Nucleic acid, probe comprising the nucleic acid and screening method using the probe

Abstract

A nucleic acid is (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-39726 of a sequence No.1 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-39726 is deleted, substituted or added, and having a homology of 80% for the base sequence. Also, a probe comprises the above nucleic acid, and a screening is carried out by using such a probe.

Description

BACKGROUND OF THE INVENTION

[0001] 1. Field of the Invention

[0002] This invention relates to a nucleic acid, a probe and a screening method using such a probe, and more particularly to a nucleic acid, a probe comprising the nucleic acid and a screening method using the probe for a gene diagnosis.

[0003] 2. Description of Related Art

[0004] As a gene mapping method of positioning a human genome on a chromosome to make a chromosomal map, there have been popularly practiced a method wherein a remaining specific human chromosome or a part of the chromosome is analyzed by using a clone panel of a somatic cell hybrid or a partially deletion chromosome between a human and a rodent, and a method wherein a cloned gene is used as a probe in a Southern blotting.

[0005] Lately, there is used a so-called in situ hybridization wherein a gene or DNA marker cloned and labeled from genome DNA is used as a probe and a molecule hybrid is directly formed in a chromosome sample on a slide glass to detect a gene existing part in order to efficiently obtain information on specified sites of many genes such as human genes and a mutual sequence order.

[0006] As the in situ hybridization, there are a method wherein DNA labeled with a radioisotope (mainly 3H) is used as a probe and its site is detected by an autoradiography, and a method wherein a fluorescence signal of a labeled DNA probe is detected by means of a fluorescence microscope.

[0007] The latter fluorescence in situ hybridization method (hereinafter referred to as FISH method) is excellent in points that an RI equipment is useless, and an operating procedure is simple, and a minute mapping is exactly carried out on a chromosome band for a short time (2 days).

[0008] At present, probes useful for various diseases/syndromes are developed for using these methods to make a clinic diagnosis. For example, there is known to be an inspection probe suitable for the FISH method on various chromosomes aimed at a syndrome having a microdeletion of a congenital anomaly syndrome. Such a probe inspects a gene of a target disease, and if an inspection result is positive (i.e. a deletion or the like is existent), the confirmed diagnosis is made.

[0009] For example, the above probe is effective for a Prader Willi syndrome because about 60% of patients have a deletion.

[0010] As mentioned above, useful probes have been found in a part of cloning of genes for the diseases. However, there are still idiopathic diseases, and inspection and diagnosis methods effective thereto are not found except for physical findings and symptoms of the disease. If a probe can be found by using a gene and/or a homolog resulted in these diseases, it becomes very beneficial in the filed of a gene diagnosis.

SUMMARY OF THE INVENTION

[0011] It is, therefore, an object of the invention to provide a nucleic acid, a useful probe using the nucleic acid and a screening method using such a probe.

[0012] In order to achieve the above object, the inventors have made various studies with respect to a relationship between a congenital anomaly syndrome and a gene and found out a probe and a screening method using such a probe according to the invention.

[0013] The nucleic acid according to a first aspect of the invention is (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-39726 of a sequence No.1 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-39726 is deleted, substituted or added, and the nucleic acid has a homology of 80% for the base sequence.

[0014] Furthermore, the nucleic acid according to a second aspect of the invention is (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-8511 of a sequence No.2 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-8511 is deleted, substituted or added, and the nucleic acid has a homology of 80% for the base sequence.

[0015] The probe according to a third aspect of the invention comprises the nucleic acid as defined in the first or second aspect of the invention.

[0016] In a preferable embodiment, the probe according to the invention is used as a diagnosis for Sotos syndrome.

[0017] The peptide fragment according to a fourth aspect of the invention is (a) a peptide fragment comprising an amino acid sequence shown in an amino acid sequence number 1-309 of a sequence No.3 of a sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the sequence No.3 is deleted, substituted or added, and the peptide fragment has a homology of 80% for the base sequence.

[0018] The peptide fragment according to a fifth aspect of the invention is (a) a peptide fragment comprising an amino acid sequence shown in an amino acid sequence number 1-2696 of a sequence No.4 of a sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the sequence No.4 is deleted, substituted or added, and the peptide fragment has a homology of 80% for the base sequence.

[0019] The probe according to a sixth aspect of the invention is comprises the peptide fragment as defined in the fourth or fifth aspect of the invention.

[0020] A probe for using as a diagnosis for Sotos syndrome according to the invention, is characterized in that the probe comprises the following (a) or (b)on the human chromosome 5:

[0021] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, or

[0022] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-190 is deleted, substituted or added, and having a homology of 80% for the base sequence.

[0023] A probe for using as a diagnosis for Sotos syndrome according to the invention, is characterized in that the probe comprises the following (a) or (b)on the human chromosome 5:

[0024] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-275 of a sequence No.6 of a sequence table, or

[0025] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 is deleted, substituted or added, and having a homology of 80% for the base sequence.

[0026] A probe for using as a diagnosis for Sotos syndrome according to the invention, is characterized in that the probe comprises any sequence existed in between the following (a) and (b) on the human chromosome 5:

[0027] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, and

[0028] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 of a sequence No.6 of a sequence table.

[0029] The screening method according to a seventh aspect of the invention is characterized by using the probe as defined in the third, forth or seventh to tenth aspect of the invention.

[0030] In a preferable embodiment of the screening method according to the invention, the screening is carried out by using at least one selected from the group consisting of an in situ hybridization method, a Southern blotting method, a macroarray-based hybridization method and a base sequence determination method (Dideoxy chain termination method and the like).

[0031] In a preferable embodiment of the screening method according to the invention, the in situ hybridization method is a fluorescence in situ hybridization method.

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] The invention will be described with reference to the accompanying drawings, wherein:

[0033] FIG. 1 is a view showing a physical mapping;

[0034] FIG. 2 is a view showing various mutations of NSD1;

[0035] FIG. 3 is a view showing results on a direct sequence determination in an immortalizing lymphoblast cell line of a patient;

[0036] FIG. 4 is a view showing a result of FISH analysis;

[0037] FIG. 5 a is a view showing a base sequence of a sequence table 1; FIG. 5b is a continued view of FIG. 5a showing a base sequence of a sequence table 1;

[0038] FIG. 5 c is a continued view of FIG. 5b showing a base sequence of a sequence table 1;

[0039] FIG. 5 d is a continued view of FIG. 5c showing a base sequence of a sequence table 1;

[0040] FIG. 5 e is a continued view of FIG. 5d showing a base sequence of a sequence table 1;

[0041] FIG. 5 f is a continued view of FIG. 5e showing a base sequence of a sequence table 1;

[0042] FIG. 5 g is a continued view of FIG. 5f showing a base sequence of a sequence table 1;

[0043] FIG. 5 h is a continued view of FIG. 5g showing a base sequence of a sequence table 1;

[0044] FIG. 5 i is a continued view of FIG. 5h showing a base sequence of a sequence table 1;

[0045] FIG. 5 j is a continued view of FIG. 5i showing a base sequence of a sequence table 1;

[0046] FIG. 5 k is a continued view of FIG. 5j showing a base sequence of a sequence table 1;

[0047] FIG. 5 l is a continued view of FIG. 5k showing a base sequence of a sequence table 1;

[0048] FIG. 5 m is a continued view of FIG. 5l showing a base sequence of a sequence table 1;

[0049] FIG. 5 n is a continued view of FIG. 5m showing a base sequence of a sequence table 1;

[0050] FIG. 6 a is a view showing a base sequence of a sequence table 2;

[0051] FIG. 6 b is a continued view of FIG. 6a showing a base sequence of a sequence table 2;

[0052] FIG. 6 c is a continued view of FIG. 6b showing a base sequence of a sequence table 2;

[0053] FIG. 6 d is a continued view of FIG. 6c showing a base sequence of a sequence table 2;

[0054] FIG. 6 e is a continued view of FIG. 6d showing a base sequence of a sequence table 2;

[0055] FIG. 7 a is a view showing an amino acid sequence of a sequence table 4;

[0056] FIG. 7 b is a continued view of FIG. 7b showing a amino acid sequence of a sequence table 4;

[0057] FIG. 8 is a figure showing a base sequence of a sequence table 5; and

[0058] FIG. 9 is a figure showing a base sequence of a sequence table 6.

DETAILED DESCRIPTION OF THE INVENTION

[0059] First of all, the nucleic acid according to the invention is explained. The nucleic acid according to the invention is (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-39726 of a sequence No.1 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-39726 is deleted, substituted or added, and the nucleic acid has a homology of 80%, preferably 90%, more preferably 95% for the base sequence. Such a nucleic acid is derived from NSD1 of a human chromosome 5 and is complementary with a part of the NSD1. Concretely, it is a nucleic acid complementary with a genomic DNA including an exon 1, an exon 2 and an intron of the NSD1. Also, the nucleic acid according to the invention includes a nucleic acid wherein a part of the base sequence of the base sequence number 1-39726 is deleted, substituted or added, and the nucleic acid has a homology of 80%, preferably 90%, more preferably 95% for the base sequence. Even if the part is deleted, substituted or added, the latter nucleic acid can be utilized as a probe as mentioned later.

[0060] Further, the nucleic acid according to the invention comprises a base sequence shown in a base sequence number 1-8511 of a sequence No.2 of a sequence table. Such a nucleic acid is derived from NSD1 of a human chromosome 5, and is complementary with a part of the NSD1. Concretely, this is a nucleic acid complementary with a cDNA including exons 1-23 of the NSD1. Also, the nucleic acid according to the invention includes a nucleic acid wherein a part of the base sequence of the base sequence number 1-8511 is deleted, substituted or added, and the nucleic acid has a homology of 80%, preferably 90%, more preferably 95% for the base sequence.

[0061] In addition, an amino acid sequence corresponding to a base sequence shown in a sequence No.2 is as follows. Such an amino acid sequence is shown in a sequence No.4 of the sequence table. A translation region of the base sequence shown in the sequence No.1, i.e. an amino acid sequence corresponding to the second exon of the NSD1 is shown in a sequence No.3.

[0062] The peptide fragment according to the invention is (a) a peptide fragment comprising an amino acid sequence shown in amino acid sequence number 1-309 of the sequence No.3 of the sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the amino acid sequence No.3 is deleted, substituted or added, and the amino acid sequence has a homology of 80%, preferably 90%, more preferably 95% for the amino acid sequence. Also, the peptide fragment according to the invention is (a) a peptide fragment comprising an amino acid sequence shown in amino acid sequence number 1-2696 of the sequence No.4 of the sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the amino acid sequence No.4 is deleted, substituted or added, and the amino acid sequence has a homology of 80%, preferably 90%, more preferably 95% for the amino acid sequence. Such amino acid sequences can be used for an immunologic test utilizing an antigen antibody reaction.

[0063] With respect to the aforementioned nucleic acids, a purification and isolation method will be described below. The above nucleic acid, not particularly limited, can be purified and isolated by the following procedure. This nucleic acid includes exons 1 and 2 of NSD1 and is obtained by subcloning a PAC clone called a RP1-118m12 according to the following method. At first, a PAC DNA is purified. Then, the purified PAC DNA is isolated by using a Midi-Prep column (Qiagen, Chatsworth, Calif.) and partially digested by using a restriction enzyme such as Sau3AI. Next, a SuperCos1 cosmid vector is prepared according to manufacturer's instructions (Stratagene, La Jolla, Calif.) and ligated to the digested PAC DNA using T4DNA ligase. The ligation reaction products are packaged using the Gigapack III gold extract (Stratagene) and transfected into XL1-Blue MR host cells. A genomic sequence is constructed by means of STS content mapping using a PCR. Thus, a nucleic acid according to the invention can be obtained.

[0064] Moreover, a base sequence of DNA can be determined by any method well known in those skilled in the art. For example, the base sequence can be determined by using a terminator method or the like.

[0065] As a method of using the probe according to the invention, the above nucleic acid is amplified directly or by a PCR method and immobilized by blotting on a polymer membrane and then subjected to a hybridization. The hybridization is not particularly limited according to usual manner, but may include, for example, a Southern blotting method, an in situ hybridization method, a microarray-based method and a base sequence determination method. The in situ hybridization method is preferable from a viewpoint of a quick and accurate screening. As the in situ hybridization method, there are a fluorescence in situ hybridization method (hereinafter referred to as FISH method), a radioisotope in situ hybridization method and the like. The FISH method is preferable from a viewpoint that an RI equipment is not required. In the FISH method, it is general that a chromosome sample is prepared on a slide glass, hybridized with a labelled probe, and directly investigated by a microscope.

[0066] As a support medium used in the hybridization of the probe according to the invention, mention may be made of a thin film, a powder, a particulate matter, a gel, a bead, a fiber, a glass, a dispersion liquid, an emulsion and so on. They may be used by filling into an adequate column. Among them, the thin film such as a nitrocellulose film or a nylon film is preferable.

[0067] An example of the label used in the probe according to the invention is explained. As the label, use may be made of ones well known by persons skilled in the art. The label is not particularly limited, but includes, for example, a radioactive atom such as 32P, 35S or the like, a biotin group, an avidin group, an enzyme, a fluorescence label and so on. In the case of utilizing an antigen-antibody system, the label may contain an antigen, which is included within the scope of the invention.

[0068] The nucleic acid according to the invention complementarily bonds with a part of a normal chromosome 5. However, if the chromosome 5 has an abnormality, that is, a deletion abnormality, the nucleic acid according to the invention does not bond with such an abnormal chromosome 5. When the nucleic acid according to the invention is used as a probe by utilizing the above property, the abnormality of the chromosome 5 can be confirmed. Therefore, the prove according to the invention can also be used as a diagnostic probe for a Sotos syndrome having a deletion of the chromosome 5 in 60% of patients with Sotos syndrome.

[0069] A probe for using as a diagnosis for Sotos syndrome according to the invention, comprises the following (a) or (b)on the human chromosome 5:

[0070] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, or

[0071] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-190 is deleted, substituted or added, and having a homology of 80% for the base sequence.

[0072] A probe for using as a diagnosis for Sotos syndrome according to the invention, comprises the following (a) or (b)on the human chromosome 5:

[0073] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-275 of a sequence No.6 of a sequence table, or

[0074] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 is deleted, substituted or added, and having a homology of 80% for the base sequence.

[0075] A probe for using as a diagnosis for Sotos syndrome according to the invention, comprises any sequence existed in between the following (a) and (b) on the human chromosome 5:

[0076] (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, and

[0077] (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 of a sequence No.6 of a sequence table.

[0078] These probes can be used for this is dependent on a finding from the inventors in that the case sequence is deleted, which existed in between a sequence No.5 and 6 of the sequence table on the chromosome 5 of a patient suffered from Sotos syndrome. Therefore, the base sequence of the sequence number 5 may be used by itself as a probe, the base sequence of the sequence number 6 may be used by itself as a probe. Also, since a sequence existed in a normal human at between the above sequence number 5 and 6 is not existed in a patient suffered from Sotos syndrome, any sequences of them may be used for a diagnosis of Sotos syndrome. A base length of the probe, depending on the method of screening, is not particularly limited, but 5 kb or more than 5 kb. Particularly, 5-15 kb is preferable, 7-12 kb is more preferable.

[0079] Although the sequence of the above sequence number 5 and 6 exists in the normal human, since 1 copy of the chromosome of a patient suffered from Sotos syndrome is deleted, a gene diagnosis may be carried out by these fact.

[0080] The following examples are given in illustration of the invention and are not intended as limitations thereof.

[0081] The following examples are intended to illustrate an embodiment of the invention, and it is naturally possible to properly change the invention without departing from the spirit and the scope of the invention claimed in claims.

EXAMPLE 1

[0082] Sotos syndrome (SS, OMIM 117550), also known as cerebral gigantism, is a neurological disorder characterized by prenatal-childhood overgrowth with advanced bone age, a peculiar face with large skull, acromegalic features and pointed chin, occasional brain anomalies and seizures, and mental retardation.

[0083] Although most cases are sporadic, occasional parent-child transmissions of the disease are known. SS patients are estimated to have a 3.9% risk of benign/malignant tumors. Firstly, NSD1 gene is isolated by positional cloning from the 5q35 breakpoint of a patient with a de novo t(5;8)(q35;q24.1). The gene encodes 2,696 amino acids with SET, PHD finger and PWWP domains, and interacts with nuclear receptors (NRs). Among 38 SS patients examined by direct sequencing, four de novo point mutations including a nonsense mutation (1310C→A, S437X), a one-bp deletion (3536delA), a one-bp insertion (5998insT) and a splice-donor-site mutation (6135+1G→A) are detected in NSD1 (10.5%). Also, 20 submicroscopic deletions (66.7%) involving NSD1 are identified in 30 SS patients whose metaphase and/or interphase cells are available for FISH studies. Overall, 77% of SS patients are estimated to have NSD1 mutations. These results indicate that haploinsufficiency of NSD1 causes Sotos syndrome and NSD1 plays a significant role in growth and brain development in human.

[0084] There is adopted a girl with Sotos syndrome (SS) associated with de novo reciprocal translocation, 46, XX, t(5;8)(q35;q24.1) (patient BP). A 5q35 region is likely to harbor a gene locus for SS, because there are another translocation [t(5;15)(q35;q24.1)] and a deletion involving 5q35[del(5)(q35.1qter)] associated with SS or SS-like features, respectively. Therefore, the 5q35 breakpoint is cloned. At first, FGFR4 is focused, as it is mapped to 5q35-qter and mutations in its gene family are known to be associated with some craniofacial and growth abnormalities. Then, a PAC clone (RP1-251c21) covering FGFR4 is isolated, and it is confirmed that it covers the 5q35 breakpoint by FISH analysis. Thereafter, a BAC/PAC/cosmid-based physical map covering the breakpoint is constructed to validate additional genes around the breakpoint (FIG. 1a). The FISH analysis shows that RP1-118m12 and its cosmid subclones (c2b,c4D,c6A, and c6B) span the breakpoint (FIG. 1b). Another gene, JAZ (Genbank Accession No. XM 012279) is identified through draft/complete sequences (AC027314 for CTC-286c20 and AC008570 for CTC-549a4) within the physical map. The coding regions of JAZ are sequenced in the 12 patients, but no nucleotide change is found, either. BlastN searches using a partial genomic sequence (AC02314) corresponding to c6B identified sequences homologous to the mouse Nsd1 gene. Since Nsd1 encoding a nuclear receptor (NR) binding protein is possibly related to transcriptional regulation, its human ortholog, NSD1 becomes an attractive candidate gene, and is isolated. The isolated NSD1 has an 8,088-bp open reading frame and consists of at least 23 exons (Genbank accession No. AF395588).

[0085] The breakpoint is located within NSD1, because the FISH analysis using c6B gives split signals on both der(5) and der(8) chromosomes of the patient and each signal intensity is almost even (FIGS. 1a and b). FIG. 1a shows a physical map, wherein a heavy black line indicates BAC/PAC cosmid clones and red and blue lines indicate a clone covering the 5q35 breakpoint by FISH analysis, and complete genome sequences, respectively. Arrows indicate candidate genes. FIG. 1b shows a FISH analysis using a cosmid, c6B on chromosomes of the patient BP, wherein red and yellow arrows indicate signals on normal chromosome 5, and derivative chromosomes 5 and 8, respectively. Forty sets of primers are designed to amplify the entire coding region of the gene. A genomic DNA from a total of 38 unrelated normal patients with SS is analyzed by direct sequencing.

