TREA

Apoptosis-inducing dna sequences

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  • Patent Application
  • 20040088746
  • Publication Number
    20040088746
  • Date Filed
    June 25, 2003
    22 years ago
  • Date Published
    May 06, 2004
    21 years ago
Information
Abstract
The invention relates to novel apoptosis-associated and in particular apoptosis-inducing nucleic acid sequences, to polypeptides encoded thereby and to the use thereof for providing diagnostic and therapeutic agents. The invention also relates to cell systems and transgenic animals and the use thereof for the genetic and/or pharmacological investigation of apoptosis-associated disorders.
Description


DESCRIPTION

[0001] The invention relates to novel apoptosis-associated and in particular apoptosis-inducing nucleic acid sequences, to polypeptides encoded thereby and to the use thereof for providing diagnostic and therapeutic agents. The invention also relates to transgenic cell systems and transgenic animals and the use thereof for the genetic and/or pharmacological investigation of apoptosis-associated disorders.

[0002] Apoptosis is the genetically encoded suicide program which is induced in eukaryotic cells under particular physiological or pathological conditions. The induction of apoptosis must be regulated with extraordinary precision, because a hyperactivity can lead to degenerative disorders. On the other hand, a reduced induction of apoptosis can contribute to tumor progression.

[0003] Various low molecular weight inducers of apoptosis have already been described. An important class are tumor cytostatics. However, in most cases it is not known how said cytostatics or other substances can induce apoptosis.

[0004] The identification of apoptosis-inducing genes or other dominant genes having a non-selectable activity is problematic, since stable recombinant expression of such genes in a target cell is possible only with great difficulty, if at all. It is therefore necessary to use specific screening methods for identifying such genes. For this purpose, various in-vitro methods have already been developed (King et al., Science 277 (1997), 973-974 and Lustig et al., Meth. Enzymol. 283 (1997), 83-99). Other research groups have generated transgenic mice which contain multiple transgenes whose functions are determined by studying the phenotype (Simonet et al., Cell 89 (1997), 309-319 and Smith et al., Nat. Genet. 16 (1997), 28-36). A disadvantage of the in-vitro methods is that the results obtained do not readily correlate with cell-biological effects regulated in a complex way. On the other hand, studies on transgenic animals are very complicated and laborious.

[0005] Grimm and Leder (J. Exp. Med. 185 (1997), 1137-1142) describe a method for identifying and isolating dominant apoptosis-inducing nucleic acid sequences. Here, small plasmid pools corresponding to 20 clones from normalized cDNA expression libraries are transiently introduced into the human kidney cell line 293. The apoptosis-inducing activity of a nucleic acid sequence is determined manually by microscopic inspection of morphological features characteristic for apoptosis. With the aid of this method, it was possible to identify the apoptosis-inducing gene of adenine-nucleotide translocase-1 (ANT-1). The ANT-1 gene is assumed to be the cause of the degenerative cardiac disorder dilated cardiomyopathy (DCM) (PCT/EP00/08812).

[0006] The method described uses plasmid pools of 20 clones for transfection into the kidney cell line 293. However, the transfection of plasmid pools is able to achieve only a low sensitivity for the screening method, since those expression plasmids which contain apoptosis-inducing genes are in each case present at a low ratio to the expression plasmids not carrying apoptosis-inducing genes. In order to avoid this problem, instead of plasmid pools the screening method employed here uses, for transfection, aliquots which statistically contained just one clone. In addition, a particularly effective way of purifying plasmid DNA was used (Neudecker and Grimm, Biotechniques 28 (2000), 107-109). This method makes it possible to reduce lipopolysaccharides by a factor of 900 compared to previously published methods and thus makes it possible, for the first time, to purify plasmid DNA for high throughput in the 96-well format. Due to using specially purified DNA for transfection combined with using individual clones instead of plasmid pools, it was possible to carry out a particularly effective and sensitive screening method which made it possible to determine a large number of apoptosis-inducing sequences.

[0007] The present invention relates to novel apoptosis-associated and in particular apoptosis-inducing nucleic acids comprising:

[0008] (a) the nucleic acids of clones 1-146, shown in table 1, in table 2 or in SEQ ID NO: 1-225, nucleic acids complementary thereto or fragments thereof,

[0009] (b) nucleic acids corresponding to the sequences as claimed in (a) within the framework of the degeneracy of the genetic code and

[0010] (c) nucleic acids hybridizing with the sequences as claimed in (a) or/and (b) under stringent conditions.

[0011] The nucleic acids of the invention are apoptosis-associated nucleic acids, i.e. nucleic acids associated with the appearance of apoptotic processes in a cell, in particular in a mammalian cell. The nucleic acids are preferably apoptosis-inducing nucleic acids, i.e. nucleic acids which can cause or/and promote apoptotic processes. The nucleic acids of the invention are particularly preferably dominant apoptosis-inducing nucleic acids which are capable of, when expressed in a cell, inducing apoptosis and of causing the features characteristic for apoptosis, such as, for example, DNA fragmentation, unusual morphological features, etc. The nucleic acids may be present in double-strand or single-strand form, for example as DNA or RNA. The isolated nucleic acids can exhibit their cellular effect by expression, in particular by overexpression in cells. As a consequence, they are inducible and their use as therapeutic agent is specified.

[0012] Besides the nucleic acids shown in table 1, the sequence listings or fragments thereof having a length of preferably at least 15, particularly preferably at least 20 and most preferably at least 25 nucleotides, the present invention also includes variants of said sequences. Besides the nucleic acids which correspond to the sequences according to (a) within the framework of the degeneracy of the genetic code and which code for a polypeptide with an identical amino acid sequence, nucleic acids which hybridize with the sequences according to (a) or/and (b) under stringent conditions are also included. Hybridization under stringent conditions means within the scope of the present application that a hybridization signal is still found after prehybridization and hybridization under suitable conditions and washing in 1×SSC and 0.1% SDS at 55° C., preferably at 62° C. and particularly preferably at 68° C. and, in particular, in 0.2×SSC and 0.1% SDS at 55° C., preferably at 62° C. and particularly preferably at 68° C. (see also Sambrook et al., Molecular Cloning. A Laboratory Manual (1989), Cold Spring Harbor Laboratory Press, 1.101-1.104).

[0013] The apoptosis-associated nucleic acids of the invention preferably code for an apoptosis-associated polypeptide or a functional fragment thereof. The nucleic acids may come from any organism, with eukaryotic organisms such as nematodes, e.g. C. elegans, arthropods such as Drosophila, cordata and vertebrates, e.g. mammals, are preferred. Particular preference is given to sequences of mammals, for example of mice or humans, and said sequences can where appropriate also be altered by known molecular-biological techniques such as, for example, site-specific mutagenesis, PCR, restriction cleavage and ligation.

[0014] The nucleic acids of the invention are preferably present operatively linked to an expression control sequence so that they can be transcribed and, where appropriate, translated in a suitable host cell. Expression control sequences usually include a promoter and, where appropriate, regulatory sequences such as operators or enhancers. Furthermore, translation initiation sequences may also be present. Suitable expression control sequences for prokaryotic or eukaryotic host cells are known to the skilled worker (see, for example, Sambrook et al., supra).

[0015] The invention further relates to a recombinant vector containing a nucleic acid of the invention, preferably operatively linked to an expression control sequence. Furthermore, the recombinant vector may also contain conventional elements such as an origin of replication and a selection, marker gene. Examples of suitable recombinant vectors, for example, plasmids, cosmids, phages, viruses, etc., are known to the skilled worker (see, for example, Sambrook et al., supra).

[0016] The invention still further relates to recombinant cells which may have been transformed or transfected with a nucleic acid of the invention or a vector of the invention. Transformation or transfection may be carried out according to known methods, for example by calcium phosphate coprecipitation, lipofection, electroporation, particle bombardment or viral infection. The cell of the invention may contain the recombinant nucleic acid in extrachromosomal or chromosomally integrated form.

[0017] The invention still further relates to apoptosis-associated polypeptides encoded by a nucleic acid of the invention. Apoptosis-associated polypeptides may be obtained by expressing the apoptosis-associated nucleic acids of the invention, by chemical synthesis or by combinations of the two methods.

[0018] The invention still further relates to a pharmaceutical composition containing a nucleic acid of the invention, a vector of the invention or a polypeptide of the invention, where appropriate together with pharmaceutically conventional carriers and excipients. The nucleic acids, vectors, cells and polypeptides described above may be used for producing a diagnostic or therapeutic agent, in particular an agent for the diagnosis, therapy or prevention of apoptosis-associated disorders. Apoptosis-associated disorders may be distinguished on the one hand by abnormally reduced apoptosis and thus by hyperproliferation, for example tumor disorders, autoimmune diseases and viral infections (Thompson, Science 267 (1995), 1456-1462). On the other hand, apoptosis-associated disorders may also be distinguished by an abnormal increase in apoptosis and thus by degenerative symptoms, such as, for example, Alzheimer's disease, Huntington's disease, Parkinson's disease, reperfusion damage, stroke, and liver damage due to alcohol (Thompson (1995), supra).

[0019] The diagnostic application includes qualitative or/and quantitative detection of the apoptosis-associated nucleic acid, for example in the form of a transcript, or of the polypeptide encoded thereby in a sample, in particular a sample removed from a diseased organism, for example a patient. Detection may be carried out in the conventional manner, for example by nucleic acid hybridization or nucleic acid amplification reactions such as, for example, PCR or by protein detection via antibodies. Numerous techniques for these purposes are known to the skilled worker. Detection may also be carried out by using the isolated genes on a DNA chip. As a result, it is possible to study a plurality of genes, for example all genes, simultaneously in one experiment.

[0020] The therapeutic or preventive application includes administration of an active substance to a diseased organism in a sufficient dosage in order to alleviate or cure the apoptosis-associated disorder or to prevent the onset of an apoptosis-associated disease. In one embodiment of the invention, an apoptosis-associated nucleic acid is administered on a vector for gene therapy, for example an adenovirus, a retrovirus, an adeno-associated virus, etc., in order to effect increased expression of the apoptosis-associated nucleic acid in a diseased target cell. As an alternative it is also possible to administer an antisense nucleic acid, for example on a vector for gene therapy or else directly, if a reduction in apoptosis-associated nucleic acid expression is planned. In a further embodiment of the invention it is possible to administer apoptosis-associated poly-peptides or modulators of the activity of such apoptosis-associated polypeptides, for example activators or inhibitors. The active substances are administered according to known methods such as those, for example, described for gene therapy (Anderson, Nature 392 (1998), 25-30) or protein therapy (Schwarze et al., Science 285 (1999), 1569-1572).

[0021] Finally, it is also possible to use the nucleic acids, vectors, cells and polypeptides of the invention for identifying novel active substances for the therapy or prevention of apoptosis-associated disorders. A possibility here is the use in known cellular or molecular screening assays, where appropriate in a high-throughput format. The invention relates of course also to the active substances or substances derived therefrom which are identified by applying such screening methods. The active substances identified by the screening are capable of activating or inhibiting signal pathways induced by expression of the nucleic acids.

[0022] The present invention further relates to transgenic nonhuman animals which (i) constitutively or inducibly overexpress the gene of a nucleic acid of the invention or the ANT-1 gene, (ii) contain the endogenous gene of a nucleic acid of the invention or the ANT-1 gene in an inactivated form, (iii) contain the endogenous gene of a nucleic acid of the invention or the ANT-1 gene, which has been replaced completely or partially by a mutated gene of a nucleic acid of the invention or by a mutated ANT-1 gene, (iv) overexpress or underexpress conditionally and tissue-specifically the gene of a nucleic acid of the invention or the ANT-1 gene, or (v) have a conditional and tissue-specific knockout of the gene of a nucleic acid of the invention or of the ANT-1 gene.

[0023] Preferably, the transgenic animal may also contain an exogenous gene of a nucleic acid of the invention or an exogenous ANT-1 gene under the control of a promoter allowing overexpression. Alternatively, the endogenous gene of a nucleic acid of the invention or the endogenous ANT-1 gene may be overexpressed by activating or/and replacing its own promoter. The endogenous promoter of the gene of a nucleic acid of the invention or of the ANT-1 gene has preferably a genetic modification which modifies expression of said gene. Said genetic modification of the endogenous promoter comprises both a mutation of individual bases and deletion and insertion mutations.

[0024] A first embodiment relates to a transgenic animal overexpressing constitutively or inducibly the gene of a nucleic acid of the invention or the ANT-1 gene. Where appropriate, the introduced gene of a nucleic acid of the invention or the introduced ANT-1 gene may have additional mutations.

[0025] A second embodiment relates to a transgenic animal which contains the endogenous gene of a nucleic acid of the invention or the endogenous ANT-1 gene in an inactivated form. In this connection, the gene of a nucleic acid of the invention or the ANT-1 gene is preferably inactivated by introducing a knockout mutation by means of homologous recombination or by introducing an antisense construct or an RNAi construct.

[0026] A third embodiment relates to a transgenic animal in which the endogenous gene of a nucleic acid of the invention or the endogenous ANT-1 gene has been replaced completely or partially by a mutated gene of a nucleic acid of the invention or by a mutated ANT-1 gene.

[0027] A fourth embodiment relates to a transgenic animal which overexpresses or underexpresses conditionally and tissue-specifically the gene of a nucleic acid of the invention or the ANT-1 gene.

[0028] In a fifth embodiment, the transgenic animal has a conditional and tissue-specific knockout of the gene of a nucleic acid of the invention or of the ANT-1 gene.

[0029] The transgenic animal is preferably a mammal such as, for example, a rodent, e.g. a mouse. Mice have numerous advantages compared with other animals. They can be kept easily and their physiology is regarded as a model system for that of humans. The skilled worker is sufficiently familiar with the preparation of genetically manipulated animals of this kind, which is carried out according to customary methods (Hogan, B., Beddington, R., Costantini, F. and Lacy, E. (1994), Manipulating the Mouse-Embryo; A Laboratory Manual, 2nd edition, Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.).

[0030] Furthermore, the invention relates to the use of a transgenic animal of this kind for the genetic and/or pharmacological investigation of disorders connected with excessive or reduced expression or the lack of expression of a gene of a nucleic acid of the invention or of an ANT-1 gene.

[0031] The transgenic animals of the invention may serve as a model for the disorders linked to the gene of a nucleic acid of the invention or to the ANT-1 gene in humans or else in agricultural livestock. Thus it is possible, for example, to determine the effect of active substances or gene therapies on the course of the disease. The animals may likewise be useful for the diagnosis or early detection of a disease.

[0032] Thus, for example, an inventive transgenic animal containing the ANT-1 gene may serve as a model for the degenerative cardiac disorder dilated cardiomyopathy (DCM). This degenerative cardiac disorder is linked to excessive apoptosis in the cells of a patient's heart. A first indication of the apoptosis inducer ANT-1 playing an important part in the induction of apoptosis in DCM was the observation that, during the course of DCM, a shift in the expression pattern of ANT-1 isoforms in the heart of a patient occurs already at a very early stage, resulting in increased expression of ANT-1 mRNA and ANT-1 protein (PCT/EP00/08812). For this purpose, the ANT-1 gene can be expressed in transgenic mice under the control of the cardiac-specific α-myosin heavy chain promoter (Subramaniam, A. (1991), J. Biol. Chem. 266 (36), pages 24613-24620). This promoter has been well characterized and is switched on only at birth. The expression construct may be prepared, for example, by inserting the ANT-1 gene into the SalI restriction cleavage site of the third noncoding exon of the 5.5 kb promoter. The hearts of the inventive transgenic animals prepared in this way should have some of the DCM-specific cellular modifications such as fibrination, apoptosis and hypertrophy or dysfunctions such as left-ventricular pressure, end-diastolic pressure, contractility, left-ventricular ejection fraction and left-ventricular filling pressure.

[0033] As an alternative or in addition, it is also possible to use cell culture systems, in particular human cell culture systems for the applications described above for the transgenic animal.

[0034] Furthermore, the following example is intended to illustrate the invention in more detail.

[0035] The sequence listing contains the sequences SEQ ID No. 1-225 which comprise the T7 sequences, BGH sequences and internal primer sequences of the identified apoptosis-inducing genes of clones 1-124, listed in table 1. Table 2 shows the sequences of clones 1-124 and 125, 127, 133, 134, 140, 141, 144, 145 and 146.






EXAMPLE

[0036] Isolation of Apoptosis-inducing Genes

[0037] 1. General Remarks

[0038] Apoptosis-inducing genes were found by a genetic screening in the human cell line HEK 293T (Grimm and Leder (1997), supra), which is based on iterative transfection of small expression plasmid pools from a normalized gene library and subsequent microscopic determination of the programmed cell death by way of the phenotype of the apoptotic cells. The transfection of single clones from a positive plasmid pool then allows determination of the apoptosis-inducing gene.

[0039] Said screening was carried out in a 96-well format. Moreover, a particularly effective way of purifying the plasmid DNA was used (Neudecker and Grimm, Biotechniques 28 (2000), 107-109).

[0040] 2. Experimental Protocols

[0041] 2.1 Cell Culture and Transfections

[0042] Human HEK 293T cells were cultured in DMEM supplemented with 5% fetal calf serum (Sigma, Deisenhofen, Germany) in a humidified 5% CO2 atmosphere. For transfections, the cells were introduced into 24-well plates and transfected with 2 μg of plasmid DNA according to the calcium phosphate coprecipitation method as described by Roussel et al. (Mol. Cell. Biol. 4 (1984), 1999-2009). For this, 25 μl of DNA solution were mixed with 25 μl of 2×HBS buffer pH 6.9 (274 mM NaCl, 10 mM KCl, 40 mM Hepes, 1.4 mM Na2HPO4) at 4° C. in a 96-well plate using a 12-channel pipetting machine (Eppendorf, Hamburg, Germany). After adding 20 μl of a 0.25 M CaCl2 solution (4° C.) and mixing, 38 μl were applied to the cells, after incubation at room temperature for 25 min.

[0043] 2.2 Generation of a Normalized Library and cDNA Screening

[0044] The normalization and construction of a kidney cDNA library were carried out as described by Grimm and Leder (J. Exp. Meth. 185 (1997), 1137-1142) and Sasaki et al. (Nucleic Acids Res. 22 (1994), 987-992).

[0045] mRNA from the kidney of 10-week-old CD1 mice was normalized by associating abundant mRNA species to antisense cDNA molecules covalently coupled to latex beads and subsequent removal by centrifugation. After two hybridization cycles, 200 ng (of 2 μg originally) of mRNA were obtained and used for preparing a cDNA library using a cDNA synthesis kit (Gibco BRL, Gaithersburg, Md.). After ligation of a BstXI adapter (Invitrogen, San Diego, Calif.) and cleavage with NotI, the cDNA molecules were inserted into a modified pcDNA3 vector (Invitrogen) under the control of the cytomegalovirus (CMV) promoter in which the neomycin resistance gene had been deleted. The DNA was introduced by electroporation into E. coli SURE cells (Stratagene Corp. La Jolla, Calif.) which were frozen immediately thereafter.

[0046] By plating out aliquots of the transformation mixture onto agar, it was found that the library contained about 2.5×105 clones. Aliquots which statistically contained single clones were inoculated in 900 μl of LB medium in wells of 96-well blocks (Qiagen, Hilden, Germany) and cultured with shaking at 300 rpm for 30 h. The remaining DNA was used to transform bacteria for large-scale isolation of plasmids and to sequence the inserted DNA. On the basis of the DNA sequence, a sequence comparison with commercial sequence databases was carried out with the aid of the Blast computer program.

[0047] 2.3 Determination of Apoptosis-inducing Nucleic Acids

[0048] The apoptosis-inducing activity of the nucleic acids transfected was determined by microscopic determination of the cell phenotype. The optical density of apoptotic cells increases, since the cytoplasm/nucleus volume ratio decreases and holes develop in the cytoplasma membrane due to degradation of the cytoskeleton.

[0049] 2.4 Plasmid Isolation

[0050] 96-well blocks with bacteria were centrifuged at 3 000 g for 5 min (Sigma centrifuges, Osterode am Harz, Germany). The supernatant was decanted and the blocks were inverted for 2 to 3 min. Then 170 μl of buffer P1 (50 mM Tris-HCl/10 mM EDTA pH 8.0) were added and the bacteria pellets were resuspended by complete vortexing for 10 to 20 min. After addition of 170 μl of buffer P2 (200 mM NaOH, 1% SDS), the block was sealed with foil, and the mixture was mixed by inverting and incubated at room temperature for 5 min. Lysis was stopped by adding 170 μl of 4° C. cold buffer P3 (3 M potassium acetate pH 5.5). Then 10 μl of RNaseA solution (1.7 mg/ml) were added, followed by incubation at room temperature and then at −20° C. for 5 min and another centrifugation at 6 000 rpm for 10 min. The supernatant was decanted into new blocks and 100 μl of buffer P4 (2.5% SDS in isopropanol) were added. The block was vortexed for 5 min followed by incubation initially at 4° C. for 15 min and then at −20° C. for 15 min.

[0051] After centrifugation at 6 000 rpm for 10 min, the supernatant was introduced into 96-well polyoxy-methylene microtiter blocks. 150 μl of a silicon oxide suspension were added followed by incubation at room temperature for 20 min. The plates were centrifuged at 6 000 rpm for 5 min. The supernatant was carefully decanted and 400 μl of acetone (−20° C.) were added. The plates were again vortexed (30 sec) and centrifuged at 6 000 rpm for 3 min. This acetone washing was repeated once. The plates were dried initially at room temperature for 5 min and then in a vacuum chamber for 5 min. The pellets were resuspended in 75 μl of water (60° C.) and centrifuged at 6 000 rpm and 4° C. for 10 min. The supernatant was stored in a 96-well microtiter plate at −20° C.

[0052] 3. Results

[0053] Clone 1 is composed of the following sequences: T7 sequence, BGH sequence, internal primer left and internal primer right (sequences 1-4). The total sequence is listed under Contig (sequence 5). Clone 1 is homologous to the following ESTs (expressed sequence tags): uc81e12.y1 Sugano mouse kidney mkia Mus musculus cDNA clone (GenBank Acc. No AA986577.1|AA986577), 99% identity; mq28c01.r1 Barstead MPLRB1 Mus musculus cDNA clone (GenBank Acc. No AA137597.1|AA137597, 100% identity; vc94d05.r1 Barstead MPLRB1 Mus musculus cDNA clone (GenBank Acc. No AA388338.1|AA388338), 99% identity; vg82f08.r1 Barstead MPLRB1 Mus musculus cDNA clone (GenBank Acc. No AI098009.1|AI098009), 99% identity; uc81f01.x1 Sugano mouse kidney mkia Mus musculus cDNA clone (GenBank Acc. No AA986094.1|AA986094), 100% identity.

[0054] Clone 2 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 2 is homologous to the following database entries: Homo sapiens cDNA FLJ20625 fis, clone KAT04008 (DNA Data Bank of Japan (DDBJ) Acc. No AK000632.1|AK000632), 91% identity; mf71g09.r1 Soares mouse embryo NbME13.5 14.5 Mus musculus cDNA clone (GenBank Acc. No W89554.1|W89554), 99% identity; G0103H12-3 Mouse E7.5 Embryonic Portion cDNA Library Mus musculus cDNA clone (GenBank Acc. No AW536394.1|AW536394), 99% identity.

[0055] Clone 3 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 3 is homologous to EMBL Acc. No X78936|MMPHRPR: M. musculus mRNA for parathyroid hormone/parathyroid hormone related peptide receptor, 94% identity.

[0056] Clone 4 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 4 is homologous to Mus musculus mRNA for calcium channel gamma 5 subunit (CACNG5 gene) (EMBL. Acc. No AJ272046.1|MMU272046), 97% identity.

[0057] Clone 5 is homologous to RefSeq Database Acc. No NM008218.1: Mus musculus hemoglobin alpha, adult chain 1 (Hba-a1), mRNA having a length of 564 bp and 97% identity, and GenBank Acc. No L75940.1|MUSALGL: Mus musculus alpha-globin mRNA, complete cds, 98% identity.

[0058] Clone 6 is composed of T7 sequence or R2 sequence and BGH sequence or 4SP6 sequence. The total sequence is listed under Contig. Clone 6 is homologous to the following database entries: Mus musculus domesticus mitochondrial carrier homolog 1 isoform a mRNA, complete cds; nuclear gene for mitochondrial (GenBank Acc. No AF176007.2|AF176007), 99% identity; Homo sapiens CGI-64 protein mRNA, complete cds: (GenBank Acc. No AF151822.1|AF151822), 90% identity; Homo sapiens presenilin-associated protein mRNA, complete cds (GenBank Acc. No AF189289.1|AF189289), 89% identity.

[0059] Clone 7 is homologous to GenBank Acc. No AF151893.1|AF151893: Homo sapiens CGI-135 protein mRNA, complete cds, 86% identity.

[0060] Clone 8 is homologous to RefSeq Acc. No NM012504.1: Rattus norvegicus ATPase, Na+K+transporting, alpha 1 polypeptide (Atp1a1), mRNA, 94% identity.

[0061] Clone 9 is homologous to the following database entries: Mus musculus solute carrier family 27 (fatty acid transporter), member 2 (Slc27a2), mRNA (RefSeq Acc. No NM011978.1), 99% identity; Mus musculus fatty acid transport protein 2 mRNA, complete cds (GenBank Acc. No AF072757.1|AF072757), 99% identity; Mus musculus mRNA for very-long-chain acyl-CoA synthetase (VLACS) (EMBL Acc. No AJ223958.1), 99% identity.

[0062] Clone 10 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 10 is homologous to EMBL Acc. No AL080066.1|HSM800567: Homo sapiens mRNA; cDNA DKFZp564J142 (from clone DKFZp564J142), 89-95% identity, and to DDBJ Acc. No AK001993.1|AK001993: Homo sapiens cDNA FLJ11131 fis, clone PLACE1006325, highly similar to Homo sapiens mRNA; cDNA DKFZp564J142, 89-95% identity.

[0063] Clone 11 is homologous to the following database entries: RefSeq Acc, No NM009984.1: Mus musculus cathepsin L (Ctsl), mRNA, 96% identity; EMBL Acc. No X06086.1|MMMEPR: Mouse mRNA for major excreted protein (MEP), 96% identity; GenBank Acc. No J02583.1|MUSCPR: 96% identity.

[0064] Clone 12 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 12 is homologous to the following database entries: EMBL Acc. No AL137721.1|HSM802233: Homo sapiens mRNA; cDNA DKFZp761H221, 89% identity; GenBank Acc. No L34839.1|HUMTUM: Homo sapiens over-expressed breast tumor protein mRNA, 89% identity; GenBank Acc. No AF216754.1|AF216754: Homo sapiens over-expressed breast tumor protein (OBTP) mRNA, complete cds, 89% identity; GenBank Acc. No U16813|HSU16813: Human Bak-3 pseudogene, complete cds, 88% identity. Clone 12 is homologous to the following ESTs: DDBJ Acc. No C88895|C88895: Mus musculus early blastocyst cDNA, clone 01B00051IK19, 97% identity, and GenBank Acc. No AA2687191|AA268719: Soares mouse NML Mus musculus cDNA clone 747619 5′, 97% identity.

[0065] Clone 13 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 13 is homologous to GenBank Acc. No AF151807.1|AF151807: Homo sapiens CGI-49 protein mRNA, complete cds, 87-90% identity.

[0066] Clone 14 is homologous to GenBank Acc. No AF080469|AF080469: Mus musculus putative glycogen storage disease type 1b protein mRNA, complete cds, 94% identity.

[0067] Clone 15 shows identity with GenBank Acc. No U31241|CGU31241: Cricetulus griseus integral membrane protein CII-3 mRNA, nuclear gene encoding mitochondrial protein, complete cds, 85% identity, and with GenBank Acc. No S74803|S74803: CII-3 succinate ubiquinone oxidoreductase complex II membrane-intrinsic subunit [cattle, heart, mRNA, 83% identity.

[0068] Clone 16 is composed of T7 sequence or 4SP6 sequence and BGH sequence. The total sequence is listed under Contig. Clone 16 is homologous to GenBank Acc. No AF116911.1|AF116911: Mus musculus thymic dendritic cell-derived factor 1 mRNA, complete cds, 96% identity and to RefSeq Acc. No NM004872.1: Homo sapiens mouse tropomyosin homolog (HSPC001) mRNA, 89-92% identity.

[0069] Clone 17 shows identity with GenBank Acc. No AF056031|AF056031: Rattus norvegicus kynurenine 3-hydroxylase mRNA, complete cds, 90% identity, and with EMBL Acc. No Y13153|HSKYNU3MO: Homo sapiens mRNA for kynurenine 3-monooxygenase, 82% identity.

[0070] Clone 18 is composed of T7 sequence and BGH sequence. The total sequence is listed under Contig. Clone 18 is homologous to GenBank Acc. No AW109849.1|AW109849: MT2475 mouse liver, dioxin treated Mus musculus cDNA clone MT2475 3′, 94% identity; GenBank Acc. No AA277327.1|AA277327: va81e12.r1 Soares mouse NML Mus musculus cDNA clone IMAGE:737806 5′ similar to WP:C02F5.3 0. CE00039 GTP-BINDING PROTEIN, 93% identity; GenBank Acc. No AI646762.1|AI646762: ub65e0.1.×1 Soares_mammary_gland_NMLMG Mus musculus cDNA clone IMAGE:1382616 3′ similar to WP:C41D11.5 CE08662 ENDONUCLEASE, 94% identity.

[0071] Clone 19 is homologous to DDBJ Acc. No AB005451|AB005451: Mus musculus mRNA for RST, complete cds, 92% identity.

[0072] Clone 20 is homologous to GenBank Acc. No AA1090181|AA109018; mp37f03.r1 Barstead MPLRB1 Mus musculus cDNA clone 571421 5′ similar to SW:ACY2_HUMAN P45381 ASPARTOCYLASE, 96% identity.

[0073] Clone 21 is homologous to the following database entries: GenBank Acc. No M12673|RATGNPAS: RATGNPAS Rat guanine nucleotide-binding protein G-s, alpha subunit mRNA complete cds, 87% identity, and to EMBL Acc. No Y00703|MMGTPAMU: Mouse uncoupled S49 cells mRNA for stimulatory GTP-binding protein alpha subunit, 87% identity; GenBank Acc. No M17525|RATBPGTPD: RATBPGTPD Rat GTP-binding protein (G-alpha-8) mRNA, complete cds, 87% identity; GenBank Acc. No AF116268|AF116268: Mus musculus G-protein XLAS (Xlas) mRNA, alternatively spliced, complete cds, 94% identity.

[0074] Clone 22 is homologous to the following database entries: GenBank Acc. No AF061026|AF061026: Mus musculus leucine zipper-EF-hand containing transmembrane protein 1 (Letm1) mRNA, complete cds, 93-95% identity.

[0075] Clone 23 is homologous to the following database entries: GenBank Acc. No AA086895|AA086895: mk19c02.r1 Soares mouse p3NMF19.5 Mus musculus cDNA clone 493346 5′ similar to WP:F17C11.8 CE05655 and to GenBank Acc. No AA881548|AA881548: vx20b03.r1 Soares 2NbMT Mus musculus cDNA clone 1264973 5′, 88% identity, and to GenBank Acc. No AA073042|AA073042: mm78b04.r1 Stratagene mouse embryonic carcinomaRA (#937318) Mus musculus cDNA clone 534511 5′ similar to WP:F17C11.8, 89% identity.

[0076] Clone 24 is homologous to GenBank Acc. No U22465|MMU22465: Mus musculus Na/Pi-cotransporter (NaPi-7) mRNA, complete cds, 93% identity, and to GenBank Acc. No L33878|MUSSPT: Mus musculus renal sodium phosphate (Na+/Pi) transporter mRNA complete cds, 93% identity.

[0077] Clone 25 is homologous to GenBank Acc. No AF049882: Rattus norvegicus metastasis suppressor homolog (KAI1) mRNA, complete cds and to DDBJ Acc. No D14883|MUSC33R2IA: Mouse mRNA for C33/R2/IA4, complete cds, 94% identity. It was shown for Clone 25 that C33-induced apoptosis is mediated by the induction of free radicals of oxygen which lead to proapoptotic activation of mitochondria. These free radicals of oxygen are not generated by the mitochondrial respiratory chain, since cells having a genetic defect in the respiratory chain still respond to C33 expression with apoptosis.

[0078] The proapoptotic activity of C33 is not dependent on substrate or cell-cell interaction, since C33 causes even cells in suspension to become apoptotic. The rapid kinetics of the induction of apoptosis by C33 also differs from the proapoptotic effects of C33 stated previously. Furthermore, it has been shown that an extracellular loop in C33 which seems to be responsible for substrate interaction is not needed for the induction of apoptosis.

[0079] Clone 26 is homologous to GenBank Acc. No U50987|BTU50987: Bos taurus succinate-ubiquinone reductase membrane anchor subunit precursor QPs3 mRNA, complete cds, 86% identity and to DDBJ AB006202: Homo sapiens mRNA for cytochrome b small subunit of complex II, complete cds, 82% identity.

[0080] Clone 27 is homologous to GenBank Acc. No M31775|MUSCYTB558: Mouse cytochrome beta-558 mRNA, 3′ end, 88% identity.

[0081] Clone 28 is homologous to GenBank Acc. No U76253|MMU76253: Mus musculus E25B protein mRNA, complete cds, 88% identity.

[0082] Clone 29 is homologous to EMBL Acc. No Z98200.8|HS111B22: Human DNA sequence from clone RP1-111B22 on chromosome 6q16-21 Contains a novel pseudogene, a pseudogene similar to ribosomal protein L3, ESTs, STSs, GSSs and CpG Islands, complete sequence [Homo sapiens], 85% identity, and to GenBank Acc. No AW489000.1|AW489000: UI-M-BH3-asd-a-10-0-UI.s1 NIH_BMAP_M_S4 Mus musculus cDNA clone UI-M-BH3-asd-a-10-0-UI 3′, 85% identity, and to GenBank Acc. No AW488401.1|AW488401: UI-M-BH3-art-b-02-0-UI.s1 NIH_BMAP_M_S4 Mus musculus cDNA clone UI-M-BH3-art-b-02-0-UI 3′, 98% identity.

[0083] Clone 30 is homologous to the following database entries: GenBank Acc. No AI115883|AI115883: ue96a12.y1 Sugano mouse embryo mewa Mus musculus cDNA clone 1498942 5′, mRNA sequence [Mus musculus], 97% identity; GenBank Acc. No AA052396|AA052396: mb67c07.r1 Soares mouse p3NMF19.5 Mus musculus cDNA clone 334476 5′, 96% identity; GenBank Acc. No AA777720|AA777720: zj06a08.s1 Soares fetal liver spleen 1NFLS S1 Homo sapiens cDNA clone 449462 3′, 91% identity; GenBank Acc. No AA960116|AA960116: ub54e08.s1 Soares mouse mammary gland NMLMG Mus musculus cDNA clone 1381574 3′, 91% identity.

[0084] Clone 31 is homologous to the following database entries: GenBank Acc. No AI315450|AI315450: uj46g05.y1 Sugano mouse liver mlia Mus musculus cDNA clone IMAGE:1923032 5′, mRNA sequence [Mus musculus], 89% identity; GenBank Acc. No AI019678|AI019678: ua92d11.r1 Soares mouse mammary gland NbMMG Mus musculus cDNA clone 1364949 5′, 89% identity.

[0085] Clone 32 is homologous to GenBank Acc. No U07159|MMU07159: Mus musculus medium-chain acyl-CoA dehydrogenase mRNA, complete cds, 94% identity.

[0086] Clone 33 is homologous to GenBank Acc. No M76131|MUSEF2: Mouse elongation factor 2 (ef-2) mRNA, 3′ end, 89% identity.

[0087] Clone 34 is homologous to GenBank Acc. No AF072757|AF072757: Mus musculus fatty acid transport protein 2 mRNA, complete cds, 96% identity.

[0088] Clone 35 is homologous to EMBL Acc. No X76453|RNHREV107: R.norvegicus (Sprague Dawley) H-rev107 mRNA, 90% identity, and to EMBL Acc. No X92814|HSHREV107: H.sapiens mRNA for rat HREV107-like protein, 85% identity.

[0089] Clone 36 is homologous to GenBank Acc. No AW107362.1|AW107362: um15a0.4.X1 Sugano mouse kidney mkia Mus musculus cDNA clone IMAGE:2192334 3′ similar to SW:ACY2_HUMAN P45381 ASPARTOACYLASE, 93% identity.

[0090] Clone 37 is homologous to the following database entries: GenBank Acc. No AI315920|AI315920: uj27f11.y1 Sugano mouse kidney mkia Mus musculus cDNA clone IMAGE:1921197 5′ similar to TR:Q14521 Q14521 GIANT LARVAE HOMOLOGUE; mRNA sequence [Mus musculus], 87% identity; GenBank Acc. No AI315072|AI315072: uj23e11.x1 Sugano mouse kidney mkia Mus musculus cDNA clone IMAGE:1920812 3′, mRNA sequence [Mus musculus], 94% identity; GenBank Acc. No AF109905|MMHC213L3: Mus musculus major histocompatibility locus class II regions Hsc70t gene, partial cds; smRNP, G7A, NG23, MutS homolog, CLCP, NG24, NG25, and NG26 genes, complete cds; and unknown genes, 82-96% identity; GenBank Acc. No AF110520|MMHC425018: Mus musculus major histocompatibility complex region NG27, NG28, RPS28, NADH oxidoreductase, NG29, KIFC1, Fas-binding protein, BING1, tapasin, RalGDS-like, KE2, BING4, beta 1,3-galactosyl transferase, and RPS18 genes, 82% identity.

[0091] Clone 38 is homologous to GenBank Acc. No S45663|S45663: SC2=synaptic glycoprotein [rats, brain, mRNA, 1178nt], 91% identity.

[0092] Clone 39 is homologous to GenBank Acc. No AA763399|AA763399: vw53h02.r1 Soares mouse mammary gland NMLMG Mus musculus cDNA clone 1247571 5′ similar to WP:F32D8.4 CE05783 LACTATE DEHYDROGENASE, 96% identity.

[0093] Clone 40 is homologous to GenBank Acc. No U00677|U00677: Mus musculus syntrophin-1 gene, complete cds, 92% identity.

[0094] Clone 41 is homologous to GenBank Acc. No AC003043|AC003043: Homo sapiens chromosome 17, clone HRPC1067M6, complete sequence [Homo sapiens], 87% identity, and to GenBank Acc. No AA109006|AA109006: ml63d04.r1 Stratagene mouse testis (#937308) Mus musculus cDNA, 95% identity, and to GenBank Acc. No AA985996|AA985996: Sugano mouse liver mlia Mus musculus cDNA clone 1431282 3′ similar to TR:O14589 O14589 SIMILARITY TO Q09461, 93% identity.

[0095] Clone 42 is homologous to GenBank Acc. No U30838|MMU30838: Mus musculus voltage dependent anion channel 2 mRNA, nuclear gene encoding mitochondrial protein, complete cds, 94% identity, and to GenBank Acc. No L08666|HUMPORIN: Homo sapiens porin (por) mRNA, complete cds and truncated cds, 94% identity.

[0096] Clone 43 is homologous to the following database entries: GenBank Acc. No M27071|MUSDIS2M1A: Mus musculus protein phosphatase type 1 (dis2m1) mRNA, complete cds, 92% identity; GenBank Acc. No U53456|MMU53456: Mus musculus protein phosphatase 1cgamma (PP1cgamma) mRNA, complete cds, 98-100% identity; EMBL Acc. No X56438|DMPP1A1: D.melanogaster PP1-alpha 96A gene for protein phosphatase 1, 80% identity; GenBank Acc. No M27067|EMEBIMG: Aspergillus nidulans phosphoprotein phosphatase 1 mRNA, complete cds, 80% identity; GenBank Acc. No M60215|MZEZMPP1: Z.mays protein phosphatase-1 (ZmPP1) mRNA, complete cds, 83% identity; GenBank Acc. No U00063|CELF56C9: Caenorhabditis elegans cosmid F56C9, 81-86% identity.

[0097] Clone 44 is homologous to GenBank Acc. No U52842|MMU52842: Mus musculus kidney-specific transport protein mRNA, complete cds, 99% identity, and to DDBJ Acc. No AB004559|AB004559: Rattus norvegicus mRNA for multispecific organic anion transporter, complete cds, 93% identity.

[0098] Clone 45 is homologous to the following database entries: GenBank Acc. No AF080252|AF080252: Mus musculus serine/threonine protein kinase 51PK(S) mRNA, complete cds, 94% identity; GenBank Acc. No AF080253|AF080253: Mus musculus serine/threonine protein kinase 51PK(L) mRNA, complete cds, 94% identity; DDBJ Acc. No AB000449|AB000449: Homo sapiens mRNA for VRK1, complete cds, 83% identity.

[0099] Clone 46 is homologous to the following database entries: GenBank Acc. No J048061MUSOSP: Mus musculus osteopontin mRNA, complete cds, 95% identity; EMBL Acc. No X13986|MMPONTIN: Mouse mRNA for minopontin, 96% identity; EMBL Acc. No X16151|MMETA1: Mouse mRNA for early T-lymphocyte activation 1 protein (ETa-1), 95% identity; GenBank Acc. No S78177|S78177:Eta-1/Op(Eta-1b)=early T-lymphcyte activator-1 [mice, C3H/HeJ, spleen, mRNA, 1087 nt], 98% identity.

[0100] Clone 47 is homologous to DDBJ Acc. No AB006451|AB006451: Rattus norvegicus mRNA for Tim23, complete cds, 94% identity, and to GenBank Acc. No AF030162|AF030162: Homo sapiens inner mitochondrial membrane translocase Tim23 (TIM23) mRNA, nuclear gene encoding mictochondrial protein complete cds, 89% identity.

[0101] Clone 48 is homologous to DDBJ Acc. No D38549|HUMHA1025A: Human mRNA for KIAA0068 gene, partial cds, 86% identity, and to GenBank Acc. No AF072697|AF072697: Mus musculus SHYC (Shyc) mRNA, complete cds, 96% identity.

[0102] Clone 49 is homologous to GenBank Acc. No U07971|RNU07971: Rattus norvegicus Sprague-Dawley L-arginine:glycine amidinotransferase mRNA, partial cds, 85% identity.

[0103] Clone 50 is homologous to DDBJ Acc. No AU035342|AU035342: Sugano mouse brain mncb Mus musculus cDNA clone MNCb-0343, mRNA sequence [Mus musculus], 87% identity, and to GenBank Acc. No AI286459|AI286459: ui77d03.y1 Sugano mouse liver mlia Mus musculus cDNA clone IMAGE:1888421 5′ similar to WP:T06D8.9 CE02330. mRNA sequence [Mus musculus], 87% identity.

[0104] Clone 51 is homologous to GenBank Acc. No M22998|MUSGLUTRN: MUSGLUTRN Mouse facilitated glucose transport protein mRNA, complete cds, 93% identity, and to GenBank Acc. No S77924|S77924: Glut-1=glucose transporter isoform 1 [mice, embryo, mRNA Partial, 321 nt], 93% identity.

[0105] Clone 52 is homologous to EMBL Acc. No AJ010953|HSA010953: Homo sapiens mRNA for putative Ca2+−transporting ATPase, partial, 79% identity.

[0106] Clone 53 is homologous to Acc. No U94593: Mus musculus uncoupling protein homolog (UCPH) mRNA.

[0107] Clone 54 is homologous to Acc. No M27315.1: Rattus norvegicus mitochondrial cytochrome c oxidase subunits I, II and III, and ATPase subunit 6 genes, complete cds.

[0108] Clone 55 is composed of T7 sequence and BGH sequence. The total sequence is listed under total sequence. Clone 12 is homologous to the following database entries: Acc. No AL080317.11: Human DNA sequence from clone RP5-1112D6 on chromosome 6q21-22.2. Contains the gene for a PUTATIVE novel protein similar to bacterial NARK (nitrite extrusion protein, nitrite facilitator), the 3′ end of the REV3L gene for REV3 (yeast homolog)-like, catalytic subunit of DNA polymerase zeta (EC 2.7.7.7, POLZ), ESTs, STSs, GSSs and a putative CpG island, complete sequence.

[0109] Clone 56 is homologous to Acc. No AW106096.1: um23a10.y1 Sugano mouse embryo mewa Mus musculus cDNA clone IMAGE:2225370 5′, mRNA sequence.

[0110] Clone 57 is homologous to Acc. No NM000210.1 Homo sapiens integrin, alpha 6 (ITGA6) mRNA.

[0111] Clone 58 is homologous to Acc. No AW106096.1: um23a10.y1 Sugano mouse embryo mewa Mus musculus cDNA clone IMAGE:2225370 5′ mRNA sequence.

[0112] Clone 59 is homologous to Acc. No NM007748.1: Mus musculus cytochrome c oxidase, subunit VI a, polypeptide 1 (Cox6a1), mRNA.

[0113] Clone 60 is homologous to Acc. No AC005403.1: Mus musculus clone UWGC:ma53a068 from 14D1-D2 (T-Cell Receptor Alpha Locus), complete sequence.

[0114] Clone 61 is homologous to Acc. No L07095.1: Mus domesticus strain NZB/B1NJ mitochondrion genome, complete sequence.

[0115] Clone 62 is homologous to Acc. No NM009155.1: Mus musculus selenoprotein P, plasma, 1 (Sepp1), mRNA complete cds.

[0116] Clone 63 is homologous to Acc. No J03297.1: Mouse ERp99 mRNA encoding an endoplasmic reticulum transmembrane protein.

[0117] Clone 64 is homologous to Acc. No AF047431.1: Homo sapiens AAPT1-like protein mRNA, partial cds.

[0118] Clone 65 is homologous to EMBL Acc. No U79287 Human clone 23867 mRNA sequence 1396 bp.

[0119] Clone 66 is homologous to Acc. No C88489, AA073437, AI048028 and to ESTs with DDBJ Acc. No C88489; GenBank Acc. No AA073437; AI048028.

[0120] Clone 67 is homologous to Acc. No AK001441: Homo sapiens cDNA FLJ10579 fis, clone NT2RP2003446 2251 bp mRNA and to ESTs with Acc. No AI663355 and AU080732.

[0121] Clone 68 is homologous to Acc. No AF005038: Homo sapiens Secretory Carrier Membrane Protein (SCAMP2) mRNA.

[0122] Clone 69 is homologous to Acc. No U44731: Mus musculus putative purine nucleotide binding protein mRNA.

[0123] Clone 70 is homologous to Acc. No U16818: Mus musculus UDP glucuronosyltransferase (UGT1-06) mRNA.

[0124] Clone 71 is homologous to Acc. No NM004256: Homo sapiens organic cationic transporter-like 3 (ORCTL3) mRNA.

[0125] Clone 72 is homologous to Acc. No AK000559: Homo sapiens cDNA FLJ0552 fis, clone KAT11732.

[0126] Clone 73 is homologous to Acc. No X89968: Rattus norvegicus mRNA for alpha-soluble NSF attachment protein.

[0127] Clone 74 is homologous to Acc. No D85137: Mouse mRNA for PP1gamma (protein phosphatase1gamma).

[0128] Clone 75 is homologous to Acc. No NM13 001089: Homo sapiens ATP-binding cassette, sub-family A (ABC1), member 3 (ABCA3) mRNA.

[0129] Clone 76 is homologous to mouse ESTs with Acc. No AI315969, AI930239, AI666299 and AV141103.

[0130] Clone 77 is homologous to Acc. No AB025405: Mus musculus mRNA for sid2895p (mouse microsomal signal peptidase)

[0131] Clone 78 is homologous to Acc. No AK000427. The clone is partially homologous to: Homo sapiens cDNA FLJ20420 fis, clone KAT02462.

[0132] Clone 79 is homologous to Acc. No NM009127: Mus musculus stearoyl-Coenzyme A desaturase 1 (Scd1)

[0133] Clone 80 is homologous to Acc. No U21049: Human DD96 mRNA (a gene selectively upregulated in human carcinomas).

[0134] Clone 81 is homologous to Acc. No AF070626 and AB020980: Homo sapiens clone 24483 unknown mRNA (AF070626), and Homo sapiens mRNA for putative membrane protein (AB020980).

[0135] Clone 82 is partially homologous to Acc. No U92989: Homo sapiens clone DT1P1E11 mRNA, CAG repeat region.

[0136] Clone 83 is homologous to Acc. No AF035208: Mus musculus putative v-SNARE Vti1b mRNA (soluble NSF attachment protein receptor).

[0137] Clone 84 is homologous to Acc. No NM012504: Rattus norvegicus ATPase, Na+K+transporting, alpha 1 polypeptide (Atp1a1), mRNA.

[0138] Clone 85 is homologous to Acc. No NM007749: Mus musculus cytochrome c oxidase subunit VIIc (Cox7c), mRNA.

[0139] Clone 86 is homologous to Acc. No AF079565: Mus musculus ubiquitin-specific protease UBP41 (Ubp41) mRNA.

[0140] Clone 87 is homologous to Acc. No AJ006341: Mus musculus mRNA for peroxisomal integral membrane protein PMP34.

[0141] Clone 88 is homologous to Acc. No AF223950: Mus musculus TIM22 preprotein translocase (Tim22) mRNA, complete cds; nuclear gene for mitochondrial product.

[0142] Clone 89 is homologous to Acc. No NM011479: Mus musculus serine palmitoyltransferase, long chain base subunit 2 (Spt1c2), mRNA.

[0143] Clone 90 is homologous to Acc. No M23984: Rat mitochondrial proton/phosphate symporter mRNA, complete cds and to Acc. No X60036: H.sapiens mRNA for mitochondrial phoshhate carrier protein.

[0144] Clone 91 is homologous to Acc. No AF113127: Homo sapiens S1R protein (S1R) mRNA, complete cds (human cowpox virus homolog).

[0145] Clone 92 is composed of T7 sequence and BGH sequence. The total sequence is shown as an assembly of a plurality of EST sequences (EST assembly) in Contig. Clone 92 is homologous to UniGene Mm.86545.

[0146] Clone 93 is homologous to human genomic DNA (PAC 69E11 on chromosome 1q23-24).

[0147] Clone 94 is homologous to Acc. No NM011512: Mus musculus surfeit gene 4 (Surf4), mRNA.

[0148] Clone 95 is composed of T7 sequence and BGH sequence. The total sequence is shown as an assembly of a plurality of EST sequences (EST assembly) under total cDNA EST cluster. Clone 95 is homologous to UniGene: Mm.27841 (mouse) and Hs.100132 (human).

[0149] Clone 96 is homologous to UniGene Hs.133494, Mm.31778 and Rn.11778.

[0150] Clone 97 is homologous to Acc. No AF192558: DEFINITION Mus musculus domesticus mitochondrial carrier homolog 1 isoform b (Mtch1) mRNA, complete cds; nuclear gene for mitochondrial product and to Acc. No AF192558/AF192559: Homo sapiens mitochondrial carrier homolog 1 isoform b (MTCH1) mRNA, partial cds; nuclear gene for mitochondrial product.

[0151] Clone 98 is homologous to Acc. No NM016783: Mus musculus progesterone receptor membrane component (Pgrmc-pending), mRNA.

[0152] Clone 99 is homologous to Acc. No NM13 003002: Homo sapiens succinate dehydrogenase complex, subunit D, integral membrane protein (SDHD) mRNA.

[0153] Clone 100 is homologous to Acc. No U95822: Human putative transmembrane GTPase mRNA, partial cds.

[0154] Clone 101 is homologous to Acc. No X99963: M.musculus rhoB gene.

[0155] Clone 102 is homologous to Acc. No AF161525: Homo sapiens HSPC177 mRNA, complete cds. The gene contains a BH3 domain which is present in many Bcl-2-like genes. Genes containing such “BH3-only” domains are proapoptotic and have the evolutively conserved function of inducing apoptosis. The experiments showed that CGI-135 can interact with members of the Bcl-2 gene family. The BH3 domain is required for efficient induction of apoptosis by CGI-135.

[0156] Clone 103 shows no homology to any known sequences.

[0157] Clone 104 is homologous to Unigene Acc. No AW682500.30119 Mm.30119|Mm.30119: Mus musculus cDNA, 91% identity.

[0158] Clone 105 is homologous to EMBL Acc. No X98475.1|MMVASP: M.musculus VASP gene, 90% identity.

[0159] Clone 106 is homologous to EMBL Acc. No X03369.1|RNTUBB15: Rat mRNA for beta-tubulin T beta15, 90% identity.

[0160] Clone 107 is homologous to GenBank Acc. No BE226644.1|BE226644: ia23h11.y1 Mouse E10 5 12 5 Pancreas cDNA Library Mus musculus cDNA 5′ similar to SW:NUML—BOVIN Q01321 NADH-UBIQUINONE OXIDOREDUCTASE MLRQ SUBUNIT, 87% identity.

[0161] Clone 108 is homologous to GenBank Acc. No AF157317.1|AF157317: Homo sapiens AD-015 protein mRNA, complete cds, 83% identity. Clone 109 is homologous to GenBank Acc. No M88136.11CRUSTSTA: Cricetulus griseus seryl tRNA synthetase mRNA, partial cds, 91% identity.

[0162] Clone 110 shows no homology to any known sequences.

[0163] Clone 111 is homologous to GenBank Acc. No AW106096.27359|Mm.27359: um23a10.y1 Mus musculus cDNA, 5′ end, 99% identity.

[0164] Clone 112 is homologous to GenBank Acc. No AI413025.1|AI413025 EST241326 Normalized rat brain, Bento Soares Rattus sp. cDNA cloneRBRDZ28 3′ end, 97% identity.

[0165] Clone 113 is homologous to EMBL Acc. No Human DNA sequence from clone RP3-402G11 on chromosome 22q13.31-13.33 “Contains the MAPK12 gene for mitogen activated protein kinase 12 (SAPK3), the MAPK11 gene for mitogen activated protein kinase 11 (PRKM11), gene KIAA0315, the gene for a novel protein”, 86% identity.

[0166] Clone 114 is homologous to DDBJ Acc. No AK000823.1|AK000823 Homo sapiens cDNA FLJ20816 fis, clone ADSE00693, 88% identity.

[0167] Clone 115 is homologous to GenBank Acc. No AF007152.1|AF007152 Homo sapiens clone 23649 and 23755 unknown mRNA, partial cds, 83% identity.

[0168] Clone 116 is homologous to EMBL Acc. No X66370.1|RNRPS9 R.norvegicus mRNA for ribosomal protein S9, 94% identity.

[0169] Clone 117 is homologous to GenBank Acc. No BE161116.1|BE161116 PM3-HT0424-170200-001-b11 HT0424 Homo sapiens cDNA, 100% identity.

[0170] Clone 118 is homologous to DDBJ Acc. No AK000559.1|AK000559 Homo sapiens cDNA FLJ20552 fis, clone KAT11732, 86% identity.

[0171] Clone 119 is homologous to RefSeq Acc. No NM003713.1|Homo sapiens phosphatidic acid phosphatase type 2b (PPAP2B) mRNA, and translated products, 87% identity.

[0172] Clone 120 is homologous to GenBank Acc. No M30773.1 (HUMCNR: Human calcineurin B mRNA, complete cds, 88% identity.

[0173] Clone 121 is homologous to RefSeq Acc. No NM013770.1 or GenBank Acc. No AF188712.1 (AF188712: Mus musculus solute carrier family 25 (mitochondrial carrier; adenine nucleotide translocator), member 10 (Slc25a10), mRNA and Mus musculus mitochondrial dicarboxylate carrier mRNA, complete cds; nuclear gene for mitochondrial product, 98% identity.

[0174] Clone 122 is homologous to RefSeq Acc. No NM008525.1: Mus musculus delta-aminolevulinate dehydratase (Lv), mRNA, 100% identity.

[0175] Clone 123 is homologous to GenBank Acc. No M59861.1 (RAT10HCO: Rattus norvegicus 10 formyltetrahydrofolate dehydrogenase mRNA, complete cds, 93% identity.

[0176] Clone 124 is homologous to the following database entries: EMBL Acc. No X00525.1 (MmRNA02: Mouse 28S ribosomal RNA, 84% identity; GenBank Acc. No AF061799.1 (AF061799: Hydrolagus colliei internal transcribed spacer 1, partial sequence; 5.8S ribosomal RNA gene and internal transcribed spacer 2, complete sequence; and 28S ribosomal RNA gene, partial sequence, 83% identity; GenBank Acc. No AF061800.1 (AF061800: Squalus acanthias internal transcribed spacer 2; and 28S ribosomal RNA gene, partial sequence, 83% identity.

[0177] Clone 125 is homologous to RefSeq Acc. No NM007469.1: Mus musculus apolipoprotein CI (Apoc1), mRNA and AK011358.1|AK011358 Mus musculus 10 days embryo cDNA, RIKEN full-length enriched library, clone: 2610009E08, full insert sequence, 100% identity.

