacttga aagaaagaat gagactttga tatggaatat gaaaaagtaa caggtaggag245701gggtggagag accaaactga gaggcctagg gcccagcttc tgcagctctg tcactgactg245761gcccRgtgac gatcacgcct atttactaag cagggatgac ctacgcttac ctgtctacat245821ttttatctgt gagatgaacg aaatgaaacc tccaatggtt tatttgccat gacaattttt245881aaaaatcagt aggaatgagg gaattaggaa ttgagcccat gctatacctt cttttcaaaa245941gagatttcac atgtaccatc tcatctgtat tcctggagag atagtagccc attatgagtg246001gctccaattt acagaaaaag taactaaggc acagagtggt gatctaccca ggacagcatg246061gtctgtagaa gaagcattgg tctgtttaKt gcattgaaat gtattccaga gatattggtc246121tgtaaagacc ttcccagaat gtgtctagaa ggttcaacca cctggtggaa gacatagaac246181gccttgtcat gccttcccca ttccagcctg gagttctctc catggtctca gcctgcttct246241atgaagctta gttttatagg gagcctttta accaagccaa cctcagagtc ccactggcca246301aggggatggt gggggaggca aaggattcta ctggggcagt atgtaaccca catataagtt246361ccatccaaag caacgcttcc aaacctagct caccaggaca ggagaaaggt taccatcagg246421gtactcttag ctgagaactc atacctttcg ggctttYatt ggcttgaggc atgagtgatc246481agcaRagccc cacatcacaa tccctgtact cagatataaa ttatattagt gggcaKggaa246541tgtcaggaaa cttaggttgt agaatctaga tcaacaactg cttacYgagg agctgggtga246601attgtaaaga aagaaagaaa caagtgttga atgactgtgg cctcattaaa catttctgtg246661gcctggcctg tgctttgggc tttcccagag ctgtttcatg caatagcttt gggcagggca246721cttctttgga cttactccaa ctacacaagg aggaggagga tgtctatggt tctttccacc246781ccagacacag tatcagtcac agccccacct taattccact actccaattc tgttctgagg246841gtatcacagg atgctgtggt gggttcccca gccccacaaa atccttttct cctctaaaac246901aggagaacat ctttccttcc tttctgatca tccatcttgc agccagcagg actcccagcc246961agaacattgt caatttactc agggatccat gaggcacctt ttggaagatg agaggggttg247021ggtgaaaaaa ggaagaggaa gtggggtgct ggtacttctg gaaacaagcc atttctcagc247081ctgctctgtg aaggtccccc aaaccctaca cagatctagg aagggaaact gcattccaag247141aatgcatggg ggctagaagg acccgctgga gcatggatcc cacccacagg agataatatt247201ttgaaaagag cacacattta accagggaag aagagcccat gccctggctt aagagcatag247261ctgtttcctc ctccatctgc ccccattttc ccaggcctga ctagagcaag tagttaagcc247321aacccaaatc cagaagtatg aataatgcgt gaagcMcagg aggacaggca gatggccttt247381tcacctgcgc aggctatata gctctgtgcg gaggggctga gagtccagcg cggcccctgt247441gcccctcagt aactgtgcaa gaggaagtgg gcctcccctg cgggggtatg aaatgtgggg247501cgaggactta ggagttcacc gggaagtgcc agccatcctg gggcagacac caagagctgg247561agtgatttgt ttWccctttt ttcatgagtt aatttgcttc cagcagattc cattagtgac247621ctgacagacc aagggcctgg aggaggtccc tggaagagct gctgaatcag cagactaaag247681gggcgaccag gaaggccaga cgtcttgcac cgagcccttt gctcagagtt tctatttgaa247741gagcttagaa taactatttg ctaagctctt gtcaaggcag cacctctaaa ccatgtatgg247801agagaagaca cacaaacctt gaccaccaaa tgtgaatggc caatcagaag ctgacacaat247861cagctgctga ctgaggaaaa atgattttat gggggaaaag aattcccaca tgaaataata247921agcaaaagtt ataaacttat taaaaagctt gttaaaaact tacttaaaaa gcaaaagttt247981aaacatggtt ccatctgcaa ctaggaactg gtcggggagg gagggtttga acttcctttg248041agtttcaatt gataatcccc gaagattaag aaaatagtga tactattact actgctgctg248101ctattattac aaataataat aactacaatt aacatttatt tggcacctag tacatgctag248161gaagtaggca atRagttttt ttgtttgttt gtttgtttgt ttttgagatg gagtctcact248221ctgtcaccag gttggagtgc aggggcgcaa tctcggctca ctgcaacctc cgcctcctgg248281gttcaagcaa ttctcctgcc tcagcctccc gagcagctgg gactacaggc acacgccacc248341atgcccagct aatttttttg tatttttagt agagacggcg tttcaccatg ttggccagga248401tggtctcaat ctcttgaccc tgtgatccgc ccacctcagc ctctcaaagt gctgggatta248461caggcgtgag ccaccacgcc tggcctgcaa ggagttcgtt atgcatgatt tcatttactc248521cttgcaacat ctctttgagg tagggaaact gtgtgggtga gaaaagtcac atagctgcta248581agtcatagaa aacgttcaga gcaaaatcaa acccaggtgt aggccaggtg cagtggctca248641tgcctgtaat cccaggactt tgggaggctc aggcaggcgg attacttgag gccaggagtt248701caagactagc ctgggcaaca tggcgaaacc ccatctctac caaaaatatg aaacaaatta248761gccaggtatg gtggcataca catgtggtcc catctactca ggaggctaag gtgggacgat248821tgcttgagcc tgggaggcgg aggttgcagt gagccaatat cacaccactg cactccagcc248881tgggtgacag agttaagact ctatctcaaa aaaaNaaaaa aaaacccagg tgtgtccaac248941tccaggcttg tgcacttacc cactctgcta tatggctaaa tcccacaggc tacagagaga249001gcagggaagt aggactcagg agaactgcct ccagccccac aggcaccctg actagctgtg249061ggatcttagc aagtgatttc aacttgtggg ccatcgtatt ccatcagatg attgatgtct249121tagggacccc ttcaattcaa accacagtta ttggtggact gcctgagtgc caggcactaa249181gatagggggt gggggaatgt ataaacaaaa ctaaggcgtg gtccttccct ccaggagttt249241acagtctagc cctgccttat gcaaaagcca aagagcctta ggtgtccctt caggtctaaa249301atactactca gagattcctt ttgaacatgc aaagtatttc tgaYagcatt catattcatc249361ttctatttgt tctgtgtgga catttgcatg gagaggtatc tgaaattatg ttcgtccaat249421ggatttgggg tgataatttt gctctcatct ttttactttt atgtgttgct tgaattttta249481gtaacaaata tacatcattt ctataaaaac aaaggcattt ttaaaatact gctaaataac249541actatatatg ggtgtatatg tatatgtata tatgcacaca catacctata tacacatata249601tatttaaaca gtaactggat atttaataat actgtggaat tattgttaac tcagataaga249661ttgtgactag gtttccagaa agaatcttta ttttttgcag atacatactg aaataattta249721cagataaaat gatgtctgag atttatttca aagtaatctc tagtgtgaga gggtaggagt249781aggctataga tgagacaacg ctggctctga gttgcaagtt gtggaagcaa tttgggtgct249841aggtgatggg tataagagtg ttcacgatac tacataggtt tgaaattttc catactatac249901agtaaaaaag gaactccttt caaggccaac agggaagcaa catttcccca aagctaagct249961aagcacccag ctggcagcat ttctacctgg ggtttctacc acccttggct tcctctcttc250021tttgactatc tatcacagtt taacttcatt ggttctctgc agcttcctcc ccccccccNN250081NNacaccatt cccccctaac cttctggaat cacgtgttgt atctatttgt acattccagt250141gcccaggcca tccctcttcg accttaccct ggcccagggg acagagcggg tgggcctgag250201caatgctccc acacacctcc gctcaaagtc agctgtttgc tgtagaggta gaacagcttg250261actactgggg gcgagggtca cagttcactc attcccccag caaatacgga gccagatgct250321ggggactcag cagtgaacaa gaccaaattg ctaccttcac agagttttca tgctagagaa250381ggagccaact ataaatgtta tctcccatcc ctcccagatt tagggccagg ggtatattca250441ccaagacatt cctgaatcac ctgggatctt gtcccaaata atttaaacct gaaagacatg250501atctagtgcc aagagctaga ataccaccca actacccatc ccaatccagt tccccattta250561actgacaaaa aaaaNaaaaa acagaaatgg tgtaagccca ccatgtaagt aaacataagt250621aaacagtggc agaggaaagg gtacccagac ttcactgtgg caggcccacc tgggaccaca250681ttcagaattt ttacaagctt Wgctgcgatg ttgaccaaag ttctccccac tttttttcat250741ttgcttgaat ttcactttta tttttattaa catcttttgt tttgttttgt tttgtttttg250801agacagggtc tcaccctgtt gcccaggcta gaatgcagtg gcacaatcat agctcactac250861aatgtccacc tcccaggctc aagtgatcct cccacctcag cctcccaagt agctaggact250921acaggcacaa gccaacatgc ctgtcttatt ttgttttact ttttgtagag acaatgtctc250981actatgttgc cgaggctatg cttgaactcc tatgctcaag cgatcctacc acctcagcct251041cccaaagtgc tgggattata gtcatgagcc accacacccg gccctttatt aacatcttaa251101atttcgtgtt ataaggcttg ttatacaaaa tagtggtcca ctgcagctta attctttttc251161tttttctttt tctttttttc tgagaaagag tctcactctg tcgccaaggc tggagtgcaa251221tggcacaatc ttggctcacc acaaacctcc acctcctggK ttcaagcaat tctcctgcct251281cagcctcccg agtagctgag attacaggcg tgcaccacca tgcacagcta atttttgtat251341ttttattaga gatggggttt caccatgttg gccaggctgg tctcgaactc ctagcctcag251401gtaatccacc cacctcagcc tcccaaagtg ctgggattac aggcatgagc caccacgccc251461ggcagcttaa ttcttttaat tgaagattgt gatatttacc tacacatctc taaataacat251521gtttttaact gttgtttctt gatttttcag ttttaggctt ccccaagtag gaaagagtgg251581atttaccctt tttgtagcct gtgctttctt atctgttctc actatacaca cacacacaca251641cacacacaca cacacacaca cacacacaga cacatacaca cttcctttct ctccatcccc251701ctatgctcca tctgtctgcc tgcctgctta ctatctatca tctatctgtc tgtctccttc251761ctccctccct ctctcgctca ctctgtgtat gtatgtactg gtgaatatat atttttattt251821ctcaatgatt accgttttta ttgctatgat tatgtaaRct ctattcagaa ctgtgacatg251881tagtattctc tagttacatt tcctccactg gataacttgc attcctggaa ttaataattg251941tcttatttaa ttcatttgct tagtattgta tgtactcacc RctaattcaR acccctagct252001ctccttaagt tgtgtatatt ctctctcaat atgttgagta tgtttctcac ccacttttga252061gggtgaattt ggtcattttg ctagcaaaca tgattgtagc agttttaaaa aacaaaactt252121ccctgccaga gataacttat acaccttgct aatataacca gtgacctcct atgtgagtgc252181ttgatcatgg aaaacattta gccatgtttg gctaatccta acaaagacta catttggtgc252241acgagaactt ccaaatcacc tttcttagca aaagaaagag agaaagaaaa gaaagaaaga252301gagagagaaa gaagaaagag agagaNagaa agaaagagaa agaaagaaag aaagaaagaa252361agaaagaaag aaagaaagaa agaaagaaag aaagaaagaa agaaggaaag aatttggaaa252421aacagcattt tcaatttttc ttactttatc acaataatgg aaatggtgtc ataaggtttt252481aatgcattca tcaaaataca gcatgttcta tattacttgt ggatttacca ttgttctaac252541aaaaaagtat gtattatatg ctttcaccca tagactgtaa gctctaagaa ggcaaaccgc252601ttcagcccta cttttctgaa atatcctcat cacctagcac aatgcctccc atgtaattag252661agctaataaa catttcttga attgaatccc aatgtgcttt aagaatggga gctcagtggc252721acacgaYctg agttagttcc ctgtgccttt atagcaacca gtttgcatcc aggtcccagt252781gaggcccact ggacagttcc ctaacccccc ctgcatgcta tcaacaatgc acctgctctt252841ggccatttcc acctggaagt tgaattggcc tctcaagcct tccagacgaa gtggagccca252901cacacacctg ctgccctcac agtcctcacc atcacaacaa tccacYgtct catcttccac252961ttgctcaggc caaatggatg cctctcttgt tgtcacatcc tactttcaat tccatcttaa253021tcccatcatc tctaccttca aaatgtactc agaatcagct acctctcacc acctttgctg253081ttaccacgtg gtccaagtca ctgcctcctc catctactct caactcagca gccagagtga253141tgctgtaaaa ccttctggta ggtcccaact ccaaggataa gccaaagtgc tcctattcct253201cccactccct ctcactctgc accagccaca tggcttccct tgctgttctt caaaacatca253261gccatgcctc cacctctgga cctttgcacc tgctgttccc tctgacttga atcctcttct253321cctggatgac cctcaaatgt tgcttctcag ggagcttttc ccccaacact cctggtccca253381actccccatt ttagttacct ccataaactt ctcaccatct cacttcttta cttagttaca253441ttatcatctg ggtgccccca ctagaatgca agctccatga aggcaaggat tttgcccaat253501ttgttcactg ctctatgtct agcacccaga atagtgtgac taattcaaca ataagtattt253561gttgaattaa attaatccta ggacacctgg aaatattttt atatccccat tagggaggaa253621aaattacaga atctccttcc agatatatta ttccatttat atatatatat atatatatat253681atatatatat atatatatat gtgtgtgtat acatatatgt gtgtgtgtgt gtgtgtatat253741atatatgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtgtat ccccaggcct ttctcaagca253801aataaataag ctctaatgaa tttcaaaaga caaagaaatc tcatttcatt ttaacttttt253861ctcacccttc ccaagtcagg gaccacctcc tctcctcccc ggcccaaagc tggaaactgt253921gtgctcagtg gactcaggag gagttgcagg tgccaccgac ctgaaggcaa ttaccaccca253981caagtttcag gggaagagaa gattaccgag aaagggaaga gaaattagca catagatgag254041aaacacatgt ttaaaaactc cttctgaggt catgagtaag ctgattgaag ctggcaccag254101agtgacaaat taatttcatg accctcttgc tttcattggg aaatgtagga ttctaaaaaa254161aaaaaaaaaa aaagcaaccg atgtgtagaa aagggcacRt gtgtctgccc acatgcctat254221atagagtggt ctggtaagaa aacaagctgt tttccagtgc atttgttttg aatgtgcatt254281gagccaccta ctgtgtgccc agcagaccag agatagctaa ggctcaattc ctttactcaa254341ggaactccag caggtgagag tggctagcat agacacagcc caccagaagt cactatgcca254401ctgtgcaaat gttctgctgg caggaattaa gcactagggg cagctgttct gcctagaaag254461aagtctcggg ccttgaagtg tgcatagaca ctggaagagc tcatcaagta gagacctggg254521ggtcggggaa gaagtcctgg cagagaaggt cacagaagca aaggcctgga ggtgggaagc254581ccatggtggg atgtgattca agctcagagt ctgccaaaag gtggtggaat gggaggctga254641aatgtgaatg ttggtctagg gagtctggca tcctcctctg gtaagtgcgc cctggtccct254701ccagagagaa ttgatccctc ccctcctttg catcccaccc acccccatac acactcccca254761gggctcacac ccagctcagg gcctgggcac agggcatcac ctgctccctc ttcatggact254821gcttctcctc ccgacaaatg cctctccctc ccatccagca ggtctctgct caatcaccac254881cttctcagtg aagccacctc tcgcaccccc tacaagggga caaacccaca catacgtgtc254941cctactttgc tttattttct gccacagcat ttacacttgt gtttYtggtc agtgtcggcc255001tcctccactg gactgcgggc tccatgaagg cagggacttt gttttatcga ctgccatatc255061cccagcacct acagtgcttg gcacttagtg agagctcaat aaatatttga caaattaata255121aaaaatgcct gtaacacttg agtgacttgg gttgtttatt tcttcccctc ctacaagatt255181gaaaatggat atgaaagcaa agcttgagct ttcagctctc taccccggcc ctgtgcatgg255241tgctgcccag gttggcactc agtaattagc ggatggatgg atggatggat ggatggatgg255301atggatggat ggattctata atcWgtagga gccatcaaaa gtataaagaa actgaactgt255361gcaatgcctt tcctgtgggg aaaagtggcc tgatggggta gaagcactgc aggctgggag255421gtcaacgagg aagctcctgc cagtgtcccc acaagccaca atgtggcctg aatgggaggt255481gaacagagta ggggacagag tccagagaca tacccaaggt taagccaata tgactcggga255541ccaagtgtaa gtcaggacga ggggagggag gagccaaaga tgatgctcag atttttgctt255601agatgacagt gaactccaag gggaataagc agctttaagg gaagaagttc aattcattca255661ggatggaagt gtgagggagg acatcMaggc agtagaatgg tcaggaggag agagggaRat255721tgagtcacgg gtgctggctg gagtcatggg aatccactca ttcatttatc tttttgagcc255781catgccaggt cccaggcatt tactctgcta gagactatgg acgctgcagt gcccaagaca255841ggcaaggtct gtgctctcat ggaacttact ttcggagagg aaaggcagac aaaggaaaag255901tgagcaaaca gatccataga gataatttct gatattgtat gcactgtgaa gaaaataaaa255961ccaggccatg ggagcatgat gcggggacaa tattagatag gttgggccag gaagggcctt256021ctgaagaagt ggcttttgcc acaatgaggt agagaatggg gatgacgacg aagttcctgc256081ttcttggctt caattttctt gaacaaatct ggggtgaaat catcggctga gagcagagag256141atggaaaggg ttttcaggta aatggaaaaa cattggacta ttctctgcca taggaagaaa256201tggaaagggt gagaagagat tatgatggtg caccgaggac ctcactgacg gctgaaacca256261caggggggta aggagcccat caatgcaggg cgtgtgcaag tttcacaggt ctcatatatc256321Ratgaagctt tatgtccttg ccactgaatt gacatcagca ctaggccggg tgcatcggct256381catgcctgta atcccagccc tttgggaggc agaggcaggc agatcacttg aggtcaggag256441tttgagacca gcctggccaa catgatgaaa ccccgtctct actaaaaaca caaaaattag256501ctgggtgtgg tgatgtgcac ctgtaatccc agctacttgg gaggctgagg caggagaatc256561acttgaaccc agaaggcgga ggatgcagtg agccaagatc actccattgc actccagcct256621aggtgacaga gcaagactca gtctcagaaa aaaaataaaa aagaaagcag cactaatgcc256681ctggcagcaa tgtggaagct ctgtctccac tttgtatgag atgggcttgc cggcttgttg256741atttgatggt aatttagttt gatgggctat gagggttttc attacttggt tttaccaggc256801acattcccac caccacctct tccacagact gaggtcacct cagtctgttc ctgccacagc256861ctccacgcac aagccatcct gcaaattaat caccctcaac attcatcgtg ccaaacctta256921agtaactccc cagcacctgc aggatcagtg ccaaactttt cgcccaagta tttataatca256981ggtccttcgt gacctgtcca gcttctctct cccagtgacc tggctggtgt tctcactgct257041cctttctgaa cccaagctta ttcgaatgca caggctcagg tacccgcctc tgCtccatcg257101ataccagcca tggagtcttg ggcaaatctt gggcaactcc ttggagtttt ctcatcgata257161aaaaagttaa tatggctggg tgtggtggct cacgcctata atcccagcac tttgggaggc257221cgaggagggc ggatcacctg aggttgggag tttgaaacca gcctgaccaa cacgaagaaa257281ccccatctct actaaaaata caaaattagc tgggcatggt ggcacatgcc tgtaatccca257341gctactcggg aggctgagac aggagaatcg cttgaaccca ggaggtggat gttgcagtga257401gcgaagtttg caccattgca ctccagcctg ggcaacaaga gcgaaactcc atccgactcg257461tgatccaccc gactcggcct cccaaagtgc tgggattata ggagtgagcc atcatgccta257521gcccactggt actcattttc taagggtatt cttttctaac cRgaccacga aatctccagg257581ctacctcaag ggtcttacaa ggaggaagca aaggcctagg tgcccaaata ctggtatttc257641aacaggacgg cttttatttt taataaaata atttttatag agatggggtc tcactgtgtt257701gtccgggttg ttctcaaact cccgggctcc aacaatcctc ccacctcagt ctcccaaagt257761gctgggatta caggtgtaac agctttttat aggagttctg cctcctacag cttcatactg257821gaaaatacga gcaaaaaatg ttgagcacat ctatgatgag taagggagat gagttgcact257881gtatggagaa cctgatccca ggcctggccc cacctttttt taactgtgag gcctgaggac257941tatcccaggc catccaggcc tctggtgtca cgtctagata gtgaggaaga acccccttcc258001atggtctcta aggtggttcc tagatctatt attccaagca ctagctctcc tatgagctgt258061actgttgagg ggcagagggg tcaaaagaac cttctccctc tctggccgat agatggttgg258121ggtactctga aagcttctct gttccctctg cccattctcc tctaaggtgt ttcattcaat258181agacataaaa acaagagcat cacactgcaa agtctgaaca attgaagaga tgccccgccc258241tccatgacta tcaaagttgg gggatggata cttgggggtt ctttatacta ttctttctac258301tgttgtataa gcttgatatc ttccacaata agtttgtttt ttgttttttg ttttattggg258361agattctcac tctgttaccc aggctggagt gcagtggcac aatctcggct cactgcaacc258421tctacctccc aggctcaagg gatcctccca cctcggcctc ctgtgtagCt gggaccacag258481gtgtgtgtca ccatgcctgg ctattttttt gtattttttt ctggagacgg catttcacca258541tgttgcccag gctgatcttg aactcctgga ctcaagcaat gtggctgcct cggcctccca258601aagtgctgga ttactgagcc accacaccca gccagaagaa gtgagaataa cagcaataaa258661ctcacctgat tccacccttt catgtactaa ctagatatgg atcttttgag ccctcaaaaa258721ggtactgatc tttttttaaa ggaactacat ctgaacatcg taagattcaa tgccttttta258781accttgcaca ttggagaaag aggtatgaag gaagaagggc aaagggtacc tgggagtcag258841acRtctctct cctcccacca actccatcac tttgtaatgK tctctactag gatgcccaag258901ttcccagagc cctagtctcc tcaattgcat ttttgagggg cctaaaggag accaccttgc258961ctcaaaagca cttgttccgg ttataaccac tcccacacac atttaaagca tccctttgtt259021gttgcatatg cagggctggg aggaacaatg gtgctgaaaY tttccaggac atgaaaatcc259081gattgcatgg cctcacccct agggattttg attcagtggc tccagcggag gaggcccagg259141aatctacctt tccatcagtc acacaggtgc ccctcctgta ggtagtcctc agaggacacc259201ttgagaaaac caaaggaaaa gcagagggag gcaaactgct cagtgctacc tgggaggaaa259261acaatctacc tatagcatgg aaaacctcca aggagcaggc agggagtgtc catcagaatg259321acaggaagga gcgaggcagt taaagggaaa gcaccatcat caaagccttc tccagctaat259381accttgtcct tcctgcatat gctcctatct catttttatt ttctaaattt tacccagaca259441agcttcccca aaacccactc atcctgacct tcccgggctc catcactaaa tctccccatg259501gccaggggaa cttttagaaa gtgtactgga tcaagtccct ttcctaactt caatccttcc259561atggctgctt actgccctta ggataaagta cacagccctc aaacttctcc atcaaggccc259621ttcatgacca ggcctctcct gacctctctt accatctcat ccctctccag tgctgcagcc259681acagtggcct tccatgggtc ccccaacatg cacaggacct tggcacatgc tattccctct259741gctgggatca aatgtttcct cttcaaggaa attttccctc aatgccctag accagaaaag259801gtccccctac tatactcttc tatcttcctg gactttccaa cttaacactg atcccacatt259861tacttacata tttgtgtgat tatatgatta acatctgtct tcccaagtgg accataagct259921tcataaagat agggtctgtg ttggtttggc tcaccatcat gtacccaggg tcacagtagc259981tagtacattg tatgtgttca ataatacaac ataaatgccc agtgcactgt ggtctgggga260041gacatggatg aagaaaaaaa gtgagacgca tgcttgaaaa attcataatg caaatgacag260101gccagtgtga gacggtgtgc ttctcctggt catggccact gaaaatcttc tcgactgtca260161cacggatggc gtcactggat gccacaagat ctcaggctct tcccagtaag agcatctctc260221tgggactgtc cccagaggac aatgagaagg tggcttacct cctggggaat gtggggacgg260281aaaaagaggg ctgggagaga gagagtgcca acctcctcaa tccccttctt gttatctcct260341gaaaatgtag cttagtccct cactatcagg actcagagag agaggtgggg aagagaaggt260401cacagacaga aacgatcttc ctccctccta tctggagcca cagaaacagg catacccatg260461ttatctttga gcttgctttt ttttccctag agatgatggg gggtagggtg agcaggaaga260521ttcagagcag tcagttcaga aaacagggtg tttttctgct tggttatcag acccatgccc260581attcaaggga tgcaaaatag gctgaagttt agattctctg actcggctat tgagtcccat260641caattacaac acatggaaaa aactttggac agttaaaaat aacatagggg cctggtgttt260701ggaagatctg gagtttggaa tgccagcttg tcaagcacag atccctgcct accaaaaagc260761atgtgctggg aactcacata cacaccaacc agcacaagaa ggtcacagat gagcaaggtg260821cctgttacct accaccctga caacagtgtg tcaggccaac ttggaggaca aactctcagt260881cctcagccac tttggtctaa aggacttcca agccctcttc tagctgtgga aagggcagag260941ctcatccagg aaagaagtag tctccttccc cttagaggag gtagccatga atggaattgt261001gggctgagtc cagtcacctt acagagacac ttcacctctg tgtgctgtgt ttctacatct261061gtgaacttct tgttctttct cagaaggacc caatatcagc accaattaaa tagtatgcaa261121taagctgtgc tcctggacaa agcatgccat agataaatct ttcttgaaga ctctttaaca261181catttgttct atgagtaaaa caataaattg ataaaaataa taatgccata gatttctaga261241acttctttct tctaggaaaa ccagtgcttc tcctacttat catttcattt ttttaaagat261301gccagtgtaa ggaaaatatt ggctagtgtg tctcctcatt ttacagatgg aaaaacaggg261361tcactgcaaa cacccattaa aagggtaacg aggctgggca cagtggctca tgcctataat261421cccagcactt tgggaggctg aggcaggtgg atggcttgag gccaggagtc caggaccagc261481ctgggcaaca tggcaaaacc ctgtctctat ttgtattagt ccactttcat gctgctgata261541aagacatacc caagactggg aagaaaaaga ggtttaattg gacttaaagN cctcagaatc261601atggcaggag gtgaaaggca cttcttacat ggtggcagca agagaaaatg aggaagaagc261661agaagcagaa accccagata aacccgtcag atcttgtaag acttactcac tatcacgaga261721atagcccagg aaagaccagc ccccatgatt cgattacctc cctctgggta cctcccacaa261781catgtgggaa ttctgggaga tacaattcaa gttgagattt acgtggggac acagccaaac261841catatcattc tgcccttggc ccttccaaat atcatgtcct cacatttcaa aaccaatcat261901gccttcccaa aagtccccca aagtcttaat tcatttcagc attaacccaa aagtccacag261961tccaaagtct catctgagac aaggcaagtc ccttctgcct atattctata aagtcaaaag262021caagctagtt acttcctagg tatgcaattc caagtgggag aaattggcca caacaaaggg262081tttacagSgc ccaggtaggt ctgaaatcca gcaaggcagt caaacattaa agcttcaaaa262141taatctcctt tgactccagg tctcacatcc aggtcacgct gatgcaagag ctgggtcccc262201atggtcttgg gcagctccgc ccctgcaaac acccattaaa atggtaatga ggctgggcac262261agtggctcat gcctgtaatc ccagcacttt gggagggtga ggcaggccct acctccactt262321tgcagggtac agcctccctc ctgcStactt tcacagtctg gcattgaRtc tctgcagctt262381ttccaggcac atggtgcaag ctgctagtgg atctaccatt ctggaatctg gaggatggtg262441gccctcttct cacagctcca ctaggcagtg ccccagtagg gactctgtat ggaggctcca262501accccacatt tcccttctgc actgccctag cagaggttct ccctgagggc cccgcccctg262561cagcaaactt ttgccagggc atccaggcgt ttccatacat cttctgaaat ctagaaggaa262621atcccaaacc tcagttctag atacctgtgc accctcaggc tcaacaccac atagaagctg262681ccaacgcttg gggcttccac cctctgaagt cacagcccga gctatatgtt ggcccctttc262741agccacagat ggcccctgga gcatctggga cacagggcac caagtcccta ggctgcacac262801agcatggaga ccctgggcac ccacgaaact tcttttacct cctgggcctc caggcctgtg262861atgggagggg ctgccgtgaa ggtctctgac atggcctgga gacattttcc ccagggtctt262921gaggattaac attaggatac ttgctactta tgcaaatttc tgcagccgac ttgaatttct262981ccccagaaaa taggtttttc ttttctatca cctagtcagg ctgcaaattt tccaaacttt263041tatgctctgc ttcccttata aaactgaatg cctttaacag cacccaagtc acatcttgaa263101tgctttgctg cttagaaatt tcttccacca agctaccaat gactttcttc acggaattgg263161aaaaaactac tttaaagttc atatggaacc aaaaaagagc ccgcattgcc aaggcaatcc263221taagccaaaa gaacaaagct ggaggcatca tgctacctga cttcaaacta tactacaagg263281ctacagtaac caaaacagca tggtactggt accaaaacag agatatagac caatggaaca263341gaacagaggc ctcagaaata atgccgcata tctacaacta tctgatcttt gacaaacctg263401acaaaaacaa gcaatgggga aaggattccc tatttaataa atggtgctgg gaaaactggc263461tagccatatg gagaaaaatg aaactggagc ccttccttac accttatact aaaattaatt263521caagatggat taaagattta aatgttagac ctaaaaccat aaaaacccta gaagaaaacc263581taggcaatac cattcaggac ataggcatag gcaaggactt catgtctaaa acaccaaaag263641caatggcaac aaaagccaaa attgacaaat gggatctaaa taaactaaag agcttctgca263701cagcaaaaga aactaccatc agagtgaaca ggcaacctac agaatgggag aaaatttttg263761caatctactc atctgacaaa gggctaatat ccagaatcta caatgaactc aaacaaattt263821acaagaaaaa aacaaacaac cccatcaaca agtgggcRaa ggatataaac agacacttct263881caaaagaaga tatttatgca gccaaaagac acatgaaaca atgctcatca tcactggcca263941tcagagaaat gcaaatcaaa accacaatga gataccatct cacaccagtt agaaWggtga264001tcattaaaaa gtcaggaaac aacaggtgct ggagaggatg tggagaaata ggaacatttt264061ctcactgttg gtgggactgt aaactagttc aaccattgtg gaagtcagtg tggcgattcc264121tcagggatct agaactagaa ataccatttg acccagccat cccattactg ggtatatacc264181caaagggtta taaatcatgc tgctataaag acacacgcac atgtatgttt attgcggcac264241tattcacaat agcaaagact tggaaccaac ccaaatgtcc aacaatgata gactggatta264301agaaaatgtg gcacatatac accatggaat actatgtagc cattaaaaat gatgagttca264361tgtcccttgt agggacatgg atgaagctgg aaaccatcat tctcagcaaa ctatcacaag264421gacaaaaaac caaacaccac atgttctcac tcataggtgg gaactgaaca atgagaacac264481atggacacag gacggggaac atcacacacc ggggcctgtt gtggggtggg gggaagggga264541gggatagcat taggagatat acctaatgtt aaatgacgag ttaatgggtg cagcacacca264601acatggcaca tgtatatata tgtaacaaac ctgcatgttg tgcacatgta ccctaaaact264661taaagtatga taaaaaaaaa aagaatctag aaaaagaagt acaaattcaa cctaaaacaa264721gcaggagata ggaagcatta taaagattaa agcagaaatc aataagaaaa aaaaaaaaag264781aaatttcttc caccaagcca ggtggagtgg ctcacaccta taatcccagc actttgggag264841gccaagatgg gcagatcacg gggtcaggag ttcaagacca gcctggccaa catagtgaaa264901ccccgtctct attaaaaata caaaaaaatt agccaggcat ggtgatgcac acctatagtc264961ccagctactc gaaaggctaa ggcaggagaa tcacttgaac ccaggaggca gaggttgtgg265021tgagccaaga tcctgacact gcactccagc ctaggcaaca gagcaagact ccgtctccaa265081aaaaaaaaaa gaaaaagaaa gaaatttatt ccaccagata acctaaatca tctctctcaa265141gttcaaagtt tcacgaatct ctaggggagt ctctagggga gggggcaaaa tgccRccagt265201ctcttcgcta aaacataaca agagtcacct ttgctccagt tctctacaag ttcctcatct265261ccatctgaga caacctcagc ctggatttta ttatccatat cgctattagc atttgggcaa265321agccattcaa caagtctcta ggaagttcca aactttccca cattttcccg tctgcttctg265381agcctttcaa actgttccaa tctctgcctg ttgcccagtt ccaaagtcac ttccacattt265441tcgggtatct tttcagcaat