[0086] Then, four different point mutations of NSD1 in four of 39 patients including patient BP is identified (FIG. 2, Table 1). FIG. 2 shows a genomic structure of NSD1 and mutations detected in the patients with Sotos syndrome. A particular region is shown as a colored box, wherein light blue is an NR-interaction domain (NID−L), pink is an NR-interaction domain (NID+L), blue is PHD finger domains, green is PWWP domains, and red is a SET domain. The mutations include a nonsense mutation (1310C→A, S437X) in exon 5, a one-base deletion (3536delA) in exon 5, a one-base insertion (5998insT) in exon 19, and a base substitution (6151+1G→A) at the splice donor site in intron 20. As their respective parents confirmed for paternity have no such changes, the four mutations are all de novo types. The TCA(Ser)→TAA(stop) nonsense mutation is predicted to lead a truncation of NSD1 protein(S437X) at amino acid position 437. The deletion (3536delA) leads to a premature stop codon at nt 3651-3653, and the insertion (5998insT) also results in a premature stop codon at nt 6022-6024. The splice site mutation (6151+1G→A) is predicted to skip exon 20, producing a smaller cDNA and resulting in a truncated protein added with only 9 amino acids after exon 19. The shorter cDNA deleting exon 20 is confirmed by RT-PCR and direct sequencing in the patient's immortalized lymphoblastoid cell line (FIG. 3). FIG. 3a shows results of RT-PCR analysis, wherein black and red arrows indicate a normal 471-bp product and an abnormal 329-bp product, respectively. Also, symbol Pt is a patient 24, symbol Wt is a normal control, symbol + is the use of a reverse transcriptase, and symbol − is no use of a reverse transcriptase. In FIG. 3b, an upper line shows exons 19, 20 and 21, and a small red circle indicates a mutation at a splice-donor site. A sequence analysis of the 329 bp product shows a skipping of exon 20, resulting in a frame-shift and a new stop codon at 10th codon of exon 21. Although five other base-substitutions (three synonymous and two non-synonymous changes) are identified in either exon 5 or exon 23, they are commonly observed in normal controls and are likely to be polymorphic, i.e. single nucleotide polymorphisms (SNPs)(Table 1). Surprisingly, 29 of the 39 patients show a homozygous pattern at all these five SNP locations. These data strongly suggest the presence of deletion involving NSD1, while the data in 12 normal control individuals are consistent with the Hardy-Weinberg equilibrium. The FISH analysis using RP1-118m12 as a probe detects a deletion in 20 (66.7%) of 30 patients whose metaphase and/or interphase cells are available (FIG. 4), wherein red and yellow arrows indicate a signal on normal chromosome 5 and no signal on the deleted chromosome 5, respectively. The FISH analysis suggests together with the data(4/38) for point mutations that 77% of SS patients in this series have NSD1 mutations (Table 1). All the changes identified are deletions (hemizygous) or heterozygous mutations causing protein truncation. Thus, it is most likely that haploinsufficency of NSD1 is the major cause of Sotos syndrome.

[0087] NSD1 is a bifunctional nuclear protein, acting as a nuclear receptor corepressor and as a coactivator by interacting with the ligand-binding domain of NRs. Human NSD1 has two distinct NR-interaction domains called NID−L and NID+L, and other conserved domains such as SET (su(var)3-9, enhancer-of-zestem trutgirax), PWWP (proline-tryptophan-proline), and PHD (plant homeodomain protein) finger domains. The two protein truncation (PT) mutations (S437X and 3536delA) observed in SS patients may result in loss of PHD-I, PHD-II, PWWP-II, SET, and PHD-II domains. The one-bp insertion (5998insT) and the splice-site mutation (6151+1G>A) may lose SET and PHD-III domains (FIG. 2). These findings suggest that the minimal deletion of the SET and PHD-III domains involved in the protein truncations in SS patients are functionally critical in this protein.

[0088] The PHD finger domain may interact with other proteins and be involved in chromatin regulation.

[0089] Recently, an NSD1 -derived chimeric protein is isolated from a childhood acute myeloid leukemia (AML) associated with t(5;11)(q35;p15.5) in which NSD1 is fused with NUP98 at NSD1 intron 5. In the patient BP, the chromosome break is presumed to be located at intron 2. Therefore, this may suggest that mutation types are different between the two conditions, i.e. constitutional protein truncation mutation versus somatic mutation with fusion-gene formation.

[0090] NSD1 shows 75% homology at nucleotide level to WHSC1 (NSD2) isolated from a minimum deletion region of the 165-kc Wolf-Hirschhorn syndrome (WHS). The WHS (OMIM 194190) is characterized by multiple anomalies, severe growth retardation, mental defect, and hemizygous deletion (haploinsufficiency) of 4 p. Further, NSD2 cause a type of multiple myeloma when being fused with the IgH gene by t(4;14). It is likely that both genes (NSD1 and NSD2) are important for human growth and brain development as well as for cell growth.

[0091] Since SS is thought to be genetically heterogeneous, as SS is described in a mother and two daughters, two brothers, and three sibs (monozygotic twin girls and their brother), autosomal recessive inheritance is postulated. Also, the other patients with de novo t(3;6)(p21;p21), mos dup (20)(p11.2-p12.1)[12/66] and t(2;12)(q33.3;q15) mat are described. Thus, either chromosomal breakpoints or segments are suggested to harbor another SS locus.

[0092] However, the aforementioned data indicate that the majority (up to 77%) of SS patients have an NSD1 mutation. This finding of NSD1 defects in Sotos syndrome will facilitate the diagnosis of SS and shed light in understanding the mechanisms of mental retardation and growth disorders in the human.

[0093] Physical Map Construction

[0094] The RPCI-1, -3, human PAC libraries are screened by PCR using STSs as described previously. Cosmid subclones are prepared from a PAC spanning the breakpoint. A purified PAC DNA is isolated by using Midi-Prep™ columns (Qiagen, Chatsworth, Calif.) and partially digested with Sau3AI. The SuperCos1 cosmid vector is prepared according to the manufacture's instructions (Stratagene, La Jolla, Calif.) and ligated to the digested PAC DNA by using T4DNA ligase. This ligation reaction products are packaged by using the Gigapack III gold extract (Stratagene) and transfected into XL1-Blue MR host cells (Stratagene). Contigs are constructed by means of STS content mapping using PCR with reference to draft/complete genomic sequences. BAC/PAC/cosmmid DNA is extracted with Midi-Prep™ columns. New STSs are generated from clone-end sequences using T7/SP6 primers for BAC or T7/T3 for cosmid. Sequencing reactions are carried out with ABI Prism™ BigDye Terminator Cycle Sequencing Ready Reaction Kit (PE Applied Biosystems, Foster, Calif.) using 2 μg of BAC/PAC DNA or 1 μg of cosmid DNA as a template and 40 pmol primer.

[0095] Cycle sequencing is performed for 50 cycles at 96° C. for 10 seconds, 50° C. for 5 seconds, and 60° C. for 4 minutes.

[0096] FISH Analysis

[0097] The FISH analysis using BAC/PAC/cosmid DNA is performed on metaphase chromosomes and/or interphase cells from SS patients and a normal control. A cloned DNA is labeled with SpectrumGreen™-11-dUTP or SpectrumOrange™-11-dUTP (Vysis, Downers Grove, Ill.) by a nick translation, and denatured at 76° C. for 10 minutes. Probe-hybridization mixtures (10 μl) are applied on the chromosomes, incubated at 37° C. for 16 hours, and then washed as described previously. A fluorescence photomicroscopy is performed under a Zeiss Axioskop microscope equipped with a quad filter set with single band excitation filters (84000, Chroma Technology Corp., Brattleboro, Vt.). Images are collected and merged by using a cooled CCD camera (TEA/CCD-1317-G1, Princeton Instruments, Trenton, N.J.) and IPLab/MAC software (Scanalytics, Inc., Fairfax, Va.).

[0098] Patient and Parent Samples

[0099] DNA is extracted from peripheral blood leukocytes or lymphoblastoid cell lines of sporadic patients with Sotos syndrome after an informed consent is obtained. In several cases, the samples are also collected from their parents. All but one patient (a Japanese-Pakistani) is of Japanese origin. Experimental protocols are approved by the Ethical Committee for Gene Research of Nagasaki University School of Medicine.

[0100] Mutation Analysis

[0101] Twenty-two NSD1 exons (exons 2-23) covering the coding region are amplified by PCR. The PCR is cycled 35 times at 95° C. for 30 seconds, 50° C. for 30 seconds, 72° C. for 1 minute in a volume of 50 μl, containing 1×PCR buffer with 1.5 mM MgCl2, 0.2 mM each dNTP, 1 μM each primer and 2.5U TaqGold polymerase (PE Applied Biosystems).

[0102] PCR products are purified by using the QIAquick PCR purification kit (Qiagen, Chatsworth, Calif.) and sequenced on both strands with BigDye Terminator chemistry by a standard protocol (PE Applied Biosystems) as described preciously.

[0103] RT-PCR Analysis

[0104] A total RNA is prepared from lymphoclastoid cell lines established from a patient and a normal control using the Trizol reagent (Gibco-BRL, Gaithersburg, Md.).

[0105] A reverse transcription is carried out by using random hexamers and Superscript™ first-strand synthesis system for RT-PCR (Gibco-BRL) according to the manufacturer's protocol. The cDNAs are amplified by PCR with primers, NSD1PT1F, 5′-ATTTGTGAATGAGTATGTGG-3′(nt 5898-5917) and NSD1RT1R, 5′-CTAAAACACTCATCTTCTCG-3′ (nt 6349-6368) for 35 cycles at annealing temperature of 48° C. The PCR product is directly sequenced.

[0106] Genbank Accession Numbers

[0107] Human NSD1, AF395588; NSD2, XM 055926; FGFR4, XM 030308; JAZ, XM 012279; mouse Nsd1, NM 008739; BAC clone CTC-286c20, AC027314, CTC-549a4, AC008570.

TABLE 1
NSD1 mutations identified in patients with
Sotos syndrome and SNPs of NSDI
Patient or	Exon or	Type of
SNP	intron	mutation	Inheritance	Consequence
Patient BP	intron 2*	translocation	de novo	gene disruption
Patients		deletion	de novo	missing gene
1-20
Patient 21	exon 5	1310C −> A	de novo	S437X
Patient 22	exon 5	3536delA	de novo	Protein
				truncation
Patient 23	exon 19	5989insT	de novo	Protein
				truncation
Patient 24	Intron 20	6165 + 1G −> A	de novo	Protein
				truncation
SNP 1	exon 5	1482C −> T		Synonymous
SNP 2	exon 5	1749G −> A		Synonymous
SNP 3	exon 5	1840G −> T		V614L
SNP 4	exon 5	2176T −> C		S727P
SNP 5	exon 23	6829C −> T		Synonymous
SNP, single nucleotide polymorphism;
*estimated by FISH data

EXAMPLE 2

[0108] Next, an object is examined by using the probe comprising sequence number 5 and 6 of the sequence table as to whether or not they are a patient suffered from Sotos syndrome. The FISH analysis is carried out by the same manner as the example 1.

[0109] Specifically, FISH analysis is carried out by using RPCI-11 147K7 and RPCI-11 1006E8. RPCI-11 147K7 and RPCI-11 1006E8 can be easily available from genome databases.

[0110] As a result of this, a deletion is confirmed at 60% of a patient suffered from Sotos syndrome. Therefore, it is found that a gene diagnosis can be carried out by using the present probe.

[0111] Conclusively, a confirmed diagnosis whether or not a patient is suffered from Sotos syndrome may be carried out by the FISH analysis in a similar manner wherein a nucleic acid concerning NSD1 region of the present invention is used as a probe.

[0112] The nucleic acid according to the invention and the probe using such a nucleic acid have an advantageous effect that they can be used as a gene diagnosis and a gene therapy.

[0113] Particularly, according to the invention using a fluorescence in situ hybridization, the RI equipment is useless, and the operating procedure is simple, and it is excellent in a point that in-depth mapping is exactly carried out on a chromosome band for a short time (2 days), so that it is also useful for a rapid and safety gene diagnosis.