[0178] Clone 127 is homologous to GenBank Acc. No AK007676: Mus musculus 10 day old male pancreas cDNA, RIKEN full-length enriched library, clone: 1810032P22, full insert sequence, 100% identity; to GenBank Acc. No BC002242: Mus musculus, similar to sorting nexin 5, clone MGC:7534, mRNA, complete cds, 100% identity, and to GenBank Acc. No AC008066: Homo sapiens BAC clone RP11-293D9 from 8, complete sequence.

[0179] Clone 133 is homologous to GenBank Acc. No AK015068.1|AK015068: Mus musculus adult male testis cDNA, RIKEN full-length enriched library, clone: 4930403006, full insert sequence, 90% identity, and to DDBJ Acc. No AK004504.1|AK004504: Mus musculus 18 days embryo cDNA, RIKEN full-length enriched library, clone: 1190006A08, full insert sequence.

[0180] Clone 134 is homologous to GenBank Acc. No BC002108.1|BC002108: Mus musculus, Similar to ribosomal protein S27a, clone MGC:6601, mRNA, complete cds, 98% identity.

[0181] Clone 140 is homologous to DDBJ Acc. No AK008346.1|AK008346 Mus musculus adult male small intestine cDNA, RIKEN full-length enriched library, clone: 2010107K03, full insert sequence, 99% identity, and to RefSeq Acc. No NM007512.1 | Mus musculus ATPase inhibitor (Atpi), mRNA, 99% identity.

[0182] Clone 141 shows no homology to any known sequences.

[0183] Clone 144 is homologous to GenBank Acc. No AF006482.1|AF006482 Mus musculus nucleoside triphosphatase (NTPase) mRNA, complete cds, 99% identity; to GenBank Acc. No AF084569.1|AF084569 Mesocricetus auratus cph proto-oncogene product (cph) mRNA, complete cds, 90% identity.

[0184] Clone 145 is homologous to DDBJ Acc. No AK002787.1|AK002787 Mus musculus adult male kidney cDNA, RIKEN full-length enriched library, clone: 0610038B12, full insert sequence, 100% identity; to DDBJ Acc. No AK010989.1|AK010989 Mus musculus 13 days embryo liver cDNA, RIKEN full-length enriched library, clone: 2510022D06, full insert sequence, 100% identity; to RefSeq Acc. No NM031101.1| Rattus norvegicus ribosomal protein L13 (Rpll3), mRNA, 93% identity.

[0185] Clone 146 is homologous to RefSeq Acc. No NM025278.1| Mus musculus guanine nucleotide binding protein (G protein), gamma 12 (Gng12), mRNA, 99% identity.

[0186] The apoptosis-inducing genes (clones 1-124) identified by the genetic screening are listed in table 1 (pages 1-125) which is included as figure:

[0187] The following definitions relate to the information in table 1:
1“T7 sequence”:5′ sequence of the clone“BGH sequence”:3′ sequence of the clone“Internal Primer”:internal sequences of the clone,identified using primers obtainedfrom the T7 sequence (left) or theBGH sequence (right)“Identity”:comparison with sequences from theBLAST computer program (Altschul etal. (1997), Nucleic Acids Res. 25:3389-3402). Apart from completelyidentical sequences (100% identity)partly identical sequences(preferably ≧ 85% identity) whichshow allelic variants of theactually shown sequence orhomologous sequences from otherspecies, in particular from humans,are also indicated.Variants or homologous sequences orthis kind are, of course, likewiseincluded in the present invention.“Contig”complete sequence; combined fromthe “T7 sequence”, “BGH sequence”,and, where appropriate, from the“internal primer” sequences.“Properties”information on predicted propertiesof the resulting peptide“Prediction”an analysis using the “PSORT II”computer program (Nakai, K. andKanehisa, M., Genomics 14: 897-911(1992)) determines, on the basis ofthe sequence, possible propertiesand also cellular location of theresulting peptide with a predictedprobability. For clone 1, forexample, two transmembrane domainsand location in the ER (endoplasmicreticulum) with a probability of33%, in the vacuole with aprobability of 22%, in themitochondria with a probability of11%, and in the Golgi apparatus witha probability of 11%, aredetermined.“DNA ladder”biochemical method of detectingapoptosis (Bitzer et al. (1999) J.Virol. 73: 702-708)“PI-Facs”propidium iodide Facs: method ofdetecting apoptosis (Bitzer et al.(1999) J. Virol. 73: 702-708)“possible ORF”information on a possible “openreading frame” (ORF) in the one-letter code