gccccactct attggtacca attactgtat tagtccattt265501tcacacagct gataaagaca tacctgagac tgggaagaaa aagagtttta attggactta265561cagttccacg tggctgggga ggcctcggaa tcatggcagg aagtgaaaga cacttcttaY265621atggcagcag caagagaaaa tgaggaagaa gcaaaagctg aaacccctga taaacccacc265681agatcttgtg agacttattc actatcacaa aaatagcatg ggaaagactg gcctccatga265741ttcaattacc tccccatggg tctctcccac aacacatggg aattctggga gatcaatgca265801agttgagatt tgggtgagga cacagccaaa ccWtatcact actaaaaata caaaaattaa265861ctgggtgtgg tggtgcacac ctgtggtccc agccacttgg gaagctgggg tgggaggatt265921gcttgagcct gggaggtcga ggctgcagtg agccatgatt gcgccactgc attccagcct265981gggcaacagg gcaagaccct gtctcaaaaa aaggatattg tgtgccgact ctactaagca266041ctttacatac attaacttgc ttaattcttc caacaacccc ataaagacaa aaactattag266101tcctacttta catatgagga aactaaggca tagatgttag gaatcctacc caaggccata266161gggcttgaac ttgaacccaa actctctggc tccagaggct gcacccaagc cgtgggtcac266221acagcaactg ctcccagcct cctgctcccc accatggagt gtctgagctt acaaagtgtg266281caaagcttac aaagtatgca aggaacgaac cctaaggact tgtgtaaccc ccagcctccc266341cgtgaaaact aggcccaggg catttctgga aggaagtggc cagcacRcag gtagacagct266401gcagcagtgg caggggtgtc tgggtgggaa ccaggcagca ctaccatcag aataaaccac266461cccgatcccc ctaggaggaa acccactgtc ttagagacct gcagcctcac tctcccctat266521ttgaatcatg aaactaatcc tcagggcacc atgctttaag ctacacaggt tggcatttac266581attttcctcc ttggattgga tttatatatt ttatttacat catttattgg ttgttgttga266641agaagaagaa gaagaggagg aggaggaaga gaaggaggag aaggaggatt aaagtacaga266701aagggaagaa gtcatttggg tccactgctc aggtgggctc tgcccacaag tctgcccagc266761gttgcaaatc ggcccttgca gctggacaga gctggcctgt agctgacagg attgatggct266821cacaccagtg tgggccccac agggtgtctc cctcacccca cccctctggg tggtcccctg266881gaaagtatcc aaaatgcata acaaatgaaa ccaaggacgg ggtccagttc aaccccttag266941tgagagggaa gactggagac agacaatccc ccttgctgga ggacacagga tgaccacccc267001accctccccc tggagcctct cttttggacg atgaggagta tgagtctccc caaacagtga267061ctgccaaacc gggactctgc tcagaccaac ctggcccagg cttatttctc atttttccct267121tctgttcacR gacacecccc acctactccc aaccagccaa acagatctgt gtgctctcct267181ccatgcagtc cttcccatct ggccttcctt ccctcagaaa ggaagggtgt ccccaaagga267241atcgctcaaa cgcctcacgt ctttgttcac ttccctttgg tgactaaagt tccccagcct267301caccctcccg agcctaacca gaccccactg tccttctgaa ctcagctcct ctctgaagca267361tcctctgtca tcccagccac aggaactgct gtctgtcttc caatttcaag gacccctggt267421ggcctaggct gatcgtttag cgcagctatt caccacctgg aacctcaYgt gaagcagctt267481ctctcaggaa tgcatgctct gctgcctgta agctttgtcc ttttcctcct tccctctccc267541cactcccata ttcatgagat tgagtgggcc ctccttgggg acaaagccag aatactcttt267601ccttcYtttg tgccccttca gtgctttttg atcaaggtgc aattcatgga ggaaaggaga267661aagacgtaaa tagtgaatga aggaggggac agggatcaga aggaaaccta ggctggaggt267721gcaaactcag ggctctgagg gccttggggc agcttagctc ttagtcaaga aatgaaataa267781gcagcagaaa gcaaaagaaa aaggaaaggc tttccagcgg gctttttctt cccaaggatt267841tgaaaagcta cagtagagcc tggaggagag tgggctgtcc agggctgccg gctctgagtt267901ttggagagag gtggagatgc tgtggagctt ttatactatc cagaccagtt cctctgggca267961gcaaaggagg cacacaccca ggacaatgtt gggcaataaa gattattcca tcatttggga268021gcaggagcgc cttttgttct gcatttctca gggaatcaac acattccaag caggaaaggg268081atgagaacaa atgaccagca ggatggggac tgatagtatt gggtcctctt cattcagcag268141attataaaat aataaaacaa gcatcctact gctgcaagga tagcaagagc tagcaaggtc268201tcaaaaaggt ttcagaattc agactcacaa gccaggcagc ctccatctct cctctgacac268261tcgctgggat cttcagcccc tgagatgaca aacaatgtcc ccctggtgtg ctctggactg268321aggaactatg agaacttcct aaatctcata aaactataga ttagcgttca tccctgctac268381cctgtgcata agtgacctaa aattgaatgg tccgaacctg tttcccatcc cccagagaca268441tgtgtaatta gataaaatga ggacagaata tgtataagta tctgttatac tcagatggct268501gcccagaaag aaaatgagtg ccaggaaccg gacagccctg tgtcaccctc tgtcctgaac268561tgggattgag ggagacttac ctttgtgagt aggttgctag tgcaatatga cctctctgag268621ttaacgaata tttttctaca attcggctcc tgcagcccat atttggcaca ccatcagcat268681tttctctggc tttccatgtt gaaggatgtc tttcagacca ggatctgaac tgaaacttga268741ccctgggagt ccgtgtccac cttgggactt cctcttcctc cttcaggcct ctttctggtg268801gtaccctctt ccaaaaagcc cccaacacag aattatttgg aggacataca aaagttaYaa268861tgatacgctg gtatctctat ctctctcaat acaagagaga aaggccctca cttgagccct268921aggccatcct ttttgaagga tgaatgaagt gatctgctat acttggttgg gacacagagt268981cgtagggaaa atcattctct ctctaggcat tgatactgtg aaagtataca aaaggcattc269041tctcaaagaa gatgtatcca aaaacagtga ctggactaaa gctccatgga acagacagca269101gatgttcacc agaacccagc cttgggttta aaccattaca gtgctttgca tcttctggtc269161ttctctatct taaaaactca aaagaaaaaa gaRtcctcca gtataaataa agctaaagga269221aatcccacac acagctaagc atagaggagg cactgaataa aaatgaagtt gatttatcag269281tggctatcca taagccagag gttacttact cccctgaaag aaagcaaagc aaaaaggttt269341gtctttattt ctcaagacca aagggagaaa gccaagcttt ttaaagtgac caagaaacaa269401gaggctagaa tgagcgaggc tgccacatgt cataaatgca catcctacat gcaagcaagg269461ccaaacctgc atctgtttcc caactcctga aactgaaggc tctttgggga ggaattctgc269521ctttttcaga ttcctgccgt gaaggcagag aatgagaaac atgtcaactt tctagagtgc269581taaaagcaaa cttgggcagc agagcagggt atctgcctgc aggcttcgct cactcaacta269641ttccccacac gtttcctacg tgcctgctag gctaggtcct tgggacagaa aggcacatgt269701ggccaggctt ggtggctcat gcctgtaatc ccagcacttt gggaggccga ggcgggtgga269761tcactggaag tcaggagttt gagaccagcc tggccaacat ggtgaaacgc catctctact269821aaaaatacaa aattagctgg gtatggtggt gtgcacctat tgtcccagct actcaggagg269881ccgagatagg agaatcgctt gaacccagga ggtggaggtt gcagtgagcc gcaccactgc269941actccagcct gggtgagaca gagagagatt ccatctccaa aaaaaaaaaa Raaagaaaag270001aaaggcatat gtggctactg tccctgcctt ccacgccctt actgctaact aactcctgtc270061aattatttca gtgactgaga gagaagagta tgttcagctc tgcatggccc agggcaggtg270121tggccagttc tacctgaggg tcagcaaggg ctccaccagg gagagggacc acttaaacca270181tccagaagat gacagatgtg catcaagtgc gcccagggac agggtggagg tggaggacaa270241tcaaaccgcc tgcccagagg aaaccgcctg cccagaggag ccacaagcag tttgctcaga270301caccagggga atgtgtgaca agagtcgtct ctctgggcag ggacacagag catcccctca270361gactaacaag ttcacacacg tctctcacac tgaggttctt accctagagc ccatgggcct270421ccagggcatc cagagatggg ctcttccagg tctgtgaacc ccataaaacc ataggcagat270481gttcacatct atatgcgtgt tttccgggga gatgatccac aactttcata ggattcttga270541aagggcctgt gattgccaaa gaaaggtgaa aaagaaacac ccatcaagac tgagtagcct270601gcacactaga ctgtggtata gaatccagtt tctccctgtc tgtctcctgc atatggctca270661gtaacagaca tagtaagttt tcagaactag cagaactaaa gggatgagaa gagcattcca270721gtataagcag atggaaagaa attaccattg gcatcaccaa aacaaatacc tgtgtgtact270781gactgtgtgc caggctctgg gctagacttt aaaaaccagt atctctttcc ataaagccac270841atggaagagt gtcttctcag cctcctgttc ctggagccaa tattgcatat tggagtccct270901aaatgtggat tcaagtcacc cagagcaatt cactgcaatc gccagatcag gctcaaactt270961tagttggcag ttgcctagca acgagtaacc ctgaagacac atcaccaaac ccagatgcca271021aaaagggcat tttgtggaca agctagttct gaaaccagcc cctcataagt ctatttgtca271081ggcctccctg gggctgttgg ggtaaggagt agactttgca gccaaaggta ggctgagagg271141agaaagatag aaaggcattg ttttttgttt tttcagacac ggtctcactc tgttgcccag271201gctggagtgc agtgacacaa acacggctca ctgcagcctc aacctcttgg gctcgggtga271261tcctcccacc ttagcctccc aaataactgt gactaaaggc gcgtgccacc acacccaact271321agtttttcta tgggattttg ccctgttgcc caggctggct cgaactcctg ggctcaagcg271381acctgcccac ctaggcctcc aaaagtgctg ggattacaag tatgagccat tgcacccagc271441tggaaagtgt tctgctggtt gtatgttttc ccacctctag ggaataggca tgagaagggg271501aactgagggt taaaggagaa ggcagcctcc agtggagaag gcagcctcca gtagagaagg271561caattggtgc ctcttcactt cctctttcag attgtaccta tggttactct tccaagaagt271621tgcttaacag atgccaccca cacctaaaga cgcataaagc agcaggaaga cttgactgaa271681cgtacatcca gtccttccct aaagccatca tcctcctgca gctccaaaaa ccccactgaa271741ctatggaagg ctggggtgag caggatgata gacctcaaac tacttcaaca agtgaaactg271801gggaagcagt ttttaaccaa ctctccaagg caactcactY ccttacagag gcatgaaaga271861ggcaaagaga tctcattctc taaaattcag agctgttgtt gttgttgttg ttgttgttgt271921tgttgttgtt gttgctgttg ttgttgtttt taacacaaag ctcagaaact ccttaagcta271981agaggcaggt gagactgggt ttcccaagac aaagtttcca gtccaaacca tcacataagg272041ccaacactgg gtattctccc tgtgtcgata gtgggaagcc tgggaagacg gccttcttcg272101gaatccaccg tcccttccct tgaaaggtct tgggggtagg aggaaaaggg gcaaataaat272161atatcagtct ggaggtgatt caggaagaac aaatgcggat gtcaaacaac aaataaggca272221gatataaatc caaataaaat attaaaatca ttaaagggct gctgctccct gaagattggg272281aaaaatgaag agagttaatt aaaagcaatc tccatgcact gctgagccgg ccagccctga272341taaatcaaca gctggggctg ctgtggaggg caggcaaggg gcttcaggag ggggtgggcc272401agctggggga agggggtctg ccactgagat ggctgtgatg gcaaattgaa cacagtgact272461taagtttcat gttttattaa atattttatg accactgaat aaagttattc tttggagagg272521gagaaaatga tgagctgggt aagtgaaggg ggggaagata aggatgaaga ggtattgtct272581gattcaaaac aYacttagga ctgtgacgtt ggaacctctg atatcgcccc caaaggccga272641agctttgggt tttttttctt tctacttgat ctgcaaaggt agctgtgtct tcgtcttcta272701aaatctctct acaaaacttg ggttatgttt atctgaggga ccagggaagg cagtgcagag272761tcagggaaag taatgaagag gaagaaaaga cagaaaagat cctcaaaatt gtcattgctg272821atcaaagcca gacttttaac acaaaactaa aaggtcagca gaaatggtgg gaactctttt272881ttctttcttt acttctttcc ttctcccttt tttctgcagc tagtttttgt gtgtaaaatg272941aaaaagagct ccaaattttg gggctcaatc taagtcaaaa gccagctatt tcagaagtgt273001tagaagaaca ggcccttctc tattctaagg ggaaaccctc cagttcttcc ttgatgaaaa273061tataatcaag agaaatgatt gggggaaagt gtttttttct cctccataga actgggattg273121gaaggggagt gtgtgcatgg ggaaacataa ggaattatgc atttggatat gcattttaat273181taggtggaca gaagcagccg cctgttaatt tttcttgctt gtttccactt agcattcatc273241acaggcagaa ctaccataga gcgctcccac gataatagat ggttctgcat tggctaagtc273301ctcagggaaa ataattagca ggagagaata tattctctcc cctcccactg ccccatccac273361cctgccctcc ccctatcacc agcaccgcgt tgccgcccSt ctccccactc ccctcaccta273421tagtggtttt cctaggaaaa gccgagggca gcagtcagcc tcctggtttg ctagcactta273481ctttgccctg ccaaaaaaca aggRtctagg agaagaaaca gacagatcag aagtctctat273541tggagtggaa gctcctcgat gtagggaggg agtcaggtgg ctgtgctgat tagttctcag273601gggcaggcag gcaatccatg ttggttgtgg gatgaaggaa ctccaaagag gatgagagag273661ttctcgttgt gctcaactgg cagccaaaga tgtatcgaga gttgctggtt gaggacagca273721ggagtaggga tgatgttttt tgcttcattt gctcttgtaa aggaaagttg cagggccaag273781taagtgcagt ggttttcacc tgcaatccca gcattttggg aagctgaggt aagaggatca273841cttgaggcca gaagttcaag accagcctgg gcagcacagt gagaccccca tctctataaa273901aaaattaaaa attaagtgtg gcagtacgca cctgtagtcc cagctacttg ggaagctgag273961gtgggagatc acttgagtca aggagtttga ggccacagtg agctgtgatg gcaccactgc274021actccagcct gggtgacaga gtgatcgcaY tactgcactc cagcctgggt gagagtgaga274081ccctatctcc aaaaaatata tgagaaaaga aaataaagaa agttgtagct ttgcagcaag274141actgaatctg aaccacttcc aaggctggca accaagacat gYatgtaact ctgagatctg274201accccaccgc aatgctctct ggtctacttt tctataaaga atctggcctg gcatggtggc274261ttacgcctgt aatcYcagca cgtggggagg cccaggtggg cagatcactt gaggtcagga274321gatcgagacc agcctggcca acatgataaa acccgatctc tactgaaaat acaaaaatta274381gctgggtgtg gtggcatgtg cctttaatat cagctactcc tgtgtctgaa gtacaagatc274441acttgaacgt gggaggcaga ggttgcagtg agccaagatc acgccactgc actccagcct274501aggegacaga gtgagactct gtctcaaaaa aaaaaaaaaa agaaaaagaa aaagaatcca274561ttcttgccac tgacctccaa tgccaacagc tcactctcct tattcacaag cagatctaag274621cccctgcccc gcctccactt cttctctctc cctcagtcat ctcagttgaa ggaggagcca274681gagaccaggc aaggaccaaa ggcccaagtt cccagaagag caccccactc taccaaccgc274741gcttctgctt cctctggttt ggtgggtgaa ctcaggtcag ggctatgacc ggaaatgaaa274801tgagggtttc ccctgagctc acattctcac ttatttcaaa cccagacaat aggaaaatcc274861cactgagatc ccagggctat ttacacagcc tggatgagta gaccttgcat ttcctgagaa274921acaatgatta gatgtgatgg gtaatgccag aaacatttat ttttgtttta atatttaaaa274981taatgtttaa tatagtaggt attattgact gcctgaggag gccatgatca gctacaggaa275041acttttagtt ctcatagtaa cacctcacat ttgcactttc caccttctga aatgtttcca275101catccattat ttcatgtggg ccgctgcggg gaagccaggc tggaggaagg ggaagggagg275161agaagggaga cacaagctct cctggctgtt tggaaggaca ggcctgactt gctaactcct275221gccccccaag ctatcctgtc atcaccgtgc ttccacccac ctcctgttgt cagacatcac275281atctccatcc acctaggaag ccttcactcc aagcctcacc aggtaactgc tagtgctaca275341gcccctggaa ctgcctcaaa cccaaaccct gacccccacg aggagtccct gccctcaaag275401gaagggggat ataggctggg cacggtggct cacgcctgta atcccagcac tttgggaggc275461cgaggcgggc ggatcacgag gtcaggagat cgagaccgtc ctggctaaca cggtgaaacc275521ccgtctctac taaaaatact atatatatat atatatatat atatatatat tagccgggcg275581taaggcgggc gcctgcagtc ccagctactc gggaggctga gcccggggaa tggggaatgg275641cgtgaacccg ggaggtggag cttgcagtga gccgagatcg cgacactgca ctccagcctg275701ggcgacagag cgagactccg tctcaaaaaa aaaaaacagg aagggggata tgaggggaag275761gcaatccctg tggctgggga tgggagaatt gagtctctgg gttcctagtt cccagtgtgt275821ttatcccaga acgcaatgga ctaccaatag agggagaggc agagaggttg aattctgtaa275881tactattagg tttgggtttt tttgtttgtt tagtttataa ggtggagaat gcctatatta275941tctagaaatg tagccgctaa ttttttgggt ttgtttgttt gtttgtttgt ttgtttgttt276001gtttgttttt tgagataagg tcttgctctg tcacccaggc tggagtacat ggagtacagt276061agcgtgatca cagctcactg cagcctcaac ctcccgggct caagccatct tcctgcctta276121gcctcccgag tagctaggac cacaggtgta caccaccaca cccggctttt ttttttattt276181tttgtagcga cagggtctca tgatatgtcc aggctggtct tgaatgcctg agctcaaggg276241atcctcctgc ctcagcctcc caaagtgcta agattacagg catgagccta gcYtagtccc276301tagattttac agtccaaaaa tgaaggagac ctaggcatag tgaaaaccca aaagaaatga276361aaatggggac tcaaaaacag ccaaaaggtg aaacaaccca aatgcccatc ggcagttaaa276421caggtaaaca aaaagtgggc tatccataca atggccatag aaaggaatca agttctgact276481atgctacaac atggatgaac aaacattgaa gacattatgc taagtgaaat aagccagaca276541cagaagaaca aatattgtat gtttcccctg atatggggtg ctaagaatgc agaatggtgg276601ttcccaggga tggtaggaag caggggatgg aaaagtattg tttaRtgcat acaaagtttc276661tctccgggat gatgaaaagg gtctgggcag ctgggcacgg tggctcatgc ctataatccc276721agcactttgg gaagctgagg cgggtggatc atctgaggtc aggagttcga gacgagcctg276781gccaacatgg tgaaatgctg tctctactaa aaatacaaaa attagccagg tgtaatggcg276841catgcctaca gtcccagcta ctcgggagac tgagacaaga gaatcacttg aacctgggag276901gcggaggttg cagtgagcca agatcgcgtc actgcactcc agcctgggtg acagagegag276961actccatcta aaaaaagaaa gaaagaaaag ggtctggaaa ctgatggtgg tgatggttgc277021acaaggtggg aggatccctt ggggccatga tttcaagacc agtctgagca acatagcaag277081acctccatct ctactaaaga ttagaaataa atgtacttaa tgccactgaa atgcacactt277141taaaatggct aaaatggtac actgtRtgtt atgtatattt tagcacaata aagaaaaatt277201gagggaatgc ctctctctgc tggaggtcag ggtgaccatt ttgttttctc tttaaagtct277261cagaatttac acaccagctc ctgtgtagac tctgatgagt tctgcaacct cctccccctt277321ctctttatgc ttgcaaaaaa actgccatgg aagctttcca ccaaagaaaa gcctgataat277381aatgtcccca ctgaaatctg agatgttctg gagacatgtc actgaagggg aggcatgaag277441tccagtctag tcttggctaa tacccactca ggtaggggct agttccacac aactgctggg277501cacctccatt tcctcagcag taacacaggt atgctagagg aagctcagtg agacatcagt277561acaggtccac ttacttcagc tcactaaaca tccaggtatc tgtggctgcc caaattaaaa277621taaaataagc actttatttt cagattaatt gggataggtg ccatggtaga ggagaaggcc277681agagagatca tggacaaata aagtccagac cggaggactg gctggaaaat tggttaccct277741tctgcctcca aacacacaca cacacacaca cacacacaca cacacacaca cacacaaaag277801gaagcaaaat acagatgttc tcagtgattc cagtctttta accaccaaaa actgagtgct277861tatccacgtc aaaataggcc aattggtctt caagttcctc attctcatca gcttctggat277921gggatgctag tgagaagaaa atcactgaaa aggaagagcc agaggaaaag cccacattct277981aaatggccca ccacctggtc ctcagcctca gaccttgaga agggatagga agttccaccc278041agcttagaac cccaagaagg gagcaccatg tagcaagact gaatcagaga ataagaaact278101gtggaagtct ccagtcttaa atgttctctt tagagccaca ctttaaaaat aagaaaaaat278161cagaactctg gcccctagct gtcctctctg tcctaatcca ccataataag agccagaaag278221ttgttggctt gaaaggaatt tggggaatca aagtacatca ccatcataaa gacaaggaat278281atgcggctcN aagttctgtg tcccagatca caagctagtt gcctgtagct ctggaagcgg278341agctcaaggc ttgggattcc tctcccagag ctttttctcc tccattactc tgaagtcact278401aaggctacaa aaaatcagcc actggtgaga aatgaacatg gaagaggaaa agaggttgag278461acgggtttca tcaatagcag gtgaaagtgt gaggatggga aaaactttct ggtggagctt278521ccaagtgcag atcattcaaa cagcagattt tcaaggtgaa taacaacaac taaaaaaaaa278581ccttttatca gcaacctgag atgatcacag tccccagatt cagagaggga ggagagggtg278641caaagKgggg attagacatg tgccagcatt gttccgcagg ctcagaactg aggcctggct278701ggtgaggact caatgcgggc tatttgaacc ccattattag gagctctgaa cctaatcctc278761tcacccctcc ctgcttccac acattgcccc taaattgtaa cctcttcagg gattctctcc278821cttcccttgc cactgcctgc cacactaata ttcacaaaca cacagcctag aaattctcca278881gtctgctcct cttccctctg ccccaccaac acctcctaac cactgctttt aaaactctaa278941tgcaaatcac aggcttcaaa aaccttccct cagtgacagt tttacgatgc tagctccatt279001catccatatg gtttgacaga cYgtgaaaca ccagtaaccg gaccaataag aaaaacaaat279061tacaaaaaca ctRcaacacc tcatctctcc ccagtcactc aaacaactag aaaactttgg279121aatttgcaat ggatcacaat atcagtctct cttgcagttc aacaacaatc tttgcagagt279181tccataccac acagtggttt tacccactcc tccatcctcc ccctacccaa ggccactctc279241catctttcct tgttaactac cttcatattt aaagactatt taaaattagg gccatgctta279301caaattcccc tgttgggtcg tagctgggca aaaaatattt cagtggttgt gggatttttt279361tggccagagg tttgcaacat ttggctacat ttctgttttc tagtgacttt caaaacactc279421aaaaaccaca aaagttactt tgcagaggtt gggataataa acaggcctgg attctggtgc279481ctctttatga cccagccccc atcgccacta ctgtcagcat agctgcctta gaaaactgaa279541acatcagcct cagtttccat tctttttctg gtgcatgatc aaaacaaaac atgctgacca279601tgacatttta ttttttgcat tgatctgaac agatggctct gaaacagctt tagacattat279661ggtctttctc agatgtatcc aaattccagc tacctgcatg attccaaaaa gaggaggatg279721agaggtctcc aactcagctg tctctgaatt caagcccacc ttatgtgact aagcagctcc279781cattcaactg gcagtcttca atgtctcccg ggaggcctgc agaccaggct attttcagag279841gtttaccctg tgacaatgcc tccacttggg ttctcgcaga cattaatctc catcataggt279901gtctcatcaa aagcagacat ttacccattg aaaaataatg tgtgctaatg aggtttggag279961aatttagggc ttttttatag tggcaaccag aagcagatgg agaacaggtt cttgggaatc280021tgttggctta caacgtccga gggtcctttt tcataagaag ctaaaacaat gtccataaaa280081ggcagcaagt tcacaaagtc ccggcctcaa tgctgtctac ttagtaccta cccacatccc280141cccaacctcg acagaaagag ctaagaggag attagaacca ggaatgtgac ccccaccMct280201tcccctctga tatctaaact gagtgccaca gcaagagtga ggtctggctt ctaactttca280261catgcacaaa accactttag attagaatac actaatacag gtcatagaat gcacaaagag280321atctagattt gacgttcatc tacacacatg acctgctgtt tgacttggct aagtaagttt280381attttcttct cccagagtag tgttcttaac aacaaaacag ggacataaac acatacctcc280441aagcaaggtt aactccttac aaaagaaagt ttcaatacaa tcacgtatat gtgtgtgttc280501acagttataa gcatgacaaa atagtttatg ggtctcttta taaataatta cttaaggtaa280561agccctgttg gttcatatgg aatttaataa taataatttt tttctaagta ggcaattata280621ataatagaca tatatgtgta taatcaagtc tggcagaagg tggcagacat tctcagttaa280681atgcatacca accaggattt tgataataca agagtaagtt gtttaaagta ctgattgcag280741atttggggga aggtggttta tctgaactag aatattaaga ttcaaattta tattaaaagc280801attatgtggc cagacatcgt ggctcactcc tataatccca gcactttggg aggccaaggc280861aggcagatca cttgaggcca cgagtttgag accagctggc caagatggag aaaccccgtc280921tccactaaaa aacacaaaaa ttagccaggt gtagtggtgc gcgcctgtaa tcccagctac280981tctggaggct aaggcacaag aatcacttga acccaggagg cagaggttgc agtgagccaa281041gatcctgctg ctgcactcca gcctgggcaa cagagcaaca ccctgtctca aaaaataatR281101ataataataa taataataat agcattatgt ttcccaggta tgcaSaaatc aaccagaacg281161tgactaatct acatgcaggc ctttatcaaa tccatattta tgttacctgc atgtgtttac281221ttcactacct gggccttatc tcgcttgtat atgtaagaaa tgagggtaac tctcatacat281281ctttgctcag acaatgtagc tgctaaatta aataatatgt aatacacatt tacacatcat281341acatgtccac cagtgctttt gaattctatt tgtccagatg tgactgcttg gttgtggggg281401ccacctgccg tgtccccttt gtgatctgat cagtgcaggc ggctcctatt tctgcctcta281461acaccctgtt gggcagtaat aagatgttaa aggcgacaac agagagagaa gctgggctgt281521cagcttcaga gaggaagggg gtgaagggta caacaaggaa gaaaaagaaa gggagttgag281581gggagatcaa agacaggcag gaagaaagcc aaattgctaa gagaggagat gtggcttcag281641gagcttggga ccctaaggaa aaccccaaag caatgagatt caaaattgtg ccatcccatc281701accccagcta attgaattat tgaatgtccc acgtggaaaa agctagtaca gtgaaaaata281761gcccatactc agcgtaggca gagccctgca taggtgctgc tggaaatctg agcttgtttc281821ttcccaacac attaactacc accactttat ccccccatcc tgaggaaacc tttgtgtgac281881cattttctgt aggagacgtc cgtggtgttg gctttttttt ttttggaggg aagagagaga281941ctcagaacgc acacagagaa aatgctaatg tcgttcagct ctgtttcatt gtcaggaggg282001acacatgagg ataaaaacat agctctccaa accattctcc ccgctacccc tcctccctgc282061accaccacca tcccttcggc tggatgtgtc tctgcacttt gttctaattt atcccatgca282121taatttattc acgtgtgtat tgtttcctga tcagcaactt ttaaaaacaa atgaaatata282181taagatgttt tattaaacaa gttattttta aaaaaataaa ggcagatggt gtccctctcc282241caataacaac gtgtgtgctc ctgcgttagg agttgtcaaa aactgtccag ggtgtgagag282301gctgggctgg tcagtggtat tgtttatacc cctttactca cagggaaagg gtctgggaag282361cagaaaggaa tagctaatta taaatgacca agcaactccc acctagaaaa agcaagcagg282421ggcgttgtgt gtatgctagt gtctgcatgt gggtggcaac acaattacaa atacatcacg282481ttgcaactgt ttctaattat acaaagtaca attcagaact aattccacta accggccaga282541attccgccac cttctttccc gcgtctgtcc cttcccccac ccttaacccc accctacaca282601gactccctcc ccaaacacgc accctactgt gatccaaaaa accctggagc gagtNgggga282661acacaagctt agagatactg cgcccgcccg cgcgaaagcg ggctcccggg taactagggt282721acggctttcc caggaggaaa caaacctggt gcacatgtga aataggttct ctaacttgag282781tttaccaggt ggcatcagcc cggttatgtg atttcggctg gaaatgggga aactgMaaat282841cagttgtggg ttcggtagaa acagcatcag cggtgttgca gcgaaagcaa ccggcagcga282901ggatgcggcg aagttacgcc catttattct gccataaaac attttctttc ttgggtgaaa282961cgctgtggcg ttcaagcgca gtgtatccga gcttccgagc cagaactgaa gccaggagct283021cctatctgat cagcctcagc ttccaacgtc ctcttaacgg cagctttcat ataaatatat283081ttgaaacctg gggccttcct acccctttcc ctatttctga tgggcgacga gctggcgcaa283141acacgtccga ttctccctgt gcattccttt gcgttaggaa ccccctaccg tccccgggag283201cgaacctggt tttcaactcc aggagtggcc aggggtgaag acgagaatgc gctgaattaa283261aagaaccagg gtcgacagcg gccacgcacc agggagaatt cggcatgaac cgccccccac283321ccgacctgca cctccctctg ccacttcgcc tgcggcttcg tccgggcggg gaagtcccgg283381tcgaaggggt gaggaccccc cagcccacct cggatacgga gggagccacc ctctgccgac283441atcacccaat agcacccctt tcagagcgac actagttttc cgaggccacc cctggctccg283501cgatcgcgag cggacttggc ggcttaacag ttccacYgac tggaaggaag gaaggaagga283561aggaaggaag gaaggaagga aggaaggaag gaaggaagga aggaaggaag gaaggaagga283621aggatgaaaa ggaggaggaa ggcaggcagg cagaaattgg ctgttggacc cggggctggc283681ccccgcgagt cctcgcccgg cccgccccac tctgtccagg atctgggcaa gcgctcaaag283741tctccccgag gcggccagag gcacctgccc ctcgcccggc cgggagcaga cgctgccccc283801tcgggccagg agccccaaaa ccgcctctcc gcctgcctca gcgcctcacc cagaggtggc283861gagaacacca ttcataagac ctgcggcttc cctgcctcca aatccacccc aagttaaccc283921gagtcgttaa tccactaaag ccagctcgct cgcaaataca cgagcagaca cacgcKcgat283981cgcccggagc gcctccgaga tccgggggct gccggggaaa gcccggggcg accacctggg284041ccccagcacg cccgggaccc gctgcttccc ccgcggtgct ccaactccgg aaggtttgca284101caaactcccc gcgagcgatc ggaaggcgaa gagcgccctg caaactccRg agcctccgcg284161gtccgtccgc tggacccagc ggacccagcg gcggggcggg ggccgcgggc tcgggggcgc284221ggggctcggc caagtacacc gaggcggcca ctgcccgacg ctcgcccccc gcccagcagc284281ccccgaagcc gcgctccctg cccgcgaggc gggggactcc ggggaccgcg ccgtccccga284341gctcccgcga ccctcctgct gtagagcgct cgagcgccgg gcttctccgc ctgcaacccc284401tatatctggc tctctctgca atttagcaga acacaaatgt aacaattttc ttcttgttaa284461ttgcatctcc tgacatttct gcgcgttggg ggaaaaaaag aagatgaaga agtaagagct284521gaaagaagag agaagccccg ccgcggctgg aggcgcctgc aagcgcaatg ctctggcagc284581gctcgccacg cagaaggcgc cttttttttc atattgaaac cacgcggaat atgtacattt284641tttagtctta cttacgcttt cagggggttg tgaatgacag tcgccatttt gctacaatgt284701aacagaatat tgtctcagag ttctaaaggt tcgctcaggg gMagcgacgg gccaatcaca284761gcgcgggata ccggcccgcc ggccaatcgg cgctgctggt agctaggtgg gcggggcctg284821cgccgtggta gttattaggR gagctgtcaa agcccagagg tcactccctt ttgtagagcc284881cgagagccag caggtcttaa aggggcagta cMgcgctggt agctcctttt cgggctgggg284941aaagtggaga cgcacgggag agtattatag tttggtttaa ctccctactt ttctaaataa285001ctgcagaaga gtttgcgctc ccggacagaa atatttaaat attgccagca agccactgaa285061tcctattcat tagcctttgg ctttgcgtat Yaacattttt aatcccccaa agggtaaatc285121cccgtgtttc agtgcaaaag ttggaaggct gccgtttcgt gttaacaaat tactacatgt285181gctctgccgt ttgctaatgc tctgggtcct gccgcttttt aatattctta ttcccgaagt285241gttctcttta tctcggccac cttcctctct cgcttcttgg aactgtcgct gctgttcctg