#              SEQUENCE LIS
#TING
<160> NUMBER OF SEQ ID NOS: 8
<210> SEQ ID NO 1
<211> LENGTH: 39726
<212> TYPE: DNA
<213> ORGANISM: human chromosome
<400> SEQUENCE: 1
tttgatgatg ggttctgcct ttgccatttc agacacattt tctataaatc aa
#gctagctg     60
aatctacagc tctggagggt tttttttttt ttttttttga gacagaatct cg
#ctctgtca    120
cccaggctgg agtgcactga tgtgatcttg ggtcactgca acctctgcct cc
#cggcttca    180
agagattctc ctacctaagc ctgccaagta gctgggatta caggcgtgca cc
#accacgct    240
cagctaattt ttgtagtttt agtagagagg ggatttcgcc atattggcca gg
#ctggtttc    300
aaactcctga cctcaagtga tctgcccacc tcggcctccc aaagtgctgg ga
#ttacaggc    360
gtgagccacc agacctggcc tctgggtttt tttttttttt tttgagacag ag
#ccttacta    420
tgtcacccag gctggagtgc agtggcgcga tctcagctca ctgcaacctc cg
#cctcccgg    480
gttcaagcga ttcttctgtc tcagcctccc gagtagctgg gactacaggt gc
#ccgccacc    540
acgcccagct aatttttgta tttttagtag agacagggtt tcaccgtgtt ag
#ccgggatg    600
gtcttgatct cctgaccttg tgatctgccc gctttggcct cccaaagtgc tg
#ggattaca    660
ggcgtgagcc accgtgtccg gccaacgccc agctaatttt ttgtagagat ga
#ggtttcgt    720
tgcccagtct ggtcttcaac tcctgccctc cagtgatcca cccacctcgg ca
#tcccaaag    780
tgctgggatt ataggcttca gccaccacgc ccagcccttt tagtatttat tg
#agcaacta    840
ctgggtacaa actctttgtc attcctccac tagcaagagc agtgatttca tg
#agctgctt    900
ttcagccttt gttttcatct gtaaaatagg atatcttctc tttgaggggc aa
#caaggggt    960
aggtgtgggt gggtgagcta taaaccctaa tcctcaccca ggaggaggtg ca
#gccacctt   1020
tctggccact ggctggagac ctcccccttt ccccatactc ctccttccac tc
#cctgatcc   1080
aagcactgcc agaacccagc attctctcac tttctcttcc tccgttttga at
#cagtaggt   1140
tcagaagtgc ttggcttgat atgaagctgg gggtgcatcc aacaaaatca ga
#tgcctaga   1200
gaaggagcag gattggggtg ggagagagaa gacagataat tgggttgagg aa
#cctggggg   1260
catcctgaag gaggtgccca gtgggcagtt gctttgtgct gggcccaggg cc
#aggttata   1320
cgtactttga atattttatc ttcatagcta tcccatttgg tgaggctcaa ag
#agcgaaaa   1380
tgacattcct ggtaaatggc cctgctgcag tttgaatttg tatccatctg ac
#tccaggtc   1440
acgtaagctc tttttgtttt tgagacggag tctcgccctg tagcccaggc tg
#gagtgcaa   1500
tggcgggatc tcagcttact gcaacttcca cctgccaggt tcaagcgatt ct
#cctgcctc   1560
agcctccctt gtagctggga ttacaggcac gtgccaccac gcccagctaa tc
#ctttgtat   1620
ctttagtaga gacggggttt caccatgttg gccaggctgt tctcgaaccc ct
#gaccttgt   1680
gatccgccct cctcggcctc ccaaagtgct gggattacag gcatgagcca ct
#gagcctgg   1740
tcataaggtc tcttatactt ttatttattt atttattgga gccagagtct ca
#ctctgtca   1800
cccaggctga agtgcaatgg catgaacatg gctcactgca gcctccacat cc
#tgggctca   1860
agcgatcctc ccacctcagc ctgccaagta gctgggacta tgggtgcgaa tc
#atacacca   1920
ccatgccagg ataatttgtt tgtttgtttg tttgtttttt taaatggagt tt
#cgccttgt   1980
ggaccagggt ggagtgaaat ggcgcgatct cagctcactg caacctcagc ct
#cttgggtt   2040
caagcgattc tcctgcctca gccccccgaa tagctgggat tacaggtgtg tg
#ccaccaca   2100
tccggctaat tttgtatttt tagtagagac ggggtttcac cacattggtc ag
#gctggtct   2160
caaactcctg acctcatgtg acccacctgc cttggcctcc caaagtgctg gg
#attacaga   2220
tgtgagccac agcgcctggc ctactttttg tattttttgt agagacaagg tt
#tagccata   2280
ttgcccaggc tggtcttgaa ctcctgggct caagcgatcc gtctgcctca gc
#cttccaaa   2340
gtgctgggac taaaggcgtg caccactgta cctggcctct tatgctttgt aa
#agcattgt   2400
ctggcaccaa aggctgtttg ttcctcaaac atcttgaatc ctttttggga gg
#atctgagt   2460
tttgtacaac tcatttggtc cgttattgaa accacaattc tgtctgatgg ag
#acacaggc   2520
ttggagagga gaggagggga tagatcaggc atcatgaaat gtttctggag ca
#ctcactct   2580
gagcttcacg gtctgggctt gttcactgga ggtcagagag tatatgtcct ta
#gtcttgtt   2640
ggaagtgact gtccaactgg atgagaccag atttagaagc cattagttac ta
#ccaggact   2700
cagggaaaaa tggctgcctg taggggtggg aagactacca ggaggaggag tc
#ttctaaac   2760
tggatgaatg gagtctgccc aggggaaaag gcagagtgac tggcatgagc at
#aggctgga   2820
caggatgtgg cttgtcctgg cactgggcag ttgggggaag tgagagcagg ag
#ggcaggga   2880
ttagtggcca ccataccaag cttcagaagg aggtttaaga agaagaaaac tt
#aaaggtgg   2940
atgcttgagt ccttcgggct ggggctgggc gtacaggctc aggttagcga ca
#ggacctgg   3000
tatttggggc aggaaggaga ctgctggagg gctgcctggt ctcagatgtg gt
#caggcctt   3060
ccttgatctt aagttgaaaa ctgattcaat tttggggaaa tccgtgggtg gg
#gagaggaa   3120
ggaaacagct cctagaccca tcagaaggca tggtcctggt gttcaccagc ta
#tgttcagg   3180
attaattacc aaaggcctcc atgcctctcc caagacctaa ctgtttagtc ag
#aaggcaga   3240
tgctgttcct gttcagtggg aacaaggagc tggaactagg atgggagttt gt
#ctctgggc   3300
aagtcatgct tcctttctag aagatgggga taacaataat acccatctca ga
#ggagtaaa   3360
tgagtatcct gcagggtagc tggaacagag gaggataagc tacaactgtt at
#tgtaacaa   3420
caggcagagc ccttgctgga gttgtgtttc taggggagga accagtgtct tc
#tggacaca   3480
gaagagtgag ctttctactg ctcagatgcc atcacgtcat tatcctcctc cc
#tcaccttc   3540
catggctgct tactgccttc cagataaagc ttcaactctt taacttaacc aa
#ccaagccc   3600
tgaagggtga ggctctgtgt ctgccccatc cttggttgag cctctttctg ca
#ctcattac   3660
ctctgccccg gcacatacac tagacatgct tgttgtggtc agttcctctg aa
#gcctggtg   3720
tttctctgga ctctgctgga atctctgcct cttccccttc ttgcctggct at
#tcctgaat   3780
atcctccagg actctctctg gatgttgctt cctcaaggat acccctgagt ta
#gtttcaag   3840
ggcattctca gcttctccag cacccttggc ttctctctca gtactcagtt ct
#ctgccttg   3900
ttattacctg tctgcttttt ccacaaggct gtgacgggga gccccaaaat at
#ttatggaa   3960
ttaatgaatg aaaaggggtg gttctaagaa aaaagagatc actgtacatt gg
#ccaaatgt   4020
cccaacaggt atctattata tctcaccagg gtaggaatta tcagtaacca ag
#atttacag   4080
atgaggaaac tcagcccaag gtagagtccc tctgcctgtc attcaaattt ct
#gggcacct   4140
gtgtgtaagc accatgctgg gcttttcaca ggcagtatgt gtagggtgga ca
#ggctgaga   4200
gcaagcacgt gaggcccatc ataccaggtg agagttaagg tgctgacacc tt
#gcatgagg   4260
gcttagtctc ttggacctca attcttcgta gggctggtga agggtcatag ga
#acgactgt   4320
atgtgaagtg cccaggacag tgtccagtac actagtacag acccagcaag tg
#tttactga   4380
ttcttatctc agtcctaagg atgggagtca caggcccaga aaaggtccct gg
#attgagac   4440
aaccagccag aggagagctg agtgtacatc ccaggccccc accctacagg ga
#cacagtcc   4500
tctcccttct gcccccactc aaggagtcag tgtccttgtg agaatctatg gc
#gctgtgga   4560
tcttctcaac ctagtgctgg cacacatgag atgcttggcc agggcctgcc ag
#atggggag   4620
gctggagatg ggtcggctgt gattgagacc tctgtggcca agttttactc ta
#agaggcag   4680
gtaaggccct caggggttat cccagagaag tctgagaggt tttccctggg gt
#cctggtct   4740
tctcccccag acctgtcagc aagcagttca tccccagctg ccaatctcct tt
#tggccctc   4800
agtcttccag aggagctggg aggtgggaga gaggggttct gcagggcagt gt
#tgttcaga   4860
ggtgagcttt ggaagaaact gttgtctcaa ccctattttc acaccatagc ac
#ctttattt   4920
aactgtcttt tcccgaggcc aggatctcat cttttgtttc cccagcactc ag
#cacactgc   4980
ctggaatgca ggaaatggtt gctgaatgaa gcgatgaatt acatttcagc ac
#tcatcaag   5040
tgctcagcct ataactaagt ctgagtgtag gctgctaaca cttagacctt ta
#ccttacag   5100
aatcttcgca gccagtgctg tgcattggaa gttgcagatg gggaaactga gg
#ctcaggac   5160
tgttaagtga ctagttcaag gcaggtctca ggccctcagg atggttagtg gc
#aaagtaaa   5220
ggactgggag gagcattgat gaattggggc aattggcaga ggagtaactg tc
#agtcaaaa   5280
tgattggctc aaattattag gtgtgaagaa ggaaccagtc agagcttgcc tg
#ttgagtcg   5340
aattgcccag atgggattag cagggtgagt gaccctagca gaacaaagag ct
#ggcccttg   5400
taggtataga ctcgactttt ctctggttgg tcccaacaca tagacaacta cc
#aacctgac   5460
tttgcacctg agaatcttca gggtacctca gactcttcaa cagaaggagc ct
#ccctgagg   5520
tcacagccct ctcatcagtc ccgttccagt gggcactttc cctctaacaa ag
#cccacttg   5580
ctgtcttggc agggtctgca tccggcactt gcagacatgt gctaagggcc tg
#ttgacttg   5640
ggagcctcca tcactggact gtgggccttg gagagcaaaa gggtaagagc at
#ctcgagct   5700
ccacgcctgc tgggccagtc gctggctgaa ggcaggggaa ggatggagtt ta
#gctggcca   5760
gcactaatgt cacacagggc aacgccaaaa atggcctttc tcccaggtgg gc
#tcaaagtt   5820
aacagaaggc agtgagtaaa cagtccactg gggcaataac tatgcacatt ta
#ctaagcca   5880
tgggaagaat agtagtcacg tggccctcga gggcggtgcc ctcagcttga ga
#tggagtta   5940
actccaaatc taatcacaga aggctttctg gaggaggcgg aatttttatg gc
#ggccggat   6000
ccggctttct ctgaacagcg agaaggcgct tagcgcccta gggaccaggt aa
#ctcctgag   6060
gtgagcttct tggtggggat caagcccagg gggcgacgga gtccgggctg gg
#ggaagggc   6120
ccgaggggct ggagtcgcaa gttcaggccc agcttgggct ccctgtcccg cc
#cttccgct   6180
gtcttggggg attggacgcc acgcggtcgt gctagattcg gtgctgcggg cc
#cggtgcag   6240
gatgcaggcc gtgaggcccc aggccgaggg ctgcgccagc gggcttgtcc cg
#gccagccg   6300
ggcggtcccg tgtcccggcg cagctccgct ggggtccaga tgcccggccc tc
#aggggcga   6360
ggcgcgcact ccccggggaa ccgggctgcg gagcaggcgg cccgctctgg gc
#ggcggtgg   6420
cacgagaggg ccatctgcct gggtgccgag aactgcagcg tccgcggtgc ga
#ggcgcggc   6480
ccgtcccgtc ccggccccca gcccggcgcg cacgcacata cccacgccgg cc
#ggcgcccg   6540
ctgcccgagc ccccgtgcca ggcccagacc ttgactaggc gcgggaggcg gt
#gcagggac   6600
tagaggaccc cctcccccgg cgttcccctc gccccgcccg aggctgcgag ga
#cccctggg   6660
ctcgggggtg gtgagggagc ttcgtcccgg ctgggcccgg gctggggact cg
#gcctccct   6720
gggcgggggc cgcacggctg caggccgagg tgcggacgcg ctgtcaggct gc
#agcccggc   6780
tcggtgccgg gggtgggctc agcgctgggg tcgcctggct tcgttccccc gc
#ggaggcca   6840
cggccgggcg agcagtgccg gggcgggtaa cccgacccgg ctccccagag cc
#gctcaccc   6900
cgcacggccc ggcaagggga gggagaggga tggggggagg gggaagggaa gg
#ggtggtgg   6960
gtgaggggct gtgggcaccg cagggccgag tccccggccc gtctgcgctg ct
#gtagggcg   7020
gctgcccgcg gcacccggga cgatccagcc tctgcctcgc gggcgtcgag cc
#tgagacag   7080
gagggagccc tggggctgca caggcttggc tcagggaggc agacccgagc tg
#ctgcctcc   7140
attttgtttc ctgctcagct tggtctgtgg tggtggtggt ggtggtggtg tg
#ggtttggg   7200
gtgcggccgg gtagggggtt cgcctgcggc cgcgtctgct cggggcctga gg
#cctcgaag   7260
accccagccc aagcccccag gtgagccctg cggcaggagg ggggttgcct tg
#gcctcggg   7320
ccgaacccag cgggctgagg gcaggtgccc agtggatggg gagcctgggc tg
#taacctaa   7380
gatggaggcc gggactgacg cgggcccgag cagggctggc gggacgatcg ga
#caggcctc   7440
agccgcgcca ggtgccgcct gggttggggt tcgagacgcg tagggtgcgg ga
#gccgtgtg   7500
cggcccgagg ccagcgccgt gccccgaggt aggtgagggg atcggaatgc ca
#cccacgac   7560
gcccgcaggc cccgacactc caaggaggcg cgcgaggccc ctggggagcc cg
#cctcaggc   7620
cccgcccggg cagccgggcc ggcccgtagg ccccggccgc gagcgggcgc gc
#agggggag   7680
gggagggggc ggcagcggca gctccgctga ttgggcggcg ctctcacaag cc
#cgacttca   7740
cccgccctga accccgaaga gtgagagaag ggaacgcgcg cgctcggtgg gg
#gaaggggt   7800
gcgcgcgcac tcggggccca gccgcacgcg ggccggcgcg aggcgctcgg tc
#gcacgcgc   7860
ggccgcgggg gcgcgcgcgg tgggggtgtg aggaggagga ggcggcggcg ga
#ataggccg   7920
gggcaggtcg cgctcgctgc cttctcccct gaagagagac gcggggggag gg
#gggtgcgg   7980
cgagcggccc cgctctctcc ccaccgctcc gctcgcaccc cagtgtaatg ag
#ggtcaccc   8040
cctcccccca gctggcccgg gagggggcgc ggggcacggt aactagtgcg ct
#ggggtggg   8100
cggcgggcag gcgcgaggag aagggaggga ggagggtggc cgggcgggga ag
#atggtggt   8160
ggccgtaagg tgaggggctc gggggagggc caggcgcgat gcggggttgg tg
#gccggcgg   8220
cgctgcagcc gccggcctcc tccccctccc cctcctccat cactaccagc cg
#ggctcagg   8280
cctagctggc cgggctgccg cgaacttcct cccggcgcgg cccgtgcccc gc
#cggccgcc   8340
tgcgaacacc tcggcctccg cctcccctca ggtagcaggc tgcggggcgc gg
#ggccggct   8400
gccctcccgc agcaaacttt gcttgctgct gaatattgat gagagcgatc gg
#ctcggctg   8460
ggaggtgctg ccgcggctgc gggaaggagc gcggcccggg caggcggcgg cg
#gcgtcggc   8520
agcagccatg tttttcgagc tgtagcagct gctgctaccc tgactgggct tc
#gctggccg   8580
cctcggtttc tccctctgcc gggtccaggc ctcttcgccc tgcagctgcg ga
#tccagcag   8640
gcctgcattc aggaaggcga gctctggggt gcagccgcct cggccggctc gc
#ctgcggcc   8700
tgcgcaccgc cgctgcaaag gctccggcgc tggctgggcg cagggtgcag cg
#ctattgtg   8760
accgctgcgc cctagcgagc caggaagggg ggggtacctt tttgtgcagg gt
#ccaggagc   8820
ccccctcgga ccccgcagcc ttttgctttt gagagatcca gctgctcgac cc
#ctggcgag   8880
ggagggggag gactagtcct gtttgagaat tgggaatttt gacgggcaga gg
#ggttttaa   8940
ttttagttca tcccaagtgt ccaccagtct acagaggagg aaaaagagac gg
#gctgtttc   9000
tatgtagcag gatcggccca gcttcgggaa aatggagttt tcagaggctc at
#cgaggcca   9060
ttttttcatc tccagtcggg ggaacttttt ctgcccatgg aagtgcagca ga
#aaggcata   9120
gaggccacta ggccttgaag tggctgccat tttaaagagt cgagtcagat gg
#cctattaa   9180
ctcagattaa ttgctgtgct tttggattcc aggttgatgc cggcccagga tg
#gatcagac   9240
ctgtgaacta cccagaagaa attgtctgct gcccttttcc aatccagtga at
#ttagatgc   9300
ccctgaagac aaggacagcc ctttcggtaa tggtcaatcc aatttttctg ag
#ccacttaa   9360
tgggtgtact atgcagttat cgactgtcag tggaacatcc caaaatgctt at
#ggacaaga   9420
ttctccatct tgttacattc cactgcggag actacaggat ttggcctcca tg
#atcaatgt   9480
agagtattta aatgggtctg ctgatggatc agaatccttt caagaccctg aa
#aaaagtga   9540
ttcaagagct cagacgccaa ttgtttgcac ttccttgagt cctggtggtc ct
#acagcact   9600
tgctatgaaa caggaaccct cttgtaataa ctcccctgaa ctccaggtaa aa
#gtaacaaa   9660
gactatcaag aatggctttc tgcactttga gaattttact tgtgtggacg at
#gcagatgt   9720
agattctgaa atggacccag aacagccagt cacagaggat gagagtatag ag
#gagatctt   9780
tgaggaaact cagaccaatg ccacctgcaa ttatgagact aaatcagaga at
#ggtgtaaa   9840
agtggccatg ggaagtgaac aagacagcac accagagagt agacacggtg ca
#gtcaaatc   9900
gccattcttg ccattagctc ctcagactga aacacagaaa aataagcaaa ga
#aatgaagt   9960
ggacggcagc aatgaaaaag cagcccttct cccagccccc ttttcactag ga
#gacacaaa  10020
cattacaata gaagagcaat taaactcaat aaatttatct tttcaggatg at
#ccagattc  10080
cagtaccagt acattaggaa acatgctaga attacctgga acttcatcat ca
#tctacttc  10140
acaggaattg ccatttgtaa gcagtttttg gtacaactta aatatataca ta
#tatgtata  10200
tatacaggcc acttaaaggg aaacttgtaa caaatttgtt tttggttgct ta
#tcagttca  10260
cagctgaaat cctattgcta atcataagct ttgggcaaaa ttttactttg at
#ttttaaat  10320
ttatctctgt tgtatgaatt tggttgtttt aagctttttc caaataactc tt
#cattgaga  10380
gtaggctaat gcttttaaag gcatttgatt gagttcaggt ttaatttctc aa
#gttggagg  10440
tatacatata tgattaaaaa aaaaaaaaaa agatgggttt tggcctgcca gc
#accatgag  10500
tgcaggtgaa ccaatttagt acttggagtc ctgttgctat atgtggcaga tt
#attttttt  10560
acttgatgac ttgactctta cttcaggttg aagggcattt tgaacacaga tt
#aaagtggc  10620
taagatgaag ttttcttgga cattgtcaaa atctaaatta ggctagtttt tc
#tgaactac  10680
ctgttttgaa ggtatagcat cctgtgcttt tgataactgc caccattagc tc
#tttttttt  10740
ttttttgagg tggagtctca ctctgttgcc aggctggagt gcagtggttg at
#cactgcaa  10800
cctctgcctc ttgggttcaa gcaattctcc tgcctcaccc tcccgagtag ct
#gggattac  10860
tggtacccat caccacgccc ggctaatttt tgtatcacca ttagctcttg aa
#gtttttct  10920
agttttgttt tgttttattt tattttattt taacagaacc ctaactaaga ca
#aagtttta  10980
tatttattta ttgtttagag actggccttg tcatgttgcc caggctggcg tc
#gggactcc  11040
tgggctcatt cgatcctcct gcatcagcta gaactacagt agtttcagat tt
#tgaagtgt  11100
gtatgtgtat gtgtgatatg tatatattcc gtgtgtatag aaatggagag ta
#tcttattt  11160
gagttgttgt tttcagtaat gctgtcaagt attgttagag ggtgataaat ga
#taacattt  11220
gtttttattt gagcttatga agaatttctt gactttctag ctaaatgatc ag
#ttcacttc  11280
tcttagcctc aattttattg cgtctaaatt ccagaagttc ttgattgcta ta
#agattcct  11340
tcagctttaa atattaatat ttgatattga ttttgtttct gcccaaacac at
#tgtttggt  11400
caccgccggt aatgttagca aagagaattt tttttggcca acaaatgtct ca
#taccacat  11460
tcagttttta taagaaaaac ttttatggta tgttgttatt ctgagttcat ta
#aacattcg  11520
ctttacctta tatccctgct gttctttaaa gttacagagg gagaatgtgg gt
#gtgtcact  11580
tttgtttctg ttgatttgta tcttaattat gccttggtac tccttggttt ct
#tggcaatt  11640
gcagatttaa aaaaatttgc tttagtggtt atcttgagtc tgaattgtcc ta
#cacattag  11700
ggtgggtagg ctgttttgaa aacctattgg cagctcagac aaatcctttt tc
#ttgggttc  11760
acgttgaaat ttattttata tatatatcgt gtctttgttt ttgcacataa at
#ttaaatct  11820
gagaatggag atagatgttt ctctagaagc atacaaatag aattgtaaac ct
#gtttctcg  11880
tcaaagagat gttagtggag tattggttct attaaaaaaa aaatgaaggc tg
#agtgtggt  11940
ggctcacacc tgtagtccca gcactttggg aggctgaggt ggacagatca cc
#tgaggtca  12000
ggagtttgag accagtctgg ccaacatggt gaaactccgt ctctacaaaa at
#tagccggg  12060
cgtgatggtg ggcaactgta atcccagcta ctcgagaggc tgaggcagga ga
#atcgcttg  12120
aacccaggag gcagaggttg cagtgagcca agattgcgcc attgcactcc at
#actgggaa  12180
ataagagtga aactctgtct caaaaaaaaa aacaacaaaa aaacaaacaa ac
#aaacaaac  12240
aaaaaactga aaatattgga gcctttagat agtaggttac atgtctaaaa tg
#ggagttag  12300
caaatgtata aatgtagaag tttttttttc agggagaaat tgaaattgct ca
#aagacttt  12360
atcaccttga agaagcaagt atgtagttta tttatttttt tgagacacag tc
#atgctgtc  12420
acccaggctg gagtgtagtg gcgcgatctc agctcacttc aaccacctcc tc
#ctgggttc  12480
aagcgattct cccacctcag cctcccgagt agctgggact acaggtgtgc ac
#caccatgc  12540
ctgactactt tttgtatttt tattagagac gaggtttcac catgtgggcc ag
#gctggtct  12600
tgaactcctg acctcaggtg atccgcccac cttggcctcc caaagtgctg gg
#attacagg  12660
cgtgagccac cgtacccatc ccctaattta ttattttagg aatttggttc aa
#agttgtga  12720
ttgaaatcta ttgcctttat ttttgccttt gatattttta aactgaagac at
#tttttttt  12780