[0188] The apoptosis-induced genes (clones 1-124, 125, 127, 133, 134, 140, 141, 144, 145, 146) identified by the genetic screening are listed in table 2 (pages 1-28) which is included as figure.
2TABLE 1Clone #T7 sequenceAGCTCATGTTGGACAGTCGTGTGAGGAGCTATGGAGCACAGCAGTAATCGCCCAGAGGACTTCCCGCTTAACGTGT  1TCTCTGTCACTCCGTACACACCCAGTACCGCCGACATCCAGGTGTCCGACGACGACAAGGCAGGGGCCACTTTGCTTTTCTCAGGCATCTTTCTAGGACTGGTGGGGATCACTTTCACTGTCATGGGCTGGATCAAATACCAAGGTGTCTCCCACTTTGAATGGACCCAGCTCCTCGGACCCATCCTTCTGTCGGTCGGAGTGACATTCATCCTGATCGCTGTGTGCAAATTCAAAATGCTATCCTGCCAGTTGTGCTCAGATAACGAGGAGAGGGTCCCGGACTCGGACCAGACTTCCGGAGGACAGTCGTTCGTTTTCACTGGCATCAATCAGCCCATCACCTTCCACGGGGCCACCGTGGTGCAGTATATCCCTCCTCCTTACGGTTCTCAGGAGCCCCTGGGAATGAACGCCACCTACCTGCAACCCATGATGAATCCTTGCGGTCTCATACCTCCTAGTGGAGCAGCGGCTGCCGCACCAAGTCCCCCTCAGTACTACACCATCTACCCTCAAGACAATGCTGCGTTCGTNGAGAGTGAGGGCTTCTCTCCTTTCGTGGGCACTGGATATGACAGGCCCGACTCTGATGCTGACCAGCTAGAAGGGACGGAGTTGGAAGAGGAGGACTGCGTATGTTCTCTTCTCCACCGNATGAGGAGAATACGCTCTACCTCGCTNGAGACTGCAANCTAAGGGACGGCATTTAAGCCCCTGNGATGNGAACTTGNGNGNNAACCNTGGGTCTTTANAAGTAGGNGNAAACNBGH sequenceATAGACATGTCTAGTTTTTTATTACTAGTTATCATCCAAGTGAAATGTCCCTGAGGCATAATATGAATCACAATAATAAACCAAGATTGTTTTGCTGATATCCTTGAAAAACCTGGACTCTTCTGACAGAGAGTAAAAGCAATCCCACATATAAGTGATCTTTGTAAAACTGTTTTCTTTCTAATTCTTTGGACACCTCCTAAAGTCTGCAGCTTTGGGCTGNGGTTGGTGACACCGTTCAGACTTAGGAAGCTGAAGGCTACCAGCTTTTCTTTGTTCAAATGAAGGTGAGAGCTACGCCCGGNGGCGGGNTAGANNGAGACInternal primerTTCCCACGCNGNTGNGGGCTTCTCTCCTTTCGTGGGCACTGGATATGACAGGCCCGACTGTGATGCTGACCAGCTAleftGAAGGGACGGAGTTGGAAGAGGAGGACTGCGTATGTTTCTCTCCTCCACCGTATGAGGAGATATACGCTCTACCTCGCTAGAGACTGCAATGCTAAGGGGACGGACATTTAAGCCCTGNGATGTGATACTTGGAGAGTTTATCGCTGAGTTCTTCAGAAGTTAGGTGTGAAAGCAGCTNAGGAGATCTTACAGATGTCATTNAAGGNGGGAAAGAAGTGCCCNGAGACTGCTAAATTAAGCTGCCCTGGTTAAATTCCCCTCTGCTCTGGTTTTGAATTCTCTCAGCTAAGAAACCCTCTGCAGCTGGAGAGTCGCTCTGAGATAGAGAGATTTNGGAGCCCACGCAGNGCCTNGGGCTNGATCTCTAGAGCCAGAAGAAAACAInternal primerTCCCAGCCTNTTCTNTGNTCAAATGAAGGTNAGAGCTACGCCCGGGGGCGGAGGGNGGGGGAGACGGGATGACTGrightATCATCTCCATGATTCATGACTACAAAGCGACACGGCAGNATGGCTCTGNGGAACAGATCAGAGGCATACCTGTGTTCCATAAGCNACTCAGCTGTACCTGCGTTCTGTAAGCCACTCGGCTGAGCTAGTTCGNGCCTGGGAATCACAGCCTGGGGGNGGGCAGAGGGAGCAGGCGCTNACCNATGTACATTACGCCTTGAACTTCANCCTTGCAAAGGAAAACNATCANGAGCAGGGGTCACTNTAACTCGGNGGACAGCACATGGNGACATTCATTATCCTCCTGNTACCTCGTCCACAGTAGGATCGGCCACCCAACACTATTCTAACATGGGGCACTGTTTCATCCNACTCTACTTATTCATTTATTTCTTAATGGATTTTATTTCTTTAACAAACTCTTNAAGATCCAAAGGCTTCCAGNGAGACCANATAANAGTCNAAGTTGTCTAANATAAGTNACTCTGCTGCGGAAGGTTCAGNGCCGTGCAGGGAAATTTCTAGCTGAGCCTGCTCTCTTCCCTGCTTGCTTGCCAGCCTCCCTTTNATCANTCTNAGAGCTGCCATGGCTGCCCGGATTTAAAACTAANACAATCTTTNAAAACTAAGATNTCCTTTAAATGGATATTCCGGATGGContigAATTCGGATCCATGCCCAAAGGTCCTTCTCTAACTAACCGGAGCATGGTGTTCCCCACTCTCACACTCTGTTTCCTCTCATGTTGGACAGTCGTGTGAGGAGCTATGGAGCACAGCAGTAATCGCCCAGAGGACTTCCCGCTTAAGGTGTTCTCTGTCACTCCGTACACACCCAGTACCGCCGACATCCAGGTGTCCGACGACGACAAGGCAGGGGCCACTTTGCTTTTCTCAGGCATCTTTCTAGGACTGGTGGGGATCACTTTGACTGTCATGGGCTGGATCAAATACCAAGGTGTCTCCCACTTTGAATGGACCCAGCTCCTCGGACCCATCCTTCTGTCGGTCGGAGTGACATTCATCCTGATCGCTGTGTGCAAATTCAAAATGCTATCCTGCCAGTTGTGCTCAGATAACGAGGAGAGGGTCCCGGACTCGGACCAGACTTCCGGAGGACAGTCGTTCGTTTTCACTGGCATCAATCAGCCCATCACCTTCCACGGGGCCACCGTGGTGCAGTATATCCCTCCTCCTTACGGTTCTCAGGAGCCCCTGGGAATGAACGCCACCTACCTGCAACCCATGATGAATCCTTGCGGTCTCATACCTCCTAGTGGAGCAGCGGCTGCGCACCAAGTCCCCCTCAGTACTACACCATCTACCCTCAAGACAATGCTGCGTTCGTGGAGAGTGAGGGCTTCTCTCCTTTCGTGGGCACTGGATATGACAGGCCCGACTCTGATGCTGACCAGCTAGAAGGGACGGAGTTGGAAGAGGAGGACTGCGTATGTTTCTCTCCTCCACCGTATGAGGAGATATACGCTCTACCTCGCTAGAGACTGCAATGCTAAGGGGACGGACATTTAAGCCCTGTGATGTGATACTTGGAGAGTTTATCGCTGTGTTCTTCAGAAGTTAGGTGTCAAAGCAGCTCAGGAGATCTTACAGATGTCATTCAAGGTGGGAAAGAAGTGGCCCGAGACTGCTAAATTAAGCTGCCCTGGTTAAATTCCCCTCTGCTCTGGTTTTGAATTCTCTCAGCTAAGAAACCCTCTGCAGCTGGAGAGTCGCTCTGTGATAGAGTGATTTTGGAGCCCACGCAGTGCCTTGGGTTTGATCTCTAGAGCCAGAAGAAAACAAAAACAAAAACAAAAACAAAACAAGACCTCTCTACATAAAGTGCAGGAGGAAAATTCACCCATTTCCCCATCCCCCACCCGATATCCATTTGAAGGATATCTTAGTTTTGAAAGATTGTCTTAGTTTTAAATCCGGCAGCCATGGCAGCTCTCAGACTGATGAAAGGGAGGCTGGCAAGCAAGCAGGGAAGAGAGCAGGCTCAGGTAGAAATTTCCCTGCACGGCGCTGAACCTTCCGCAGCAGAGTGACTTATCTTAGACAACTTGGGCTGTTATCTGGTCTCCCTGGAAGCCTTTGGATCTTGAAGAGTTTGTAAAAGAAATAAAATCCATTAAGAAATAAATGAATAAGTAGAGTGGGATGAAACAGTGCCCCATGTTAGAATAGTGTTGGGTGGCCGATCCTACTGTGGACGAGGTAACAGGAGGATAATGAATGTCACCATGTGCTGTCCACCGAGTTACAGTGACCCCTGCTCCTGATGGTTTTCCTTTGCAAGGCTGAAGTTCAAGGCGTAATGTACATGGGTGAGCGCCTGCTCCCTCTGCCCACCCCCAGGCTGTGATTCCCAGGCACGAACTAGCTCAGCCGAGTGGCTTACAGAACGCAGGTACAGCTGAGTGGCTTATGGAACACAGGTATGCCTCTAATCTGTTCCACAGAGCCATGCTGCCGTGTCGCTTTGTAGTCATGAATCATGGAGATGATCAGTCATCCCGTCTCCCCCACCCCCCGCCGCCGGGCGTAGCTCTCACCTTCATTTGAACAAAGAAAAGCTGGTAGCCTTCAGCTTCCTAAGTCTGAAGGGTGTCACCAACCACAGCCCAAAGCTGCAGACTTTAGGAGGTGTCCAAAGAATTAGAAAGAAAACAGTTTTACAAAGATCAAAGGCCACTCAAGGTAAAGGTGGCTGCCCCCAAGAGAGATACAGGAATTGTCAGGTCTTGAAGGTTTTGGTACTGTGCTTATATGTGGGATTGCTTTTACTCTCTGTCAGAAGAGTCCAGGTTTTTCAAGGATATCAGCAAAACAATCTTGGTTTATTATTGTGATTCATATTATGCCTCAGGGACATTTCACTTGGATGATAACTAGTAATAAAAAACTAGACATGTCTAAAAAAAAAAAAAIdentityvarious ESTs which, however, do not completely cover the contig>gb|AA986577.1|AA986577 uc81e12.y1 Sugano mouse kidney mkia Mus musculus cDNAclone IMAGE:1432078 5′.Length = 553Score = 1082 bits (546), Expect = 0.0Identities = 551/553 (99%)Strand = Plus/Plus>gb|AA137597.1|AA137597 mq28c01.r1 Barstead MPLRB1 Mus musculus cDNAclone IMAGE:580032 5′.Length = 556Score = 1074 bits (542), Expect = 0.0Identities 542/542 (100%)Strand = Plus/Plus>gb|AA388338.1|AA388338 vc94d05.r1 Barstead MPLRB1 Mus musculus cDNAclone IMAGE:790665 5′.Length = 503Score = 545 bits (275), Expect = e−152Identities = 282/283 (99%), Gaps 1/283 (0%)Strand = Plus/Plus>gb|A1098009.1|A|098009 vg82f08.r1 Barstead MPLRB1 Mus musculus cDNAclone IMAGE:872487 5′.Length = 467Score = 910 bits (459), Expect = 0.0Identities = 465/467 (99%)Strand = Plus/Plus>gb|AA986094.1|AA986094 uc81f01.x1 Sugano mouse kidney mkia Mus musculus cDNAclone IMAGE:1432057 3′.Length = 555Score = 745 bits (376), Expect = 0.0Identities = 3761376 (100%)Strand = Plus/MinusPropertiesPrediction: 2TM-Dom. (C- + N-Term.intracetl.) 33% ER. 22% CM, 22% vacuole, 11% mito, 11% GolgiClone #T7 sequenceAGCTCGGCGCCGCCTGAGCGCCCGGCCCGACCCCGCCATGGGGTGCTGCTATAGCAGCGAAAACGAGGAGTCGGAC  2CAGGATCGGGAGGAGAGGAAGCTGCTGCTGGACCCCAGTAGCACCCCTACCAAAGCCCTCAATGGAGCCGAGCCCAACTACCATAGCCTACCTTCAGCTCGCACAGATGAGCAGGCCCTGCTTTCCTCCATCCTTGCCAAGACAGCTAGCAACATCATTGATGTGTCTGCCGCAGACTCCCAGGGCATGGAACAGCATGAGTACATGGACCGGGCAAGGCAGTACAGTACCCGCTTGGCTGTGCTTAGCAGCAGTCTGACCCATTGGAAGAAGCTGCCACCGTTGCCATCTCTCACCAGCCAGCCCCACCAAGTGCTGGCCAGTGAGCCTATCCCCTTCTCTGACTTGCAGCAGGTCTCCAGGATAGCTGCGTATGCCTATAGTGCACTTTCTCAGATCCGCGTGGATGCGAAAGAAGAGCTGGTTGTACAGTTTGGGATCCCATGAAGAGAGGGGCCCTAGGACAGCTCTTCCCTCGTCTTCACCCCGTCTCCACCCCACCTCTTCTGGCCCCCAGCCTCACTGNGGCTCTCTACAGTACCTAACCTGCTACTAATCACGGAGAAGAATGTGGAGGGAAAGAACAAGGCTGGAGGCCGGAGCAAGTGAGGACTAAGCBGH sequenceCAAATGAATATACTTTCTTTATCGAGGGGTGACAAACAAAAACAAAAAGAGCAAACATGTAAAAACCCAGGGTGCTAGAAATACAAACTCAATTCAGACTCAAGCTCGTCTAGACCCTGGTCATAATCCCCAGTGAGGTGCCTGTGAGCACCAAGTCAGGGAAGGGGACAGGAGTGAATCGGAGGCCAAGAGAAAGAGGGCAGGAAGGGATCTCCTAGGTCTCCCGGNGTCACCCCTACAGNGGTATGTCCATCTTCCCAATGACTGAAGATCTGCCAGGCCCTGTCCTCTTGGCCCCAACCTNACCCTAACCAGAGCATGAAGGCCGATGGCAATCGGTCCTCCCTTCCCTTGCTTAGTCCTCACTTGCTCCGGCCTCCAGCGTTGTTCTTTCCCTCCACATTCTTCTCCGTGATTAGTAGCAGGTTAGGTACTGTAGAGAGCCACAGTGAGGCTGGGGGCCAGAANAGGTGGGGTGGAGACGGGGTGAAGACGAGGGAAGAGCTGTCCTAGGGCCCCTCTCTTCATGGGATCCCAAACTGTACAACCAGCTCTTCTTTCGCATCCACGCGGATCTGAGAAAGTGCACTATAGGCATACGCAGCTATCCTGGAGACCTGCTGCAContigAGCTCGGCGCCGCCTGAGCGCCCGGCCCGACCCCGCCATGGGGTGCTGCTATAGCAGCGAAAACGAGGACTCGGAGCAGGATCGGGAGGAGAGGAAGCTGCTGCTGGACCCCAGTAGCACCCCTACCAAAGCCCTCAATGGAGCCGAGCCCAACTACCATAGCCTACCTTCAGGTCGCACAGATGAGCAGGCCCTGCTTTCCTCCATCCTTGCCAAGACAGCTAGCAACATCATTGATGTGTCTGCCGCAGACTCCCAGGGCATGGAACAGCATGAGTACATGGACCGGGCAAGGCAGTACAGTACCCGCTTGGCTGTGCTTAGCAGCAGTCTGACCCATTGGAAGAAGCTGCCACCGTTGCCATCTCTCACCAGCCAGCCCCACCAAGTGCTGGCCAGTGAGCCTATCCCCTTCTCTGACTTGCAGCAGGTCTCCAGGATAGCTGCGTATGCCTATAGTGCACTTTCTCAGATCCGCGTGGATGCGAAAGAAGAGCTGGTTGTACAGTTTGGGATCCCATGAAGAGAGGGGCCCTAGGACAGCTCTTCCCTCGTCTTCACCCCGTCTCCACCCCACCTCTTCTGGCCCCCAGCCTCACTGTGGCTCTCTACAGTACCTAACCTGCTACTAATCACGGAGAAGAATGTGGAGGGAAAGAACAAGGCTGGAGGCCGGAGCAAGTGAGGACTAAGCAAGGGAAGGGAGGACCGATTGCCATCGGGCTTCATGCTCTGGTTAGGGTNAGGTTGGGGCCAAGAGGACAGGGCCTGGCAGATCTTCAGTCATTGGGAAGATGGAGATACCNCTGTAGGGGTGACNCCGGGAGACCTAGGAGATCCCTTCCTGCCCTCTTTCTCTTGGCCTCCGATTCACTCCTGTCCCCTTCCCTGACTTGGTGCTCACAGGCACCTCACTGGGGATTATGACCAGGGTCTAGACGAGCTTGAGTCTGAATTGAGTTTGTATTTCTAGCACCCTGGGTTTTTACATGTTTGCTCTTTTTGTTTTTGTTTGTCACCCCTCGATAAAGAAAGTATATTCATTTGIdentity>dbj|AK00632.1|AK000632 Homo sapiens cDNA FLJ20625 fis, clone KAT04008Length = 1112Score = 813 bits (410), Expect = 0.0Identities = 596/650 (91%), Gaps = 6/650 (0%)>gb|W89554.1|W89554 mf71g09.r1 Soares mouse embryo NbME13.5 14.5Mus musculus cDNA clone IMAGE:419776 5′.Length = 471Score = 781 bits (394), Expect = 0.0Identities. = 399/401 (99%)Strand = Plus/Plus>gb|AW536394.1|AW536394 G0103H12-3 Mouse E7.5 Embryonic Portion cDNA LibraryMus musculus cDNA clone G0103H12 3′.Length = 624Score = 1088 bits (549), Expect = 0.0Identities = 558/562 (99%)Strand = Plus/MinusPropertiesDNA ladderClone #T7 sequenceAGTCTGGCTTCACGCTNCANNAGTGNCGAGCGCCTCACGGAGGAAGAGTTGCATATCATCGCGCAGGTGCCGCCTC  3CACCCGCCGCTGCCGCCGTTGGCTACGCTGGCTGCCGTGTGGCTGTGACCTTCTTCCTCTACTTCCTGGCTACCAACTACTACTGGATTCTGGTGGAGGGACTGTACTTACACAGCCTCATCTTCATGGCCrTTTTCTCAGAGAAGAAGTATCTGTGGGGCTTCACCATCTTTGGCTGGGGTCTGCCGGCTGTCTTCGTGGCTGTGTGGGTCGGTGTCAGAGCAAGCTTGGCCAACACTGGGTGCTGGGACCTGAGCTCTGGGCACAAGAAGTGGATCATCCAGGTGCCCATCCTGGCATCTGTTGTGCTCAACTTCATCCTCTTTATCAACATCATGCGGGTGCTTGCCACTAAGCTTNGGGAGACAAATGNGGGCCGGNGTGACACCAGGCANTAGTACCGGAAGCTGCTNACGTCACNTTGGTGCCNGCGCCACTCTTTTTGTCACTACAGCCGTCTTNATGGCCTTNCCGTACACCCGAGGTCTTNAGGGACACTTTGNCANATCCAGATCACTATNAGANTGCTTCTTTAAACTTCCTTTTCANGGGATTTTTTTTBGH sequenceCCCTTCTTTTTTTTTTTTTTTTTTCTNTTTTCCTTTNGTNTTCCNGGNCCAGTCCTGAANAGACAGCCAGCCAAANTTTGGNTTNTNGGNCCATNTGTCCATNTGCCCATGCCAGCAGTCCAGCCCNTTGANGCCCAGTCANATGACTGNTTCCCATTNTTCCTGCAANAANGGAGGNGGCCGGCGCAAACCCANAGGCCTNNTAATCCANACCCGAGCAGGAGCCATTAAGGAAGCCGTCGTCCTTGGGAACTGNCANAGNAACTGGNANGGTTTCGTTNTAAANGGNTGGAGCNCCCGGNTTGGCGNGGCCAGGCAGNTGGNAGNGGCCANTGGNGGNGGNAGGAAGNAGGCGGNAGNTAAGGGGAAGGNTGAGTCCTGNACGGIdentityemb|X78936|MMPHRPR M. musculus mRNA for parathyroid hormone/parathyroidhormone related peptide receptorLength = 1984Score = 878 bits (443), Expect = 0.0Identities = 557/591 (94%), Positives = 557/591 (94%), Gaps = 7/591 (1%)PropertiesDNA ladderClone #T7 sequenceAGGCGCTGCCTACCAGAGCGCAGCATGACGGCCATCGGCGCGCAGGCCCACAAGCTGTTGGGCCTTAAGAGGCCCC  4ACCGGTCTTTCTTTGAGTCCTTCATCCGGACACTCATCATCGTGTGCACTGCCCTGGCTGTGGTCCTTTCTTCAGTCTCCATCTGCGATGGCCACTGGCTCCTAGTGGAGGATCATCTCTTTGGGCTGTGGTACTTCTGCACCATCGGCAACCACAGTGAACCACACTGTCTGAGAGACCTGAGCCAGGCCCATATGCCCGGGCTGGCTGTAGGCATGGGCCTAGCACGCAGTGTGGCCGCCATGGCAGTGGTGGCTGCCATCTTCGGCTTGGAGATGCTCATTGTGTCCCAGGTGTGTGAAGATGTCCGCTCACGGCGCAAGTGGGCCATCGGTTCCTACCTCCTNCTGGTTGCCTTTATCCTCTCCTCTGGGGGCCTCCTCACCTTCATCATCCTGCTCAAGAATCAGATCAACCTTCTGGGCTTCACCCTGATGTTCTGGTGTGAATTCACTGNCTNCTTCCTCTTCTTNCTNAATGCCGCCAGCGGGCTTTACATNAAAAGCTTACTTAGCCCTTGGACCCTCAGCAGGGACCCTGGCTTNCANAAAGNGAGGTTATGATGGGACTTTTTTTATTNTAGGGAANCTNTTGNCTGGNGATTTGCNCCCCCCCCCNCCCCAATGNNCCTTTGACACNTTCCCTCTTTATGGGTAATTTNAAGTTTTTTBGH sequenceACTTTCAAATTGAGATTTTAATAGCATGACTAACCTATCCAGCTCACTGTGCCGTCGTACAGAGGCACCCTTCTGCCTTTGCCCTGGAGCTCAGCTGAAGAGACTTCCAGGGCATTGCTAGAGCTAAGTGCCTAAGAGGCAGTGTCAAGGTCATTGGTTGTCCTATTCAATCTNAGCCAGAGGTCCTATATNAGAGAAGTCCCATCATAACCTCGCTTTCTGTAAGCCAGGGTCCCTGCTGGAGGGTCCCAGGGCTGAGTGAGGCTGTTGATGTGAAGGCCGCTGGCGGCATTGAGGAAGAAGAGGAAGGAGGCAGTGAATTNACACCAGAACATNAGGGTGAAGCCCAGGAGGTTGATCTGATTCTTGAGCAGGATGATNAANGTNAGGAGGCCCCCAGAGGAGAGGATAAAGGCAACCAGGAGGAGGTAGGAACCGATGGCCCACTTGCGCCGTGAGCGGACATCTTTACACACCTGGGACACAATGAGCATCTTCAAGCCGAAGATGGCAGCCACCACTGCCATGGCGGCCACACTGCGTGCTAGGCCCATGCCTACAGCCAGCCCGGGCATATGGGCCTGGCTCAGGTCTCTCAGACAGTGTGGTCACTGIdentity>emb|AJ272046.1|MMU272046 Mus musculus mRNA for calcium channel gamma 5subunit (CACNG5 gene)Length = 636Score = 1094 bits (552), Expect = 0.0Identities = 605/623 (97%), Gaps = 2/623 (0%)Strand = Plus/PlusClone #T7 sequenceAGCAGACTCAGGAAGAAACCATGGTGCTCTCTGGGGAAGACAAAAGCAACATCAAGGCTGCCTGGGGGAAGATTGG  5TGGCCATGGTGCTGAATATGGAGCTGAAGCCCTGGAAAGGATGTTTGCTAGCTTCCCCACCACCAAGACCTACTTCCCTCACTTTGATGTAAGCCACGGCTCTGCCCAGGTCAAGGGTCACGGCAAGAAGGTCGCCGATGCTCTGGCCAATGCTGCAGGCCACCTCGATGACCTGCCCGGTGCCCTGTCTGCTCTGAGCGACCTGCATGCCCACAAGCTGCGTGTGGATCCCGTCAACTTCAAGCTCCTGAGCCACTGCCTGCTGGTGACCTTGGCTAGCCACCACCCTGCCGATTTCACCCCCGCGGTGCATGCCTCTCTGGACAAATTCCTTGCCTCTGTGAGCACCGTGCTGACCTCCAAGTACCGTAAGCTGCCTTNTGCGGGGCTTGCCTTCTGGCCATGCCCTTCTTCTCTCCTTGCACCTGTACCTCTTTGGTTTTGAATAAAGCCTGAGTAGGAAGAAAAAAAAAAAAAAANAGGGCGGNCGTTNGAGCATGCATCTAGAGGGGCCCTATTNTATAGTGNNACCTAAAAATGCTTAGAGNTTTGNTGNTCAGCCCTIdentity>ref|NM_008218.1| Mus musculus hemoglobin alpha, adult chain 1 (Hba-a1),mRNALength = 564Score = 969 bits (489), Expect = 0.0Identities = 529/540 (97%), Gaps = 2/540 (0%)Strand = Plus/Plus>gb|L75940.1|MUSALGL Mus musculus alpha-globin mRNA, complete cdsLength = 513Score = 910 bits (459), Expect = 0.0Identities = 486/494 (98%), Gaps = 1/494 (0%)Strand = Plus/PlusClone #T7 sequenceGGTACCGAGCTCGGATCCACTAGTAACGGCCGCCAGTGTGCTGGAAAGGGGCTTCGGACCCGGAAGTGGCGCCTT  6GGGCTCCCGGCGGCGCCGCGGGGATGGCGGGAGCCGGAGCTGGTGCAGGAGCTCGGGGCGGCGCGCCGGCCGGAGTCGAGGCCCGCGCTCGGGACCCGCCACCCGCGCACCGCGCGCACCCTCGCCATCCTCGGCCCGCGGCTCAGCCGTCGGCGCGCAGGATGGACGGCGGCCCGGGCGCCCCGGGCTCCGGGGACAACGCCCCGACCACCGAGGCGCTGTTCGTGGCGCTGGGCGCGGGCGTGACGGCTCTCAGTCACCCGCTGCTCTACGTGAAGCTGCTGATCCAGGTGGGTCATGAGCCGATGCCCCCCACCCTTGCGACCAATGTGCTGGGGAGGAAGGTCCTCTACCTGCCGAGCTTCTTCACCTATGCCAAGTACATTGTGCAGGTGGATGGGAAGATAGGGCTCTTCCGGGGCCTGAGCCCCCGCCTTATGTCGAACGCCTTGTCCACTGTGACCCGCGGCAGCATGAAGAAGGTTTTCCCTCCAGATGAGATGGAGCAGGTTTCCAACAAGGACGACATGAAGACCTCACTCAAGAAAGTTGTGAAGGAGACATCGTATGAGATGATGATGCAGTGTGTATCGCGAATGCTGGCCCATCCCTTACACGTGATCTCGATGCGATGCATGGTGCAGTTTGTGGGACGGGAGGCCAAGTACAGTGTGTGCTGAGTTCTATTGGGAGATCTTCAAGGAAGAGGGCTGCTGGGATTCTTCGTTGGCTTAATCCCTCAR2 sequenceGACTTGAACTCAGGGGAATTCGGaGGGAGTCCAGCCCGCAGCCCACAGTTGTTCACTGcCATGAGATCTCCAACGAGCAGGAAGGGGTAGGTCAGCATGCTCACTGCAATCCCCATCACAAACTTGGTGTAGCTCCGGATGGCCAGGGCCTGGCTAAAGCTGTCGTCCACCAAGTAGGCATTGATGAAGTGGGCCAGCAGGTTACAGCCCCACAAGAAAACCACATCGCCCAGGAGGTGAGGGATTAAGCCAACGAAGAATCCCAGCAGCCCCTCTTCCTTGAAGATCTTCCCAATAGAACTCAGCACACCACTGTACTTGGCCTCCCGTCCCACAAACTGCACCATGCATCGCATCGAGATCACGTGTAAGGGATGGGCCAGCATTCGCGATACACACTGCATCATCATCTCATACGATGTCTCCTTCACAACTTTCTTGAGTGAGGTCTTCATGTCGTCCTTGTTTGGAAACCTGCTCCATCTCATCTGGAGGGAAAACCTTCTTCATGCTGCCGCGGGTCACAGTGGACAAGGCGTTGGACATAAGGCGGGGGCTCAGGCCCCGGAAGAGCCCTATCTTCCCATCCACCTGCACAATGTACTTGGCATAgGTtGtAGAAGCTCGGCAGGTA4SP6 sequenceTAGATGCATGCTCGAGCGGCCGCCCTTTTTTTTTTTTTTTTTTCCAAATCACCACCAATACATTTATTCGAGGAGATGGGTCTATCTTACCACGAGGGGAGGACTAGATGTCGGCCTATGTAACCTGTGCGTATTCGCAGCCAGCAGAGTGACTGAACCCTCACACCTGGCGTCACCAGCACAGACAAGCAGATGAGGGGATGGTCTGAGGAGAACATGATTTCCTATTCAGGAGAAGGCACCACCCTTGTATAAGAAAATTAGTGTTGGGAACATAGCGCCAGCCTCCCATGGCCCAGGTGTGATGGCGCCCAATTTACAAAGCAGGAAGTGGGGGGCGGGGGTGCTTCTGGCTGACTGGCAGGATGAGCTGGGCTAGAGGTGCAGGGAAGCCTTGCCACTGAGTGACGTTTGCCTCTGCAGCCTGCCTCTGCCTGAGTACAAGATGGACTCCAGTACCTCTAGGCAGGAAGGGGATGCCACCCCAACACTGCTCCCCCAGGCTTGCCCAGGTCCCAGGTGAGCCACCTCCACCAGCCCACATCTGGACAGACACATGGCAAATATGGACATGAAGCCAGGCTGGGCTGGAGTCACCGTTGGGCATCTGAGATGATGGGTCCTCACCAGGGGTAGGCTAAGACCCCATAAATGTTTGGTCGGGCAGCTTAGGTTAGTCCAGGGCAAAGCATGACCCCGATGACACCCGGCGGAAAAGCAGGCTGGAGCCGCGGAAGAGCTGGCCCTGCACACTCAGGTACTTCCAGCAGTGGATCCAGGACTTGAACACAGGGGAATACGGAGGAGTCCAGCCCGCAGCCCACAGTTGTTCACTGCCATGAGATCTCCAACGAGCAGGAAGGGGTAGGTCAGCATGCTCACTGCAATCCContigGGTACCGAGCTCGGATCCACTAGTAACGGCCGCCAGTGTGCTGGAAAGGGGCTTCGGACCCGGAAGTGGCGCCTTGGGCTCCCGGCGGCGCCGCGGGGATGGCGGGAGCCGGAGCTGGTGCAGGAGCTCGGGGCGGCGCGCCGGCCGGAGTCGAGGCCCGCGCTCGGGACCCGCCACCCGCGCACCGCGCGCACCCTCGCCATCCTCGGCCCGCGGCTCAGCCGTCGGCGCGCAGGATGGACGGCGGCCCGGGCGCCCCGGGCTCCGGGGACAACGCCCCGACCACCGAGGCGCTGTTCGTGGCGCTGGGCGGGGGCGTGACGGCTCTCAGTCACCCGCTGCTCTACGTGAAGCTGCTGATCCAGGTGGGTCATGAGCCGATGCCCCCCACCCTTGGGACCAATGTGCTGGGGAGGAAGGTCCTCTACCTGCCGAGCTTCTTCACCTATGCCAAGTACATTGTGCAGGTGGATGGGAAGATAGGGCTCTTCCGGGGCCTGAGCCCCCGCCTTATGTCCAACGCCTTGTCCACTGTGACCCGCGGCAGCATGAAGAAGGTTTTCCCTCCAGATGAGATGGAGCAGGTTTCCAACAAGGACGACATGAAGACCTCACTCAAGAAAGTTGTGAAGGAGACATCGTATGAGATGATGATGCAGTGTGTATCGCGAATGCTGGCCCATCCCTTACACGTGATCTCGATGCGATGCATGGTGCAGTTTGTGGGACGGGAGGCCAAGTACAGTGGTGTGCTGAGTTCTATTGGGAAGATCTTCAAGGAAGAGGGGCTGCTGGGATTCTTCGTTGGCTTAATCCCTCACCTCCTGGGCGATGTGGTTTTGTTGTGGGGCTGTAACCTGCTGGCCCACTTCATCAATGCCTACTTGGTGGACGACAGCTTTAGCCAGGCCCTGGCCATCCGGAGCTACACCAAGTTTGTGATGGGGATTGCAGTGAGCATGCTGACCTACCCCTTCCTGCTCGTTGGAGATCTCATGGCAGTGAACAACTGTGGGCTGCGGGCTGGACTCCCTCCGTATTCCCCTGTGTTCAAGTCCTGGATCCACTGCTGGAAGTACCTGAGTGTGCAGGGCCAGCTCTTCCGCGGCTCCAGCCTGCTTTTCCGCCGGGTGTCATCGGGGTCATGCTTTGCCCTGGAGTAACCTAAGCTGCCCGACCAAACATTTATGGGGTCTTAGCCTACCCCTGGTGAGGACCCATCATCTCAGATGCCCAAGGGTGACTCCAGCCCAGCCTGGCTTCATGTCCATATTTGCCATGTGTCTGTCCAGATGTGGGCTGGTGGAGGTGGGTCACCTGGGACCTGGGGAAGCCTGGGGGAGCAGTGTTGGGGTGGCATCCCCTTCCTGCCTAGAGGTACTGGAGTCCATCTTGTACTGAGGCAGAGGCAGGCTGCAGAGGCAAACGTCACTCAGTGGCAAGGCTTCCCTGCACCTCTAGGCCAGCTCATCCTGCCAGTCAGCCAGAAGCACCCCCGCCCCCCACTTCCTGCTTTGTAAATTGGGCGCCATCACACCTGGGCCATGGGAGGCTGGCGCTATGTTCCCAACACTAATTTTCTTATACAAGGGTGGTGCCTTCTCCTGAATAGGAAATCATGTTCTCCTCAGACCATCCCCTCATCTGCTTGTCTGTGCTGGTGACGCCAGGTGTGAGGGTTCAGTCACTGTGCTGGGTGCGAATACGCACAGGTTACATAGGCCGACATCTAGTCCTCCCCTCGTGGTAAGATAGACCCATCTCCTCGAATAAATGTATTGGTGGTGATTTGGAAAAAAAAAAAAAAAAAAGGGCGGCCGCTCGAGCATGCATCTAIdentity>gb|AF176007.2|AF176007 Mus musculus domesticus mitochondrial carrierhomolog 1 isoform a mRNA, complete cds; nuclear gene for mitochondrial productLength = 1877Score = 3382 bits (1706), Expect = 0.0Identities = 1733/1746 (99%)Strand = Plus/Plus>gb|AF151822.1|AF151822 Homo sapiens CGI-64 protein mRNA,complete cdsLength = 1734Score = 1166 bits (588), Expect = 0.0Identities = 879/972 (90%), Gaps = 3/972 (0%)Strand Plus/Plus>gb|AF189289.1|AF189289 Homo sapiens presenilin-associated protein mRNA, complete cdsLength = 1918Score = 948 bits (478), Expect = 0.0Identities = 727/810 (89%)Strand = Plus/PlusClone #T7 sequenceAGCTCCGCCCCTGCTACTGGACCATGGAGACTGTGGCCCAGTAGAGACCTTAGTGTGAGGCTTTCAGGGGCGGCG  7GCCATGGAGGCCGTGCTGAACGAGCTGGTGTCTGTGGAGGATCTGAAGAATTTTGAAAGGAAATTTCAGTCTGAGCAGGCAGCTGGTTCTGTGTCCAAGAGCACGCAATTTGAATATGCCTGGTGCCTGGTTCGAAGCAAATACAATGAGGACATCCGCAGAGGCATCGTGCTGCTGGAGGAGCTGTTGCCCAAAGGGAGCAAAGAGGAACAGCGGGACTATGTCTTCTACCTGGCCGTGGGCAACTACCGGCTCAAGGAATATGAAAAGGCTCTAAAGTATGTGCGAGGGCTGTTGCAGACTGAGCCCCAGAACAACCAGGCCAAGGAGCTGGAACGCCTGATTGATAAGGCCATGAAGAAAGATGGACTGGTAGGCATGGCCATCGNTGGTGGCATGGCCCTGGGCGTGGCAGGCCTGGCTGGACTCATTGGACTGGCTGTCTTCCAAGTNCAAATCCTGAAGGCAGNCTNACCTGCTCTNTTGCCCGGGACGCCTAGGAGCCTGGGGGACACTGGAAGAGGGGCCTGTCCATACTACCATCGCCTTCCTTTTTTCTGCACCCCTGTAGTCTACCTTTACAGCTTCATGACCCCCAGCCTTTTAANNCCTNCACCTGGTNGTTTAACCCTNTCATTCCTTTGCAATGAGTGNNAAATAAAAATTGGCCCCBGH sequenceCCCGAGCCACGGCCCAATTTTATTTACACTCATTGCAAAGNATGACAGGGTTAAACGACAGGTGCAGGGGCTAANAGGCTGGGGGTCATGGAGACTGTAGAGGTAGACTACAGGGGTGCAGGANAAAAGGGAAGGCGATGGTGAGGATGGACAGGCCCCTNTTCCAGNGTCCCCCAGGCTCCTAGGCGTCCCGGGGCAGAGAGCAGGTGAGGCTGCCTTCAGGATTTGGACTTGGAGACAGCCAGTCCAATGAGTCCAGCCAGGCCTGCCACGCCCAGGGCCATGCCACCAACGATGGCCATGCCTACCAGTCCATCTTTCTTCATGGCCTTATCAATCAGGCGTTCCAGCTCCTTGGCCTGGTTGTTCTGGGGCTNAGTNTGNAACAGCGCTCGCACATACTTTAGAGCCTTTTCATATTCCTTGAGGCGGNAGTTGCCCACGGCCAGGTAGAAGACATAGTCCCGCTGTTCCTCTTTGCTCCCTTTGGGCAACAGNTCCTCCAGCAGCACGATGCCTCTGCGGATGTCCTCATTGAATTTGCTTCGAACCAGGCACCAGGCATATTCAAATTGCGTGCTCTTGGACACAGAACCAGNTGCCTGCTNAGACTGAAATTTCCTTTCAAAATTNTTCAGATCCTTCACAGACACCAGCTCGTTCAGCACGGNCTCCATGGCCGCCGCCCNTGAAAGCCTTACACTAAGGNCTNTACTGGGCCACAAGTTTCCATGGTCCAGAGCANGGGCCGGAGCTTNNANIdentity>gb|AF151893.1|AF151893 Homo sapiens CGI-135 protein mRNA, complete cdsLength = 735Score = 434 bits (219), Expect = e−119Identities = 402/466 (86%)Strand = Plus/MinusPropertiesPI-FACS: ApoptosisClone #T7 sequenceAGATTGACTTGGGCACTGACATGGTTCCTGCCATCTCCCTGGCCTACGAGCAAGCTGAGAGCGACATCATGAAGAG  8GCAGCCCAGAAACCCCAAAACGGACAAACTTGTGAACGAGCGTCTGATCAGCATGGCCTATGGACAGATCGGTATGATCCAGGCCCTGGGAGGCTTCTTCACTTACTTTGTGATTCTGGCTGAGAACGGTTTCCTGCCCTTTCACCTGTTGGGCATCCGAGAGACCTGGGATGACCGCTGGGTCAACGATGTGGAGGACAGCTACGGGCAGCAGTGGACCTACGAGCAGAGGAAGATCGTGGAGTTCACCTGCCATACAGCGTTCTTTGTCAGTATTGTGGTAGTGCAGTGGGCCGACTTGGTCATCTGCAAGACCAGAAGGAATTCTGTGTTCCAGCAGGGAATGAAGAACAAGATCTTGATATTTGGCCTCTTTGAAGAGACAGCCCTTGCTGCTTTCTTATCCTACTGCCCCGGGATGGGGGCAGNCCTTAGGATGTATCCCTCAAACCTACATGGTGGGTCTGTGCCTTTCCCTACTTCCCTTCTTAATCTTTTGTGTATGACGAGGGTGCGGGAAGCTTAATTATTAAGGCGGGNGCCCCTTGGCNGGNTTGGGTTGGGAGGAANGGAGGACCCTACTTACTTAGGCCCCACTTGCCCCTTGGNACGCCCGGGGGGGAAACAATTTTGTGNCCAACAACACCTTGNAACCCCAACCCCCTTACCCCCCCTTTTTTTGGGGGGACCTTTCAAAGGGTTTTTGGGAGGCCTTNGGGAAACTTTTTACCCCTTGGGNNGGGGAAAAGGCACCCCAAAACCNTTTGTTGGGGGGATTGCCAAAACCNTTCCTTGGAAATGGAAAANAATTGTTANCTTNTAACCBGH sequenceCCGTTATAATAGCCATCTTTATTTGTAAAAATCCAGATATAAAACGTAATCTTTCAGTCTTTCCAGGTTTTCCTTTTTTACAAAAACAAAAAGGCACGTATAAACCTTGCCCGCTGTCGTCCCCGTACACGGNGTTTCTCAGGCAGCCCTCCCCCCCGCCCCGCCCCCCGTTACAGCTACATGCTTCATTCCAGGACGTCTGCATCCCCACATGCTTNGGNGCTTTCCTACCAGGGTAGAGTTCCGAGCTCCAAGACTTGAAGTACACAAAGAGGGGGTAGGGGNGGGNGCAGNGNGTGGCACAATGTTCCACGGCGTGCAGGGCAGAGGGCTAGTAGTAGGTCTCCTTCTCCACCCAGCCGCAGGGCGCCGCCTGATAATGAGCTTCCGCACCTNGNATACACAAAGATGAGAAGGGAGTAGGGGAAGGCACAGAACCACCATGTAGGTTTGAGGGGATACATNCTAAGGGIdentity>ref|NM_012504.1| Rattus norvegicus ATPase, Na + K + transporting,alpha 1 polypeptide (Atp1a1), mRNALength = 3636Score = 874 bits (441), Expect = 0.0Identities = 528/556 (94%), Gaps = 1/556 (0%)Strand = Plus/PlusClone #T7 sequenceAGCCGGAGGCCGAGCCCAGTCGCCAGCTCCTGCTCTGCTCCTCTCCCGCCTGCCGCCGCGCTGCACGCCTCGAGCA  9CTCCCTCGGCCCCGGCGGGGACCGGGGACCCCGCAGCTACCGCCATGCTGCCAGTGCTCTACACCGGCCTGGCGGGGCTGCTGCTGCTGCCTCTGCTGCTCACCTGCTGCTGCCCCTACCTCCTCCAAGATGTGCGGTACTTCCTGCGGCTGGCCAACATGGCCCGGCGGGTGCGCAGCTACCGGCAGCGGCGACCCGTGCGTACCATCCTGCGGGCCTTCCTGGAACAAGCGCGCAAGACCCCACACAAGCCCTTCCTGCTGTTCCGAGACGAGACGCTCACCTACGCCCAGGTGGACCGGCGCAGCAACCAAGTGGCGCGGGCGCTGCACGATCAACTGGGCCTACGACAGGGGGATNGCGTAGCCCTCTTCATGGGCAATGAGCCGGCCTACGTGTGGATCTGGCTGGGACTGCTCAAACTGGGCTGTCCCATGGCGTGCCTCAACTACAACATTCGTGCCAAGTCTCTGCTGCACTGCTTTCAATGCTGCGGGGCGAAGGTGCTGCTGGCCTNCCCAGATCTACAAGAAGCTGTGGAGGAGBGH sequenceAGTGTTAATATAGTTTATTATGTCTTTAAAAAAATAAGGCCCTCTCTCCAAGAAGCTTAGTTTGCAAGGACAAATGGCAGGTGCACATTGAAAAATAATTGTTTCTAAATCTTTTTACTTGCAAAGGTTCAGGTGTAATTTAAAAAAAAAACAAACAAACTATCCTTTTAATGAATAATTTCCTAAAAATAAAATCGCACCTTATAGCCTTNAATCAAGTTAAAGTTGGATTCTACGTATGAAGTGGCTCTGCGAGGTCTATCGAGTTTCTTTCTGGAAATGTCATGAGCTAAACCACCAGGGAATATTCAGAGCTTNAGAGTTTTATCAATTATGGCATTATAAATGTTCTCAGTCATGGGCACAAATGTTTTCTCTGCATCATCCATGAAATACAAGGTATCTTTGATGACTGTGGGATTGAAGCCCTCTTCCATCAGGGTCACTTTGCGGNGTTTAAAAGTCCCAGTGATCTCAATGGTATCTTGTATCCTCAGGAACCGAGGCCTCGCGTAACTGGGCAGGTACTCCGCGATGTGTTGAAAGAGTTTCTTTCCATTGAACTCGTAGTIdentity>ref|NM_011978.1| Mus musculus solute carrier family 27 (fatty acidtransporter), member 2 (Slc27a2), mRNALength = 1872Score = 844 bits (426), Expect = 0.0Identities = 430/432 (99%)Strand = Plus/Plus>gb|AF072757.1|AF072757 Mus musculus fatty acid transport protein 2 mRNA,complete cdsLength = 1872Score = 844 bits (426), Expect = 0.0Identities = 4301432 (99%)Strand = Plus/Plus>emb|AJ223958.1|MMAJ3958 Mus musculus mRNA for very-long-chain acyl-CoAsynthetase (VLACS)Length = 2238Score = 844 bits (426), Expect = 0.0Identities = 430/432 (99%)Strand = Plus/PlusClone #T7 sequenceAGCGCGGGAGGCGCATGGCGGGCATGGCGCTGGCGCGAGCATGGAAGCAGATGTCCTGGTTCTACTACCAGTACC 10TGCTGGTCACTGCGCTCTACATGCTGGAGCCCTGGGAGCGAACCGTGTTCAATTCGATGCTGGTTTCCGNGGTGGGGATGGCCCTGTACACTGGCTACGTCTTCATGCCCCAGCACATCATGGCTATTCTGCATTACTTTGAAATTGTACAGTGACGAAGATGTGACCAGGATCCAGAGGTTGCTGGGGAAGATCTGCCTTGTGAAGTTGGAATGAGACCTCATCAGATGTAAGATGTGCTACGGATGTCCACGTGACCAACCTTATAAATACAAAGACTTTAAAAAAAACTTNATGAGTAGAACAGGAAAAATCATCCTGGCTCATGTGTTGNGTTCTTTCTTTTTGATTTTAACAGAGGCTCTTATATAGTAGCTTTTATCTATTTTAACATTGTAGTCATTTGTACTTTGATATCAGTATTTTCTTAACCTTTGTGACTGTTTCAATATTATCCAGTGAAAGCTTTTCTTAATGTAACTTTGAGTACATCTCAATTGCCTTCTATTTTTAAAACCTAAGGTCATTAGTTGGGCTTTACTGGTCTTGCTATCATATGGCATATACATCTGCCTGGATATATTTCTACTCTTGACCABGH sequenceACATTTTTCTTTGAATTTAATGAGTTTACATNAAAAAAAAGTAGTCATTTTACATNTAAGGAATAAAAACCGTTTTAAAAAAAATACAAAGAGTGAAAGGATTTTTAAGCAAGTTTACATTTCTTTTGGTTATGGTTCTGCACAATTCATCTCATTGNGTCTTTATNACAACGTGCAAATGCATTTNACAACGCCTGTTACAACATNAAATTAACTNTTGAGCGTATACAGGGTCAATACTGCCTNAGAGGATCTGATAAGCCTTCTATGAAAAGCTNCACAGTGTATNTNAGCATATGTCATACAAGCCGGCCACCAATCACCAATNACAGGAATCATNAAAGTTGGTTGGAAATAAGTCCACATAAGAATTTAATATNTAAAAGGNGAAATGTTCCTTGTATTAATGTTAGCAAGATCTTTACTTTTTCATTACTAAGAAACACTTTAATAGTTTTAGAGCAAAAGCTGTTAAGAGTCTAGGGAGCTAAAACCGTACTCCTGAGTTCAAGCAAGCAGATAAATCTTTTGTAAGTAGTTCTNAAAGTATCCTCCCTCCCGTCCCCAAATTCTGTATTGNTTCTTACAAAACTTTGGTCAAGAGTNGAAATATATCCAGGCAGATGTATATGCCATATGATAGCAAGAACAGTAContigAGCGCGGGAGGCGCATGGCGGGCATGGCGCTGGCGCGAGCATGGAAGCAGATGTCCTGGTTCTACTACCAGTACCTGCTGGTCACTGCGCTCTACATGCTGGAGCCCTGGGAGCGAACCGTGTTCAATTCGATGCTGGTTTCCGTGGTGGGGATGGCCCTGTACACTGGCTACGTCTTCATGCCCCAGCACATCATGGCTATTCTGCATTACTTTGAAATTGTACAGTGACGAAGATGTGACCAGGATCCAGAGGTTCCTGGGGAAGATCTGCCTTGTGAAGTTGGAATGAGACCTCATCAGATGTAAGATGTGCTACGGATGTCCACGTGACCAACCTTATAAATACAAAGACTTTAAAAAAAACTTCATGAGTAGAACAGGAAAAATCATCCTGGCTCATGTGTTGWGTTCTTTCTTTTTGATTTTAACAGAGGCTCTTATATAGTAGCTTTTATCTATTTTAACATTGTAGTCATTTGTACTTTGATATCAGTATTTTCTTAACCTTTGTGACTGTTTCAATATTATCCAGTGAAAGCTTTTCTTAATGTAACTTTGAGTACATCTCAATTGCCTTCTATTTTTAAAACCTAAGGTCATTAGTTGGGCTTTACTGKTCTTGCTATCATATGGCATATACATCTGCCTGGATATATTTCTACTCTTGACCAAAGTTTTGTAAGAAAACAATACAGAATTTGGGGACGGGAGGGAGGATACTTTGAGAACTACTTACAAAAGATTTATCTGCTTGCTTGAACTCAGGAGTACGGTTTTAGCTCCCTAGACTCTTAACAGCTTTTGCTCTAAAACTATTAAAGTGTTTCTTAGTAATGAAAAAGTAAAGATCTTGCTAACATTAATACAAGGAACATTTCACCTTTTAGATATTAAATTCTTATGTGGACTTATTTCCAACCAACTTTNATGATTCCTGTGATTGGTGATTGGTGGCCGGCTTGTATGACATATGCTRAGATACACTGTGGAGCTTTTCATAGAAGGGTTATCAGATCCTCTRAGGCAGTATTGACCCTGTATACGCTCAARAGTTAATTTRATGTTGTAACAGGCGTTGTRAAATGCATTTGCACGTTGTGATAAAGACNCAATGAGATGAATTGTGCAGAACCATAACCAAAAGAAATGTAAACTTGCTTAAAAATCCTTTCACTCTTTGTATTTTTTTTAAAACGGTTTTTATTCCTTARATGTAAAATGACTACTTTTTTTTRATGTAAACTCATTAAATTCAAAGAAAAATGTAAAAAAAAAAANGCNIdentity>emb|AL080066.1|HSM800567 Homo sapiens mRNA; cDNA DKFZp564J142 (from cloneDKFZp564J1A2)Length = 1308Score = 444 bits (223), Expect = e−122Identities = 296/319 (92%). Gaps = 2/319 (0%)Strand Plus/PlusScore = 315 bits (158), Expect = 3e−83Identities = 262/294 (89%), Gaps = 2/294 (0%)Strand Plus/PlusScore = 213 bits (107), Expect = 1e−52Identities = 177/197 (89%), Gaps = 5/197 (2%)Strand Plus/PlusScore = 62.3 bits (31), Expect = 5e−07Identities = 41/43 (95%), Gaps = 1/43 (2%)Strand Plus/Plus>dbj|AK001993.1|AK001993 Homo sapiens cDNA FLJ11131 fis, clone PLACE1006325,highly similar to Homo sapiens mRNA; cDNA DKFZp564J142Length = 1274Score = 444 bits (223), Expect = e−122Identities = 296/319 (92%), Gaps = 2/319 (0%)Strand = Plus/PlusScore = 331 bits (166), Expect = 5e−88Identities = 264/294 (89%), Gaps = 2/294 (0%)Strand Plus/PlusScore = 213 bits (107), Expect = 1e−52Identities = 177/197 (890/a), Gaps = 5/197 (2%)Strand = Plus/PlusScore = 62.3 bits (31), Expect = 5e−07Identities = 41/43 (95%), Gaps = 1/43 (2%)Strand = Plus/PlusScore = 58.3 bits (29), Expect = 7e−06Identities = 30/31 (96%)Strand Plus/PlusDescriptionDNA ladderClone #T7 sequenceAGCGAGTTTGCAGACTTCTTGTGCGCAGCTAGCCGCCTNAGGTGTTNGAACCATGAATCTTTTACTCCTTTNGGCTG 11TCCTCTGCTTGGGAACAGCCTTAGCTACTCCAAAATTTGATNAAACCTTTAGTGCANAGTGGCACCAGTGGAAGTCNACGCACAGAAGACTGTATGGCACGAATGAGGAANAGTGGAGGANAGCGATATGGGAGAAGAACATGAGAATGATCCAGCTACACAACGGGGAATACAGCAACGGGCAGNACGGCTTTTCCATGGAGATGAACGCCTTTGGTGACATGACCAATGAGGAATTCAGGCAGGNGGNGAATGGCTATCGCCACCAGAAGCACAAGAAGGGGAGGCTTTTTCAGGAACCGCTGATGCTTAAGATCCCCAAGTCTGNGGACTGGAGAGAAAAGGGTTGNGTGACTCCTGTGAAGAACCAGGGCCAGNGCGGGTCTNGNNGGGCGTTTAGCGCATCGGGTTGCCTAGAAGGACAGATGTTCCTTAAGACCGGCAAACTGATCTNACTGAGTNAACAGAACCTTGTGGACTGTTCTCACGCTCAAGGCAATCAGGGCTGTAACGGAGGCCTGATGGATTTTGCTTTCCAGTACATTAAGGAAAATGGAGGTCTGNACTCGGAGGAGTCTTACCCCTATGAAGCAAAGGACNGGATCTTGTNAATACAGAGNCGAGTTCGCTGTGGCTAATGACACAGGGTTCCGTGGATNTNCCTTAGCCAGGAGAAAGCCTCATGAAGCTGTGGCTNBGH sequenceTTACACACACACTGAGCTAAAATTTATTTTTAAGAGGTAAAGAAAGTTTTATACAACCTTTATATAAAANAAATATTNNAGACTNAGAATTAAGCACTAAGTTTTCAATATTATAAAGNTGTTTATAANAGGAGTTTTAAGTAGNGGTAACATTTAACCCATGTAAAAATGGCAACAGAATTNAAATNATGANTTGGATCCTNAATGATTNAAGNACCANGGTTNGANTNAATAAGGGTTNGGTCAGTTTTAAGCTGAATTCGTTNGGACATAGAGNCCATAAGTCCTCATTANCGCTACCNATNAATTNANGACAGGATAGNTGGNCGCGGNGGCAAGTCCACAGAGGTNGNCCCGGTCTTNGGCTATTTNGATGTAGCCTTCCATACCCCATTCACTTCCCCAGCTGNTCTTGACAAGCCAATATTTATTCTTATTTGAATCTGNTCCTTNATAGCCATAGCCNANCAACAGAACCCCATGGTCGAGGATCTTGCTGCTACAGTNGGGTTNATAGTAGATGCCTGAACTATAGAACTGGAGAGACGGATGGCTTGCGTCCATAGCAACAGAAATAGGCCCCACAGTCGCACAGCCTTCATGAGGGCTTTCTGTTGCTGAGGGATATCNACGAACCCTGTGTCATTAGCCACAGGGAACTNGGCTCTGTATTTACNAGAANCGGCCTTTGCTTCANAGGGNGTAAGGACTTCTCCGNGTCCNIdentity>ref|NM_009984.1| Mus musculus cathepsin L (CtsI), mRNALength = 1374Score = 1277 bits (644), Expect = 0.0Identities = 701/726 (96%), Gaps = 1/726 (0%)Strand Plus/Plus>emb|X06086.1|MMMEPR Mouse mRNA for major excreted protein (MEP)Length = 1374Score = 1277 bits (644), Expect = 0.0Identities = 701/726 (96%), Gaps = 1/726 (0%)Strand = Plus/Plus>gb|J02583.1|MUSCPR Mouse cysteine proteinase mRNA, complete cdsLength = 1276Score = 1277 bits (644), Expect = 0.0Identities = 702/726 (96%), Gaps = 2/726 (0%)Strand = Plus/PlusDescriptionDNA ladderClone #T7 sequenceAGATGGCTTCCAGCGGAGTGACTGNGAGCGCCGNCGGGTCGGCCAGCGAGGCCTNAGAGGTTCCAGACAACGTGG 12GAGACTGGCTCCGCGGCGTCTTCCGCTTCGCCACCGATCGAAACGACTTCCGGAGGAACTTGATCCTTAATTTGGGACTCTTTGCTGCGGGAGTCTGGCTGGCCAGGAACTTGAGTGACATTGATTTGATGGCCCCTNAGCCAGGGGTGTAGCCAGAGAATGGAACTCCTGTGTATTCAGACTTTCCAAAGACAGCCTACTGTCTGNGACCACAAGATCCTACCTGAGTGGCAGCTGAAGTTGACTCCCTCTCCTTGCCTGAACCCBGH sequenceATGNGCAGGCTTTATTTGAAATCTTTTTCAAGAACCATTATTACTCTTNAGGACAAGGGCAAGGACCATCTTCTGCAGAAAGTNGGGAACTGCACACAGAACCGTGCAGAGGCAACATNTTAGCCGACACTGGGGGANGGGGGGGCAGAGGGGGGGContigTGRKATGGCTTCCAGCGGAGTGACKGTGAGCGCCGCCGGGTCGGCCAGCGAGGCCTCAGAGGTTCCAGACAACGTGGGAGACTGGCTCCGCGGYGTCTTCCGCTTCGCCACCGATCGAAACGACTTCCGGAGGAACTTGATCCTYAATTTGGGACTCTTTGCTGCGGGAGTCTGGCTGGCCAGGAACTTGAGTGACATTGATTTGATGGCCCCTCAGCCAGGGGTGTAGCCAGAGAATGGAACTCCTGTGTATTCAGACTTTCCAAAGACAGCCTACTGTCTGTGACCACAAGATCCTACCTGAGTGGCAGCTGAAGTTGACTCCCTCTCCTTGCCTGAACCCCCCCYCACTSTCTCCCCCATCCCCCAGTGTCGGCTRAGATGTTGCCTCTGCACGGTTCTGTGTGCAGTTCCCAACTTTCTGCAGAAGATGGTCCTTGCCCTTGTCCTGAAGAGTARTAATGGTTCTTGAAAAAGATTTCAAATAAAGCCTGCACATAAAAAAAAAAGAGAIdentity>emb|AL137721.1|HSM802233 Homo sapiens mRNA; cDNA DKFZp761H221(from clone DKFZp761H221)Length = 3316Score = 199 bits (99), Expect = 1e−48Identities = 148/165 (89%)Strand = Plus/Plus>gb|L34839.1|HUMTUM Homo sapiens over-expressed breast tumor protein mRNALength = 574Score = 199 bits (99), Expect = 1e−48Identities 148/165 (69%)Strand = Plus/Plus>gb|AF216754.1|AF216754 Homo sapiens over-expressed breast tumor protein(OBTP) mRNA, complete cdsLength = 354Score = 195 bits (97), Expect = 2e−47Identities = 146/163 (89%)Strand = Plus/Plusgb|U16813|HSU16813 Human Bak-3 pseudogene, complete cds.Length = 5408Score = 69.9 bits (35), Expect = 3e−10Identities = 56163 (88%)Strand = Plus/Pluscompletely identical with the following ESTs:dbj|C88895|C88895 Mus musculus early blastocyst cDNA, clone 01B00051IK19Length = 470Score = 613 bits (309), Expect = e−174Identities = 330/339 (97%)Strand = Plus/Plusgb/AA268719|AA268719 va99h10.r1 Soares mouse NML Mus musculus cDNA clone747619 5′Length = 439Score = 599 bits (302), Expect = e−169Identities = 328/337 (97%), Gaps = 1/337 (0%)Strand = Plus/PlusClone #T7 sequenceTACCGAGCCCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGCTCGTCATGGCGACGGAGCAGAGGCCTTTCC 13ACCTGGTGGTGTTCGGCGCCTCTGGCTTCACCGGCCAGTTCGTGACGGAGGAGGTGGCCCGGGAGCAGATAGCCTCGGAGCAGAGCTCCCGCCTGCCCTGGGCCGTGGCGGGTCGCTCCAAGGAGAAGCTGCAGCAAGTGCTGGAGAAGGCTGCCCAGAAACTGGGAAGACCATCACTATCATCTGAAGTTGGAGTCATAATCTGTGATATCAGTAATCCAGCCTCACTTGATGAAATGGCTAAACAGGCAAAGCTTGTCCTCAACTGCGTAGGACCGTATCGATTTTATGGAGAACCTGTAGTAAAAGCATGTATTGAAAATGGAACAAGTTGTATTGACATCTGTGGGGAACCTCAGTTTCTGGAACTAATGCATGCGAAGTATCATGAGAAAGCTGCAgAGAAGGGGGTTTATATCATTGGAAGCAGTGGCTTTGACTCCATCCCAGCAGATCTAGGAGTGCTATACACCAGGAACCAGATGAACGGTACTTTGACTGCTGTAGAAAGCTTCCTGACAATAAATACAGGACCTGAGGGGTTGTGTATTCATGATGGAACCTGgAAGCCGGCAATTTATGGtTTTGGCGATAAgGGTAGtTTAAGAAAACTACGGAGTGTATCATGTCTGAAACCTGTCCCAATTGTTGGTACAAAGTTGAAAAGAAgGTGGCCAGTCAGCTATTGTAGAGAGCTGAACTCGTATTCCATTCCTTTTTTGGGATCTGAtATATCTGGCtGGaGcAAAABGH sequenceANGNGNAATAANGNGANGGGNTAAAAGAGNAANNAANTANAGTGAGAGAGGGAATGNAGGNNAAATATACNCCTNANCCNTATATTGGAAANNNACCTNATATTNNAAACNNNNCTANNNTNATNNANATNANATACNNATNAATNANACNNAANNANNANNNTACTANCAAACAACNANNNNAATNNNNNAANNNAAANCTTTANNACANAATCNANNCNNANAAACNATTTCTTAANCANCANATAANNAAANNNNCNAANANAANTNACANACAANANANCNAATTANNTCATNNANCACCTAANNNCNAAANNTNNNTNANTNCNNAATTNNCNNNNATANTTATCNNTACTANTTATCTNANCACTATCContigTACCGAGCCCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGCTCGTCATGGCGACGGAGCAGAGGCCTTTCCACCTGGTGGTGTTCGGCGCCTCTGGCTTCACCGGCCAGTTCGTGACGGAGGAGGTGGCCCGGGAGCAGATAGCCTCGGAGCAGAGCTCCCGCCTGCCCTGGGCCGTGGCGGGTCGCTCCAAGGAGAAGCTGCAGCAAGTGCTGGAGAAGGCTGCCCAGAAACTGGGAAGACCATCACTATCATCTGAAGTTGGAGTCATAATCTGTGATATCAGTAATCCAGCCTCACTTGATGAAATGGCTAAACAGGCAAAGCTTGTCCTCAACTGCGTAGGACCGTATCGATTTTATGGAGAACCTGTAGTAAAAGCATGTATTGAAAATGGAACAAGTTGTATTGACATCTGTGGGGAACCTCAGTTTCTGGAACTAATGCATGCGAAGTATCATGAGAAAGCTGCAGAGAAGGGGGTTTATATCATTGGAAGCAGTGGCTTTGACTCCATCCCAGCAGATCTAGGAGTGCTATACACCAGGAACCAGATGAACGGTACTTTGACTGCTGTAGAAAGCTTCCTGACAATAAATACAGGACCTGAGGGGTTGTGTATTCATGATGGAACCTGGAAGCCGGCAATTTATGGTTTTGGCGATAAGGGTAGTTTAAGAAAACTACGGAGTGTATCATGTCTGAAACCTGTCCCAATTGTTGGTACAAAGTTGAAAAGAAGGTGGCCAGTCAGCTATTGTAGAGAGCTGAACTCGTATTCCATTCCTTTTTTGGGATCTGATATATCTGTTGTGAAAAGGACTCAGCGTTACTTACATGAAAATTTAGAGGACTCACCAGTTCAGTATGCTGCTTATGTGACGGTGGGAGGCATCACCTCTGTGATTAAGCTGATGTTTGCAGGACTGTTCTTTTTATTCTTTGTGAAGTTTAGCATTGGAAGACAACTTCTCATAAAATTCCCATGGCTCTTTTCCTTTGGCTATTTTTCAAAACAAGGTCCAACACAAAAACAGATGGATGAGACATCATTTACAATGACATTCTTTGGTCAAGGATACAGCCATGGCACTTGTGTTGAAAAGAACAAACCAAATATCCGAATCTGCACTCAAGTGAAGGGACCAGAGGCTGGCTACGTGGCTACTCCCATAGCCATGGTTCAGGCTGCCATGACTTTTCTGAGTGACGCCTCTGACCTTCCAAAAGGGGGCGGTGTCTTTACACCTGGAGCAGCTTTCTCCAGAACAAAGTTGATTGACAGACTCAACAAACATGGCATTGAATTTAAGTGTCATTAGCAGCTCCGAAGTCTAAACGTTTGAAGACTAACCGAATGATAAAATGCACAAACCGCGTCTGTATTTGGATATGTGAAATTCTTCTATAAGCCTATCTGACTGTATGTGGACTGTCAAGTTATAAAATATIdentity>gb|AF151807.1|AF151807 Homo sapiens CGI-49 protein mRNA, complete cdsLength = 2127Score = 1249 bits (630). Expect = 0.0identities = 1130/1293 (87%). Gaps = 4/1293 (0%)Strand = Plus/PlusScore = 54.0 bits (27), Expect = 2e−04identities = 39/43 (90%)Strand = Plus/PlusClone #T7 sequenceAAAGGAAAAACACAGCTNAGCAGATCCAGGCACTAAAGAGAGCTAGCTGCAAGCAGGAGCAGTCAAGAATCTGNGG 14TCAGAAGTACTGGAGNGGGCCAGCAGGGCCAGCTTTTTCTACCATGGCAGCCCAAGGCTACGGCTACTATCGCACTGTCATATTNGCGGCCATGTTNGGAGGCTACAGCCTGTACTATTTCAACCGCAAAACCTTCTCCTTTGTCATGCCCTCCTTGGNGGATGAGATCGCTCTGGACAAGGACGATTNGGGGCTNATNACAAGCAGCCAGTCGGCAGCCTACGCCATCAGCAAGTTNGNGAGCGGNGNTCTGTCAGATCAGATGAGCGCCCGCTGGCTCTTCTCCTCTGGGCTGCTCCTGGTNGGTCTGGTCAACGTAGTCTTCTTATGGNGCTCCACAGNGTCAGCGTTAGCTGCTCTTNGGTTNTCTTAATGGTCCTGGCACAGGBGH sequenceNAGNATCAAANCTAGCTTNANNGATCTANACAAGNCGGNTNGCCCTCTATATTCTTCCCTTTNGNCCCAGGGNATTCANGANAGAGGAGGACTCCTCTCCTCCCTTAGGGACNGAGGNANNGGCAACAATTTNGCCCCCNGCCAAGAAGCCTNGGGGNACAGCAGAAACCACAGGCCATTAATACTCACTAGGAGATCAGGACCTAGGAGAAGAAGAAGGGTATAGGAGACACTCTGAANTNAGGAGNNGCCNGNCNGCCAGAAGGNAGAAACAGAAGCNGAAGGAGTCTAGAACCAAACATCATCATTTTAAATAGAGCANGGGAAGGGAGNNGGGACCTNANTAGCCACNGGAAACTTGCAGCACCANGGAGGTTCAGAGAGACAGIdentitygb|AF080469|AF080469 Mus musculus putative glycogen storage diseasetype 1b protein mRNA, complete cdsLength = 1923Score = 739 bits (373), Expect = 0.0Identities = 436/460 (94%), Positives = 436/460 (94%), Gaps = 2/460 (0%)Clone #T7 sequenceATGGCTGCGCTCTTGCTGAGTGCTGCTCCTTTGGGAACCACAGCTAAGGAGGAGATGGAGCGGTTCTGGAAGAAG 15AACACGAGTTCAAACCGTCCTCTGTCTCCCCATTTGACTATGTACAAATGGTCTGTTCCTATGGCACTGTCCGTTTGCCACCGAGGCTCTGGAATAGCCTTGAGTGGAGGGGTCTCTCTTTTTGGCCTGTCGGCACTGGTGCTTCCTGGGAACTTTGAGTCGTATTTGATGTTTGTGAAGTCCCTGTGTTTGGGGCCAACACTGATCTACTCGGCTAAGTTTGTGCTTGTCTTCCCGCTCATGTACCACTCACTGAATGGGATCCGACACTTGCTATGGGACCTAGGAAAAGGCCTGGCAATACCCCAGGTCTGGCTGTCTGGAGTGGCGGTCGTGGTTCTTGCTGTGTTGTCCTCTGGCGGGCTGGCCGCCCTGTGAIdentitygb|U31241|CGU31241 Cricetulus griseus integral membrane protein C11-3mRNA, nuclear gene encoding mitochondrial protein, complete cdsLength = 1176Score = 242 bits (122), Expect = 3e−62Identities = 227/265 (85%), Positives = 227/265 (85%)gb|S74803|S74803|CII-3 = succinate-ubiquinone oxidoreductase complex IImembrane-intrinsic subunit [cattle, heart, mRNA, 1289nt]Length = 1289Score = 186 bits (94), Expect = 1e−45Identities = 214/257 (83%), Positives 214/257 (83%)Clone #T7 sequenceCGAGCTCGGATCCACTAGTAACGGCCGCCAGTGTGCTGGAAAGGTGACAGAGGGGAACAAGATGGCGGCGCCAAA 16GGGGAAGCTTTGGGTCCAGGCCCAACTGGGGCTCCCGCCGCTGCTGCTGTTGACTATGGCGCTGGCCGGAGGCTCGGGGACTGCAGCGGCCGAAGCCTTTGACTCGGTCCTGGGAGACACAGCGTCCTGTCACCGGGCCTGTGAGCTGACCTACCCCTTGCACACCTACCCGAAGGAAGAGGAGTTATACGCATGCCAGAGAGGCTGCAGGCTGTTTTCAATTTGCCAGTTTGTGGATGATGGGCTTGATTTAAATCGGACCAAGCTGGAATGTGAATCTGCGTGCACAGAAGCATATTCCCAACCTGATGAGCAGTATGCTTGTCATCTTGGCTGCCAGGATCAGTTGCCATTTGCTGAACTGAGACAAGAACAACTCATGTCCCTGATGCCAAGAATGCATCTCCTCTTCCCTCTGACTCTGGTGAGGTCGTTCTGGAGTGACATGATGGACTCTGCACAGAGCTTCATAACCTCTTCATGGACTTTTTATCTTCAAGCCGATGACGGAAAAATAGTTATATTCCAGTCTAAGCCAGAAATTCAGTATGCACCGCAGTTGGAGCAGGAGCCTACAAACTTGAGAGAATCATCTTTAAGCAAAATGTCCTATCTGCAGATGAGAAACTCACAAGCACACAGGAACTACCTTGAAGAGGAAGAAAGCGATGGCTTTTTAAGATGTCTATCTCTTAACTCTGGATGGATTTTAACCACAACCCTTGTCCTCTCGGTGATGGTGTTGCTCTGGATCTGTTGTGCAGCTGTTGCTACAGCTGTAGAACAGTATGTTCCCCCTGAGAAGCTGAGTATBGH sequenceCAGAACATAATTATNGAAATAGATTTTAANGATTTCAATTNAATACAACTGAAAANGTAGAGNCATTAAATAACATTTCTGCTATAATCCAGAGGACAGTTTGGAGGCCATTTNCGGGCAGAAGCATCACACCCTAAGGNTTCGGNTATTAAGTNAGANGACTGACGGTGNGCANGNCAGGGGNGGAGCCACACNTGATCAGCTCATAGAANNTCGGTGAANAGAGGAAANCANANCACACCCAANTGCACTANCTAANTANTNACAGATATTAGNNTNAATCTCANNTACANCCCAATGNCCATCTTAAANTGACTAGAAANNNCCAGGTNAANCTTACANCNAAATANNGCCCTTCATNGANNTATGGTAACCTNCTATNTNGCATTTTATAGCNGTNTTCCTTAANGGCCTATNNTTCNANATGNCACNCATNTNTA4SP6 sequenceTGCATGCTCGAGCGGCCGCCCTTTTTTTTTTTTTTTTTTTTCAGAACATAATTATTCAAATAGATTTTAATGATTTCAATTCAATACAACTGAAAATGTAGTGTCATTAAATAACATTTCTGCTATAATCCAGAGGACAGTTTGGAGGCCATTTCCGGGCAGAAGCATCACACCCTAAGGTTTCGGTTATTAAGTGAGATGACTGACGGGGGGCATGGCAGGGGCGGGGCCACAATGATCAGCTCATAGAATTTGGCGAAGAGAGGAAAAAAACCAAAACCAATGCAACTAACTAAGTAGCTACAGATATTAGTAAAATAAAAATACAACCCAATGTCCATCTTAAATGACTAGAAAAATACAGGTAAAGTCACAGCAAATAAAGTCTTCACAGAGTTTGGTAACTTTATTTGCATTTTATAGTGATTTCTTAAGGCCTATGTCCAATGAAACCATCTTAAAAAGCTCTATGAGGAATGGAAGTTTATGTGTCCACGACTCTTTTAAAAAGCTTAGATTTCTGAGTGAGCAAGGTTCACCTTGGTGGGCAGGGGCCCTGCCTCCTCATGTTCTTCAGTCTGAGACCTAACAATCACAAGAGAAGGAGCTGGGTATCTGCTCAGCTTTTGTTCATTCATAAATTCCAAGTCACCATAGATACTCAGCTTCTCAGGGGGAACATACTGTTCTACAGCTGTAGCAACAGCTGCACAACAGATCCAGAGCAACACCATCACCGAGAGGACAAGGGTTGTGGTTAAAATCCATCCAGAGTTAAGAGATAGACATCTTAAAAAGCCATCGCTTTCTTCCTCTTCAAGGTAGTTCCTGTGTGCTTGTGAGTTTCTCATCTGCAGATAGGACATTTTGCTTAACGAGCTCGGATCCACTAGTAACGGCCGCCAGTGTGCTGGAAAGGTGACAGAGGGGAACAAGATGGCGGCGCCAAAGGGGAAGCTTTGGGTCCAGGCCCAACTGGGGCTCCCGCCGCTGCTGCTGTTGACTATGGCGCTGGCCGGAGGCTCGGGGACTGCAGCGGCCGAAGCCTTTGACTCGGTCCTGGGAGACACAGCGTCCTGTCACCGGGCCTGTCAGCTGACCTACCCCTTGCACACCTACCCGAAGGAAGAGGAGTTATACGCATGCCAGAGAGGCTGCAGGCTGTTTTCAATTTGCCAGTTTGTGGATGATGGGCTTGATTTAAATCGGACCAAGCTGGAATGTGAATCTGCGTGCACAGAAGCATATTCCCAACCTGATGAGCAGTATGCTTGTCATCTTGGCTGCCAGGATCAGTTGCCATTTGCTGAACTGAGACAAGAACAACTCATGTCCCTGATGCCAAGAATGCATCTCCTCTTCCCTCTGACTCTGGTGAGGTCGTTCTGGAGTGACATGATGGACTCTGCACAGAGCTTCATAACCTCTTCATGGACTTTTTATCTTCAAGCCGATGACGGAAAAATAGTTATATTCCAGTCTAAGCCAGAAATTCAGTATGCACCGCAGTTGGAGCAGGAGCCTACAAACTTGAGAGAATCATCTTTAAGCAAAATGTCCTATCTGCAGATGAGAAACTCACAAGCACACAGGAACTACCTTGAAGAGGAAGAAAGCGATGGCTTTTTAAGATGTCTATCTCTTAACTCTGGATGGATTTTAACCACAACCCTTGTCCTCTCGGTGATGGTGTTGCTCTGGATCTGTTGTGCAGCTGTTGCTACAGCTGTAGAACAGTATGTTCCCCCTGAGAAGCTGAGTATCTATGGTGACTTGGAATTTATGAATGAACAAAAGCTGAGCAGATACCCAGCTCCTTCTCTTGTGATTGTTAGGTCTCAGACTGAAGAACATGAGGAGGCAGGGCCCCTGCCCACCAAGGTGAACCTTGCTCACTCAGAAATCTAAGCTTTTTAAAAGAGTCGTGGACACATAAACTTCCATTCCTCATAGAGCTTTTTAAGATGGTTTCATTGGACATAGGCCTTAAGAAATCACTATAAAATGCAAATAAAGTTACCAAACTCTGTGAAGACTTTATTTGCTGTGACTTTACCTGTATTTTTCTAGTCATTTAAGATGGACATTGGGTTGTATTTTTATTTTACTAATATCTGTAGCTACTTAGTTAGTTGCATTGGTTTTGGTTTTTTTCCTCTCTTCGCCAAATTCTATGAGCTGATGATTGTGGCCCCGCCCCTGCCATGCCCCCCGTCAGTCATCTCAGTTAATAACCGAAACCTTAGGGTGTGATGCTTCTGCCCGGAAATGGCCTCCAAACTGTCCTCTGGATTATAGCAGAAATGTTATTTAATGACACTACATTTTCAGTTGTATTGAATTGAAATCATTAAAATCTATTTGAATAATTATGTTCTGAAAAAAAAAAAAAAAAAAAAGGGCGGCCGCTCGAGCATGCAIdentity>gb|AF116911.1|AF116911 