Following is a DPF3 genomic nucleotide sequence that includes the DPF3 SNP “DPF3-AA” (SEQ ID NO:).

AACGGCAGAGCACATGTAGTAATTTGTTAACACGAAACGGCAGCCTTCCAACTTTTGCACTGAAACACGGGGATTTACCCTTTGGGGGATTAAAAATGTTGATACGCAAAGCCAAAGGCTAATGAATAGGATTCAGTGGCTTGCTGGCAATATTTAAATATTTCTGTCCGGGAGCGCAAACTCTTCTGCAGTTATTTAGAAAAGTAGGGAGTTAAACCAAACTATAATACTCTCCCGTGCGTCTCCACTTTCCCCAGCCCGAAAAGGAGCTACCAGCGCTGTACTGCCCCTTTAAGACCTGCTGGCTCTCGGGCTCTACAAAAGGGAGTGACCTCTGGGCTTTGACAGCTCTCCTAATAACTACCACGGCGCAGGCCCCGCCCACCTAGCTACCAGCAGCGCCGATTGGCCGGCGGGCCGGTATCCCGCGCTGTGATTGGCCCGTCGCTTCCCCTGAG[C/A]GAACCTTTAGAACTCTGAGACAATATTCTGTTACATTGTAGCAAAATGGCGACTGTCATTCACAACCCCCTGAAAGCGTAAGTAAGACTAA