ttgagacgaa gtttcactct tgttgcccag gctggagtgc aatggcatga tc
#tcggctca  12840
ctgcaatctc cgccttctgg gttcaagcag ttctcctgcc tcagccttct ga
#gtagctgg  12900
gattacaggt gcgcaccacc accccagcta atttttgtat ttttagtaga ga
#tggggttt  12960
taccatgttg gcccagctgg tctcgaactc ctgacctcag gtgatccacc cg
#cctcagcc  13020
tcccaaagtg ctgggattac aggtgtgagc cacggagccc ggcctcagac tg
#aggactta  13080
aaaagtgagg tcagggtggg catggtggct cacgcctgta atcccagcac tt
#tgggaggc  13140
tgaggcgggt ggatcacctg agatgaggat ttcaagacca gcctggccaa ca
#tggcaaaa  13200
ccccgtctct actaaaaata caaaaaatta gctaggcatg gtggcaggag cc
#tgtaatct  13260
cagctatttg ggaggctgag gcaggagaat cacttgaacc cgggaggctg ag
#gttgcagt  13320
gagctgagat cgccccattg cactctagcc tgggcaacaa gagcgaaact cc
#ctctcaag  13380
aaaaaaaaaa accatcctgg ccgacatggt gaaaccccgt ctctactaaa aa
#tacaaaaa  13440
ttagctgggc gtggtggcag gctcgggagg ttgaggcagg agaatcactt ga
#acccggga  13500
ggcggaggtt gcagtgagcc gagattgtgc cactgcactc cagccttgag ac
#agagggag  13560
actccatctc aaaaaaaaaa aaaaaaagcg gtcaatctta gaatgcaaag tt
#aggtaagc  13620
aatacagctt gagaaaagtg taattaaaaa taacttttct atgtagtcat gt
#gatattaa  13680
tgtattcaac ttgttcacag ttgatttaag ttattgatat agtaggtatt gt
#tactatgc  13740
tgggaatttt agaaaatcct tagcaaattg ctatttgtct ctttttgtct gt
#aattttgg  13800
ctgggcttgg tggctaacac ctgtaattct agcaagttgg gaagccgaga ca
#aaaggatt  13860
gcttggggcc cagagtttga aactagactg ggcaacatag tgagatcctg tc
#tctacact  13920
cagttggttg tggtggtatg cctgtagtcc cagctactca ggaggctgag gc
#agtagtag  13980
gatcacttga ggccagaagt ttgagactgc agtgagccat gatcatgcca ct
#gcattcca  14040
gcctaggcaa cagagcaaga tcctgtcaaa aaaaaaaaaa aaggagaaaa tt
#ctcttggc  14100
agtgggtaag agtagttatt agggttgtag atttcctgtc tggaattaga ga
#aagaaggg  14160
tcatattttc tgttattttg tgtatctacc tctaagtgga ctgtttgcct ct
#tgtcacga  14220
attagtagcc tcttcagttt accatcatgt gctcttattt tctctgcata ca
#gtgaagtg  14280
attgtcatta caatttataa tcctgacctg gtacttttat atttaattgg gc
#tgatattt  14340
tctaattctt cccagtgtac aaaggtttta tgctttgttg ttgttgttga ga
#caggctag  14400
gtgctttgga tgtggagaat taaatgagca tggcattttc agaggatact tg
#ttggagat  14460
tgcttgggta ggatggatgt agtcagctaa tggggcctag aaattcagac tg
#aagcattt  14520
ggtattgatg tgatgggaac tggcagccct tgagagattt tagctgagaa gt
#gatgtaaa  14580
atctgtttgg aagactttga gtagaggaga ttagaggcaa ggttaggatg ta
#gggtatgt  14640
tgcaatagta attaagactt aagaatcggc ccagtggcat gtacctgtag tc
#ctagctac  14700
tctggaggcc gaggcaggag gatcacttga ggctgcaatt agctgtgatt gt
#gcctgtga  14760
atagccactg cactccaacc taggcaatat aatgagattc tgtctcttaa aa
#aaaaaatg  14820
agcacagtga gtactctaaa gaaagggggt aaatctaaaa gattatttca aa
#gggagaaa  14880
attggcagct ttttgggggc tacctgatct ggaggcagat tggagtctgg at
#ttgaggaa  14940
tggagagaga tgaggcagat gatgtctaag gcttatagtt ttgctgcctg ag
#acaaaaat  15000
gattcctcag aggttccttc ctcttctcta cccatcatcc cacaattttc ta
#ctccctcc  15060
ttagctatct tggaagaaaa ttgatctctt cacacctgag gttctgctct ct
#ctccgatt  15120
ccctcctggc tgggtgacct tttttgtttg tttttgtttt tgttttgaga ca
#gagtctca  15180
ctctgtcacc caggctggag tgcagtgggg cgatctcggc tcactgcaac ct
#ctgcctcc  15240
caggttcaag caattctctg cctcagcctc tggagtagct gggattacag gc
#gcccgcca  15300
ccgcaaccag ctaattttta tatttttagt agagacgggg tttcaccatc tt
#ggccaggc  15360
tggtcttgaa ctcctgacct cgtgatccac ccgccttggc ctcccaaagt gc
#tgggatta  15420
caggcgtgag ccaccgcgcg cagccttttt tttttttttt tttttttttt tt
#ttaagatg  15480
aattcttgct ctgttgccca ggctggagtg cagtggtgtg accttagccc ac
#ggcaacct  15540
ccatctcctg ggttcaagag attcttgtgc ctcagcctcc caagtagctg gg
#attgcagg  15600
cgccctccac catgcttggc taatttttgt atttttagca gagagaggtt tc
#accatgtt  15660
ggccaggctg gtctcgaacc cctgacctca agtgatccac ctgcttcagt ct
#ttcaaagt  15720
gctggaatta caggtgtgag ccaccacgac ctgcatacca cttctcaaac ag
#tccttttt  15780
tgcgtccttg ttctcttttt cttcctcttt ctctgcagtc tcattcactt tc
#attgattc  15840
tgctgctact ccactctatg aaactctctt ctgaactgac ttcaaaccaa ca
#aattctac  15900
ttgtcaacta agctgctcct ctaccttgtg ttatattcac ctaaaatgta at
#attatttc  15960
cttttttatt tttcctttgg acagggtctt tctctgtcac ccaggctgta gt
#gcagtggt  16020
gccatctcgg ctcactgcaa cctctgcctt ctgggttcaa gtgattctcc tg
#cctcagcc  16080
tcctaagtag ctgggactac aggcgcccac caccatgcct ggctaatttt tg
#tattttta  16140
gtagagacag ggttttgcca tgttggccat gctggtctca aactcctgac ct
#caagtgat  16200
acgcctgcct ctgcttccca aagtgctggg attacaggca tgagccactg cg
#cccagcct  16260
attattttca ttttgaaccc atctctttta ttgccaaaca cgcatttact tc
#tgtgttca  16320
tgatgacatc attatcctat tcatctcaaa gctggaaacc ttgcagtcaa tc
#atttaaat  16380
gattaaaata catttgagta cctcttgagc caggcactgc cagtataata aa
#aaataaaa  16440
aaattaaaaa aaggaaagag atagtttgct tttaaggaac ttcactgtgt gg
#caaaaact  16500
agtgtaaaca atgacaatac agaatactaa gtggtctggt aggtgttatg ta
#tgcagtac  16560
tttgggagtg tggaggaagg catgcctaga ataatcaggg aggacttcac ag
#agtggtta  16620
tttatagttt aagcagagac ataccagtaa gagggaatag catatgcaag tg
#gccagaaa  16680
tccttggcta gctatctggg aggagtgggg ttgtcaggag ataaaggtat aa
#agataggc  16740
ttatatgccg tgctgtatag ttgaatgttt ttactattac aaaattttac ag
#atgccctc  16800
agtttctccc tttattcatt tttctatgac atctttattg ttggtcttca tt
#tagtcttt  16860
ccttccagtc tatcctgtgt aaaattactt cctacttcca aaatgagaaa ta
#ctgggtct  16920
ctacttaaat ttgtaaccta aatgcctcac acctcatttt ctgaacaaat aa
#agcccaaa  16980
ttcagtgtcc tttttgatag gatcctgtcc tgacctttcc aaatctgatg ct
#agagcctt  17040
gtgtaccctg agttcagcca aactgaactc ttaatggtcc cttgctccat ac
#tctcccct  17100
tgctcatgcc tttattctcc tggtctgatt catctttgca tcttaacagt gt
#atagcatg  17160
gtgccttctt tttactgggg acatatcgag ttaatgaatg aatgatgcta tt
#acagaggt  17220
acagtttggg aaggggagtg agtacatttt agaaaggtga taagtggatt gt
#cagccttc  17280
atcattttca atggaccaaa ttactaaaac tttacaggtt ggttggtttt tt
#ttcttttt  17340
tcatttcctc atgtactcaa tttctaaggc tttttgaatt tgagcttcct aa
#tatctcat  17400
gcattaattt ttttctccat tctcaacttt cactctttta attaaggata at
#aatttttt  17460
tttttgagat ggagtcttgc tctgttgcac aggttcgagg gcagtggtgc ga
#tcttggct  17520
cactgcaatc tccgtctgcc gtgttcaagc aattctcctg cctcagcctc ct
#gagtagct  17580
gggattacag gtgcatgcca ccacgcctgg ctaatttttg tatttttaga ag
#agatgggg  17640
tttcaccacg ttggttaagc tggtcttgaa ctcctgacct tatggtccgc ct
#gcctcagc  17700
ctcccaaagt gctgggatta caggcatgag ccactgagcc tggccaagga ta
#ataaatta  17760
taatggtttt aggttggaca tctctgactg catactgcac tgtgtttact gg
#aagaagtc  17820
ccttaatgtc tctaaggccc atttcctcag ttctaaatta cggctagtac ct
#tcattgga  17880
gggttgttaa gtctatgata caagataact tttttttttt tttttttttg ag
#acagagtc  17940
tctatcgccc aggctggagt gcaaaatggc acgatcttgg ctcactgcaa cc
#tccacctc  18000
atgggttcaa gttgattctc ctgcctcagc ctcccaagta gcttggatta ta
#ggcatgcg  18060
ccaccatgcc cgactaattt tgtgttttta gtagagatgg ggttcaccac gt
#tggccagg  18120
ctggtcgaac tcctgacctc aggtgatcga cccacctcgg cctcccaaag tt
#gctaggat  18180
tacaggtgtg agccatctct cctggccatg atacaagata atttatatga ag
#taatacac  18240
tgctggttct gaagtaggtg tgcagtaagt gatgcctact gctgcatgcc aa
#gagtcaaa  18300
tgtatatttg aaagagttgt gaatttcaag aaagatattt ttgagttttt tt
#ttttttct  18360
ttctgagaca gggtcttgta ctgtttccca ggctagagtg cagtggcctg at
#cttggctc  18420
ctggctgggc ccaagtgatc caccgccctc agccttccaa cgtattggga tt
#acgggaat  18480
gagccactgc atttggctaa gtttttgttt tttttttctc tatttttcca aa
#cttatttg  18540
attagtaaga taaagacatt aactgctgtt gacagtttcc atttttaatt ag
#taatcagg  18600
agcatttgtt gtatttttgt ttgataatca gaataattta atttgtgcaa ta
#ggatcaat  18660
agctttctgt attccaactg ttaagtggtg taagtttatt acattgttgc tt
#tttgcagg  18720
ttgtcctttg ttctagatag aaatgtttaa tttattcttc ctggttttca gg
#ggagccca  18780
ttgaaaggag atccagtctc tgaaatttag tggtaggata ataacaattg aa
#cagttact  18840
tttgaatcta atttaaataa tctcaattgt agccttttaa agcaattcct at
#gaaccttt  18900
ttgaatttag aaaagtaata cttggccggg cgcggtggtt cacatctata at
#cccagcac  18960
tttgggaggc tgagggggtg gattatctga ggtcaggagt tcaagaccag cc
#tggccaac  19020
gtagtgaaac cctgtctcta ctgaaaatac aaaaaaaaat tagctgggtg tg
#gtggcacg  19080
tgcctgtagt cccagctact caggaggctg atgcaggagg atcgcttgaa cc
#caggaggc  19140
agaggttgca gtaagctggg attgtgccac tgcactccag cctgggtgac ag
#agtgagac  19200
tttgtctcaa aaaaaaaaaa aaaaaagtca aacttaaaaa tggaatataa aa
#atctcttg  19260
atttttgtca gttttcatat actccctcat ttacactctt aatattctat ta
#gaaattgt  19320
ctcttctctc tacacacccc tttttttccc ttttggttaa tatgttaaga ca
#tcttttca  19380
tatgagcatg taacatgtaa caagattttt tttttttttt ttggacagtg tc
#tcgctctg  19440
ttgctcaggc tggagtctag tagtatgatc acaactcact gcagtttaga cc
#tcctgtgt  19500
taaagtgatt ctcctacttt agcctcatga gtagttggga ctacaggccc at
#gccaccac  19560
gcctggctaa ttaaagaaaa aattatttgg tagagacagg gtcttgctat gt
#tgcccagg  19620
ctggtcttga atttctggct tcaggcaatt ctcctactct gcatgagcca cc
#tcagccgc  19680
gaatattttc ttattatgaa atttttgttt agataaatgt tgattcacat gc
#agttgtaa  19740
caaattccat ggccaggctg ggcgtggtgg ctcacgcctg taatcccagc ac
#tttgggag  19800
gctgaggtgg atcacctgag gttgggagtc caagaccagc ctgaccaaca tg
#gagaaacc  19860
ccgtctctac taaaaataca aaattagcca ggcgtgatgg tgcgtgcttg ta
#atcccagc  19920
tacttgggag gctgaggcag aagaatcact tgaacccggg aggcggaggt tg
#tagtgagc  19980
caagatcgtg ccattgcact ccagcctggg ctagaagagc gaaactccat ct
#caaaaaaa  20040
aaaaaaaaaa aatcaggaaa ttccatgggc taggcacagt gacttatgcc tg
#taatccca  20100
gcgttttgga aggctgaggt tggaggattg cttgagccca ggagtttgag gc
#tacagtga  20160
acactgactg tgccactgca ctccagcctg ggtgaccctg tctcttaaaa aa
#aaaaaaga  20220
atacagagag gtcccttgta tattttgcct ggttttgcaa tggtaatatt tt
#gcaaaaaa  20280
tatctaatac cacacaacca gaatattgat gttgatgtac ttcaccaatc gt
#tttttttt  20340
tttttttttg agtcggagtc tccatctgat gcccaggcta gagtgcagtg gc
#tcaatctc  20400
ggctcactgc aacctccacc tcctgggttc aagcaattct cctgcctcag cc
#tcctgagt  20460
agctgggact acaggcgtgt gctatgacgc ccagctagtt tttgtatttt ta
#gtagagac  20520
ggtgtttcac cgtgttatcc agggtggtct caatctcccg accttgtgat cc
#gcccgcct  20580
cagcctccca aagtgttggg attacaggct tgagccaccg cgtccagcca gt
#cttactta  20640
ggcattgacg ttcatgtaat ttatccatct tattcagatg tccttaaatt tt
#atcttttt  20700
ccttaaaaga aatctgtatt tctatcagga cattctggat gtccccagtt tt
#actggtag  20760
tctttcattg tgtgtatatt aagttctttg tttttatcac ctgtataggt ta
#gtatatcc  20820
atgactcccg tcaactttct aaatgttcgc tgggtgcagt ggctcatgcc tg
#taatccca  20880
gcactttggg aggctgaggc ggctggatca cctgaggtca gtagttcgag ac
#cagtctgg  20940
ccaacatggt gaaaccccgt gtctactaaa aataaaaaaa aaattagctg ga
#tatggtgg  21000
gtcatgcctg taatcctagc tactcgggag gctgaggttg gagaatcgct tg
#aacccagg  21060
aggcggaagt tgcagtgagc tgagatcgcg ccgctgcact ctagcctggg tg
#acagagta  21120
tgtctctgtc tcaaaaaaaa aaaaaaagtt gctaaacatt tctaatacca ta
#aggatccc  21180
tgctgttgcc agccgtttta aaactacatc catcgtcttc ttggcaacct tc
#catctctt  21240
tttcgtatgt gacagcgtct tgctctgccg cccaggctgg agtgcagtag tt
#gcatctca  21300
gctcactgca ccctctgtgt cccaggctta agcgatcctc ccacctcagc ct
#cctgatta  21360
gctgcgacta caggcacttg ccaccatgcc ccactaattt ttgtatgttt tt
#gtagagat  21420
ggggttttac catgttgctc aagctcgtct tgaactcgtg agctcaagca at
#ccgcctgc  21480
cttggcctcc caaatggctg ggattacagg caggagccac catgcctggc ct
#agcccctc  21540
catctctagc ctttgtcagt tactaaactt tttttcctga agttttgtca tt
#tcacaaat  21600
gttagataaa catgagtcat acagtatgca gccttttggg attgtctttt tt
#tcccttag  21660
cataatttcc aggggattca tctaagttgt tgactaaatc aatagttgtt tt
#ttttgttt  21720
gttttttttt tgagacggag tttcactctt gtggaccagg ctggagtgca at
#ggcatgat  21780
cttggctcac tgcaacctcc gcctcccagg ttcaagcgat tctcctgcct ca
#gcctcctg  21840
agcagttggg attataggcc cctgccacca cacccagcta atttttgtat tt
#ttagtaga  21900
gatggggttt caccatgttg gtcagggtag tcttgaactc ctggcctcaa gt
#gatctacc  21960
tgcattggcc tcccaaagtg ctgggattac aggtgtgagc cactgcgcac gg
#ccctagtt  22020
ttttcctttt tatcactaag taatattcca tgatacaaat ataccatggt tt
#gcttgacc  22080
gttcacctgt tgaaggacat ctggggcaat gctagctttt ggtaattaag gt
#aaaagtac  22140
tatttatgtt catttatggg gttttgtgtg actgtaagtt ttcacttctc tg
#ggataaat  22200
accagtagaa caattgcagt attatatggt aatggcatgt taagtttttt tt
#ttttcctg  22260
agagggagtt tcgatcttgt tgcccaggct ggagtgcaat tgcgcgatct tg
#gctcgctg  22320
caacctctgc ctcctgggtt caagcgattg tcctttctca gcctcgcatg ta
#gctgggat  22380
tataggtgtc aaccaccaca cccagctcat ttttgtattt ttagtagaga tg
#gggtttca  22440
ctgtgtttgc caggctggtc ccaaactctt gaccccaggt gatccaccct cc
#tcagcctc  22500
ccaaagtgct gggattacag gcgtgagcca cggcgccccg ccaatgttca gt
#tgtttttt  22560
tgtttttttg agacaatctc tctctgtcac ccaggctgga gggcagtggc gc
#gatcctgg  22620
ctcactgcaa cctctgcctc ccggattcaa gcgattatcc cgcctcaggc tc
#ctgagtag  22680
ctgggaccac aggtgcacac caccacacca ggctaatttt tttattttta gt
#agagacgg  22740
ggtttcacca tgttgggtca ggctggtctc gaactcctga cctcaggtga tc
#cacccacc  22800
tcggcctccc gaagtgctgg gattacaggt gtgagccacc acgcctggcc ca
#atgttcag  22860
ttttataaga aactaccaag ctgttttccc tagtgtctgt accatttaca tt
#ctcactag  22920
cagtatatga gtgatccagt ttcttttatt ttttgttttt tgagacggag tc
#tcgccctg  22980
ttgcccaggc tgaagtgcag tggcacgatc tcggctcact gcaacctctg ct
#tcccggct  23040
tcaagtgatt ctcctgcatc agcctcccaa gtagctggga ttacaggcat gt
#gcaccatg  23100
cctggctaat tttttgtatt tttagtagag atagggtttc accatgttgg cc
#aggctggt  23160
ctcgaactcc tgacctcagg taatccaccc atcttggctt cccaaagtcc tg
#ggatttca  23220
ggcatgagcc attgcacctg gccgagtgct tcagtttcta tgcatcctca cc
#agcatttg  23280
gtgtggtcac tattttaatt ttagccattc gtgtagatat gtagtaatgt ct
#catctcat  23340
tatgttttgt tttttttttt gagacggaat gttgctcttg ttgcccagac tg
#gagtgcag  23400
tgatgccatc tcggttcact gcaacctcca cctgctgagt tcaagcaatt ct
#cgtgcgtc  23460
agcctctgga gtagctggga ttataggtgt gcatcaccat gcctggctaa tt
#tttgtatt  23520
ttttagtaga catggggttt caccacgttg gccaggctgt tcttgaactc ct
#gacctcag  23580
gtgagctgcc cacctcggcc tcccaaagtg ctgggattac agttttgtat gg
#tggattcc  23640
atgcagagag agttttttct gtagtctaga ttagcagtcc ccagcctttt tg
#gcaccagg  23700
gaccaaattc ctgggaaaca gtttttccac aggtgggagt gggatggttt gg
#ggatgaaa  23760
cttttccacc ttagattatc acgcattagt tagaatctca taagaagcgc gc
#aacctaga  23820
tcccttgcat ttgcagttca caatagggtt catgatcctc tgagaatcta at
#gccacccc  23880
tgatgtgaca ggagtgggag ctcaggcgat aatgctccct tgtctgctgt tc
#acctcctg  23940
ctatgcagcc cggttcctaa caggctgaga ggaccagtac cattctgtgg cc
#tgggcgtt  24000
ggggacccct gttctagatg atccacattc ttttaaatgc ctatatacaa ac
#catacttt  24060
ctttatttct tttctttttt tgagacagtc ttactctgtc acccaggcta ga
#gtgcaatt  24120
gcgtgatctt ggcacactgc aacctctgcc tcccaagttc aagtgattct cc
#tgcctcag  24180
cctcccgagt agttaggact acaggtgtgt cccaccatgc ctggctaatt tt
#ttatattt  24240
gtatttttta atttttattt atttatttat ttttttgaga tggagtctcg ct
#ctgtcacg  24300
caagctggaa tgcaatggca cgatctcggc tcactgcaac ctccgcctcc cg
#agctcaag  24360
cgattctcct gcctcagcct cctgtgtagc tgggattaca ggcacccgcc ac
#gacgcctg  24420
gcttttttgt atttttgtag agacaggttt tcactgtgtt gtccgttctg gt
#ctcaaact  24480
cctgagttca gggaatccac cgccttggcc tcccaaagtg ctgggattac ag
#tcgtgagc  24540
caccgcgccc tgccacaaac catactttga aaacgttgct tccattttta ga
#taatttgt  24600
taggaaacca ataaaatcat acatacttgt gattttccct tagtaaaaca ca
#aattttag  24660
tgttttttgc tgttattatt aatacttcta aagttccttt cacattgcta gt
#gaccttat  24720
ataaaatacc ataatgctct tctagcaatt gctggaaaga taaaatctat tt
#tagagaat  24780
gaacaattat attttcacat tagattaaat taaaagtaat tactggttat gt
#gatattcc  24840
ctcacatacc agagtgagtc tgaaggtagt ctttctttgt aaattatgag gc
#tatatttc  24900
ctgtgttatc tctgatttct cttgatgctg taattggagt tgttgggtct cc
#ctggtgaa  24960
agtaggtgat gtgcaagttg tgtctatacc cagtgaaaat aacagacatt aa
#tgctacac  25020
taatttgtca ttggaatttt acattcaaaa gcatttcttt ttaaaaatat ga
#ttgtaaat  25080
tggtaattta tagttgtata taccaaaggc atttctttaa cgttatagtt gg
#ttcaactg  25140
aaaatacgtt aagtctgttt ttataattag tatattgagg aacagcactt cc
#atcgtgtc  25200
acaatatatt aagaattgcc agcagggcac ggtggctcac gcctataatc cc
#agcacttt  25260
gggaggccta ggcgggagga tcacctgaag ccaggagtcg agaccagcct gg
#ctaacgtg  25320
gccaaacccc tatctactaa aaatacaaaa attagccagg tgtgatggcg gg
#tgcctgta  25380
gtcccagcta ctcgggaggc tgaggcagga gaatccagaa ttgaattgaa cc
#caggagac  25440
ggaggttgca gtgagccaag attgtgccat tgcactccag cctggacaac ac
#agcgagac  25500
tcagtctttt ttatttttat ttttattttt gagacggagt ttcgctcttg tt
#gcccaggc  25560
tggagtgcaa tggcacagtc tcggctccct gcaacttctg cctcccgggt tc
#aagcgatt  25620
cacctacctc agcctcccga ctagctggga ttacaggcat gtgccaccac gc
#ccggctaa  25680
tttttgtatt tttagtagag atgggatttc tccatgttgg tcagacttgt ct