MUS musculus thymic dendritic cell-derivedfactor 1 mRNA, complete cdsLength = 1513Score = 2533 bits (1278), Expect = 0.0Identities = 1412/1459 (96%)Strand = Plus/Plus>ref|NM004872.1| Homo sapiens mouse tropomyosin homolog (HSPC001) mRNALength = 1138Score = 1134 bits (572), Expect = 0.0Identities = 888/992 (89%), Gaps = 1/992 (0%)Strand = Plus/PlusScore = 127 bits (64), Expect = 1e−26Identities = 92/100 (92%), Gaps = 1/100 (1%)Strand = Plus/PlusDescriptionPI-FAGS: ApoptosisClone #T7 sequenceAAAGGTACGAAGCTAGGGAAGATATTCGCGTGGCTAAATCTGCACGTGGAAGGAGCATTAACTTGGCCCTTTCTTA 17TAGAGGACGGCAGGCCTTGAAAGCCATTGGTCTGGAAGATCAGATCGTTTCCAAAGGTGTGCCCATGAAAGCCAGAATGATCCACTCTCTTTCTGGAAAGAAGTCTGCAATTCCCTATGGGAACAAGTCACAGTATATCCTTTCAATAAGCAGAGAAAACTTAAACAAGGACCTGCTGACTGCCGAGGAGTCCTATGCGAATGCGAAGGTGCACTTNGGCCACAAGCTGTCGAAANGCATTCCGGAGGAAGGGGTACTCACAGAGCTCGGACCTGACAAGGTTCCCCGAGATGTCACATGTGACCTTGBGH sequenceANTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTNAAAANGGNANAANGNTTTNGNAAANTTTNGNNGGNNNGGGNAAANAAACCNAGGGNCNNANGNCGGNAAAAAAAGNNTTTTNGCNNAGGGNNNNANNNNTNACCNGNAAANNAANGNNTTTNNTTTNCNTACCCCTNAAAAANAAANNGGNAAANCCCANGGNNGNTTTNGANANNANGGNAAANNCCAANTNGNTTAANNTTAANTTCCNNGGGTTNGGNTTTTNNAGGNAANNAANANGGGNNNTNTNAAAANNGNANNANGAAAANAANTTTAANGGGTCCNANNNACCCNNTTNGGAAAAAANNAAATNGNAANGGGNANTTGGGCNNTGGNCTTNGNNGACNAAGTNAANTTTNGGNTNNGNCCGGGGGGNANNNANGGNNCCCCTTTTGNAAGNNTNAANGGGNNAAAANGGGGNCCCANNNTTTNGGAAAAIdentitygb|AF056031|AF056031 Rattus norvegicus kynurenine 3-hydroxylase mRNA, complete cdsLength = 1733Score = 468 bits (236), Expect = e−130Identities = 342/378 (90%), Positives = 342/378 (90%)emb|Y13153|HSKYNU3MO Homo sapiens mRNA for kynurenine 3-monooxygenaseLength = 1999Score = 222 bits (112), Expect = 4e−56Identities = 308/374 (82%), Positives = 308/374 (82%)DescriptionDNA ladderClone #T7 sequenceAAAGCGACTGCACAGNGAAGCCCTCTGTTACCTGTGTCGATCAAGACCTNAAACCCCAGAGGAACTTCGTCATCAAC 18ATGACTTGCAGGTTTNGCTGGCAGCTTCCTGAAACAGACTACGAGTGTTCAAATTCCACCACCTGCATGACCGNGGCTNGCCCTCGGCAGCGCTATTTCGCCAACTGCACCGNGCGTGACCACATTCAGTGCCTGGGCAACCGGACTTTCCCTAAGCTGCTGTACTGCAACTGGACAGGNGGCTACAAGNGGTCGACAGCCCTGGCTCTNAGCATCACCCTNGGGGGGNTAGGAGCCGATCGCTTCTACCTGGGCCAGNGGCGAGAAGGCCTCGGCAAGCTCTTCAGCTTTGGCGGCCTGGGAATATGGACCCTAATCGATGTCTNGCTGATNGGAGTAGGCTATGNGGGACCAGCGGATGGCTCTTTGTACATTTAGCCGAGGTTATGTGCTTCAGAGAGCAGNGTAGAGTCCTGNGTGTGGAGATGGATGCGGAGTGAGAGBGH sequenceCAGNGTTCGATTTCTTTATTTTACCTTCATCAAGGCAAGCCAAGTACAGATGCTGTACATTAAAAACATAAATCCCCCTNTCACACCGCATCCATNTCCACACACAGGACTCTACACTGCTCTCTGAAGCACATAACCTCGGCTAAATGTACAAAGAGCCATCCGCTGGTCCCACATAGCCAANTCCAATCAGCAAGACATCGATTAGGGTCCATATTCCCAGGCCGCCAAAGCTGAAGAGCTTGCCGAGGCCTTCTCGCCACTGGCCCAGGTAGAAGCGATCGGNTCCAAACCCCCCANGGGTGATGCTGAGAGCCAGGGCTGTCGACCACTTGNAGCCACCTGTCCAGTTGCAGNACAGCAGCTTAGGGAAAGTCCGGTTGCCCAGGCAGTGAATGTGGNCACGCACGGTGCAAGTTGGCGAAATAGCGCTGCCGAGGGCAAGCCACGGCATGCAGGTGGTGGAATTTGAACACTCGNAGTCNGTTTCAGGAAGCTGCAGCAAAAGTGCAGGCATGTTGATGACNAAGTCCTTGGNGATTGAGGCTTGACGACACAGNTAACAGAGGGCTTACTTNGCAAGCCGNTTTCAGCACAATTGGCCGCNCGGAACTAGGGGAANCCGAGGTTTGGGACCCAAGCTTGGGGNCTCCCTTAAAGGGGNGGTCCGAAATNAAATTTCCGANAAGGCCNGGNAANCCAAGNGGGGNNCTTNTAGGTTAGCCCCGAAGNGGCNTCTGCTTAANNTAGGACCTTTCCACCGGAAACGCCTAACGGCCCAATTGGGGNNAAAAGGGNCCCGNGTTGTACCCACAATTTTGNAAAGNCCCNTCGATTGGGGCCAAACAANCTCCCATGGCNTCAAANGGGGGAATGNAAACCCGGGGTAAANCGTTCCCCCCCATGGGNTGCNAACNGNAACAGGNAAGGNGNNTAAACNNGCNNCCCCNCGAGCCCAAGGNTCTGGCAAAGNGNGGGCNAAACCATTCCCNAANGGGATNAAAAAACTNGTCCCCCAGGGGTCNAAACCCCTT7 contigGCAACAATTCGAGCTGCTGTGACAGAGGGGAACAAGATGGCGGCGCCAAAGGGGAAGCTTTGGGTCCAGGCCCAACTGGGGCTCCCGCCGCTGCTGCTGTTGACTATGGCGCTGGCCGGAGGCTCGGGGACTGCAGCGGCCGAAGCCTTTGACTCGGTGCTGGGAGACACAGCGTCCTGTCACCGGGCCTGTCAGCTGACCTACCCCTTGCACACCTACCCGAAGGAAGAGGAGTTATACGCA:TGCCAGAGAGGCTGCAGGCTGTTTTCAATTTGCCAGTTTGTGGATGATGGGCTTGATTTAAATCGGACCAAGCTGGAATGTGAATCTGCGTGCACAGAAGCATATTCCCAACCTGATGAGCAGTATGCTTGTCATCTTGGCTGCCAGGATCAGTTGCCATTTGCTGAACTGAGACAAGAACAACTCATGTCCCTGATGCCAAGAATGCATCTCCTCTTCCCTCTGACTCTGGTGAGGTCGTTCTGGAGTGACATGATGGACTCTGCACAGAGCTTCATAACCTCTTCATGGACTTTTTATCTTCAAGCCGATGACGGAAAAATAGTTATATTCCAGTCTAAGCpossible ORFMAAPKGKL WVQAQLGLPP LLLLTMALAG GSGTAAAEAFDSVLGDTASC HRACQLTYPL HTYPKEEELY ACQRGCRLFS ICQFVDDGLDLNRTKLECES ACTEAYSQPD EQYACHLGCQ DQLPFAELRQ EQLMSLMPRMHLLFPLTLVR SFWSDMMDSA QSFITSSWTF YLQADDGKIV IFQSKIdentity>gb|AW109849.1|AW109849 MT2475 mouse liver, dioxin treated Mus musculuscDNA clone MT2475 3′Length = 617Score = 833 bits (420), Expect = 0.0Identities = 489/517 (94%), Gaps = 2/517 (0%)Strand = Plus/Minus>gb|AA277327.1|AA277327 va81e12.r1 Soares mouse NML Mus musculus cDNAclone IMAGE:737806 5′ similar to WP:C02F5.3 CE00039 GTP-BINDING PROTEIN;Length = 553Score = 789 bits (398), Expect = 0.0Identities = 483/514 (93%), Gaps = 5/514 (0%)Strand = Plus/Plus>gb|AI646762.1|A1646762 ub65e01.x1 Soares_mammary_gland_NMLMG Mus musculuscDNA clone IMAGE:1382616 3′ similar to WP:C41D11.5 CE08662 ENDONUCLEASE;Length = 529Score = 741 bits (374), Expect = 0.0Identities = 425/449 (94%)Strand = Plus/MinusDescriptionDNA ladderClone #T7 sequenceAAAGCTGGCTGGAATCCTGGTAGGAGCCGCAGTGNGNGGCCATGCCTCAGATAGGTTNGGGCGCAGAAGGGTGCT 19GACCTGGAGCTATCTTCNGGNGTCCGNGTCCGGCACAGTAGCTGCCTTCATGCCCACCTTCCCCCTCTACTGNCTGNTNCGTTTCCTGCTGGCCTCTGCAGNGGCAGGAGTTANGATGAACACAGCCABGH sequenceAAAAATTATTTATTNGNGTGTATCACCGGGGGCGGGNATGTGTCCATGCGGAGCTCANAGGACAACTTTGTGAAGTCTGTTGTCACATGAGTTTCAGAAATTTAGGCCCGGAGGCAGGNGTCTTTACCCGCCGTCGCCAGCCCTGCCCTTTCCTCCTCCTCCTCCTCTTCCTCCTCCTCCTCCTCTAIdentitydbj|AB005451|AB005451 Mus musculus mRNA for RST, complete cdsLength = 1779Score = 305 bits (154), Expect = 2e−81Identities = 185/199 (92%), Positives = 185/199 (92%)LOCUS AB005451 1779 bp mRNA ROD Dec. 17, 1997DEFINITION Mus musculus mRNA for RST, complete cds.ACCESSION AB005451NID g2696708KEYWORDS RST; renal-specific transporter.SOURCE Mus musculus 8-week-old male kidney cDNA to mRNA, clone:K14D2.DescriptionDNA ladderClone #T7 sequenceAAAGGGGACGGAGACCTTCAGCGTGGAATCTATATCCAAGAATGGAATCTGTCTGGAGATGGGCCCACAGCCTCAG 20GGCGTGCTGCGGGCCGACCTGTTCTCCCGGATGCGAGCTCTGGNGGCATCCATTCTGGACTTCATCGAGCTCTTNAACCAAGGCATGGACTTACCCGCCTTTGAGATGGATATCTACAGGAACTTGGGCAGNGNGGACTTCCCACGCACTGCGGNNGGNGACCTGGCTGGCACTGNGCACCCTCAACTGCAGGACCATGACTTTGAGCCACTGAGGCCTGGAGAACCCATCTTCAAGCTTTTCAGCGGAGAAGANGTACTGTATNAGGGGGACTCCATTGNGTACCCTGNNNTCATTNNTGAGGCTGCCCTATTBGH sequenceGGGGCACAGTCTATTTTATATAATGAGATCAGTTGTCTGGAAAGGGATATGGNGTCCAGAGTGAGATAGGGGGACCCTGGGCTTGGGACCCATTGTTCAGATAGGAAAACTGAGATCAGGCCAGGTATGATTNGGGTTAGGGAGTCTGGGNGCAGCGGGGGGTCAACCTNAGCAGGGCAGGCACTGNGACCCTGATCTTCTCAGACTTCAGGAATGCCACGTGCTTCTCATAATAGGCAGCCTNATTAATGAACACAGGGTACACAATGGAGTCCCCCTCATACAGTACGTCTTCTCCGCTGAAAAGCTTGAAGATGGGTTCACCAGGCCTNAGNGGCTCAAAGTCATGGTCCTGCAGTTGGGGTGCACAGTGCCAGCCAGGTCACCATCCGCAGNGCGTGGGAAGTCCACACTGCCCAAGTTCCTGTAGATATCCATCTCAAAGGCGGGTAAGTCCATGCCTTGGTTGAAGAGCTCGATGAAGTCCAGAATGGATGCCACCAGAGCTCGCATCCGGGAGAACAGGTCGGCCCGCAGCACGCCCTGAGGCTGTGGGCCCATCTCCAGACAGATTCCATTCTTGNATATAGATTCCANGCTGAAGGTCTNCGTCCCCTTTCCAGCACACTGGCGGCCGATACTAGAGGATCCGAGCTNNGTACCAAGCTTGGGCTCCCTAAGGGAGTCNNATANTTTNNATAGCCNGTAAGCAGTGGGTNTCTGNTAIdentitygb|AA109018|AA109018 mp37f03.r1 Barstead MPLRB1 Mus musculus cDNAclone 571421 5′similar to SW:ACY2_HUMAN P45381 ASPARTOACYLASE;Length = 535Score = 622 bits (314), Expect = e−177Identities = 340/352 (96%), Positives = 340/352 (96%)Clone #T7 sequenceAAAGGGCGGCGGCAGCAGCTCCCGGGGCTCNTGCTCTGCTCCGCCTCGGCCCCGGAGCGAGGGGCGGAGAGCCGC 21GCGCTNGCCTTAGTCCGAGCCGTCACCCTCCCCGCGNTCCCCGCTTTNCCGGCCCGCCCGAGGCCGNCCGCCCCGTCCCCGCCGCNCCGNAGCCNGGCCGTGCCCCGCCGNCGNCATGNGCTGCCTCGGCAACAGTNAGANCCGAGGANCAGCGNANCTGAGGAGAANGCGCAGCGCGAGGNCAACAAANAGATCTGAGAAGCAGCTGCAGAAGGACAAGCAGGTCTACCGGNTCACGCACCGNCTGCTGCTGCNGGNNGCTGGAGAGNCTGGCAAAAGCACNATTGTGAAGCANATGAGGATCCTGCATGNTAATGNGTNTAANNGANAGGGCGGTAANAGGACCCCGCAGGCTGCAAGGAGCAACANTTGATGGTNANAAGGCCACTANAGNGCNNGACNTTNNANNCNATCTGNANGANGCCATNNAAACCANTGTGGCCNACATNAGCANCCTTGCTGCCCCCTGCNNAGNTGNCCAACCCTGCNANNNAGTTCANAGNTGNNCTACATTCTGNGCNTCATNAACNGTGCNCNNACTTTTCACTTTCCACCTNNNTTNTATNAAGCCATNNCCAAGGCTTCTNTBGH sequenceGCTCATTTTTAATTTTTATTGATTTTTTAATGCTGCACAACACAATATTTATTTCATTTTGAATTTCATTTATTTCTTTATTTCTGTNGCTGCTTTTATTTTATTTACTGAAAGTGAGAGGGAACTTTNGNGGCCTTTTTTTTCTTTTTCTTCTGTAGGCCGCCTTAAGCTTACTAAATTTGGAACATCTAAGCAAGCTGAAGGGAAGAGGGGTTTTTCAGAATCACTGGGGGAAAAAGGAAAGGNNGCGGAGTTGATCATGCCCTATGGNGGGNGACCAACTGCTTGTACAATTACGTTTCACTCTTAATTAATNGNGCTTAAGGCTGAATTAAATTTGGGNGNTCCCTTCTTAGAGCAGCTCTGNATTGGCGGAGATGCATGCGCTGGATGATGTCACGGCAGTCGTTGAAGACACGGCGGATGTTCTCAGNGTCCACGGCGCAGGTAAAGTGAGGGTAGCAGTNGNGGCGCCCATNTCCACTAGCAGTGCTGNTTTTCAGAAACTNATCCCTNATGAAGTNCTTIdentityemb|Y00703|MMGTPAMU Mouse uncoupled S49 cells mRNA for stimulatoryGTP-binding protein alpha subunitLength = 1359Score = 276 bits (139), Expect = 5e−72Identities = 242/277 (87%), Gaps = 6/277 (2%)Strand = Plus/Plusgb|M12673|RATGNPAS Rat guanine nucleotide-binding protein G-s, alphasubunit mRNA complete cds.Length = 1708Score = 266 bits (134), Expect = 5e−69identities = 224/255 (87%). Gaps = 5/255 (1%)Strand Plus/PlusScore = 163 bits (82), Expect = 5e−38Identities = 89/92 (96%)Strand = Plus/Plusgb|M17525|RATBPGTPD Rat GTP-binding protein (G-alpha-8) mRNA, complete cds.Length = 1738Score = 266 bits (134), Expect = 5e−69identities = 224/255 (87%), Gaps = 5/255 (1%)Strand = Plus/Plus9b|AF116268|AF116268 Mus musculus G-protein XLAS (Xlas) mRNA,alternatively spliced, complete cdsLength = 2655Score = 609 bits (307), Expect = e−172identities = 357/378 (94%), Gaps = 1/378 (0%)Strand = Plus/MinusClone #T7 sequenceAGCGGACGTTTGTGCCGGGACATGGCCGCTGCGGATGCCGGGTCCTTGAGCTGAGCGCTTGCTGCCGGAGCCAAC 22CTCTGCCGTCAACCGTCCGCGCGGGCTGGGCCCAGGCGCCGGGACGGCCAAGATCCGCCGAGGAAGCTGAGGCAGCTATAGAACGCCGCCGCGGCGGGCGCATGGCGTCCATCTTGCTCAGGAGCTGCCGGGGCCGGGGGCCTGCCCGCCTCGCGCCACCTCGGGCCGNCTCCCCGCGGGGTAGTCTGAGGGATCGAGCTTGTCTCAGCTGTACCAGGACCTGGGGTTGACGAGCCGTGAGAGTGTTCTGTCTCGTTGCTGTACTCCAGCCCACCCTGTGTACCTCTGCTTCAAAGGTGAGCCCCTNAGCTGTTGGACTCAGAGGCCTGAGTGCCAGGGCACCGCAGCAAGAACAACATGGACACCTGCCTCTGCAAGGCTGGNGGTTACGGGACCTCAGTACCTTCCTGTGCGGGGCTGGCACTCATCATCTTCGCTAGGAGAGGACTCTGTGATAGAGAAGTCCCTTAAGTCCTTAAAAGACAAGAATAANAAGCTGGANGAGGGCGGNCCCGTGTACAGCCCGGNCGCGCAGGTGGTGGTGAGGAAATCCCTNGGGCAGAAGGTACTGGATGAGCTGAGGCACTACTACCATGGCTTTCCGCCTGCTCTGGGATNGACACCAAAGANCGCTTGNCCGGATGCTCTGGCGCATNCTTNATGGGNCATACGCTTAGGCCGNCCGGGAGCCNCAGGCAGNTTNTTCCNGAATTGTGCCGGACCTNTTNCCGCTAAGNGGCCCTTTCTTGGGGGNNCCNGGNGGGGGCCCNTTAATGGNABGH sequence1st sequencing:CATTATGGAAGTTTCTGATTNATTGCAGACAAAATATTANATTTGCCANTAAGAATCACCTCAAAGCAATCAGTCTTGNGNGTCATGCCCCTGNGGCTGGCACGGCATGATGAAGGCAGACCTGNGGGCCAGAAGCTGGCAGCTCTAATTCTTCACTTCTGCGGCCTCTTTCTCAGCCTTCTCCTTGGCCTTCTCTTTCTCTTCTATCTTTTCTTCTTTCTCTAGNGNGGCCACAATTTCAGCTACCTGGGNGGNAGAGATCTGAACATCTTCTTTGTTCACCAAGTCGATTACCTTGACAAGGTCATCGATGTTGATATNGCCGNCCTTATTATCATCCAGGGCTGAGGTCAAACTGATGAGCTTGAGCTCTGGAATGNGCTNGATTTGCTTCATGGCGCTGATGAGCTCAGNGANGCTGATGACACTCTCCCCTGNAGGAGNGCTCTGGCTGGGGCCCAGNTTGCCATCCTGATGAGAGGACTCCAGCTGTGTGATCAGGCCATGGATCTGCCCGATCATCTGCTGNNCTGNCTNTGACAGCGTCTTGCTCGCTGCAGAATCTTCTATGNNCTTTCTCCTCACCCGNCTNTTNNANGGTCCTTCTTTGAACTCCTGTANNNCCTCACNTGAGGCCTGGNCGCCCTCTTTTGAGCAGGCNTCCAGGCTTCCTCCTTTCTCCCTTGGCNCNGGGGACNNTCCCTTNCGCNTCCTGCNNCTTT2nd sequencingCATTATGGAAGTTTCTGATTNATTCCANACAAAATATTANATTTGCCACTAANAATCACGTNAAAGCAATCACTNTTGNGNGTNATGCCCCTGNGGCTGGCACGGCATGATGAAGGCANACCTGNGGGCCAAAAGCTGGCAGNTNTAATTGTTCACTTCTGCGGCCTNTTTNTNAGCCTTCTCCTTGGCCTTCTCTTTCTCTTCNATCTTTTCTTGTTTCTCTAGNGNGGCCACAATTTCAGCTACCTGGGNGGNANANATCTGAACATNTTCTTTGTTCACCAAGTCGATTACCTTGACAAGGTCATCGATGTTGANATTGCCGNCCTTATTATCATCCAGGGCTGAGGTCAAACTGATGAGCTTGNGCTNTGGAATGNGCTTGATTTGCTTNATGGCGCTGATGAGCTCAGTGATGCTGATGACACTNTCCCCTGTTGGAGNGCTCTGGCTGGGGCCCAGCTTGCCATCCTGTTGAGNGGTCTCCANCTGTGTGATCAGGCCATCGATCTGCCCGANCATCTGCTGCACTCGCTTTGACAGCCTCTTGCTCGCTGCAAATTCTTCTATGNACTTCTCCTCACCCGTCTTTGAAAGTTCCTTCTTGATCTCCTGTAAGTCCTCACTGTAGNCCTGGACGNCCTCTTTGAGCAGNTCCAGCTCCTCCTTNTNCTTGGTCAGGGACTTCTTCTGCTNCTGCAGCTTGGAACAGGCGTACTGAGGATGTNAANCTCCNCTTGGNANCTNTTTACCCTTTAGACGTTTCAAACANGGGCCGAATCCGNNAGGANCTTTGNGGGCAGGAANANAAAANIdentitygb|AF061026|AF061026 Mus musculus leucine zipper-EF-hand containingtransmembrane protein 1 (Letm1) mRNA, complete cdsLength = 3480Score = 549 bits (277), Expect = e−154Identities 336/360 (93%), Gaps = 1/360 (0%)Strand = Plus/MinusScore = 283 bits (143), Expect = 2e−74Identities = 157/164 (95%)Strand = Plus/MinusClone #T7 sequenceAAAGGGCGGCCATGGACCGCTTCGNGNGGACCAGNGGCCTCCTGGAGATCAACGAGACCCTGGTTATCCAGCAGCG 23CGGNGNGCGCGTCTACGACGGCGAGGAGAAGATAAAATTNGATGCCGGGACTCTTCTTCTTAGTACACACCGGCTGATTNGGAGAGACCAGAAGAATAATGAGNGCTGNATGGNNATTNCCCTGTCTTAGATNGNGNTCATCGAGGAGCAGGCAGCTNNAATCGGGAAGANNNNCAAAATNGNGGNTCACCTGCACCCAGTTCCTTTTNACAAABGH sequenceCNANCNCATTCTNGGNNAATTNGGGNTAATTTTTNANCTNAGNGTCNNGAGACCTTGNNAAAANGCAAGNTNATNGCCATAAAGCATTTCAGGNNCAAAATTNTNAGTNCTGGGNCANAAANAAATTTGGANAAAACCGAANGCNTTCCANGGNGCNGTNTCGGAAAAGGGGNCCNATTTTNTTTGNANGGNGCNCCNTTTNTTNACCCANANGGNCAGACNTTCCCNNANGCTNGGNAANNTTTTNGGANGTNAAGGNCCCNNTTTTNGAANCCGTTTCNAGGGCCGNGGCCNCNATTTCCTTTTCCTNGGGNGTTIdentitygb|AA086895|AA086895 mk19c02.r1 Soares mouse p3NMF19.5 Mus musculus cDNAclone 493346 5′ similar to WP:F17C11.8 CE05655Length = 480Score = 353 bits (178), Expect = 9e−96Identities 250/281 (88%), Positives = 250/281 (88%). Gaps = 1/281 (0%)gb|AA881548|AA881548 vx20b03.r1 Soares 2NbMT Mus musculus cDNA clone1264973 5′Length = 454Score = 331 bits (167). Expect = 3e−89Identities = 226/253 (89%), Positives = 226/253 (89%)gb|AA073042|AA073042 mm78b04.r1 Stratagene mouse embryonic carcinomaRA (#937318)Mus musculus cDNA clone 534511 5′ similar to WP:F17C11.8 CE05655;Length = 429Score = 321 bits (162), Expect = 3e−86Identities = 245/277 (88%), Positives = 245/277 (88%), Gaps = 5/277 (1%)Clone #T7 sequenceAAAGNGGGGATCCTGGAGACAGTTCTGGNGCAGAGTTCCAGTACCTCTACATCCATCATTGTCAGCATGGTCTCCTC 24CGGCTNGTNGGAGGNGAGCTCCGCCATTCCGATCATGATGGGCTCCAACATGGGAACCTCTGTCACCAACACCATTGNGGCCCTGATGCAGGCAGGGGACAGGACTGACTTNAGGCGGGCTTTNGCAGGGGCGACCGNGCATGACTGTTTTAACTGGCTGTCNGTTCTGGNCCTACTGCCCCNGGAGGCTGCCACGGGCTACCTACACCATGTCACCGGGCTNGAGGNNGCTTCCTTNAACATCCNAGGNGGCCGNGATGCCCCCGACCTTCTCAAAGTCATCACAGAGCCCTTNANAAGACTCATCATCCAGCTGGACAAGTGTGNGATNACCAGCATNGCCGAGGGGGATNAGTNCCTGAGGAATCACAGTCTCANTCIdentitygb|U22465|MMU22465 Mus musculus Na/Pi-cotransporter (NaPi-7) mRNA, complete cdsLength = 2423Score = 718 bits (362), Expect = 0.0Identities = 421/449 (93%), Positives = 421/449 (93%)gb|L33878|MUSSPT Mus musculus renal sodium phosphate (Na+/Pi) transporter mRNA,complete cdsLength = 2401Score = 718 bits (362), Expect = 0.0Identities = 421/449 (93%), Positives = 421/449 (93%)DescriptionDNA ladderClone #T7 sequenceAGGGCGCCAGCTGAAGACGCGGGACTTAAAGNGCGTAGCCAGAACCCAGGCACCAGNGTGTCCATTGTCCAGAACT 25CATCTGAAAAACTGCCACAGGAATTGCTTCTCTGCTCCAGGCTGGTCACTGAACAGGTTGCTCCAGGACCTGCAGAATGGGGGCAGGCTGNGTCAAAGTCACCAAGTATTTCCTCTTCCTCTTCAACTNGCTGNTCTTTATCCTGGGNGCTGAGATCCTGGGCTTCGGNGAGNGGATTCTTGCAGACAAGAACAGCTTCATTTCCGTCCTACAAACCTCATCCAGCTCGCTGCAGGNGGGGGCTTACGTCTTCATCGGAGNGGGCGCCATCACCATAGNGANGGGCTTCCTGGGCTGTATCGGAGCTGTCAATGAGGNCCGCTGCTTGCTGGGTCTGTACTTNGTCTTCCTTCNGCTGATCCTNATCGCACAGGTGACCGTAGGGGTCCTCTTCTACTTCAACGCTGACAAGCNGAAGAAGGAGATGGGGAACACAGNGATGGACATCATTCGCAACTACACTGCCAATGCCACCAGTAGCCGCGAGGAGGCCTGGGACTACGTGCAGGCGCAGGTCAAGNGCTGTGGCTGNGTCAGCCACTACAACTGNACAGAGAACNAGGAGCTCATGGGCTTTACCNAGACCACTTACCCATGCTCCTGCGAGAAGGATCAAGGNAGAGGACNACCAGCTCATTGTGAAGAAAGGATTCTTGCGAGGCTGATAACAGCACTGTNGCBGH sequenceCATTATAAACCCTCCTTTAATAATTGATTCCAGAGATGAGNGNATGGAACCCCTCCCCCACCCTGCAAGGNACAGCCTCACCCACCCTTAGCGCAGAGGACAGGGGACAGCTGCCAAGAAACACCAGTCCAGATCCTCCTCTCATCCAGGGTCTNGNGCCAGACCTGAGGGACCCACACCCCTAAGTNGTCAGGTCCCTCACCAAGAGGAGCGCACCAGAGGCTACCTGGGCCAGTCCCCCAGGAGGCCCCTCAGTTCAGTTCCCTGCTGAACTGAGCTNGGGGGGGGGGAGIdentitydbj|D14883|MUSC33R2IA Mouse mRNA for C33/R2/IA4, complete cdsLength = 1657Score = 91.7 bits (46), Expect = 3e−17Identities = 52/55 (94%), Positives = 52/55 (94%)gb|AF049882| Rattus norvegicus metastasis suppressor homolog (KAI1) mRNA,complete cdsLength = 1740Score = 69.9 bits (35), Expect = 1e−10Identities = 56/65 (86%), Positives = 56/65 (86%)Comments:Data so far shown:C33-induced apoptosis is mediated by the induction of free radicals of oxygenwhich lead to proapoptotic activation of mitochondria. These free radicals ofoxygen are not generated by the mitochondrial respiratory chain, since cellshaving a genetic defect in the respiratory chain still react to C33 expressionwith apoptosis. The proapoptotic activity of C33 is independent of substrateor cell-cell interactions, since even cells in susppension are driven intoapoptosis by C33. The rapid kinetics of apoptosis induction by C33, too,differs from the proapoptotic effects of C33 stated so far. Moreover, we haveshown that an extracellular loop in C33 which seems to be responsible forsubstrate interaction is not needed for the induction of apoptosis.Clone #T7 sequenceAAAGGAGCCCTNGAAAGCGACATGGCGGNTCTCTTAAAGCTGGGCGNTCTCTGCAGNGGNCAAGGAGCTCGAGCTC 26TCCTACTCCGAAGCCGGGTGGTCAGACCCGCTTATGTGTCAGCATTTCTCCAGGACCAGCCTACCCAAGGACGGAGTGGTACCCAGCACATTCACCTGTCACCAAGCCACCACTCTGGTTTCAAGGCTGCATCTCTCCACTGGANCAGTGAGAGGGAAGNNNGTGCCCIdentitygb|U50987|BTU50987 Bos taurus succinate-ubiquinone reductase membraneanchor subunit precursor QPs3 mRNA, complete cdsLength = 1317Score = 127 bits (64), Expect = 1e−27Identities = 120/139 (86%), Positives = 120/139 (86%)dbj|AB006202|AB006202 Homo sapiens mRNA for cytochrome b small subunitof complex II, complete cdsLength = 1313Score = 79.8 bits (40), Expect = 2e−13Identities = 114/139 (82%), Positives = 114/139 (82%)Clone #T7 sequenceAAAGGCAGATCGAGAGGGGCATGNGGGCCAACGAACAGGCGCTGGCGTCTGGCCNGAGNGAGNGAGTTCTCATNA 27CTGGGGGCATNGAGGCTACNGCTGGACGTTTCACACAGAGGTATTTCGGCGCCTACTCTATCGCTGCAGGNGNGCTCATCNGTCTGCTGGAGTATCCCCGGNGAAAGAGGAAAAAGGGGACCANCATIdentitygb|M31775|MUSCYTB558 Mouse cytochrome beta-558 mRNA, 3′ end.Length = 677Score = 240 bits (121), Expect = 8e−62Identities = 176/199 (88%), Positives = 176/199 (88%), Gaps = 9/199 (4%)Clone #T7 sequenceAAAGCGCGCAGACCGCTCCTCCGCTGCAGAGTCGNTTNCCNGAGCTNGGNCGACAAGGCNGCCTTCGCAGNCGGGA 28NCCTGCCAGCCGNGACCCCAGCCTTCGBGH sequenceAAGATAANGGTTTTTAATTGAGTTATNGAGATGAAGAGACAGNGAAGCCCTGTTNGCTACTTACATGAAAAGAAGATTTTAAAAAACAATCACTGCACAAAATACAAAGGGGCAGGGNANGCNGAGGCATNGAATTCCTCCCCACGNTTTTTCTNGACTTCTCAAGAACAAATTAAAGTCTCCACAGCAAATTNGNTCTCAAAANGCCGAANGGNGAAACAGTTACNGGCTTCCCGCTTCNGAATACCTCTAATNGTTNCCCGGCGCTGCAGCCNGTAGGNCTCCTTGNCGTGACACAGTCGNNAGATGAAGAAGCCCAGGTNGTCCACGTTCTCGANGCNGACGCCGATCACCATGTGCTCANGGATACGIdentitygbj|U76253|MMU76253 Mus musculus E25B protein mRNA, complete cdsLength = 1790Score = 117 bits (59), Expect = 4e−25Identities = 88/99 (88%), Positives = 88/99 (88%), Gaps = 1/99 (1%)DescriptionDNA ladderClone #T7 sequenceAAAGAGCGGCTGCTGTCGGAAGCACCGGGCGAGCTATCTGTTACAGTCCGGCCCGGGGATGGCTCGGGACGCGGA 29GCTGGCGCGCAGTAGCGGGTGGCCGNGGCGGNGGCTGCCGGCGCTGCTGCTGCTGCAGCTGCTGCGGTGGAGGTGCGCCCTGTGCGCGCTCCCCTTCACCAGCAGTCGGCACCCAGGCTTTGCGGACCTGCTGTCGGAGCAGCAGCTGTTGGAGGTGCAGGACTTGACCCTGTCTTTGCTGCAGGGCGGAGGTCTAGGGCCGCTGTCACTGCTACCTCCGGACCTGCCGGATCTGGAGCCTGAGTGCCGGGAGCTGCTGATGGACTTCGCCAATAGCAGCGCCGAGCTGACCGCCTGTATGGNGCGCAGCGCTCGGCCCGTGCGCCTCTGCCAGACCTGCTACCCGCTCTTCCAACAGGTCGCAATCAAGATGGACAACATCAGCCGAAACATCGGGAATACCTCCGAGGGCCCGCGCTGAGGCGGAAGTCTCCTGACGGCAGACAGAATGCAGATAGTTCTCATGGNCTCTGAGTTTTTCAACAGCACGTGGCAGGAGGCGAACTGCGCAAATTGCCTAACAAACAATGGTGAGGATTTGTCAAACAACACAGAGGACTTCCTCAGTCTGTTTAACAAGACTTTGGCCTGCTTTGAGCATAACCTGCAGGGGCACACATACAGNCTCCTTCCACCAAAAAATTACTCCGAAGTGTGCAGAAACTTGTAAAGAGGCATATAAAAACCTGAGCCTNCTGTACAGTCAAATGNANACBGH sequenceCCTTGTTATTTCCTTTATTGNAAAGCATAAGGAAAAAACAGGTTTTCTTGNGCACACACATAACCCTATGNGCCTAAGGATTCAGAANTATGTNCATTTTTTTAATATGACCACAAGATGAAATTNTTTGGCACATTTTCAAATATATTTCTAATGCAACCTNTAGAGAGCCAGACCCTGATCAGGAACAGAGANGGCTGGCTTGTTAAAGGGCTCTCCAGCTTNTTAGCCAAAAGCAGNGGTTTGTNCACACAGTACTGAAAGGNACCCGAGGAGTCGCTACTCACAGTTTAAATATGTCACTTCACTCANTTTGCNCATGTAAATAAGNTTTACATGTACTGATGAAGATGGNTTCCAATGACCCTNAACCATGNGCTTCAAATCAAGACAGGAACAATGACAGCNCAATGAACCCCGGCACATNTAGGGGATCACAGCGNCGNCTGATTGTCACATACCCGGGGTGACACACTCTGGGACTAAGACTAGCCTGCTNTCACACTCTGCANATGTGGNAAACATACAAAAAATACCCAAACACTCCTGCCTTCCTGTAGGGCAAANACAGGTTTTNAAGGIdentityno complete scores>emb|Z98200.8|HS111B22 Human DNA sequence from clone RP1-111B22 onchromosome 6q16-21. Contains a novel pseudogene, a pseudogene similar toribosomal protein L3, ESTs, STSs, GSSs and CpG Islands, complete sequence[Homo sapiens ]Length = 153381Score = 260 bits (131), Expect = 7e−67Identities = 267/312 (85%), Gaps = 3/312 (0%)Strand = Plus/Plus>gb|AW489000.1|AW489000 UI-M-BH3-asd-a-10-0-UI.s1 NIH_BMAP_M_S4 Mus musculuscDNA clone UI-M-BH3-asd-a-10-0-UI 3′Length = 462Score = 438 bits (221), Expect = e−120Identities = 235/239 (98%), Gaps = 1/239 (0%)Strand = Plus/Plus>gb|AW488401.1|AW488401 UI-M-BH3-art-b-02-0-UI.s1 NIH_BMAP_M_S4 Mus musculuscDNA clone UI-M-bH3-art-b-02-0-UI 3′Length = 497Score = 438 bits (221), Expect = e−120Identities = 235/239 (98%), Gaps = 1/239 (0%)Strand = Plus/PlusClone #T7 sequenceAAAGGCGCGGAGCCTGCTGGTGCCATGGNGGCTGGNGGCTGGGTACACTATGTCTAGAGTGGGGGCCCTGGGGGG 30CTCCCGCGCCGGGTTGGGACTGTTACTTGGTACTGCCGCCGGCCTTGGATTCCTGNGCGTCCTTTACAGCCAGCGATGGAAACGGACCCAGCGCCATGGCCGGAGTCACAGTCTGCCCAACTCCCTGGACTATGCGCAGGCTTCAGAGCGNGGACGCCAGGTGACACAGTTTCGGGCTATCCCAGGAGAAGCTGGAGATGCTGCCATACTGCCCAGCCTCTCACAGGAAGGGCAGGAGAAGGNGCTGGACCGCCTGGACTTTGAGCTGACCAGTCTTATGGCGCTGCGGCGCGAGGNGGAGGAGCTTCAGAGAAGCCTGCAAGGACTAGCTGNCGAGATBGH sequenceGACGGACTGGACGCCGCCTCCACATCCAGGTCCAGAGAGTCCTTCCTCCCCATCCTCACGGTCTCGCAGCTCACTTCGTCCTCAGCATCTCCACTCTCCTTGTCGGAGTCCCGCTCGTAATCAGACTCCGCGTNGGCTGNNGTATAGCCTCCCTCGCTCTCGGCGTCTGNGAGNGCGGCCCCTGAGGAGGCGGNGAAGTAGACAGAGCTGGAGCCCGNGGAGTCACTCCTCTCTCTGGCAAAAGGGAACCTGCGCCGCCGGGCCACTCTCTGGTTCTCTTCTATATGAGAGCGGACCTCCCCGACAATCTCCCCAGCTAGTCCTTGCAGGCTTCTCTGAAGCTCCTCCACCTCGCGCCGNAGCGCCATAAGACTGGTCAGCACAAAGTCCAGGCGGTCCAGCACCTTCTCCTGCCCTTCCTGNGAGAGGCTGGGCAGTATGGCAGCATCTCCAGCTTCACCTGGGATAGCCCGAAACTGTGTCACCTGGCGNCCACGCTCTGAAGCCTGCGCATAGTCCAGGGAGNTGGGCAGACTGTGACTCCGGCCATGGCGCTGGGNCCGATTCCATCGCTGGCTGTAAAGGACGCACAGGAATCCAAGGCCGGNGGCAGTACCAAGTAACAGTCCNAACCCGGCGCGGGAGCCGCCCAGGGCCCCCAGTCTAGACATAGTGTACCCAGCCACCAGCCACCATGGCAGCAGCAGGCTTCGCGCCTTTGCAGCACACTGGCGGCCGGTACTAGTGGANCCGAGCTTNGGNACCAAGCTTGIdentitygb|AI115883|AI115883 ue96a12.y1 Sugano mouse embryo mewa Mus musculus cDNAclone 1498942 5′, mRNA sequence [Mus musculus]Length = 540Score = 731 bets (369), Expect = 0.0Identities = 393/403 (97%), Positives = 393/403 (97%)gb|AA052396|AA052396 mb67c07.r1 Soares mouse p3NMF19.5 Mus musculus cDNAclone 334476 5′Length = 405Score = 660 bits (333), Expect = 0.0Identities = 380/394 (96%), Positives = 380/394 (96%), Gaps = 4/394 (1%)gb|AA777720|AA777720 z|06a08.s1 Soares fetal liver spleen 1NFLS S1 Homosapiens cDNA clone 449462 3′Length = 453Score = 589 bits (297), Expect = e−166Identities = 398/435 (91%), Positives = 398/435 (91%), Gaps = 4/435 (0%)gb|AA960116|AA960116 ub54e08.s1 Soares mouse mammary gland NMLMG Mus musculus cDNA clone 1381574 3′Length = 416Score = 543 bits (274), Expect = e−153Identities = 354/385 (91%), Positives = 354/385 (91%), Gaps = 2/385 (0%)DescriptionDNA ladder,Clone #T7 sequenceAAAGGCTTGCCNTNCAGGCCATGCGGCTGGAGGTNTGCATCGAGGCGTTTCCCATGTTTCTGCTGAACCTTCTAGG 31CATGNGGAGCTGGGTATGCAAAAAGNGCTTTCCCTACTTCCTGAAGCGGTTCGCCATGATATACAATNGGAAGATGGCGAGCCTAAAGCGGGAGCTCTTCAGCAATCTGCAGGAGTTCGCCGGCCCCTNGGGGAAGCTAACTCGCTGGAGGNGGGCTGCGGCACCGGGGCCAACTTCAAGTTCTATCCCCCCGGGAGCAGGGTCACTNGTATCGACCCTAANCCCAACTTTGAGAAGNTCTTGTTCAAGAGCGTCGCANAGAACCGGCAGCTGCAGTNCGAGCGCTTNGAGGNGGCAGCCGNNGAGGACATGCACCAGGTGACCGANGGCTTCTGAGGACCGTGBGH sequenceGGCAAATATAGAAACCATTTATCAAANGAATATAAANGTATTGATCAAGATTTAAAATATAACTTCTGCAAAATCATNTTGAAAAATATACATTTGTTTAGATCCATACATACAAATGCAGCTGAAACCCTTGGGCCCACCCAGACTTGCTCTCTGTATGAACACAANGATATCCANGGTTTTGTTTCAGGACCAGNGGAATTTTTCTTCTTCTTCAATACAGGGTTNATTNGNGNAGCCCTGGCGGNCCTGGAACTCCATCTGTAGATCAGGCTGTACTNACAGAGATCCACCTACCTCTGCCACCTGAGAGCTGGGATTGAGGCTNTGCCACCAACCACTCAGGACCAGNGATATTTGACCAGAAGAATCCCTCCCCCCCCGNACCCCGAGTCCTTGGNAACTACTCTCGGGCATTACTTTTAGGGNCCCCTACATACTGNCCCATTTCCCTAACTATAGNGGCCTTCTACTGCCTACGGNAATNATATTCAGCAAAGTNTGTGCTAGATAAGATGGNAAATTAAACAGAGAATTCCCATCTGNNCTGNGCNGNNCTGNGATGACGCTIdentitygb|AI315450|AI315450 uj46g05.y1 Sugano mouse liver mlia Mus musculus cDNA clone IMAGE:1923032 5′, mRNA sequence [Mus musculus]Length = 469Score = 511 bits (258), Expect = e−143Identities = 363/404 (89%), Positives = 363/404 (89%)gb|A1019878|AI019678 ua92d11.r1 Soares mouse mammary gland NbMMG Mus musculus cDNA clone 1364949 5′Length = 431Score = 505 bits (255), Expect = e−141Identities = 363/405 (89%), Positives = 363/405 (89%)Clone #T7 sequenceAAAGAAGGAACTAAACATGGGCCAGCGATGCTCTGACACCAGAGGAATNGCTTTCGAAGTCAGAGNGCCTAAG 32GAAAATGTGTTAATCGGNGAAGGAGCANTTTTCAAGATCGCAANGGGTGCTTTNGATAGAACCAGACCTACAGTCGCAGCTGGCGCTGNCGGGCTAGCCCAGAGAGCTCTGGACGAAGCCACGAAGTATGCCCTGGATAGGAAGACATTTGGAAAGCTGCTAGNGGAGCACCAAGGAGTTTCATTTCTGCTCGCAGAAATGGCNATGAAGGTNGAACTCGCTAGGCTCAGTTACCAGAGAGCAGCCTGGGAGGNNGACTCCGGTCGGCGGAACACTTACTATGCCTCGATTGCAAAGGCCTTTGCTGGAGACATTGCCAATCAGCTAGCCACTNACGCCGNGCAGATTTTCGGNGGCTANGGATTNAACACAGAGTACCCTGTGGAGAAGCTNANGNNGNGCGCCANGATCTATCANATCTATNANGGTCIdentitygb|U07159|MMU07159 Mus musculus medium-chain acyl-CoA dehydrogenase mRNA, complete cds.Length = 1846Score = 799 bits (403), Expect = 0.0Identities= 461/488_(94%), Positives = 461/488 (94%)Clone #T7 sequenceAAAGCGTCGCCATCCGCCACCATGGNGAACTTNANAGTAGATCAGATCCGNGCCATCATGGACAAGAAAGCCAACAT 33CGATAAGGGNGAGGNGTCTGCCCGCCAGGAGCTCAAGGCACGTGCCCGCTACCTGGCCGAAAAGTNTGAGNGGGACGTTGCTGAAGCCCGNAAGATCNGGNGCTTAGGCCCTGNTGGCACTGGCCCCAACATTCTNACCGACATNACCAAGGGNGTGCAGTACCNGAATGNGATCAAGGACAGCGNGGAGGCNGGCTTCCAGNGGNCTNCTNAGGNGGGCGCTNTCTNNGAGNANANCATGCNNCATTNTGCNCCCIdentitygb|M76131|MUSEF2 Mouse elongation factor 2 (ef-2) mRNA, 3′ end.Length = 1179Score = 309 bits (156), Expect = 2e−82Identities = 207/231 (89%)Strand = Plus/PlusClone #T7 sequenceAAAGGCCAGCTCCTGCTCTGCTCCTCTCCCGCCTGCCGCCGCGCTGCACGCCTCGAGCACTCCCTCGGCCCCGGCG 34GNGACCGGGGACCCCGCAGCTACCGCCATGCTGCCAGNGCTCTACACCGGCCTGGCGGGGCTGCTGCTGCTGCCTCTGCTGCTCACCTGCTGCTGCCCCTACCTCCTCCAAGATGNGCGGNACTTCCTGNGGCTGGCCAACATGGCCCGGCGGGNGCGCAGCTACCGGCAGCGGCGACCCGNGCGTACCATCCTGCGGGCCTTCCTGGAACAAGCGCGCAAGACCCCACACAAGCCCTTCCTGCTGTTCCGAGACGAGACGCTCACCTACGCCCAGGAGGACCGGCGNAGCAANCAAGNGGCGCGGGCGCTGCACGATCAACTGGGCCTACNANAGGGGGATTGCGTAGCCCTCTTNATGGGCAATGAGCCGGCCTACGNGNGGATCTGGCTGCNACTGCTNAAACTGGGCNGCCCATGNCGAGCCTTANCTACAACATTCGTNCNAAGTCTCTGCTGTACTGCTTTCAATGCTNCGGNGCCNAANGNGCAGNTTNCCTCCCAGNNNTACATGAAGCTNCIdentitygb|AF072757|AF072757 Mus musculus fatty acid transport protein 2 mRNA, complete cdsLength = 1872Score = 579 bits (292), Expect = e−163Identities = 356/383 (92%), Gaps = 1/383 (0%)Strand = Plus/PlusScore = 58.0 bits (29), Expect = 2e−06Identities = 31/32 (96%)Strand = Plus/PlusClone #T7 sequenceAAAGCCTCCACTTGCCTACTTGGGGCGCGAGGAGGTTGGAGAGTTTTTTTCTGGGACCCAAGCAAAGGCATCCACG 35CTGCTGCTAAGCTGAAATTGAAGCTCACACATCCTGGAAAATGCTAGCACCCATACCAGAACCCAAGCCTGGAGACCTGATTGAGATTTTCCGCCCTATGTACAGACACTGGGCCATCTATGTTGGNGATGGATACGTGATCCACCTGGCTCCTCCAAGTGAAATCGCAGGAGCTGGGGCAGCCAGCATCATGTCTGCTTTGACTGACAAGGCCATAGTGAAGAAAGAACTGCTGTGCCATGTGGCCGGGAAGGACAAGTACCAGGTCAATAACAAACATGACGAGGAGTACACCCCACTGCCTCTGAGCAAGATCATCCAGCGGGCTGAGAGACTGGNGGGGCAGGAGGTGCTCTACAGGCTGACCAGCGAGAACTGTGAGCACTTTGTGAATGAACTACGCTATGGAGTTCCTCGGAGTGATCAGGTCAGAGATGCGGNCAAGGCGGTAGGCATCGCTGGAGTGGGCTTGGCGGCCTTGGGCCTCGTTGGAGTCATGCTCTCCAGAAACAAGAAACAGAAGCAATGAGCTGAATGACTGCCCAGTTTTTGGGCTCTTCTTTTGCTAGAGGGTTTGGAGTTTGATTTATAGATTCTATTGCTTTATAATTAGGGTTATTTTCACAACATACANTAAACCACAAGAAAGGAABGH sequenceCTNGAGGNTAATAGTATGNNGTGAAAATANANNTAATTATAAAGCANTAGAANTTATAAATCAAACTCCAAANCCTNTAGCAAAAGAAGAGCCCAAAAACNGNGNAGNCATTCAGCTNATTGNTTCTGTCTNANNGNNTCNGGAGAGCANGACTTCANTGNGNNCCAAGGANGNCAAGCNCACACNAGNGNNGACTACTCGACTAGCCCGCATTIdentityemb|X76453|RNHREV107 R. norvegicus (Sprague Dawley) H-rev107 mRNALength = 966Score = 745 bits (376), Expect = 0.0Identities = 546/603 (90%), Gaps = 1/603 (0%)Strand = Plus/Plusemb|X92814|HSHREV107 H. sapiens mRNA for rat HREV107-like proteinLength = 1070Score = 323 bits (163), Expect = 3e−86Identities = 334/389 (85%), Gaps = 2/389 (0%).Strand = Plus/PlusDescriptionPI-FACS: ApoptosisClone #BGH sequenceGGGGCACAGTCTATTTTATATAANGAGATCAGTTGTCTGGAAAGGGATATGGTGTCCAGAGTGAGATAGGGGACCC 36TGGGCTNGGGACCCATTGTTCAGATAGGAAAACTGAGATCAGGGCAGGTATGATTNGGGTTAGGGAGNCNGNGNGGAGCGGGGGGTNAACCTCAGCAGGGCAGGCACTGNGACCCTGATCTTCTCAGANTTCAGGAAAGCCACGTGCTTCTCATAATAGGCAGCCTCATTAATGAACACAGGGTACACAATGGAGTCCCCCTCATACAGTACGTCTTCTCCGCTGAAAAGCTTGAAGATGGGTTCANCAGGNCTNAGNGGCTCAAAGTCATGGNCGTGCAGNTGAGGGNGCACAGAGNCAGCCAGGTCACCATCCNCAGTGCGTGGGAAGTCCACACTGCCCAAGTTCCTGTANATATCCATCTCAAAGGCGGGTAAGTCCATGCCTTGGTTGAAGAGCTCGATGAAGTCCNNAATGGATGCCACCAGAGCTNGCATCCGNNAGAACAGGNCGGCCCGCAGCACGCCCCTGAGGCTGCGGGCCCATCTCCNGACAGATTCCATTCTTGGNNATAGATTCCCCCTTTCCAGCACACTGNCGGCCNGNNACTAGTIdentity>gb|AW107362.1|AW107362 um15a04.x1 Sugano mouse kidney mkia Mus musculuscDNA clone IMAGE:2192334 3′ similar to SW:ACY2_HUMAN P45381 ASPARTOACYLASE;Length = 649Score = 930 bits (469), Expect = 0.0Identities = 557/595 (93%). Gaps 1/595 (0%)Strand = Plus/PlusClone #T7 sequenceAAAGCTGCATNGNGGCGTTACCCATG1TTCNGCTNAACGTTCTAGGCATGNGGAGCTGGGTATGCAAAAAGNGCTT 37TCCCTACTTCCNGAAGCGGNTCGCCANGATATACAATNGGAAGATGGCGAGCCTAAAGCGGNAGCTCTTCAGCAATCTGCAGGAGNNCGCCGGNCCCTCGGGGAAGCTAANTCAGCTGNNGGAGBGH sequenceNGGCAAATATAGAAACNATTTATCAAATGAATATAAANGTATTGATCAACATTTAAAATATAANTTCTGCAAAATCATCTTGAAAAATATACATTNGTTTAGATCCATACATACAAATGCAGCTGAAACCCTTGGGCCCACCCAGACTTGCTCTCTGTATGAANACAATGATATCCATGGNTTNGTTTCAGGACCAGNGGAATTTTNCTTCTTCTTCANTACAGGGTTTATTTGTGTAGCCCTGGNGGCCCTGNAACNCNATTTGTAGATCAGNCTGTIdentitygb|AI315920|AI315920 uj27f11.y1 Sugano mouse kidney mkia Mus musculus cDNA clone IMAGE:1921197 5′ similar to TR:Q14521 Q14521 GIANT LARVAE HOMOLOGUE; mRNA sequence [Mus musculus]Length = 689Score = 190 bits (96), Expect = 5e−47Identities = 144/164 (87%)Strand = Plus/Plusgb|AI315072|AI315072 uj23e11.x1 Sugano mouse kidney mkia Mus musculus cDNA clone IMAGE:1920812 3′. mRNA sequence [Mus musculus]Length = 538Score = 385 bits (194), Expect = e−105Identities = 220/232 (94%)Strand = Plus/Plusgb|AF109905|MMHC213L3 Mus musculus major histocompatibility locus class III regions Hsc70t gene, partial cds; smRNP, G7A, NG23, MutS homolog, CLCP, NG24, NG25, and NG26 genes, complete cds; and unknown genesLength =135545Score = 44.1 bits (22), Expect = 0.014Identities = 47/57 (82%)Strand = Plus/MinusScore = 42.1 bits (21), Expect = 0.054Identities = 24/25 (96%)Strand = Plus/PlusScore = 40.1 bits (20), Expect = 0.21Identities = 31/35 (88%)Strand = Plus/MinusScore = 36.2 bits (18), Expect = 3.3Identities = 46/57 (80%)Strand = Plus/PlusScore = 36.2 bits (18), Expect = 3.3Identities = 46/57 (80%)Strand = Plus/Plusgb|AF110520|MMHC425O18 Mus musculus major histocompatibility complex region NG27, NG28, RPS28, NADH oxidoreductase, NG29. KIFC1, Fas-binding protein, BING1, tapasin, RalGdS-like, KE2, BING4, beta 1,3-galactosyl transferase, and RPS18 genes,Length = 213245Score = 44.1 bits (22), Expect = 0.014Identities = 47/57 (82%)Strand = Plus/PlusScore = 36.2 bits (18), Expect = 3.3Identities = 46/57 (80%)Strand = Plus/PlusClone #T7 sequenceAAAGGTGGAGCTGGGTGGTGTTTGGTGGGGTACGGCGGCCACTCAGTTGCAGCAGAGCAGGTGCCATCCTGTGGA 38AGAACCATGAAGCACTACGAGGTGGAGATTCGGGATGCAAAGACGAGGGAGAAGCTGTGCTTCCTGGACAAGGTAGAGCCTCAGGCCACCATTTCTGAAATCAAGACCCTTTTCACCAAGACACACCCGCAGTGGTATCCTGCCCGCCAGTCCCTCCGCCTGGACCCCAAGGGGAAGTCCCTGAAAGATGAAGATGTCTTACAGAAGCTTCCTGTGGGCACCACAGCCACACTCTACTTCCGGGACCTCGGGGCCCAGATCAGCTGGGTGACGGTCTTCCTGACGGAGTATGCCGGGCCCCTTTTCATCTACCTGCTCTTCTACTTCCGGGTACCCTTCATTTATGGCCGCAAATACGACTTTACGTCCAGTCGGCATACGGTGGTGCACCTCGCCTGCATGTGCCACTCGTTCCACTACATCAAGCGCCTGCTGGAGACTCTCTTCGTGCACCGATTCTCTCACGGAACCATGCCTTTGCGAAACATCTTCAAAAACTGCACCTACTATTGGGGCTTTGCTGCATGGATGGCTTATTACATCAACCACCCTCTCTACACACCCCCTACCTATGGAGTTCAGCAGGTTAAGCTGGCACTGGCCGTTTTTGTGATCTGCCAGCTTGGGAACTTCTNCATCCACATGGCTCTTCGGGACCTTCGGCCTGCTGGGTCNAAAACCAGGAAGATCCATACCCCACCAAGAACCCCTTCACTGGCTGGTCCTGTGGBGH sequenceGGGTAAGCAGGTTTTATTGTTGCTGCTGGAGAGCCATGGCCAGGCACACATNAGGACAGGGGCAGNGAGGGGTGGAGAGTATTACTGGGCAGAGCCGTGAGGAGCTGCTCAGAGCAGGAAGGGAATAATGGGCATGCGCAGGGGCGGGTAGTCGCGGAACTCCTTCAGGTAGCTGCGGNGTTTGCCCTTGGCCCAGATAGTCATCTGGGTGAAGCCCACCAGGGAGAAGAGGGCCACTGGGACACACTGAGTCAAGATGGCAAAGCCAATCCAGGAGCCCACCTNATAAGTGTAGTTGGGACAGGACACCAACAGGAACAGCCAGGTGAAGGGGTTCTTGGNGGGGTATGGGATCTTCCTGGTTTTCGACCCAGGAGGCCGAAGGTCCCGAAGAGCCATGTGGATGGAGAAGTTCCCAAGCTGGCAGATCACAAAAACGGCCAGNGCCAGCTTAACCTGCTGAACTCCATAGGTAGGGGGNGTGTAGAGIdentitygb|S45663|S45663 SC2 = synaptic glycoprotein [rats, brain, mRNA, 1178 nt]Length = 1178Score = 650 bits (328), Expect = 0.0Identities = 450/490 (91%), Gaps = 6/490 (1%)Clone #T7 sequenceAAAGCGCTGGAGCTACAGCCGTTACTGCCGCCGCCGCCGCCGCCGGCGCCGAGGCGTTNGATCGTTGGCAATGTCA 39GGCTTTGATAACTTAAACAGCGGTTTCTACCAGACGAGTTACAGCATCGACGAGCAATCTNAGCAGTCCTATGACTATGGAGGAAGNGGAGGACCCTACAGCAAGNAGTATGCTGGCTGAGACTACTCGCAGCAAGGCCGATTNGTCCCTCCAGACATGATGCAGCCACAGNAGACATACACTGGGCAGATTTACCAGCCAACTCAGGCCTATCCTCCAACAACANCTNAGCCATTCTATGGAGACAGCTTNGAGGAGGAGCCCCCTCTGTTAGAAGAGTTGGGTATCAATTTTGACCACATTNGGCAAAAAACACTAACGGAGCTACACCCCCCTGAGGGCAGNTGACGGCAGCATCATGAATGATNACGGACTTGNGCAGGNCCCAGIdentitygb|AA763399|AA763399 vw53h02.r1 Soares mouse mammary gland NMLMG Mus musculus cDNA clone 1247571 5′ similar to WP:F32D8.4 CE05783 LACTATE DEHYDROGENASE;Length = 635Score = 668 bits (337), Expect = 0.0Identities = 370/383 (96%), Gaps = 1/383 (0%)Strand = Plus/PlusClone #T7 sequenceAAATGGCCCTATGATGCAGAACTCTCCTTTNTCCTGCGCACGGGTACACGGTACGGAGNGGACACTNACCTGTTCAG 40NGNGGAGTCGCCGCAAGAGCTGGCAGCCTGGACCCGACAGTNGGAGGATGGCTGNCATCGGGCTGCTGAAGGCGTACAAGAAGNGTCTACAGCCTGCACGNGGAACGGCCGNCCCTGCAGCCTGTCTGNGCACATCGACAAGGGCTTCACCCTGNGGGCAGCTGAGCCTGGAGCAGCCCGAGCCATGCTGCTCCGACAGCCCTTCGAGAAACTTCAGATGTCATCAGATGATGGCACGAGTCTCCTTTTCCTGGACTTNGGGGGNGCTGAAGGAGAGATCGAGCTGGACCTGCACTCGAGTCCCAAAACGATGGTCCTNNATNATCCACTCTTTCCTGTCCNCNAAGGNCACCCNCTNGNCGCNCANGGCCTAGANGCCTGNCCCGNTGNACCAGNNCCTTGAAAGCAGGCAATCTGATNCATCCTCGBGH sequenceGNGCTNANANGNTGNTNATTATTNAANANGAANGANGGGANANAGGACNAGGANAAAACCCAAATGCCCCACGGNGNTTAAGGGGAAGNGAACNNAAAGGNTNCTCTTCTTNCTCTTGCCACTGACCCANAANANTCCANNTGNANANATCTNANGGNGGNNAANGGGCCTCNNNNAGGCCTGGCANNTNTGCTGNNGGNTGGGGACGGGATCCNCANAGGGNNANGNCCCANGCTNGNAAAGGTTTCTGNGTACNCNAAAAATNTNTTTTAAAAAGGCNCNGGNGGANGNNANCNNTANGAANGCTNNCCAACNCAANCCNNACTTGCTNNCCCAGGNCTGAGNTNTGNTTCCTNAGGCTGNNCTCTGAGGCCCIdentitygb|U00677|U00677 Mus musculus syntrophin-1 gene, complete cdsLength = 2109Score = 626 bits (316), Expect = e−178Identities = 393/426 (92%), Gaps = 1/426 (0%)Strand = Plus/PlusDescriptionDNA ladderClone #T7 sequenceAGGCTGTGCGAAGCGGGCACGCGCGGACCCTTNACCGGCCGCGGAGCCGCTATGGGCCCGCCAGGCCCCTGGCGT 41GGCGCGGCGCAAGGACCGGCTCCNAGCCAGGATTGAAATTCCAAGATGGATGATCAGGACCCTGGGGGCATTAGCCCCCTTCAGCAAATGGTGGCCTCAGGAGCCGGGGCTGNGGACACCTCCCTCTTCATGACACCCCTGNATGNGGTGAAGGTCCGCCTTCAGTCTCAGAGACCCTCGGCAACCAGCGAATTGACAACTCCCTCCAGATTCTGGAGTCTCTCCTACACCAAATCATCCTCCGCTCTACAGTCCCCAGGGAAGTGCCTCCTATACTGNAATGGAGTCCTGGAGCCCCTGTACCTGTGCCCAAATGGTACCCGNTGTGCCACCTGNTTTCAGGACCCCACACGGTTCACTGGCACCTTGGATGCCTTNGNGAAGATTGNGCGGCATGAGGGCAGTAGGACCCTGTNNANNGGCCTCCNAGCCACCCTGGNGATGACCGNGCCAGCTACTGCTATCTACTTCACTGCTTACGACCAACTCAAGGCCTTCCTGTGTGGCAGTCCTTGACCTCTGACCTCTACGCACCCATGGTGGCTGNTGCCCTCGCCCGAATGGGCACCGTGACAGTTGCAGCCCCTTGNAGCTCGTGCGGACCAAGCTGCAGGCTCAGCATGTGTCATACCGTGAGCTGGCTTNCTCTGTTAAGCTGCNGNGACTCAGGGTGCTGGCGCTCTBGH sequenceNNNCNTTTNNCNCACAGAAGACCATCATNTTTAGACAAGGAATGAATGGNGCCAAGATACTGCCTGGCCCAAGNTCCTCGGNCCAAGCTATAACAAACATGNGGATNCAAAAAAGGGCGATCATCAGATTTGNTCTTGAATTCGGNAGGCGGNAGAGGGGCAATCCTGGNAAGGGAAACAGCAGGAATCCAGGTCTGAGGACAGCCTGGGAGACNGGACTGGNAGGNAAGGCACTTGNCTCAGTCTCGTGATCCCACCCGTGCAAGAGCCGNNNGCTCCCCGACTTTCAGCGGCCCAGAGGCTGCTNCTGGTNGAGCCTCTGNAAGAAGCTTTTGCCAAACTCNNAAGTGCTGANCATGATGGCCAGIdentitygb|AC003043|AC003043 Homo sapiens chromosome 17, clone HRPC1067M6, complete sequence [Homo sapiens]Length = 139488Score = 133 bits (67), Expect = 5e−29Identities 112/128 (87%)Strand = Plus/Plusgb|AA109006|AA109006 ml63d04.r1 Stratagene mouse testis (#937308) Mus musculus cDNA clone 516679 5′ similar to WP:C16C10.1 CE01489 CARRIER PROTEIN;Length = 517Score = 860 bits (434), Expect = 0.0Identities = 493/516 (95%), Gaps = 3/516 (0%)Strand = Plusgb|AA985996|AA985996 uc73c10.x1 Sugano mouse liver mlia Mus musculus cDNA clone 1431282 3′ similar to TR:O14589 O14589 SIMILARITY TO Q09461Length = 711Score = 553 bits (279), Expect = e−156Identities = 328/352 (93%)Strand = Plus/PlusClone #T7 sequenceAAAGCTTCACTTCGGCCTCCAGCCGGGGAGNCTGGAGCGCAACTTCCAGATAGCGGAGNGGCCTCAGCTGCGAGCC 42GAGCGGAGGCGGCAGCGTTNCTCAGGACACCCGCAGATCACCTTTTCCCCGCGACTTCGCCATGGCTGAGNGGTGAGTACCGGTATGCCCACGGCCGATGNGTATCCCTCCACCCTATGCTGACCTCGGCAAAGCTGCCAGAGACATTTTCAACAAAGGATTNGGCTTAGGGCTGNNGAAGCTGGATGNGAAGACGAAGTCATGCAGCGGNGTGGAATTTTCAACATCTGGCTCATCTAATACAGACACTGGTAAAGTTAGCGGGACCTNGGAGACCAAGTACAAATGGNGAGAGTATGGTCTGACTTTCACAGAGAAGTGGAACACCGANAACACTCTGGGGACAGAGATTGCANTTTGAAGACCAGATTTGTCAAGGATAGAAACTTGACTTTNGACACCCAGCTTTTCACCGAACACAGGNNNAAGGANANNGTGGTNAATAATCAAGTCCTGCTTTACCAAGNAGGGNGNAGNTGTCBGH sequenceCGGTTTTCATAAACGTCTATTTCATCATTGGTGGGTAGCACATTTAACAGTTAAATAGATTTAAATAATGTATAGGAGGCCGNACCACGGCAGCACTGATAACCATCCAACTAGGAACCAGCCAACAGTGACTGTCTAAATATTTAAAATACAGCTCTNGTTCATCATCCTTTGATGTGATCACCTTCTGGGGGAAGGAAGGGGAGCCTGCTGGTCGCATGGAAATATATTAAGGCCAAATCTTCTGATATTCGTTCCCAGAGGTTTCTTTTAACTGGATTAAGCCTCCAATTCCAAGGCAAGCCCAAGTTTGNGGCCTCCAGCATTAAAGCTCTTCCCGTCTACCAGAGCAGACAGTGTAAGCTTCACACCAGGCCTCAGAGTCTGAGTATAGCCCACTCCAATTAAACTAGAGTTGTTGACCTTTGCAGAGATAGAAGCAGTAGGATCCAACTGGTATTTAGCTGCAATGCCAAAACGAGTGCAGCNGGNACCTGATGTCCAAGCGAGGNTTACTGANGTGTCAAAATCTTNACATACTTTCTGATNAATTTGATCCTCCAAATTCTGTCCCATTATTTACATTTGTGTGNAGCTGGAAGTCCCCAGTCCTGTAGCCGACNGCANAGNTACTCIdentitygb|U30838|MMU30838 Mus musculus voltage dependent anion channel 2 mRNA, nuclear gene encoding mitochondrial protein, complete cdsLength = 1662Score = 763 bits (385), Expect = 0.0Identities = 466/494 (94%), Gaps = 3/494 (0%)Strand = Plus/Plusgb|L08666|HUMPORlN Homo sapiens porin (por) mRNA, complete cds and truncated cds.Length = 1464Score = 280 bits (141), Expect = 3e−73Identities = 252/291 (86%), Gaps 1/291 (0%)Strand = Plus/PlusDescriptionDNA ladderClone #T7 sequenceAAAGGGAGGAGGAAGCCCGGAGCGGAGCGGGGCNTCTGGGGGGGGTGGACCCGCCGCGGCTGCTGCTGCCACCG 43CCGCCGCCGCCACCACCGCTCGTGGGGCTCGTGGCGTGAGGAAGGAGGACGAGTGAGACCCCGGGGCGAGCGGGCGGCGGCGCCGCTGCTGCTGCTGCTGCTGCGGGAGGGTCGGCGGCGGGACGGCGATGGCGGATATCGACAAACTCAACATCGACAGCATCATCCAACGGCTGCTGGAAGTGAGAGGGTCCAAGCCAGGCAAGAATGTCCAGCTCCAGGAGAACGAGATCCGAGGACTCTGCCTGAAGTCTCGGGAGATCTTCCTCAGTCAGCCTATCCTTTTAGAACTTGAAGCACCACTCAAGATATGTGGNGACATCCAGGGGCAGTACTATGATTTGCTCCGTCTGTTTGAATACGGNGGCTTTCCTCCAGAGAGCAACTATTTGTTTCTCGGGGACTATGTGGACAGGGGCAAGCAGTCCCTGGAGACAATCTGCCTCTTGCTGGCCTACAAAATCAAGTATCCGGAGAACTTCTTTCTTCTCAGAGGGAACCACGAGTGCGCCAGCATCAATAGGATCTACGGATTTTATGATGAGTGTAAAAGAAGATACAACATTAAGCTGTGGAAAACGTTCACAGACTGTTTTAACTGCTTGCCGATAGCAGCCATCGTGNACNAGAAGATATTCTGCTGCATGGAGGGTTATCACCAGATCTTCAATCTATGGAGCAGAATCGGCCGAAATATGAGACCAACTGATNTACCAGATCAAGGNCTTCTTTTGBGH sequenceAAGTTAACAAGCTTGCATTTAATAAGTCTGAAACCATTCTCAGCACATGGCATTGTACACGGGCATCTGTGCAAACAGATTCATTTAACAGGTCGNAGTTTAAAAAAGTCATAGATACTGNGAGTTCTGTATAAACCGGNGGACGGNAAGTTAGTTCCTTTNGATTTATAAGCCTCAATGTCACCGNAGAATAAAGAATGTAGCCAAAGAAAGCATTATCGGTCACTCGTATAGGACAGAGTTGTTTCTATAATTTGAAGCTTTCTGAATGGACGGNTTCAGGCCTGATCCAACTGTAAAAAGATCACTCAGTGAATAGACTATATGGGAACTGTACAAAGTGTCATTAACTTNCATCATTAATAGCTTACTCAGCACTATACCACTATTGCTAGTTAAAATAACCTGCTTCTGAGGCCGCACGGAGGGAGGCGGCCTGTGCACGCAGCCTCGATGCCCTGGCCACCTCATCCCCAGGGCGTGCCATACAGTCCAACAGAAACTTTGGCTTTAGGAAGGAATCACAGACNTTGAAAAGAATGGCTTTAATCATTATTAAATGTGCAGNGGGAAGGAGTGTGCTTCAGATAGTCTGGGCAGGGCTGGCGGCAGGCAGGTCACTCCTGCTGGACAGCTGCAGACACTAGTTTGTCATGACAAGACAATGAGGGAAAGCAGNCIdentitygb|M27071|MUSDIS2M1A Mus musculus protein phosphatase type 1 (dis2m1) mRNA, complete cds.Length = 1438Score = 1156 bits (583), Expect = 0.0Identities = 618/629 (98%), Gaps = 2/629 (0%)Strand = Plus/PlusScore = 232 bits (117), Expect = 9e−59Identities = 142/153 (92%)Strand = Pius/Plusgb|U53456|MMU53456 Mus musculus protein phosphatase 1cgamma (PP1cgamma) mRNA, complete cdsLength = 2294Score = 1156 bits (583), Expect = 0.0Identities = 618/629 (98%), Gaps = 2/629 (0%)Strand = Plus/PlusScore = 222 bits (112), Expect = 8e−56Identities = 112/112 (100%)Strand Plus/PlusScore = 52.0 bits (26), Expect = 2e−04Identities = 26/26 (100%)Strand = Pius/Plusemb|X56438|DMPP1A1 D.melanogaster PP1-alpha 96A gene for protein phosphatase 1Length = 2230Score = 145 bits (73), Expect = 2e−32Identities = 238/294 (80%)Strand = Plus/Plusgb|M27067|EMEBIMG Aspergillus nidulans phosphoprotein phosphatase 1 mRNA, complete cds.Length = 2248Score = 85.7 bits (43), Expect = 1e−14Identities = 166/207 (80%)Strand Plus/Plusgb|M60215|MZEZMPP1 Z.mays protein phosphatase-1 (ZmPP1) mRNA, complete cds.Length = 1644Score = 83.8 bits (42), Expect = 5e−14Identities = 122/146 (83%), Gaps = 2/146 (1%)Strand = Plus/Plusgb|U00063|CELF56C9 Ceenorhabditis elegans cosmid F56C9Length = 35028Score = 58.0 bits (29), Expect = 3e−06Identities = 103/127 (81%), Gaps = 1/127(0%)Strand = Plus/PlusScore = 44.1 bits (22), Expect = 0.042Identities = 43/50 (86%)Strand = Plus/PlusClone #T7 sequenceAAAGAAGAAGAGGGGGCTAAGCTGAGTATAGAGGTGCTCCAGACCAGCCTGCAGAAGGAACTGACTCTAAACAAAG 44GCCAGGCCTCCGCCATGGAGCTGCTGCGCTGCCCCACGCTTCGGCGCCTCTTCCTCTGCCTCTCTATGCTGNGGTTTGCCACTAGCTTTGCCTACTACGGGCTGGTCATGGACCTGCAGGGCTTTGGGGTCAGCATGTACCTTATCCAGGTGATTTTCGGCGCTGNGGACCTGCCTGCCAAGTTTGNGTGCTTCCTAGTCATCAATTCCATGGGCCGCCGGCCTGCACAGTTGGCCTCCCTGCTGCTGGCAGGCATCTGTATCCTAGTGAATGGCATAATAGGGAGGGGCCATACAATCATTCGCACATCCCTGGCTGTACTAGGGAAAGGCTGTCTGGCTTCCTCTTTCAACTGCATCTTCCTGTACACCGGAGAGCTGTACCCCACAATGATTCGGCAGACGGGCCTGGGCATGGGCAGCACCATGGCCCGGGTGGGCAGCATAGTGAGCCCACTGATAAGCATGACTGCCGAGTTCTACCCCTCCATACCTCTCTTCATCTTCGGCGCTGNCCCCGTGGCCGCCAGCGCTGTCACTGCCCTGCTGCCAGAGACCTTGGGCCAGCCGCTGCCTGATACAGTGCAGGACCTGAAGAGCAGGAGCAGAGGAAAGCAGAAGCAACAGCAGCTGGAACAGCANAAGCAGATGATACCACTCCAGGTCTCAACACAAGAGAAGAACNGACTCTGAAAATGGAGAGGCGTCACBGH sequenceCAAGGTAGAAGAAATTTATTTAATTGTCTGGGATTCTTTGCAATGTCCTGGAGGNGGAAGGGACAGGAGCTGGAGGAGTGACCACTGAGCTGGAAGATGGCTGAGGAAGAGCTCATTCTGCTTAAGAAGCTGCACACAGTTAGAGCTTTNGTTCCTAGTAGGTCTATTGAAGTGACCTTTGGGGAGGCATTTCTCTGAATGGCAGGCTCCGCATTTAGATGGCCCAGTCCCTCCACTCACTCCCCCTCCTCATAGATGGNGGGACCTGCAGAACCCCACTCCCTTTAGNGCTGAGNGACGCCCTCTCCATTTTCAGAGTCCGTTCTTCTCTTGAGTTGAGACCTGGAGNGGNATCATCTGCTTGTGCTGNTCCAGCTGCTGANGCTTCTGCTTTCCTCTGCTCCTGCTCTTCAGGTCCTGCACTGTATCAGGCAGCGGCTGGCCCAAGGTCTCTGGCAGCAGGGCAGTGACAGCGCTGGCGGCCACGGGGACAGCGCCGAAGATGAAGAGAGGTATGGAGGGGTANGAACTCGGCAGTCATGCTTATCAGTGGGCTCACTATGCTGCCCACCCGGGCCATGGNGCTGCCCATGCCCAGGCCCGNCTGCCGAATCATTGNGIdentitygb|U52842|MMU52842 Mus musculus kidney-specific transport protein mRNA, complete cdsLength = 2161Score = 1501 bits (757). Expect = 0.0Identities = 769/775 (99%)Strand = Plus/Plusdbj|AB004559|AB004559 Rattus norvegicus mRNA for multispecific organic anion transporter, complete cdsLength = 2221Score = 1124 bits (567). Expect = 0.0Identities = 706/754 (93%)Strand = Plus/PlusClone #T7 sequenceAAAGACGNTACCCTGGAGTTCACCAGCATCGACGCTCACAAAGGCGTGGCCCCATCAAGACGNGGNGATTNGGAAA 45TACTNGGTTATNGCATGATCCAGNGGCTCAGCGGCTGTCTTCCTNGGGAAGATAAGTTGAAAGATCCTAACTACGTTAGGGATTCCAAAATTAGATACAGAGACAACTGTGGCAGCTTTGANGGAGAAATGCTTTCCTGAGAAAAATAAGCCAGGTGAGATCGCTAAGTACATGGAGTCTGNGAAACTACTGGAATACACCGAAAAACCTCTCTATCAAAACCTACGTGATATCCTTTTACAAGGACTAAAAGCTNTAGGAAGTNAAGACTNACGGCAAACTGGNTTTTAGNGCTGAGGANAACGGAAGTGNGAANCNAAGACCAGCCTCAAAGNNGCTTTAANAAANAANCANAANAAAGCNCNGNCGAGCGCNTGTNCNAGTGACATNTGAGNGCTCTANTGCACNCANCGTTBGH sequenceATGAACCTGAGATTTATTTTTTCTTGTCAAAGTAACGAGNCTCTTATATGGAAAGCGGCTGTATATCTCTGAAGGAGCAGTTAGAGAGCTGCTTCTGAATTCACCCAGAATTGCTACTGACCCTGAGCCCACATTTCCTTTCAGCTCTCCAGTCTCGGGTTNGGCCAGAGGAGAGTCCACTCATGTGAAACATTCACTCCCTGACATTCCCATTCTAGGGTCTNAAAGAACGGNGGAGGAGCTGGAAGCAAGGGCAAGAGGAGACTCCAGTAGGTTNGGGCTTCTACTATAAATTCTCTTCTGAGAGCACAGNAGAGGGGNCTGCGTGTCTGCGNCACGGNGAGGCTCACGCTTTATCTGCTGGAACTTGCACTGNGTCCAGCCATAAAAGCGACAGTNGAGCAGCCCCTGGGATGCTGCTGAGAGAGCCTGGAGCACAGAGAGGGCCATGTGCAGGAAGGNCTCCTGAGGCTCTGTCAGCTTCATGATCAGCAGGGAGACAGCTGNACCCCAGCAGCACACAAAGGCCACTGNNAAGAAACGCACTCGCTGGCCCAGAGTGTGAATCACTGCCCACTGCTNACTCTCCAGAAGGCCCGNCGACTTTACANACTTCTTATATNACATCIdentitygb|AF080252|AF080252 Mus musculus serine/threonine protein kinase 51PK(S) mRNA, complete cdsLength = 1651Score = 640 bits (323), Expect = 0.0Identities = 379/401 (94%), Gaps = 2/401 (0%)Strand = Plus/Plusgb|AF080253|AF080253 Mus musculus serine/threonine protein kinase 51PK(L) mRNA, comptete cdsLength = 1743Score = 640 bits (323), Expect = 0.0Identities = 379/401 (94%), Gaps = 2/401 (0%)Strand = Plus/Plusdbj|AB000449|AB000449 Homo sapiens mRNA for VRK1, complete cdsLength = 1662Score = 222 bits (112), Expect = 5e−56identities = 268/322 (83%), Gaps = 1/322 (0%)Strand = Plus/PlusDescriptionDNA ladder, PI-FACS: ApoptosisClone #T7 sequenceAAAGCTGCGGCAGGCATTCTCGGAGGAAANNAGCCAAGGACTAACTACGANCATGAGATNGGCAGTGATTNGCTTT 46NGCCTATTTGGCATTGCCTCCTCCCTCGCGGNGAAAGTGACTGATTCTGGCAGCTCAGAGGAGAAGAAGCTTTACAGCCTGCACCCAGATCCTATAGCCACATGGCTGGNGCCTGACCCATCTCAGAAGCAGAATCTCCTTGCGCCACAGAATGCTGNGTCCTCTGAAGAAAAGGATGACTTTAAGCAAGAAACTCTTCCAAGCAATTCNAATGAAAGCCATGACCACATGGACGACGATGATGACGATGATGATGACGATGGAGACCATGCAGAGAACGAGGATTCTGNGGACTCGGATGAATCTGACGAATCTCACCATTCCGATGAGTCTGNTGAGACCTTCACTGCTAGTACACAAGCAGACACTTTCACTCCAATCGTCCCCTNCAGTNCGATGTCCCCCCGACGGCCTGAGGNTGATAGCTTNGGCTTATGGGNCTGANNGTCCCAAGNTCTAGNNAGTTTTCCCAGGNTTTCCTGNATGANACCANGCNATCCCNTGGAATNCCCACCNTATTGNAGGNNAACCCTTAACCCNTTCTTTBGH sequenceACATGTACATGATTTTGGAATAATTTAATACTTTAACCTCAAGATACAACTATATTCTAAGACCATTATTTTAAAGGAACGGATCCTTACAAGACCAAAATAACCCATATAGCACGAGGTTGGTTTAGCCTTTCTTCTTCTTTCAACAAACGTGCACNACATGTTTCAGTAGCAAGGCCGATGCCATGGATATGAGAGCTGNGATTTGCAGGGACCAACCACATNTAGAACCGGGGAGGCCAATCAGACGGNGGGTNGGGNGGCATTCTACGTAAATCAGCAGGTGACATNACAACACGCTGGGTGCAGCCTCGCAACTGTCCATTAGGTTTCCTTTTTCTTGATGATCAGAGGNCCTACGTTGNCGCCAGTCTCTTCGTTGNGCTTTATGTGAGCCCCATCGCAGAAGGGGAACTTTTTAGACCTCCAGCATNGGCAGTACACGGCCTTATCCCCCAGATCCTCCATGTCGAAGGCATGCACCACCTTCGGNTTGACTTTCTGGATCTGAAGATTCACCATAGCTTTGGAGCGATTCTCTTTAGCGTAGAACTTCTTGNAAGCCAGGNAACCGAGAGCGGCTGTGCCAGCAGCAAAGGTGACGGGCCGCGACCACTCAACTTNCACAGCGGAGNTTGNNGCTGAGGCCCATGIdentitygb|J04806|MUSOSP Mus musculus osteopontin mRNA, complete cds.Length = 1385Score = 769 bits (388). Expect = 0.0Identities = 438/458 (95%), Gaps = 3/458 (0%)Strand = Plus/Plusemb|X13986|MMPONTIN Mouse mRNA for minopontinLength = 1328Score = 724 bets (365), Expect = 0.0Identities = 408/425 (96%), Gaps = 3/425 (0%)Strand = Plus/Plusemb|X1G151|MMETA1 Mouse mRNA for early T-lymphocyte activation 1 protein (ETa-1)Length = 1535Score = 718 bits 362 , Expect = 0.0Identities = 408/426 (95%), Gaps = 3/426 (0%)Strand Plus/Plusgb|S78177|S78177 Eta-1/Op (Eta-1b) = early T-lymphocyte activator-1 [mice, C3H/HeJ, spleen, mRNA, 1087 nt]Length = 1087Score = 682 bits (344), Expect = 0.0Identities = 356/362 (98%)Strand = Plus/PlusDescriptionDNA ladderClone #T7 sequenceAAAGGAGCAACGCGGGTCTTCCCGCTGTTGCTTNTCGCGGCCACGGCCGAGCATACGTCCCCGGCCTGAGGTGGNG 47GTGGCGAGCCCACCGCCGTTTGCTGCGACCTCATGGAAGGTGGCGGAGGAAGTAGCAACAAATCCACCAGCGGGTTAGCTGGCTTCTTCGGAGCCGGAGGAGCGGGTTACTCGAACGCTGATTTGGCCGGCGTCCCGCTGACTGGTATGAACCCCCTGTCTCCTTATTTAAATGTGGATCCACGCTATCTCGTTCAGGATACTGATGAATTTATTTTGCCAACTGGAGCTAATAAAACCCGAGGCAGATTTGAACTAGCTTTCTTTACCATTGGAGGATGTTGCATGACAGGGGCCGCATTCGGGGCAATGAACGGTCTTCGTTTAGGATTGAAGGAAACCCAGAGCATGGCCTGGTCCAAACCAAGAAATGTACAGATTTTGAATATGGTGACTAGGCAAGGAGCACTTTGGGCTANTACTCTAGGCTCCCTGGCTTTGCTCTATAGNGCTTBGH sequenceCTGTTTTCACCCTTTATTTGGAAAACAGGGCAACATTTAAGTTTTAGATTTTTTAAATGAATTAACATGGTAATAAAAAGTATGGCCTGAATTNGGAGAGTAAGNGGTTTTCCAGTIdentitydbj|AB006451|AB006451 Rattus norvegicus mRNA for Tim23. complete cdsLength = 1102Score = 791 bits (399), Expect = 0.0Identities = 492/523 (94%), Gaps = 1/523 (0%)Strand = Plus/Plusgb|AF030162|AF030162 Homo sapiens inner mitochondrial membrane translocase Tim23 (TIM23) mRNA, nuclear gene encoding mitochondrial protein, complete cdsLength = 841Score = 484 bits (244), Expect = e−135Identities = 384/431 89%Strand = Plus/PlusClone #T7 sequenceAAAGGGCCTCCGCACTNCCAAGTCATTTGNCGGCTACNNGNCTATNAGNGCANAGCAGGGTGTCANGGACCNAGTT 48GCTNNAGGCNGNNAAGAGCCNGCTGCAAGGTNAATCCTACAGTACGTGNAAACTCTGATGGAAGNGATNCCCAAGATCTGNCGNCTTCCGCNACATGAGTACGGCTCACCTGGCATCCTGGAGATCTTCCACCNCCAGCTGAAGGACATTGAGGAGAATGCACNAGCTGAAAACCGTATGCTTCCAGAACCTGCGGCAGGTGGGAAATGCTGCCCTCTTCNGCCNGCTTATANGAGCANAGNCTGNCTTTAGAANAANTCTGTGACCNGTTGCATGCAGCTCNTTTCCAGAATNTCTTACCTNNGAATCCNTGNANAAGAGGGNNAGAGAGTNTGAATNCCNAAATNAACAGACTNCAATCCAANTATTGCCCCANTGTACCCTNGCCCCAATGNTTGAAANGGCTGNGGACCCCNAGCAAANCGCAACTGCNCGANACGGNGNCTNGCTGNCCAANGNANCGCCTCATGNNGCGGCATGNCCATGTTTGAAGTTCNCCTNACNCNCNCCNCANCTTCTGGCNTGATCCCCNATCNGGCGCNGNCCCCCTCACCNAGCNNTTGGTGNNATNCNNGCNCNANAGANGCCTTGNGCTTCNCANCCTCTAGCTAACCCCCNGCCCCTNNGTATNNCTTCACTNCBGH sequenceAATACAATTAGTTGGTATTATGCTCGTACAGGATGANCGACCCCANTNTCCCNTCNTANCTGCTGTAATATTCGGCATGAAAATACTTGTTAATACCGTAANGGCAACAACTAGTAACCGTATTCTCAGACTTCCCAATTCCAAAGGCATATACAATTTTAGTATAGAAAAATAAGTAAATTTTATAAAGTTAAGCTTTCAGATCAAAAGTAGGTtCAGACATAANGGAAAATAGCCCCTAAAAATTTCAATATAGTTTACATAAAGACAAACATGCCATCAGTTACTGGGATGCTGNGAGCTTAGCCCTCAGCTACNGGCTAGGGACTGGAGGANGGGNGGCTGGAAGCAGCGTACATGCTCCACAGGNGNGCTCTCGCCATCACCAGATTTCAAGTACTTGTCCAGGATAGTGATGATTTCATCGTTGAGAATGTGGAACTTGCGGATCCTCTCCACCATCTTCTTCAATGGCACATTTTTGATGATCTCATCTTTGCCATCATGNTTCTGAACTTTGAGANGATGATAGCAGAAATCCAACACAGCAAAGCGCCGCTGNTGTCCAAGANGTACAATGATCATGCAGCCAGCCCAGAGGANGCCCATCTCCAAAANCACNGCTCCACTTGTAAAACTCGNGGGGCCCCCTACCGNNAAATIdentitygbj|AF072697|AFG72697 Mus musculus SHYC (Shyc) mRNA, complete cdsLength = 4112Score = 983 bits (498), Expect = 0.0Identities = 551/571 (96%), Gaps = 2/571 (0%)dbj|038549|HUMHA1025A Human mRNA for KIAA0068 gene, partial cdsLength = 4379Score = 289 bits (146). Expect = 3e−76Identities = 254/293 (86%)Clone #BGH sequenceAATCTGGAACACAAAAGTTTATTAGAGTAAAAATACATATATAATATCCAACATTAAAATTATCTCATGTCACATGTT 49TTACCTGGATTAGTTTTTCCAAAAAAATGCTTTAAAACTCTATGCCTTAAATAATTTTGCATATATGTAAACAAATCTTAGATTACCGAAGATGCCATTATACCTGTTAGATATTGAACATNAACCTTTAGGAATGGGAACTACAAGTTTCACTCTATTACACTAAGCGCTACTCTGAAGGAAGGAGGGAAGGACGGAAGGAAGGACAGAAGGAAGGATAACCCACTTGAGATGAGGTAAGAGTAAGAGTTTAGTACCAAATGTTGACACAAGAATGTTAAAGGCATTCATGGAAAGTCACTCCGCTIdentitygb|U07971|RNU07971 Rattus norvegicus Sprague-Dawley L-arginine:glycine amidinotransferase mRNA, partial cds.Length = 2260Score = 198 bits (100), Expect = 5e−49Identities = 212/247 (85%), Gaps = 16/247 (6%)Score = 85.7 bits (43), Expect = 6e−15Identities = 49/51 (96%)Strand = Plus/MinusClone #T7 sequenceAAAGGCTGCTGTCAGGNGGTCCCTTTTATGGATGGGCTCCTGNGGNCGCTGCGCAGNGGNTGNTCGACTTCCGNAG 50NGNCNCTCGGGCCANCGAGCGCCGTCTTTANCNAGCTGCCANGGCTGTGGCCGCTGTCGGCCGCCNGAGAGCCCTGCGCTGTCCGCTGNAGCTCCTGCTGTNACTCCTGNTGNNAGCCGCCCTGCGCTGNGCNGTAACGACCCTGANAGAATACTCTTGCGGTATGTGAAAGCTCTTACCCTCTACTCCGACCGCTACACCACCTCCNNGGNGGCTGNACCCTATCCCACAGTTGAAGCGTGNAGGAGGCACCGANGNNTGANACGNCCTATACCCCAGGGNNNATACAGTGCNTNACTACAGGNTGNNNANCCTACCTATGACAGTGCGAACTNTNAGACTCGCCTCTBGH sequenceCTNNATNGNCTTCCAGNACNGNANNTNGCNAGCCTCAAACCANNAANGNAANACNACGNTGNANAGNGANGNNCAGNAGACNGAAGGANCTNATCANNNCGANNNATGGANGANNTAGNTANCACAANANGGNCNGNTNACGNNGGAGCTGNAGGANGACGGNANCGAGGCGGACAGATNAGNAGTIdentitydbj|AU035342|AU035342 AU035342 Sugano mouse brain mncb Mus musculus cDNA clone MNCb-0343, mRNA sequence [Mus musculus]Length = 718Score = 345 bits (174), Expect = 3e−93Identities = 286/327 (87%), Gaps = 4/327 (1%)Strand = Plus/Plusgb|AI286459|AI286459 ui77d03.y1 Sugano mouse liver mija Mus musculus cDNA clone lMAGE:1888421 5′ similar to WP:T06D8.9 CE02330; mRNA sequence [Mus musculus]Length = 456Score = 345 bits (174), Expect = 3e−93Identities = 286/327 (87%), Gaps = 4/327 (1%)Strand Plus/PlusClone #T7 sequenceAAAGCCTGTGTACGCCACCATCGGCTTTNGGTATCGNCAACACGGCCTTCANTGNGGAGTCGCTGNTTGTNGTAGA 51GCGAGCTGGACGACGGACCCTGCACCTCATTGGCCTGGCTGGCATGGCAGGCTGAGCTGNGCTCATGACCATCGCCCTGGCCTTGCTGGAACGGCTGCCTTGGATGTCCTATGTGAGCATCGNGGCCATCTTTGGCTAAGNGGCCTTCTTTGAAGTAGGCCCTGGTCCTATTCCATGGCTCATTGTGGCCGAGCTGNTCAGCCAGGGGCCCCGTCCTGCTGCTATNGCNGAGGCTGNCTTCTCCAACTGGACCTCAAACTTCATTGTGGGCATGNGCTTCCAGTNTGNGGAGCAACTGNGCGGNCCCTACGTGCTTCATCATCTTCACGGAGCTCCTCGNGCTCTTCTTCATCTTCANCTACTTCAAAGTCCCGAGCCAAAGGCCTGAACCTTCNATGAGANCGCTTCCGNCTTCCGGCAGGCIdentitygb|M22998|MUSGLUTRN Mouse facilitated glucose transport protein mRNA, complete cds.Length = 2473Score = 739 bits (373), Expect = 0.0Identities = 464/498 (93%), Gaps = 3/498 (0%)Strand = Plus/Plusgb|S77924|S77924 Glut-1 = glucose transporter isoform 1 [mice, embryo, mRNA Partial, 321 nt]Length = 321Score = 460 bits (232), Expect = e−127Identities = 289/310 (93%), Gaps = 2/310 (0%)Strand = Plus/PlusClone #T7 sequenceAAAGCTTACCCAGCAGGGNGAGAGATTTNTATCAACAAGAGAAGGCACGGANGGGCTCAGCGGGACTCAGANTNT 52NGCCTNGGNGNCNGGTCCGGAACNGGGGCAGCTGACCTTCCTTGGCCNGGACGGAATCATNGACCCTCCTCGAACNGGNGNGAAGGAAGCTGNCACAANANTCATNGCCTCAGGAGTGTCCATTAAAATGATCACTGGAGATTCTCAGGAGACNGCAANTGCCATCGCTAGACGNCNGGGATTGTACTCTAAGACTTNACAGTCCGAGNCTGGGGAAGAAGTNGATACAANGGAGGNGCAGCACCTTTCACAGATAGAGCCAAAGGNNGTAGTATTTTACAGAGCAAGCNCAAGACACAAGATGAAAATTATTAAGTCTCTACAGAAGAACGGGBGH sequenceGCCTTTAAANGATTGAGTTNATTTGTGNGTTAGTAAGAAAGCCCTATAACCATAAATAGTNCAATATTTAAAAGTAAAAAAAATATTTATATCCATCTAAGACAGACAGTGTATTNGTNCATTAGAATTCTTTAAGTGCAGAAGGTGGNTCAGGNTTNGCCTTTNGNATTTTTTAATTCAGTACTTGCCCATATGTTGAAGTTCACTNAATTGNAAAAGCCAATTNAAATCAAGGAATGTGTTATTNAAAGNTGCNTAATTTCATTNGGGACTACCAACAAAGTTNAAATCAAGNCTTTAACATTAANGGTCATTTTTAGTNAANGGAAAGTTAAAAAGTCCTTAAGTCTTCATTATCTTCTTGAACTTGCCCTTCTAAATGATTCTNAGACTGCANTNCCTAGTTTGCNAATTAAAAAAAAATGCNNTATGCATCATACTTNAAGGAAAGACGATGAANGCTNAACCAGCNTTCTTCGTGGACCTTCTCCCGGCTCCTTTCANCCTTCTTTATAACCCTCAGNCACANTGCACACTGACNAGGTAAGGCCCNAAAGAANCANCAGATCCCNGNATNCTCAGGCTCTCCGNTTTTNAAAAACCTTIdentityemb|AJ010953|HSA010953 Homo sapiens mRNA for putative Ga2 + -transporting ATPase, partialLength = 2175Score = 208 bits (105), Expect = 6e−52Identities = 311/390 (79%)Strand = Plus/PlusConvention for evaluating the phenotypical ‘cell death effect’:− negative, −/ + and −/++ weakly positive, + positive, ++ strongly positive, +++ very strongly positiveClone #T7 sequenceGCTTGACCTTGGAGGCCTCAGCCTGAGACCTCAAAGCAGCCTCCAGAACTCCGGCAGAGTTCCTCTGTCTCGTCTTGC 53CGATTGAAGGTCCCCGTTTCTCCAATTTCTCTCCATCTTCTGGGAGGTAGCAGGAAATCAGAATCATGGTTGGTTTCAAGGCCACAGATGTGCCCCCAACAGCCACTGTGAAGTTCCTGGGGGCTGGGACAGCTGCCTGCATTGCAGATCTCATCACTTTCCCTCTGGATACCGCCAAGGTCCGGCTGCAGATCCAAGGGGAGAGTCAAGGGCTAGTGCGCACCGCAGCCAGCGCCCAGTACCGTGGCGTTCTGGGTACCATCCTAACCATGGTGCGCACTGAGGGTCCACGCAGCCTCTACAATGGGCTGGACGCCGGCCTGCAGCGCCAGATGAGCTTTGCCTCCGTCCGCATTGGCCTCTACGACTCTGTCAAACAGTTCTACACCAAGGGCTCAGAGCATGCAGGCATCGNGAGCCGCTTCTGGCAGGTAGCACCACAGGTGCCTTGNCGTGGCTGTNGCCCNAGCCTACAGATGTNNAAAGGCCCGTTTCBGH sequencen.n.Serial clone#6number:ACCESS No.:U94593LOCUS MMU94593 1396 bp mRNA ROD Apr. 27, 1997Definition:Mus musculus uncoupling protein homolog (UCPH) mRNAEffect:+++ after 24hClone #T7 sequencen.d. 54BGH sequence:GCCAGCCTAACACTTCTATGACAAACCGANGAAAATTATAAAAACTTTTCAAATATATTGCTCCTCAGACCCCCTATCCACACCATTAATTATTTTAACAGCCTGATTACTGCCACTAATATTAATAGCTAGCCAAAACCACCTAAAAAAAGATAATAACNGTACTACAAAAACTCTACATCTCAATACTAATCAGCTTACAAATTCTCCTAATCATAACCTTTTCAGCAACTGAACTAATTATATTTTATATTTTATTTGAAGCAACCTTAATCCCAACACTTATTATTATTACCCGATGAGGGAACCAAACTGAACGCCTAAACGCAGGGATTTATTTCCTATTTTATACCCTAATCGGTTCTATTCCACTGCTAATTGCCCTCATCTTAATCCAAAACCATGTAGGAACCCTAAACCTCATAATTTTATCATTCACAACACACACCTTAGACGCTTCATGATGTAACAACTTACTATGGTTGGCATGCATAATAGCATTTCTTATTANAATACCATTATATGGAGTTCACCTATGACTACCAAAAGCCCATGTTGAAGCTCCAATTGCTGGGTCAATAATTCTAGCAGCTATTCTTCTAAAATTAGGTAGTTACGGAATAATTCGCATCTCCSerial clone#7number:ACCESS No.:M27315.1 GI:343181Definition:Rattus norvegicus mitochondrial cytochrome c oxidase subunits I,IIand III, and ATPase subunit 6 genes, complete cds, and Trp-, Ala-,Asn-, Cys-, Tyr-, Ser-. Asp-, Lys-, Gly-, Arg-tRNA genes.LOCUS:RATMTCYTOC 7632 bp DNA ROD May 29, 1996Effect:++Clone #T7 sequenceGGATTGGCGGGGTTCTCTTTGACCACATAAATCAATTCTTTCTTTTGGGAGCCTCAATGGTGGCAACTGCAGCGGGA 55CTTTATCTCATCCCGTTCTGCAAGACAGCAGTCTTATTGATCATCACCATGTCTGrCTTTGGAGCTTCCGTTGGTGTTGTGGATACAGGTGCAAATGTTCTCATCTTGGATCTCTGGGGGGACAAAGGAGCCCCACAAATGCAGGCCTTGCACTTCAGTTTCGCCTTGGGTGCCTTTCTGGCTCCCCTGCTGGCTAAGTTGGCCTGGGGTACAGCACCTGCTCAGAACCACAACATGAATCTGCTGNGGGCATATGCTTCCATTGGCACCTTTATTTTAGTAGTTTCTGTCTTTCTGNNNGGTCTGTTTTGTAAGAAACATTCAAGGCAGAAAAAACCCAGAGCATCTGCTGAGGGAGCTCGAAGGGCTAAATATCACAGGGCCCTGCTATGCCTGCTCTTCCTCTTCTTCTTCTTCTATGTGGGAGCCGAGATAACATACGGCTCTTACATATTCTCCTTCGCCACCACCCATGTTGGCATGGAAGAGAGCGAGGCAGCTGGCTTGAATTCCATCTTCTGGGGAACCTTTGCAGCCTGCAGGGGCCTGGCCATCTTCTTTGCGACATTCTTACAGCCTGGAACCATGATCGTGCTGAGCAACATTGGCAGCCTGGNCTCATGTTTCTTTCTGGTACTBGH sequence:AAATATCACA GGGCCNTGNT AGCCTGCTNT TCCCTCTTCT TCTTCTTCTANTGGAANCCG AAGNTACCAT NNCGNTTCTT ANCAGTTTCT CCTTTCGGCCNCCNACCCAG TGGCATGGAA GAGAGCGAGG CAGCTGGCTT GAATTCCCATCTTCTGGGGA ACCTTTGCAG CCTGCAGGGG CCTGGCCATC TTCTTTGCGACATTTCTTAC AGCCTGGANC CATGATCGTG CTGAGCAACA TTGGCAGCCTGGTCTCATGT TTCTTTCTGG TACTTTTTGA CAAGAGCCCT GTTTGTCTCTGGATCGCGAC TTCTGTGTAT GGAGCCTCAA TGGCAGCCAC GTTTCCCAGCGGCATCTCCT GGATTGAGCA GTACNCCNCC TTAACTGGGA AATCTGCAGCATTCTTTGTA ATTGGCTCTG CCCTGGGAGA TATGGCCATT CCAGCGGTGATCGGAATTCT TCAGGGACNC TACCCAGATC TGCCAGTAGT TCTGTACACATGTCTGGGCT CAGCCATATT CACAGCTATT TTATTTCCTG TGATGTATAAATTAGCTACC TTGCCCCTGA AGAGAGAGGA CCAGAAAGCT TTGCCCACTAGTTCTAGACT GTGAGGAAGA GACTACATGA GAACTTAAAA AAAAAAAAAAAGGGCGGCCG CTCGAGCATG CATCTAGAGG GCCCTATTCT ATAGTGTCACCTAAATGCTA GAGCNCNNCT GTCATotal sequenceGGATTGGCGGGGTTCTCTTTGACCACATAAATCAATTCTTTCTTTTGGGAGCCTCAATGGTGGCAACTGCcombined (from T7AGCGGGACTTTATCTCATCCCGTTCTGCAAGACAGCAGTCTTATTGATCATCACCATGTCTGTCTTTGGAand BGH)GCTTCCGTTGGTGTTGTGGATACAGGTGCAAATGTTCTCATCTTGGATCTCTGGGGGGACAAAGGAGCCCCACAAATGCAGGCCTTGCACTTCAGTTTCGCCTTGGGTGCCTTTCTGGCTCCCCTGCTGGCTAAGTTGGCCTGGGGTACAGCACCTGCTCAGAACCACACCGAGTCCGACCTTGACACTCTGATGCTGAACCGATCCTCCAACGGCACCTCAGACTCCGTGTTTGCGGTACCCGATGACATGAATCTGCTGNGGGCATATGCTTCCATTGGCACCTTTATTTTAGTAGTTTCTGTCTTTCTGNNNGGTGTGTTTTGTAAGAAACATTCAAGGCAGAAAAAACCCAGAGGATCTGCTGAGGGAGCTCGAAGGGCTAAATATCACAGGGCCCTGCTATGCCTGCTCTTCCTCTTCTTCTTCTTCTATGTGGGAGCCGAGATAACATACGGCTCTTACATATTCTCCTTCGCCACCACCCATGTTGGCATGGAAGAGAGCGAGGCAGCTGGCTTGAATTCCATCTTCTGGGGAACCTTTGCAGCCTGCAGGGGCCTGGCCATCTTCTTTGCGACATTCTTACAGCCTGGAACCATGATCGTGCTGAGCAACATTGGCAGCCTGGTCTCATGTTTCTTTCTGGTACTTTTTGACAAGAGCCCTCTTTGTCTCTGGATCGCGACTTCTGTGTATGGAGCCTCAATGGCAGCGACGTTTCCCAGCGGCATCTCCTGGATTGAGCAGTACNCCNCCTTAACTGGGAAATCTGCAGCATTCTTTGTAATTGGCTCTGCCCTGGGAGATATGGCCATTCCAGCGGTGATCGGAATTCTTCAGGGACNCTACCCAGATCTGCCAGTAGTTCTGTACACATGTCTGGGCTCAGCCATATTCACAGCTATTTTATTTCCTGTGATGTATAAATTAGCTACCTTGCCCCTGAAGAGAGAGGACCAGAAAGCTTTGCCCACTAGTTCTAGACTGTGAGGAAGAGACTACATGAGAACTTAAAAAAAAAAAAAAAGGGCGGGCGCTCGAGCATGCATCTAGAGGGCCCTATTCTATAGTGTCACCTAAATGCTAGAGCNCNNCTGTCASerial clone#13number:ACCESS No.:AL080317.11 GI:5830430Definition:Human DNA sequence from clone RP5-1112D6 on chromosome 6q21-22.2.Contains the gene for a PUTATIVE novel protein similar to bacterialNARK (nitrite extrusion protein, nitrite facilitator), the 3′ endof the REV3L gene for REV3 (yeast homolog)-like, catalytic subunitof DNA polymerase zeta (EC 2.7.7.7, POLZ), ESTs, STSs, GSSs and aputative CpG island, complete sequence.LOCUSHSJ1112D6 135305 bp DNA PRI Feb. 21, 2000Effect:Clone #T7 sequenceTGCAATGGCGGACGTGTCTGAGAGGACGCTGCAGGTGTCCGTGCTAGTGGCTTTCGCCTCTGGAGTGGTCCTGGGC 56TGGCAAGCGgATCGgcCGTGGAGGCGTTACCTAGACTGGAGGAAGCGGAGGCTGCAGGTCGGGCTGGCAACGACTCAGAAAAAGCTGGACCTGGCCTGAGCACGCGCTGCAGCCCGAGTCCGCCGGGTTCTCACTCCCTAAGCCCAACGCAGCCCGGATCGTGGGAGCCGCGCGACCCAGGAGTCGTCCTTGCACGGCTTGCAAGAACATGGCTTGCTTCAGAAAGAAAATAGTTTTGTCTTCTGTAACAACTTACTTTCAGCTTGTCGAAGATGAAAATAAAAAGCACTGGAGAGAAATAATTTCTTGCACTTTATGAATCTATTTTTAAAATAAAAAAATTAAACATCTTTGAATCTTTTTCCTCCTCACAAAAGAAAGCAGTATTTTTGCCTACCATTCAgTTTGCTGCAGTAAGAGATTTGGAGCCTGAAAGCAGAGACTTTCTGATGBGH sequence:TGAGGCTGCA GGCCAAGCTG GCAACGNCTC AGAAAAAGCT GGACCTGGCCTGAGCACGCG GCTGCAGCCC GAGTCCGCCG GGTTCTCACT CCCTAAGCCCAACGCAGCCC GGATCGTGGG AGCCGCGCGA CCCAGGAGTC GTCCTTGCACGGCTTGCAAG AACATGGCTT GCTTCAGAAA GAAAATAGTT TTGTCTTCTCTAACAACTTA CTTTCAGCTT GTCGAAGATG AAAATAAAAA GCNCTGGAGAGAAATAATTT CTTGCNCTTT ATGAATCTAT TTTTAAAATA AAAAAATTAAACATCTTTGA ATCTTTTTCC TCCTCACAAA AGAAAGCAGT ATTTTTGCCTACCATTCAGT TTGCTGCAGT AAGAGATTTG GAGCCTGAAA GCAGAGACTTTNTGATGGAA TCTCNCCTTG GTACAGCCTG GAGGCAGATN TGATCAACGGACCATTATGA GTCATTTTTC TAGACATATT CAGAAAACCT AGGAGCTGTGTCAAATGCCT GAATTAAGCA TTACAAATGC AAGATATTTG CNCTTTGAAGAATGTAGAGA GTAAAAAAAC TAAAATTAAA AAAAATAATG CATGTGATATAACGGAATAT ATATGTGAAA GAGAAAAAAA AAAAAAAAAA AAAAAASerial clone#20 (EST)number:ACCESS No.:AW106096.1 GI:6076832Definition:um23a10.y1 Sugano mouse embryo mewa Mus musculus cDNA cloneIMAGE:2225370 5′, mRNA sequenceLOCUS:AW106096 539 bp mRNAEST Oct. 20, 1999Effect:++Clone #T7 sequenceGATAGTTTTGAACTTCCGATTCCCCTGCCTCCCCACCCCAGGGCTGTGATTGCAGGTGTGCGCTTGGGACTGACCCC 57AGGCTTTGTCGGTGCTAGGGCAGCACTCTGCGACTGAATTAGGTCCCAGCCACTTCTCTGTCTTTTAAAAGAACAAAACATTGCTAAATGTGCCATTGTTGCTTTGAGTTTTAATTCTTTTTTTTTTCTTTCTTTCATAAAACATTACAGTCTTAAGATATTAAAGACTTTTATTCTGGTTCTATTTCTGTCTTTTCACTCAAAACTGGTTTTACAAATGATGCCTTGTTTACAGAAAGCTCTCTACCACAGGGCCTAGTCATGTGTAAAGTCTCAGTTTCTCTCTGGAGTATCTTGGAGCCTAGCACACTGGCTTTAAAGGACACAGCTAAGAAGCTGATATCTTGACAGTGTTTGTAGACCTTTGTTATAAAAATGAATGTCCTGGAAAGGGTTGGGAGGGAGTTCAACAACAAAGAAACAAGAATGTCATGTTTAAATTTAATAGTTGTCTAAAATGTCATCTCAAGTCAAGTCACTGGTCTGTTTGCATTTGATAGGTTTTTATACTAACTAGCATTATAAGATTATTTCATAATTAGAAAATACCTGTGGATATTTGTATAAAAGTGTGAAATAAATTTTTTACAAAAGTGCTCATCGCTTGTTAACACAGCATCATGTATGTGAAAGCAAACTCTAAGATTATAAATGACAACCTGAGTTGCCTTTCTTTGTATTTCATCAAGCCNAAGTAAAGCTTTCANTATTTAAABGH sequence:n.d.Serial clone#21number:EST with low homology to human integrinACCESS No.:NM_000210.1 GI:4557674Definition:Homo sapiens integrin, alpha 6 (ITGA6) mRNA.LOCUS:NM_000210 5611 bp mRNA PRI May 15, 2000Effect:+Clone #T7 sequenceGCAANGGCGGACGTGTCTGAGAGGACGCTGCAGGAGTCCGTGCTAGNGGCTTTCGCCTCTGGAGTGGTCCTGGGGT 58GGCAAGCGAATCGGCTGCGGAGGCGTTACCTAGACTGGAGGAAGCGGAGGCTGCAGGACAAGCTGGTAACNACTCAGAAAAAGCTGGACCTGGCCNGAGCACGCGCTGCAGCCCGAGTCCGNCGGNNTCTCACTCCCTAAGCCCAACGCAGCCCGGATCGTGGGAGCCGCGCGACCCANGAGTCGNCCTTGCACGGCTTGCAAGAACATGGCTNGCTTCAGAAAGAAANTAGTTTTGTCTTCTCTAACANCTAACTTTCNNCTTGTCCAANATGAANATACGNAGCNCTGGANAGANNTAATTTCTTGCNCTTTANNAATCTATNNTTAAANTACANANATTNANCATCTTNGANTCTTTNTNCTNCTCACAAAAGANAGCAGCATTTTTGCCTACCATTCAGTTNGCTGCANTAAGAGATNTGGAGCCNGAAAGCAGAGACTTTCTGATGGAATCTCACCTTGGACAGCCTGGAGGCAGATCTGATCAACGGACCATTNTGAGTCATTATTCTAGACNTATTCAGAAAACCTAGGAGCTGNGTNAAATGCCTGANTTAAGCCTTACNAATGCNAGATNTTTGCACTNTGAANAATGTANNGNGTAAANAAACTACTATTAGTCCAAATAATGCATGNGATNTAACGGAATATATATGTGAAAGAGAAAAAAANNNANNNAAAAAAAAAGGGCGGCCCGCTCGAGCATGCATCTAGAGGGGCTATTCTATAGTGGCNCCTCAATGCTANAGCTTCGCTGACBGH sequence:n.d.Serial clone#23number:Mouse EST cloneACCESS No.:AW106096.1 GI:6076832Definition:um23a10.y1 Sugano mouse embryo mewa Mus musculus cDNA cloneIMAGE:2225370 5′. mRNA sequence.LOCUS:AW106096 539 bp mRNA EST Oct. 20, 1999Effect:+Clone #T7 sequenceAGGGCGGCCGCTCGAGCATGCATCTAGAGGGCCCTATTCTATAGNGGCACCTAAATGCTTAGAGCTCGCTTGATCAA 59GCCTCGACTGNGCCTTTTAAGTTTGCCAGCCATCTGGTGNTTNCCCCTCCCCCGGGCCTTTCCTTGACCGTTGGAAGGNGCCACTTCCCAATTGNNCCTTTCCTAAAAAAAATGNGGGAAAATGGCAATCGCAATTGNCTTGGGTAAGGNGGCAATTCTAATTCTTGGGGGGGATBGH sequence:n.d.Serial clone#25number:ACCESS No.:NM_007748.1 GI:6680987Definition:Mus musculus cytochrome c oxidase, subunit VI a, potypeptide 1 (Cox6a1), mRNA.LOCUS:NM_007748 531 bp mRNA ROD Jan. 4, 2000Effect:++Clone #T7 sequenceGCATCCCTCCATGGCCTCTGCATTGGCTTCTGCTTTCTGACCTGCTTGAGTTCCAGTCCTGACTTCCTTGGNGATGAA 60CAGCAGTATGGAAGTGTAAGCCGAATAAACCCTTTCCTCTCCAACTTGTTTCTTGGTCATGATGNNTGTGCAGGAATAGAAACCCTGACTAAGACAAATTGGTACCAGCAGAGTGGGGTATTCCTGTGACAACCTGACCATGTTTTGGGGAGGACTGTGGATGGACTTTGGAACTTTGGGCTTAAAGATCCATCCGNTGNTAAGAGCTCTGTCAGATGTTGTGTAGGAGCTTGGAAGATAATGTTGAGAACACTGNAGAANATGGAGGNCTGGTNTGNGAAATTTNAGAGGGAAAANTAAAGACTCTTTCAGGGCCATTGCTGTTTTGAATGTGAAGATTCTGTAGNNCTGGATAGCTGGGGCTNAANAATCANCTGTGNTTAACANGATCCAGAACTACCAANGCANAAACTTTGCATTACTGGGACTATTGATGCNTNNNTAGCTGNAGCTAACAAATTANCGGTGATTAANAAAGAGACCAGCNTCATTNAGGGTGACATCTTTCTGGGNANGTGTTTGNTGAAAGCACANNGATNCNTGTGNTTNCAGAGATGGCCAAANGCTGTACCNCCTGCTTGCAANNANGGACTTGGGNATAANTGTAANNGGGTCNACCCNCNTNGNTACTGGGGTTTTTTAANGGCCNTTTAACNGGGNTCNACGGCCACAGNCANCCTTCAGGGCCTNNGGCANCCTGGTTAAAAANGCCCCATTNNGAAANGGNCCAAATTGNCTTTNAAAGGGTACNAGGCCTNCAAACTTGCCCAAATTGTANAGGGCCNCCCGGGBGH sequence:GACCTGGCTT TNGCNCGCNN TNCANCCCTA GTCCCCCGGG TTCTCACTCCCTAAGCCCAT CGCAGNCCGG NTNGTGGANC CGCGCGTCCC AGGNTTCGTCCTTNCNCGGC CTNCAAGAAC ATGGCTTGCT TCAGAAAGAA AATAGTTTTGTCTTCTCTAA NAACTTACNT TCAGCTTGTC GAAGATGAAA ATAAAAAGCCCTGGAGAGGA ATAATTTCTT GCNCTTTATG AATCTATTTT TAAAATAAAAAAATTTACCN NCTTTNAATC TTTTTCCTCC TCNCAAAAGN AACCAGTATTTTTGCCTNCC ATTCANTTTG CNNCANTAAG ANNTTTGGAG CCTGAAACCNNAGNCTTTNT NANGGANTNT CNCCTTGGTT CAGCCTGNAG GCAAATCTGATCAACGGACC TTTATGAGTC ATTTTTCCTA GACATATTCA GAAAACCTAGGAGCTGTGTC AAATGCCTGA ATTAAGCATT ACAAATGCAA GATNTTTGCNCTCTTGAAGA ATGTAGAGAG TAAAAGAACT ANAATTAAAA ANAATAANGCNTGTGATATA ACGGAATATA TATNTNAAAA ANAASerial clone#26number:ACCESS No.:AC005403.1 GI:3402732Definition:Mus musculus clone UWGC:ma53a068 from 14D1-D2 (T-Cell Receptor Alpha Locus), complete sequence.LOCUS:AC005403 40638 bp DNA ROD Aug. 7, 1998Effect:++Clone #T7 sequenceGCCGCTGNAGGANGGGACCCAATNCTCTATTANCATCTGNNCTGATTCTTNGGGCACCCNGAANTTTATATNCNTATC 61CTCCNAGGATNTGGAATTATTACACATGTCGTACTTACTACTNCGGANNAANANAACCTTNCNGCTATANANNANTNTGTATGAGCANTANTGTCNATNGNCTNTCTAGGCCTTTATNGNNTGAGCCCACCACATATTTACAGTANGNTTAGNTGTANACACACGANCNTACTTTACATCANCCCGNTNTNATNATCNGCANTTNCTACCGGNNTCAAANTNTTTANCTGACTNGTAACCCTACACGGAGGTNNNNTTAACTCGATCTNCCAGCTATACNANTGAGCCTTTANGCTTTATNTTCTTATTTACNGTNGGNGGTCTAANNGNAANTTGCNTNANCCNANNTNATCCCCTTGANCATNNCNCATTCACNGAACCANNCTANNCAGTATCCNCCATTTNCCNCTNTTGNNCCTATCANNTGGGGAGTCAGNTGCNCTGCTATTCNTATCCAGNNACNNTGTNTTCATCTNGAANNTCCCNNTTNNTNTNTTCANNGCCTTNCCACCCCTTNTTATAGGACCNCCNTCNNACNCNCNCAAGNCNTCNACTTTTCNCTTNNCTCANTATCTNCCNTNANGGCNTGTCTCANCNCCNTTNNTCCNTTTCTCTTTCCCBGH sequence:n.d.Serial clone#39number:ACCESS No.:L07095.1 GI:3150274Definition:Mus domesticus strain NZB/B1NJ mitochondrion genome, complete sequence.LOCUS:LOCUS MUSMTHYPA 16303 bp DNA circular ROD May 22, 1998Effect:++Clone #T7 sequenceGCAAACATGGNCAGGAGCATCTTGGCAGCNTTAAGCCTTCANAGAATTATCAACCANGGNCATNAGAGNCGACTCTGN 62CTCNTTCAGGCTTGCACCACCACCACAGGCNTAGGGGCCAGCACAGGCAGGGTCACTTANAGAGCTGAGACACCACAGCAAGNGAAGGCTNGCACCTTTCACTTGCCCAGAGGANGCTCTGACNAAGGGGGTGCATCAACCANCTCCNGTGTAAGCNGNCTAAGGAGTCCGAGGCAGCCCCCANCAGCTGCTGCTGTCACTGCCGCCACCTCATATTTGANAAGTCANGGTCTGCANTATGCTTGACAGTNTGCGNAAAACCTCCCATCCTTATGTANCTGACAGGNGCTTTTNCGCGNANTNACAAAAGCCACCTTGAACCCTGTCANTNCTAGGTCACCTTCNAGCTTGCCTNGACNNAAANTCNNGTCCNTTGAAACCCCCNNTGGCANGCCCAAACCCCANNNTGAAGCTTNAGATNCTCAGGACNNCNNAANTTANANNNTGNCCATTTCNNACCTTANNNTTAATTTNAANNCTAAGGNCATTACTCTTNTTCCCCCCAAACNTNTAACNCCTTANANAGNACCNCCNNCTCTTTCCAATTNNTTNTNNCCAAATNGTNTNTNNACCAGGTCCCCCAANTCTCAANNTNTAAATTTCTNNCTGNCAAACNCTTANANANTANGNTTTCCCTNNCCNAACAANTTNTGNNCANACTNTNTNCGGNGNCCCBGH sequence:n.d.Serial clone#48number:ACCESS No.:Selenoprotein PDefinition:NM_009155.1 GI:7110716LOCUS:Mus musculus selenoprotein P, plasma, 1 (Sepp1), mRNA complete cds. Sepp12075 bp mRNA ROD Jan 4, 2000Effect:+Clone #T7 sequenceGTTTTGTTTGAAACGGCAACACTTCGGTCANGATATCTTCTACCAGACACCAAGGCGTATGGAGATAGAATANAAAGA 63ATGCTTCGCCTCAGNTTAAACATTGACCCTGAAGCACAGGNGGAGGAAGAACCNGAAGAAGAGCCTGAAGACACCTCAGAAGACGCANAAGACTCAGAGCAGGATGAGGNAGAAGAGATGGATGCAGGNACAGAANAAGAAGAGNGAGGAAACANATAAGGAATCTACNGANAAGGATGAATTGTAANTTATACTCTCGCTATGAATCCCGNGTGGAGAGGNAATGNGAAGTTNTGAAGTCATTTCTTTTGAGAGACTTGNTTTGNATGCTTCCCCNNGCCTCCTTCTCCCCTGCNCTGTNAAATGNTTGGGATTNTGGGTCACAGGAAGAAGTGNNTTTTTTANCTGNANTNTTTTTNNCATTCCTCCTGAATGTANATTNNGTNCTATTTAACTGACTATTGGCGTCNNAATCTTGTGNTGTGTNTNAACCCTCCCCANNCATCCCCANCTCCCCNACNTNCCCTCCNCCCCTCCNCCCTCTCTCTCNNCTCCCCTCCNNGNNCNCNCCCCNCNCATCTTCNTNNACNNGNGNCTNCCCNCCNNNTNTNCTNCCCNNTGCNCTCTCTANANNNGGGGNCCCCCTNAATTCCNTATTANCNTGNCCCCCCNBGH sequence:n.d.Serial clone#51number:ER transmembrane proteinACCESS No.:J03297.1 GI:193094Definition:Mouse ERp99 mRNA encoding an endoplasmic reticulum transmembrane protein.LOCUS:MUSERPX 2759 bp mRNA ROD Jun. 12, 1993Comment:Effect:+Clone #T7 sequenceGGAAAGGACGCGGNCCCCCGGGCTGCGCCGGGTCGCGGCGGNCCCCGCAGGCAGCCATGGCGGCGGGCGCCGGGG 64CCAGGCCGGcgCCGCGCTGGGTAAAGGCGCTAGGTGAGCCGCTCAGTGCCGCGCnnCTGCGGCGGCTGGAGGAGCACCGCTACACCGCGGTGGGAGAGTCGCTGTTCGAGCCGCCGCTGCAGCTTTACTGGACCTGGCTGCTCCAATGGATCCCGCTCTGGATGGCCCCCAACACCATCACCCTCATCGGCCTCGCCATCAACCTGGTCACCACACTAGTGCTCATCTTCTACTGCCCTACAGTCACGGAGGAGGCACCATACTGGACATACCTTTTATGTGCCCTGGGACTCTTTATCTACCAGTCACTGGATGCCATTGATGGGAAACAAGCCAGAAGGACAAACTCTTGCTCTCCCTTAGGGGAACTATTTGATCATGGTTGTGACTCTCTTTCCACAGTATTTATGGCCATCGGCGCTTCCATTGCTGTTCGCCTAGGAACACATCCTGACTGGTTGTTTTTCTGCTCTTTCGTTGGGABGH sequence:CTTTTTGTTTNGGTGCCaCTATAgAATAGGGCCCTCTAGATGCATGCTCGAGCGGCCGCCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTNGGTTAATTGGCTGAAAATTTTATAACATTTAACTAAAAATTAAACATGNTTCATATCTCCTTTCATGAAACAGCAGCAGCAAGAGATGGCAAATGTTCGAAAGNCTNTTCAATCCATGTTATTNTGATGAGTNTTTGAANAAAGAACTTGAACCTGTTCCGGNGCTTGTTGACATGAAGTNTTGAANATGTTTAAATGAAGGNGTNTTGAAATTTGCAGGCCCAAAGAAGTAAAGTNTNTCATCATATCAAATGAANAAATGACCATTGNTNTCCNCAGAAC AACATATTCATNTATAAAATTATTAAAGNATTGGTNTAAAAANAAAANACCTGGCCCAANAAANACAGNGTNTTGAANANATAGTTCACTTTTCGTCATGGGAGCTATCACCAATTTTTGNGCAACTTTAGCAAAGACNCNTCCAAACNTTAAAGTNTAAAGGCANGGNTGTTTTSerial clone#9/3number:ACCESS No.:AF047431.1 GI:5514630Definition:HomoHomo sapiens AAPT1-like protein mRNA, partial cds.LOCUS:AF047431 1122 bp mRNA PRI Jul. 17, 1999Effect:++Convention for evaluating the phenotypical ‘cell death effect’:− negative, −/+ and −/++ weakly positive, + positive, ++ strongly positive, +++ very strongly positiveClone #T7 sequenceTGCTGGAAAGGGGAGATCCTGAGAACAGACCAGTGGCCTCGGAGGCTCTTCATGCAGCTCATTCCGCAGCAGTTGCT 65GACCACCCTCGTGCCACTGTTCCGGAATTCACGCCTGGTACAGTTCCACTTCACTAAGGACATGGAGACTCTGAAGAGCCTTTGCCGGATCATGGACAATGGCTTCGCGGGCTGCGTGCACTTCTCCTACAAGGCATCGTGTGAGGTGCGTGTGCTCATGCTCCTGTACTCCTCGGAGAAGAAGATCTTCATCGGCCTCATCCCGCACGACCAGAGCAACTTTGTCAACGGCA TCCGTCGCGTCATCGCCAACCAGCAGCAGGTCCTGCAGCGAAGCCTGGAGCAGGAGCAGCAGCAGCGAGGGATGGGTGGCTAGAGGATGCCTGGGCTGGGCGGGCCACAGTCCCAGACGAGGCCCCAGTGGAGACTGGTCABGH sequence:GCCNGCTTCTCNGCATTTAGGTGACACTATAGAATAGGGCCCTCTAGATGCATGCTGGAGCGGCCGCCCTTTTTTTTTTTTTTTTTTTTTTTTGGGTTAAAAGGCTTTATTAGGGAAACATACAGGGGCAAGGACCATCCTTGGGAGACCTNAGGACGCTGTCCTCCAGGTTGCTGGGCAGGTACAGTCGCCAGGAGCCCCTGCTNAGAAGCAGCTGACCAGTCTCCACTGGGGCCTCGTCTGGGACTGTGGCGCGCCCAGCCCAGGCATCCTCTAGCCACCCATCCCTCGCTGCTGCTGCTCCTGCTCCAGGCTTCGCTGCAGGACCTGCTGCTGGTTGGCGATGACGCGACGGATGCCGTTGACAAAGTTGCTCTGGTCGNGCGGGATGAGGCCGATGAAGATCTTCTTCTCCGAGGAGTACAGGAGCATGAGCACACGCACCTTACACGATGCCTTGTAGGANAAGTGCACGCAGCCCGCGAAGCCNTTGTCCATGATCCGGCAAAGGCTNTTNAGAGTGTCCATGTCCTTAGTGAAGTGGAACTGTACCAGGCGTGAATTNCGGAACAGNGGCACGAGGGTGGTCAGCAACTGCTGCGGAATGAGCTGCATGAAGAGCCTTCGAGGCCACTGGTCTGTTCTCAGGATCTCCCCTTTCCAGCACACTGGCGGCCGGTAGTAGTGGATNCGAGCTCGGTACCAAGCTTGGGTCTTCSerial cloneUI-3number:ACCESS No.:U79287Definition:Human clone 23867 mRNA sequence 1396 bpLOCUS:HSU79287Effect:++(fast), strong ladderingClone #T7 sequenceATCGNCCCCCTTGGTNNCCGGCTCGGACCCTNTCAACGCCCGCCAGTGTGCTGGAAAGCAGCGAGCGGCTGCTTCGT 66GGAGCAGAGAGGTGCATCACCAGGTTCCCGATGAACCCAGAGAACCCTCCACCGTATNCGNGCCCCGGGCCAACAGCCCCATACCCACCTTATCCACAACAGCCAATGGGGCCAATGGGGCCTATGGGAGCCCCACCTCCTCAGGGGTACCCCTACCCACCACCTCAGGGGTACCCCTATCAAGGATACCCACAGTACGGCTGGCAGGGTGGACCTCAGGAGCCTCCTAAGACCACAGTGTATGTGGTGGAAGACCAAACGNAGAGACGACCTGCGCCCATCCACCTGCCTNANAGCCTGCTNGACTGCTCTGNGTNGCTGCTGCCTCTGGGACATGCTNACCTGNTCANCTGATGAGCCCAGCTCTTCCGNTTGNCCGCTCTGNGCCANCTCCNATNCNTNCNCCTGNNCCCATCTCTCCTGCTTNCTCTNCAGNTGCCTANCCTCCTCCTCTCCACNCTCNTTTABGH sequence:CCTTTTTTTTTTTTTTTTTTTTCCAGATTTTGGACAGATTTATTGAAACATAAAGGGTATGAGCAGAGAGATCTAGTAGTGTGTCACATATTGCCATTACCTTGAGTGTATAATTTAAACATTATAAATATATATTTCATAACTAAGCCTTTGGCCAAAAAAGTAAATTATTTAGCACATTTTTTAAAGATCAGTAAGAAATGAGTTTTGAACATTAAAAAGATCAAGTCACTGAACTAAATAGCAGTAACCCTCACTYAATCTAAAACTCCATAGGACAGAAAGTAGAGGTGTCTGCGCAGAGCTAGCCACTTTATAGCAATCAGAAGAGATGGGGCCAGGCACACTTATCGGAGGTGGCACAGAGCGGCCAAGCGGAAGAGCTGGGCTCATCAGGTGATCAGGTGAGCATGTCCCAGAGGCAGCAGCAACACAGAGCAGTCCAGCAGGCTGTGAGGCAGGTGGATGGGCCCAGGTCGTCTCTTCTTTGGTCTTCCACCACATACACTGTGGTCTTAGGAGGCTCCTGAGGTCCACCCTGCCAGCCGTACTGTGGGTATCCTTGATAGGGGTNCCCCTGAGGTNGNGGNAGGGGGTNCSerial cloneUI-5number:ACCESS No.:C88489, AA073437, A1048028Definition:ESTs dbj/C88489, gb/AA073437, gb/A1048028LOCUS:Effect:+ (slow), weak ladderingClone #T7 sequenceCTGGAAAGGNGCGGAGCCTGCTGCTGCCATGGAGGCTGGNGGCTGGGTACACTNTGTCTAGACTGGGGGCCCTGGG 67CGGCTNNNGNGCCGGGTNGGGACNGTTACTTGGTACTGCCGCCGGCCTTGGATTCCTGTGCGTCCTTTACAGCCAGCGATGGANACGGACCCAGCGCCNTGGCCGGAGTCACAGTCTGCCNAACTCCCTGGACTATGCGCAGGCTTCAGAGCGTGGACGNCAGNNGACACAGNTTCGGGCTATCCCAGGTGAAGCTGNAGATGCTGCCATACTGCCCAGCCTCTCACAGGAAGGGTANGANAAGGTGCTGGACCGCCTGGACTTTGCGCTGACCAGTCTTATGGCGCTGCNGCGCGAGGNGGAGGAGCTTNAGAGAAGCCTGCAAGGACTAGCTGGNGAGATTGTCGNTGAGGACCGCTCTCATATATAAGAGAACCANANAGAGGNCCNGGCGGCGCACGNTCCCTTTATGCCAGAGAGAGGAGNGACTCCACGGGCTNCAGCTCTGTCTACTTCACCGNCTCCTCAGGGGCCNGCACTCACAGACGCCNANAGNNAGGGAGGCTATNCNNCAGCCCAACCGCGGAGTNTGATTACNAGCNGNACTNCNACAAGGAANAGTGGANATGCNTGANGACCAAANNGAAGCTNNBGH sequence:TTTGAAAGCCCGTTCTAGCATTTAGGTNCACTATAGAATTNTGACCTCTATATGCATGCTCGAGCGGCCGCCGACGGACTGGACGCCGCCTNCACATCCAGGTCCAGAGAGTCCTTCCTCCCCATCCTCACGGTCTCGCAGCTCACTTCGTCCTCAGCATCTCCACTCTCCTTGTCGGAGTCCCGCTCGTAATCAGACTCCGCGTTGGCTGTTGTATAGCCTCCCTCGCTCTCGGCGTCTGTGAGTGCGGCCCCTGAGGAGGCGGTGAAGTAGACAGAGCTGGAGCCCGTGGAGTCACTCCTCTCTCTGGCAAAAGGGAACCTGCGCCGCCGGGCCACTCTCTGGTTCTCTTCTATATGAGAGCGGACCTCCCCGACAATCTCCCCAGCTAGTCCTTGCAGGCTTCTCTGAAGCTCCTCCACCTCGCGCCGCAGCGCCATAAGACTGGTCAGCACAAAGTCCAGGCGGTCCAGCACCTTCTCCTGCCCTTCCTGTGAGAGGCTGGGCAGTATGGCAGCATCTCCAGCTTCACCTGGGATAGCCCGAAACTGTGTCACCTGGCGTCCACGCTCTGAAGCCTGCGCATAGTCCAGGGAGTTGGGCAGACTGTGACTCCGGCCATGGCGCTGGGTCCGTTTCCATCGCTGGCTGTAAAGGACGCACAGGAATCCAAGGCCGGCGGCAGTACCAAGTAASerial cloneUI-6number:ACCESS No.:AK001441Definition:homologous to Homo sapiens cDNA FLJ 10579 fis, clone NT2RP2003446 2251 bp mRNA Feb. 22, 2000 and ESTs, e.g. A1663355 and AU080732Effect:+++(fast), strong ladderingClone #T7 sequenceGTGTGCTGGAAAGCGCTGGGTCTGAGTGACCAAAGGCAGTAGCNCTCGCGGAGATCACCCGCTGNCCCTNGATCACC 68ATGTCGGCCTTCGACACTAACCCCTTCGCGGACCCAGTGGACGTAAACCCCTTCCAGGATCCCTCTGTGACCCAGCTGACCAATGCTCCTCAGAGTGGCCTGGCTGAGTTCAATCCCTTCTCAGAGACAAATGCAGCGACAACAGTTCCTGCCACACAAGCTCCTGGGCCCTCCCAGCCAGCAGTTCTCCAGCCCTCAGTGGAACCAGCACAGCCAACGCCCCAGGCTGTTGCAGCTGCGGCCCAGGCAGGCTTGCTTCGACAGCAGGAAGAACTAGACAGGAAAGCTGCCGAGCTGGAACGCAAGGAGCGAGAGTTGCAGAACACTGCAGCGAATTTGCATGTGCGAGACAACAACTGGCCGCCACTCCCCTCATGGNGCCCTGTGAAACCCTGCTTCTATCAGGACTTCTCCACGGAGATCCCTGCTGACTACCAGCGGATTTGCAAGATGCTTTACTATCTCTGGATGNTGCNTTCAGCGCTCTGTTTCTAAACCTNCTTGCGTNCCTGGCCTNTNTBGH sequence:TTTTTTTTTTTTTTTTTNAAGTCCTTGTCGCTTCCTCTCCTTCCCTCTTGTAGAGGAGAAAGCTGACTACTGAGGGAGGAGCAGGGACAAGACAAATCCGTGCCAGGTCTGTGCTGGTGTAGTCACTGCATAAGGCACCCGAGGAAAGTGCAGCTCAGAAGACAGTTGACAGAGAGGCCAGGGCTCAGGGAAGGAGAGTCGGGAAGCCTAATTCCCCTGAAAGGCTCCTCGGGCAGCAGATGAGGCAGCCCCGCGAAAGGTTCTGCTGCTGAAGATACCCTGGGAGAACTCTTCCTGGGGCTGCTGGAAGCTGGCTCCTGTTCGGCGGTAGAAGGCGTGTACCCGCTGCAGGAGGAAGAGTGAAAGCCCAGCACAGAGGGTAAAGAAGCCAGCCACTACCATCATGATGATGGTCACAGCTAAGGGCCCATTTTTCATCGTAGATAGGGCTGCAAGCCAACCACTGGTCCCCAAGTTAGGCAAGCCAATCAACTGGATGAAGTAGATCCCTATTTGACAAAAAAATACAAAAAAGAACACGAAGAAGCTGAAAGAGTTGTCAGACCTGAAAGGCTTGTAGATGGGTCGGTCCAACSerial cloneUI-8number:ACCESS No.:AF005038Definition:Homo sapiens Secretory Carrier Membrane Protein (SCAMP2) mRNALOCUS:Effect:−/+Clone #T7 sequenceGTGTGCTGGAAAGGCAGCATCTATTCGTCACTGCCAGGCTGAACTGGAGAGGCTTTCAGAGTCCCTGAGGAAGAGCA 69TCTCCTGTGGAGCTTTCTCTGTTCCTGGGGGTCACAGCCTCTACTTAGAAGCCAGGAAGAAGATTGAGCTGGGCTACCAGCAAGTGCCGAGGAAGGGAGTGAAGGCAAAAGAGGTTCTCAAGAGTTTCCTACAGTCACAGGCTATTATGGAGGACTCTATCTTGCAGTCAGACAAAGCTCTTACAGATGGAGAGAGAGCCATAGCAGCTGAGCGGACAAAGAAGGAAGTGGCTGAGAAGGAACTAGAGCTGCTGAGGCAGAGACAGAAGGAGCAAGAGCAAGTGATGGAGGCTCAGGAGAGAAGCTTCCGAGAAAACATTGCTAAACTTCAGGAGAAGATGGAGAGCGAAAAGGAGATGCTGCTGAGGGAGCAGGAGAAGATGCTGGAGCACAAGCTGAAGGTCCAAGAAGAACTGCTTATTGAAGGATTCAGAGAGAAATCTGATATGTTAAAGAATGAAATAAGTCACCTGAGAGAAGAGATGGAAAGAACAAGAAGGAAACCCTCACTGTTTGGTCAAATCCTTGACACCCGTTGGCAATGCGTTCATTATGATTTTACCAGGAGCTGGTAAACTATTTGGTGTGGGGCTGAAATTCCTCGGCTCACTAAGTAGTTAGTCTAAAGAGTTTCTGGGAAGGAATTTATAAAATCCAGCTTCTGGTATTTTGATACCAAACTTTTTGCTGGGATTTTTAAGTNCACATTCTAGTTTAATAACCACNGTTACCAAGAAAGTAAGACTTTCATTBGH sequence:TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTATTTTAATCTGCATGCCTTTTATTATCAATCAAACATTTTCCTCATACATTCTNTTATGAAAACCCACTTGNGCGTTTTAACAAGAGCTCTTTTTAACAATTTATCTGTAGTGTACAACTGGGATACATATGCCAATGNGTCTTCATTTGGCCATGTTTCTGNTTGATTTACTTACATCTTTTCTAGAAATAATTTCACTATATTCTGACTGGCCTCCCTCTTTATTATTTAGATAACATCACTGAAATTTGACAGGATTTATGGACGCCAGACCCTTATATTCTTCAATCATTGGTTTGNATCTTTAACCTTAAATATAATAGGNAATGAACTGACACAGAATTAGACTCCGAGGAAGCAGTATCTGACAATTTAGCTATTAATGGAAGTTCTTACTTTCTTTGTAACCGNGGTTATTAAACTAGAATGNGTACTTAAAAATCACAGCAAAAAGTTTGGTATCAAAATAACAGAAGCCTGGATTTTATAAATTCCTTCCCAGAAACTCTTTAGA CTAACTACTTAGTGAGCCGAGGAATTTCAGCCCCACACCSerial cloneUI-10number:ACCESS No.:U44731Definition:Mus musculus putative purine nucleotide binding protein mRNA,LOCUS:MMU44731Effect:−/+Clone #T7 sequenceTCGCACCANCCTTGGACCGAGCTCGGATTCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGAACGCCTCTGGGGAGCA 70TGGCATCGTGGTTTTCTCTTTGGGATCCATGGTCTCAGAGATTCCGGAGAAGAAAGCCATGGAAATTGCTGAGGCTTTGGGCAGAATTCCTCAGACGGTCCTGTGGCGCTACACCGGAACTAGACCATCGAATCTTGCAAAGAACACAATTCTTGTCAAATGGCTACCCCAAAATGATCTGCTTGGTCATCCAAAGACTCGGGCATTCATCACACACTCTGGCTCCCATGGTATTTATGAAGGAATATGCAATGGAGTTCCGATGGTGATGATGCCCCTATTTGGCGATCAGATGGACAATGCCAAGCGCATGGAAACTCGGGGAGCTGGGGTGACCCTGAATGTCCTTGAAATGACTGCTGATGATTTGGAAAATGCCCTTAAAACTGTCATCAACAACAAGAGCTACAAGGAGAACATCATGCGCCTCTCCAGCCTTCACAAGGACCGTCCTATAGAGCCTCTGGACCTGGCTGTGTTCTGGGTGGAATACGTGATGAGGCACAAGGGGGCACCACACCTGCGCCCGGGCGCCCATGACCTCACCTGGTATCAGTACCACTCCTTGGATGTGATTGGCTTCCTCCTGGCCATTGTGTTGACAGTGGTCTTCATTGNCTTTAAATGTTGTGCCTATGGCTGCCGGAAATGCTTTGGGGGAAAGGGGCNAGTGAAGAAATCACACAAATCCAAGACCCATTGAGAAGTGGGGGGAAGTGAANGAGAAGTATTAGTTCATTATCTGACAGTTGAACTTTGGNAACAAGTGTTNGANCCATAATGGTTTGTTAGGGGAABGH sequence:TTTTTTTTTTAGTGATACAATTTATATGAATTTATTGATAAGTTCTTGGTTTGGGAACACAATAGAAGATGTACTTGCCTTAGAACATACTTTGGTTTTCATCAAATTCCGGCACAAGCAACAATTATTATCTCAAACACAGGGCCATCAGTGTCACAGCCTCATCTCTTCTCCCAAAGCTCCAAAGGTCTTGCTACCCATAATGCATGAACACAATGAAGAATGACTAACACTGGAGAAGGCCACGGCAGTCTGAGAATCCAGGGGAGAAAACCATCAGCTGGCGGGAGCAGGGGAAACTGTGGGGCTGTCACTGAAAGCAGAGTGCCAGACTTTCTGTAAATTACCAACAGATGGCAAGAGTTGTCTAGACTGAAGATACTGGAAAAGCACATCACATATACTAGAACCTTCCCTGATGGGTGTGGCCAGCAATTAGATTGTTATTATTATTATTTTTAAATGTGCTGAATGTATAATGTATGGTGAATTATTTCCCTAACAAAAACAATATGGATCTAACACTTGTTTCCAAGTTTCAACTGATCAGATAATGAACTAATACTTCTCCTTCACTTCCCCCCACTTSerial cloneUI-12number:ACCESS No.:U16818Definition:Mus musculus UDP glucuronosyltransferase (UGTI-06) mRNALOCUS:MMU16818Effect:−/+Clone #T7 sequenceGCCAGTGTGCTGGAAAGAGAAGCAGACATGGCTCAATTTGCACAGGTCATGGCTGAAGTGGGCGACTTTGGTCGCTT 71TCAGGTGCGGTTGACCATCCTGATGGGCATTCCCAATTTCCTGGCTGCATTCTTCATATTTGGCCAAGTCTTCATGGTCCTTGATGAGGCTCACCACTGTTCAGTGTCCTGGGTTAAGAACCACACTTTCAACCTAAGTGCCGCTGAGCAGCTGGCTATAAGCATCCCCAACGACACAGCGGGCAGACCCGAGTCCTGCCTCATGTTCCGGCCACCTCCTGACAGTGCCAGCCTGGAAGACATCCTGAGCCACCGCTTCAATGAGACACAGGCCTGTGACTCAGGCTGGGACTATCCTGAGAACCGGCCTCAGTCCCTAAAGAAAGAGTTTGACCTGGTGTGTGATCGAAAGAACCTGAAGAAGACCTCCCAGTCGGTGTTCATGGCTGGTCTCCTTGTTGGGGCCCTGGTCTTTGGGCCTGTCTGTGACTGGATTGGCCGCAGACCCTCCCTCCTGATGCAGGTGCTTCTGTCAGGCATCACAAGCATGGCCACAGCCTTCGTGTCCAGCTTTGAGCTCTACTTGGCCCTACGCTTTGTCTTGGCTACTGCCAATGCTGGATTTTTACTAAGTACCAATGTCCTGATTTCANAGTGGGTGGGGCCATCTTGGAGAACACAAGCCGTGGNCTTTGGCCCANAGCAACGTTGCCCTTGGGCAGATGGTGTTAGCAGGACTGGCCTATGGTGTCCGAAACTTGGAGACTTCTTCAGATACANGGACCCGACCCGCTTACTGNTCTTCTTCTATTTCTBGH sequence:TTTTTTTTTTNTNGATATTAGNTANGTTTTATTATTTNTTATCTNTATGAGGAAGGGGTATCCCAGACAGGGAGACTGNTGAGGNNACAATCCTAGAGAGANTGTCNGAGAAGACTGANAGCGACCCTGACTCANCCGTGGTACTGGGGTGCAGTTNGTGTATGANAAGTGTGGAANAGGGAAGGGTACTGTCCCTGATACTCCCTCTGGGCTCTGCAAAAGGGAGTAGGGAGCATGAACACGGCTGATCTGATCCTGTGNGCTANAGATGCCATGTGCGCTGCCTCTGCTCTTGATAGGCTGGNCCTCANCAGCCACAGTCANAANTNCGANCTCTTCACAACANCNACNCTCANACTNNAAGATCTTCCCAAAGCCTNCANGTCTTGNCTNNGNNNTGCNGATNNGAGGGACCCTGCAAGGAGCCCCTGNTCNAGGANCTGGAGGNTGTNCTNCAGGGTCNGGCCCTGGGTCTCAGGAAGTAGAGCGNACAGTANGCCTGCTNCAATGGNGAGGCTGCNAAAGATGACNATGGGAATCGNCTGGTGGACTGTTCTAGTAGCATCACAANGGGTGTGATGATGCCACCGACCCTGTAGAAGATGCTNACCAACCCCATGCCTGTTTGCCTGATNATGGATGGTNGANGAGCTNAGCTAGTGNACACATANGAGATGGTGAANGCCGCAACCGAGNCAANATTTCNCNATCATAGGCAGNANANAGGCNCACCGNGGGANGAACTCCTGGGATGNAAAATATAATGCCGNCCATGANCCCGNCTGGGACNGCANTCNACAGNTTGTTTTCNNASerial