Following is a LOC145197 genomic nucleotide sequence (SEQ ID NO: 7).

>14:99854151-999492001tccgtgttgctgcgtgagtacaatctctctctctctctctcttttttttttttttttttt61ttttttaaaaacagggtttcactctgtccccaagctggagtgcagtggtgcaatctaggc121tcactgcagcctcgacctccacctcccccagctcaggtgattcccccaccttaatcttct181gactagctgggaccgaccacaggcatgcaccaccacgctcagctMatttttgtattgttt241ggtagagataagttctcgctatgtcacccagcctggtcttgaactcccgggctcaagcac301acctccatccttggcctttcaaaggtctgggattacaggcatgagccactgcatctgcca361cagtccccagtctgaatgcctccctctggtgggctggagctctgctccgagatggcatcg421agtcatcctttctgcagaggttgacgacggggcacccgcgtggagcactgtgggtcactg481tggcagaggccaggcagggccagcRgggctctggcactttgcgcagccaccgggaagtat541ctggcatcacccccactcacattccacgaggcatagcaagcctagtagaataaacgtctc601cttgcaaagatgactttcatctcccgtttcattccattttcctaacggagagaaagtaga661gaaaggcaatcccactgtgtgtccaaagagagccagacatatttggtggccagtcctgaa721gactggcacgttggacagcagctgtcctcgagtgaggaatgggacatgcatctagtcaac781tacaccgcctgtgtcctttccactacgccgcagaaactgtgcagccgcactgctgttttt841aattacaaagtttaagtcgtatgtattttaacactctttcaaaagttaaaagactgaggc901ataaaacctcagtatctcttaatctatgccttgttttaatgaatgtctattgagtcctct961cagagagaagttgctggagaatatacagtagcaccccattatctgtgggatacgttccaa1021gacccctagtggatgcctgaaaccatggatagtcctgaaccctatatataaatatttgca1081catatgtctatatctacacacatgcatatacatacatgtatatacaccatgttttttttt1141tttcagtctgatcaccgagacagctactaagtgactaatggatgggttggatgagtggcg1201tctacagagtgaatatgttggacaaagggatgattcgcacccggggtgagatggagcaag1261atgcagcaagatggcacaagatttcatcatgctactcagactggcatgcaatgtaaacct1321tatgaactacttatttctgaaatgttttcatttaatattttcagacctcggataaccaca1381ggtgactgaaaccacagaaagcaaagccataggcaagagggggctactgcacggggcact1441gggtgacatctgaaggtcagatcacacacagactttagtgtgagtgtgtcccaaatggtg1501cagggagccgacttatacgaaaaaaattactcattacttatctgtcattcaaatttaact1561agcatgctggggggagggtgtggtctgttggtttgtttttgctaaatctggcaaccctac1621ctcaaagggggaggggctcattctaccaaacaatgcatcaaagcatgggttttgtaaaat1681ttaaattataggaaaacgtttaaggcaaaaggtgctctaatctctgtaagggaggcagag1741ctcattccctaataacactgcatgcacactcgaaggaagatgtagtgagataatttctgt1801gttcatcccagctccttgcccaacatgcacccccaaagaactctggttggttggatctac1861tgcacctgcttctgaagaaatctccaattttggtggacaccctccctctacattacccgc1921ctgacctttcagaacccagcgggccgggtctcagcacattacctgggataaagaagacct1981tgatatgtgttcattaagcaaaactgaattggaaggaagaaaacagagagggagggaagg2041aaaaaaggaaggaagggagggagggaaggaaggggaagggagggagagagagagagaggg2101gcatggagagaaggaagaaaagaaggaagtaggaagggaggaaagaaagggggaaagagg2161gcagaagagaagaaaggaagggagggagggagaaaggaaagaaggaaggaaggaaagaaa2221gaaggaagaagagagggagggagggaggaaaagagagggaaggaggaaagggagggagag2281aggagaggagggagggaggaaaggaaggaaggaaagtgatagtatgggatcccattttga2341ctggacatctctgaaaatgcccctgtatgctcaccaaggccctcaagaaggcactcaaca2401aatgctaatcaatgaagcctgttccctttctcagagccaccatcagcccctacagcacct2461gcatgggaatcaggacaggtgtccccttcaggtaagcacagctcccagatgcagaggtca2521gtgagcggacaccacctgtggcttgtgccagttggaacacggccccctttcccctggaag2581aagcaccgccaggtcccacagcctggccagcagagtaggaggctgcgccccagcccttgc2641ctgcactcttcacatccgctccctgctcctgatggaaaggctaaagcattgggaagtgct2701ctcagagctggactttcaccccttgtagaaaatgtcttctgcccagattacccacaccca2761ccaaagagaggcagaattgaaagaaagagaggaaatctcccatcagcgcgtgcaggcaca2821cccacgcacaccccagtgatcgccaggtgtgaactgtatgtaaggtaaacaattccactg2881gagtggtgagtgaatggagctcatccaattcgatattttctagatggagcgaatggtgtc2941tacattctcctcacttgtttttacttttttagccgtctacttggtgtttttggtgctgct3001taaaaatgatttaaagaaacaaaaaaggcattagggggttgcacataatgaaatgaggac3061gactgcaaccaaggctgacacttattctttagttaattcaattgtgcctaattatcttgt3121tgctttgcaatccagcctctcccccaaccagcaagagcctccggaacattccttataatt3181gcagagcagcccgagagctgagatgagtaatcctcagcgttctcattctctgtcctgtcc3241ccgaatgcctctcaggatgtggaggagaaaacttcggaatccagatctttctctgagctt3301tgtgaggagtctctgcctgcgtttccctcaggcgtcatcgtgaatggccggcagaccctg3361tgcacgtagaatttcctgtctggctgtaggggaaaccactctgacagccaggcagagatg3421aaataacccaactgaaaattaattaactccaaaacctccgcagaaaataaaacacaccaa3481gacatatatgggccgcgagcaactttcagctttgggaagggatgggatgtgattattcaa3541tttttctagtccttgactccaggttcttacacattttcttctgtgcctatgctgcgttct3601gtaattagaaatttttccaacactctaaaacttcaaaattataccctaaagtcaagtttt3661caacaaaagcaggacttctttggcttaccttcactgtaatttggtttgggaaagtgtggt3721tttcagccatagcaaagaaaatggtcttcagaactcgaactgtctttagtgaaatgttat3781ttttcaccaaatatgtgttcccacaaagtgttttctagcagctgggagaggtagccagct3841gagctctgtgttgaaacgcatgccctgatacccccccgtgccccatcctgcagcgaattc3901ttgggacccatgcttcttaggacctttggtcctcaagctatttagagatccatggaaact3961gcccaatgaacaaggacaggaaacagggaaaggctgccgcagcggattcttcttcttctc4021cttccccttccccttctccttctctttcctcttcctcttccctcctccctcttccctctt4081ccctcttcttcttcgtgaatgagcgcactgatgaatagcagaggatgagaaccctgcagg4141ccaggcacaggcagcatcaaagaaacagagggtggagcacaggtgcccagcccaggagat4201ttaaaatcagatcagggacgggcgcgatggctcacgcctgtaatcccggcactttgggag4261gctgaggtgggcggatcatgaggtcaggagatcgagaccatcctggctaacacggtgaaa4321acccatctctactaaaaatacaaaaaaaaaaaaaaaaaatcagccgggcatggtggcggg4381cacctgtagtcccagctacttgggaggctgaggcaggagaatggcgtgaacccgagagac4441agagcttgcagtgagccgagattgtgccactgcactccagcctgggcgacagagcgagac4501tctgtcaaaaaaataaaaaataaaaataaaaataaaatcatcagatcaggcagaccaaaa4561ggccaagtcaggatattttgaagttgtaccccctcctcggacttcacctaatgctcccaa4621tgtacacagaatgttctgtccctggatggaaggtgacccaaaatagagaagaatcatgga4681aag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92461gaaagaaagaaagaaggaaggaaggaaaggagaaaggaaggaaggaaggaaggagaaaag92521aagaaaaaagtcaagatgatacaaggtttgggtctgagcaactagaataatctcgttgcc92581atccattgagatgctgcagtctgtgggtggaacacgtctggggctattggggaattgttt92641ggaggcatgagcttaaatgtctacgaggcacacacacgtggaaatgtcaagctgggactt92701taaatatacaattcctgagcttgtgcagagtttagggttggagatataaatttggggtga92761gtgtaggataaagagaaagaacaaaatctaacactgagaggctggggcatggaggaccag92821gagggctcaaaggagacagaaggagcagtcaaggaggagtcaaggaggagtcaagggccg92881aggaccaggagggctttgagtcctgaagcagaacagtgcatgtcagaaaggaggatggac92941tgcagcagctttgtaggtcaagaagaacagggcatagtagacaaccgctgggtctgacag93001cgtggtggtccctggtagaatcatgtcgctaagagcctgactttggggtaaagaaaaagg93061aggaaaaggaatgggagacagagactacagacttactccttaatgaagctgtgctctaca93121aagaggagaaaaattgggacggtagctagcatgggaatatccaatgactgatccacgtgg93181atgcaaacgcctgccccctggcctcaattcaggacaccttggcatggccaccccaagtcc93241agggatctctgtgggctccgccaagattctggttgcagctgtactactgttgaactcctc93301cggctgctcaatcctgctcctctctctccccagcaagtacacacaactccgagttgaacc93361ccacccaagacacttcccttccccgcacccccaaataaaccacttccattggaatcctgt93421ctcagaatctgtttctggggaacccaaacttagcccaacagcaggtctcaaggctgacag93481gaatgtgggaaattgagggaaagtgtgggaaccagaggaagatgggctgtgggatgccac93541taagcaggtgggggggcctggatccagcgcacaaggcgagggcctgccttaggaaagggg93601cttgtcacttgcagcacttggtgcaggattcaggtaggtggcatctgcagaagatccctt93661ctgaataattctattttgtcagtgaaccagaagcaaggttactactaagcatgaagactg93721gggagaagtggggtttggagaagaaaggagactggtttgggSgcggggggttgcagggaS93781gaaagtgaacagactagacagtgagtcacaggacaactgcgggaggacatcctcaaggtg93841cctaagaaaacaatagtcaatctggacatatacctggtgaaactgtatttcaaggagaaa93901ggtaaaataaagatatttttagataaacacaaaaggagagactgtcccaccaacaactct93961cacaaaaggacttttgaaatggatgcatttcaggaagaaagaaagtgatcccagacggaa94021gatctgggcaggaaaaaggagtgagaatcttacagaaggagacagggagttgtggatcca94081tcaggcctgaaatgtgatggtcagttggtcagtttttgtgagtcaacatattgctctttt94141ttctctctctttttttttttttttttttttggattggtgaggtctggctatgttgcccag94201gctggtcccgaacccctgagttcaagcgatcctcccacctcKgcctcccaaagtgctggg94261attacaggcatgggccaccacgcctggctcaacacattgctctctaatgttattgttgct94321tgccccaagttccgtggagtcttctatcacttgcagctgagcaccctgacggatctacgc94381agccacttgagagcgcgctttgccgcgtgcttggcgagaaggcgccaatcaaccctttaa94441tccaatcatgcaatgattagggccttccaggtggaggtggagctgaggtccttccgggag94501agagaaaaagcctcacagcaggcttactcctataaggtgacacagacacaatctcgtcac94561aggatgaggagtagggaaatctcccaacttgggcacacagcgtgtgatctcgccttgctt94621ttctccctggaggtgcagcatcatcacaggtgttggatggacagctggcaaccaatgtaa94681atgcctgtttccccagctctaataaacgggcttaacagcacatgccctcgtgcaccttag94741gaagccacatgtattgcagctgggccactgggaaaaggcacttctttctttcagaataag94801ggccaactRatgtatYatgaatgacccaacaaccctacctcttaaaacgctgtctgagag94861cctgagcaaactggacctcgccagtggctggtgagagctctgtgttaatggtgctggatt94921cctgcgggggcctgtgattccccgctccgtagagagtaggacagcaccccgcctcctccg94981gacattgctgcacagtgggtgagccacctgctgccctgaacaggaagggaaggaggagcc95041gtcggagctt


Following are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 complementary DNA sequences (cDNAs; SEQ ID NO: 8, 9, 10, 11, 12, 13, 14, 15, 16 and 17, respectively). Following is an ICAM1 cDNA sequence (SEQ ID NO: 8).