#cggactcc  25740
caacctctgg tgatctgccc gcctcggctt cccaaagtgc tgggattaca gg
#catgagcc  25800
accgtgcgtg tccttttttt tttttttatc ttttgagaca gggtctcact ct
#gttggcta  25860
ggctggagtg cagtgatgca gtcacaactc actgcagcct caacctccca gt
#ctcaagca  25920
atacccccac ctctgcccct ttgagtaggc tgggactaca ggtgtgtgcc tt
#cataccta  25980
gctaattttt tttgttttgt tttttgagac agtcttgccc catcgcccag gc
#tggagtgc  26040
agtggtgcca tctcggctca ctgaaagctc cgcctcccgg gttcacgcca tt
#ctcctgcc  26100
tcagcctccc gagtaactgg gaccacaggt gcccgccacc acacccggct aa
#ttttttgt  26160
atttttagta gagacggggt ttcaccatgt tagccaggat agtctcgttc tc
#ctgacctc  26220
atgatccgcc tgccttggcc tcccaaagtg ctgggattac aggtgtgagc ca
#ctgcacct  26280
ggccatgccc agctaatttt tgtatttttt tgtagggatg ggatggcact at
#gttcccta  26340
ggctagtctt taattcttgg gttcaagtgg tcctcctgcc tcggcctccc aa
#agtgttgg  26400
gattacaggt gtgagccact gtgccgagcc aggttgtgtg tgtgtgtatg ta
#tgtatgta  26460
tgtatgtatg tatgtatgta tgtatgtttg tatatattta tatttatttt tt
#tggaactg  26520
catctcactt tcatccaggc ccgaatgcag tgacatgatc tcagctcact gc
#aacttctg  26580
cctcctgggt tcaagcgatt cttttttttt tttttttttt ttgagacgga gt
#ctccctct  26640
gtcgccaggt tcactgcaag ctctggctcc cgggttcacg ccattctcct gc
#ctcagcct  26700
cccaagtagc tgggactaca gatgcccacc agcatgcctg gctaattttt tg
#tattttta  26760
gtagagatgg ggtttcactg gggtttcacc atgttagcca ggatggtctt ga
#tctcctga  26820
ccttgtgatc cgcccgcctc tgcttcccaa agtgctggga ttacaggcgt ga
#gccactgc  26880
gcctggccat ttcttttttt tttttggcaa gtgattcttg tgcctcagcc tc
#ccgagtag  26940
ctgaaattat aggcgtgtgc cctcaacgcc tgggtaattt ttgtattttt ag
#tagagaca  27000
gggtttcacc atgttggaca ggctggtctc aaactcctgg cctcaagtga tc
#caccctcc  27060
tcagcctccc aaagtgctgg gataacagct gtgagccacc gtgcccttcc ca
#ggttttat  27120
atttattctt ttttcctttt aaattatgtt tttatttagg tattgtacgt aa
#agtgcttt  27180
tctaacagag ctttggggca gaagtgttag ggcaggtcat taaaccactg aa
#attagttc  27240
tttggaggag aagataattg ttagagttgt aagtgaagtc ttgatagata cc
#ttatcaat  27300
ttcatagtaa tgtctgtgga atttcttttt ctgttttttt tttttttaat ta
#tttcttga  27360
ggattaactg ctgatagtgg aatatcatat atatagttgg ctcttgatgt ac
#ttatttct  27420
ggatggcttt ccaaaaggat tttaccattt tacacacagt tctaaatagt at
#atgaattt  27480
agcatttgtc ccacacttag atagcactga tttttttttt tattaagtgg gt
#gcaaaatg  27540
ctactacaag attgctttaa ttactacagt tttattgatg aaaatgattt ct
#acttgttt  27600
actgtttgta tttttttcta ggagttttgt gtctatattc tttgctgatg ta
#tctttttg  27660
gatttaatgt tttatacata ttaaatttct gtctcattgg atataaatat tt
#tcccaatc  27720
tggttttcat tttagttaat gattttctgt agttgtatag tcaaagtttc at
#ttattata  27780
tagctagatc tgtgttttcg agtgatttat tgattcaaag cttattgtgc tt
#ctagatat  27840
ttgataaact gactttagac tcttgtaaaa atttgaagaa ctcatatcta ct
#acagtctt  27900
actgatttaa taggggtttt aatatccagt actatgctaa taatttttat ag
#tgttttta  27960
cgacaatttt ttgagaacat aagtttttag agctgtggat ggaatgtttt ct
#gctctatc  28020
agttatccct tctgcgtaac agacccctaa gtgtagcagc ttagaggagt aa
#atatttat  28080
tatctcacat tttgtaagga atcatggagt ggcttagctg gatggtgctg gc
#tcagtctc  28140
tctaatgaat ttacagtcaa gatgtctgcc agggctgcgg tctctgaagg ct
#gtaggatc  28200
cctgtccaag acggctcact catatggatg ctagctcttt gtatgaggcc tg
#ttctttcc  28260
cacttgcact tctccatagg cctgcttact gtatggtagc tggcttttcc cg
#gagtgagt  28320
gatccaagag acagggacag accaagcagg aagatgcagt aactttttat ga
#tgtgtatt  28380
ctattggctg gccacacata ccaagcagat agggaaggga ttacacaaag gc
#atgaatac  28440
catcaggctg ggataattgg gggccagctt ggaatctggc taccatatcc aa
#ccaaataa  28500
gaaattaata gttttaatta aaggaaaagg attatattaa atagacattc gt
#tagttttt  28560
acttttaagc tgacccaatc atttttcaga ttgaagtttt gaatagatat at
#gattaaaa  28620
aatacatgaa aagttaacca gtgaagtgac ctctgtgcca tgtttgctca gg
#taacgcac  28680
ctccaattct tgtgctttcc cggagaccac cttttttaag agaaaggtag tg
#gactgtgc  28740
acacttggtc ttcctttttc acataatggt gtatgttgaa atctttccat tt
#tagagcat  28800
agctttccct ttttaatttt attattatta ttatttttga gacagagtct cc
#ctctgtcg  28860
ccccagctgg aatgcaatgg tgcgatctcg gctcactgca acctccagct cc
#tgggttca  28920
agtgattctc ctgcctcagc cacctgagta gctgggatta cagtcgcctg cc
#accatgct  28980
cggctaattt ttgtattttt agtagcgacg gggtttcacc atgttggcca gg
#ctggtctc  29040
gaactcctga cctcaggtta tccacctacc tcagcctccc aaagtgctgg ga
#ttacaggc  29100
gtgaggcacc gtgcccggca attttttttt tttgagtcag agtcttgttc tg
#ttgcccaa  29160
gttggagtgc agtggtttga tctcggctca ctgcaacctg tacctcctgg gt
#tcaagtga  29220
ttctcctgcc tcagcctccc gagtagctgg gactacaggc atgccccacc at
#gcttggct  29280
aattttgtat tttagtagag actaggtttc tccatgttgg tcaggctcgt gt
#caaactcc  29340
ctacctcagg ggatccgccc accttggcct cccaaagtgc tgggattata ga
#cgttagcc  29400
accgcgcctg gcctaatttt tgtattttca gtagaaattt ttgtatttca ct
#gtattggt  29460
caggctggtc tggaactcct gagctcaggt gatccacccg cctcggcctc cc
#aaagtgct  29520
gggataacag gagtgagcca ctaggtgtga cctaattttt gtatttttag ta
#gagatggg  29580
atttcaccat gtcggctaag ctggtctcga actcctgacc tcaggtgatc tg
#cctgcctt  29640
ggcctcccaa tgtgctggga ttataggcat aagccaccgc actggctttt tt
#tttttttt  29700
tttttttaaa cctggatggt tttattttgc atgaatgtat agatatttcc tg
#ttcataca  29760
ttctgaaagt gaacaactgt atatatgcaa tttattttta ttcttattta tt
#tatttgtt  29820
tattttttga gaccagagtc tcactctgtc gcccaggcta gagtgcaatg ac
#acaatctc  29880
ggttcactgc aacctctgcc tcctgggtta agcaattctt ctgcctcagc tt
#ccccagta  29940
gctgggatta caggtgtccg ctaatttttg tatttttaca aaatacaccc ag
#gtaatttt  30000
ttgtaatttt ggtagagaca ggtttcacca tgtcggccag gctggtctcg aa
#ctcctgac  30060
ctcaggtgat atgcccgact cagcctccca aagtgctggg attacaggtg tg
#agccactg  30120
cgtctggcct gcatggggat tcttaatgaa gattaattat tgtagttgag gg
#ggaaaagg  30180
aataataaat atttattgga ccctaaatac cttcgaatat ggaataccct ag
#gtattcta  30240
gggcatttag ggaccaataa atatttattc ctccgtactc ttccctcgct ct
#tttcagat  30300
tttttttttt tttttttttt ttttgagatg gagtcttgct ctgtctccag gc
#tggagtgc  30360
agtggcgcga tcttggctca ctgcaacctc tgcctcctgg gttgaagtga tt
#ctcttgcc  30420
tcagcctcct gagtggctgg gactacaggt gcataccact atgcccagct aa
#tttttgta  30480
ttttttgtag agacaggctt tcaccatgtt ggccaggatg gtctcgttct tt
#agacctcg  30540
tgatctgtct tcctcagcct cccaaagtgt tggaattaca ggcgtaagcc tc
#cgccgggc  30600
cttttttaga tttttaagag aatttttgtt aaagcatgaa cttaaaaaat ca
#gacttggc  30660
ttggagcggt ggctcatggc ctctagtccc aggactttgg gtggctgagg ca
#agtggatt  30720
gcttgagccc aggagttcaa gacctgcctt ggcaataata tcaagacccc ct
#cttcatga  30780
aaaacaatca agctaatact tgatactatt ttacataaga attttttata gt
#atgtcatg  30840
ttttaatgta tattggttat atagttgcaa atttaaaggc atggtggtgg ct
#catacctg  30900
taatcccagc actttgggag gctggggcgg gcagatcttc tgaggtcagg ag
#ttcaagac  30960
cagcctggcc aacatggtgg aaccccgtct taggctgagg caggagaata gc
#ttgtgccc  31020
aggaggcaga ggttgctttg agctgagatc gcaccacggc attccagcct gg
#aggacaga  31080
gcgagactct gtctctaaat aaataaataa ataaataaat gtatactaac tg
#cattagca  31140
agactccgtc tctaaataaa taagtgaata aataaatgta tactaattgc at
#tttaaaaa  31200
tcaaagtata ggccgggtac ggtggctcac aactgtaatc ctagcacttt tg
#gaggctga  31260
ggtggatgga tcacctgagg tcaggagttt gagaccagcc tgaccaacat gg
#tgaaactt  31320
tgtctctact aaaaatacaa aattagctgg tgtggtggcg catggctgta at
#cccagcta  31380
ctcgggaggc tgaggtagga gaattgcttg aacctgagag gtggaggttg tg
#gtgagcgg  31440
agatcgtgct gttgcactcc agcctgggca acaagagcga aacttcgtct cc
#aagaaaaa  31500
aaaaatatat aattcacata agataaaatt caccctcttt ggccaggcgc ag
#tggctcat  31560
gcctgtaatc ccagcacttt gggaggtaga ggtgggcaga tcacttgagg tc
#agggagtt  31620
tgagaccagc ctggccaaca tggtgaaacc ccatctctac taaaaataca aa
#aattagcc  31680
cggtgtggtg gcatacacct gtaatccacc tactcaggac gctgagtctg ca
#ctcagtcc  31740
ctgggctaca gggtgaaact gtatctcaaa aataaagaat aaaatgcagc ta
#cttaaagg  31800
gtgtagagtt gaacaactgt taccactgtc taattccaga acctttcatc ac
#cccaaaag  31860
aaaacccatt cccagcagtc atttcccatt aagtctcctc tagcccctca ca
#accactaa  31920
tctaattcat gtttctatgt atttgcctat tctaggcgtt tcatacaaat ac
#agtcatat  31980
aatttgtggc ctttcgtgtc tgacttgttt aacttagcat aatgttttaa gg
#cccattta  32040
tgttgttgta tgtatgcata cttcattcca ttttactgct gaatattgct tt
#gtactgat  32100
gccacttttt gtttgtcttt tcatcacttg acggacattt tgtttcttcc ac
#tttgtggc  32160
tgttacaggc agtgctactg tgaaaatttg tattaaagtt ttagcgtgaa ta
#tatgtttt  32220
cagttctctt gggaaaatac ctagaagtgg tattgtcgga tcatagggtc at
#tctatgtt  32280
tagcattttg aggaacagcc agactgtttt acatagtggt tgcaccgttt ta
#cagtccta  32340
ctttagccta tatgggttct aatttctttc tttctttctt tctttctttc tt
#tctttctt  32400
tctttctttc tttctttctt tcttttcttt cttttctttc ttttctttct tt
#tctttctt  32460
tctttctttc tttttttaga acagagtctc cctctgtagc ccaggctgga gt
#gcagtggc  32520
atggtcttgg ctcactgcag cctccgcctc tcgggttcaa gcaattctct gc
#ctcagcct  32580
cccaagtagc ttggactaca ggcgcccgcc accacgcctg gctaatgttt gt
#atttttgg  32640
tagtgacagg gtttcaccac attggccagg ttggtcttga actcctgacc tc
#aggtgatt  32700
cacccacctc ggcctcccaa agtgccgaga ttacaggcat gagccactgc at
#ccgggcgt  32760
gggttctaaa ttcttaatat tctcatcaac atttattgct gtctttttaa tt
#ttagcctg  32820
taatcccagc tactagggcg actgaggtgg tagcatcgct tgagcccagg aa
#gctgaggc  32880
tgcagtgagc caagattgca ccactgcact ccaggctagg tgatgaagtg ag
#acttcatc  32940
tcaaaaaaaa aaaaaaggaa gtaatggcaa aaactggaat tattttgcac ca
#acttaaat  33000
atttagatct ttaatacctt tggaaagttt tttatatata gtttgtgtgt gt
#gtgtgtgt  33060
atatatacac acatatatat atacacacac atatatacac acatatatat ga
#atgatttt  33120
atatatatat atatatatat atatgaatga tatatatata tatatatgaa tg
#aatgaatg  33180
agatggagtc tcactctgtc acccaggcag gagtgcagtg gtgccatttt gg
#cttatggc  33240
agcctccgcc tccggggttc aagtgattct tgtacctcag cctcccgagt tg
#ctgggatt  33300
acaggcactc gccaccatgc ccggattttt tgtcttaatt catgaaggat ga
#attaagtc  33360
tgcagttgtt ctttttccct ttttctttcc agtttttttt tttgtttgtt tg
#tttgtttt  33420
tgagacacag tctcactcgg ttgtccaggc tggagtgcgg tggcagtatc tt
#ggctccct  33480
gtaacccatc tccctggttc aagcgattcc ggtgcctcag cttcccaagt ag
#ctaggatt  33540
acaggtgtgt gacaccacac ctggttaatt tttgtatttt tagtagagac ga
#ggtttcac  33600
cgcattggtt aggttggtct caaaactcct gacctcaggt gaaccgccca cc
#taagcctt  33660
ccaaagtgct gagattacat gcatgagcca ccaagtctgg cctaagtctg aa
#tttttttt  33720
tttttttttt tgagacggag tttcgctctt gttgcccagg ctggagtgca at
#ggtgcgat  33780
cttggctaac cgcaacctcc gcctcccacg ttcaagcaat tctgcctcag cc
#tcccgagt  33840
agctgggatt gcaggcatat accaccacgc ctggctaatt ttgtattttt gt
#tagagatg  33900
gggtttctcc gtgttgagac tggtctcgaa ctcctgacct caggtgatcc gc
#ctgcctcg  33960
gcctcccaaa gtgctgggat tacaggtgtg aaccactgca cccggccgaa ta
#tatttttt  34020
ttttttttaa atggagtctc gctctgtggc ccaggctgga atgcagcggt gt
#gatcttag  34080
ctcactgcaa cctctgcctc cctggctcaa gcgattctcc tgcttcagcc tc
#ctgagtac  34140
ctgggaccac aggtgtgcac caccatgcct gaataatttt tttgtgtttt tg
#tagagatg  34200
gagtttcacc atgttggcca ggctgatctc gaactactga cctcaggtga tg
#tgcctgcc  34260
tccgccttcc caagtgctgg gattacaggc atgagctact gtacccggct aa
#gtgtacag  34320
tgttcttgtg atgtctttgt ctggtgttgg tatcagggta atactgtctt ca
#agattacc  34380
cttgaatgag ctttacttca ttttttaatg tgtttttttt tcttttcttt tg
#ttttttgt  34440
ttttgagaca gagtttcact ctgtcgcaca ggctggaatc cacactctag gc
#tcgctgca  34500
gcctccacct cccaggttca agagattctc ctgtgtcagc ctcttgagta gc
#tggggtta  34560
caggcacgtg ccacgacgcc cggctgattt ttttgtattt ttagtagtga cg
#ggctttca  34620
ccatgttggc caggctggtc tcgaactcct gacatcaagt gacctgcctt cc
#tcagcctc  34680
ccaaagtgtt gggattacag gagtgagcca ctgtgccccg cctgcaatta ct
#tcttaagt  34740
tctcaattaa aagagagttt atcaaggact ttttttggta attttgcatt tt
#gaaaattg  34800
ctaacattaa ctgggacagc ccttttattt atttatttgt cactcagttg tt
#tttttgag  34860
ttgcctacta tgtcccaggc actggtaaga taggagtatc attgtacctg ag
#gcagggca  34920
acatgtgctt gcttgagagg agcatgatct aggattataa ggactgcaac ct
#ccccttcc  34980
caggttgaag cagttctcat gcctcagcct cccaagtagc tgggactaca gc
#catgagcc  35040
accacgccca gctaattttt gtgtttttag tagagatgag gtttccccat gt
#tggccagg  35100
ctagtctcaa cttctggacc tcaggtgatc tgcccacttc agcctcccaa ag
#tgctgaaa  35160
ttacaggagt aattttattc tcccaaagct gctgctttgg gagaataaaa ag
#ttgagtat  35220
gggccaggca tgggggctga tgcctgtgat cgcagcactt taggagactg ag
#gtgggagt  35280
ctagcttgag cccagtagtt tgagacaagc ctggggaaca tagggagatc cg
#gcctctac  35340
aaaaaaaata aattagctgg gtggagtggc atgtgcctgt ggtcccagct ac
#ttgggtgg  35400
ttgaggtggg aagatatctg agctcaggag ttccaggctg cagtgagctc tg
#attatgca  35460
ctccagcctg ggtgacagag tgagatgctg tctcaaaaaa aaaaattcag tg
#tggcgtga  35520
ttaggctggg agggtggggc aggaagggat gacattggag gggtaggcaa gg
#tgtagata  35580
gacctttccc tatattctcc tatttttaaa aaattttttt ctaaatagag at
#agggtctt  35640
actattttgc ccaggctggg tctcaaactc ctgggctcaa gtaatccttc ca
#tctaggcc  35700
tctatttttt gtgcaaacga ttgaaattat atttttttta cctgaatttt tc
#ctgtgaac  35760
attgggttat ttataaacct gttttctgtt tctttctttc tttttttttt tt
#tttgtttt  35820
tgttttttga gatagagtcc agcctggagt gctgtggcat gatcttggca ca
#cttgcaac  35880
ctctgcctcc tgggttcagg tgattctcct cctctagcct cctccacgcc tg
#gctaatat  35940
ttgtattttt agtagagatg gggtttcacc catgttggcc gggctgttct tg
#aactcctg  36000
gtttcaacag atccacctgc ctcagcctgc caaagtgctg agattacagg tg
#tgagccac  36060
tgttctaggc acttgtttct gtttcttaat tttggctgct actcagtggg aa
#aaagcaca  36120
gattgaatct aattgaggcc gggcgctgtg gctcactcct gtaatttcag ca
#ctttggga  36180
ggctgaggtg ggcagatcac ctgagatcca gagttcgaga ctagcctggc ca
#acatgggg  36240
aaacctcatc tctactaaaa acacaaaaat tagttgggcg tggtggctca tg
#gctgtagt  36300
cccagctact cgggaggctg aggcatgaga attgcttcaa cccgggaggt gg
#aggttgca  36360
gtgagctgag atcaggacac tgccctccag gttgggcaag agagtgagac tc
#ggtcttaa  36420
aaaaaaaaaa aaatctagtt gaaaaatgtc atcgggtctt tccaaatttt ta
#ctaggaat  36480
ttgttaaaat taaccaggct ggaagtcatt atagtttgtt tgtttgtttg tt
#tgtttgag  36540
atgggggtct cactctgtca cgcaggctgg agttcagtgg taggatctcg gc
#tcactgca  36600
acctctgcat cccagattca agcgatcctc tcacctctgc ctcatgagta gt
#tggaacca  36660
caggcatgtg tcaccatgct tttgtagaga cagggtttct ttcgccctgt tg
#gctaggct  36720
ggtctcaaac ttgtgagctc aagcgatccg cccaccttgg cctcccaaag tg
#ctgggatt  36780
acaggcatga gttaccttgc cttgcccatt atagcttttt tgaggctggg tc
#ttactctc  36840
tgtcatgcag gctggactgc agtggtgtga tctaagctca ctgcctcctg gg
#ctcaagca  36900
gtcctcccac ctcagcctcc tgagtagctg gcacaggcgc tacctcaccc at
#ctaatttt  36960
ttattttttt tagagatggg gttttgccat gtttgcccag gctggtctag aa
#ttcatgag  37020
ctcaagtgat ctacctgcct cggcctccca atgtgctggg attacagaca tg
#agccacta  37080
tgttcagcca tacctggcta atttttaaaa aatgttttca agagacaggg tc
#tccctgtg  37140
ttgcccaggt tggtctcaag ttcctgggat tactgctggc cttcaaaagt aa
#atgtgaaa  37200
taattagtta atttctccct cagttgacaa ataatgccaa aagtgataaa ga
#ttaatgaa  37260
atgtctcttt tttttttttt tttttgagac ggagtctcgt tctgttgcca ag
#tctggaat  37320
gcagtggcac gatctcggct cactgcaacg tccacctact gggttcaagt ga
#ttctcctg  37380
cctcagcctc ccgagtagct gggactacag gcacgcatca ccatgcccgg ct
#aatttttg  37440
tatttttagt agagacgggg tttcactatg ttggccaggc tggtcttgaa ct
#cctgacct  37500
catgatccac ccaccttggc ctcccaaagt gctgggatta caggcatgag cc
#accgcgcc  37560
cagccatgaa atttcttacg tagaaaggca gcttgggatt gtagaaagaa tg
#taggcttt  37620
ggagttggac aggcctccat ttgagaccat acttgagtcc cgtgcttgcc tt
#agacaaag  37680
aacctctcaa ccttagtttt taatctataa ggtgttttga aaattaattc ct
#agttcagt  37740
acatggcaca tggtaggtac ctgctgctat ccataattct cttagttaat at
#attcggtg  37800
ccacatgcca ggcagccagg atctgtacta agcacctaat aagtattatc tc
#atttaatc  37860
ctcaaaagaa ccccacctga gttgctagac agccattatt tcagggttac ac
#attaggaa  37920
attgaagctt agagagattt aagtggttag ccaagtgatg gtgctggtat tc
#caactaag  37980
gtcatctgct ttcagagcat ttactttctg ttaggctgcc tctcctgttg ca
#aagtacta  38040
agaacacaac tacataatgt atttttagtg gattcttgtc tttttgtaaa ta
#gaaggtta  38100
aaatgagagg aatttttttt ttgtttggga gacgtggtct cgctctgatg ag
#agctagaa  38160
atttgattac ttgtatttct ggtctgcata aaaatttggc ctaaaaacat ca
#atagaaag  38220
gcaagtgtca tctgcaaatc tgtcccatcc tgttcttcac aggaaaatgt aa
#cctttttt  38280
tttttttttt tctttttttg agatggagtc tagctctgtt gcccaagctg ga
#gtgcaatg  38340
gcatggtttc ccgctcactg caacctctgc cttctgggtt ctagcagttc tc
#ctgcctca  38400
gcctcctgag tagctgggat tacaggcgcc tgccaccatg cctggctaat tt
#ttgtattt  38460
ttagtagaga cagggtttca ccatgttggc caggctggtc tttaactcct ga
#cctcaggt  38520
gatccgcctg cctcggcctc ccaaagtgct gggatcacag gtgtgagcca ct
#gcgcccgg  38580
gctcaaaatg taacgtctgt ctagtatgag gatttatttc cttgtctgac tt
#ctgagttg  38640