cloneUI-14number:ACCESS No.:NM_004256Definition:Homo sapiens organic cationic transporter-like 3 (ORCTL3) mRNA.LOCUS:Effect:−/++Clone #T7 sequenceGGAAAGGGAGCAGCAAACGGCCGGCGGCAGGCGCCGCGGGGGGGGCGGGCGGCGCGGAGGCGGCGGTGGCCATG 72GCCGAGGCGTCGCCGCAGCCCGGACGGTACTTCTGCCACTGCTGCTCGGTAGAGATCGTGCCGCGCCTGCCGGATTACATCTGCCCAAGGTGCGAGTCTGGCTTCATTGAGGAGCTTCCAGAAGAGACCAGGAACACAGAGAATGGCTCAGCCCCCTCCACAGCCCCCACCGACCAGAACCGGCAGCCATTTGAGAATGTGGACCAGCACCTGTTCACGCTGCCACAGGGATACAGCCAGTTTGCCTTTGGCATCTTCGACGATAGCTTTGAGATTCCCACGTTCCCTCCTGGAGCCCAGGCGGATGATGGCAGGGACCCTGAGAGCCGACGGGAGAGAGAGCACCAGTCTCGGCATCGGTACGGGGCCCGGCAGCCCCGTGCCCGCCTCACTGCCCGCCGGGCCACTGGCCGGCATGAAGGTGTCCCTACGCTGGAAGGGATCATCCAGCAGCTCGTGAATGGCATCATCTCTCCGGCTGCTGTGCCCAGCCTGGGCCTTGGTCCCTGGGGCGTCCTGCACTCGAACCCAATGGACTACGCCTGGGGGGCCAACGGCCTGGACACCATCATCACGCCAGCTCCTTAATCNGTTTGAGAACACCCGGNGCCCCCACTTGCAGACAANGAGAAGAATTCAGGCTNTTCCCCNCGGTGCCAGTCACABGH sequence:TTTTTTTTTTTCTGCTTTTTTGAGTAGGNGTATTTTAAATAGCTTTCCAGATAACACACATTTCCCTTAAAAAAAAAAATTGTCTGCTGGAGCAGTTTGTTCCTGGGTCTGCTGGTCACCCTTGNGGTCCCGAGGCCGGCGCTGGTTGGGNGCTGGGCCCGGCCTCCCAGGGCGTGTGGCGGGCTGGGCCTGGCGACAGTTCTGCTGANTCTCCACAGACCATGCATGGCCGNACGTGGCTCAAACGTCCATTTATTTCAAAGCAGTAATAATTTAAAATCATAAAAACCCTTCTGCCGTTGAACATTTGGAGGGTGAGGTTAANACGGACTGAAGGTGCCTGCCTGCTGGGGACATGGGACCCACGTGCACACCTCCAAACAGGAGCGGCCATGGCCAAGTCCAAGCCTGCCCGNAGCCTGGGGCCCGCCAGGNACTGCCGGCCGCCACGGGCAGCACCTCTAGTCCACAGCCATGGCGGGCGGGCAGGCGGNCGGTGCTGGGGCACCTGGGGTGGGTGGGATGACCAAACCCCGGGGGGGATGGNCAGGTGGGACTCAGGAGTTTGCTTGNGGGCGTTCTCATTGCTGGGCNAAACTGGAGGAGGATGAANGACCAANGACTAANGAGGAAACCTACACCGGGCAAAGCCTTGGGGGGAATGGNCGGCTTGGGTNCTGTCCNAGTGAGGCTNTTTACGGCAAANCCGGGCAAGCNTGGCATGCTGNNTTCAGCCANGGGCACGAATCCNCNTGTCGTGGNAAAAGGTGGGNTGCAAGGGCNAANTTNGCCGGNANACTTTTTACCCAGGGGGAATAAANNCTTNTTTTAACNNACTGGGNCAACTTAAAGCCCTTGGAGCCCCNCGNTGGTTCCTNCTGGGGNCTTNGGGACCCNTNNNGGAANAAACCTTGAAANTTCTCCCTTGNNNTGCANCTTGGGGGGCCCCNGGGTTTTCNAANCGGAATGNGGGACTTTCNATNAAANAAGGGGNNCCAGCCNTTGCCCCCCAGGCGGAACCCANTNGGNTTCAAGTCCGGAACCCCCNNGGGCCAAGGCCCANNTGNCCAAAAACCGGGAAAAAAGCNTTNCAAAATNTNGGAGAACCTTCCCGCNGGCCCCTTTTTNCCCAAGGNCCCNGGCAANGNGCACCGNTNTTNGGCCCTCCCAACCAANNGGTTTTTCTCGNGTNAGGCTTNNTAAANNCGGCTNCCGGNAANGGGAAANAAANNNTAAACCNCGCNANGTTTTTNTTNNCSerial cloneUI-15number:ACCESS No.:AK000559Definition:Homo sapiens cDNA FLJ20552 fis, clone KAT11732.Effect:+ (moderately fast), no laddering (? )Clone #T7 sequenceAGTGTGCTGGAAAGCGGGCCTGAGCCGAGCAGCTGCGCGACGTCATGGACAACTCCGGGAAGCAGGCTGAGGCTAT 73GGCGCTGCTGGCTGAAGCGGAGCGCAAGGTGAAGAACTCGCAGTCCTTCTTCTCCGGCCTCTTTGGAGGCTCATCCAAAATAGAGGAAGCATGCGAGATCTATGCCAGAGCGGCGAACATGTTCAAGATGGCCAAGAACTGGAGCGCTGCTGGGAACGCTTTCTGCCAGGCTGCCCAACTACACCTACAGCTCCAAAGCAAGCACGATGCAGGCACCTGCTTTGNGGACGCTGGCAATGCTTTNAAGAAAGCTGACCCCCAAGAGGCCATTAACTGTCTGATGAGAGCAATTGAGATCTATACAGACATGGGCAGATTNACAATCGCAGCCAAGCACCANATCTCCATGGCTGAGATCTATGAGACAGAACTGGTGGATGTAGAGAAGGCCATCGNCCACTATGAGCAATCTGCAGACTACTACAAAGGANAAGAGTCCAACAGCTNANCCAACAAGTGTCTGCTNAAGGNGGCTNCTACNCCNNACAGCTGGAGCAGNCCCANAAGGCTATCNABGH sequence:TTTTTTTTTTTTTTTTTCATGCAAAAGTGGCAGGTTTNATTGTCCTTTTTGGGCCAGCTGNAGCTTNAGGTCGATAGACCTGGATGCATGGAGAGAAGCAGGTGCGCAGGGCAGGGCCAAGGCACCGCATGAGCTCCAGGGCTGGGTCTAACCTGAGAGGTTGGCATTGNAGGAACAAGGGAAGGCTCCAGGGGCAGAGGTTACCCCCAGCCAGGGAGAGNAAGTNTCAGAGCTACCNGNGTNCTTATCTCTGCTAGGGGACAAGGTAGGAGATATGGAAACAGNCTTAGTACNCTGCTGNTNAGGAGATGNTNCCANNCCTTGANCTNCGGTACNTNAAGCACACAGANTSerial cloneUI-18number:ACCESS No.:X89968Definition:Rattus norvegicus mRNA for alpha-soluble NSF attachment proteinLOCUS:RNSNAPGENComment:Effect: ++, large phenotype, no ladderingClone #T7 sequenceAAAGTTGTTCTTCTCGTGGTTCCCAGTGGCGAGAGGAGGAGGAAGCCCNGAGCGGAGCGGGGCGGCTGGGGGGGG 74TGGACCCGCCGCGGCTGCTGCTGCCACCGGCGGCGCCGCCACCACCGCTCGTGGGGCTCGTGGCGTGAGGAAGGAGGACGAGTGAGACCCCGGGGCGAGCGGGCGGCGGCGGCGCTGCTGCTGCTGCTGCTGGGGGAGGGNCGGCGGCGGGACGGCGATGGCGGATATCGACAAACTCAACATCGACAGCATCATCCAACGGCTGCTGGAAGTGAGAGGGTCCAAGCCAGGCAAGAATGTCCAGCTCCAGGAGAAGGAGATGCGAGGACTCTGCCTGAAGTCTCGGGAGATCTTCCTCAGTCAGCCTATCCTTTTAGAACTTGAAGCACCACTCAAGATATGTGGNGACATCCACGGGCAGTACTATGATTTGCTCCGTCTGTTTGAATACGGTGGCTTTCCTCCAGAGAGCAACTATTTGNTTCTCGGGGACTATGTGGACAGGGGCAAGCAGTCCCTGGAGACAATCTGNCTCTTGCTGGCTACAAAATCAAGTATCCGGAGAACTTCTTTCTTCTCAGAGGGAACCACGAGTGCGCCAGCATCAATAGGATCTACCGATTTTATGATGAGTGTAAAAGAAGATNCACCATTAAGCTTGTGGNAAACGTTCACAGACTGGTTTAACTGCTTGCCGATAGCAAGCCATCNTGGACNAAGAAGANAATCTGCTGTCATGGAGGTTATCACCNGAACTTCAATCTATGGAGCNGAATTCCGCGGAAATATTAGACCANTTGANGTACCNGAACAAGGGCCTTCTTTGGGAACCNTTGGGGGCCTGANCCCCATAAAGAGGCNTTAAGCTTGGGTGGAAAATGCCCGAGGAGNGGCCTTCCAATTGGTGCCAAATBGH sequence:TTTTTTTTTTAACAAGCTTGCATTTAATAAGTCTGAAACCATTCTCAGCACATGGCATTGTACACGGGCATCTGTGCAAACAGATTCATTTAACAGGTCGTAGTTTAAAAAAGTCATAGATAGTGTGAGTTCTGTATAAACCGGTGGACGGCAAGTTAGTTCCTTTTGATTTATAAGCCTCAATGTCACCGGAGAATAAAGAATGTAGCCAAAGAAAGCATTATCGGTCACTCGTATAGGACAGTGTTGTTTCTATAATTTGAAGCTTTCTGAATGGACGGGTTCAGGCCTGATCCAAGCCGTGGTGGNGTGACAGGTCTCGTGGCGNTGGGCTTCTTTTTCTCTGCAGGCTTTAAAATCTGGAAGGAACACATGAGGGTCTCATCCACACTGATCATGGCGCCTGCATTGTCAAACTCGCCACAGTAGTNGGGTGCAGAAAACAGAGTGACTAACTGCCTCTTTGCAAAAAACTCATAGCCATCTTCAACCACCTGATGGGCTCTACATATAAGATCCAAATCATGCTTATGGAGAAATTTTGCAACCACTTCTGCACCAAATGTGAAAGGACACTTCTTCTGNCAATTTTCACCCCAGNCTAAGACATCTTTTAATCGGGGTCAGGACCNCCAAAGGATCCCAAAGGAAGAACTTTGATCTGGTACATCAAGTTGGGCCTCANAAATTCGNCCGGAANCTGGNTTCCATAGAATTGAAGAACTGGGGGAANAAACCTTCCATGACAGGCNGAAAAATCTTNTTNGTCCCCCCAANGGCTTGNTAATTGGGCAAGGCNGGTTNAAAACAGTCNTTGTGAACCGTTTTTCCNGAGCTTNAAAGGGTGGGAAACTTCTTTTTCCCCTTCATCATTAAAAAAACCCNAGGAAACCTAATGGAAGCTTGGGCGCCAAATCGGGGGTNCCCTTTTTGGGAAAAAAAGGAAGNTTTTTCCGGGAAACCTTTGGATTTTTTAGGGNCCCCCCAAGNNGGGCAAAATTGGNTTNCCNGGGNNCTSerial cloneUI-20number:ACCESS No.:D85137Definition:Mouse mRNA for PP1gamma (protein phosphatase1gamma)LOCUS:MUSPIM1KEffect:−/+Clone #T7 sequenceGCCGCCAGTGTGCTGGAAAGNGAGACTCGGCGATACTGCACTTCCTCAGAGCTTGCTGCCCACTACTGCAAGAAGTA 75CAACATCCAGTACCAGGAGAGCTTCTATGCCTGGAGCACCCCAGGCGTGGGCAAGTTNGTGACTTCCATGGCTGCCTGCCTCAGGGGGCATCTATCTCACCCTGCTGTTCCTCATTGAGACCAACCTGCTGNGGCGACTGAGAACCTTCATCTGTGCCTTCCGGAGGAGGNGGACTCTGGCAGAACTGCAGAACCGGACATCAGAGCTGCCCGAGGACCANGATGTAGCTGANGAGAGGAGCCGAATCCTGGTCCCTAGCTTGGACTCCATGCTCGACACACCACTGATTATCAACGAGCTCTCCAAGGNGTATGACCAGCGAGCACCGCTCCTTGCCGNGGACAGGATCTCCCTTGCGGTCCAGAAAGGGGAGTGCTTCGGCCTGTTGGGTTTCAATGGAGCTGGAAAAACCACAACATTCAAAATGCTGACTGGGGAGGAGACCATCACCTCAGGGACGCCTTTGTTGGTGGTTACAGCATCAGTTCTGACATTGGGAAGGTGCGGCAGCGGATGGGCTACTGCCCCCAGTTTGATGCACTGCTTGATCACATGACTGGCAGGGAGATGCTGGTTATGTATGCACGGCTCCGAGGCATCCCANAGCGGCTCATATCAATGCCTGTGTGGAGAATACTCTGCGGGGTCTGCTGCTGGAACCCGCACGCCAACAAACTAGTCAAGACTTACAGTGGTGGTAACAAACGCAGCTAAGCACTGGCATTGCCTCATTGGAAAGCCTGCNGTTATCTTCTGGABGH sequence:TTTTTTTTCATGTCCCCTTATCCTTTATTTTTNATANAATCACAATATGTTTAAGNGTATCCTCAANANATGACACTACTCAGCCCTGNANNGGTCCCTGACAATCCTGNGGCCAGNGACTTNTTGAAGGCACANAGCTAGGAACAGAGGATGNGCTTCAAGTCTGGCCACAGCTCTCTCTTGNGCTGCCGATGCTCTGNGGGATGACATCTGGCTCAGGATCAGATCAGCCGGGTCCACTGTCCATACTGGAAGGAACATTGACATCCAAGGATGCCTNTGCAGTTGCATTGGGAGCCAACGGTCTCAGCACCTAGTCATAGCCAGTATCTTCCCTTCATGAAGGNATTTGCAACTTTGCTGCTCATTCCTGGCAGCCTGGAAGTCCTCATTGCTGCTNAACCCTGTNGGCTTTCTTCCCCCCCCCCCNAGGGGAGCTTAGNGTCATATGTAAACATAGAGAGGTCCCTGGGGNCTCTCTGGATAANCACTGGAAAGAAGCTCAATCCGCCAGGCTAGCTGCAGAACCAGCTGGGACAGTTCCCCATCCAAAGACTAAGGCCTGTCTGTGTGCACAGCAGGATGGGGNCTGGGACTGNGGTCCAGANACCTGACTTCAGGAGTGGAAACCTGCATGCTGAGTCCTGCCTGCAGGCACTGACAGACACACATGGTCCACTTTGNGCATATCACCTTGANTGGTTTTCATGNCCATCATAGAAAAGAGTGATTAAAAATGANNGAAAGGAGAAAACTGGGAGGGAAAGGACCCACGGGNTAAGCNCGAAATNGCCCCTTNCACGCCCNGGGGSerial cloneUI-25number:ACCESS No.:NM_001089Definition:Homo sapiens ATP-binding cassette, sub-family A (ABC1), member 3 (ABCA3) mRNALOCUS:Effect:+Clone #T7 sequenceCGNCACCCCCTTGGTACCGAGCTCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGGATCATCCGTCTCGCCTC 76CAGTTCTTCACCGGCTGAGCTGGGTACGGACATCTCAGTGACCACGAGCTAACATAGCACGTGAAACTGACCTCAGGAAGAACGAAGCCTGGAGACCCGGAGTGCGACAGCGACCTCCGGACTGAAGTGGAAGAAGCGTAGCGAGGCCTTCGTGTCCTCGCTGTGGGGGGCGGGGCTTGTTGTGCAGGCGGGGCTCACGTGGTACTTTGGTACTTTGGATGACTGAAGGGAAGCTTGGTACCCGCCTGGTCACTACCCGGAAGTCCAGCCGGAGTAGCACTACCCTGGAGTCCACCCGGCTGTGAAGCGGNGGTGCTCTTAGGGGTGCTTGACGCCCTCATTGTTAGAAACTGATGGGTACTGTTGGCCGATTCCTAGACCCGCTTTTGACCTACGTGATAAATGTGTTTCCGGAACTCTGCCAAAAAGTGTTCTGGAGGTTTTTGTTTGTTTCGGAGCCAAGGCCTCCCTCGTAGCTCTTAATGGCCTGAAACACTCTTTGTAGCCTAGACTGGCATTGAAGTCAAGTTAGCCCTGCCTTTGCCTCCCTGGGCTCTGGGATTACCCTGCCTTTCTTGATTATTTCTATTTGAACAAATATGAACAAACTATGTGGCCACCACAAABGH sequence:TTTTTTTTTTTTGTGGNGGCCACATAGTTTGTTCATATTTGTTCAAATAGAAATAATCAAGAAAGGCAGGGTAATCCCAGAGCCCANGGAGGCAAAGGCAGGGCTAACTTGACTTCAATGCCAGTCTAGGCTACAAAGAGTGTTTNAGGCCATTAAGAGCTACGAGGGAGGCCTTGGCTCCGAAACAAACAAAAACCTTCAGAACACTTTTTGGCAGAGTTCCGGAAACACATTTATCACGTAGGTCAAAAGCGGGTCTAGGAATCGGCCAACAGTACCCATCAGTTTCTAACAATGAGGGCGTNAAGCACCCCTAAGAGCACCACCGCTTCACAGCCGGGTGGACTCCAGGGTAGTGCTACTCCGGCTGGACTTCCGGGTAGTGACCAGGCGGGTACCAAGCTTCCCTTCAGTCATCCAAAGTACCAAAGTACCACGTGAGCCCCGCCTGCACAACAAGCCCCGCCCCCCACAGCGAGGACACGAAGGCCTCGCTACGCTTCTTCCACTTCAGTCCGGAGGTCGCTGTCGCACTCCGGGTCTCCAGGCTTCGTTCTTCCTGAGGTCAGTTTCACGTGCTATGTTAGCTCGNGGNCACTGAGATSerial cloneUI-26number:ACCESS No.:ESTs AI315969, AI930239, AI666299, AV141103Definition:mouse ESTsLOCUS:Effect:−+Clone #T7 sequenceTTCACCCCGCTTGGTACCGAGCTCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGATGGAGCCTGCGTTTCAC 77AGAGGGGATCTCCTTTTCCTCACGAACCGAGTTGAAGATCCTATACGCGTGGGGGAGATCGTTGTTTTCAGGATAGAAGGAAGAGAGATTCCTATAGTGCACCGAGTCCTGAAGATCCATGAAAAGCAAGATGGGCATATCAAGTTTTTAACCAAAGGAGATAATAATGCTGTTGATGACCGAGGTCTCTATAAACAAGGACAACACTGGCTGGAGAAGAAAGATGTTGTGGGGAGAGCAAGAGGGTTTGTTCCTTACATTGGAATTGTGACGATCCTCATGAATGACTATCCTAAATTTAAGTATGCAGTACTGTTTCTGCTCGGTTTATTTGTGCTGGTCCATCGTGAGTAAGAAGTCGGACTCCCTGTTCCTAGGAAGCTGCTGTGCTTGTTGTTACTGAATGTTGGAGTAGATCCTGATCTGTGATTGCGGATTTTCGGAGGACACACACGTTGGCACTTCTTGGTAGCCCTGGTTTGCATTGCTTTGTGTTTCCACACCAGAGGCTGTGTGGGCGGGTGCATGTGCACCGTGGAGTGCACACAAGGGGACTGTCAATCACAGGGTTTCATATGTTGTCATTGTCACTCTTTCACATTTTTGTCATCAGTGAATTTTTTATATTAAAAGGTTGAGCCAAAGCCCCCAGTGTTTGTATTTTGAAGCCNAGCTTCACTTTAAAAGTGCCTACAGAGTTCTGTAAATGAAAACACAGCTCTGCATGAGTTCAAACCTGNCGGTCCTTCTTACAGTAGGAATGGCNCATANTGAGGCGGGCATAAGTCTTACTTTBGH sequence:TTTTTTTTTTTCAATGNGCAAAGTCTTTTATTTAAAATTTTGAAAAGTTAANACTTATGACCGCCTCAATATGNGCCATTCCTACTGTAAGGAGGAACGACAGGTTTGAACTCATGCANAGCTGNGTTTTCATTTACAGAACTNTGTAGGCNCTTTTAAAGNGAAGCTTGGNTTCAAAATACAAACACTGGGGGCTTTGGCTCAACCTTTTAATATAAAAAATTCACTGATGTNCAAAAATGTGAAANAGTGACAATGACAACATATGAAACCCTGNGATTGACAGTCCCCTTGNGNGCACTCCACGGNGCACATGCACCCGCCCACACAGCCTNTGGNGNGGAAACACAAAGCAATGCAAACCAGGGNTACCAANAAGTGCCAACGTGTGNGTCCTCCGAAAATCCGCAATCACAGATCAGGATCTACTCCAACATTCAGTAACAACAGCACAGCAGCTTCCTAGGAACAGGGAGTCCGACTTNTTACTCACGATGGACCAGCNCAAATAAACCGAGCAGAAACAGTACTGCATACTTAAATTTAGGATAGTCATTCATGAGGATCGTCNCAATTCCAATGTAAGGAACAAACCCTCTTGCTNTCCCCACAACATCTTTCTTCTCCAGCCAGTGTTGTCCTTGTTTATAGAGACCTCGGTCATCAACAGCATTATTATCTCCTTTGGTTAAAAACTTGATATGCCCATCTTGCTTTTCATGGGATCTTTANGGACTCGGNGCACTATAGGAANCTCTCTTCCTTNTATCTGAAAACAACGATNTTCCCCACCCCGTATAGGGATCTTTCACSerial cloneUI-27number:ACCESS No.:AB025405Definition:Mus musculus mRNA for sid2895p (Mouse microsomal signal peptidase)LOCUS:Effect:+ (moderately fast)Clone #T7 sequenceCACCCNCTTGGTACCGAGCTCGGATCCCTAGTAACGGCGGCCAGTGTGCTGGAAAGNTCCTTGCTTCTTTTTTGGGG 78TNGCGGCCTTGCTCCTGTCCTGCNAGAGAANCNTANAGTGNTTTNACGCNNAAGTGNNCGCGTNGGTTCNGANGTNNTCNTAGGNCCATGCTCCAGACTCTNNNGTGACNGAAGCNCNANCCNTGGGCNNTACNNGTNNCNCCNNNNGGNTNATCTTNCAGGCNNNCNATAANGAGAACATNACCGTGGANAANGNNATCCGNCTTTNAGAAAATGTNATCNACCGGATGAAGGAGGTCCTCTCCATCTGGCTCTAAGGNTNNGCNATATTCNAGCGTNTATGNTGCTTNAGNTTCTGATGAAGATTNTAAAAGAAGAGTAGCTGNCGAGCTGGCNTTGGAGCAAGCNAAAAAGGAGNCACTGCACCAGANACNCCTTANGCAAGCAAGGGGACCTATAAAAGAGAAAGGGCTGCATCCAATGAGCAGCTGACTAGAGCTGTCCTTTNGGAAAGAATATCTAGCNAANAGGAGCNCATGAANGCNAANCNTCTGGCTCNNCNNCTGGAAGAGANAGATNGAGNGATGCCGGAANCAGNNTGNTGGAGANNNGAGGCTNAAGTTACCCTGANAACATGCAAGCTCCTTCAACGNTNATTCCACAGGTGGAACATTTTTCTTTTCCTAGNACBGH sequence:TTTTTTTTTTTTTTTTTTNTTNTATTNTTTTTCTAGNCTAAATGGTACCTTTATTAGGTGCCAGGNANGGAANTNNCTATAATNANNTANNTGNATNANCAANCCNNNGTNGNCTTTNNATTGNCAAAAAAGCCNNANANTACNNGTAATANAAACCNTTANTCNANNANANNANGCGCCTNTTTNCTNCNNTGGGGCTTNCTTGAAANAACATTATGGNNNGCCCCGAATNATNTNNTGTCNAANGAAAATANCATANCCNGGNTTNNCAGGNNNNNTAGGAANACACTGNNGGCCNAACCCATAGCTNTNTTGNTGGNTGTNCATCNNAAANACGNTTAANGATNCTNCTNCCAGCTTTGTCAAAGNGGAATGTCCCTNAANGCTGGAAGGAGCCTNAAGGGANNGGANNGGNNAANATGCCAGGANGCTNNAAANNNNGTANATGAAAGGNGNNGGGGNCNGNCTTNCNNTNTNATNCANTTGGGGGANTGTTAACAGGTTAACAGTGNCGTTTGACTCTGNCANNNGNTTTAAAGNANGGGTTTTAANCNGNTGNTNATGGCACGTTCTGAATTANTGGNGTCCATNTTCCAGNGCCTGTNTGSerial cloneUI-28number:ACCESS No.:AK000427Definition:only partially homologous to: Homo sapiens eDNA FLJ20420 fis. clone KAT02462.LOCUS:Effect:−/++Clone #T7 sequenceAAAGTTCTTCTCTCACGTGGGTTGGCTGCTTGTGCGCAAACACCCGGCTGTCAAAGAGAAGGGCGGAAAACTGGACA 79TGTCTGACCTGAAAGCCGAGAAGCTGGTGATGTTCCAGAGGAGGTACTACAAGCCCGGCCTCCTGCTGATGTGCTTCATCCTGCCACGCTGGTGCCCTGGGACTGCTGGGGCGAGACTTTTGTAAACAGCCTGTTCGTTAGCACCTTCTTGCGATACACTCTGGNGCTCAAACGCCACCTGGCTGGTGAACAGTGCCGCGCATCTCTATGGATATCGCCCCTACGACAAGAACATTCANTCCCGGGAGAAATATCCTGGGTTCCCTGGGTGCCGNGGGCGANNGGCTTNCACAACTACCACCACACCTTCCTTCGACTACTCTGCCANNGAGTACCGCTGGCACATCAACTTNACCACGTTCTTCATCGACTGCATGGCTGCCTGGCCTGCTTACGACCGNAAGAAAGTTTCTAAAGCTACTGTNTTACCNNGATTANGAGAACTGNAGACNGGAGTCACANGAGTAGCTGAGCTTTGGGCTTTTGAGATCCTGTTTTAACGGTTTCTGNCAGAGANTTAANATTCTGTGANTAACTAACACTGGATATTGNTNAATANGGGGGTAANGATGCTTTAACCCCAATCNNGGNCCGNATTCTTTATAAAANGAGAAANNCTTTTTNATACCCCNTTGAGGGGGNAAAANAATTTNNTTTNNCCTNGGGNTAANCCNTGBGH sequence:TTTTTTTTTTTTTTTTTTTTTTTTTTTTCCTNTNTGNANAAAAGGTTCAAATTNATNGTNATNATTAAAAGCNGTNGGGCAAAATNGNANANGCATTNANNANGGGGGCTNAAAAANANANAAGGNNTNGGGGCANGGTAAATCCTAGNTAAANAAAANATTNATTACCTCAAAANGGGATCAAAGNTTTNTCATTTNANAANAANACNGNNCCGGAANAGGTAAAAGGCATNATTAACNCCCCGANAGCAANATCCAGNNGTTAGTNAATCANCANAANATTAAATNTTNGCCAAAAAACGTTNGAAANAGGAANTNAAAANCCCAANGNTAAGNTANTNTNGGGANTCCCGTCTCCAGTTNTNTAAANCCNGGNTAAAANAGNANCCTTAAAAANTTTTTTCNGGNCGAAAGCCAGGCCCAGGGCAGCCATGCAGTCGATGAAAAACGNGGGGAAGTNGANGNGCCANNGGNACTNANTGGCAGAGNAGTCNAAGGGGAAGGGGNGGGGGAAGTTGGGGAAGCCNTCGCCCACGGNACCCAGGGAAACCAGGATATTNTCCCGGNATTGAANGTTCTTGTCGAAGGGGCGANATCCATANAGATGCNCGGCACTGTTCNCCACCCAGGGGGCGTTGAGCNCCAGAGGGTATCGCAAGAAGGGGCTANCGAACAGGCTGTTTACAAAAGTTTCGCCCCANNAGTACCAGGGCCCANCGTGGGCAGGATGAAGCACATTANCAGGAGGCCGGCTTGGAAAACCTCCTTTGGAAAATACCAGTTTTCGGGTTNNAGGCSerial cloneUI-29number:ACCESS No.:NM_009127Definition:Mus musculus stearoyl-Coenzyme A desaturase 1 (Scd1)LOCUS:Effect:+ (slow)Clone #T7 sequenceAAAGCAGCTGATCTCATACAAACACCCCAGACCTCCAGCAGCTCCAGGAGTCAAAAACACCAGCAGTGGACCGAGGTC 80CTACAGCTGCCTGCAGCCATGTTGGCCTTCAGTCTGCTCGTGCTGGGTCTGCTCGCGGAAGTGGCACCTGCCAGCTGTCAACAAGGTCTAGGAAACCTTCAGCCCTGGATGCAAGGCCTCATTGCTGTCGCTGTGNTCTTGGTCCTTGTTGCAATCGTCTTCGCCGTCAACCACTTCTGGTGCCAGGAGGAGCCGGAGCCTGGGAGCACAGTGATGATCATTGGAAACAAGGCAGATGGGGTCCTGGTGGGAATGGATGGCAGATACTCCTCAATGGCATCTGGTTTTAGGTCCAGCGAGCACAAGAATGCCTACGAGAATGTTCTGGAGGAAGAGGGCAGGGTCCGCAGCACACCCATGTGACAAGCTTCTCTGTGGCCCTAGTCCCCAGGCTACAGGGAACATAGAGTTGATCCCCACCATCTNACCCAGCCACTGCTCTACAGGAATCTACTGAAACAAGCTGACTTCCTCACTCTCTAGAATCACAGNCATCTTAGGCCAGGACTNAGACCAAGCCCAGCACACCAATGTNTGTGACCCCTGGCTNNTCTNGGCTTNTACCCAGTCTGAGGAGCCTTTNNNAAGGNGGTTAACTNCTTCCCTTCBGH sequence:TTTTTTTTTTTTTTTTTTCCANAAGTATAAAAAGTCTTNATTTCACAGAAATAAGAGCCANTTCCATAGTTGCAGGAGCAAGGGNAGGGGAGGAGCTGAGCCACCCTTCACAAGGCTCCTCAGAACTGGGTAGAAGACCCAGGAAAGCCCAGGGTCACAGCANATGGNGNGCTGGGCTTGGCTGAGTCCTGGCCTGAGATGACTGTGATTCTAGAGAGGTGAGGGAGTCAGCTTGTTTCAGTAGATTCCTGTAGAGCAGNGGCTGGNTGANANGGTGGGGANNAACNNTANGNNCCCSerial cloneUI-30number:ACCESS No.:U21049Definition:Human DD96 mRNA (a gene selectively upregulated in human carcinomas)LOCUS:Effect:+ (slow)Clone #T7 sequenceAAAGCGCTCCTCGAGGGTCGGTCCCGCCACGTCTCTTCCCGGTCTCTCTGGCTCTGGAGTGCTTTCCCCCCGCGGAG 81GGTGGGAGCGCGGGGACAGACGGGCGAGATGAGCACCATGTTTGCAGACACGCTGCTCATCGTCTTTATCTCCGTGTGCACCGCGCTGCTCGCCGAGGGCATAACCTGGGTCCTGGTTTACAGGACAGACAAATACAAGAGATTGAAGGCAGAAGTGGAAAAACAAAGTAAAAAATTAGAGAAGAAGAAGGAAACTATAACAGAGTCAGCTGGTCGACAACAGAAGGAAGAAGATAGAGAGACAAGAAGAGAAATTAAAGAACAACAATAGAGACCTGTCAATGGTACGGATGAAATCCATGTTCCGCATTGGCTTTTGTTTTACTGCCTTAATGGGAATGTTTAATTCCATATTTGATGGTAGAGTGGTGGCAAAGCTCCCCTTCACTCCTCTGTCTTACATCCAAGGACTATCTCATCGGAACCTGCTGGGAGATGACACCACGGACTGCTCCTTCATCTTCCTGTATATCCTCTGTACCATGTCAATTCGACAAAACATCCAGAAGATTCTTGGCCTCGCCCCTTCACGAGCTGCCACCAAGCAGGCTGGTGGATTTCTTGGCCCACCACCTTCGTCTGGGAAGTTTTNCTTGAAGGAAAGCAGAATTCTGAATTTCCTGNCATACTTTTTAGACATTCACATCAGACTTACCGAGCACCTGGCCACAATCTAGGTNGGGGTAATCTCACTATGGATATGAACCAATGAGAACCCTGNTTACTAAAGGGAAAATGCTATGGNCACCGGATGGCTTCNTTNAGTAATAAGTGGCCCCNNTNTGGGTACCATTTGGAAGGNTTAATGTAACCCCCAACCATCAANCTTTCTTGCTTNNCTTGBGH sequence:TTTTTTTTTTTTTTTTTTTTTTGGTAAAAGAACATGACAAAACTTTATTTTAGCTTTTTGGGCCAATGCTTATCCTTATGTTCAGATTACAGAAAATACTCTTTTTAATATGCAAAAAAATCAAACATTTCTCTAACTGAAACATCTAAAAATTTGGCTCATTGTCGAACACAAAGTGACATATTTGGCTTTTTAAAAAACACAACAACTAATTACAGTGAAGTTGTTACATAAACTATTTTTCTCCTAATGTTCATGGACAGTCTGCTTCTGTGTATATGGCACATACACTGAAATACTCAAGTGAGACAAGAAAGATGATGTTTGNGGTTACATAAGCCATCCAAATGTAACCAGTGAGTGCACTTATTACTAAAGAAGCCATCCGTGACCATAGCACTATCCCATTAGTTAAGCAGTGTTCTCATTTGATCATATCCATAGCTGAGAAATAACACAAACCTAGAATGTGGCCAGGTGCTCTGTAAGTCTGATGTGAATGTCTAAAAAGTATGACAGGAAATTCAGAATTCTGCTTTCCTTCAGGAAAACTTCCCAGACGGAGGTGGTGGGCCAAGAAATCCACCAGCCTGCTTGGTGGCAGCTCGTGAAGGGGCGAGGCCAAGAATCTTCTGGATGTTNTGTCGAATTGACATGGTACAGAGGATATACAGGAAGATGAAGGAGCAGTCCGTGGNGCATCTCCCCAGCANGGTTCCCGATGAGAAAGTCCNTGGATGTAAAGAACAGANGANTGAAAGGGGGAGCNTTTGCCCCCACTTTTACCCTTCAAATAATGGGAATTAAACCANTTCCCAATTANGGCGGTAAAAACCAAAAGGCCCAATTGGGGAAACATGGGAATTTCATCCCGNANCCATTTGGNCAGGGCCTNCTAAATGGGGGGNCCTTTNAAANTCCCCTTTCTTGGGCCCTTNTAAAACTTNCNTTCTNTTGGGGGGGCCNACCCAASerial cloneUI-31number:ACCESS No.:AF070626′ and AB020980 (are in principle identical)Definition:Homo sapiens clone 24483 unknown mRNA (AF070626), orHomo sapiens mRNA for putative membrane protein (AB020980)LOCUS:Effect:+ (slow)Clone #T7 sequenceTTTCGCCCCCCNTTTGGTACCGAGCTNGGATCCTNTAGTAACGGCCGCCAGTGTGCTGGAAAGGCGACATGGGGAGG 82CGCGGAGGCGACACCGGAAGTGGCTGTGGTCCGGGTCGGCCCGAGGGGGACTCAGCGCCCGCAGCAACCACCCGCGCGGCGGCGGTCAGAGCTNANACCCGTGCGGGTGGGCGTGGCGGGCGCCGGGACACAGCTCCGACTGTTCGCTGTCGGCGCGGGGCGGCGCCGCGTCGCTCGCCTTNACCAGCTGCCATGAGCGAGCGCCTCCGCCCCAGAAAAAGGAGAAGAAATGGCAGTGATGATGACAACCACCCTCCTCCCCAGACCAAAAGGAGCAGTAGGAACCCCATCTTCCAGGACTCCTGGGACACAGAGTCTTCAAGCAGCGACAGTGGTGGGAGCAGCAGCAGCAGCAGCATNAACAGCCCAGACAGGGCCAGNGGGCCAGAGAGCAGCCTGAGCCACACCATCCCCGGATCCTGCCCCAGCACCCCCCAGCCGATGCCTGAGCAGTCTGCACTATGCCAAGGCCCTTACTTCCACATNAACCAGACCCTGAAGGAGGCTCACTTTCATAGCCTACAGCACCGAGGCCGGCCGCCGACATGATGCTCCTCCGGCAGNTTCTTGCCTTCTGTGAAGGGACAGCACTGTGCAGATTGNATATTBGH sequence:CGAACGCNAGTTCTAGCATTTAGGTGACACTATAGAATAGGGCCCTCTAGATGCATGCTCGAGCGGCCGCCCTTTTTTTTTTTTTTTTTCTGTGTGCAACTTTTAAAAACAAATCATTAAGTTGAAATATCCAATCTGCACAGNGCTGTCCCTTCACAGAAGGCAAGAAACTGCCGGAGGAGCATCATGTCGGCGGCCGGCCTCGGNGCTGTAGGCTATGAAAGTGAGCCTCCTTCAGGGTCTGGTTGATGTGGAAGTAAGGGCCTTGGCATAGNGCAGACTGCTCAGGCATCGGCTGGGGGGNGCTGGGGCAGGATCCGGGGATGGNGNGGCTCAGGCTGCTCTCTGGCCCACTGGCCCTGTCTGGGCTGNNGATGCTGCTGCTGCTGCTGCTCCCACCACTGTCGCTGCTTGAAGACTCTGTGTCCCAGGAGTCCTGGAAGATGGGGTTCCTACTGCTCCTTTTGGTCTGGGGAGAGGGNGGGNTGNCATCATCACTGCCATTNCTTCTCCTTTNTCTGGGGCGGAGGCGCTCGCTCATGGNAGNTGNNGAAGGCNANCGANNCGNNNCCGCCCNNNCCNNCAGNNAACAGNCNNNGCTGNGNCCGNNSerial cloneUI-33number:ACCESS No.:U92989Definition:Homo sapiens clone DT1P1E11 mRNA, CAG repeat region (partial homology)LOCUS:HSU92989Effect:+ (slow), ladderingClone #T7 sequenceANCGACCCCCCCNTTNGACCGAGCTCGGATCCTCTAGTAACGGCCGCCAGTGTGCTGGAAAGGCTGATTGCTGAGGT 83GGGAGTGGGCCCANCGCCCGGNGGCCGCAGCTCACGCGCAACCTGCGCCATGGCCGCCTCCGCCGCCTCCTCCGAGCATTTCGAGAAGCTGCACGAGATCTTCCGCGGCCTCCTTGAAGACTTACAAGGGGTGCCGGAGCGGCTGCTGGGGACCGCGGGGACAGAAGAGAAGAAGAAGCTGGTCAGAGATTTTGATGAAAAGCAACAGGAAGCAAATGAAACGTTGGCAGAGATGGAGGAAGAACTACGATATGCACCCCTGACTTTCCGTAACGCCATGATGTCTAAGCTGCGAAACTACGGGAAGGACCTTGCTAAACTCCACCGTGAGGTGAGAAGTACACCTCTGACAGCCGCACCTGGAGGCCGAGGAGACCTGAAGTATGGCACGTATGCCTTGGAGAACGAGCATTTGAATCGACTACAGTCTCAAAGAGCATTACTCCTACAAGGCACTGAAAGCCTGAACCGGGCTACCCAAAGCATTGAGCGTTCTCATCGGATTGCCACAGAAACTGATCAAATTGGTACAGAAATCATAGAAGAGTTGTNGGAGCAACGAGACCAGTTGNAACGTACTAAGAGCAGACTGGTAAATACAAATGAABGH sequence:TTTTTTTTTTTTTTTTTTTTTAAGTTTGAAGGAGTCATAAACAACATTTATTACCTTAGTATATCATACTGGTCTTGTTGCTGTTCCTTCACATTTTCGAGGTTTTCCATTGCCCTCCCTCCCATAGTCTGACAAGACAATACATTCTTGAACTGTTAGCCCACAGCAGCAACACATATCCCTATGTAAAACCATTCATTCAGAGTAAGATGCTGGTCCACAAGGCTTTCCCTACAGAAGTTCAATGGTGTCGAAAGAATTTGTAATACACCAGACCGACCAGGATGGCTAGCTCCAGCAAGATGATGACGGAGAGCAGCAACTTGTTGGTTATCACTTTTCTGGACATTGAGCGAAGAATCTTCCGGCTTTTGCTCAAATTTTCATTTGTATTTACCAGTCTGCTCTTAGTACGTTCCAACTGGTCTCGTTGCTCCCCCAACTCTTCTATGATTTCTGTACCAATTTGATCAGTTTCTGTGGCAATCCGATGAGAACGCTCAATGCTTTGGGTAGCCCGGTTCAGGCTTTCAGTGCCTTGTAGGAGTAATGCTCTTTGAGACTGTAGTCGATTCAAATGCTCGTSerial cloneUI-54number:ACCESS No.:AF035208Definition:Mus musculus putative v-SNARE Vti1b mRNA (soluble NSF attachment protein receptor)LOCUS:Effect:+ (slow), no laddering (?)Clone #T7 sequenceTNTGACGCCGTTCTAGCATTNAGGTGACACTATAGAATAGGGCCCTCTAGATGGATGCTCGAGCGGCCGCCCTTTTTT 84TTTTTTTTTTTTTTCCGTTATAATAGCCATCTTTATTTGTAAAAATCCAGATATAAAACGTAATCTTTCAGTCTTTCCAGGTTTTCCTTTTTTACAAAAACAAAAAGGCACGTATAAACCTTGCCCGCTGTCGTCCCCGTACACGGNGTTTCTCAGGCAGCCCTCCCCCCCGCCCCGCCCCCCGTTACAGCTACATGCTTCATTCCAGGACGTCTGCATCCCCACATGCTTTGGNGCTTTCCTACCAGGGTAGAGTTCCGAGCTCCAAGACTTGAAGTACACAAAGAGGGGGTAGGGGTGGGTGCAGNGTGTGGCACAATGTTCCACGGCGTGCAGGGCAGNGGGCTAGTAGTAGGTCTCCTTCTCCACCCAGCCGCCAGGGCGCCGCCTGATAATGAGCTTCCGCACCTCGTCATACACAAAGATGAGAAGGGAGTAGGGGAAGGCACAGAACCACCATGTAGGTTTGAGGGGATACATCCTAAAGGCTGCCCCCATCCCGGGGCAGTAGGATAAGAAAGCAGCAAGGGCTGTCTCTTCAAAGAGGCCAAATATCAAGATCTTGGTCTTCATTCCCTGCTGGABGH sequence:TTCCANCCCCCCTTGGACCGAGCTCGGATCCTCTAGTAACGTCCGCCAGTGTGCTGGAAAGGGGTTGCCATGGGGATTGTTGGCTCTGATGTGTCCAAGCAAGCTGCTGACATGATCCTTCTGGATGACAACTTTGCCTCCATTGTGACTGGAGTAGAGGAAGGTCGTCTGATTTTTGATAACTTGAAGAAATCCATCGCTTACACCCTAACCAGTAACATTCCGGAAATCACCCCCTTCTTGATATTTATTATTGCAAACATTCCACTGCCCCTGGGGACTGTGACCATCCTCTGCATTGACTTGGGCACTGACATGGTTCCTGCCATCTCCCTGGCCTACGAGCAAGCTGAGAGCGACATCATGAAGAGGCAGCCCAGAAACCCCAAAACGGACAAACTTGTGAACGAGCGTCTGATCAGCATGGCCTATGGACAGATCGGTATGATCCAGGCCCTGGGAGGCTTCTTCACTTACTTTGNGATTCTGGCTGAGAACGGTTTCCTGCCCTTTCACCTGTTGGGCATCCGAGAGACCTGGGATGACCGCTGGGTCAACGATGTGGAGGACAGCTACGGGCAGCAGTGGACCTACGAGCAGAGGAAGATCGTGGAGTTCACCTGCCATACAGCGTTCTTTGTCAGTATTGTGGTAGNGCAGTGGGCCGACTTGGTCATCTGCSerial cloneUI-60 = UI-56number:ACCESS No.:NM_012504Definition:Rattus norvegicus ATPase. Na + K + transporting, alpha 1 polypeptide (Atp1a1), mRNA.LOCUS:Effect:+ (slow)Clone #T7 sequenceTTCGNCCCNCTTGGTACCGAGCTCGGATCCTTAGTAACGGCCGCCAGTGTGCTGGAAAGGTCTGCGGCCCTCGCAGA 85ACTTCCAGCAGCGACATGTTGGGCCAGAGTATCCGGAGGTTCACGACCTCCGTGGTCCGTCGCAGCCACTATGAGGAGGGTCCGGGGAAGAATTTGCCATTTTCAGTGGAAAACAAGTGGCGGTTGCTGGCTATGATGACCGTGTACTTTGGATCTGGGTTTGCCGCACCTTTCTTTATAGTAAGAGACCAGCTACTTAAAAAATAAGGATATTTAATTCATCCCTTTAACAGAATGAAGAAAGTTTAAGAGGTGATCTGAAAATTGGATTAAACTCTTGAACTCTTATACTAGAAAAAATTGTAAATAAACTAATGACATAAAGATTCAAAAAAAAAAAAAAAAAAAAAGGGCGGCCGCTCGAGCATGCATCTAGAGGGCCCTATTCTATAGTGTCACCTAAATGCTAGAGCTCGCTGATCAGCCTCGACTGTGCCTTCTAGTTGCCAGCCATCTGTTGTTTGCCCCTCCCCCGTGCCTTCCTTGACCCTGGAAGGTGCCACTCCCACTGTCCTTTCCTAATAAAATGAGGAAATTGCATCGCATTGTCTGAGTAGGTGTCATTCTATTCTGGGGGGAGAGNAGANGCAGGACAGCAAGGGNGACBGH sequence:TTTTTTTTTTTTTTTTTTTTGAATCTTTATGTCATTAGTTTATTTACAATTTTTTCTAGTATAAGAGTTCAAGAGTTTAATCCAATTTTCAGATCACCTCTTAAACTTTCTTCATTCTGTTAAAGGGATGAATTAAATATCCTTATTTTTTAAGTAGCTGGTGTCTTACTATAAAGAAAGGTGCGGCAAACCCAGATCCAAAGTACACGGTCATCATAGCCAGCAACCGCCACTTGTTTTCCACTGAAAATGGCAAATTCTTCCCCGGACCCTCCTCATAGNGGCTGCGACGGACCACGGAGGTCGTGAACCTCCGGATACTCTGGCCCAACATGTCGCTGCTGGAAGTTCTGCGAGGGCCGCAGACCTTTCCAGCACACTGGCGGCCGTTACTAGTGGATCCGAGCTCGGTACCAAGCTTGGGTCTCCCTATAGNGAGTCGTATTAATTTCGATAAGCCAGTAAGCAGNGGGTTCTCTAGTTAGCCAGAGAGCTCTGCTTATATAGACCTCCCACCGTACACGCCTACCGCCCATTTGCGTCAATGGGGCGGAGTTGTTACGACATTTTGGAAAGTCCCGTTGATTSerial cloneUI-61number:ACCESS No.:NM_007749Definition:Mus musculus cytochrome c oxidase subunit VIIc (Cox7c), mRNALOCUS:Effect:−/++ (moderately fast)Clone #T7 sequenceTTCCGCCCCCCCNTGGTACCGAGCTCGGATCCANTAGTAACGGCCGCCAGTGTGCTGGAAAGATGAATTCAAAGAGT 86GCCCAGGGTCTGGCTGGTCTTCGAAACCTTGGGAACACGTGCTTCATGAACTCAATTCTTCAGTGCCTGAGCAACACCCGAGAGCTGAGAGATTACTGCCTCCAGAGGCTGTACATGCGGGACCTCGGCCACACCAGCAGCGCTCACACGGCCCTCATGGAAGAGTTTGCAAAACTAATCCAGACCATATGGACGTCGTCCCCCAATGATGTGGTGAGCCCATCTGAGTTCAAGACCCAGATCCAGAGATATGCGCCACGCTTCATGGGCTATAATCAGCAGGATGCTCAGGAATTCCTTCGTTTCCTTCTGGATGGTCTCCACAATGAGGTGAACCGGGTGGCAGCAAGGCCTAAGGCCAGCCCTGAGACCCTTGATCATCTCCCTGATGAAGAAAAGGGGCGACAGATGTGGAGGAAGTATCTGGAAAGGGAAGACAGTCGGATTGGGGATCTCTTCGTTGGGCAGCTGAAGAGCTCCCTCACATGCACCGATTGTGGCTACTGCTCTACAGTCTTCGATCCCTTCTGGGATCTCTCGTTGCCCATCGCAAAGAGAGGTTACCCTGAGGTGACGTTAATGGATTGTATGAGGCTCTTCACCAAACBGH sequence:TTTTTTTTTTTTTTCTGAATTTTTTAAAAAAAACTTAGGACGTGGGGCCACCACAGGGAAGAGGGAAGGGCCGCAGCTCCTCAATGCTACATACGGGAGGGTGGACTGGCCAGTTCATAGAAGAGCAAATAGGCGTCGCTGGTGCGCACTTGGCTGGAGGACATGGGTGTGACACTGGAATCATTGAAAGTGTGCCATTCGCCTGTAACCGGACTTCGGCAGTAGGCTGTATAGNGGCCTCCCATGGNGGTTCCGGAGTGATTGGACACAGCATACAGGTTGTAAACAGCATGGTTGGNGTTTTCTGAAGCAAATTCTCTCAAGTCCAGGTCTCTTAGNGGGAAATTCACAAATGTTGNGAGCTTGCTGGTTCGTATCCTGGATTCTGAGAATCGCTTCAGGTGGAGCACCAAGATCTTTGGGAACCTCTGGACAGAGAACTTTTTTATGCATCGCTTTCTGGCTCGGCAGCGGCAGCAAGTTGGCTTCTCATCACCATCCAATATGTCCTCTTTGGTGAAGAGCCTCATACAATCCATTAACGTCACCTCAGGGTAACCTCTCTTTGCGATGGGCAACGAGANSerial cloneUI-64number:ACCESS No.:AF079565Definition:Mus musculus ubiquitin-specific protease UDP41 (Ubp41) mRNALOCUS:Effect:+ (Slow) in 293T, ++ (fast) in HeLas, laddering (293T)CloneClone #T7 sequenceAGGGCGCCTGAGTGAAAAGNGNGGCACCATGGCCTCTGNGCTGTCCTACGAAAGTCTGGTACACGCCGNGGCCGGA 87GCCGNGGGAAGNGNGACTGCCATGACAGNGTTCTTCCCCTTGGATACTGCTAGACTTCGGCTTCAGGTCGATGAGAAAAGAAAGTCAAAAACGACGCATGCAGNGCTCCTGGAGATANTTAAGGAAGAAGGCCTCCTGGCACCATACCGAGGATGGTTTCCAGCTATTTCCAGTCTCTGCTGCTCCAATTTTGTCTATTTTTACACTTTTAATAGCCTCAAAGCAGNGNGGGTCAAAGGTCAGCGTTCTTCTACAGGAAAAGATCTCGNGGNNGNGTTNGTAGCAGGAGNGGTGAATGNGCTGCTGACGACTCCGCTCTGGNNGGTAAACACCAGACTGAAGCTGCAGGGGGCAAAATTTCGGAATGAAGACNTTATACCAACTAACTANAAAGGCATTATCGNTGCATTCCACCAGATTATTCGNGNTGAAGGNATCTTGNCTCTGNGGAATGGCACCTTCCCCTCCCTTGCTGATGNACTTCAACCCTGCCATCCAATTCATGNTCTATNNNGGCTTAAAACGGCAGCTTCTACCGAAACGNCTGANNCTCTCTTTCTCTGCNTNNGTCCNTCATTTGNCGCACTANNCAAAGCTNATTGTCNCCACAGCNNCCCTATCCCCTNCAGANCGGTNCCTGTCNATTCTGAGGCNTNCACBGHTTTTTTTTTTTTTTTCAGGGTTTCAATATTTTCATATCAGTCTAACCTCTACCCCCAAATACAACCAAACACCATAAAAsequenceACACCAAAAAACCCCATAAAGGTGACAGGCTTAGCTGGCTATACTCCCTGCTTAGCCTTTGATGCCTTTACAGCCAATGACTGGAATGTCTGNGGNGNGGATGGGACCAACGGGAAAGGAGAACTGTTCCTCTTCTCCCTGTGCAGCACCTGCGTCTCCACACTGTCCTGNGGGCGGGCCTCAGNGCTTATGTGTGCTCTTCAGGCCCATTACGGNGAAGGTAGCAGCTGTCAGTTTCTCGTACACAAGGAACATGAGGGCGGCTGTGAGCACTGTCTGCAGCAGCTTAGCTTCCAGGCCTTTGTAGAGTCCCATTATTCCAAAGCGCTTGACTCGCTGGTGAAGAAGAGAGAGAACATTCCGAAGACTTCCCAGGGTCCTGTTTTCTGGGTTCAGTCTATGACGTCCAAACCTCAGAATTGACTGTACCGTCTGCATGGGATAGGTGACTGNGGNGGCAATCGCTNTGGCTATTGCGCCAATGATGAACACATNCAGAGAAGAGAGCTTCATCCGNTTCTTTAGAAGCTGCCGTTTTAAGCCTTCATAGAACATGAATTGNATGGCAGGGTTGAAGACCAACAGCAAGGAGGGGAAGGTGCCATTCCACAGAGCCAAGATCCCTTCATCTCGAATAATCTGGTGNAATGCATCGATAATGCCTTTGTAGTTAGCTGGNATAATGGCTTCAATTTotalLOCUS MMU6341 1700 bp mRNA ROD Jan. 8, 1999cDNA,DEFINITION Mus musculus mRNA for peroxisomal integral membrane protein PMP34.EST clusterACCESSION AJ006341MotifsClone #T7 sequenceAGTAGAGCCCCTACGGTCATGGCGGCTACCGCCCCCAAGGCCGGGGGTTCAGCTCCTGAGGCAGCGGGTTCTGCC 88GAAGCTCCGTTGCAGTACAGCCTTCTTCTTCAGTACCTGGAGGGCGACAAGCGTCAGCCCCGGCTTCTGGAGCCTGGCAGCCTGGGCGGGATCCCGAGTCCTGCCAAGAGCGAGGAGCAGAAGATGATCGAGAGGGCAATGGAAAGNTGCGCCTTCAAGGCTGAGCTGGCCTGNGTAGGAGGGTTNGNCTNGGGAGGCGCGNTNGNTATCTTTACTGCTGGCATTGATACCAACGTAGGCTTTGACCCAAAGGACCCTTACCGGACACCAACTGCAAAAGAAGTCCTGAAAGACATGGGACAGAGAGGAATGTCCTATGCCAAAAACTTTGCCATTGAGGGCCGCCATGTTTTCATGTACTGAGNGNCTGGTAGAGTCTTACCGGGGAAAGTCGGACTGGAAGAACAGCGTCATCAGNGGCTGCATCACTGNCGGAGCCATCGGCTTCCGAGCTGNAGTAAAGGCCGGGGCCATAGGTTGNGGAGGGNATGCTGCTTTCNCTGCTGCNATCGNTTNTTACCTACGNNGAAGGAAANAGCCTNCTAAGGAAAGAGGACNCCAGCCNCTTNAGAGCTGCTCTGBGHTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCCTCGATGGCATAAGTTTACTTTGCCCTGCCCTGGGACTCATsequenceGATGGATACTTGCACACAGAAGGAAGAAGAGCTTCCCGGNTATGGGCAAACACTGCCACTTCCCTATTCAAAGCTGGGGAGCTGAGCCAGGTCAGAACTGAGCCTGGTTCAAAGCTTAANGCGTAACAGTCCACACACTGCCTCCTGATCTGTTTACTGCAAGGAGACAATNTGCCATACCACCTNCCCTGAAAAACCTGGTTGGAATTCAAGTGGAAAAGTATGGTTGTTCCAANGGCTGCAGAGAGCGATCGAGCAGCGAGGNGNGTCCTTNACACCATNAACTGTAGAGGGATGCACTTGGCTTCACCCCTGAAGCAGTCCAAGTGTGTAGAAACTGNTCCACAGAGCAGCTNTGAAGGNGGCTGGCGTCCTCTNTCCTTCCCGGCTGNTTCCTTCACCGTAGGTAATAATCGATTGCAGCAGAGAAAGCAGNAAACCNTNCACAACCTATGGCCCCGGCCTTTACTCCAGCTNGGAAGCCGATGGCTCCGCCAGTGATGNAGCCACTGATGACGCTGNTCTTCCAGNCCCGACTTTCCCCGGTAAGACTNTACCAGACNCTTAGTACATGAAAACATGGCGCCCACAATGGCAAAGTTTTTGGCATAGGACATTCCTCTCTGNCCCATGNCTTTCNGGACTTCTTTTGCAGATGNTGCCCGGAAAGGGCNCTTTotalseecDNA,LOCUS AF223950 1062 bp mRNA ROD Jan. 27, 2000EST clusterDEFINITION Mus musculus TIM22 preprotein translocase (Tim22) mRNA, complete cds; nuclear gene for mitochondrial product.ACCESSION AF223950MotifsClone #T7 sequenceAAGGCCGGGAGGATGCGGCCGGAGCCCGGAGGNTGCTGCTGCCGCCGCCCGATGCGGNCGAACGGCTGCGTNAAG 89AACGGNGAAGNGAGGAACGGNTACTTGAGGAGCAGCACCGCCACCGNCGCGGCTGCCGGCCAGATTCATCATGTAACANAAAATGGAGGACTGTACAAAAGACCGTTTAATGAAGCTTTTGAAGAAACACCCATGCTGNCNGCTGNGCTCACATATGNNGGCTATGGCGTACTCACCCTCTTTGGATATCTTCGAGATTTCTTGAGGCATTGNAGAATTGAAAAGNGCCACCATGCAACAGAAAGANAANAACAAAAGGACTTTGCGNCCTTGTATCANGNTTTTGAAANCTTCTATNCAAGGAACCTCTACATGAGAATCANAGACAACTGGANTCGACCTATCTGTANTGNGCCTGNAGCCAAGGTGGATATCATGGNGAGAAAATCTNATGACTATAACTGGTCATTCAAGTACANANNNAATATNNTTANAGGTGTCATAAACATGGNTTGCTACACCTATCTTGTNTTTGCGAGGNACACTNNATCATNTCANGNNGCCCCTNCTGAANTCCTCACNGAGTATTNCAGCAGCCCTGNGCAANCNCTCGCANNNNANTNCTAACCTNTACANGCATNCCTNAACTBGHTTTTTTTTTTTTTTTTTTTTTTAGCAGTTTGGNTTTTTTACTATTTACAAAATGCCATTTGGAGTGAAGGTGGCCACsequenceCTTCAGTAGCTTCAGAAATGTCTTTCACATGAAGNGGTCACTGAAGNGNGGTTCCTGGAATTGGCTCAGAAAGGCCACACACTGTCCTGGGAGGAATTATCCCCCTCTAGGGAGCACCAGAAAGGCTCAGTCTTCTGTCTCTTCATAGGTAGTCTCATCAAAGGGCCTGTCCAGTAGAGGCACCAGCCGGNGGCGAGAGTACTTTAGCTGCAGCAGATCCCCAACTTCATCTATCTCCTTCAAAGCAGNGTCAAGTATTTCTTTGGTATGAGCTGCTGACAGGCAAAATCTGGCTCTGGACTCAATGATCGGGGTAGCAGGAAATCCCACCACAACTACACCAATGTTCCGCTTCAGCATCTCTCTTCCAAAGGCGCCAATTTTGGCCGGCATGTAGAGCATCAAAGGCACCACCGGGGAGTCTTCATTGCCATAGATGATGAACCCCATTTCCTTCAGGCGTCTCCTGAAATACCTGGNGTTCTCAGCCAACTGCTGTATACATTCTTTGCCAAGACTGGAGCCATCCTGCCCCATGATGNACTTCATNGAGGTGATAATCTGTTCCATCACAGGCGGTGACATCGGACCGTGGCATACACAGCACTGTGNGAATGTNTGCGCAGGTAGNCTATCNGGTGCTTCTTCCTCCCNATGNATCCCTCTTGAANGCACCNNAGCTNTTTTNTGAATGTTCCCATTotalLOCUSNM_011479 1986 bp mRNA ROD Jan. 25, 2000cDNA,DEFINITION Mus musculus serine palmitoyltransferase, long chain base subunit 2EST cluster(Sptlc2), mRNA.ACCESSION NM 011479MotifsClone #T7 sequenceAGCGGATCTTCGGGCCGGGAGGACATTCGGCCTCTGTGAGCCGCAACCTTGCCCAGCGAGCGGTTGGGNGTTCGC 90CATCTTAGGAGGATGTTGTCGTCCGTAGCGCACCTGGCGCGGGCGAACCCCTTCAACGCGCCACACCTGCAGCTGGTGCACGATGGCCTGTCGGGTCCCCGCAGTCCCCCAGCTCCGCCCCGGCG1TCCCGCCACCTGGCCGCCGCCGCCGNGGAAGAGTACAGTTGNGAATTTGGCTCCATGAAGTATTATGCACTGAGNGGCTTTGGNGGGGTCTTAAGTTGAGGGCTGACACACACTGCTGNNGTTCCCCTGGACTTAGTAAAGNGCCGCATGCAGGNGGACCCTCAGAAGTACAAAGGCATATTTAATGGATTCTCCATTACACTGAAAGAAGATGGCGTTCGNGGTTNGGCTAAAGGATGGGCCCCAACTTTGATNGGCTATTCCATGCAAGGGCTCTGCAAATTCGGCTTTTATGAAGTCTTCAAAGCCTTATATAGCAACATACTTGGTGAGGAAAACACCTACCTGTGGCGCACATCACTGTATTTAGCTTCTTCTGCCAGAGCTGAATTCTTCGCTGACATTGCCCTGGCTCCTATGGAAGCTGCTAAAGTTCGAATTNAAACCCAGCCTGGGTATGCCAACACCTTGAGGNAAGCTGTTCNCAAAATGTATAAAGAGGAANGCTTAAATGCGTCTACAAGGGCGATGCTCCTCTGTGGATGAGACAGATCCCCTACACCATGATGAAGTTCGCTBGHTTTTTTTTTTTTTTTCAGGAATAGATGGGTTTATTTAGCATTAAGTTTGAAACTCTTGCTTTAAGCAAGGGTACTACsequenceAGTAATTATATCAGGAACAGACATTTCCTACACTGTCAAATATATAAAAGTTCCTTTGCACTTTCAACACTGATCAACAAGCAGATTCAGTCCATGTTACTTTGATGTATCTACTCAGTTAACCCAAGCTTCTTCTTCAGAGACTCTGGCATCTCAGGGGGAGGAGGGCGAGGGAGCCTGAAGTAGACCTTCACAGAGTCGTAGATGAACCACTGTAGNGCAGTCAGAGTGCCAATCATGATGATTCGGGCGAAGAGcCCCTTCCACACACCTCTGAAGCCCAGCCTCTGCAGGACCTGAGACGCGGAGCTGCCTTTCTCTTTATTCAGCACAGAGACCACAGAGTCAGCAGGGNGGGAGACGATGGCACAGAAGACTCCAGCTATGTAACCTGCCACAAATGTCACAACCAGCTGCTCTGCCTTTGTACATTCACTTCGGGGCTTGGGAACCACAAATTTGTACAAAGCTTCAACAGTACGTTCAAAGCAGGCGAACTTCATCATGGNGTACGGGATCTGTCTCATCCACAGAGGAGCAACGCCCTTGTAGAACGCATTTAAGCCTTCCTCTTTATCATTTTGGGAACAGCTTCCCTCAAGGTGTTGGCATAACCAGGCTGGGTTTTGAATTCNNAACTTTAGCAGCTTNCATAGGAGCCAGGGCAATGTCAGCGNTotalRat sequence:cDNA,EST clusterLOCUS RATMPT 1263 bp mRNA ROD Apr. 27, 1993DEFINITION Rat mitochondrial proton/phosphate symporter mRNA, complete cds.ACCESSION M23984Human sequence:LOCUS SSMPCP 1330 bp mRNA PRI Jun. 1, 1992DEFINITION H. sapiens mRNA for mitochondrial phosphate carrier protein.ACCESSION X60036MotifsClone #T7 sequenceAGGCACTGCTGGCGACATGGCCGACACGGACCCGGGCTATCCCCGCTCGTCCATCGAGGATGACTTCAACTACGGC 91AGCTGCGNGGCGTCGGCCAGCGNGCACATCCGCATGGCCTTTCTCAGAAAAGTCTACAGTATCCTCTCTCTGCAAGTCCTCCTGACTACAGNGACCTCTGCCCTGTTCCTGTATTTCCAAGCTCTGCGGACATTTGTCCATGAAAGCCCTGCCTTAATTGAGGAGNTAGCTCTGGGATCTCTGGGCTNGATCTTTGCACTGACTCTGCACAGACACACGCATCCTCTGAACCTCTATCTACTCTTTGCATTTACACTGTCAGAATCCCTGGCCGAGGCAGCTGNNGATACCTTCTATGATGTATATCTGGTTCTGCAAGCGTTTATAATGACTACTGCAGTCTTTCTTGGCTTGACTGCCTATACTCTACAATCAAAGAGAGATTTCACCAAATTCGGAGCAGGGTNGATAGCTGGNNATGAGGATNNTGAGCTTGGCAGGATTCTTGAAGCTGANTTTTTACAGAGAGACGATGGAGCTGGNCTTGGCCTCTCTAGGCGCCCTCCTCTTCTGTGGGNTCATCATCTATGATACACACTCGCTGATGCACAGACTCTCTCCCGAAGAGTACGTGAACGCTGNCATCAGTCTCTACATGGATATCATCAACCTCTTNCTGCACCTGGTGAAGTTTCTGGAAGCAGNTAAATAAAAAGTAACCGAGCAGTNGTTCANAGACAGGTCTATTATGAAAGGANGCTTTGGAATTNAACTTTAAATGGTTAATAATTAAANGCCAAATGTGAACTTBGHTTTTTTTTTTTTTTTTTTTTAAAGATCACATATGCTTTTAATATTAACATTTAAGTTTAATTCAAGCGTCTTTCATAATsequenceAGAACTGTCTCTGAACACTGCTCGGNTACTTTTTATTAACTGCTTCCAGAAACTTCAACAGGTGCAGGAAGAGGTTGATGATATCCATGTAGAGACTGATGGCAGCGATCACGTACTCTTCGGGAGAGAGTCTGTGCATCAGCGAGTGTGTATCATAGATGATGAACCCACAGAAGAGGAGGGCGCCTAGAGAGGCCAAGACCAGCTCCATCGTCTCACTGTAAAAAAACAGCTTNAAGAATCCTGCCAAGCACAAAATCCACAAACCAGNAAACAACCCTGCTCCGAATTTGGTGAAATCTCTCTTTGATTGTAGAGTATAGGCAGTCAAGCCAAGAAAGACTGCAGTAGTCATTATAAACGCTTGCAGAACCAGATATACNTCATAGAAGGTAACAACAGCTGCCACGGCCAGGGATTCTGACAGTGTAAATGCAAAGAGTAGATAGAGGTTCAGAGGATGCGTGTGTCTGTGCAGAGTCAGNGCAAAGATCAAGCCCAGAGATCCCAGAGCAAACACCACANTTAAGGCAGGGCTTTCATGGACANATGTCCGCAGAGCTTGGAAATACAGGAACAGGNCAGAGGTCACTGTAGTCAGGAGGACTTGCAGAGAGAGGATACTGTAGACTTTTCTGAGAAAGGCCATGCGGATGTGCACGCTGGCCGACGCCACGCAGCTGCCGTAGTTGAAGATotalHuman sequences:cDNA,EST clusterLOCUS AF113127 1325 bp mRNA PRI Dec. 4, 1999DEFINITION Homo sapiens S1R protein (S1R) mRNA, complete cds.ACCESSION AF113127(human Cowpox virus homolog)LOCUS AF151877 1325 bp mRNA PRI May 18, 2000DEFINITION Homo sapiens CGI-119 protein mRNA, complete cds>ACCESSION AF151877MotifsClone #T7 sequenceAGAAGAAAAGGCCGAAAAGGCCAAAATTAATAAGGCCATTCAGAAGGGCAACATGGAAGTTGCGAGGATTCACGCC 92GAAAATGCCATCCGCCAGAAGAATCAAGGGGTGAACTTCTTGAGAATGAGTGCACGAGTGGATGCGGTGGCGGCCCGTGTCCAGACTGCAGTGACGATGGGCAAAGTGACCAAGTCCATGGCGGGTGTGGTTAAGTCGATGGACGGGACGTTGAAAAGTATGAATCTGGAGAAGATCTCCGCTTTGATGGACAAATTCGAACACCAGTTCGAGACTCTGGACGTCCAGACGCAGCAAATGGAAGAGACAATGAGCAGCACGACGACGCTGACCACTCCCCAGAACCAGGTGGATATGCTGCTCCAGGAAATGGCAGATGAGGCGGGCCTCGATCTCAACATGGAGCTGCCTCAGGGCCAGACCGGTTCCGTGGGAACGAGCGTGGCTTCGGCTGAGCAAGATGAACTGTCCCAGAGACTGGCCCGCCTTCGGGATCAAGTCTGACGGNCGAACCAGTCCGAGATTTCCCTTTGACGTGCTCTCTGGGTTTTAGAGAGATGTCCNAGAATTGTGCCAGAATGCCGAACGGTCTTCTAAGAACCTACAGCCCTNACCAGATANGCTGAGAAATTCCAGTTTTCTCCACTTCTAACTGGATTTTAAAGCTCTTTCTAGCTTATGATGATGTGTATTTTTTATAGCTGCCTTTTAACAGAACTGGTTCATTNCTCTACATAAATCTAGGAAAAAATCGACNGACTNTAGCCCTCATGNNTTCCGTTTTTACBGHn.d.sequenceTotalUniGene: Mm.86545cDNA,EST clusterEST-Assembly (Contig):AAGAGTATTTCCCACCGAAGAAGTTGAACCAAGTGTTTACATACTTGTTAGTACCCATTCCTTCTCCTTTCATTTTAATGCACCGCTTGCCAGTCTCTGTACCATCAACCACACTAAAAATAACTTCAGTCTGATAATTCTAAGTAAAAACGGAATACATGAGGGCTAGAGTTCTGTCGATTTTTTCCTAGATTTATGTAGAGCAAATGAACCAGTTCTGTTAAAAGGCAGCTATAAAAATACACATCATCATAAGCTAGAAAGAGCTTTAAAATCCAGTTAGAAGTGGAGAAAAACTGGAATTTCTCAGCGTTATCTGGTGAGGGCTGTAGGTTCTTAGAAGACCGTTCGGCATTCTGGCACAATTCTGGGACATCTCTCTAAAACACAGAGAGCACGTCAAAGGGAAATCTCGGACTGGTTCGGCCGTCAGACTTGATCCCGAAGGCGGGCCAGTCTCTGGGACAGTTCATCTTGCTCAGCCGAAGCCACGCTCGTTCCCACGGAACCGGTCTGGCCCTGAGGCAGCTCCATGTTGAGATCGAGGCCCGCCTCATCTGCCATTTCCTGGAGCAGCATATCCACCTGGTTCTGGGGAGTGGTCAGCGTCGTCGTGCTGCTCATTGTGTCTTCCATTTGCTGCGTCTGGACGTCCAGAGTCTCGAACTGGTGTTCGAATTTGTCCATCAAAGCGGAGATCTTCTCCAGATTCATACTTTTCAACGTCGCGTCCATCGACTTACACCACACCCGCCATGGACTTGGTCACTTTGCCCATCGTCACTGCAGTCTGGACACGGGCCGCCACCGCATCCMotifsClone #T7 sequenceAGCGGACGCGCCCAGNAGCCGNGCTGCAGAGAGNTNCATCGNGCGACCGCTGCCGCAGGCGCTTGCTCCGAGTAGC 93CCTGCGGCTCCGCTTCTGCCATGANGATCCACGGCTTTCAGAGCAGCCACCAGGACTTCTCCTTCGGGCCTTGGAAGCTGACGGCGTCCAAGACCNACATCATGAAGTCTGCGNATGTGGAAAAGTTAGCTGACGAGCTGNACATGCCATCCCTCCCTGAAATGATGTTNGGAGACAACGTTCTAAGGATCCAGCATGGCTCTGGCTTTGNAATAGAGTTCAATGCTACGGACGCACTGAGATGNGTGAACAACTATCAGNGCANGCTCAAAGTAGCTTGNGCTGAAGAGAGGCAGNAAAGTAGGANGGAGGGCGAACACTBGHTTTTTTTTTTTTTTTAAAATGGCATATGTCATATTTAGAAATGGCCAAGGACACACCTGNNTACTCNTCACAGGGATAsequenceCACTAATACAATCTTGAGATGCACACTCCTCCTCCCCACCGNCCACCTCTTTAATTTTTTTTAAAAAGNCNNTTATTTTATTTTAATTCTCCACAATTTTTAACAATGAATTATCAANATAAGNAATCTAACANTACTCAGAGACAAAGACATTTAAATGAAAAGATTTAAAAANTACTTGTGTGTACANACACACACACTNTGTTGCCCAGAAACTCCAACTAATGACTAATACAAGATTAATTTTGTAGGTNACATGTNACANCTCTCCGTAAGTGCGAACAAACACCANAAAGCCCACAGCCAAGAGCCAGAGTAGCACATNAGCATGCAGTCAGCATCCTATGGCGNCCAGCAGGTCCCAGGCATCGGNGCTCAGTGACAGCCTTACAGTCAGCCTCCTCACAGTGAAGACGATGCTTNAGGCCGGNTGCAGACCATGTCCCCTCATGAGACCCANACACATCACTGCTGACGTAAGCTCCAGAGCACATCTCTCTCTGNAGCAGGAACTTGAAAACAGACAGGATAAANAGGAGTTGTGTGGAACCTGCCTGCAGCAATCTTTTATTNTCCNTTANGGCTAGAGNAANATCTGCGCATANGCNTotalfrom human genomic DNA (PAC 69E11 on chromosome 1q23-24):cDNA,EST clustergene complement(16215 . . . 37678)/gene = “dJ69E11.3 ”CDS complement(join(16565 . . . 16708,17630 . . . 17692,19969 . . . 20064,25111 . . . 25242,31733 . . . 31832,32530 . . . 32709,37430 . . . 