NM_000201 [gi:4557877] Homo sapiens intercellular adhesion molecule 1 (CD54),human rhinovirus receptor (ICAM1), mRNAgcgccccagtcgacgctgagctcctctgctactcagagttgcaacctcagcctcgctatggctcccagcagcccccggcccgcgctgcccgcactcctggtcctgctcggggctctgttcccaggacctggcaatgcccagacatctgtgtccccctcaaaagtcatcctgccccggggaggctccgtgctggtgacatgcagcacctcctgtgaccagcccaagttgttgggcatagagaccccgttgcctaaaaaggagttgctcctgcctgggaacaaccggaaggtgtatgaactgagcaatgtgcaagaagatagccaaccaatgtgctattcaaactgccctgatgggcagtcaacagctaaaaccttcctcaccgtgtactggactccagaacgggtggaactggcacccctcccctcttggcagccagtgggcaagaaccttaccctacgctgccaggtggagggtggggcaccccgggccaacctcaccgtggtgctgctccgtggggagaaggagctgaaacgggagccagctgtgggggagcccgctgaggtcacgaccacggtgctggtgaggagagatcaccatggagccaatttctcgtgccgcactgaactggacctgcggccccaagggctggagctgtttgagaacacctcggccccctaccagctccagacctttgtcctgccagcgactcccccacaacttgtcagcccccgggtcctagaggtggacacgcaggggaccgtggtctgttccctggacgggctgttcccagtctcggaggcccaggtccacctggcactgggggaccagaggttgaaccccacagtcacctatggcaacgactccttctcggccaaggcctcagtcagtgtgaccgcagaggacgagggcacccagcggctgacgtgtgcagtaatactggggaaccagagccaggagacactgcagacagtgaccatctacagctttccggcgcccaacgtgattctgacgaagccagaggtctcagaagggaccgaggtgacagtgaagtgtgaggcccaccctagagccaaggtgacgctgaatggggttccagcccagccactgggcccgagggcccagctcctgctgaaggccaccccagaggacaacgggcgcagcttctcctgctctgcaaccctggaggtggccggccagcttatacacaagaaccagacccgggagcttcgtgtcctgtatggcccccgactggacgagagggattgtccgggaaactggacgtggccagaaaattcccagcagactccaatgtgccaggcttgggggaacccattgcccgagctcaagtgtctaaaggatggcactttcccactgcccatcggggaatcagtgactgtcactcgagatcttgagggcacctacctctgtcgggccaggagcactcaaggggaggtcacccgcgaggtgaccgtgaatgtgctctccccccggtatgagattgtcatcatcactgtggtagcagccgcagtcataatgggcactgcaggcctcagcacgtacctctataaccgccagcggaagatcaagaaatacagactacaacaggcccaaaaagggacccccatgaaaccgaacacacaagccacgcctccctgaacctatcccgggacagggcctcttcctcggccttcccatattggtggcagtggtgccacactgaacagagtggaagacatatgccatgcagctacacctaccggccctgggacgccggaggacagggcattgtcctcagtcagatacaacagcatttggggccatggtacctgcacacctaaaacactaggccacgcatctgatctgtagtcacatgactaagccaagaggaaggagcaagactcaagacatgattgatggatgttaaagtctagcctgatgagaggggaagtggtgggggagacatagccccaccatgaggacatacaactgggaaatactgaaacttgctgcctattgggtatgctgaggcccacagacttacagaagaagtggccctccatagacatgtgtagcatcaaaacacaaaggcccacacttcctgacggatgccagcttgggcactgctgtctactgaccccaacccttgatgatatgtatttattcatttgttattttaccagctatttattgagtgtcttttatgtaggctaaatgaacataggtctctggcctcacggagctcccagtccatgtcacattcaaggtcaccaggtacagttgtacaggttgtacactgcaggagagtgcctggcaaaaagatcaaatggggctgggacttctcattggccaacctgcctttccccagaaggagtgatttttctatcggcacaaaagcactatatggactggtaatggttcacaggttcagagattacccagtgaggccttattcctcccttccccccaaaactgacacctttgttagccacctccccacccacatacatttctgccagtgttcacaatgacactcagcggtcatgtctggacatgagtgcccagggaatatgcccaagctatgccttgtcctcttgtcctgtttgcatttcactgggagcttgcactattgcagctccagtttcctgcagtgatcagggtcctgcaagcagtggggaagggggccaaggtattggaggactccctcccagctttggaagggtcatccgcgtgtgtgtgtgtgtgtatgtgtagacaagctctcgctctgtcacccaggctggagtgcagtggtgcaatcatggttcactgcagtcttgaccttttgggctcaagtgatcctcccacctcagcctcctgagtagctgggaccataggctcacaacaccacacctggcaaatttgattttttttttttttttcagagacggggtctcgcaacattgcccagacttcctttgtgttagttaataaagctttctcaactgcc


Following is an ICAM4 cDNA sequence (SEQ ID NO: 9).

NM_001544 [gi:12545400] Homo sapiens intercellular adhesion molecule 4,Landsteiner-Wiener blood group (ICAM4), transcript variant 1, mRNA.ctttttgccatggggtctctgttccctctgtcgctgctgttttttttggcggccgcctacccgggagttgggagcgcgctgggacgccggactaagcgggcgcaaagccccaagggtagccctctcgcgccctccgggacctcagtgcccttctgggtgcgcatgagcccggagttcgtggctgtgcagccggggaagtcagtgcagctcaattgcagcaacagctgtccccagccgcagaattccagcctccgcaccccgctgcggcaaggcaagacgctcagagggccgggttgggtgtcttaccagctgctcgacgtgagggcctggagctccctcgcgcactgcctcgtgacctgcgcaggaaaaacacgctgggccacctccaggatcaccgcctacaaaccgccccacagcgtgattttggagcctccggtcttaaagggcaggaaatacactttgcgctgccacgtgacgcaggtgttcccggtgggctacttggtggtgaccctgaggcatggaagccgggtcatctattccgaaagcctggagcgcttcaccggcctggatctggccaacgtgaccttgacctacgagtttgctgctggaccccgcgacttctggcagcccgtgatctgccacgcgcgcctcaatctcgacggcctggtggtccgcaacagctcggcacccattacactgatgctcgcttggagccccgcgcccacagctttggcctccggttccatcgctgcccttgtagggatcctcctcactgtgggcgctgcgtacctatgcaagtgcctagctatgaagtcccaggcgtaaagggggatgttctatgccggctgagcgagaaaaagaggaatatgaaacaatctggggaaatggccatacatggtggctgacgcctgtaatcccagcactttgggaggccgaggcaggagaatcgcttgagcccaggagttcgagaccagcctggacaacatagtgagaccccgtctatgcaaaaaatacacaaattagcctggtgtggtggcccgcacctgtggtcccagctacccgggaggctgagttgggaggatcctttgagccctgaaagtcgaggttgcagtgagccttgatcgtgccactgcactccagcctgggggacagagcacgaccctgtctccaaaaataaaataaaaataaaaataaatattggcgggggaaccctctggaatcaataaaggcttccttaaccagc


Following is an ICAM5 cDNA sequence (SEQ ID NO: 10).

NM_003259 [gi:12545403] Homo sapiens intercellular adhesion molecule 5,telencephalin (ICAM5), mRNAccgtcctctagcccagctcctcggctcgcgctctcctcgcctcctgtgctttccccgccgcggcgatgccagggccttcgccagggctgcgccgggcgctactcggcctctgggctgctctgggcctggggctcttcggcctctcagcggtctcgcaggagcccttctgggcggacctgcagcctcgcgtggcgttcgtggagcgcgggggctcgctgtggctgaattgcagcaccaactgccctcggccggagcgcggtggcctggagacctcgctgcgccgaaacgggacccagaggggtttgcgttggttggcgcggcagctggtggacattcgcgagccggagactcagcccgtctgcttcttccgctgcgcgcggcgcacactacaggcgcgtgggctcattcgcactttccagcgaccagatcgcgtagagctgatgccgctgcctccctggcagccggtgggcgagaacttcaccctgagctgtagggtccccggcgccgggccccgtgcgagcctcacgctgaccctgctgcggggcgcccaggagctgatccgccgcagcttcgccggtgaaccaccccgagcgcggggcgcggtgctcacagccacggtactggctcggagggaggaccatggagccaatttctcgtgtcgcgccgagctggacctgcggccgcacggactgggactgtttgaaaacagctcggcccccagagagctccgaaccttctccctgtctccggatgccccgcgcctcgctgctccccggctcttggaagttggctcggaaaggcccgtgagctgcactctggacggactgtttccagcctcagaggccagggtctacctcgcactgggggaccagaatctgagtcctgatgtcaccctcgaaggggacgcattcgtggccactgccacagccacagctagcgcagagcaggagggtgccaggcagctgatctgcaacgtcaccctggggggcgaaaaccgggagacccgggagaacgtgaccatctacagcttcccggcaccactcctgaccctgagcgaacccagcgtctccgaggggcagatggtgacagtaacctgcgcagctgggacccaagctctggtcacactggagggagttccagccgcggtcccggggcagcccgcccagcttcagctaaatgccaccgagaacgacgacagacgcagcttcttctgcgacgccaccctcgatgtggacggggagaccctgatcaagaacaggagcgcagagcttcgtgtcctatacgctccccggctagacgattcggactgccccaggagttggacgtggcccgagggcccagagcagacgctgcgctgcgaggcccgcgggaacccagaaccctcagtgcactgtgcgcgctccgacggcggggccgtgctggctctgggcctgctgggtccagtcactcgggcgctctcaggcacttaccgctgcaaggcggccaatgatcaaggcgaggcggtcaaggacgtaacgctaacggtggagtacgcaccagcgctggacagcgtgggctgcccagaacgcattacttggctggagggaacagaagcctcgctgagctgtgtggcgcacggggtaccgccgcctgatgtgatctgcgtgcgctctggagaactcggggccgtcatcgaggggctgttgcgtgtggcccgggagcatgcgggcacttaccgctgcgaagccaccaaccctcggggctctgcggccaaaaatgtggccgtcacggtggaatatggccccaggtttgaggagccgagctgccccagcaattggacatgggtggaaggatctgggcgcctgttttcctgtgaggtcgatgggaagccacagccaagcgtgaagtgcgtgggctccgggggcgccactgagggggtgctgctgccgctggcacccccagaccctagtcccagagctcccagaatccctagagtcctggcacccggtatctacgtctgcaacgccaccaaccgccacggctccgtggccaaaacagtcgtcgtgagcgcggagtcgccaccggagatggatgaatctacctgcccaagtcaccagacgtggctggaaggggctgaggcttccgcgctggcctgcgccgcccggggtcgcccttccccaggagtgcgctgctctcgggaaggcatcccatggcctgagcagcagcgcgtgtcccgagaggacgcgggcacttaccactgtgtggccaccaatgcgcatggcacggactcccggaccgtcactgtgggcgtggaataccggccagtggtggccgaacttgctgcctcgccccctggaggcgtgcgcccaggaggaaacttcacgttgacctgccgcgcggaggcctggcctccagcccagatcagctggcgcgcgcccccgggggccctcaacatcggcctgtcgagcaacaacagcacactgagcgtggcaggcgccatgggaagccacggcggcgagtacgagtgcgcacgcaccaacgcgcacgggcgccacgcgcggcgcatcacggtgcgcgtggccggtccgtggctatgggtcgccgtgggcggcgcggcggggggcgcggcgctgctggccgcgggggccggcctggccttctacgtgcagtccaccgcctgcaagaagggcgagtacaacgtgcaggaggccgagagctcaggcgaggccgtgtgtctcaacggagcgggcggcggcgctggcggggcggcaggcgcggagggcggacccgaggcggcggggggcgcggccgagtcgccggcggagggcgaggtcttcgccatacagctgacatcggcgtgagccgctcccctctccccgcgggccgggggacgccccccagactcacaogggggcttatttattgctttatttatttacttattcatttatttatgtattcaactccaagggcgtcacccccattttctacccatcccctcaataaagtttttataaagga


Following is a MAPK10 cDNA sequence (SEQ ID NO: 11).

NM_003259 [gi:12545403] Homo sapiens mitogen-activated protein kinase 10(MAPK10), transcript variant 1, mRNA.gagaaatggcgtggcaggggacccagcgagcccagagggattttgccgctgcttcctctacccctgtatttcacgcagctctctaaattgactcagctccaggctagtgtgagaaacaccaacagcaggcccatctcagatcttcactatggcaacttatgcaagaaactgttgaattagacccgtttcctatagatgagaaaccatacaagctgtggtatttatgagcctccatttcttatactactgcagtgaaccaacattggatgtgaaaattgccttttgtcagggattcgataaacaagtggatgtgtcatatattgccaaacattacaacatgagcaaaagcaaagttgacaaccagttctacagtgtggaagtgggagactcaaccttcacagttctcaagcgctaccagaatctaaagcctattggctctggggctcagggcatagtttgtgccgcgtatgatgctgtccttgacagaaatgtggccattaagaagctcagcagaccctttcagaaccaaacacatgccaagagagcgtaccgggagctggtcctcatgaagtgtgtgaaccataaaaacattattagtttattaaatgtcttcacaccccagaaaacgctggaggagttccaagatgtttacttagtaatggaactgatggatgccaacttatgtcaagtgattcagatggaattagaccatgagcgaatgtcttacctgctgtaccaaatgttgtgtggcattaagcacctccattctgctggaattattcacagggatttaaaaccaagtaacattgtagtcaagtctgattgcacattgaaaatcctggactttggactggccaggacagcaggcacaagcttcatgatgactccatatgtggtgacacgttattacagagcccctgaggtcatcctggggatgggctacaaggagaacgtggatatatggtctgtgggatgcattatgggagaaatggttcgccacaaaatcctctttccaggaagggactatattgaccagtggaataaggtaattgaacaactaggaacaccatgtccagaattcatgaagaaattgcaacccacagtaagaaactatgtggagaatcggcccaagtatgcgggactcaccttccccaaactcttcccagattccctcttcccagcggactccgagcacaataaactcaaagccagccaagccagggacttgttgtcaaagatgctagtgattgacccagcaaaaagaatatcagtggacgacgccttacagcatccctacatcaacgtctggtatgacccagccgaagtggaggcgcctccacctcagatatatgacaagcagttggatgaaagagaacacacaattgaagaatggaaagaacttatctacaaggaagtaatgaattcagaagaaaagactaaaaatggtgtagtaaaaggacagccttctccttcagcacaggtgcagcagtgaacagcagtgagagtctccctccatcctcgtctgtcaatgacatctcctccatgtccaccgaccagaccctggcatctgacactgacagcagcctggaagcctcggcaggacccctgggttgttgcaggtgactagccgcctgcctgcgaaacccagcgttcttcaggagatgatgtgatggaacacacacacacgcagacacacacacacacacaaatgcagacacacaacatcaagaaaacagcaagggagagaatccaagcctaaaattaaataaatctttcagcctgcttcttccccagggttctgtattgcagctaagctcaaatgtatatttaacttctagttgctcttgctttggtcttcttccaatgatgcttactacagaaagcaaatcagacacaattagagaagccttttccataaagtgtaattttaatggctgcaaaaccggcaacctgtaactgcccttttaaatggcatgacaaggtgtgcagtggccccatccagcatgtgtgtgtctctatcttgcatctacctgctccttggcctagtcagatggatgtagatacagatccgcatgtgtctgtattcatacagcactacttacttagagatgctactgtcagtgtcctcagggctctaccaagacataatgcactggggtaccacatggtccatttcatgtgatctattactctgacataaacccatctgtaatatattgccagtatataagctgtttagtttgttaattgattaaactgtatgtcttataagaaaacatgtaaagggggaatatatggggggagtgagctctctcagacccttgaagatgtagcttccaaatttgaatggattaaatggcacctgtataccaOther isoforms are isoform 2 (NM_138982); isoform 3 (NM_138980); isoform 4(NM_138981)


Following is a first KIAA0861 cDNA sequence (SEQ ID NO: 12).

KIAA0861 Coding Seguence (cDNA) Corresponding to SEQ ID NO:2. (cDNA frompositions 94 . . . 3189)cgctgaattctaggggaggatggcgcccccatcatcacgttcccagagttttcggggttcaaacacatcccagatgaagacttcctgaatgtcatgacctacctgactagcatccccagtgtggaggctgccagcattggattcattgttgttatcgacagacgaagagacaagtggagctccgtaaaggcatccttgacacgaatagctgtggcatttccaggaaacttacagctcatattcatccttcgtccatctcgctttatccagaggacattcactgacattggcattaaatactatcgaaatgagtttaaaacgaaagtgccgatcatcatggtaaactctgtctctgaccttcacggctacatcgacaaaagccaactgacccgggaattaggggggactttggaatatcgccacggtcagtgggtaaatcaccgcactgccatcgaaaactttgccttgaccttgaagaccactgcccagatgctgcagacgtttgggtcctgcctggccacagcagagctgcccagaagcatgctatccacggaagaccttctcatgtcccacacaaggcagcgggacaagctgcaggatgagctgaaattacttggaaagcaggggaccacattgctgtcatgcatccaagaaccagcaaccaaatgtcccaacagcaaactcaatctcaaccaacttgagaatgtaactaccatggaaaggttattagttcaactggatgaaacagaaaaagcctttagtcacttttggtctgagcatcatctgaagcttaaccagtgcctacaactacagcattttgagcacgatttttgtaaggctaagcttgccctggataatttgctggaagagcaagcagagtttacaggcattggagacagcgtgatgcacgtggagcagattcttaaggaacacaaaaaactggaggaaaaaagccaggagtccctggaaaaggcccagctgctggcactggttggggaccagctcatccaaagccaccattatgcagcagatgccatcaggccccggtgtgtggagctcaggcacctctgtgacgatttcatcaatggaaacaagaaaaaatgggacattttaggaaagtccttagagtttcatagacagctggacaaggtcagccaatggtgtgaggcaggaatctacctcttggcttcccaagctgtagacaagtgccagtctcgagaaggggttgatatcgccttgaacgacattgcgacattcctgggcacagtcaaggagtacccgttgctcagccccaaggagttttacaacgagtttgagttgctgctcaccctcgatgcaaaggccaaagcccagaaagttttgcagaggctggatgatgtccaggaaatatttcacaagaggcaagtgagtctgatgaaactggcagccaaacagactcgtccagtgcaacctgtggccccacatcctgagtcttcaccaaaatgggtgtcatcaaaaaccagccagccctccacctcggtccctctagctcgtcctctgagaacgtctgaggaaccttatacggagacagagttgaactcccggggaaaggaagatgatgagactaaatttgaagtcaagagtgaagaaatctttgaaagccatcatgaaagggggaaccctgagctggagcagcaggccaggctcggagacctttccccccgcaggcgcattatacgtgacttgcttgagactgaagagatttacataaaagagattaaaagcataattgatggatatatcactccaatggattttatttggctaaagcatctaattccagatgttcttcagaataacaaggactttctctttgggaatattagagaactttacgaatttcacaacaggacttttctaaaagagttggaaaagtgtgctgagaaccctgaacttctggcacattgctttctcaagagaaaagaagatcttcagatatattttaaataccataagaatctgccccgagctagggcaatctggcaagagtgtcaagactgcgcctactttggggtatgccagcgccaactggatcacaatctccctctttttaagtatctcaaaggaccaagccagagacttataaaataccagatgctgttgaagggtctgctggatttcgagtctcctgaagatatggagatagacccaggtgaactaggaggctcggctaaggatgggccaaagagaaccaaagattcagcattctcaactgaactacaacaagctttggcagtgatagaggatttgatcaagtcctgtgagttggctgtggacctagcagcagtgactgaatgtccggacgatattggaaaactaggcaagctgttgctgcacggccctttcagcgtctggacaattcacaaggatcgttataaaatgaaggatttgattcgatttaaacccagccagaggcaaatctacctatttgaaaggggaatagtgttctgtaagatacgaatggagcctggggaccagggattatctcctcattacagcttcaagaaggccatgaagctgatgacactttcaattcgccagcttggaagggggagccatagaaagtttgagattgccagtcgaaatggacttgagaaatacatcctgcaggcagcttcaaaagaaatcagagactgttggttttcagaaataagtaaattattgatggaacaacaaaataatatcaaagaccaaggaaatccacagtttgaaatgagcacgagcaaaggcagtggagcaggatccggaccatggattaaaaatatggaaagagctaccactagcaaggaagacccggcctccagcacaggagggattaaaggctgctccagcagggagtttagctccatggacacctttgaagactgtgaaggcgcagaagacatggaaaaggagagcagtgctctgagtctcgcgggccttttccagtcggacgacagtcacgaaacctgttcctccaaatctgctttcctggagaggggagaaagcagccagggagaaaaagaagaacgcgatgaggaggaaacggcgacccgcagcaccgaggaggagcgcgctggggcgtccacgggccggctggctcctgcgggggcgacggctggtttccaggcgagggcgctgcgcccgaggacctccgcccaggagagctga


Following is a second KIAA0861 cDNA sequence (SEQ ID NO: 13).