taatcgttta ttaacaatca cattgtaagt ttatctatga agtaataaaa tg
#ttctttct  38700
gtatattata ctggaaatga atgcttcatt caaaaaatag ttttatcttg gg
#aaggtagc  38760
cactttttaa aaattgaggt aaaacggcca ggcacggtgg ctcacgccca ta
#attccagc  38820
actttgggag gccaaggtgg gtggagatca cctgaggtca gaagttcaag ac
#cagcctgg  38880
ccaatatggt gaaactccat ctctactaaa atacaaaaat tagaccggca tg
#gtggcagg  38940
tgcctgtaat cccagctact caggaagctg aggcaggaga atcgcttgaa cc
#caggaggt  39000
ggaggttaca gtgagccgag atcctgccgc tgcattgaag cctgggtgag aa
#gagcgaaa  39060
ctctgtctca ttaaaaaaaa aaaaaaagag gtaaaattta aataacttaa gg
#ctgattgt  39120
attggcttac acttgtaatt ccagcatttt gggagaccaa ggcaggagga tc
#acttgaac  39180
tcagaagttt gagaccagcc tggtcaacat agggaaacct catctccaca aa
#aaataaaa  39240
aataaaatat aaaaacttca aaattaaata agttacagtt caccattgta ac
#cattttat  39300
tttatcctat ttattttgag acagtcttgt tttgtcaccc aggctggagt ac
#agtggtgg  39360
gatcacagct cactacagcc tccaccttcc aggttcaagt gattcttctg cc
#tcagcctc  39420
tgtaactggg attacaggtg cttgccacca caccctgcta atttttgtat tt
#tgattaga  39480
gacagggttt caccatgttg gcccgattgg tctcgaactc ctgagctcaa gt
#gatctgcc  39540
tgtcttggcc tcccaaaatg agccaccgtg cctgtcccct tagtctactt ta
#aaattcaa  39600
tttgcctttt ttttaaattg taagaattcc ttatatattt tggatattaa at
#ccttaact  39660
agggatatga ttcgcaaatt tttttccccc attctgtttc tgtaggctct tt
#gacattct  39720
ttttct
#
#
#        39726
<210> SEQ ID NO 2
<211> LENGTH: 8511
<212> TYPE: DNA
<213> ORGANISM: human chromosome
<400> SEQUENCE: 2
ggtgcggcga gcggccccgc tctctcccca ccgctccgct cgcaccccag tg
#taatgagg     60
gtcaccccct ccccccagct ggcccgggag ggggcgcggg gcacggttga tg
#ccggccca    120
ggatggatca gacctgtgaa ctacccagaa gaaattgtct gctgcccttt tc
#caatccag    180
tgaatttaga tgcccctgaa gacaaggaca gccctttcgg taatggtcaa tc
#caattttt    240
ctgagccact taatgggtgt actatgcagt tatcgactgt cagtggaaca tc
#ccaaaatg    300
cttatggaca agattctcca tcttgttaca ttccactgcg gagactacag ga
#tttggcct    360
ccatgatcaa tgtagagtat ttaaatgggt ctgctgatgg atcagaatcc tt
#tcaagacc    420
ctgaaaaaag tgattcaaga gctcagacgc caattgtttg cacttccttg ag
#tcctggtg    480
gtcctacagc acttgctatg aaacaggaac cctcttgtaa taactcccct ga
#actccagg    540
taaaagtaac aaagactatc aagaatggct ttctgcactt tgagaatttt ac
#ttgtgtgg    600
acgatgcaga tgtagattct gaaatggacc cagaacagcc agtcacagag ga
#tgagagta    660
tagaggagat ctttgaggaa actcagacca atgccacctg caattatgag ac
#taaatcag    720
agaatggtgt aaaagtggcc atgggaagtg aacaagacag cacaccagag ag
#tagacacg    780
gtgcagtcaa atcgccattc ttgccattag ctcctcagac tgaaacacag aa
#aaataagc    840
aaagaaatga agtggacggc agcaatgaaa aagcagccct tctcccagcc cc
#cttttcac    900
taggagacac aaacattaca atagaagagc aattaaactc aataaattta tc
#ttttcagg    960
atgatccaga ttccagtacc agtacattag gaaacatgct agaattacct gg
#aacttcat   1020
catcatctac ttcacaggaa ttgccatttt gtcaacctaa gaaaaagtct ac
#gccactga   1080
agtatgaagt tggagatctc atctgggcaa aattcaagag acgcccatgg tg
#gccctgca   1140
ggatttgttc tgatccgttg attaacacac attcaaaaat gaaagtttcc aa
#ccggaggc   1200
cctatcggca gtactacgtg gaggcttttg gagatccttc tgagagagcc tg
#ggtggctg   1260
gaaaagcaat cgtcatgttt gaaggcagac atcaattcga agagctacct gt
#ccttagga   1320
gaagagggaa acagaaagaa aaaggatata ggcataaggt tcctcagaaa at
#tttgagta   1380
aatgggaagc cagtgttgga cttgcagaac agtatgatgt tcccaagggg tc
#aaagaacc   1440
gaaaatgtat tcctggttca atcaagttgg acagtgaaga agatatgcca tt
#tgaagact   1500
gcacaaatga tcctgagtca gaacatgacc tgttgcttaa tggctgtttg aa
#atcactgg   1560
cttttgattc tgaacattct gcagatgaga aggaaaagcc ttgcgctaaa tc
#tcgagcca   1620
gaaagagctc tgataatcca aaaaggacta gtgtgaaaaa gggccacata ca
#atttgaag   1680
cacataaaga tgaacggagg ggaaagattc cagagaacct tggcctaaac tt
#tatctctg   1740
gggatatatc tgatacgcag gcctctaatg aactttccag gatagcaaat ag
#cctcacag   1800
ggtccaacac tgccccagga agttttctgt tttcttcctg tggaaaaaac ac
#tgcaaaga   1860
aagaatttga gacttcaaat ggtgactctt tattgggctt gcctgagggt gc
#tttgatct   1920
caaagtgttc tcgagagaag aataaacccc aacgaagcct ggtgtgtggt tc
#aaaagtga   1980
agctctgcta tattggagca ggtgatgagg aaaagcgaag tgattccatt ag
#tatctgta   2040
ccacttctga tgatggaagc agtgacctgg atcccataga acacagctca ga
#gtctgata   2100
acagtgtcct tgaaattcca gatgctttcg atagaacaga gaacatgtta tc
#tatgcaga   2160
aaaatgaaaa gataaagtat tctaggtttg ctgccacaaa cactagggta aa
#agcaaaac   2220
agaagcctct cattagtaac tcacatacag accacttaat gggttgtact aa
#gagtgcag   2280
agcctggaac cgagacgtct caggttaatc tctctgatct gaaggcatct ac
#tcttgttc   2340
acaaacccca gtcagatttt acaaatgatg ctctctctcc aaaattcaac ct
#gtcatcaa   2400
gcatatccag tgagaactcg ttaataaagg gtggggcagc aaatcaagct ct
#attacatt   2460
cgaaaagcaa acagcccaag ttccgaagta taaagtgcaa acacaaagaa aa
#tccagtta   2520
tggcagaacc cccagttata aatgaggagt gcagtttgaa atgctgctct tc
#tgatacca   2580
aaggctctcc tttggccagc atttctaaaa gtgggaaagt ggatggtcta aa
#actactga   2640
acaatatgca tgagaaaacc agggattcaa gtgacataga aacagcagtg gt
#gaaacatg   2700
ttttatccga gttgaaggaa ctctcttaca gatccttagg tgaggatgtc ag
#tgactctg   2760
gaacatcaaa gccatcaaaa ccattacttt tctcttctgc ttctagtcag aa
#tcacatac   2820
ctattgaacc agactacaaa ttcagtacat tgctaatgat gttgaaagat at
#gcatgata   2880
gtaagacgaa ggagcagcgg ttgatgactg ctcaaaacct ggtctcttac cg
#gagtcctg   2940
gtcgtgggga ctgttctact aatagtcctg taggagtctc taaggttttg gt
#ttcaggag   3000
gctccacaca caattcagag aaaaagggag atggcactca gaactccgcc aa
#tcctagcc   3060
ctagtggggg tgactctgca ttatctggcg agttgtctgc ttccctacct gg
#cttactgt   3120
ccgacaagag agacctccct gcttctggta aaagtcgttc agactgtgtt ac
#taggcgca   3180
actgtggacg atcaaagcct tcatccaaat tgcgagatgc tttttcagcc ca
#aatggtaa   3240
agaacacagt gaaccgtaaa gccttaaaga ccgagcgcaa aagaaaactg aa
#tcagcttc   3300
caagtgtgac tcttgatgct gtactgcagg gagaccgaga acgtggaggt tc
#attgagag   3360
gtggggcaga agatcctagt aaagaggatc cccttcagat aatgggccac tt
#aacaagtg   3420
aagatggtga ccatttttct gatgtgcatt tcgatagcaa ggttaagcaa tc
#tgatcctg   3480
gtaaaatttc tgaaaaagga ctctcttttg aaaacggaaa aggcccagag ct
#ggactctg   3540
taatgaacag tgagaatgat gaactcaatg gtgtaaatca agtggtgcct aa
#aaagcggt   3600
ggcagcgttt aaaccaaagg cgcactaaac ctcgtaagcg catgaacaga tt
#taaagaga   3660
aagaaaactc tgagtgtgcc tttagggtct tacttcctag tgaccctgtg ca
#ggaggggc   3720
gggatgagtt tccagagcat agaactcctt cagcaagcat acttgaggaa cc
#actgacag   3780
agcaaaatca tgctgactgc ttagattcag ctgggccacg gttaaatgtt tg
#tgataaat   3840
ccagtgccag cattggtgac atggaaaagg agccaggaat tcccagtttg ac
#accacagg   3900
ctgagctccc tgaaccagct gtgcggtcag agaagaaacg ccttaggaag cc
#aagcaagt   3960
ggcttttgga atatacagaa gaatatgatc agatatttgc tcctaagaaa aa
#acaaaaga   4020
aggtacagga gcaggtgcac aaggtaagtt cccgctgtga agaggaaagc ct
#tctagccc   4080
gaggtcgatc tagtgctcag aacaagcagg tggacgagaa ttctttgatt tc
#aaccaaag   4140
aagagcctcc agttcttgaa agggaggctc cgtttttgga gggccccttg gc
#tcagtcag   4200
aacttggagg tggacatgct gagttgccgc agctgacctt gtctgtgcct gt
#ggctccgg   4260
aagtctctcc acggcctgcc cttgagtctg aggaattgct agttaaaacg cc
#aggaaatt   4320
atgaaagtaa acgtcaaaga aaaccaacta agaaacttct tgaatccaat ga
#tttagacc   4380
ctggatttat gcccaagaag ggggaccttg gcctttctaa aaagtgctat ga
#agctggtc   4440
acctggagaa tggcataact gaatcttgtg ccacatctta ttcaaaagat tt
#tggtggag   4500
gcactaccaa gatatttgac aagccaagga agcgaaaacg acagaggcat gc
#tgcagcca   4560
agatgcagtg taaaaaagtg aaaaatgatg actcgtcaaa agagattcca gg
#ctcagagg   4620
gagaactaat gcctcacagg acggccacaa gccccaagga gactgttgag ga
#aggtgtag   4680
aacacgatcc cgggatgcct gcctctaaaa aaatgcaggg tgaacgcggt gg
#aggagctg   4740
cactcaagga gaatgtctgt cagaattgtg aaaaattggg tgagctgctg tt
#atgtgagg   4800
ctcagtgctg tggggctttc cacctggagt gccttggatt gactgagatg cc
#aagaggaa   4860
aatttatctg caatgaatgt cgcacaggaa tccatacctg ttttgtatgt aa
#gcagagtg   4920
gggaagatgt taaaaggtgc cttctaccct tgtgtggaaa gttttaccat ga
#agagtgtg   4980
tccagaagta cccacccact gttatgcaga acaagggctt ccggtgctcc ct
#ccacatct   5040
gtataacctg tcatgctgct aatccagcca atgtttctgc atctaaaggt cg
#gctgatgc   5100
gctgtgtccg ctgtcctgtg gcataccacg ccaatgactt ttgcctggct gc
#tgggtcaa   5160
agatccttgc atctaatagt atcatctgcc ctaatcactt tacccctagg cg
#gggctgcc   5220
gaaatcatga gcatgttaat gttagctggt gctttgtgtg ctcagaagga gg
#cagccttc   5280
tgtgctgtga ttcttgccct gctgcttttc atcgtgaatg cctgaacatt ga
#tatccctg   5340
aaggaaactg gtattgcaac gactgtaaag caggcaaaaa gccacactac ag
#ggagattg   5400
tctgggtaaa agttggacga tacaggtggt ggccagctga gatctgccat cc
#tcgagctg   5460
ttccttccaa cattgataag atgagacatg atgtgggaga gttcccagtc ct
#cttttttg   5520
gatctaatga ctatttgtgg actcaccaag cccgagtctt cccttacatg ga
#gggtgacg   5580
tgagcagcaa ggataagatg ggcaaaggag tggatgggac atataaaaaa gc
#tcttcagg   5640
aagctgcagc aaggtttgag gaattaaagg cccaaaaaga gctaagacag ct
#gcaggaag   5700
accgaaagaa tgacaagaag ccaccacctt ataaacatat aaaggtaaac cg
#tcctattg   5760
gcagggtaca gatcttcact gcagacttat ctgaaatacc ccgttgcaac tg
#taaagcta   5820
ctgatgagaa cccctgtggg atagactctg aatgcatcaa ccgcatgctg ct
#ctatgagt   5880
gccaccccac agtgtgtcct gccggagggc gctgtcaaaa ccagtgcttt tc
#caagcgcc   5940
aatatccaga ggttgaaatt ttccgcacat tacagcgggg ttggggtcta cg
#gacaaaaa   6000
cagatattaa aaagggtgaa tttgtgaatg agtatgtggg tgagcttata ga
#tgaagaag   6060
aatgcagagc tcgaattcgc tatgctcaag aacatgatat cactaatttc ta
#tatgctca   6120
ccctagacaa agaccgaatc attgatgctg gtcccaaagg aaactatgct cg
#gttcatga   6180
atcattgctg ccagcccaac tgtgaaacac agaagtggtc tgtgaatgga ga
#tacccgtg   6240
taggcctttt tgcactaagt gacattaaag caggcactga acttaccttc aa
#ctacaacc   6300
tagaatgtct tgggaatgga aagactgttt gcaaatgtgg agccccgaac tg
#cagtggct   6360
tcttgggtgt aaggccaaag aatcaaccca ttgccacgga agaaaagtca aa
#gaaattca   6420
agaagaagca acagggaaag cgcaggaccc agggtgaaat cacaaaggag cg
#agaagatg   6480
agtgttttag ttgtggggat gctggccagc tcgtctcctg caagaaacca gg
#ctgcccaa   6540
aagtttacca cgcagactgt ctcaatctga ccaagcgacc agcagggaaa tg
#ggaatgtc   6600
cgtggcatca gtgtgacatc tgcgggaagg aagcagcctc cttctgtgag at
#gtgcccca   6660
gctccttttg taagcagcat cgagaaggga tgcttttcat ttccaaactg ga
#tgggcgtc   6720
tgtcttgtac tgagcatgac ccctgtgggc ccaatcctct ggaacctggg ga
#gatccgtg   6780
agtatgtgcc tcccccagta ccgctgcctc cagggccaag cactcacctg gc
#agagcaat   6840
caacaggaat ggctgctcag gcacccaaaa tgtcagataa acctcctgct ga
#caccaacc   6900
agatgctgtc gctctccaaa aaagctctgg cagggacttg tcagaggcca ct
#gctacctg   6960
aaagacctct tgagagaact gactccaggc cccagccttt agataaggtc ag
#agacctcg   7020
ctgggtcagg gaccaaatcc caatccttgg tttccagcca gaggccactg ga
#caggccac   7080
cagcagtggc aggaccaaga ccccagctaa gcgacaaacc ctctccagtg ac
#cagcccaa   7140
gctcctcacc ctcagtcagg tcccaaccac tggaaagacc tctggggacg gc
#tgacccaa   7200
ggctggataa atccataggt gctgccagcc caaggcccca gtcactggag aa
#aacctcag   7260
ttcccactgg cctgagactt ccgccgccag acagactgct cattactagc ag
#tcccaaac   7320
cccagacttc agacaggcct actgacaaac cccatgcctc tttgtcccag ag
#actcccac   7380
ctcctgagaa agtactatca gctgtggtcc agacccttgt agctaaagaa aa
#agcactga   7440
ggcctgtgga ccagaatact cagtcaaaaa atagagctgc tttggtgatg ga
#tctcatag   7500
acctaactcc tcgccagaag gagcgggcag cttcacctca tcaggtcaca cc
#acaggctg   7560
atgagaagat gccagtgttg gagtcaagtt catggcctgc cagcaaaggt ct
#ggggcata   7620
tgccgagagc tgttgagaaa ggctgtgtgt cagatcctct tcagacatct gg
#gaaagcag   7680
cagccccttc agaggacccc tggcaagctg ttaaatcact cacccaggcc ag
#acttcttt   7740
ctcagcctcc tgccaaggcc tttttatatg agccaacaac tcaggcctca gg
#aagagctt   7800
ctgcaggggc tgagcagacc ccagggcctc ttagccaatc cccgggcctg gt
#gaagcagg   7860
cgaagcagat ggtcggaggc cagcaactac ctgcacttgc cgccaagagt gg
#gcaatctt   7920
ttaggtctct cgggaaggcc ccagcctccc tccccactga agaaaagaag tt
#ggtaacca   7980
cagagcaaag tccctgggcc ctgggaaaag cctcatcacg ggcagggctc tg
#gcccatag   8040
tggctggaca gacactggca cagtcttgct ggtctgctgg gagcacacag ac
#attggcac   8100
agacttgctg gtctcttgga agagggcaag accccaaacc agagcaaaat ac
#acttccag   8160
ctcttaacca ggctccttcc agtcacaagt gtgcagaatc agaacagaag ta
#gtaccaat   8220
caatgtcaca tgaacaaaca agctgccccc agggtaccat ttggggaggg ga
#aatctttt   8280
ctttctttcc cccttaaaaa aaaacacatc tgccccgaac actttcccac tg
#ttattctt   8340
tcctcatatc ccaacactca gaactcttgt gacattagcc agtgggggct ta
#tggttgtg   8400
tgaaccatgt atgaaaatcc agtgggcccc aaccaaggag acagacagac tt
#gggtctct   8460
ttcccccaac ttttccacat ggtcatcgtg aaataaaaag tccactctgg a
#           8511
<210> SEQ ID NO 3
<211> LENGTH: 309
<212> TYPE: PRT
<213> ORGANISM: human chromosome
<400> SEQUENCE: 3
Met Asp Gln Thr Cys Glu Leu Pro Arg Arg As
#n Cys Leu Leu Pro Phe
1               5
#                10
#                15
Ser Asn Pro Val Asn Leu Asp Ala Pro Glu As
#p Lys Asp Ser Pro Phe
20
#            25
#            30
Gly Asn Gly Gln Ser Asn Phe Ser Glu Pro Le
#u Asn Gly Cys Thr Met
35
#        40
#        45
Gln Leu Ser Thr Val Ser Gly Thr Ser Gln As
#n Ala Tyr Gly Gln Asp
50
#    55
#    60
Ser Pro Ser Cys Tyr Ile Pro Leu Arg Arg Le
#u Gln Asp Leu Ala Ser
65
#70
#75
#80
Met Ile Asn Val Glu Tyr Leu Asn Gly Ser Al
#a Asp Gly Ser Glu Ser
85
#                90
#                95
Phe Gln Asp Pro Glu Lys Ser Asp Ser Arg Al
#a Gln Thr Pro Ile Val
100
#           105
#           110
Cys Thr Ser Leu Ser Pro Gly Gly Pro Thr Al
#a Leu Ala Met Lys Gln
115
#       120
#       125
Glu Pro Ser Cys Asn Asn Ser Pro Glu Leu Gl
#n Val Lys Val Thr Lys
130
#   135
#   140
Thr Ile Lys Asn Gly Phe Leu His Phe Glu As
#n Phe Thr Cys Val Asp
145                 1
#50                 1
#55                 1
#60
Asp Ala Asp Val Asp Ser Glu Met Asp Pro Gl
#u Gln Pro Val Thr Glu
165
#               170
#               175
Asp Glu Ser Ile Glu Glu Ile Phe Glu Glu Th
#r Gln Thr Asn Ala Thr
180
#           185
#           190
Cys Asn Tyr Glu Thr Lys Ser Glu Asn Gly Va
#l Lys Val Ala Met Gly
195
#       200
#       205
Ser Glu Gln Asp Ser Thr Pro Glu Ser Arg Hi
#s Gly Ala Val Lys Ser
210
#   215
#   220
Pro Phe Leu Pro Leu Ala Pro Gln Thr Glu Th
#r Gln Lys Asn Lys Gln
225                 2
#30                 2
#35                 2
#40
Arg Asn Glu Val Asp Gly Ser Asn Glu Lys Al
#a Ala Leu Leu Pro Ala
245
#               250
#               255
Pro Phe Ser Leu Gly Asp Thr Asn Ile Thr Il
#e Glu Glu Gln Leu Asn
260
#           265
#           270
Ser Ile Asn Leu Ser Phe Gln Asp Asp Pro As
#p Ser Ser Thr Ser Thr
275
#       280
#       285
Leu Gly Asn Met Leu Glu Leu Pro Gly Thr Se
#r Ser Ser Ser Thr Ser
290
#   295
#   300
Gln Glu Leu Pro Phe
305
<210> SEQ ID NO 4
<211> LENGTH: 2696
<212> TYPE: PRT
<213> ORGANISM: human chromosome
<400> SEQUENCE: 4
Met Asp Gln Thr Cys Glu Leu Pro Arg Arg As
#n Cys Leu Leu Pro Phe
1               5
#                10
#                15
Ser Asn Pro Val Asn Leu Asp Ala Pro Glu As
#p Lys Asp Ser Pro Phe
20
#            25
#            30
Gly Asn Gly Gln Ser Asn Phe Ser Glu Pro Le
#u Asn Gly Cys Thr Met
35
#        40
#        45
Gln Leu Ser Thr Val Ser Gly Thr Ser Gln As
#n Ala Tyr Gly Gln Asp
50
#    55
#    60
Ser Pro Ser Cys Tyr Ile Pro Leu Arg Arg Le
#u Gln Asp Leu Ala Ser
65
#70
#75
#80
Met Ile Asn Val Glu Tyr Leu Asn Gly Ser Al
#a Asp Gly Ser Glu Ser
85
#                90
#                95
Phe Gln Asp Pro Glu Lys Ser Asp Ser Arg Al
#a Gln Thr Pro Ile Val
100
#           105
#           110
Cys Thr Ser Leu Ser Pro Gly Gly Pro Thr Al
#a Leu Ala Met Lys Gln
115
#       120
#       125
Glu Pro Ser Cys Asn Asn Ser Pro Glu Leu Gl
#n Val Lys Val Thr Lys
130
#   135
#   140
Thr Ile Lys Asn Gly Phe Leu His Phe Glu As
#n Phe Thr Cys Val Asp
145                 1
#50                 1
#55                 1
#60
Asp Ala Asp Val Asp Ser Glu Met Asp Pro Gl
#u Gln Pro Val Thr Glu
165
#               170
#               175
Asp Glu Ser Ile Glu Glu Ile Phe Glu Glu Th
#r Gln Thr Asn Ala Thr
180
#           185
#           190
Cys Asn Tyr Glu Thr Lys Ser Glu Asn Gly Va
#l Lys Val Ala Met Gly
195
#       200
#       205
Ser Glu Gln Asp Ser Thr Pro Glu Ser Arg Hi
#s Gly Ala Val Lys Ser
210
#   215
#   220
Pro Phe Leu Pro Leu Ala Pro Gln Thr Glu Th
#r Gln Lys Asn Lys Gln
225                 2
#30                 2
#35                 2
#40
Arg Asn Glu Val Asp Gly Ser Asn Glu Lys Al
#a Ala Leu Leu Pro Ala
245
#               250
#               255
Pro Phe Ser Leu Gly Asp Thr Asn Ile Thr Il
#e Glu Glu Gln Leu Asn
260
#           265
#           270
Ser Ile Asn Leu Ser Phe Gln Asp Asp Pro As
#p Ser Ser Thr Ser Thr
275
#       280
#       285
Leu Gly Asn Met Leu Glu Leu Pro Gly Thr Se