37533))/gene = “dJ69E11.3”/note = “match: proteins 012199 P34274”/codon_start = 1/evidence = experimental/product = “dJ69E11.3 (Yeast YPR037W and worm C02C2.6 predicted proteins LIKE)”/protein_id = “CAA16171.1”/db_xref = “GI:4165247”/db_xref = “SPTREMBL:O75663”/translation = “MMIHGFQSSHRDFCFGPWKLTASKTHIMKSADVEKLADELHMPSLPEMMFGDNVLRIQHGSGFGIEFNATDALRCVNNYQGMLKVACAEEWQESRTEGEHSKEVIKPYDWTYTTDYKGTLLGESLKLKWPTTDHIDTEKLKAREQIKFFEEVLLFEDELHDHGVSSLSVKIRVMPSSFFLLLRFFLRIDGVLIRMNDTRLYHEADKTYMLREYTSRESKISSLMHVPPSLFTEPNEISQYLPIKEAVCEKLIFPERIDPNPADSQKSTQVE”MotifsClone #T7 sequenceGGGCCGCAGCAGGCGCGAGCGCCCAGGACCTGCCAGCTGAGCCTTCCGCCGTCGCCATGGGACAGAACGANCTGAN 94GGGCACGGCCGAGGACTTCGCCGACNANTTCCTTCGAGTCACNAAGCAGTACCTGCCTCATGTGGCGCGCCTCTGCCTGATCAGCACCTTNCTGGAGGATGGCATCCGCATGTGGNTCCAGAGGAGNGAGCAGTGTGACTATATCGACACCACCTGGNGCTGTGNCTACCTGNTGGCCTCATCCTTCGCGTACCTCAACCTGCTGCNACAATBGHTTTTTTTTTTNTTTTTCCAAAGATTTTATCTCCAATTTTCAGGTGTCTGCAAATAAAGTTCTCAAAACATCTGNGCCTsequenceTTACCAAGGNAGGGGAAGGGAGAAGGACACACAAACGCCGGCAGNTTGNTGACTTTGCCCTGAACCAGGCCAGGGCCCTGCGCCTCANCCAGGGAGGNNAGGNATCAGNGNGTTACCACTCTTTTTTCTTCTCATNCATGGACACACCCNCTGNTCCAAGAGCCACCATCAGGAGCAGGCCTCCAATCACTGACATGGTCTGNAAGAAGTCGTATTTCAGGAAGTNNTGCNTGNATTTATACACCGGGATNGACTCANANGGCGTNGAANNACACNCTGNTGNCAANNCAGCCNGNNTACTGNGAGNCNCNAGNTGCCNGCNTNNCTCTACAANTNNANGGNNACTATCNNCNNCNCNNNNTNCCCCCCTNNCTNNNTCTNNNCNCCNNNCTNTTCNTTCTANCNCACCATNNNNCCNTotalLOCUS NM_011512 2781 bp mRNA ROD Jan. 25, 2000cDNA,DEFINITION Mus musculus surfeit gene 4 (Surf4), mRNA.EST clusterACCESSION NM 011512MotifsClone #T7 sequenceAGCTTCTTCAGNCGGNACGGGGTCAGCGAGCGGNTGCTTCGTGGAGCAGAGAGGTGCATNACNAGGTTCCCGATG 95AACCCAGAGAACNCTCCACCGTATCCGGGCCCCGGGCCAACAGCCCCATACCCACC1TATCCANAACAGCCAAAGGGGCCAATGGGGCCTATGGGAGCCCCACCTCCTCAGGGGTACCCCTACCCACCANCTCAGGGGTACCCCTATCAAGGATACCCANAGTACGGCTGGCAGGGNGGACCTCAGGAGCCTCCTAAGACCACAGNGTATGTGGNGGAAGACCAAAGAAGAGACGACCTGGGCCCATCCACCTGCCTCACAGCCTGCTGNACTGCTCTGTGNNGCTGCTGCCTCTGGGACATGCTCACCTGATCANCTGATGAGCCCAGCTCTTCCGCTTGGCCGCTCTGTGCCACCTCCGATAAGNGTGCCNGGCCCCATCTCTTCTGATNGCTATAAAGNGGCTAGCTCTGCGNAGACACCTCTACTTTCTGTCCTABGHTTTTTTTTTTTTTTTTTTGATTTTGGACAGATTTATTGAAACATAAAGGGTATGAGCAGAGAGATCTAGNAGNGTGTsequenceCACATATTGCCATTACCTTGAGTGTATAATTTAAACATTATAAATATATATTTCATAACTAAGCCTTTGGCCAAAAAAGTAAATTATTTAGCACATTTTTTAAAGATCAGTAAGAAATGAGTTTTGAACATTAAAAAGATCAAGTCACTGAACTAAATAGCAGTAACCCTCACTAATCTAAAACTCCATAGGACAGAAAGTAGAGGTGTCTGCGCAGAGCTAGCCACTTTATAGCAATCAGAAGAGATGGGGCCAGGCACACTTATCGGAGGTGGCACAGAGCGGCCAAGCGGAAGAGCTGGGCTCATCAGGNGATCAGGTGAGCATGTCCCAGAGGCAGNAGCAACACAGAGCAGTCCAGCAGGCTGTGAGGCAGGTGNATGGGCCCAGGNCGCCTCTTCTTTGNTCTTCCACCACATACACTGCGGTCTTAGGAGGCTCCTGAGGNCCACCCTGCCAGCCGNACTGAGGNTATCCTTGANAGGGGTNCCCCCTGAGGTGGTGGAATotalMouse UniGene: Mm.27841cDNA,Human UniGene: Hs.100132 (human homolog)EST clusterEST cluster: Mm27841TTTTATACTAAAAAATGTGAGTCCCAAATTCCGCATTTGTACAACAACGAGGGGGAGCGCTCAGACCCCTACCCTAAACGGGACCGCACCCCCACCGAACGAGAAGAGGAGCTTGCGCTCCATCCCTGAGGGTCAACTTATGGCCAGTTCACCGTAACCGCTGCAGATACCTCCAGAGTAGTCGGATTTTGGACAGATTTATTGAAACATAAAGGGTATGAGCAGAGAGATCTAGTAGTGTGTCACATATTGCCATTACCTTGAGTGTATAATTTAAACATTATAAATATATATTTCATAACTAAGCCTTTGGCCAAAAAAGTAAATTATTTAGCACATTTTTTAAAGATCAGTAAGAAATGAGTTTTGAACATTAAAAAGATCAAGTCACTGAACTAAATAGCAGTAACCCTCACTAATCTAAAACTCCATAGGACAGAAAGTAGAGGTGTCTGCGCAGAGCTAGCCACTTTATAGCAATCAGAAGAGATGGGGCCAGGCACACTTATCGGAGGTGGCACAGAGCGGCCAAGCGGAAGAGCTGGGCTCATCAGGTGATCAGGTGAGCATGTCCCAGAGGCAGCAGCAACACAGAGCAGTCCAGCAGGCTGTGAGGCAGGTGGATGGGCCCAGGTCGTCTCTTCTTTGGTCTTCCACCACATACACTGTGGTCTTAGGAGGCTCCTGAGGTCCACCCTGCCAGCCGTACTGTGGGTATCCTTGATAGGGGTACCCCTGAGGTGGTGGGTAGGGGTACCCCTGAGGAGGTGGGGCTCCCATAGGCCCCATTGGCCCCATTGGCTGTTGTGGATAAGGTGGGTATGGGGCTGTTGGCCCGGGGCCCGGATACGGTGGAGGGTTCTCTGGGTTCATCGGGAACCTGGTGATGCACCTCTCTGCTCCACGAAGCAGCCGCTCGCTGACCCCGTCCCGACTGAAGAAGACTGGACCGGACTACGCCAACAGCGCCGCACCTGTCGCGAGCCACTAGAGCCGCAGCGGCGCGCCTGACGTCACCCGAGCCTCCTGCGCTGGAAGCCCGGAGTCACGCGATCTCCCTGGCAACGCGCGAGGGGGCGGCACCAAGCGAGGGCGGTGTCATAGCGCGAGCCCGCCCCCAAAACTCTGCATCACGTTGGGGACTTAAGCCTGTCCCTTAGCTCCTTGTGGTCCCCGATCTGTATCTATAGTTTCACTCCGGGTCCTTGCGAGCACCCGGCCCCACGTCGCTAGGACCGGAGATTGGGAAAAAGGGTAGGGGGGCTGAGGACCAGCTTGGTACACATCATGTAGGGCTGCTGCTGCTGCTGCTGCCTGACCTCTTCTCCGCTGCTAGGTTCGGGCCGAGGCCTGTTCCGAProbable ORF:SEQUENCE 104 AA; 11402 MW; A53B91320E342D54 CRC64.MNPENPPPYP GPGPTAPYPP YPQQPMGPMG PMGAPPPQGY PYPPPQGYPY QGYPQYGWQGGPQEPPKTTV YWEDQRRDD LGPSTCLTAC WTALCCCCLW DMLTEST cluster: Hs.100132 (human homolog)GTCAGGCGCCCGGTTGCATTCCGAACAGGCAATCTGAGACAGGTGCGGCAAGTCTACTGCGGGCTGGTCCGGGCTCGTCAGGTTCAGACCCGACCGTTATCCAGTCGGTTCGTGGAGAGGAGAGGTGCACTTTACAGGTCCCCGATGAACCAAGAGAACCCTCCACCATATCCAGGCCCTGGTCCAACGGCCCCATACCCACCTTATCCACCACAACCAATGGGTCCAGGACCTATGGGGGGACCCTACCCACCTCCTCAAGGGTACCCCTACCAAGGATACCCACAGTACGGCTGGCAGGGTGGACCTCAGGAGCCTCCTAAAACCACAGTGTATGTGGTAGAAGACCAAAGAAGAGATGAGCTAGGACCATCCACCTGCCTCACAGCCTGCTGGACGGCTGTCTGTTGCTGCTGTCTCTGGGACATGCTCACCTGACCAGACCAGCCCAGCCGTCCTGTCCTGCCAGCTCTGCTGCCACCTCTGACAGGTGTGCCTGCCCCCATCTCTTCTGATTGCTGTTAACAAATGACTAGCTTTGCACAGACACCTCTACCTTCAGCACTATGGGATTCTAGATTAATGGGGGTTGCTACTGTTTAATTCAGTGACTTGATCTTTTTAATGTCCAAAATCCATTTCTTATTGATCTTTAAAGATGTGCTAAATGACTTTTTTGGCCAAAGGCTTAGTTGTGAAAAATATAATTTTTAAATTATACATTCAAGGTAGTGGCCAAATGTAACACATCAATCATGGAATGATTTCTCTGCTAACAGCCGCCTGTATGTTTCAATAAATTTGTCCAAAGCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAProbable ORF:SEQUENCE 97 AA; 10631 MW, 93A64A2482B41F58 CRC64.MNQENPPPYP GPGPTAPYPP YPPQPMGPGP MGGPYPPPQG YPYQGYPQYG WQGGPQEPPKTTVYVVEDQR RDELGPSTCL TACWTALCCC CLWDMLTMotifsproline-richClone #T7 sequenceGNGTGGCCCTGCCTCGCTGGGGCCTGACCTGGTNTCCCAACCTGGAGNCCAGAAGGNGGCTTTCTGCGGAGCCGN 96GGAGGAAGGACGTGNTCTGCGACGGANTCTAGCAGGCAGGGGANTTGAGCTGGGCCTGGCCCTGGGCACAGAGTCACNGNAGCTATNGANGGACTCCGCAGATGNGGACTCAGCTGAGGAGGGNGNNGTGGANGCCGNCANCTNAGACNCNANCCTCNBGHTTTTTTTTTTTTTAAAGTCACTCAGTTTATTANAAGCCATGGGAAATGTGAGAGAAACGTTCCAAGCACTTGNTGCTsequenceCCTGAGCATCAAAGATGGAGTGGGNGGCTTCGGCATCAGTCCCCCATTGGCAGCCACAGGGCCTTTGNTCGNGCTGCGTGAAGACTCANNTCCTGTCCTGCCCCCTGGACCTCCACATCCCAGGCCCTTGGGAAGCCCCTGTTTACCNACACAGACTTGAGGTTTCCTGCAGAGGCCCATTCCACAAACTGGGAGCCCTGGGCCGAGCCGAAGTACCACAGGGCTTGGACATCCTGATGTAAGGCCAGACAGCGGNTCAGGNGGNCGCGATCCCCTGTCACTACACTCACCAGGCCAGCAGGAAACAGAGGAGCTATATCCTGGCAGACCTCCAAGGCCAGCAGAGGACATGCCCCACTGGGTACTAAGACCACGGCATTGCCATGGNCCAGTGCAGGGGCCAGTAGTGACACAAAAGCCAGCAGGGGCCACTCATCCGGGCACACNANGGNCAGCACTCCCAATGGTTCTCGAAGCCGNAGCACAGGGCCTGTNAATCCTGTTACCTGAAGTGTCTGGCCTTGGTCCTGAACCCGNTGCCCCATGTNTGNAGTCGCCTTANACTCAGTTTACTTCAATCTTGGCNACTTTAGGCGCTGTCCCGTGCCTTCTAGTTGTGAGGNNAGCACTGGCTTCCTGCNTTCAGAGCAGCCNNNGNGCCCAAGNNNNCTTotalUniGene: Hs.133494cDNA,Mm.31778EST clusterRn.11778MotifsClone #T7 sequenceAGATGGAGCAGNGTTTCCAACANGGACGACATNAAGACCTCACTCAAGAAAGTTGTGAAGGAGACATCGTATGAGA 97TGATGATGCAGTGTGTATCGCGAATGCTGGCCCATCCCTTACACGTGATCTCGATGCGATGCATGGNGCAGNTTGNGGNACGGGAGGCCAAGTACAGAGGNGTGCTGAGTTCTATNGGGAAGATCTTCAAGGAAGAGGGGCTGCTGGGATTCTTCGNTGGCTTAATCCCTCACCTCCTGGGCGANGAGGNTTTCTTGNGGNGCTGTAACCTGCTGGCCCACTTCATNAATGCCTACTTGGTGGACGACAGCGTGAGTGACACCCCAGGGGGNCTGGNAAACGACCAGAATCNAGGTTCCCAGTTTAGCCAGGCCCTGGCCATCCGGAGCTACACCAAGTTTGCGATGGNGATNGCAGCGAGCATGCTGACCTACCCCCTTTCTGCTCGCTGNNGATCTCATGGCAGTBGHTTTTTTTTTTTTTTACCACCAATACATTTATTCNNGGAGATGGGTCTATCTTACCACGAGGGGAGGACTAGATGTCGsequenceNTCTATGNAACCTGTGCGTATTCGCACCCAGCACAGTGACTGAACCCTCACACCTGGCGTCACCAGCACAGACAAGCAGATNAGGNNATGGTCTGAGGAGAACATGATTTCCTATTCAGGAGAAGGCACCACCCTTGTATAAGAAAATTAGTGTTGNGAACATAGCGCCAGNCTCCCATGGCCCAGGTGTGATGGCGCCCAATTTACAAAGCAGGAAGTGGGNNGCGGCGGTGCTTCTGGCTGACTGGCAGGATGAGCTGNGCTAGAGGNGCAGGGAAGCCTTGCCACTGAGTGACGTTTGCCTCTGCAGCCTGCCTCTGCCTGAGTACAAGATGGACTCCAGTACCTCTAGGCAGNAAGGGNATGCCACCCCACCACTGNTCCCCCAGGACTTCCCCAGGTCCCAGGTGACCTACNTCCACNAGCCCANATNTGNACAGACNCATNNCCAAATATGGACATGAAGCCAGCNTGGNCTTGNAGTCACCCTTGCNCATCTGANATGATGGGCCCTTCCCNGNGTTAGNGCTANTotalATTENTION: Clone incomplete, first 647bp 5′ are missing (about 180aa)cDNA,EST clusterLOCUSAF192558 1928 bp mRNAROD Nov. 26, 1999DEFINITION Mus musculus domesticus mitochondrial carrier homolog 1 isoform b (Mich1) mRNA, complete cds; nuclear gene for mitochondrial product.ACCESSION AF192558Human sequence:LOCUS AF192559 1941 bp mRNA PRI Feb. 17, 2000DEFINITION Homo sapiens mitochondrial carrier homolog 1 isoform b (MTCH1) mRNA, partial cds; nuclear gene for mitochondrial product.ACCESSION AF192559MotifsClone #T7 sequenceAGGGCGGAGGAAGCGGACTGTTCCGGAGCTCTGCCTAGCCGGGCCCAACCTT2GCTCCAGAGATCATGGCTGCCGA 98GGATGTGGTGGCGACTGGCGCCGACCCTGAGCGAGCTAGAGGGCGGCGGGCTGCTGCACGAGATTTTCACGTCCTCCTCTCAACCCTGCTCCTCCTGGGCCTCTGCNTCTTCCTGCTCTACAAGATCGTTCCGCGGGGACCAGCCCGGTGCTAGTGGCGACAACGACGATGANGAACCACCCCGCTGCCCCGCCTCAAGNGGCGCGACTTCACCCCTGCCGAGCTGAGGCGTTTNGATGGNGTCAGGACCCGCGCNTTCTCATGGCCATCAACGGTAAGGTGTTCGACGTGACCAAAGGCCGCANGTTCTACGGGCCTGAGGGGCCNTATGGGGTCTTTGCCGGAAGAGATGCATCAGGGGCCTTGCNCATTTTGCCTGGANANAGAAGCACTGAAGGATGANTNTGACGACCTTTCTGNCCTCACCCTGCACAGCAGGAGANCCTGANTGACTGGNACTCTCANTTCACTTTCNAGTNTCNTCACNTGGGAAAACTGCTGAAGGAAGGGGAGGAGCCTACTGTGTACTCAGATGATGAAGANCANAAGATGAGACAGCTTGGANGANTGANTGNNNCATTCGGTGGAGCNTATCTATNTTTGTATTTTGCANCNNTCNTTTTGTANCNTTCNNGTCTGCNTTNCNACATGGNGATTTNNNTATTANACAGTTTTGCNCTTGCTGABGHn.d.sequenceTotalLOCUS NM_016783 1786 bp mRNAROD Jun. 15, 2000cDNA,DEFINITION Mus musculus progesterone receptor membrane componentEST cluster(Pgrmc-pending), mRNA.ACCESSION NM_016783MotifsClone #T7 sequenceAGCTCGAAAGCGACATGGCGGTTCTCTTAAAGCTGGGCGTTCTCTGCAGTGGCCAAGGAGCTCGAGCTCTCCTACT 99CCGAAGCCGGGTGGTCAGACCCGCTTATGTGTCAGCATTTCTCCAGGACCAGCCTACCCAAGGACGGTGTGGTACCCAGCACATTCACCTGTCACCAAGCCACCACTCTGGTTCCAAGGCTGCATCTCTCCACTGGACCAGTGAGAGGGTTGTCAGNGTTCTGCTCTTGGGGCTGATCCCTGCTGGGTACTTGAATCCCTGCTCTGNGGNGGACTACTCTCTGGCTGCAGCCCTCACCCTGCACAGTCACTGGGGCCTTGGACAAGTGGTTACCGACTACGTTCATGGGGACACCCTGCCGAAGGCTGCCAGGGCAGGCCTCTTGGCACTCTCAGCTTTGACCTTTGCTGGGCTTTGCTACTTCAATTACCACGATGTCGGCATCTGCAGAGCGGNTGCCATGCTGTGGAAGCTCTGACCTGGGTGCAGCACTTTGATTGTGTGCCTCCTTGCCTCTGCTTTACCAATGCCGTTCACCTCGCAGTGAGGGGGGATGAAGGATAAGCCCATTGGTGGGCAGAATGTCTTCTAATTACATGGTTATTTTCAGAATTTATTTGTTGAGGAAGAGGTTTGAGGAGTTAGGTTCGACCATTCGTGAGTCTGTGTTCCATACTCCACTGAGTGTGGGCACTAGCTCACAGCCTCGCGGTGAGACTGAACATTTCATGAGCTCATGGTGCCTTTGACCACCATTTTCTTAAGGAGAGCCAGCTGANTGCTGTCAGGATAAGAGCATCTCTTCABGHn.d.sequenceTotalHuman sequence:CDNA,EST clusterLOCUS NM_003002 1313 bp mRNA FRI Mar. 19, 1999,DEFINITION Homo sapiens succinate dehydrogenase complex, subunit D, integral membrane protein (SDHD) mRNA.ACCESSION NM_003002MotifsClone #T7 sequenceAGCTAGGATCTTTAGCTTCAACTCCTACTGCTNCTTCTAACCCAGCAGCCCCGGATAATGCAGCCCAGGAGGAGCTC100ATGATCACCCTGATCACAGGATTGGCGTCCCTCACGTCGAGAACCTCCATGGGCATCATCGGTGGNGGGGGCCGGTAATTTNGAAAACAGGTGGGNTTGNAACCTAATCTTTGCNNCTTAAGGAATGACCGGGGCTTNGACCTTTAATNABGHnd.sequenceTotalATTENTION: Clone incomplete, first 900bp 5′ are missing (at least about 300aa)cDNA,EST clusterHuman sequence:LOCUS HSU95822 2176 bp mRNA PRI Jul. 30, 1997DEFINITION Human putative transmembrane GTPase mRNA, partial cds.ACCESSION U95822MotifsClone #T7 sequenceAGCTGCGCCCNTGTACCCTAGGTCTAGAGTGNACCCGCCCCGGGAAAGAAGCTAGGCCGGGTCCGCAGCATCAGCC101ATCACTTCGCACAAAGCAGCGCAGCTCCGGGACCGCGGAGGACGACAGCGGCGCGGCAGCGGCGCGGCGACACTCAGTGCACCGTATGCCCCTGCGCCCCTGCCGAGGCAACCGGAGCGCCCCGAGAGACCGCGCCGCCGCGGGGTCCAGGTGCAGTTAGCGAGCCTAGCCCGCAGCGCGCAGTCGCGGGAGAGCGGGGAGCGGCAAGCAACAGGGAGCGGGACGGCGGCGAGGCGCTCGCGGGCCCCTCCTGCTGCCCGCGCCCGGCGAGCTCATGGCGGCCATCCGCAAGAAGCTGGNGGNGGNGGGCGACGGCGCGTGCGGCAAGACGTGCCTGCTGATCGTGTTCAGTAAAGACGAATTCCCCGAGGTGTACGTGCCCACCGTGTTCGAGAACTATGTGGCGGACATCGAGGTGGACGGCAAGCAGGTGGAGCTGGCGCTGNGGGACACGGCAGGCCAGGAGGACTACGATCGTTTACGGCCGCTCTCCTATCCGGACACCGACGTCATCCTTATGTGCTTCTCGGTGGACAGCCCGGACTCTCTCGAGAACATCCCCGAGAAGTGGGTGCCCGAGGTAAAGCACTTCTGCCCCAATGTGCCCATCATCCTGGTGGCCAACAAAAAAGACCTGNTCAGCGACNAGCATGTCCGACGGAGCTGGCCCGCATGAAGCAGGAGCCAGTNCNGCACGGATTGACGGNCGCTCCBGHn.d.sequenceTotalLOCUS MMRHOBGEN 4612 bp DNA ROD Feb. 3, 1997cDNA,DEFINITION M. musculus rhoB gene.EST clusterACCESSION X99963MotifsClone #T7 sequenceAGGTTTCCTCGCCGCCGGCCAAGATGAACCGNTTCTTCGGAAAAGCGAAACCCAAGGCTCCGCCACCTAGCTTGACG102GACTGCATTGGGACGGNGGATAGCAGGGCAGAATCCATTGACAAAAAGATTTCCCGGCTGGATGCTGAACTAGTGAAATATAAGGATCAAATCAAGAAGATGAGAGAGGGTCCTGCTAAGAACATGGTCAAACAGAAAGCCCTGAGAGTTTTAAAGCAAAAGCGGATGTATGAGCAACAGCGAGACAACCTGGCCCAACAGTCCTTTAACATGGAGCAAGCTAATTACACCATCCAGTCACTAAAGGACACCAAGACCACGGTTGATGCCATGAAGTTGGGAGTAAAGGAAATGAAGAAGGCATATAAGGAAGTAAAAATTGACCAGATTGAGGACTTACAAGACCAGCTGGAGGATATGATGGAAGATGCAAATGAGATCCAGGAAGCCCTGGGCCGCAGCTACGGCACCCCAGAGTTAGATGAGGACGACCTGGAAGCAGAGTTAGATGCGCTGGGCGATGAGCTTCTGGCTGATGAAGATAGCTCCTACTTGGATGAGGCAGCTTCCGCTCCTGCAATTCCGGAAGGTGTTCCCACTGACACAAAAAACAAGGATGGCCGTGCTGNNGGATGAATTTGNACTGCCGCAGATTCCCGCTTCGTAGACTTACAACATTCAGCACGTGATGTGAAACAACANGAGAAGTATTCTGGNACTAGNAAATAGTTCCCCGATCTGCCAACCAGATTAGGNTTCTTTCCTTTCTTTGATBGHTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCTTTTGAAAAATATTNATTGAGTATAAANAAATGNCCTATNCATsequenceTAAATATCAAGAAATATTCATTATTCATTACAAGTCAGGCTAGTATACTGAGGGAACCATGGAATCAAAATAGTANCTCATGATACCGAAGAGACAGTTCATTCCAACAGTANATCGTGNAATGACTTGCTCACATGACACAACAAAATNTATCAAAAGAGGCCATGACTTAAACCCATNTACAATACCACAACAGACAAGGGTTCTGAAGCATACTATCAGCAGTCCCAATCTCATCAATCACTTTTATCTTATCAATGTATCAGCNCACTGAGACTGTACTTACNCTACCATAGAATTCAGAGTCTCATCTCCTTGGTTTAATTTCAGATTATTGTTAATGAATGAAAACAAGTCATACAAAGTCAAGGGTACTTTTCAATTAGTCTTTCCTAAGAGAAAAAAAAAAAAANGAATCAAGTTTTAGTAAAGACAGTTTCCCAAAAGCAATGAATTCCTTANCGGAAAAAATAAAAATNCNGGAGCAGTGTANANAGCTTTTTCTTCAAAGAAAGGAAAGAAACCTAAATCTGGTTGGCAGATCGGGAACTATTTCCTAGTCCCAGAATACTTCTCTTGNTGTTTCACATNACGGGCTGGAATGTTNTANGGTTTACGAAGCGGGAAATTTGNGGNAGNCCAAATTCATCCCCCAGCACGCCATNCTTGTTTATotalHuman sequence:cDNA,EST clusterLOCUS AF161525 1197 bp mRNA PRI Feb. 1, 2000DEFINITION Homo sapiens HSPCI77 mRNA, complete cds.ACCESSION AF161525Comments:The gene contains a BH3 domain which occurs in many Bcl-2-like genes. Geneswith such BH3 only domains are proapoptotic and have the evolutionaryconserved function to induce apoptosis. Our experiments show that CGI-135 caninteract with Bcl-2 gene family members. The BH3 domain is necessary forefficient induction of apoptosis by CGI-135. CloneName,Designation(Gene, database)Clone #T7AAANCTNNATCTCATCTACACNNGCNNTNGATCCACTANNAACGGGNCGCCAGAGACGCTGNAAAGGTCCGCTCCTNC103sequenceGCTGNAGAGNACGTGCCCTGANCTCNNNNGACAAGGCTTCCNTTNTANCCGNCANCNTTTANNANTCCNTCNTANTNCTCNCCTNCNNNATTNTTATNTNNTACTCNCNNNCTNCTCCCTCTNTNCNTNTCTCTNCNTNNNCCTACTCTTCCTNTNNCCCCTTCCCTNNTTATNNNTCTTTATCCACTCCNTCTCNNANTATNTNNTNNTNNCAAATCTATNTCTNTNNCCNNNNCNCCCANNNNTCTNNNACCNTNCCTCNTTTCNNTTTNCCTACTCCCTANTTCCTCNTNCTTACCNCCNNCCATTNTCAATCNNNCTNCTNTCCAACNCTCANCNNTATCTTTCCCCNNTCTNTNANCNATNCCTACTCNNTATTCNCCNCCTTCTNCCNCNACTANCTCNTCATTTNNCNNNAANCCNCANTNNTNNTNTNNCNNNACNNTNTNATTTCNTACANTNCCCNACNNTCCTNTTNNNCCACTNNTTTCTCTANNNTACTCTTACNNAANNTCTNANNCTCCCNCNNNNCNTCTNTCTCCNTTCANATCTTNCNNNCCNNATNNACCTNTCATCNCNCTNTCCTTNNCNANANNANNTCCNCNTTCNTCTTTCNTCACTANCTTANNCCNTNTTNTCNCTCNTATTNNTTTANTTNTTTCCTCNTNTNTCNNNNTCTNTNNNCTATCACCTCTTCCTCNANTTCNACNCNTNTCTTNCNNCATCTNNNTAANTNTTCTNANACTCTCCTATTANCCTNCCAACTCCCGTCCTCNTTCTCCCCCNCNTNCNNTCNCCNTCNACTCCTTCAATNATATAATCCCTNCACCCNNNNCTNTANNCCTCNTTTATNTCTTCTTACCACNAATCAANTNAATTCTTNTTCNATNCTNNCNCNCCTTTCAACNCNGCTATTTCACAACNNNCACNCNTTCNNNTNCTACNCTNNo homologous sequences in the databasesClone #T7TTATNAACCNCTNTCNCCACGCTTGGACCCACTANCAACGGNCGCCAGTGTGCNTGGAAAGNACGAANGGCTTATGCG104CNAGGTNCCACNCNNNTTGGGNGNCNAANNNGNCNTNCNAGAGGNAGGGCCNNTTTTNNNNCGGNGNNCNNANNNNAAGNCGAANGNGTCNNCNTANCNCNNTTNNNCNCCCACGCCCNNNNCNCNNTNNANNCCCNATNCNNCANNANNCTCNCTCTNTTTTNCTCCCCNCNCCTNCTTCNNCTNCNTTATCNNCNNCTTTCNCCTCTCTNNCNTACNCTACCCTTCCTTCNTNNNCNCCCCCNNNACTCNCCNCCANNCACTNNNCCANTCCTTCNTNNACCTATCCCCCCTCCCCNNCCTCACNCTACANTCTCCTCCCTNTNCCNNCCCTTTCTTCTTCCANCCTCTTNCTCCNCCNTNNCCCCCTCCTCCTCTCNTNTATTCATNNTACNNTTCATTCNNCNATTCNTTTNCNNACCTNNNTTCTNNCNTCCACANNNCTTATNCCCATCTCTTATNNNACTTCTNCNANTCTCCTNNTCTCCTCTACNTNNANCTCTCNNNNTACNCTNTNTCTANACATCTCTCTCTCACTNTCNCTCACNCTATCTCTCCTCNANTNCTCANTNATANTCTCCCACTCCTANNCNCTCTCCCCCCTCTCANTAGTTANCTCTNTCTCCTTCNCTCNTATAGCNTATCNCAANNCTCTCCNTACNCTCNCCTCGTCATCTATCANCCTCTCACCTNTNTCANACTNTCATANATCNCTCCTCTNCTCCCATNATNTTCCACCTCACTNACNTTNTNCNTNNTNCTTCNTATCCTCCNATCCNTTCCNTNCANNCCTCTCTCCCTCTCAACCNNTCNCATCTCCCCCTCTTCNNTNNNNNTCANCNCNTCNCNCCATTNTNCNTCCACNTCACCNCTCCCTATNTNTTCTCTNNACTCANACCCCNACCATCCCCNANNTANCTNCCCCCTCANTNCAACNCNTCTNTCNNACTCCCTCTCNCTCNACTCTNATCTNCTCNNNTCANTCACTNTCTCTNNTCTCTCCACCACCGTCTACTCATACTTNNTCTCNCCCTCTNTCNTCCCNCNCTCNCATNCTCNTCTCATCNTCTCANTCCCTCTANNTNTNCATTTCTNNTCCNTCNTTTNCTCTACNCNCTCCCGNACACACTNCTACCCTCCTCANTTNCTCCCACNNCTACCANCNCTNTCTCCTCNNTNCNNCNTNTACTNCTCGNNACNCCNNTNTNTNTCTCTGNTCTCCTNATCATCNNCTCNNACNCNTNTTCANATCNCCANNTATNTCTNCANCTACCC>ug|AW682500.30119|Mm.30119 EST01349 Mus musculus cDNALength = 659Score = 34.2 bits (17), Expect = 1.2Identities = 21/23 (91%)Strand = Plus/MinusClone #T7TACNCACCNCTTGTACCGGCTCGGATCACTAGTAACGGCCGCCAGNGTGCTGGAAAGTCTTTCTGTACTTCCTGCCTG105GCACCTGCTTTCCCTGCCTCTACTNGACCAAGAGTTACACAAGAANGCGTTCTCCCCCGCCAGCTCCCACTTGGAAGATTTNACGAGGNGNGNGGCTCCNNGGCGCCATGGCCACACCTACGCTNNNTGNTGATNNNCTANCGGAGGGCCCACCCCCCTNNCTCCTTACCNCTCNTCTNNNNCCCCCCCCCCCNNTTTCNCCATNTTCNCNCCCCCCCTNCNTCNTCTTCTCCCCTCNTTCTNCNTCNCCCATTCCNNCTNACNNNCNTCTNCATTCCNNCNNCCCTCTCTCTCNCNCCTCTCCCNTCTCCTNTATTCTTTCTTCACCCTCNCCTCCNANCCNTCCTCTCTCNTNCCTANTTCNNCCCCTNTNTCCNCATNCTCTAACTCNNCCTC ACACTCTCCCCTCNATCCATCANNNCTCNCTNCCTCCTNTCTACAANTCNCNCNCCTCNNTNTCNCNCTANCTCNCTNCCTCTNNNACNCNCTTCACCCNNTCTNTCNNNTTCCCTCNACTCCCCTCTCTCTCCTCCNTTNCTCTNNTCNNTTNCTNCCNATCCNCCNNCNCCCCTNANTCTCCNNCCNNTACCTTCCNCTTCCCATCCTNCTCCCTCNNNTCCCANTCTCCNATNCCNCCTTCNNCTCNTCCCAACNNNCTATTNCNNNCNCCTCCNNTNNCTTCNCCTTCNCCTTNNATTTTTCNNTNTCTTTCCCTCCTNCACNCNNCTCNTNCNNTTNNTNTCTTNNCNCNATNCCTTTNCCTCNNNNTCTCNCTCTCCNTCTNCNTCCTCCNCTCTCNTCTCNNTTCNTCATCCNCNCNNCCTNCCTNCCCNCNTNTCTCTCNCTCNCNANCCNTCTNNCTCTTATNCCNCACANTANATCCCACACCTCTNNNNTTCCCNCCTTCNTCNCNCNTCTNCCNNCNNNCCTTNNCTCTTCCNCCTCCNANCTNACTACANNCTCNTTCTTTCCNNATCNAACTNCTCATCTCTNNCCCTCCCTCTTTTCNTCCACCTTACCTCNCCCTTCNCTTTCTCCCTNCTACCACNNCTTNCTCCTNCCNTNCTNCCATNCCTNTCCTNNNANNNNTNNCTCTTCTCCTCTCTNCTCATACNTCNNTTCACCATNTCNTCTCTTCNCTTACTCACTCACTCTNTTACNTNNTNCNTACTCCTCTCTCTCTNTACTNCCANCTCTCCNCNCNCTTCCTCATCTCCATCNTCCNTCATCATNTCNCTNNCNACACTTCTNTCTCTNTCTCCTCTANCCTCNNTCTNCTCTCNCATACTTCCNTTCTCTNCTCNCTAATCCCACNCTNTCTCNNACTCTCNCTCTNTCCNNTTCTCCTNTTCACCTCTATCCNCNNTTNNNCCCTCTNACTCNNCTCNCTNCNTCCTCACTNCTNNCNTCTCTCNCNTCTNNNTNTCCCTCNNTNCNTCATCTCCNTCATNACCNNCTTACNCCATNTACCCTCCNTCCTNCTCTCTCANTCTTCCCCCCTCNCACANACTCCNCTTNNTCCTNCNCCCCCTCNTCTNTNTCTCNNTCANCNATCTCTAAACTACCNCTNCCNATCTCACANACNTCCTCTCTNTCCNTCTCNGNCDatabase:>emb|X98475.1|MMVASP M. musculus VASP geneLength = 2261Score = 192 bits (97), Expect = 3e−46Identities = 131/145 (90%)Strand Plus/PlusClone #T7NNCCGNCCCCCTTCNACCGGCTCGGATCCACTAGTAACGGCCGCCAGNGTGCTGGAAAGGGCAAGAGCCTCCACCCCT106TCTACAACCAGCACNATGCGCGAGATCGNGCACATCCAGGCGGGCCAGNGTGGCAACCAGATCGGCGCTAAGTTTTGGGAGGNGATAAGCGATGAGCATGGNATCGACCCCACTGGCAGTTACCATGGCGACAGNGACTNGCAGCTGGAGAGGATCAATGTGTACTACAATGAAGCTGCTGGNAACAAATATGTACCTCGGGCCATCCTAGNGGACCTGGAGCCGGGCACCATGGACTCAGNGAGGTCGGGACCATTCGGCCAGATCTTNAGGCCAGACAACTTTGNGTTCGNCCAGAGNGGTGNAGGAAATAACTGGGCANAAGGCCACTACACAGAGGGNGCCNAGCTGCNGGANTCTNTCCTAGATGNGNAGAGNCAGGANCNTTCCCCCNCCCCNNNCCTCCCNCNCCTNCNNCCTNCCCTCTCCCCCCNCNCCTCTNCTTTTCNNTTCTCCTTTTTCTNTTCCNCNTTNCTNNNNCTTNCTCNCCCNCCTTTNNCCNCTNTNTTCTCTTNCTCCTCCCTTTCCTNTTCTCNCNTCTNNCNCTTCTCNNNCCTNTCNCTTCCTNTNNCNTNNCNNNNNTCCNNTCCTCNTNNCTCTNNNCCNNNTTNCCTNNCNCTTTCTCNCCNTCCTCNCCTCNCTCTTCNTNNTTCNNNCCCNNNCNCTNTCNCNTCNCTCTCNCTTTCTCNCNTTTANNCNNTCNTCTCTCNTTNTNTTCTNCTCNCNCCCTCNNTNCTNCTNCNNCTNNTNCTNTNCNTCTTCTTCTCNCNNCCNTCTNCTNCCTCTCNTCNNTCTNCTNCNNCTCNTNNNNCTCTCTCCCCTCCTCTCTCTNCNCCTNNNNTCNCNCNNNTCNCCCCTCCTNNNNCCNCTCCNCTCNNCTCTCTCTCNTNCTCNCNCTNCTCTCTCTNTCTCCTNNTNCTCNTCNCNTNNCTCTCNNCCCTCTCTNTNNTTNCCNNCNTCNCNNTTCTCTNTCCTCNNNCTCNNCTCNTCTCNCCNTCNNCTCNCNTNCNTCTCCNNNNTNCTCTTCNCNTCNNCCCNNCTTNNCNCCTNCNTCNTCTNCNNTTCCNNTTCTCNTTCNTCTCNTNNCCCTCCNCNNNNTNNNNCTCNNNTCCTCTNNNNCTNCNTCTCCTNCNCTCTCNTTTCNTCCNTCTNNCTCCNNNTNNCCTCNCNNCNCNTNCCCCTCCTTNNNNTCNTCNCNTCTNCTNTTNTCNCCNCTCCNNNCTCCNTCNCTNCTNCTCNCNTCTNTCNTTCCNCNCTTCNTCTCTTTCTNTCNCCNCCNNCTCCTCTCTCNNCTTCCTNTCCTCNANNCTNCTNTTTNTCNCTCNTCNNTTCTCTNTACNNCTNTCTCTCCCNCTCCTNCACCNCNNTCTNTCNTNCDatabase>emb|X033691|RNTUBB15 Rat mRNA for beta-tubulin T beta15Length = 1592Score = 492 bits (248), Expect = e−136Identities = 326/359 (90%)Strand = Plus/PlusClone #ACCGNGNCAGCCCNCTNGGNANGCNTGGAACACTAGCAACGGACGCNAGACGACGCNGGAAAGNANGGACAAGNNAA107GAAGCANCCNNNCCCCCTATCCCCCNCCAGNANNAATNGNAGGANNGGGGNCAGGAGNAGNAAAGGAANAGAAGNGCNAGGTNCAGNNNAAGCCAGANGNCNGAAGNNACAGAGAGAACAAANCAGAGCNATGGAACAAACNGNGNNCCAAGTGAAGACNAGNAGCAGNACANNNGNGAGAAGAGGATCNAAAGAANACNGAAGAAAGAAGGCCCAGACNNNTAAANTAAGAAGATNACAGGACAGNTGNAGANAANAGAAGGGNGCCNNAGNAGNCAATCGCACAAATCNCCACTAAAGCACGGAAATATGNCANGAANGCANGAAAACAAGTNGAACAANNANCTNGGTANNANANTNCNNCANAANCTANNNCNNATANCCNAAACCNNTNNCNNNCNANCNTNNNTACNAACCCNNNCNAANNAANACNTNNGANACNANNTTCAACCAACCATNNNCATCNNANNCACNTCCTAACCNAANCNCATNGCNATCGNTCNTACATNNTCTCTACAACNGACCTCNACACCAATCATCNCNNGATACATNATCANCNCNTCNATNANCACACTAGTACNNTATATNCATATCTNGNTCACCANNTCAAANATNCGCACACCNNAACNTNNNTATACTACCACTCANTCTNANGCACNNTACCACATNACAAACCNATAACACNCCTNNCACACNCCATAACATTNNCANCNCTACACNNTNNANAGATATNACNTNNNANNNTCNANTCNGCCANNAATNCNCTATNNCACCNTNATCCATCCAANATNNNNCTCTNNNCGTACANACCCCNNACATCCTNNTNACANNTACNCAATAACANGCNNTANCTCACANNANCNACACATNNACNTCNNACTNTNGNGTAACNNATACNGCNNTCANCCNCAAGNCACCCATCNANNNTANCTATCACGCCACANANATCTGNCCNNTATACCCACNTATANNCTATCACATANNACNTNTAACANNNATATNANACCACACNCCAACNCNCNNATNTATNNCAACATACANNGGNANNACNTATNTNTCATATATTNNANNANTNANNCANNNACNNTNACACNNCACNCANTACTNCNNACNNNNTNANATCGTANATANCCTCGACGNGANTCACTNTNGNTCGACTNCAGACNTATCTNCNTATAATCANCACTATACCATNCACACGNCTATNTCTNTNNATCNANTACACACTNCACNCTACNCGCATAACTCTCCCACATCCNAGACNTACATNTCTCNCAANACAACCTCTANANAATNNTACACTCACACNTNCNTANTCNAGCTNCANTACTANNNCNTNTCACCTACNCNNNNNTGTACNCTNGANGTATGNACNACANNGANNCANATACTATAATACNCNNCNNATCGNACAAATANNCACAAATCAANATNTANACGNCACNCCAAATNCANACNANNNNNNNAATGGACNCAANTCNCANACACTCTACNAANAANNATANACGNACTCNCACGANACACGNNNTNAGACATNTANCACNACCNACNNCNANTNCATCNNCTAAGNCATNNNTACAACCCNNCACANNNCNNTCTCAGANNNCGNCATACANTNNATNACNCNNAAGNCCATTANCNNCANNACGACANNGNNA=>>gb|BE226644.1|BE226644 ia23h11.y1 Mouse E10 5 12 5 Pancreas cDNA Library Mus musculus cDNA 5′ similar to SW:NUML_BOVIN Q01321 NADH-UBIQUINONE OXIDQREDUCTASE MLRQ SUBUNIT;Length = 479Score = 38.2 bits (19). Expect = 9.9Identities = 29/33 (87%)Strand = Plus/PlusClone #T7TTTCCCCCCNTCNCCGGCTNGGATCCCTNGTAACGGCCGCCAGTGTGCTGGAAAGCCGNAAGCGCAGAGCAGAGAGG108AGCAGCGGGCTTGTCGNNGGNGGCGGNGGCGGAGGCCGCCATGGATCGCGATGAGGAACCTCTGTCCGCGAGGCCGGCGCTGGAGACCGAGAGCCTGCGATTCCTGCACGTGACAGNGGGCTCCCTGCTGGCCAGCTATGGCTGGTACATCCTCTTCAGCTGCATCCTACTCTACATTGTCATCCAGAGGCTCTCCCTTCGACTGAGGGCTNTGAGGCAGAGACAGCTNGACCAAGCCGAGACTGNTCTGGAACCTGATGTTGNNGTTAAGCGGCAAGAGGCTTTAGCAGCTGCTCGTTTGAGAATGCANGAAGATCTAAATGCCCAAGTNGAAAAACATAAGGAAAAACTAAGACAGCTTNAAGAAGAGAAAAGAAGACAGAAGATTGAAATGTGGGACAGCATGCAAGAAGGCAGAAGTTACAAAAGAAATTCAGGAAGGCCTCAGGAAGAAGATGGTCCTGGACCTTCTACTTCATCTGTCATCCCCAAAGGAAAATCTGACAAAAAGCCTTTGCNAGGAGGNGGNTATNACCCTCTGACGGNTNAAGGGNNNTNNACCCTNCTNCTGNNGACCTNNACNCANGGNCCCATCATNTGNCNNCTTNNAACTTNNNACTCTTTGNNNGNNGNNCNCTCTTNNCNTTANCCNNNDatabase>gb|AF157317.1|AF157317 Homo sapiens AD-015 protein mRNA, complete cdsLength = 1209Score = 327 bits (165), Expect = 4e−87Identities = 386/463 (83%)Strand = Plus/PlusClone #T7CGCCCCCCTTGGTACCGGCTTGGATCCCTNGTAACGGCCGCCAGTGTGCTGGAAAGGCATGACCAAGAAGATGATGG109ACAAGGNGGAGTTTGTCCATATGCTTAATGCTACAATGTGTGCTACCACCCGGACCATCTGCGCCATCCTGGAGAACTACCAGGCAGAGAAGGGCATCGCTGNGCCAGAGAAGTTGAGGGAGTTCATGCCGCCAGGGCTCCAAGAGCTGATCCCGNTTGNGAAGCCTGNACCCATTGACCAGGAGCCATCTAAGAAGCAGNAGAAGCANCATGAAGGCAGNAAAAAGAAAGCGAAAGAGGTCCCCCTGGAGAACCAGCTGCAGAGCNNGNNGGTNACTGAGGCCTGAGCACTNCCAGACTTACTTACTAAGNCTGCTGNGNTCCCAGGCCTTGCCCTGNCACAGNGAGGCCGCGNANNACTCCTCNNCCTGCCNCCTCTNCNTNCCAGCTCCTGCCGANNCCNNCTGCGCCGACNGNGTACNNNCCCCTTCTCCTNCNACNCNNCNCCTNCNCTNCTTTCCCNTCTCCNCCCNCNCCCNCNNCCCCCCTTCCCTTCCNCNCCCTTTCCCNNNCNTNCCTTCNTCCCNCNNCNCCNCTCCTCTCCCTTTNNTNNNTCCTNCNCTCNCTCCNTNNCTCNCTCCNNCNNNCCCCTCCTCNNCCTCTCNCTTCCTNTNCNTCCTNNNNNNCTNCNNCTCTCNTNCCNNCNNCCNCTNCTCTCCTTCCTCNTCTCCTCTCCNTCNCNNNNTCTTTCTTCNNCTCTNCTNCTNNNNCNNNCNNCNNCNTCCNCNCNCTNCNCNCTCCNNNCNNNCTTNCNTCTNCNCCNNNCNTTCTCCTCCTCCTCCTCCNNCNCCNCNTNTCCNCCNCCCNNNNCCNCTCCTCNNNCCCNCTNNNNNNTNTTNTCTCTCNCCTCCTCTCNNCTNTCCCCCCNNCCTTNCCCCTCCNTCCTNNTNCTCCCCNTCCTNCCTCTCNNNTNCTTCNNCTCCTNTTCTCACNTTTNCTCNNCNNNCNCTTCCTCCNCCCTTTCCCCCTTCNCTCCCCNCCNNTTTCTCCTCTCTNCCTCACTCCTCTTCTCTTNCTCCTNCTTCTCCNCCCTCTCCTCCCTNCCTCCCNNNTTNCTTTCCNCCCTCTCNTCTCTCCCTCCCTCCCNCNTTCTCNNTNCTNNTCTTTCNCTCTCTTCTTCNTCCCCTCCNNTCCCDatabase>gb|M88136.1|CRUSTSTA Cricetulus griseus seryl tRNA synthetase mRNA, partial cdsLength = 598Score = 375 bits (189), Expect = e−101Identities = 257/281 (91%), Gaps = 1/281 (0%)Strand = Plus/PlusClone #T7CCNNACTNCACAACCTCTTTCNACCGCGCCTATNCNCANCCACCTANNNTANACTGGGACACGNACAGATGNCGCATGN110GAAAAGCAACTGACATACNNCCGANNNACTAANACCTTCTAGTNCANCCAATTTTTNTNCCTNNTNAACAANAACACTCACTNTTTNCCNANTNCTACTNNNTGTANTCNANATNTNNNANCTTCTNNGNTCTANTANCTTTTNNCTCCANNCCTNCTCCTATNNANCATATCCCNATCTNCTCCACTCNNTNTANNTACCCACTCCTCCTCNCCCANCNCTTTCCCNCTATCCANACTCNNTCTACTCNTCNCTCCCTTCNNCNCANTTCNCCATNTTNTCTCCTNATCNNTTTNNNTCCCTCNTNCCNNNTNNACNCANCCTTCTCCCCTTNTTNNCNNNCTTNCNTCTTNNCNCCATCCCCTNTCCCNCTCNCTTCANTNTNTATCCCCCTNTNNCCCNCCCNTANNATTCNTCNACCTAACTACTCNTCTCTTNTTTCNTCCANNNNCNCCNCCCCCTNCTCTNACTCNTCCNTCNCCTTATNATNTCTCCATNCACTNNANNNTCCCACTNNACNCTCATTNNTATATCCNTCNNCTCTTCCACCNCNCTNCTNCTACANNNNCTCNCCTACTCTCNCCTTTACNATNCTACCTNNNTANACTNNCNTCNNANNTNTNTATTCTNCAANACTNTCTAACCCCCTANTCTGTCNCNTTNNCNCCTNCTNNNNNTANTCTCNTNATNTTTCTANNCCTTCCTNTCNATNANTTCTCATCTACNTCNNNNTNCNTCNTTTTNNTCATTCCTCNTNAATCTCCTNATNNTAANTTATCNTCCCAANCNNNTNATCAATNTACTNNTCTNANCACTCTCTNCCTCCTNTCCNCCACNCNANTCTACTNAACNNTNCCTCNCACTNTNNTNTTCANTTNCANANATNACNTNNTNCCNTATCTTCANTCTCCNACTCTCTACNCACTCTTNTCANATCCACTTCATCCTCNNCNTCTTNATCTCNCNNNTTATTANCCNTACCTCTNTCNTCNTATNNTNCCTTCANTTCCCTACCCTTCACTCTTCTACNNCTCCNCNTCTCCTCNCANCCTCACCTCTCTCCTCTCNCACTNNNNCTCTNNATACNGCNTANTCATCNCTCCACNTCTACNTANTNTNTNTATACACTNNACNNCTTCANTCACTNNTTACATCATTANNNTCTCTCCNCTATNCCCACTTANTCCCTCACTATACTATCTATCTCTCANCCTNATTTNCTCCTCCNNCTATCTNCNTANNCTCTCACTTTTCTCATNATCTCCANCNTNTCTNNACNCANATCTCNTCNATCTNATNACTCTCTCCTNTCCATCNCTCNTCTNTCTNCATCTANCNTATTCACNCCGACTNCTNCCTCANTNCACANATTANNNNNo homologous sequences in the databasesClone #T7AGGCAATGGCGGACGTGTCTGAGAGGACGCTGCAGGTGTCCGTGCTAGTGGCTTTCGCCTCTGGAGTGGTCCTGGG111CTGGCAAGCGAATCGGCTGCGGAGGCGTTACCTAGACTGGAGGAAGCGGAGGCTGCAGGACAAGCTGGCAACGACTCAGAAAAAGCTGGACCTGGCCTGAGCACGCGCTGCAGCCCGAGTCCGCCGGGTTCTCACTCCCTAAGCCCAACGCAGCCCGGATCGTGGGAGCCGCGCGACCCAGGAGTCGTCCTTGCACGGCTTGCAAGAACATGGCTTGCTTCAGAAAGAAAATAGTTTTGTCTTCTCTAACAACTTACTTTCAGCTTGTCGAAGATGAAAATAAAAAGCACTGGAGAGAAATAATTTCTTGCACTTTATGAATCTATTTTTAAAATAAAAAAATTAAACATC>ug|AW106096.27359|Mm.27359 um23a10.y1 Mus musculus cDNA, 5′ endLength = 539Score = 803 bits (405), Expect = 0.0Identities = 408/409 (99%)Strand = Plus/PlusClone #T7TAGTAACGGCCGCCAGTGTGCTGGAAAGGGACTTTGTTCAGATCTTTTTCTGATCGTGCATCAGCTGCTGGTTCATT112ATAGCCTTCTCTTAAGCACTGAATAAGACAAAAAATGAATCTTGGAAGAACAAATTCAGACATCATCAGTAAGTCTTTGGGGACACAGGGAATATTTGAACTTGATTTAATCTGATGTCTTCTACAAAACCCGCTCTCCCGCATTACGTTGCTGTCCCCGCAGTCGCAGGCGCCCCCGGCCTGGCTGCGGAACATGTTGAAGTCGTGTCCAGTGTGGTCGCCCTGGTGGAAGCACTCCGCGCACAGCGACATGCAGGGGGAGATGCCGCACGTCCGGCAGCGGTAGGCCACGAAGTTGGCCGTCCAGACCAGGCCGCAGAGCGCCGCGGGGTCGTAGGCCCGCACGGCCGCGCAGAACTCCTCGTAGCCGCCGCCGCCGGCCAGAAGGCACTTACACCACTCCAGGGCATCCTCCTCCGCCTCGCCCGGGCCGCCGCCGCCGCCGCCCGCCGCCTCCTCGCCGCCCGCAGCCCCGGCCAGC=>>gb|AI413025.1|AI413025 EST241326 Normalized rat brain, Bento Soares Rattus sp. cDNA clone RBRDZ28 3′ end.Length = 544Score = 619 bits (413), Expect = 0.0Identities = 451/463 (97%), Gaps = 3/463 (0%)Strand = Plus/MinusClone #T7AGGCGACGCGCGCATGGAGGCCGGCTGAGGAGCGCCGCCGCCTCTCTCGGTAAGGACTGNGTCTGTGTCCCCAGGC113ATCCTACATCAATCAGGAAGCTGCTGTCCAGCCATGGAGGGAGAGGAGAAGCCAGCTCAAGAGGCTGACGTGGAACCTGTGGTAACAGCAGGCACCTCAGAAGCAGTGCCAAGGGTGCTTGCTGGAGACCCTCAGAACATCTCTGATGTGGATGCCTTCAACTTGCTCCTGGAGATGAAACTGAAACGACGGCGTGAACGCCCCAACCTTCCACGTACAGNGACCCAGCTAGNGGCCGAGGATGGGAGCAGGGTGTATGTGGNGGGCACTGCTCACTTCAGTGATGATAGCAAGAGAGATGTAGTAAAGACTATCCGGGAGGTGCAACCGGATGTGGTCGTGGNGGAGCTCTGTCAGTACCGGGGTGTCCATGCTCAAGATGGACGAGAGGACGCTGCTGCGAGAGGCCATGGAGGTCAGCCTGGAGAAGCTGCAGCAGGCTGTCAGGCAGAATGGNTTATGTCTGGACTCATGAGATGTTGCTGCNTGNAGGTGTCTGCTCACATCACTGAGCAGCTGGGCATGGCCCCTGGTGNCGAGTTCAGGGAGGCCTTCAAAGAGGCCAGCAAGGTACCATTCTGCAAATTCCACCTGGGNGACCGACCAATCCCAGNCNCCTTTAAGAGGNCCATTNCTGCACTCTCCTTCTGGCANAAAGTCAAGCTTGNNCTGGNNCCTGNGCTTNCTTGNCNGACCCAATCANNNNNNGNCNACNNNNNNNNNCTTNAANTDatabase>emb|AL02232B.21|HS402G11 Human DNA sequence from clone RP3-402G11 on chromosome 22q13.31-13.33. Contains the MAPK12 gene for mitogen activated protein kinase 12 (SAPK3), the MAPK11 gene for mitogen activated protein kinase 11 (PRKM11), gene KIAA0315, the gene for a novel protel>Length = 177241Score = 121 bits (61), Expect = 4e−25Identities = 124/144 (86%), Gaps = 1/144 (0%)Strand = Plus/PlusClone #T7CTTGTAACGGCCGCCAGTGTGCTGGAAAGTGACCGGCTACCAGTGCAGAGCATCCCAGGCCCCAACCTTTCCTGGAC114AGTTGGACCTCTTCCTGAGAGACCCCGGAACGTTTTCTACCTTACCCTTGGGAGAAGAGCCTCTGGCTGAATGGCAGCTGTGGATGACTTACAGTTTGAAGAATTTGGCGATGGAGCTACACTGTTAGCAGCAAATCCAGATGCTACCACGATAAACATTGAGGACCCCAGTGTATCTTTTGGCCACCAACCCAGACCCCCCGGGAGCGTGGGGCGAGAAGAGGATGAGGAGCTGCTGGGGAACAACGACTCTGACGAGACCGAGTTACTTGCCGGTCAGAAGCGAAGCTCTCCCTTCTGGACATTCGAATACTATCAGACATTCTTTGATGTGGACACTTACCAGGTCTTTGACAGAATAAAAGGGTCCCTGCTGCCGGTTCCTGGAAAGAACTTTGTGAGGCTGTACATCCGCAGCAATCCAGATTTCTATGGTCCCTTTTGGATATGTGCCACGTTGGTCTTTGCCATAGCAATTAGTGGGAACCTTTCTAACTTCCTAATCCATCTGGGAGAGAAGACATAGCATTATGTGCCCGAATTCCAGAAAGTGTCTATCGCAGCGACTGTCATCTATGCCTATGCCTGGCTGGTCDatabase>dbj|AK000823.1|AK000823 Homo sapiens cDNA FLJ20816 fis, clone ADSE00693Length = 1538Score = 363 bits (183), Expect = 6e−98Identities = 306/347 (88%)Strand = Plus/PlusClone #T7CCCANACCTCTNTCGNCACGAGCTCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGCCCGTCCNNAGCGCTCCG115GCGAGCTGGCCTTNGCTGCAGTNGAGCCGGGCTNGNACTATGNAGNGCCTGGCCATGGACCTGCGGGTGCTGNCCCGGGAGCTGGCGCTCTACCTGGAGCACCAGGTTCGCGTCGGCTTCTTCGGCTCGGGCGNGGGCTTGTCACTGATCTTGGGATTCAGCGTTGCCTATGCTTGCTACTACCTGAGTAGCATTGCCAAGAAACCCCAGTTAGNGATNGGAGGGGAGAGTTTCAGCNCGCTTCCTACAGGACCACTGTCCCGNGGTGACAGAAACCTATTACCCGACGGNCTGGNGCTGGGAGAGCCGAGGACAGACATTGCTGAGACCCTTNATNACTTNCAAACCCCCGGTGCAATACAGGAACGAACTCATTAAAACTGCAGACGGAGGACAGATCTCACTGGACTGGTTTGATAACAATAACAGTGCGTACTATGNGGATGCCAGCACCAGACCNTACTATCTTGCTCTTGCCTGGCCTNACTGNAACAAGCAAGGAATCCTACATCCTTCATATGATCCATCTCAGTGAAGAATTNGGATACAGGTGNGNGGNTTTTAATAACANAGGAGTAGCANGAGAAAGTCTCTTGACACCACCGGACTTACTGCTGNGCGAACACTGAAGAACTTGGAGGCCGNNGTCCACCACGTGCACAGCCTGTACCCTGGGGCNTCCTTTNCTGGCANCNGGCGTATCAATGGGGAGGGAAATGCTGCTTTTNGNANTTACTTNGGGTTAAAAATTGGGTCCAAAAANCCCCNTCTTGANGGCNTNCCTGCNACCNNTTTCCCDatabase>gb|AF007152.1|AF007152 Homo sapiens clone 23649 and 23755 unknown mRNA partial cdsLength = 2044Score = 456 bits (230), Expect = e−126Identities = 5311634 (83%), Gaps = 4/634 (0%)Sirand = Plus/PlusClone #T7TTCGACCCCCTTGGTACCGAGCTCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGGGCGCAGCCGGCCTAGCG116AGGTCAACATGCCGGTCGCCAGAAGCTGGGTTTGTCGCAAAACCTATGTGACCCCACGGAGACGCTTCGAGAAGTCGCGTCTCGACCAGGAGCTAAAGTTGATTGGAGAGTATGGACTCCGGAACAAACGTGAGGTTTGGAGGGTCAAGTTTACCCTGGCCAAGATCCGTAAGGCGGCCCGGGAGCTGTTGACGCTGGACGAGAAGGATCCCCGGCGTCTGTTTGAAGGCAATGCTCTCCTGCGGCGGCTTGTTCGCATTGGGGTGCTGGACGAGGGCAAGATGAAGCTGGATTACATCCTGGGACTGAAGATTGAGGATTTCTTGGAGAGGCGGCTGCAGACCCAGGTCTTTAAGCTGGGCCTGGCCAAATCTATTCACCATGCCCGTGTGCTCATCCGCCAACGTCACATTAGGGTCCGCAAGCAGGTGGTGAACATCCCATCCTTTATTGTTCGCCTGGACTCGCAGAAGCACATCGACTTCTCCCTCCGTTCTCCTTATGGNGGCGGCCGTCCAGGCCGAGTGAAGAGGAAGAATGCCAAGAAAGGCCAGGGCGGGGCTGGAGCTGGTGATGATGAGGAAGAGGATTAATTCTTGGCTGAACTGGAGGATTGTCTAGTTTTCCAGCTGAAAAATAAAAAAGAATTGATACTTGGAAAAAAAAAAAAAAAAAAAAGGGCNGCCNGCTCGAGCATGCATCTAGAGGGCCCTATTCTATAGGGGCACCTAAATGCTAGAGCTTGCTGACAAGCCTTGACTGNGNCTTCTAGTGNCNGNCNDatabase>emb|X66370.1|RNRPS9 R.norvegicus mRNA for ribosomal protein S9Length = 688Score = 932 bits (470), Expect = 0.0Identities = 577/613 (94%)Strand = Plus/PlusClone #T7TNNGNCCCCCTTNTACCGGCTCGGATCCACTAGTAACGGCCGCCAGTGTGCTGGAAAGCGGCGGCTCTGAGCGCCGG117AGCCGCCCCGGGACATCATGGCGGAGGTCTGCGAGCCCACCCGCCCCTCGGAGGACGAGGACGAGGAGCGGGAGCCGCTGCTGCCTCGCGTTGCCTGGGCCCAGCCGCGGAGGGTCGCGCCCGGGAGCGCCGNGAGAATGCAGGCGGACGAGGGCGCGGATGTCCTCCGCGAGCCCGCTACCGACGAGCCGCCGGCGGTGTCCGGNGAAGGGTCGANCTNNGCGAGCTTGTCCNNNGAGCTGGATNTNGACCCNCNCTACNCTCTCANTTTACNNTNATATTNTTTNNCGATTCACNATTNTTCTCCTTCNTGNCTNTNCNNCCNNTCNCCNCCNTNCNCTCTNTCTGNCNTCCTNNNTCCCTNTNNTCCTCCCTCTNTTNTNTNCCCTCANCCCCCNNNNNCCNCNCTTCCCNCNCNTCTCCCTTCTCTCNCCTCCNCCCCNCNTNNTNNCTCCTCNNCNNCCNNTCNCNNNNTCNNTNCTNCTNCCCTNCTCCCNNNCTCNNNNNNCCCNCCCTCTTCNTNTCNCTCCNNNCCNCNTCTCNNCCTNCCCCCCTNCCNTCTCNCNNNTNNNCCNCNNTCNCCCTCTCTCCCNCCTTTCTNTGTTCTCNCNNTCCTNCTNCCNANTNTCTNCCCCTNACCTCNNCCNTCTCNNTNNCNNCTTTTCNNCCTCTCCCNNNNNTCCTTTCTCANCCCTTGTNTCCTNNNCCTCTNNNCNCTNNNTCTCCNCTCCCTCCCNNCCNCTCTTCNCCTNNCCTCTCTCCTNTCTNTTNTCTCCNTNTCNTCCTCNNCNCCCTNTTCCCNCATCTCTTCCCTTTCTNTCCTCTCCNTTNCCTNCCCACGTCTTCCNTNNANCCCTNNNANNNNNTCCTTCTCTTNCNTCNTCCCCCCTCNCNNNCNCTTCTNNTNCTCNNCCNNNNTACNTNTCTCCCCNCNNTCCCTTTCTTCTNCNNCTNNNNCTCNNTTTCNCCTCNTCNNNCTCCTTTCATNCTCTCCTCCNNCATNTCCTCNNCTNCTCTCTCTCTATCNCCTCNCTNTCCATCNCNCTCTNTCTTCNCNTNCTNCCTCCTCCNCNCCTCNNCTCTCNNNNNCCCTCTNTNNNNCTCNTCCCTCATCTNCTCTCTCTCCTTCTNNNCNCNTCGTCNCTNTCCNTTCNCTNNNTNC>gb|BE161116.1|BE161116 PM3-HT0424-170200-001-b11 HT0424 Homo sapiens cDNA.Length = 132Score = 75.8 bits (38), Expect = 3e−11identities = 38/38 (100%)Strand = Plus/MinusClone #T7CCCCCTTCTTGGTACCGAGCTCGGATCCCTAGTAACGGCCGCCAGTGTGCTGGAAAGGGAGCAGCAAACGGCCGGCG118GCAGGCGCCGCGCGGGGGGCGGGCGGCGCGGAGGCGGCGGTGGCCATGGCCGAGGCGTCGCCGCAGCCCGGACGGTACTTCTGCCACTGCTGCTCGGTAGAGATCGTGCCGCGCCTGCCGGATTACATCTGCCCAAGGTGCGAGTCTGGCTTCATTGAGGAGCTTCCAGAAGAGACCAGGAACACAGAGAATGGCTCAGCCCCCTCCACAGCCCCCACCGACCAGAACCGGCAGCCATTTGAGAATGTGGACCAGCACCTGTTCACGCTGCCACAGGGATACAGCCAGTTTGCCTTTGGCATCTTCGACGATAGCTTTGAGATTCCCACGTTCCCTCCTGGAGCCCAGGCCGATGATGGCAGGGACCCTGAGAGCCGACGGGAGAGAGAGCACCAGTCTCGGCATCGGTACGGGGCCCGGCAGCCCCGTGCCCGCCTCACTGCCCGCCGGGCCACTGGCCGGCATGAAGGTGTCCCTACGCTGGAAGGGATCATCCAGCAGCTCGTGAATGGCATCATCTCTCCGGCTGCTGTGCCCAGCCTGGGCCTTGGTCCCTGGGGCGTCCTGCACTCGAACCCAATGGACTACGCCTGGGGGGCCAACGGCCTGGACACCATCATCACGCCAGCTCCTTAATCNGTTTGAGAACACCCGGNCCCCCCACTTGCAGACAANGAGAAGAATTCAGGCTNTTCCCCNCGGTCCCAGTCACAGANGAACACNGTGGGCTTCANGGGNTTGAGTGCCCAATGGTGTNAAGNAAGACTATTCCNCTGGGTNANAAATNTGCCGGCAAANTGCCCTTGNAACCNCTTGTTCCCNGANAAGCTGCATCGNNCCCNTGCTTNGANCNANCATNACAGCTTGNCCGGGCTGNCNTAAGANCCCTCNNTGGACAGAAACNCAGCCCCCAATCCCCCAGCTTTGACCGGGGAAGGTTNTTCCTCGCCNNGNCTTAANCCTTCTCCANTTCNCCACNATTGGAACCCCCCAAGNAAAATNTGGNGCCNNCTTGCNAACCCCCCGGGGNTGNGANTCCCCNCCCCGGGGCCCAAAACGCCNCTTTCCCCCCCCNGCTTGGGNAAAAAGGTTTCCCTGGGGCCGAAACNTGGGGGCCCANTTTGNNNNNTTTNATTCANGGCCNCTTTTGGGGNTCCNGGNCNNTCCNNGGNNGNTTTTTTTTNDatabase>dbj|AK000559.1|AK000559 Homo sapiens cDNA FLJ20552 fis, clone KAT11732Length = 1362Score = 547 bits (276), Expect = e−153Identities = 527/610 (86%), Gaps = 7/610 (1%)Strand = Plus/PlusClone #T7ATGGCGGCTCTGCCCTTCCTCATCATCGAGACAAGCACCATTAAGCCTTACCGTCGAGGGTTTTACTGCAATGACGAG119AGCATCAAGTATCCCCTGAAAGTCAGTGAGACTATAAACGATGCTGNGCTCTGNGCGGNGGGGATCGTCATCGCCATCCTGGCGATCATTACAGGGGAATTCTACCGGATCTATTACCTCAAGGAGAAGTCCCGCTGCACCACTCAGAACCCGTATGTGGCAGCNCNCNATAAGCAAGTGGNATGCNTCCTTTNNGNTGTGCCAATTAGCAAGTCCTTCANNGNGATCGCCAAAGTGTCCATCGGGCGCCTAAGGCCTCACTTCCTNAGCGTCTGTGAGCCTGATTTCAGTCAGATCAATTGCTCCGAGGGCTACATTCAGANCTACAGGTGCAGAGGAGAAGNCAGCANAGTACAGGAGGCCAGGAAGTCCTTCTTCTCGGGCCACGCCTCCTTCTCCATGTTCACTATGCTGTATCTGGTGCTCTACCTTCAGGCCCGCTTCACCTGGCGCGGGGCCCGACTGCTCCGCCCCCTCCTGCAGTTCACTTTGCTCATGATGGCCTTCTACACGGGATTGTCACGGGTATCTGACTACAAGCATCATCCTAGCGATGTCCTGGCAGGATTTGCCCAAGGAGCTCTGGTGGCCTGCTGCATAGTGTTCTTCGTGTCCGACCTCTTCAAGACTAAGACGAGCCTCTCNCTGCCCGCCCCTGCGATCAGGAGGGAGATCGTGTCTCCCGTGGACATCATCGACAGGAACAATCACCATAACATGGTGTAGDatabase>ref|NM_003713.1| Homo sapiens phosphatidic acid phosphatase type 2b (PPAP2B) mRNA, and translated productsLength = 1362Score = 535 bits (270), Expect = e−149Identities = 470/537 (87%). Gaps = 4/537 (0%)Strand = Plus/PlusClone #T7 sequenceGGGAAGCTGAAGCAGTTCGATGCCTACCCTAAGACTCTGGAGGACTTCCGGGTCAAGACCTGCGGGGGTGCCACG120GTGACCATCGTCAGTGGCCTTCTCATGCTCCTGCTTTTCCTATCGGAGTTGCAGTATTATCTCACTACGGAGGTGCATCCTGAGCTCTACGTGGACAAGTCTCGGGGGGATAAACTGAAGATCAACATCGATGTTCTTTTCCCGCACATGCCTTGNGCCTACTTGAGCATCGATGCCATGGACGTGGCCGGGGAGCAGCAGCTGGATGTGGAACACAACCTGTTCAAGAAACGACTAGACAAGGATGGCGTCCCCGTGAGCTCAGAGGCTGAACGGCACGAGCTTGGGAAAGTCGAGGTGACAGTGTTTGACCCCAACTCCTTGGACCCCAATCGCTGTGAGAGCTGCTACGGCGCTGAGTCAGAAGACATCAAGTGCTGTAACAGTTGTGAAGATGTGCGGGAGGCCTATCGCCGTCGAGGCTGGGCCTTCAAGAAGCCCGGACACCATTGAGCAGTGTCGGCGAGBGHCCTATCACAATTCATATTTATTGCCCTGGGCTGGGCTGGCTGAGGAGAGGATATGGGTAGTTGACAGGCTGGAGGsequenceGTAAACCCACAGGAGAAGAGAGGGCAGGACAAGCTGTGGGGAAGGGAGAGAGCTACGTTGTCTTCCCTAGGTCAATTTTCTTCTGGATGGCCCGAGCGGAGTGGTAGATGAGCGAGTCAATGAGGCCGGCCANTGTAAACATGCCCCCAATGATGGCGCACACACCTGTCAGGAAGTGGGTGAAAGACCTGTGTTTCTCCGTCAGCTTCACCATCATTGGTGAGAGCTCATACAGCACAAAGACCCCCGGNAGGCCCTGGTCACCCAGGAGCCCATTGGCAACCTTCTCGNGCCTGGTCACGGANAACTGGTTAGTCCTCAGCACCTCCCCGTCCACCTTCATGTACACTGNGGGCACCACNTTCACAAAGTACTGGAACATCATGGAGGCTTGGGGTGCAGTCACGTTGGTGTGGNCTAGGGGGTTCACGATTCCTGGATAGTCCTCCCCGAATGACAGGTGCTTGATGTAGTGTGNCATGTTGATATTGTCAAGGCCAAAGCTNTGCAAGTCATGAACATGCACATGAGACTGTTGGAAGCTCTTNCCAGGGGCAAAGTGGAAGTTTCCAGCCACCTTGTTGACCTCCAAGAAGCCNNACACCTGGCAGCCTTCATTCTTCTGCTCCTGCATCTTCTGGCTGAAGCCCTTTCGCGACACTGTTNTotalcDNA,Human calcineurin B mRNA, complete cdsEST clusterLength = 2548Score = 363 bits (183), Expect = 6e−98Identities = 291/329 (88%)gb|M30773.1|HUMCNRMotifsClone #T7 sequenceCTGGAAAGGGGCGTTGAGCAGCTGGGACCGGAGTTGTGCTCACCGGGGTCGGGCCAGGTCGCTGCTGCTCTGGCC121ATGGCCGAGGCACGCGCATCTCGCTGGTACTTTGGGGGGCTGGCTTCCTGCGGAGCCGCTTGCTGCACGCACCCGCTGGACCTGCTCAAGGTGCATCTACAGACCCAACAGGAGGTGAAGCTGCGCATGACTGGAATGGCACTGCAGGTGGTGCGAACTGATGGCTTCCTGGCGCTCTACAACGGCCTGAGTGCCTCGCTGTGCAGGCAGATGACCTACTCTCTGACTCGGTTCGCAATCTACGAGACCATGCGGGACTACATGACCAAGGACTCCCAGGGGCCTCTCCCCTTCTACAACAAGGTGTTGCTGGGCGGCATCAGTGGTTTAACTGGAGGCTTCGTGGGGACCCCAGCAGATTTGGTCAATGTCAGGATGCAGAACGACATGAAGCTGCCCCCGAGCCAACGACGCAACTACTCTCATGCCCTGGATGGTCTGTACCGTGTAGCCCGTGAAGAAGGCCTGAGGAAGCTCTTCTCTGGAGCAACTATGGCGTCCAGCCGTGGGGCCCTCGTCACTGTGGGCCAGCTGTCCTGCTATGACCAGGCCAAGCAACTGGTCCTCAGCACTGGGTACCTGAGTGACAACATATTCACCCACTTTGTCTCCAGTTTCATTGCCGGCGGATGTGCCACATTTCTGTGCCAGCCCCTCGATGTGCTGAAGACTCGCCTGATGAACTCCAAGGGCGAGTACCACBGHTGCAGGGAAGACAGAAAGGCCTCCCAGGCCACTTGGTTTATTAGATCCTGAAGAGAGGTGTAGGCAGTGCCCCTGGsequenceGCCGCTGCCACCTCCTGGGGGAGGACCTGTGGGAGGCACAGGGCCGAACCTCGTTTTGATACACAGAACCCCATTTGAGGGAAAACAGGCTGCTTCGAAGCCTGAGGGATGGTGAGGGGTGATGCCTGCCATACAGGAAGCCAGGTCCTGGGAGGGCACAAACGATGAATCCATCACTGCCCCAGCTCTGCCAGCATGCCCACCTGGCCCTGGGGAAGCCAGGCAAGGGAGGGCACAGGCGTGTGAGGGACACAGACAGTTCCTGGTGACGGCAGTAGCTGCTGAGCAGGAGGGTTGAGCAAAACTGACCATTAGAGCAGCCAAGGCTGCATATAGGAGGTGCGCTCGGGAACCCCAGGCACTTTCTCTGGACTCCACGGTCATGGCTTCTGCTGGTGATCTGCACTGCCTGCCTGTCCCCTCTCCTGAAGGCACTACCTTCCAGAACACAGCACGGTGGTCCCTCTTGTGACAAAGTGCTTGTGTGTGTGCTCTAGTCATTTGGTAAGCAGAAGCTGCGAGGGGCCATACCCTGCCACACTACCCAAGTTCTGGGCNGGAAACTGCTCCCTGCACAGAGGGCCAGCGGGAGCAGGAAACGAACTCAACTTCGCTGGGCTTGCCAGGCANGGCACGGTAGCAGCCAGGGAGGTTGGGACAGTGACANCAGNCAGGCAGACTTTTTTGNGGAATAATNGNACTotalcDNA,Mus musculus solute carrier family 25 (mitochondrial carrier;adenine nucleotide translocator), member 10EST cluster(Slc25a10),mRNALength = 2021Score = 1404 bits (708), Expect = 0.0Identities = 753/768 (98%)ref|NM_013770.1|gb|AF188712.1|AF188712 Mus musculus mitochondrial dicarboxylate carrier mRNA, complete cds; nuclear gene for mitochondrial productLength = 2021Score = 1404 bits (708), Expect = 0.0Identities = 753/768 (98%)Clone #T7 sequenceATGCACCACCAGTCTGTTCTGCACAGCGGCTACTTTCACCCACTGCTTCGGAGCTGGCAGACTGCTGCCTCCACCGT122CAGTGCCTCCAACCTCATCTATCCCATCTTTGTCACGGATGTTCCTGATGATGTCCAGCCTATCGCCAGCCTCCCAGGAGTGGCCAGGTATGGCGTAAACCAGCTAGAAGAGATGCTGAGACCTCTGGTGGAAGCTGGCCTGCGCTGTGTCCTGATCTTTGGCGTCCCCAGCAGAGTTCCCAAGGATGAACAGGGCTref|NM_008525.1|Mus musculus delta-aminolevulinate dehydratase (Lv), mRNALength = 1080Score = 543 bits (274). Expect = e−152Identities = 274/274 (100%)Strand = Plus/PlusClone #T7 sequenceTTCGCCCACGCCTTGGTACCGGCTCGGATCCCTTGTAACGGCCGCCAGTGTGCTGGAAAGCAACCGCAACCTGACG123TTGACCAAGAAGGAACCTGTTGGGGTCTGTGGTATTGTCATCCCCTGGAACTATCCCTTAATGATGCTGTCCTGGAAGACAGCAGCCTGCCTGGCTGCCGGGAACACCGTNTTGATCAAGCCTGCCCAGGTGACCCCACTCACAGCCTTGAAGTTTGCAGAGCTGACACTGAAGGCTGGCATTCCCAAGGGTGTGGTCAACATCCTCCCAGGATCNGGCTCGCTGGTTGGCCAGAGACTCTCAGACCACCCTGATGTGAGGAAAATAGGGTTNACAGGCTCCACGGAGGTGGNAAAACACATCATGAANAGCTGTGCCCTGNGTAATGTNAAGAAGGNCTNCCTGCAGCTGNNNNTAAAGNCACCCTTNTCATCNNTCCTGCTGNNNCCTNgb|M59861.1|RAT10HCO Rattus norvegicus 10-formyltetrahydrofolate dehydrogenase mRNA, complete cdsLength = 3109Score = 555 bits (280), Expect = e−156Identities = 343/367 (93%)Strand = Plus/PlusClone #T7 sequenceGGGGGTGCGNGGNGGNGGGCCGTCCCCNGCCTNCCCTNCGNGCGCCGGGTTTCGCCCCCGCGGNGTCNNNCCCCNN124NGANTNTACNNCNCGACGAGTNTGAGGGCCGCTGCNGTGAGCCTTGAAGCCTATGGCGCGGGCCCNGNTGGAGCCGCCGNAGGTGCATATCTTGNTGGTANTAGCAAATATTCANACNATAACTTTGAATGCCNAAGTGGANAANGGTTCCATGTGAANAGCAGTTGATCATGGGTNANNTNGGTCCTGANAGATGGGCGAGTGCCGTTCCGAANGGACAGTCGATGGCCTCCGATGACCTCGGNCGATCANAAAGGGAGTCNGGTTTANATCCCCGAATCCNGAGTTGGCNGANATGGGCGCCNTGAGGCGTACAAATGCGGTAACNNGACCGATTGCTGAGAANCCNNCNNGAGNNNCGGANAGAGNTCTNTTTTNTTTGCGAAGGGCATTNGCGCCCTGNAATGGNTTCAGNNCCTANAGAGGGNTCCNTGCCTTGTAAAGCGTCGCNGTTCCNGANGNGTTTCTNGTGAGCTCTNCTNNGCCCTTGNAAATCCCGTGNNANAGGGTGTAAATTCTNTGTCNCGGGCNCNAACNNATATTNCTTATGCATGATCNTCNAANNTTTAACCANCCTNATGGCCATGTTNGCNANAAATTGNACCTCTAANGTTAAAGTTCCNNCNATTNCCTNNANNCCTTNTAANCTTTNNNNGNAATAAATNGATTTGGNCCTTTTTAAATGGGCCTTNGGGTCCNGNNNCCGGNANNTTTGNGNTGCNNTCCNAAAAACCCNCATGGNNTTNGNAACNTTCCNCNNNNCCCNNTNNTNTTTTNTAACNTAANTGGTNGTGCTNCTCNCNCTTCTTTCTTTANNCBGHTGCAGGGAAGACAGAAAGGCNTCCCAGGCCACTTGGTTTATTAGATCCTGAAGAGAGGTGTAGGCAGTGCCCCTGGsequenceGNCGCTGCCACCTCCTGGGGGAGGACCTGTGGGAGGCACAGGGCCGAACCTCGTTTTGATACACACAACCCCATTTGAGGGAAAACAGGCTGCTTCGAAGCCTGAGGGATGGNGAGGGGTGATGCCTGCCATACAGGAAGCCAGGTCCTGGGAGGGCACAAACGATGAATCCATCACTGCCCCAGCTCTGCCAGCATGCCCACCTGGCCCTGGGGAAGCCAGGCAAGGGAGGGCACAGGCGTNTGAGGGACACAGACAGNTNCTGGNGACGGNAGNATCTGNTGAGCAGGAGGTTTCAGCANANCTGANCATTANAGCANNCAAGGCTNNATATAGNANGTGCNCTNGNNAACCTNANNCNNTTTNTCTGNACTNNANGNNCTGNCTTCTGNNGNNGATCNGNNCTNNNTNCTNTNCCNTNTNNNTNAGGTotalMouse 285 ribosomal RNAcDNA,Length = 4712EST clusterScore = 333 bits (168). Expect ' 7e−89Identities = 320/380 (84%), Gaps = 4/380 (1%)emb|X00525.1|MMRNA02 Hydrolagus colliei internal transcribed spacer 1, partial sequence; 5.8S ribosomal RNA gene and internal transcribed spacer 2, complete sequence; and 28S ribosomal RNA gene, partial-sequenceLength = 4463Score = 218 bits (110), Expect = 3e−54Identities = 249/300 (83%), Gaps = 3/300 (1%)Strand = Plus/Plusgb|AP061799.1|AF061799 Squalus acanthias internal transcribed spacer 2; and 28S ribosomal RNA gene, partial sequenceLength = 3650Score = 216 bits (109), Expect = 1e−53Identities = 229/274 (83%), Gaps = 2/274 (0%)gb|AF061800.1|AFC61800