(4772 bp)ttgggcggagatgcctttaaaaaatcatccaccgcagcggtagaaacagttttgtttggctttatttatacggaatggtttttcagtgaaatgctgtcttgcttaaaagaagagatgcctccccaggagctcacccggcgactggccacagtgatcactcatgtcgatgaaattatgcagcaggaagtcagacccctgatggcggtggagataatagaacaacttcacagacaatttgccattctttcaggaggccgaggggaggatggcgcccccatcatcacgttcccagagttttcggggttcaaacacatcccagatgaagacttcctgaatgtcatgacctacctgactagcatccccagtgtggaggctgccagcattggattcattgttgttatcgacagacgaagagacaagtggagctccgtaaaggcatccttgacacgaatagctgtggcatttccaggaaacttacagctcatattcatccttcgtccatctcgctttatccagaggacattcactgacattggcattaaatactatcgaaatgagtttaaaacgaaagtgccgatcatcatggtaaactctgtctctgaccttcacggctacatcgacaaaagccaactgacccgggaattaggggggactttggaatatcgccacggtcagtgggtaaatcaccgcactgccatcgaaaactttgccttgaccttgaagaccactgcccagatgctgcagacgtttgggtcctgcctggccacagcagagctgcccagaagcatgctatccacggaagaccttctcatgtcccacacaaggcagcgggacaagctgcaggatgagctgaaattacttggaaagcaggggaccacattgctgtcatgcatccaagaaccagcaaccaaatgtcccaacagcaaactcaatctcaaccaacttgagaatgtaactaccatggaaaggttattagttcaactggatgaaacagaaaaagcctttagtcacttttggtctgagcatcatctgaagcttaaccagtgcctacaactacagcattttgagcacgatttttgtaaggctaagcttgccctggataatttgctggaagagcaagcagagtttacaggcattggagacagcgtgatgcacgtggagcagattcttaaggaacacaaaaaactggaggaaaaaagccaggagcccctggaaaaggcccagctgctggcactggttggggaccagctcatccaaagccaccattatgcagcagatgccatcaggccccggtgtgtggagctcaggcacctctgtgacgatttcatcaatggaaacaagaaaaaatgggacattttaggaaagtccttagagtttcatagacagctggacaaggtcagccaatggtgtgaggcaggaatctacctcttggcttcccaagctgtagacaagtgccagtctcgagaaggggttgatatcgccttgaacgacattgcgacattcctgggcacagtcaaggagtacccgttgctcagccccaaggagttttacaacgagtttgagttgctgctcaccctcgatgcaaaggccaaagcccagaaagttttgcagaggctggatgatgtccaggaaatatttcacaagaggcaagtgagtctgatgaaactggcagccaaacagactcgtccagtgcaacctgtggccccacatcctgagtcttcaccaaaatgggtgtcatcaaaaaccagccagccctccacctcggtccctctagctcgtcctctgagaacgtctgaggaaccttatacggagacagagttgaactcccggggaaaggaagatgatgagactaaatttgaagtcaagagtgaagaaatctttgaaagccatcatgaaagggggaaccctgagctggagcagcaggccaggctcggagacctttccccccgcaggcgcattatacgtgacttgcttgagactgaagagatttacataaaagagattaaaagcataattgatggatatatcactccaatggattttatttggctaaagcatctaattccagatgttcttcagaataacaaggactttctctttgggaatattagagaactttacgaatttcacaacaggacttttctaaaagagttggaaaagtgtgctgagaaccctgaacttctggcacattgctttctcaagagaaaagaagatcttcagatatattttaaataccataagaatctgccccgagctagggcaatctggcaagagtgtcaagactgcgcctactttggggtatgccagcgccaactggatcacaatctccctctttttaagtatctcaaaggaccaagccagagacttataaaataccagatgctgttgaagggtctgctggatttcgagtctcctgaagatatggagatagacccaggtgaactaggaggctcggctaaggatgggccaaagagaaccaaagattcagcattctcaactgaactacaacaagctttggcagtgatagaggatttgatcaagtcctgtgagttggctgtggacctagcagcagtgactgaatgtccggacgatattggaaaactaggcaagctgttgctgcacggccctttcagcgtctggacaattcacaaggatcgttataaaatgaaggatttgattcgatttaaacccagccagaggcaaatctacctatttgaaaggggaatagtgttctgtaagatacgaatggagcctggggaccagggattatctcctcattacagcttcaagaagaccatgaagctgatgacactttcaattcgccagcttggaagggggagccatagaaagtttgagattgccagtcgaaatggacttgagaaatacatcctgcaggcagcttcaaaagaaatcagagactgttggttttcagaaataagtaaattattgatggaacaacaaaataatatcaaagaccaaggaaatccacagtttgaaatgagcacgagcaaaggcagtggagcaggatccggaccatggattaaaaatatggaaagagctaccactagcaaggaagacccggcctccagcacaggagggattaaaggctgctccagcagggagtttagctccatggacacctttgaagactgtgaaggcgcagaagacatggaaaaggagagcagtgctctgagtctcgcgggccttttccagtcggacgacagtcacgaaacctgttcctccaaatctgctttcctggagaggggagaaagcagccagggagaaaaagaagaacgcgatgaggaggaaacggcgacccgcagcaccgaggaggagcgcgctggggcgtccacgggccggctggctcctgcgggggcgacggctggtttccaggcgagggcgctgcgcccgaggacctccgcccaggagagctgacctccctgcggacgcccccgctcctcggctccagagcgcccgcattcccgggagaggcggtgtgggggcccgggccctgcccagctacgcagaaagcagccggagcctcggcggcggcagaaaggggacaaccagggcctcctccgaggagcccgaggggtgtcctgggtgcgcgcctagctccgcacgggggacctcggagctgctctaaggcgcctgcagaggcgagcagagcccgcagcccacgccttctcgaccgcgcacttcgacattcggagccgggcaattctttgctgcgtgggcttctctgtgctcccacggtaggatgtttagtagcacccctggcctctacccactaggtgccaggaatgcgccaccccatcctccaccccgcccccaaatcgtgacaatcaaaaatgcctgcagacacgcccgcatttctccagggcggggtgggaatcggttgagagccgcttagcccgagccttggaggagccggagccgctcaaacccggcgggggccgcagactgggagctcccggtccgcctcccagcatccctgcgagcgttcatggggtgttcgtgttagtgccaagattgcttcgttgtagagagagttcgttccaagttactttctgaggtattttatgtatcgatttattagtttttaaatgagttttgttagtttcagttgtattttatttttagttttattagttgattttcatttctttgtagctttctggttatttaattttatagtttcagttactggtttatagttactttattttcaaagttatttagttgttcattttcagttatttatatgtagttgttttgttttaggagttacagatgttcaaattaatttgcttggaatttatttatttatttatttatttatttttcgagacggagtctcgctctgtcgcccaggctggagtgcagtggtgtgatctcggctcactgcaaaccgcctcccgggctcacgccattctcctgcctcagcctcctgagtagctgggactacaggcgcccgccaccacgcccggctaattttttatttggatttttagtagagacggggtttccccgtgttagccaggatggtctcgatctcctgacctcgtgatccccctgcctcggcctcccaaagtgctgggattacaggcgtgagccaccgcgcccagccggaatttatttttaattatctttacaattattatctgagttatttaccttcatagttatttcactttatcttattggagtttttgagttatttatttttacagtaacttatttgactattaaacactcactggaagttcatg


Following is a NUMA1 cDNA sequence (SEQ ID NO: 14).

NM_006185 [gi:5453819] Homo sapiens nuclear mitotic apparatus protein 1(NUMA1), mRNA.gcccacgaagaggtacgattccggagaatcgcgaggcagagcgggagcgcgcagccaggtggaaactaattctaagccagactgctggagatcaccctgttctagtgtgtggaggcttccaccaggagtctggagtgcaatggcacgatctcggctcactgcaacctccacctcccaggttcaagcgattctcctgcctcagcctcccaagtagctgggattacaggcgcattggagtgactgtctggcatcaccaagatgacactccacgccacccggggggctgcactcctctcttgggtgaacagtctacacgtggctgaccctgtggaggctgtgctgcagctccaggactgcagcatcttcatcaagatcattgacagaatccatggcactgaagagggacagcaaatcttgaagcagccggtgtcagagagactggactttgtgtgcagttttctgcagaaaaatcgaaaacatccctcttccccagaatgcctggtatctgcacagaaggtgctagagggatcagagctggaactggcgaagatgaccatgctgctcttataccactctaccatgagctccaaaagtcccagggactgggaacagtttgaatataaaattcaggctgagttggctgtcattcttaaatttgtgctggaccatgaggacgggctaaaccttaatgaggacctagagaacttcctacagaaagctcctgtgccttctacctgttctagcacattccctgaagagctctccccacctagccaccaggccaagagggagattcgcttcctagagctacagaaggttgcctcctcttccagtgggaacaactttctctcaggttctccagcttctcccatgggtgatatcctgcagaccccacagttccagatgagacggctgaagaagcagcttgctgatgagagaagtaatagggatgagctggagctggagctagctgagaaccgcaagctcctcaccgagaaggatgcacagatagccatgatgcagcagcgcattgaccgcctagccctgctgaatgagaagcaggcggccagcccactggagcccaaggagcttgaggagctgcgtgacaagaatgagagccttaccatgcggctgcatgaaaccctgaagcagtgccaggacctgaagacagagaagagccagatggatcgcaaaatcaaccagctttcggaggagaatggagacctttcctttaagctgcgggagtttgccagtcatctgcagcagctacaggatgccctcaatgagctgacggaggagcacagcaaggccactcaggagtggctagagaagcaggcccagctggagaaggagctcagcgcagccctgcaggacaagaaatgccttgaagagaagaacgaaatccttcagggaaaactttcacagctggaagaacacttgtcccagctgcaggataacccaccccaggagaagggcgaggtgctgggtgatgtcttgcagctggaaaccttgaagcaagaggcagccactcttgctgcaaacaacacacagctccaagccagggtagagatgctggagactgagcgaggccagcaggaagccaagctgcttgctgagcggggccacttcgaagaagaaaagcagcagctgtctagcctgatcactgacctgcagagctccatctccaacctcagccaggccaaggaagagctggagcaggcctcccaggctcatggggcccggttgactgcccaggtggcctctctgacctctgagctcaccacactcaatgccaccatccagcaacaggatcaagaactggctggcctgaagcagcaggccaaagagaagcaggcccagctagcacagaccctccaacagcaagaacaggcctcccagggcctccgccaccaggtggagcagctaagcagtagcctgaagcagaaggagcagcagttgaaggaggtagcggagaagcaggaggcaactaggcaggaccatgcccagcaactggccactgctgcagaggagcgagaggcctccttaagggagcgggatgcggctctcaagcagctggaggcactggagaaggagaaggctgccaagctggagattctgcagcagcaacttcaggtggctaatgaagcccgggacagtgcccagacctcagtgacacaggcccagcgggagaaggcagagctgagccggaaggtggaggaactccaggcctgtgttgagacagcccgccaggaacagcatgaggcccaggcccaggttgcagagctagagttgcagctgcggtctgagcagcaaaaagcaactgagaaagaaagggtggcccaggagaaggaccagctccaggagcagctccaggccctcaaagagtccttgaaggtcaccaagggcagccttgaagaggagaagcgcagggctgcagatgccctggaagagcagcagcgttgtatctctgagctgaaggcagagacccgaagcctggtggagcagcataagcgggaacgaaaggagctggaagaagagagggctgggcgcaaggggctggaggctcgattactgcagcttggggaggcccatcaggctgagactgaagtcctgcggcgggagctggcagaggccatggctgcccagcacacagctgagagtgagtgtgagcagctcgtcaaagaagtagctgcctggcgtgacgggtatgaggatagccagcaagaggaggcacagtatggcgccatgttccaggaacagctgatgactttgaaggaggaatgtgagaaggcccgccaggagctgcaggaggcaaaggagaaggtggcaggcatagaatcccacagcgagctccagataagccggcagcagaacaaactagctgagctccatgccaacctggccagagcactccagcaggtccaagagaaggaagtcagggcccagaagcttgcagatgacctctccactctgcaggaaaagatggctgccaccagcaaagaggtggcccgcttggagaccttggtgcgcaaggcaggtgagcagcaggaaacagcctcccgggagttagtcaaggagcctgcgagggcaggagacagacagcccgagtggctggaagagcaacagggacgccagttctgcagcacacaggcagcgctgcaggctatggagcgggaggcagagcagatgggcaatgagctggaacggctgcgggccgcgctgatggagagccaggggcagcagcaggaggagcgtgggcagcaggaaagggaggtggcgcggctgacccaggagcggggccgtgcccaggctgaccttgccctggagaaggcggccagagcagagcttgagatgcggctgcagaacgccctcaacgagcagcgtgtggagttcgctaccctgcaagaggcactggctcatgccctgacggaaaaggaaggcaaggaccaggagttggccaagcttcgtggtctggaggcagcccagataaaagagctggaggaacttcggcaaaccgtgaagcaactgaaggaacagctggctaagaaagaaaaggagcacgcatctggctcaggagcccaatctgaggctgctggcaggacagagccaacaggccccaagctggaagcactgcgggcagaggtgagcaagctggaacagcaatgccagaagcagcaggagcaggctgacagcctggaacgcagcctcgaggctgagcgggcctcccgggctgagcgggacagtgctctggagactctgcagggccagttagaggagaaggcccaggagctagggcacagtcagagtgccttagcctcggcccaacgggagttggctgccttccgcaccaaggtacaagaccacagcaaggctgaagatgagtggaaggcccaggtggcccggggccggcaagaggctgagaggaaaaatagcctcatcagcagcttggaggaggaggtgtccatcctgaatcgccaggtcctggagaaggagggggagagcaaggagttgaagcggctggtgatggccgagtcagagaagagccagaagctggaggagagctgcgcctgctgcaggcagagacagccagcaacagtgccagagctgcagaacgcagctctgctctgcgggaggaggtgcagagcctccgggagggaggctgagaaacagcgggtggcttcagagaacctgcggcaggagctgacctcacaggctgagcgtgcggaggagctgggccaagaattgaaggcgtggcaggagaagttcttccagaaagagcaggccctctccaccctgcagctcgagcacaccagcacacaggccctggtgagtgagctgctgccagctaagcacctctgccagcagctgcaggccgagcaggccgctgccgagaaacgccaccgtgaggagctggagcagagcaagcaggccgctgggggactgcgggcagagctgctgcgggcccagcgggagcttggggagctgattcctctgcggcagaaggtggcagagcaggagcgaacagctcagcagctgcgggcagagaaggccagctatgcagagcagctgagcatgctgaagaaggcgcatggcctgctggcagaggagaaccgggggctgggtgagcgggccaaccttggccggcagtttctggaagtggagttggaccaggcccgggaaaagtatgtccaagagttggcagccgtacgtgctgatgctgagacccgtctggctgaggtgcagcgagaagcacagagcactgcccgggagctggaggtgatgactgccaagtatgagggtgccaaggtcaaggtcctggaggagaggcagcggttccaggaagagaggcagaaactcactgcccaggtggaagaactgagtaagaaactggctgactctgaccaagccagcaaggtgcagcagcagaagctgaaggctgtccaggctcagggaggcgagagccagcaggaggcccagcgcttccaggcccagctgaatgaactgcaagcccagttgagccagaaggagcaggcagctgagcactataagctgcagatggagaaagccaaaacacattatgatgccaagaagcagcagaaccaagagctgcaggagcagctgcggagcctggagcagctgcagaaggaaaacaaagagctgcgagctgaagctgaacggctgggccatgagctacagcaggctgggctgaagaccaaggaggctgaacagacctgccgccaccttactgcccaggtgcgcagcctggaggcacaggttgcccatgcagaccagcagcttcgagacctgggcaaattccaggtggcaactgatgctttaaagagccgtgagccccaggctaagccccagctggacttgagtattgacagcctggatctgagctgcgaggaggggaccccactcagtatcaccagcaagctgcctcgtacccagccagacggcaccagcgtccctggagaaccagcctcacctatctcccagcgcctgccccccaaggtagaatccctggagagtctctacttcactcccatccctgctcggagtcaggcccccctggagagcagcctggactccctgggagacgtcttcctggactcgggtcgtaagacccgctccgctcgtcggcgcaccacgcagatcatcaacatcaccatgaccaagaagctagatgtggaagagccagacagcgccaactcatcgttctacagcacgcggtctgctcctgcttcccaggctagcctgcgagccacctcctctactcagtctctagctcgcctgggttctcccgattatggcaactcagccctgctcagcttgcctggctaccgccccaccactcgcagttctgctcgtcgttcccaggccggggtgtccagtggggcccctccaggaaggaacagcttctacatgggcacttgccaggatgagcctgagcagctggatgactggaaccgcattgcagagctgcagcagcgcaatcgagtgtgccccccacatctgaagacctgctatcccctggagtccaggccttccctgagcctgggcaccatcacagatgaggagatgaaaactggagacccccaagagaccctgcgccgagccagcatgcagccaatccagatagccgagggcactggcatcaccacccggcagcagcgcaaacgggtctccctagagccccaccagggccctggaactcctgagtctaagaaggccaccagctgtttcccacgccccatgactccccgagaccgacatgaagggcgcaaacagagcactactgaggcccagaagaaagcagctccagcttctactaaacaggctgaccggcgccagtcgatggccttcagcatcctcaacacacccaagaagctagggaacagccttctgcggcggggagcctcaaagaaggccctgtccaaggcttcccccaacactcgcagtggaacccgccgttctccgcgcattgccaccaccacagccagtgccgccactgctgccgccattggtgccacccctcgagccaagggcaaggcaaagcactaaagggccagtaccagtgagtggccccacctgtgtccccgatgctgccgtcacctggtcctccgcctactgtccctctcagtgccttctctcagctcccaggccaacagtagccaaacccctagagacagtgatgcctgcccgcaccctggcctggcccctggtccttcactggcgccttctcggagctggcccagggggcctggagcatggacagtgtgggcgctctccctaccttgcctccttttttcttaaagcaaagtcacttctccatcacaaccagatttgaggctggttttgatggctgggtccttgggcctggccagtcttcctcttagcctctggatctagaagggaccataagaggagtaggccctggttcctgctgtcctggtggctgggccagcaggggccctcactcttgaagtccaggactgggtctgacctggtgggagcacctgccagaggatgctctttcccaggacggatgggccctgtgtctcaggagtggggttgggggacagccttcagcagcagctcacaccctaccttccccagacttgcactggggtgggatttggagtgatgggaaggtttttaagggccggggatggatcttttctaaatgttattacttgtaaataaagtctattttt


Following is a GALE cDNA sequence (SEQ ID NO: 15).

NM_000403.2 [GI:9945333] Homo sapiens galactose-4-epimerase, UDP-(GALE),mRNA.gactctccagtcctcagtcaccttggacaaagaagtgtggatcctcagattccatcttttccaactccaaggtgccatggcagagaaggtgctggtaacaggtggggctggctacattggcagccacacggtgctggagctgctggaggctggctacttgcctgtggtcatcgataacttccataatgccttccgtggagggggctccctgcctgagagcctgcggcgggtccaggagctgacaggccgctctgtggagtttgaggagatggacattttggaccagggagccctacagcgtctcttcaaaaagtacagctttatggcggtcatccactttgcggggctcaaggccgtgggcgagtcggtgcagaagcctctggattattacagagttaacctgaccgggaccatccagcttctggagatcatgaaggcccacggggtgaagaacctggtgttcagcagctcagccactgtgtacgggaacccccagtacctgccccttgatgaggcccaccccacgggtggttgtaccaacccttacggcaagtccaagttcttcatcgaggaaatgatccgggacctgtgccaggcagacaagacttggaacgtagtgctgctgcgctatttcaaccccacaggtgcccatgcctctggctgcattggtgaggatccccagggcatacccaacaacctcatgccttatgtctcccaggtggcgatcgggcgacgggaggccctgaatgtctttggcaatgactatgacacagaggatggcacaggtgtccgggattacatccatgtcgtggatctggccaagggccacattgcagccttaaggaagctgaaagaacagtgtggctgccggatctacaacctgggcacgggcacaggctattcagtgctgcagatggtccaggctatggagaaggcctctgggaagaagatcccgtacaaggtggtggcacggcgggaaggtgatgtggcagcctgttacgccaaccccagcctggcccaagaggagctggggtggacagcagccttagggctggacaggatgtgtgaggatctctggcgctggcagaagcagaatccttcaggctttggcacgcaagcctgaggaccctcccctaccaaggaccaggaaaagcagcagctgcctgctctccagcctctggaggaactcagggccctggagctgctggggccaagccaagggcctcccctacctcaaaccccagctgggcccgcttagcccaccaggcatgaggccaaggctccactgaccaggaggccgaggtctctaactcttatcttccacagggtccaagagttcatcaggacccccaagagtgagtgagggggcaaggctctggcacaaaacctcctcctcccaggcactcatttatattgctctgaaagagctttccaaagtatttaaaaataaaaacaagttttcttacactgg


Following is a DPF3 cDNA sequence (SEQ ID NO: 16).