#r Ser Ser Ser Thr Ser
290
#   295
#   300
Gln Glu Leu Pro Phe Cys Gln Pro Lys Lys Ly
#s Ser Thr Pro Leu Lys
305                 3
#10                 3
#15                 3
#20
Tyr Glu Val Gly Asp Leu Ile Trp Ala Lys Ph
#e Lys Arg Arg Pro Trp
325
#               330
#               335
Trp Pro Cys Arg Ile Cys Ser Asp Pro Leu Il
#e Asn Thr His Ser Lys
340
#           345
#           350
Met Lys Val Ser Asn Arg Arg Pro Tyr Arg Gl
#n Tyr Tyr Val Glu Ala
355
#       360
#       365
Phe Gly Asp Pro Ser Glu Arg Ala Trp Val Al
#a Gly Lys Ala Ile Val
370
#   375
#   380
Met Phe Glu Gly Arg His Gln Phe Glu Glu Le
#u Pro Val Leu Arg Arg
385                 3
#90                 3
#95                 4
#00
Arg Gly Lys Gln Lys Glu Lys Gly Tyr Arg Hi
#s Lys Val Pro Gln Lys
405
#               410
#               415
Ile Leu Ser Lys Trp Glu Ala Ser Val Gly Le
#u Ala Glu Gln Tyr Asp
420
#           425
#           430
Val Pro Lys Gly Ser Lys Asn Arg Lys Cys Il
#e Pro Gly Ser Ile Lys
435
#       440
#       445
Leu Asp Ser Glu Glu Asp Met Pro Phe Glu As
#p Cys Thr Asn Asp Pro
450
#   455
#   460
Glu Ser Glu His Asp Leu Leu Leu Asn Gly Cy
#s Leu Lys Ser Leu Ala
465                 4
#70                 4
#75                 4
#80
Phe Asp Ser Glu His Ser Ala Asp Glu Lys Gl
#u Lys Pro Cys Ala Lys
485
#               490
#               495
Ser Arg Ala Arg Lys Ser Ser Asp Asn Pro Ly
#s Arg Thr Ser Val Lys
500
#           505
#           510
Lys Gly His Ile Gln Phe Glu Ala His Lys As
#p Glu Arg Arg Gly Lys
515
#       520
#       525
Ile Pro Glu Asn Leu Gly Leu Asn Phe Ile Se
#r Gly Asp Ile Ser Asp
530
#   535
#   540
Thr Gln Ala Ser Asn Glu Leu Ser Arg Ile Al
#a Asn Ser Leu Thr Gly
545                 5
#50                 5
#55                 5
#60
Ser Asn Thr Ala Pro Gly Ser Phe Leu Phe Se
#r Ser Cys Gly Lys Asn
565
#               570
#               575
Thr Ala Lys Lys Glu Phe Glu Thr Ser Asn Gl
#y Asp Ser Leu Leu Gly
580
#           585
#           590
Leu Pro Glu Gly Ala Leu Ile Ser Lys Cys Se
#r Arg Glu Lys Asn Lys
595
#       600
#       605
Pro Gln Arg Ser Leu Val Cys Gly Ser Lys Va
#l Lys Leu Cys Tyr Ile
610
#   615
#   620
Gly Ala Gly Asp Glu Glu Lys Arg Ser Asp Se
#r Ile Ser Ile Cys Thr
625                 6
#30                 6
#35                 6
#40
Thr Ser Asp Asp Gly Ser Ser Asp Leu Asp Pr
#o Ile Glu His Ser Ser
645
#               650
#               655
Glu Ser Asp Asn Ser Val Leu Glu Ile Pro As
#p Ala Phe Asp Arg Thr
660
#           665
#           670
Glu Asn Met Leu Ser Met Gln Lys Asn Glu Ly
#s Ile Lys Tyr Ser Arg
675
#       680
#       685
Phe Ala Ala Thr Asn Thr Arg Val Lys Ala Ly
#s Gln Lys Pro Leu Ile
690
#   695
#   700
Ser Asn Ser His Thr Asp His Leu Met Gly Cy
#s Thr Lys Ser Ala Glu
705                 7
#10                 7
#15                 7
#20
Pro Gly Thr Glu Thr Ser Gln Val Asn Leu Se
#r Asp Leu Lys Ala Ser
725
#               730
#               735
Thr Leu Val His Lys Pro Gln Ser Asp Phe Th
#r Asn Asp Ala Leu Ser
740
#           745
#           750
Pro Lys Phe Asn Leu Ser Ser Ser Ile Ser Se
#r Glu Asn Ser Leu Ile
755
#       760
#       765
Lys Gly Gly Ala Ala Asn Gln Ala Leu Leu Hi
#s Ser Lys Ser Lys Gln
770
#   775
#   780
Pro Lys Phe Arg Ser Ile Lys Cys Lys His Ly
#s Glu Asn Pro Val Met
785                 7
#90                 7
#95                 8
#00
Ala Glu Pro Pro Val Ile Asn Glu Glu Cys Se
#r Leu Lys Cys Cys Ser
805
#               810
#               815
Ser Asp Thr Lys Gly Ser Pro Leu Ala Ser Il
#e Ser Lys Ser Gly Lys
820
#           825
#           830
Val Asp Gly Leu Lys Leu Leu Asn Asn Met Hi
#s Glu Lys Thr Arg Asp
835
#       840
#       845
Ser Ser Asp Ile Glu Thr Ala Val Val Lys Hi
#s Val Leu Ser Glu Leu
850
#   855
#   860
Lys Glu Leu Ser Tyr Arg Ser Leu Gly Glu As
#p Val Ser Asp Ser Gly
865                 8
#70                 8
#75                 8
#80
Thr Ser Lys Pro Ser Lys Pro Leu Leu Phe Se
#r Ser Ala Ser Ser Gln
885
#               890
#               895
Asn His Ile Pro Ile Glu Pro Asp Tyr Lys Ph
#e Ser Thr Leu Leu Met
900
#           905
#           910
Met Leu Lys Asp Met His Asp Ser Lys Thr Ly
#s Glu Gln Arg Leu Met
915
#       920
#       925
Thr Ala Gln Asn Leu Val Ser Tyr Arg Ser Pr
#o Gly Arg Gly Asp Cys
930
#   935
#   940
Ser Thr Asn Ser Pro Val Gly Val Ser Lys Va
#l Leu Val Ser Gly Gly
945                 9
#50                 9
#55                 9
#60
Ser Thr His Asn Ser Glu Lys Lys Gly Asp Gl
#y Thr Gln Asn Ser Ala
965
#               970
#               975
Asn Pro Ser Pro Ser Gly Gly Asp Ser Ala Le
#u Ser Gly Glu Leu Ser
980
#           985
#           990
Ala Ser Leu Pro Gly Leu Leu Ser  Asp Lys
#Arg Asp Leu  Pro Ala Ser
995
#       1000
#       1005
Gly Lys  Ser Arg Ser Asp Cys  Val Thr A
#rg Arg Asn  Cys Gly Arg
1010
#    1015
#    1020
Ser Lys  Pro Ser Ser Lys Leu  Arg Asp A
#la Phe Ser  Ala Gln Met
1025
#    1030
#    1035
Val Lys  Asn Thr Val Asn Arg  Lys Ala L
#eu Lys Thr  Glu Arg Lys
1040
#    1045
#    1050
Arg Lys  Leu Asn Gln Leu Pro  Ser Val T
#hr Leu Asp  Ala Val Leu
1055
#    1060
#    1065
Gln Gly  Asp Arg Glu Arg Gly  Gly Ser L
#eu Arg Gly  Gly Ala Glu
1070
#    1075
#    1080
Asp Pro  Ser Lys Glu Asp Pro  Leu Gln I
#le Met Gly  His Leu Thr
1085
#    1090
#    1095
Ser Glu  Asp Gly Asp His Phe  Ser Asp V
#al His Phe  Asp Ser Lys
1100
#    1105
#    1110
Val Lys  Gln Ser Asp Pro Gly  Lys Ile S
#er Glu Lys  Gly Leu Ser
1115
#    1120
#    1125
Phe Glu  Asn Gly Lys Gly Pro  Glu Leu A
#sp Ser Val  Met Asn Ser
1130
#    1135
#    1140
Glu Asn  Asp Glu Leu Asn Gly  Val Asn G
#ln Val Val  Pro Lys Lys
1145
#    1150
#    1155
Arg Trp  Gln Arg Leu Asn Gln  Arg Arg T
#hr Lys Pro  Arg Lys Arg
1160
#    1165
#    1170
Met Asn  Arg Phe Lys Glu Lys  Glu Asn S
#er Glu Cys  Ala Phe Arg
1175
#    1180
#    1185
Val Leu  Leu Pro Ser Asp Pro  Val Gln G
#lu Gly Arg  Asp Glu Phe
1190
#    1195
#    1200
Pro Glu  His Arg Thr Pro Ser  Ala Ser I
#le Leu Glu  Glu Pro Leu
1205
#    1210
#    1215
Thr Glu  Gln Asn His Ala Asp  Cys Leu A
#sp Ser Ala  Gly Pro Arg
1220
#    1225
#    1230
Leu Asn  Val Cys Asp Lys Ser  Ser Ala S
#er Ile Gly  Asp Met Glu
1235
#    1240
#    1245
Lys Glu  Pro Gly Ile Pro Ser  Leu Thr P
#ro Gln Ala  Glu Leu Pro
1250
#    1255
#    1260
Glu Pro  Ala Val Arg Ser Glu  Lys Lys A
#rg Leu Arg  Lys Pro Ser
1265
#    1270
#    1275
Lys Trp  Leu Leu Glu Tyr Thr  Glu Glu T
#yr Asp Gln  Ile Phe Ala
1280
#    1285
#    1290
Pro Lys  Lys Lys Gln Lys Lys  Val Gln G
#lu Gln Val  His Lys Val
1295
#    1300
#    1305
Ser Ser  Arg Cys Glu Glu Glu  Ser Leu L
#eu Ala Arg  Gly Arg Ser
1310
#    1315
#    1320
Ser Ala  Gln Asn Lys Gln Val  Asp Glu A
#sn Ser Leu  Ile Ser Thr
1325
#    1330
#    1335
Lys Glu  Glu Pro Pro Val Leu  Glu Arg G
#lu Ala Pro  Phe Leu Glu
1340
#    1345
#    1350
Gly Pro  Leu Ala Gln Ser Glu  Leu Gly G
#ly Gly His  Ala Glu Leu
1355
#    1360
#    1365
Pro Gln  Leu Thr Leu Ser Val  Pro Val A
#la Pro Glu  Val Ser Pro
1370
#    1375
#    1380
Arg Pro  Ala Leu Glu Ser Glu  Glu Leu L
#eu Val Lys  Thr Pro Gly
1385
#    1390
#    1395
Asn Tyr  Glu Ser Lys Arg Gln  Arg Lys P
#ro Thr Lys  Lys Leu Leu
1400
#    1405
#    1410
Glu Ser  Asn Asp Leu Asp Pro  Gly Phe M
#et Pro Lys  Lys Gly Asp
1415
#    1420
#    1425
Leu Gly  Leu Ser Lys Lys Cys  Tyr Glu A
#la Gly His  Leu Glu Asn
1430
#    1435
#    1440
Gly Ile  Thr Glu Ser Cys Ala  Thr Ser T
#yr Ser Lys  Asp Phe Gly
1445
#    1450
#    1455
Gly Gly  Thr Thr Lys Ile Phe  Asp Lys P
#ro Arg Lys  Arg Lys Arg
1460
#    1465
#    1470
Gln Arg  His Ala Ala Ala Lys  Met Gln C
#ys Lys Lys  Val Lys Asn
1475
#    1480
#    1485
Asp Asp  Ser Ser Lys Glu Ile  Pro Gly S
#er Glu Gly  Glu Leu Met
1490
#    1495
#    1500
Pro His  Arg Thr Ala Thr Ser  Pro Lys G
#lu Thr Val  Glu Glu Gly
1505
#    1510
#    1515
Val Glu  His Asp Pro Gly Met  Pro Ala S
#er Lys Lys  Met Gln Gly
1520
#    1525
#    1530
Glu Arg  Gly Gly Gly Ala Ala  Leu Lys G
#lu Asn Val  Cys Gln Asn
1535
#    1540
#    1545
Cys Glu  Lys Leu Gly Glu Leu  Leu Leu C
#ys Glu Ala  Gln Cys Cys
1550
#    1555
#    1560
Gly Ala  Phe His Leu Glu Cys  Leu Gly L
#eu Thr Glu  Met Pro Arg
1565
#    1570
#    1575
Gly Lys  Phe Ile Cys Asn Glu  Cys Arg T
#hr Gly Ile  His Thr Cys
1580
#    1585
#    1590
Phe Val  Cys Lys Gln Ser Gly  Glu Asp V
#al Lys Arg  Cys Leu Leu
1595
#    1600
#    1605
Pro Leu  Cys Gly Lys Phe Tyr  His Glu G
#lu Cys Val  Gln Lys Tyr
1610
#    1615
#    1620
Pro Pro  Thr Val Met Gln Asn  Lys Gly P
#he Arg Cys  Ser Leu His
1625
#    1630
#    1635
Ile Cys  Ile Thr Cys His Ala  Ala Asn P
#ro Ala Asn  Val Ser Ala
1640
#    1645
#    1650
Ser Lys  Gly Arg Leu Met Arg  Cys Val A
#rg Cys Pro  Val Ala Tyr
1655
#    1660
#    1665
His Ala  Asn Asp Phe Cys Leu  Ala Ala G
#ly Ser Lys  Ile Leu Ala
1670
#    1675
#    1680
Ser Asn  Ser Ile Ile Cys Pro  Asn His P
#he Thr Pro  Arg Arg Gly
1685
#    1690
#    1695
Cys Arg  Asn His Glu His Val  Asn Val S
#er Trp Cys  Phe Val Cys
1700
#    1705
#    1710
Ser Glu  Gly Gly Ser Leu Leu  Cys Cys A
#sp Ser Cys  Pro Ala Ala
1715
#    1720
#    1725
Phe His  Arg Glu Cys Leu Asn  Ile Asp I
#le Pro Glu  Gly Asn Trp
1730
#    1735
#    1740
Tyr Cys  Asn Asp Cys Lys Ala  Gly Lys L
#ys Pro His  Tyr Arg Glu
1745
#    1750
#    1755
Ile Val  Trp Val Lys Val Gly  Arg Tyr A
#rg Trp Trp  Pro Ala Glu
1760
#    1765
#    1770
Ile Cys  His Pro Arg Ala Val  Pro Ser A
#sn Ile Asp  Lys Met Arg
1775
#    1780
#    1785
His Asp  Val Gly Glu Phe Pro  Val Leu P
#he Phe Gly  Ser Asn Asp
1790
#    1795
#    1800
Tyr Leu  Trp Thr His Gln Ala  Arg Val P
#he Pro Tyr  Met Glu Gly
1805
#    1810
#    1815
Asp Val  Ser Ser Lys Asp Lys  Met Gly L
#ys Gly Val  Asp Gly Thr
1820
#    1825
#    1830
Tyr Lys  Lys Ala Leu Gln Glu  Ala Ala A
#la Arg Phe  Glu Glu Leu
1835
#    1840
#    1845
Lys Ala  Gln Lys Glu Leu Arg  Gln Leu G
#ln Glu Asp  Arg Lys Asn
1850
#    1855
#    1860
Asp Lys  Lys Pro Pro Pro Tyr  Lys His I
#le Lys Val  Asn Arg Pro
1865
#    1870
#    1875
Ile Gly  Arg Val Gln Ile Phe  Thr Ala A
#sp Leu Ser  Glu Ile Pro
1880
#    1885
#    1890
Arg Cys  Asn Cys Lys Ala Thr  Asp Glu A
#sn Pro Cys  Gly Ile Asp
1895
#    1900
#    1905
Ser Glu  Cys Ile Asn Arg Met  Leu Leu T
#yr Glu Cys  His Pro Thr
1910
#    1915
#    1920
Val Cys  Pro Ala Gly Gly Arg  Cys Gln A
#sn Gln Cys  Phe Ser Lys
1925
#    1930
#    1935
Arg Gln  Tyr Pro Glu Val Glu  Ile Phe A
#rg Thr Leu  Gln Arg Gly
1940
#    1945
#    1950
Trp Gly  Leu Arg Thr Lys Thr  Asp Ile L
#ys Lys Gly  Glu Phe Val
1955
#    1960
#    1965
Asn Glu  Tyr Val Gly Glu Leu  Ile Asp G
#lu Glu Glu  Cys Arg Ala
1970
#    1975
#    1980
Arg Ile  Arg Tyr Ala Gln Glu  His Asp I
#le Thr Asn  Phe Tyr Met
1985
#    1990
#    1995
Leu Thr  Leu Asp Lys Asp Arg  Ile Ile A
#sp Ala Gly  Pro Lys Gly
2000
#    2005
#    2010
Asn Tyr  Ala Arg Phe Met Asn  His Cys C
#ys Gln Pro  Asn Cys Glu
2015
#    2020
#    2025
Thr Gln  Lys Trp Ser Val Asn  Gly Asp T
#hr Arg Val  Gly Leu Phe
2030
#    2035
#    2040
Ala Leu  Ser Asp Ile Lys Ala  Gly Thr G
#lu Leu Thr  Phe Asn Tyr
2045
#    2050
#    2055
Asn Leu  Glu Cys Leu Gly Asn  Gly Lys T
#hr Val Cys  Lys Cys Gly
2060
#    2065
#    2070
Ala Pro  Asn Cys Ser Gly Phe  Leu Gly V
#al Arg Pro  Lys Asn Gln
2075
#    2080
#    2085
Pro Ile  Ala Thr Glu Glu Lys  Ser Lys L
#ys Phe Lys  Lys Lys Gln
2090
#    2095
#    2100
Gln Gly  Lys Arg Arg Thr Gln  Gly Glu I
#le Thr Lys  Glu Arg Glu
2105
#    2110
#    2115
Asp Glu  Cys Phe Ser Cys Gly  Asp Ala G
#ly Gln Leu  Val Ser Cys
2120
#    2125
#    2130
Lys Lys  Pro Gly Cys Pro Lys  Val Tyr H
#is Ala Asp  Cys Leu Asn
2135
#    2140
#    2145
Leu Thr  Lys Arg Pro Ala Gly  Lys Trp G
#lu Cys Pro  Trp His Gln
2150
#    2155
#    2160
Cys Asp  Ile Cys Gly Lys Glu  Ala Ala S
#er Phe Cys  Glu Met Cys
2165
#    2170
#    2175
Pro Ser  Ser Phe Cys Lys Gln  His Arg G
#lu Gly Met  Leu Phe Ile
2180
#    2185
#    2190
Ser Lys  Leu Asp Gly Arg Leu  Ser Cys T
#hr Glu His  Asp Pro Cys
2195
#    2200
#    2205
Gly Pro  Asn Pro Leu Glu Pro  Gly Glu I
#le Arg Glu  Tyr Val Pro
2210
#    2215
#    2220
Pro Pro  Val Pro Leu Pro Pro  Gly Pro S
#er Thr His  Leu Ala Glu
2225
#    2230
#    2235
Gln Ser  Thr Gly Met Ala Ala  Gln Ala P
#ro Lys Met  Ser Asp Lys
2240
#    2245
#    2250
Pro Pro  Ala Asp Thr Asn Gln  Met Leu S
#er Leu Ser  Lys Lys Ala
2255
#    2260
#    2265
Leu Ala  Gly Thr Cys Gln Arg  Pro Leu L
#eu Pro Glu  Arg Pro Leu
2270
#    2275
#    2280
Glu Arg  Thr Asp Ser Arg Pro  Gln Pro L
#eu Asp Lys  Val Arg Asp
2285
#    2290
#    2295
Leu Ala  Gly Ser Gly Thr Lys  Ser Gln S
#er Leu Val  Ser Ser Gln
2300
#    2305
#    2310
Arg Pro  Leu Asp Arg Pro Pro  Ala Val A
#la Gly Pro  Arg Pro Gln
2315
#    2320
#    2325
Leu Ser  Asp Lys Pro Ser Pro  Val Thr S
#er Pro Ser  Ser Ser Pro
2330
#    2335
#    2340
Ser Val  Arg Ser Gln Pro Leu  Glu Arg P
#ro Leu Gly  Thr Ala Asp
2345
#    2350
#    2355
Pro Arg  Leu Asp Lys Ser Ile  Gly Ala A
#la Ser Pro  Arg Pro Gln
2360
#    2365
#    2370
Ser Leu  Glu Lys Thr Ser Val  Pro Thr G
#ly Leu Arg  Leu Pro Pro
2375
#    2380
#    2385
Pro Asp  Arg Leu Leu Ile Thr  Ser Ser P
#ro Lys Pro  Gln Thr Ser
2390
#    2395
#    2400
Asp Arg  Pro Thr Asp Lys Pro  His Ala S
#er Leu Ser  Gln Arg Leu
2405
#    2410
#    2415
Pro Pro  Pro Glu Lys Val Leu  Ser Ala V
#al Val Gln  Thr Leu Val
2420
#    2425
#    2430
Ala Lys  Glu Lys Ala Leu Arg  Pro Val A
#sp Gln Asn  Thr Gln Ser
2435
#    2440
#    2445
Lys Asn  Arg Ala Ala Leu Val  Met Asp L
#eu Ile Asp  Leu Thr Pro
2450
#    2455
#    2460
Arg Gln  Lys Glu Arg Ala Ala  Ser Pro H
#is Gln Val  Thr Pro Gln
2465
#    2470
#    2475
Ala Asp  Glu Lys Met Pro Val  Leu Glu S
#er Ser Ser  Trp Pro Ala
2480
#    2485
#    2490
Ser Lys  Gly Leu Gly His Met  Pro Arg A
#la Val Glu  Lys Gly Cys
2495
#    2500
#    2505
Val Ser  Asp Pro Leu Gln Thr  Ser Gly L
#ys Ala Ala  Ala Pro Ser
2510
#    2515
#    2520
Glu Asp  Pro Trp Gln Ala Val  Lys Ser L
#eu Thr Gln  Ala Arg Leu
2525
#    2530
#    2535
Leu Ser  Gln Pro Pro Ala Lys  Ala Phe L
#eu Tyr Glu  Pro Thr Thr
2540
#    2545
#    2550
Gln Ala  Ser Gly Arg Ala Ser  Ala Gly A
#la Glu Gln  Thr Pro Gly
2555
#    2560
#    2565
Pro Leu  Ser Gln Ser Pro Gly  Leu Val L
#ys Gln Ala  Lys Gln Met
2570
#    2575
#    2580
Val Gly  Gly Gln Gln Leu Pro  Ala Leu A
#la Ala Lys  Ser Gly Gln
2585
#    2590
#    2595
Ser Phe  Arg Ser Leu Gly Lys  Ala Pro A
#la Ser Leu  Pro Thr Glu
2600
#    2605
#    2610
Glu Lys  Lys Leu Val Thr Thr  Glu Gln S
#er Pro Trp  Ala Leu Gly
2615
#    2620
#    2625
Lys Ala  Ser Ser Arg Ala Gly  Leu Trp P
#ro Ile Val  Ala Gly Gln
2630
#    2635
#    2640
Thr Leu  Ala Gln Ser Cys Trp  Ser Ala G
#ly Ser Thr  Gln Thr Leu
2645
#    2650
#    2655
Ala Gln  Thr Cys Trp Ser Leu  Gly Arg G
#ly Gln Asp  Pro Lys Pro
2660
#    2665
#    2670
Glu Gln  Asn Thr Leu Pro Ala  Leu Asn G
#ln Ala Pro  Ser Ser His
2675
#    2680
#    2685
Lys Cys  Ala Glu Ser Glu Gln  Lys
2690
#    2695
<210> SEQ ID NO 5
<211> LENGTH: 190
<212> TYPE: DNA
<213> ORGANISM: human chromosome
<400> SEQUENCE: 5
gtcacattag ctaggacttc cagtacaatg ctgaaaagga gtagtgagga ga
#catccttg     60
ccttatccct gatcttagta ggaatgcttc aagtttttca ccattaggta tg
#atattagt    120
ggcaggtttt ttgtagatgt tctttctgaa gttgaggaag ttcccctcta tt
#cctagttt    180
gctggaaggc
#
#
#       190
<210> SEQ ID NO 6
<211> LENGTH: 275
<212> TYPE: DNA
<213> ORGANISM: human chromosome
<400> SEQUENCE: 6
actttttgaa agtttcattt aggtgctatc atttaaaaaa tcagaagata tc
#acttaaga     60
atccagcatt ctagtttctt tcgaaaaatc agaagatctg gcaacactag gc
#ccacattc    120
cggcatggca acaaccagct agagcggtgc tggctgttcc ccctctgtgg gg
#cttgtgct    180
ctggtttctg aagtcctaac cctcaccagg cccaactgcc acctacgcca gc
#tgcatggc    240
ccctacactg tgtctctgca cgaggcagcc ccaat
#
#      275
<210> SEQ ID NO 7
<211> LENGTH: 20
<212> TYPE: DNA
<213> ORGANISM: artificial sequence
<220> FEATURE:
<223> OTHER INFORMATION: This sequence is a pri
#mer for amplifying cDNAs
in a PCR analysis.
<400> SEQUENCE: 7
atttgtgaat gagtatgtgg
#
#
# 20
<210> SEQ ID NO 8
<211> LENGTH: 20
<212> TYPE: DNA
<213> ORGANISM: Artificial sequence
<220> FEATURE:
<223> OTHER INFORMATION: This sequence is a pri
#mer for amplifying cDNAs
in a PCR analysis.
<400> SEQUENCE: 8
ctaaaacact catcttctcg
#
#
# 20

Claims

1. A nucleic acid comprising the following (a) or (b): (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-39726 of a sequence No.1 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-39726 is deleted, substituted or added, and having a homology of 80% for the base sequence.

2. A nucleic acid comprising the following (a) or (b): (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-8511 of a sequence No.2 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-8511 is deleted, substituted or added, and having a homology of 80% for the base sequence.

3. A probe comprising a nucleic acid as claimed in claim 1 or 2.

4. A probe according to claim 3, wherein the probe is used as a diagnosis for Sotos syndrome.

5. A peptide fragment comprising the following (a) or (b): (a) a peptide fragment comprising an amino acid sequence shown in an amino acid sequence number 1-309 of a sequence No.3 of a sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the sequence No.3 is deleted, substituted or added, and having a homology of 80% for the base sequence.

6. A peptide fragment comprising the following (a) or (b): (a) a peptide fragment comprising an amino acid sequence shown in an amino acid sequence number 1-2696 of a sequence No.4 of a sequence table, or (b) a peptide fragment wherein a part of the amino acid sequence shown in the sequence No.4 is deleted, substituted or added, and having a homology of 80% for the base sequence.

7. A probe comprising a peptide fragment as claimed in claim 5 or 6.

8. A probe for using as a diagnosis for Sotos syndrome, wherein the probe comprises the following (a) or (b)on the human chromosome 5: (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-190 is deleted, substituted or added, and having a homology of 80% for the base sequence.

9. A probe for using as a diagnosis for Sotos syndrome, wherein the probe comprises the following (a) or (b)on the human chromosome 5: (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-275 of a sequence No.6 of a sequence table, or (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 is deleted, substituted or added, and having a homology of 80% for the base sequence.

10. A probe for using as a diagnosis for Sotos syndrome, wherein the probe comprises any sequence existed in between the following (a) and (b) on the human chromosome 5: (a) a nucleic acid comprising a base sequence shown in a base sequence number 1-190 of a sequence No.5 of a sequence table, and (b) a nucleic acid wherein a part of the base sequence of the base sequence number 1-275 of a sequence No.6 of a sequence table.

11. A screening method characterized by using a probe as claimed in any one of claims 3, 4 and 7-10.

12. The method according to claim 11, wherein the screening is carried out by using at least one selected from the group consisting of in situ hybridization method, Southern blotting method, and a base sequence determination method.

13. The method according to claim 12, wherein the in situ hybridization method is a fluorescence in situ hybridization method.