NM_012074 [gi:13442997] Homo sapiens D4, zinc and double PHD fingers,family 3 (DPF3), mRNA.acattgtagcaaaatggcgactgtcattcacaaccccctgaaagcgctcggggaccagttctacaaggaagccattgagcactgccggagttacaactcacggctgagtgcagagcgcagcgtgcgtcttcccttcctggactcacagactggggtggcccagaacaactgctacatctggatggagaagaggcaccgaggcccaggccttgccccgggccagctgtatacataccctgcccgctgctggcgcaagaagagacgattgcacccacctgaagatccaaaactgcggctgctggagataaaacctgaagtggagcttcccctgaagaaggatgggttcacctcagagagcaccacgctggaagccttgctccgtggcgagggggttgagaagaaggtggatgccagggaggaggaaagcatccaggaaatacagagggttttggaaaatgatgaaaatgtagaagaagggaatgaagaagaggatttggaagaggatattcccaagcgaaaggacaggactagaggacgggctcgctgccctctcccttccctgcactgtttttcctcccttccctctgccgtgatagatgctaaggagtggggtggaggtgggaagtgggaagcaacagtggcgtataggaaaaagaaaatataccccgtgcacattttcaacatgtagttgaagaagcctaaattaggtactagaaaaaaaaaaaggacagaaacactgcctgatatgtgagcaagagcatgaaaatatagaatgattatctcagagcagaggaggtggggagcaggtggctggagagaggcggggtaggtaggcagggcgtccctggctcaccaatgcgtctggtccacatggcatttgggaaagcagatgggtcatgcttttgcaatgaatggtcagatgcttagggggcatttgtgctcctctggccaggaaagggaacagagtccatccaagctgccccccactcatctgccatggttgtccaccctgggggtttttcctctgaaggaaaatgaacccatcttttgcctgccatgaatcattgcagggcaggctgttactggctaaattaaaacccttggcagggcatcgactgtgtgcgaggcaatgctctaggtcctgtaggggctggaaaataaaccgcatgctggcctagccttcaagttgcttttcagccatgaaactaagctctgccaagcaatcgtgattgtaggtcaagtatcgcgccatcacggaaggtgtaagtatatgtaggtttctctgttgaggatgcgtgttcctcagtagaagacaagcaggtggaggcatccagtgatttctaccctgtggaggctgaggggtcgggggaagaaaacagatgacctcagcctagttgctttaatctgcttttccaagcactggatgcccttggatgacagcatcctcagcattaaaactggtgaactgatgaagtcacctggcctggagtgtgttgggcagccagtgtccccagagctgcttgtgggtttctggggtggaaggcagggaggtgcaactggcagggcctgatcagaggcagaaaatgacccccacagtggtcttttccctgctagagaaagcagagagcgggactgggggggtgggggcttcaagtacagattgggcacactccaccagaccccagcaaggtcagctgccccacgcctgtatctggcactgctggtgtgtgcagggatgaaacccagcatcagagaggttttcagcaaaccttccatgctcacctttggccaggtgcttgtcagatcctagcttcgtgctggcttagactctcagttgtttgtgttgacagcattaggaataaaccgtttgtttcatctttccttttctccacacgtgtcacagccagatttcagctttgagttattccctgaagaagccacaccaaccttgctttcaagcaaaatgcctgggcttgggggaaggtgtgtatctgtccatgtgtggatgtcggctcagagctatagcttctctgtggggggtggcccaagggaaggctcctctggggccctggatggcacatgactcccagtgaggagaattcaggtgatctctgtggaggtagtcagggacacaaggcttggctgtgagtctggttttaaagtgcgtgacagcctgaaaagcatgcaggggtttggtccactcacctacttgaaagcctgtgggcaacgttcttttgagccaagacttctctgaatggccctgctggtggaaggggtgaggcaaaggcctctgacttggaccctttccacaccagactggcagcacttcccccaggcagccagtggtgggccctgagccctcaggtccccagctccttgagggatgaacctgggagcccaagagccagtggctgagctctgagaaggctccatctcccacctgcccttgagcgcgctctcaggctgagaacacggtctcatcaggcgccttcctggcctgatgctgtgctgtctacgtcacacggtcgattcacaaaagccagaactagacctcaaccaggtcatctccccgttgccaagtgggttcagggtgagggcaatttgtaagctcaatttctctgacagccaagacatggagcatctctgctaagaagccaaaagaaattggttttcttcttctcattgctgaagcccctctgtgtctcttctcagggacaggctggtccagtggctttggtgagggcgcctccatttgtgaacgctgggattcctctgggtgggctttggcaggtggctcctatggtaggaaggatgaccaggtccctgggaatgagctgcctacctgctgctccacgaggaagctcaggcctgcacaggctccaccaggccttggatgccctctagttgagtcagagaccctggaaacacactgagatctccaattgctgcctccattgatgtctctagacctgcagatacgaagcaaacctgggattgcttcttccaggtatgggcaccagagagggaggccactgcaacattttatccccatcattccaaaatgcttgcttgtctcttttacctcacactcacaactccttctgagactctcagtcataaaggaatgaccaagagagtgggtctccagtgagagaaatgcctatgaaagagggtttccctttttgctcttttgaacaccctccccactgatccttgggacccaacgccgcattgcctcttgcagatgaggttttgccttgggctgcttgggtacttcagaccaggactgagtctgacacagctttcatgaggttacagaaaagggctacagatttgggaagctgtgtgtaatggtcttgagacaatatctccatttggcccaccctggcttctctaaaaagcaacgacagcaacagacaaacaaaaagctcccacctcccaccccgttagctgtcctcctccttcactgtgatgtggttgcggtctctgtaggtgtgtgtgccacccttgtcctctgtcctctggggatgtgcccttcccacgtgtgtcaggttcccactctttcgtggttcctaacgtgaagtgctgtgatgtttctgccctgcctaaggaacgtatcaagctctctcagtgtttcagtgttggagattgaggctgtgccacatcttctgccatcctaaggggacatgatggttctgtgattcccagagagctggcagattgtgacaatctccaggagaacctacagattggaagcagcccacacctgatgtggactcctgtcccgggactcactcttcattcagaagactggtggcccacgtgccaggaccaccccacctctcttgctgccttttctcctgtcctgatggggttctgggagggagacctgtcgctgatgagatgaagaatgtggggatcgagcagccttcttctttgggacccctcgatatcccatggaatgctcgcacgttctcaaagactgagtcacaagcccctaccccttccttgctgtggttagtatcttgttctgtgattggttagcaatgttgactacccacgtagtgaatcttttgtctgcaatttagagaatgtgtaaacaaataaaaggctttaaaactc


Following is a LOC145197 cDNA sequence (SEQ ID NO: 17).

XM_096734.1 GI:18582778: Homo sapiens hypothetical LOC145197 (LOC145197),mRNA.agtgcaatgagcttcatgctgaatactgatttgaagtgtggttcaccacacagacttaaattgtccttcccacaactttatctgagaagcatgacaacggtgacaatcacaggactagttttattggtcaggatgtggtgttactatattaaagcgcttcaagttttcatagcgctcgtcaaacagagacctcggaacgctctgcagacattaattaatgttcgctccggccctggaagccatttcaccaatggaaattccgatgagaaaggaagaaacgaggggttcaaggccgcgccgttgtgagtccgctgcggaactaggaactgaaaccccgtggttcccaatgagccagcgaaagtctgtcgaagtattgagcacccctattgaagactgtgggagttttggcggcttaatgggattgtgttcggtccttcaggctctcctttaaaagattccatggcaccaacgagactccaataaaagggcctctctaa


Following are ICAM, MAPK10, KIAA0861, NUMA1, GALE, DPF3 and LOC145197 amino acid sequences (SEQ ID NO: 18, 19, 20, 21, 22, 23, 24, 25, 26 and 27, respectively). Following is an ICAM1 cDNA sequence (SEQ ID NO: 18).

NP_000192 [gi: 4557878]intercellular adhesion molecule 1 precursor;CD54 [Homo sapiens]MAPSSPRPALPALLVLLGALFPGPGNAQTSVSPSKVILPRGGSVLVTCSTSCDQPKLLGIETPLPKKELLLPGNNRKVYELSNVQEDSQPMCYSNCPDGQSTAKTFLTVYWTPERVELAPLPSWQPVGKNLTLRCQVEGGAPRANLTVVLLRGEKELKREPAVGEPAEVTTTVLVRRDHHGANFSCRTELDLRPQGLELFENTSAPYQLQTEVLPATPPQLVSPRVLEVDTQGTVVCSLDGLEPVSEAQVHLALGDQRLNPTVTYGNDSPSAKASVSVTAEDEGTQRLTCAVILGNQSQETLQTVTIYSFPAPNVTLTKPEVSEGTEVTVKCEAHPRAKVTLNGVPAQPLGPRAQLLLKATPEDNGRSFSCSATLEVAGQLIHKNQTRELRVLYGPRLDERDCPGNWTWPENSQQTPMCQAWGNPLPELKCLKDGTFPLPIGESVTVTRDLEGTYLCRARSTQGEVTREVTVNVLSPRYEIVIITVVAAAVIMGTAGLSTYLYNRQRKIKKYRLQQAQKGTPMKPNTQATPP


Following is an ICAM4 amino acid sequence (SEQ ID NO: 19).

NP_001535 [gi:4504561] intercellular adhesion,molecule 4 isoform 1 precursor; Landsteiner-Wiener blood group protein [Homo sapiens].MGSLFPLSLLEFLAAAYPGVGSALGRRTKRAQSPKGSPLAPSGTSVPFWVRMSPEFVAVQPGKSVQLNCSNSCPQPQNSSLRTPLRQGKTLRGPGWVSYQLLDVRAWSSLAHGLVTCAGKTRWATSRITAYKPPHSVILEPPVLKGRKYTLRCHVTQVFPVGYLVVTLRHGSRVIYSESLERFTGLDLANVTLTYEFAAGPRDFWQPVICHARLNLDGLVVRNSSAPITLMLAWSPAPTALASGSIAALVGTLLTVGAAYLCKCLAMKSQA


Following is an ICAM5 amino acid sequence (SEQ ID NO: 20).

NP_003250 [gi:12545404] intercellular adhesionmolecule 5 precursor; telencephalin [Homo sapiens]MPGPSPGLRRALLGLWAALGLGLFGLSAVSQEPFWADLQPRVAFVERGGSLWLNCSTNCPRPERGGLETSLRRNGTQRGLRWLARQLVDIREPETQPVCFFRCARRTLQARGLTRTFQRPDRVELMPLPPWQPVGENFTLSCRVPGAGPRASLTLTLLRGAQELIRRSFAGEPPPARGAVLTATVLARREDHGANFSCRAELDLRPHGLGLFENSSAPRELRTFSLSPDAPRLAAPRLLEVGSERPVSCTLDGLFPASEARVYLALGDQNLSPDVTLEGDAFVATATATASAEQEGARQLICNVTLGGENRETRENVTIYSFPAPLLTLSEPSVSEGQMVTVTCAAGTQALVTLEGVPAAVPGQPAQLQLNATENDDRRSFFCDATLDVDGETLIKNRSAELRVLYAPRLDDSDCPRSWTWPEGPEQTLRCEARGNPEPSVHCARSDGGAVLALGLLGPVTRALSGTYRCKAANDQGEAVKDVTLTVEYAPALDSVGCPERITWLEGTEASLSCVAHGVPPPDVICVRSGELGAVIEGLLRVAREHAGTYRCEATNPRGSAAKNVAVTVEYGPRFEEPSCPSNWTWVEGSGRLFSCEVDGKPQPSVKCVGSGGATEGVLLPLAPPDPSPRAPRTPRVLAPGIYVCNATNRHGSVAKTVVVSAESPPEMDESTCPSHQTWLEGAEASALACAARGRPSPGVRCSREGIPWPEQQRVSREDAGTYHCVATNAHGTDSRTVTVGVHYRPVVAELAASPPGGVRPGGNFTLTCRAEAWPPAQISWRAPPGALNIGLSSNNSTLSVAGAMGSHGGEYECARTNAHGRHARRITVRVAGPWLWVAVGGAAGGAALLAAGAGLAFYVQSTACKKGEYNVQEAESSGEAVCLNGAGGGAGGAAGAEGGPEAAGGAAESPAEGEVFAIQLTSA


Following is a MAPK10 amino acid sequence (SEQ ID NO: 21).

NP_002744 [gi:4506081] mitogen-activated proteinkinase 10 isoform 1; JNK3 alpha protein kinase;stress activated protein kinase beta; MAP kinase;c-Jun kinase 3; c-Jun N-terminal kinase 3; stressactivated protein kinase JNK3 [Homo sapiens]MSLHPLYYCSEPTLDVKIAFCQGPDKQVDVSYTAKHYNMSKSKVDNQFYSVEVGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAVLDRNVAIKKLSRPPQNQTHAKRAYRELVLMKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMVRHKILFPGRDYTDQWNKVIEQLGTPCPEFMKKLQPTVRNYVENRPKYAGLTFPKLFPDSLFPADSEHNKLKASQARDLLSKMLVIDPAKRISVDDALQHPYINVWYDPAEVEAPPPQIYDKQLDEREHTIEEWKELIYKEVMNSEEKTKNGVVKGQPSPSAQVQQAdditional isoforms are isoform 2 (NP_620448);isoform 3 (NP_620446); isoform 4 (NP_620447)


Following is a first KIAA0861 amino acid sequence (SEQ ID NO: 22).


KIAA0861 Polypeptide Sequence Corresponding to SEQ ID NO: 3.

MTYLTSIPSVEAASIGEIVVIDRRRDKWSSVKASLTRTAVAFPGNLQLIFILRPSRFIQRTFTDIGIKYYRNEFKTKVPTIMVNSVSDLHGYIDKSQLTRELGGTLEYRHGQWVNHRTATENFALTLKTTAQMLQTFGSCLATAELPRSMLSTEDLLMSHTRQRDKLQDELKLLGKQGTTLLSCIQEPATKCPNSKLNLNQLENVTTMERLLVQLDETEKAFSHFWSEHHLKLNQCLQLQRFEHDFCKAKLALDNLLEEQAEFTGTGDSVMHVEQILKEHKKLEEKSQESLEKAQLLALVGDQLTQSHHYAADATRPRCVELRHLCDDFINGNKKKWDILGKSLEFHRQLDKVSQWCEAGIYLLASQAVDKCQSREGVDTALNDIATFLGTVKEYPLLSPKEFYNEFELLLTLDAKAKAQKVLQRLDDVQETFHKRQVSLMKLAAKQTRPVQPVAPHPESSPKWVSSKTSQPSTSVPLARPLRTSEEPYTETELNSRGKEDDETKFEVKSEEIFESHHERGNPELEQQARLGDLSPRRRIIRDLLETEEIYIKEIKSIIDGYITPMDFTWLKHLIPDVLQNNKDFLFGNIRELYEFHNRTFLKELEKCAENPELLAHCFLKRKEDLQIYFKYHKNLPRARAIWQECQDCAYFGVCQRQLDHNLPLFKYLKGPSQRLIKYQMLLKGLLDFESPEDMEIDPGELGGSAKDGPKRTKDSAFSTELQQALAVIEDLIKSCELAVDLAAVTECPDDIGKLGKLLLHGPFSVWTIHKDRYKMKDLIRFKPSQRQIYLFERGIVFCKIRMEPGDQGLSPHYSFKKADKLMTLSIRQLGRGSHRKFEIASRNGLEKYILQAASKEIRDCWFSEISKLLMEQQNNIKDQGNPQFEMSTSKGSGAGSGPWIKNMERATTSKEDPASSTGGIKGCSSREFSSMDTFEDCEGAEDMEKESSALSLAGLFQSDDSHETCSSKSAFLERGESSQGEKEERDEEETATRSTEEERAGASTGRLAPAGATAGFQARALRPRTSAQES (1031 aa)


Following is a second KIAA0861 amino acid sequence (SEQ ID NO: 23).

NP_055893: KIAA0861MLSCLKEEMPPQELTRRLATVITHVDEIMQQEVRPLMAVEIIEQLHRQFAILSGGRGEDGAPIITFPEFSGFKHIPDEDFLNVMTYLTSIPSVEAASIGFIVVIDRRRDKWSSVKASLTRIAVAFPGNLQLIFILRPSRFIQRTFTDIGIKYYRNEFKTKVPIIMVNSVSDLHGYTDKSQLTRELGGTLEYRHGQWVNHRTATENFALTLKTTAQMLQTFGSCLATAELPRSMLSTEDLLMSHTRQRDKLQDELKLLGKQGTTLLSCIQEPATKCPNSKLNLNQLENVTTMERLLVQLDETEKAFSHFWSEHHLKLNQCLQLQHPEHDFCKAKLALDNLLEEQAEFTGTGDSVMHVEQILKEHKKLEEKSQEPLEKAQLLALVGDQLIQSHHYAADAIRPRCVELRHLCDDFTNGNKKKWDILGKSLEFHRQLDKVSQWCEAGIYLLASQAVDKCQSREGVDIALNDIATFLGTVKEYPLLSPKEFYNEFELLLTLDAKAKAQKVLQRLDDVQEIFHKRQVSLMKLAAKQTRPVQPVAPHPESSPKWVSSKTSQPSTSVPLARPLRTSEEPYTETELNSRGKEDDETKFEVKSEEIFESHHERGNPELEQQARLGDLSPRRRITRDLLETEEIYIKEIKSIIDGYITPMDFIWLKHLIPDVLQNNKDFLFGNTRELYEFHNRTFLKELEKCAENPELLAHCFLKRKEDLQIYFKYHKNLPRARAIWQECQDCAYFGVCQRQLDHNLPLFKYLKGPSQRLIKYQMLLKGLLDFESPEDMEIDPGELGGSAKDGPKRTKDSAFSTWLQQALAVIEDLIKSCELAVDLAAVTECPDDIGKLGKLLLHGPFSVWTIHKDRYKMKDLIRFKPSQRQIYLFERGIVFCKIRMEPGDQGLSPHYSFKKTMKLMTLSIRQLGRGSHRKFEIASRNGLEKYILQAASKEIRDCWFSETSKLLMEQQNNIKDQGNPQFEMSTSKGSGAGSGPWIKNMERATTSKEDPASSTGGIKGCSSREFSSMDTFEDCEGAEDMEKESSALSLAGLFQSDDSHETCSSKSAFLERGESSQGEKEERDEEETATRSTEEERAGASTGRLAPAGATAGFQARALRPRTSAQES (1114 aa)


Following is a NUMA1 amino acid sequence (SEQ ID NO: 24). NP13006176 [gi: 5453820] nuclear mitotic appratus protien 1 [Homo Sapiens]

MTLHATRGAALLSWVNSLHVADPVEAVLQLQDCSTFIKIIDRIHGTEEGQQILKQPVSERLDFVCSFLQKNRKHPSSPECLVSAQKVLEGSELELAKMTMLLLYHSTMSSKSPRDWEQFEYKIQAELAVILKFVLDHEDGLNLNEDLENFLQKAPVPSTCSSTFPEELSPPSHQAKREIRFLELQKVASSSSGNNFLSGSPASPMGDTLQTPQFQMRRLKKQLADERSNRDELELELAENRKLLTEKDAQIAMMQQRTDRLALLNEKQAASPLEPKELEELRDKNESLTMRLHETLKQCQDLKTEKSQMDRKTNQLSEENGDLSFKLREFASHLQQLQDALNELTEEHSKATQEWLEKQAQLEKELSAALQDKKCLEEKNEILQGKLSQLEEHLSQLQDNPPQEKGEVLGDVLQLETLKQEAATLAANNTQLQARVEMLETERGQQEAKLLAERGHFEEEKQQLSSLITDLQSSISNLSQAKEELEQASQAHGARLTAQVASLTSELTTLNATIQQQDQELAGLKQQAKEKQAQLAQTLQQQEQASQGLRHQVEQLSSSLKQKEQQLKEVAEKQEATRQDHAQQLATAAEEREASLRERDAALKQLEALEKEKAAKLEILQQQLQVANEARDSAQTSVTQAQREKAELSRKVEELQACVETARQEQHEAQAQVAELELQLRSEQQKATEKERVAQEKDQLQEQLQALKESLKVTKGSLEEEKRRAADALEEQQRCISELKAETRSLVEQHKRERKELEEERAGRKGLEARLLQLGEAHQAETEVLRRELAEAMAAQHTAESECEQLVKEVAAWRDGYEDSQQEEAQYGAMFQEQLMTLKEECEKARQELQEAKEKVAGIESHSELQISRQQNKLAELHANLARALQQVQEKEVRAQKLADDLSTLQEKMAATSKEVARLETLVRKAGEQQETASRELVKEPARAGDRQPEWLEEQQGRQFCSTQAALQANEREAEQMGNELERLRAALMESQGQQQEERGQQEREVARLTQERGRAQADLALEKAARAELEMRLQNALNEQRVEFATLQEALAHALTEKEGKDQELAKLRGLEAAQIKELEELRQTVKQLKEQLAKKEKEHASGSGAQSEAAGRTEPTGPKLEALRAEVSKLEQQCQKQQEQADSLERSLEAERASRAERDSALETLQGQLEEKAQELGHSQSALASAQRELAAFRTKVQDHSKAEDEWKAQVARGRQEAERKNSLISSLEEEVSILNRQVLEKEGESKELKRLVMAESEKSQKLEESCACCRQRQPATVPELQNAALLCGRRCPASGREAEKQRVASEMLRQELTSQAERAEELGQELKAWQEKFFQKEQALSTLQLEHTSTQALVSELLPAKHLCQQLQAEQAAAEKRHREELEQSKQAAGGLRAELLPAQRELGELIPLRQKVAEQERTAQQLPAEKASYAEQLSMLKKAHGLLAEENRGLGERANLGRQFLEVELDQAREKYVQELAAVPADAETRLAEVQREAQSTARELEVMTAKYEGAKVKVLEERQRFQEERQKLTAQVEELSKKLADSDQASKVQQQKLKAVQAQGGESQQEAQRFQAQLNELQAQLSQKEQAAEHYKLQMEKAKTHYDAKKQQNQELQEQLRSLEQLQKENKELRAEAERLGHELQQAGLKTKEAEQTCRHLTAQVRSLEAQVAHADQQLRDLGKFQVATDALKSREPQAKPQLDLSIDSLDLSCEEGTPLSITSKLPRTQPDGTSVPGEPASPISQRLPPKVESLESLYFTPIPARSQAPLESSLDSLGDVFLDSGRKTRSARRRTTQIINITMTKKIDVEEPDSANSSFYSTRSAPASQASLRATSSTQSLARLGSPDYGNSALLSLPGYRPTTRSSARRSQAGVSSGAPPGRNSFYMGTCQDEPEQLDDWNRIAELQQRNRVCPPHLKTCYPLESRPSLSLGTITDEEMKTGDPQETLRRASMQPIQIAEGTGITTRQQRKRVSLEPHQGPGTPESKKATSCFPRPMTPRDRHEGRKQSTTEAQKKAAPASTKQADRRQSMAFSILNTPKKLGNSLLRRGASKKALSKASPNTRSGTRRSPRIATTTASAATAAAIGATPRAKGKAKH


Following is a GALE amino acid sequence (SEQ ID NO: 25).

MAEKVLVTGGAGYIGSHTVLELLEAGYLPVVIDNFHNAFRGGGSLPESLRRVQELTGRSVEFEEMDILDQGALQRLFKKYSFMAVIHFAGLKAVGESVQKPLDYYRVNLTGTIQLLEIMKAHGVKNLVFSSSATVYGNPQYLPLDEAHPTGGCTNPYGKSKFFIEEMIRDLCQADKTWNVVLLRYFNPTGAHASGCIGEDPQGIPNNLMPYVSQVAIGRREALNVFGNDYDTEDGTGVRDYIHVVDLAKGHIAALRKLKEQCGCRIYNLGTGTGYSVLQMVQAMEKASGKKIPYKVVARREGDVAACYANPSLAQEELGWTAALGLDRMCEDLWRWQKQNPSGFGTQA


Following is a DPF3 amino acid sequence (SEQ ID NO: 26).

NP_036206 [gi:13442998] cer-d4 (mouse) homolog;2810403B03Rik [Homo sapiens].MATVIHNPLKALGDQFYKEAIEHCRSYNSRLSAERSVRLPFLDSQTGVAQNNCYEWMEKRHRGPGLAPGQLYTYPARCWRKKRRLHPPEDPKLRLLEIKPEVELPLKKDGFTSESTTLEALLRGEGVEKKVDAREEESIQEIQRVLENDENVEEGNEEEDLEEDIPKRKDRTRGRARCPLPSLHCFSSLPSAVIDAKEWGGGGKWEATVAYRKKKIYPVHIFNM


Following is a LOC145197 amino acid sequence (SEQ ID NO: 27).

XP_096734.1 GI:18582779: hypothetical proteinXP_096734 [Homo sapiens]MSFMLNTDLKCGSPHRLKLSFPQLYLRSMTTVTITGLVLLVRMWCYYIKALQVFIAIJVKQRPRNALQTLINVRSGPGSHFTNGNSDEKGRNEGFKAAPL


Modifications may be made to the foregoing without departing from the basic aspects of the invention. Although the invention has been described in substantial detail with reference to one or more specific embodiments, those of skill in the art will recognize that changes may be made to the embodiments specifically disclosed in this application, yet these modifications and improvements are within the scope and spirit of the invention, as set forth in the claims which follow. For example, polymorphic variants disclosed in an international patent application filed concurrently herewith, having attorney docket no. 524592007041, are applicable to embodiments described herein. Citation of the above publications or documents is not intended as an admission that any of the foregoing is pertinent prior art, nor does it constitute any admission as to the contents or date of these publications or documents. Each patent, patent application, document and publication referenced herein is hereby incorporated by reference in its entirety.

Claims
  • 1. A method for identifying a subject at risk of breast cancer, which comprises detecting the presence or absence of a polymorphic variation associated with breast cancer corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; whereby the presence of the one or more polymorphic variations associated with breast cancer is indicative of the subject being at risk of breast cancer.
  • 2. The method of claim 1, which further comprises obtaining the nucleic acid sample from the subject.
  • 3. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs5030391, rs10402760, and rs710845.
  • 4. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2 and position 39046 of SEQ ID NO: 2.
  • 5. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs4630966, rs9827084, rs9864865, rs6804951 and rs6770548.
  • 6. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396 and rs11278712.
  • 7. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs018396, rs12044452, rs2982390, rs2502980, rs6697805 and rs10554242.
  • 8. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs0132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, and rs10605948.
  • 9. The method of claim 1, wherein a polymorphic variation is detected at one or more positions selected from the group consisting of rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974 and rs2895908.
  • 10. The method of claim 1, wherein one or more polymorphic variations are detected at one or more positions in linkage disequilibrium with a polymorphic variation at one or more of the positions in claim 1.
  • 11. The method of claim 1, wherein detecting the presence or absence of the one or more polymorphic variations comprises: hybridizing an oligonucleotide to the nucleic acid sample, wherein the oligonucleotide is complementary to a nucleotide sequence in the nucleic acid and hybridizes to a region adjacent to the polymorphic variation; extending the oligonucleotide in the presence of one or more nucleotides, yielding extension products; and detecting the presence or absence of a polymorphic variation in the extension products.
  • 12. The method of claim 1, wherein the subject is a human.
  • 13. A method for identifying a polymorphic variation associated with breast cancer proximal to an incident polymorphic variation associated with breast cancer, which comprises: identifying a polymorphic variation proximal to the incident polymorphic variation associated with breast cancer, wherein the incident polymorphic variation is at a position corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs0132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; and determining the presence or absence of an association of the proximal polymorphic variant with breast cancer.
  • 14. The method of claim 13, wherein the proximal polymorphic variation is within a region between about 5 kb 5′ of the incident polymorphic variation and about 5 kb 3′ of the incident polymorphic variation.
  • 15. The method of claim 13, which further comprises determining whether the proximal polymorphic variation is at a position in linkage disequilibrium with the incident polymorphic variation.
  • 16. The method of claim 13, which further comprises identifying a second polymorphic variation proximal to the identified proximal polymorphic variation associated with breast cancer and determining if the second proximal polymorphic variation is associated with breast cancer.
  • 17. The method of claim 16, wherein the second proximal polymorphic variant is within a region between about 5 kb 5′ of the incident polymorphic variation and about 5 kb 3′ of the proximal polymorphic variation associated with breast cancer.
  • 18. An isolated nucleic acid which comprises one or more polymorphic variations corresponding to a variation selected from the group consisting of a thymine at position 45003 of SEQ ID NO: 1, an adenine at position 47504 of SEQ ID NO: 1, an adenine at position 30965 of SEQ ID NO: 2, a cytosine at position 38865 of SEQ ID NO: 2, a thymine at position 39035 of SEQ ID NO: 2, a cytosine at position 39046 of SEQ ID NO: 2, a cytosine at position 34941 in SEQ ID NO: 4, a guanine at position 35629 in SEQ ID NO: 4 and an adenine at position 15761 of SEQ ID NO: 5.
  • 19. An oligonucleotide comprising a nucleotide sequence complementary to a portion of the nucleotide sequence of claim 18, wherein the 3′ end of the oligonucleotide is adjacent to a polymorphic variation.
  • 20. A microarray comprising an isolated nucleic acid of claim 18 linked to a solid support.
  • 21. A method of genotyping a nucleic acid which comprises determining the nucleotide at one or more positions corresponding to a position selected from the group consisting of position 45003 of SEQ ID NO: 1, position 47504 of SEQ ID NO: 1, position 30965 of SEQ ID NO: 2, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, position 34941 in SEQ ID NO: 4, position 35629 in SEQ ID NO: 4 and position 15761 of SEQ ID NO: 5 in a nucleic acid.
  • 22. A method for identifying a candidate molecule that modulates cell proliferation, which comprises: (a) introducing a test molecule to a system which comprises a nucleic acid comprising a nucleotide sequence selected from the group consisting of: (i) a nucleotide sequence in SEQ ID NO: 1-17; (ii) a nucleotide sequence which encodes a polypeptide encoded by a nucleotide sequence in SEQ ID NO: 1-17; (iii) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to the amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-17; (iv) a fragment of a nucleotide sequence of (i), (ii), or (iii); wherein the nucleotide sequence comprises a polymorphic variation associated with an increased risk of breast cancer corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; or introducing a test molecule to a system which comprises a protein encoded by a nucleotide sequence of (i), (ii), (iii), or (iv) and comprises a polymorphic variation associated with an increased risk of breast cancer; and (b) determining the presence or absence of an interaction between the test molecule and the nucleic acid or protein, whereby the presence of an interaction between the test molecule and the nucleic acid or protein identifies the test molecule as a candidate molecule that modulates cell proliferation.
  • 23. The method of claim 22, wherein the system is an animal.
  • 24. The method of claim 22, wherein the system is a cell.
  • 25. A method for treating breast cancer in a subject, which comprises administering a candidate molecule identified by the method of claim 22 to a subject in need thereof, whereby the candidate molecule treats breast cancer in the subject.
  • 26. A method for identifying a candidate therapeutic for treating breast cancer, which comprises: (a) introducing a test molecule to a system which comprises a nucleic acid comprising a nucleotide sequence selected from the group consisting of: (i) a nucleotide sequence in SEQ ID NO: 1-17; (ii) a nucleotide sequence which encodes a polypeptide encoded by a nucleotide sequence in SEQ ID NO: 1-17; (iii) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to the amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-17; (iv) a fragment of a nucleotide sequence of (i), (ii), or (iii); wherein the nucleotide sequence comprises a polymorphic variation associated with an increased risk of breast cancer corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; or introducing a test molecule to a system which comprises a protein encoded by a nucleotide sequence of (i), (ii), (iii), or (iv) and comprises a polymorphic variation associated with an increased risk of breat cancer; and (b) determining the presence or absence of an interaction between the test molecule and the nucleic acid or protein, whereby the presence of an interaction between the test molecule and the nucleic acid or protein identifies the test molecule as a candidate therapeutic for treating breast cancer.
  • 27. The method of claim 26, wherein the test molecule inhibits cell proliferation or cell metastasis.
  • 28. A method for treating breast cancer in a subject, which comprises contacting one or more cells of a subject in need thereof with a nucleic acid, wherein the nucleic acid comprises a nucleotide sequence selected from the group consisting of: (a) a nucleotide sequence in SEQ ID NO: 1-17; (b) a nucleotide sequence which encodes a polypeptide encoded by a nucleotide sequence in SEQ ID NO: 1-17; (c) a nucleotide sequence which encodes a polypeptide that is 90% or more identical to the amino acid sequence encoded by a nucleotide sequence in SEQ ID NO: 1-17; (d) a fragment of a nucleotide sequence of (a), (b), or (c); and (e) a nucleotide sequence complementary to the nucleotide sequences of (a), (b), (c), or (d); wherein the nucleotide sequence comprises a polymorphic variation associated with an increased risk of breast cancer corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs0132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; whereby contacting the one or more cells of the subject with the nucleic acid treats breast cancer in the subject.
  • 29. The method of claim 28, wherein the nucleic acid is RNA or PNA.
  • 30. The method of claim 29, wherein the nucleic acid is duplex RNA.
  • 31. The method of claim 30, wherein a strand of the RNA comprises a nucleotide sequence selected from the group consisting of ACAACCGGAAGGUGUAUGA (SEQ ID NO: 4928); GCCAACCAAUGUGCUAUUC (SEQ ID NO: 4929); GAUCACCAUGGAGCCAAUU (SEQ ID NO: 4930; CUGUCACUCGAGAUCUUGA (SEQ ID NO: 4931); GAGUUGGAUAGCAAGACAA (SEQ ID NO: 4932) and CGUACGCGGAAUACUUCGA (SEQ ID NO: 4933.
  • 32. A method for treating breast cancer in a subject, which comprises: detecting the presence or absence of one or more polymorphic variations associated with breast cancer in a nucleic acid sample from a subject, wherein the one or more polymorphic variations are detected at a position corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; and administering a breast cancer treatment to a subject in need thereof based upon the presence or absence of the one or more polymorphic variations in the nucleic acid sample.
  • 33. The method of claim 32, wherein the breast cancer treatment comprises a nucleic acid comprising a nucleotide sequence complementary to a nucleotide sequence in SEQ ID NO: 1-17.
  • 34. The method of claim 33, wherein the nucleic acid is a double stranded RNA.
  • 35. The method of claim 34, wherein a strand of the RNA comprises a nucleotide sequence selected from the group consisting of ACAACCGGAAGGUGUAUGA (SEQ ID NO: 4928); GCCAACCAAUGUGCUAUUC (SEQ ID NO: 4929); GAUCACCAUGGAGCCAAUU (SEQ ID NO: 4930); CUGUCACUCGAGAUCUUGA (SEQ ID NO: 4931); GAGUUGGAUAGCAAGACAA (SEQ ID NO: 4932) and CGUACGCGGAAUACUUCGA (SEQ ID NO: 4933).
  • 36. The method of claim 32, which further comprises extracting and analyzing a tissue biopsy sample from the subject.
  • 37. The method of claim 32, wherein the treatment is chemotherapy, surgery, radiation therapy, and combinations of the foregoing.
  • 38. The method of claim 37, wherein the chemotherapy is selected from the group consisting of cyclophosphamide (Cytoxan), methotrexate (Amethopterin, Mexate, Folex), fluorouracil (Fluorouracil, 5-Fu, Adrucil), cyclophosphamide, doxorubicin (Adriamycin), and combinations of the foregoing.
  • 39. The method of claim 38, wherein the combinations are selected from the group consisting of cyclophosphamide (Cytoxan), methotrexate (Amethopterin, Mexate, Folex), and fluorouracil (Fluorouracil, 5-Fu, Adrucil); cyclophosphamide, doxorubicin (Adriamycin), and fluorouracil; and doxorubicin and cyclophosphamide.
  • 40. The method of claim 32, wherein the breast cancer treatment reduces breast cancer metastasis.
  • 41. A method for detecting or preventing breast cancer in a subject, which comprises: detecting the presence or absence of one or more polymorphic variations associated with breast cancer in a nucleic acid sample from a subject, wherein the polymorphic variation is detected at a position corresponding to a position selected from the group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs0132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908; and administering a breast cancer prevention procedure or detection procedure to a subject in need thereof based upon the presence or absence of the one or more polymorphic variations in the nucleic acid sample.
  • 42. The method of claim 41, wherein the breast cancer detection procedure is selected from the group consisting of a mammography, an early mammography program, a frequent mammography program, a biopsy procedure, a breast biopsy and biopsy from another tissue, a breast ultrasound and optionally ultrasound analysis of another tissue, breast magnetic resonance imaging (MRI) and optionally MRI analysis of another tissue, electrical impedance (T-scan) analysis of breast and optionally of another tissue, ductal lavage, nuclear medicine analysis (e.g., scintimammography), BRCA1 and/or BRCA2 sequence analysis results, thermal imaging of the breast and optionally of another tissue, and a combination of the foregoing.
  • 43. The method of claim 41, wherein the breast cancer prevention procedure is selected from the group consisting of one or more selective hormone receptor modulators, one or more compositions that prevent production of hormones, one or more hormonal treatments, one or more biologic response modifiers, surgery, and drugs that delay or halt metastasis.
  • 44. The method of claim 43, wherein the selective hormone receptor modulator is selected from the group consisting of tamoxifen, reloxifene, and toremifene; the composition that prevents production of hormones is an aramotase inhibitor selected from the group consisting of exemestane, letrozole, anastrozol, groserelin, and megestrol; the hormonal treatment is selected from the group consisting of goserelin acetate and fulvestrant; the biologic response modifier is an antibody that specifically binds herceptin/HER2; the surgery is selected from the group consisting of lumpectomy and mastectomy; and the drug that delays or halts metastasis is pamidronate disodium.
  • 45. A composition comprising a breast cancer cell and an antibody that specifically binds to a protein, polypeptide or peptide encoded by a nucleotide sequence identical to or 90% or more identical to a nucleotide sequence in SEQ ID NO: 1-17, wherein the protein, polypeptide or peptide comprises a leucine corresponding to the amino acid at position 359 in SEQ ID NO: 23, a leucine corresponding to the amino acid at position 378 in SEQ ID NO: 23, an alanine corresponding to the amino acid at position 857 in SEQ ID NO: 23, an alanine corresponding to the amino acid at position 902 in SEQ ID NO: 23, a proline corresponding to the amino acid at position 352 in SEQ ID NO: 20, an alanine corresponding to the amino acid at position 348 in SEQ ID NO: 20 or a glycine corresponding to the amino acid at position 794 in SEQ ID NO: 24.
  • 46. A composition comprising a breast cancer cell and a RNA, DNA, PNA or ribozyme molecule comprising a nucleotide sequence identical to or 90% or more identical to a portion of a nucleotide sequence in SEQ ID NO: 1-17, or a complementary sequence thereof, wherein the nucleotide sequence comprises a polymorphic variation associated with an increased risk of breast cancer corresponding to a position selected from the group consisting of group consisting of rs5030391, rs10402760, rs710845, position 30965 of SEQ ID NO: 2, rs3775168, position 38865 of SEQ ID NO: 2, position 39035 of SEQ ID NO: 2, position 39046 of SEQ ID NO: 2, rs4630966, rs9827084, rs9864865, rs6804951, rs6770548, rs7949480, rs7121260, rs7128317, rs2276385, rs2276383, rs1892921, rs1541306, rs3814721, rs1892919, rs2852365, rs3750913, position 34941 in SEQ ID NO: 4, rs949325, position 35629 in SEQ ID NO: 4, rs2298456, rs1573500, rs4945411, rs10128658, rs2298457, rs3838779, rs10898814, rs7930142, rs7930544, rs7930722, rs1939247, rs1939243, rs4245463, rs4944258, rs7926751, rs1573502, rs7127865, rs1894003, rs4945430, rs1939242, rs10793016, rs4945434, rs678193, rs560777, rs676721, rs585228, rs675185, rs5792574, rs2511075, rs541022, rs1791544, rs642618, rs552966, rs607446, rs3018302, rs3018301, rs2511114, rs548961, rs579320, rs495567, rs493065, rs610004, rs610041, rs673478, rs670802, rs2511116, rs615000, rs482013, rs2511079, rs2250866, rs2508858, rs2276396, rs11278712, rs2294495, position 15761 of SEQ ID NO: 5, rs8179467, rs11591202, rs12034848, rs3831910, rs4237, rs2232982, rs12041159, rs2076343, rs1018396, rs12044452, rs2982390, rs2502980, rs6697805, rs10554242, rs3327, rs2526926, rs2526914, rs2526913, rs2526921, rs7159986, rs2332916, rs10132242, rs11627663, rs4899441, rs7148199, rs1990437, rs8004210, rs8019653, rs12232220, rs4899442, rs2332917, rs8015749, rs12437188, rs12432148, rs4378563, rs740978, rs740976, rs4903059, rs4903060, rs9635259, rs2052142, rs758913, rs747987, rs11423372, rs5809592, rs8007348, rs4899445, rs4903062, rs1990440, rs4479167, rs4606655, rs4606656, rs4489943, rs8007559, rs8006156, rs12431400, rs12431384, rs12433097, rs12433184, rs2877821, rs4569195, rs11628905, rs2191822, rs12433603, rs11448438, rs8009692, rs4265749, rs4307892, rs12431975, rs4903071, rs1860749, rs1860748, rs8010957, rs6420906, rs12434800, rs7142579, rs8010875, rs8004767, rs4899449, rs10605948, rs12437080, rs12431943, rs1054745, rs8019453, rs12431547, rs1959029, rs1959028, rs8013347, rs2235972, rs2235973, rs2235974, and rs2895908.
  • 47. The composition of claim 46, wherein the RNA molecule is a short inhibitory RNA molecule.
RELATED PATENT APPLICATIONS

This patent application claims the benefit of provisional patent application No. 60/490,234 filed Jul. 24, 2003, having attorney docket number 524593004101. This patent application is a continuation in part of U.S. patent application Ser. No. 10/723,681 filed on Nov. 25, 2003, entitled “Methods for identifying risk of breast cancer and treatments thereof,” naming Richard B. Roth et al. as inventors, and having attorney docket no. 524592006900. U.S. patent application Ser. Nos. 10/723,670, 10/723,518, 10/722,939 and 10/723,683, having attorney docket numbers524592006700, 524592006800, 524592007100 and 524592007200, respectively, filed on Nov. 25, 2003, name Richard B. Roth et al. as inventors, and have the same title as U.S. patent application Ser. No. 10/723,681, are related. This patent application also claims the benefit of U.S. patent application No. 60/525,239 filed on Nov. 25, 2003, naming Matthew R. Nelson as an inventor, entitled “Disease risk prediction with associated single nucleotide polymorphisms,” and having attorney docket number 524593006400. Each of these patent applications is hereby incorporated herein by reference in its entirety, including all drawings, cited publications and documents

Provisional Applications (2)
Number Date Country
60490234 Jul 2003 US
60525239 Nov 2003 US
Continuation in Parts (1)
Number Date Country
Parent 10723681 Nov 2003 US
Child 10857780 May 2004 US