[0189]

3






TABLE 2










Clone 0001-T7 Sequence



AGCTCATGTTGGACAGTCGTGTGAGGAGCTATGGAGCACAGCAGTAATCGCCCAGAGGACTTCCCGCTTAACGTGTTCTC





TGTCACTCCGTACACACCCAGTACCGCCGACATCCAGGTGTCCGACGACGACAAGGCAGGGGCCACTTTGCTTTTCTCAG





GCATCTTTCTAGGACTGGTGGGGATCACTTTCACTGTCATGGGCTGGATCAAATACCAAGGTGTCTCCCACTTTGTANAT





GGACCCAGCTCCTCGGACCCATCCTTCTGTCGGTCGGAGTGACATTCATCCTGATCGCTGTGTGCAAATTCAAAAYGCTA





TCCTGCCAGTTGTGCTCAGATAACGAGGAGAGGGTCCCGGGACTCCGGACCAGGACTTCCSGAGGACAGTCGTTCGTTTT





CACTGGCATCAATCAGCCCATCACCTTCCACGGGGCCACCGTGGTGCAGTATATCCCTCCTCCTTACGGTTCTCAGGAGC





CCCTGGGAATGAACGCCACCTACCTGCAACCCATGATGAATCCTTGCGGTCTCATACCTCCTAGTGGAGCAGCGGCTGCC





GCACCAAGTCCCCCTCAGTACTACACCATCTACCCTCAAGACAATGCTGCGTTCGTNGAGAGNTGAGGGCTTCTCTCCTT





TCGTGGGCACTGGATATGACAGGCCCGACTCTGATGCTGACCAGCTAGAAGGGACGGAGTTGGAAGAGGAGGACTGCGTA





TGTTTCTCTYCTCCACCGTATGAGGAGATATACGCTCTACCTCGCTAGAGACTGCAATGCTAAGGGGACGGACATTTAAG





CCCCTGNGATGTGATACTTGGAGAGTTTATCGCTGAGTTCTTCAGAAGTTAGGTGTCAAAGCAGCTNAGGAGATCTTACA





GATGTCATTNAAGGNGGGAAAGAAGTGCCCNGAGACTGCTAAATTAAGCTGCCCTGGTTAAATTCCCCTCTGCTCTGGTT





TTGAATTCTCTCAGCTAAGAAACCCTCTGCAGCTGGAGAGTCGCTCTGAGATAGAGAGATTTNGGAGCCCACGCAGNGCC





T





Clone 0001-BGH Sequence


ATAGACATGTCTAGTTTTTTATTACTAGTTATCATCCAAGTGAAATGTCCCTGAGGCATAATATGAATCACAATAATAAA





CCAAGATTGTTTTGCTGATATCCTTGAAAAACCTGGACTCTTCTGACAGAGAGTAAAAGCAATCCCACATATAAGCACAG





TACCAAAACCTTCAAGACCTGACAATTCCTGTATCTCTCTTGGGGGCAGCCACCTTTACCTTGAGTGGCCTTTGATCTTT





GTAAAACTGTTTTCTTTCTAATTCTTTGGACACCTCCTAAAGTCTGCAGCTTTGGGCTGNGGTTGGTGACACCGTTCAGA





CTTAGGAAGCTGAAGGCTACCAGCTTTTCTTTGTTCAAATGAAGGTGAGAGCTACGCCCGGGGGCGGAGGKAGRGGGAGA





CGGGATGACTGATCATCTCCATGATTCATGACTACAAAGCGACACGGCAGNATGGCTCTGNGGAACAGATCAGAGGCATA





CCTGTGTTCCATAAGCNACTCAGCTGTACCTGCGTTCTGTAAGCCACTCGGCTGAGCTAGTTCGNGCCTGGGAATCACAG





CCTGGGGGNGGGCAGAGGGAGCAGGCGCTNACCNATGTACATTACGCCTTGAACTTCANCCTTGCAAAGGAAAACNATCA





NGAGCAGGGGTCACTNTAACTCGGNGGACAGCACATGGNGACATTCATTATCCTCCTGNTACCTCGTCCACAGTAGGATC





GGCCACCCAACACTATTCTAACATGGGGCACTGTTTCATCCNACTCTACTTATTCATTTATTTCTTAATGGATTTTATTT





CTTTAACAAACTCTTNAAGATCCAAAGGCTTCCAGNGAGACCANATAANAGTCNAAGTTGTCTAANATAAGTNACTCTGC





TGCGGAAGGTTCAGNGCCGTGCAGGGAAATTTCTACCTGAGCCTGCTCTCTTCCCTGCTTGCTTGCCAGCCTCCCTTTNA





TCANTCTNAGAGCTGCCATGGCTGCCCGGATTTAAAACTAANACAATCTTTNAAAACTAAGATNTCCTTTAAATGAATAT





TCCGCATGG





Clone 0002-Contig


CGCCGCCTGAGCGCCCGGCCCGACCCCGCCATGGGGTGCTGCTATAGCAGCGAAAACGAGGACTCGGACCAGGATCGGGA





GGAGAGGAAGCTGCTGCTGGACCCCAGTAGCACCCCTACCAAAGCCCTCAATGGAGCCGAGCCCAACTACCATAGCCTAC





CTTCAGCTCGCACAGATGAGCAGGCCCTGCTTTCCTCCATCCTTGCCAAGACAGCTAGCAACATCATTGATGTGTCTGCC





GCAGACTCCCAGGGCATGGAACAGCATGAGTACATGGACCGGGCAAGGCAGTACAGTACCCGCTTGGCTGTGCTTAGCAG





CAGTCTGACCCATTGGAAGAAGCTGCCACCGTTGCCATCTCTCACCAGCCAGCCCCACCAAGTGCTGGCCAGTGAGCCTA





TCCCCTTCTCTGACTTGCAGCAGGTCTCCAGGATAGCTGCGTATGCCTATAGTGCACTTTCTCAGATCCGCGTGGATGCG





AAAGAAGAGCTGGTTGTACAGTTTGGGATCCCATGAAGAGAGGGGCCCTAGGACAGCTCTTCCCTCGTCTTCACCCCGTC





TCCACCCCACCTCTTCTGGCCCCCAGCCTCACTGTGGCTCTCTACAGTACCTAACCTGCTACTAATCACGGAGAAGAATG





TGGAGGGAAAGAACAAGGCTGGAGGCCGGAGCAAGTGAGGACTAAGCAAGGGAAGGGAGGACCGATTGCCATCGGCCTTC





ATGCTCTGGTTAGGGTGAGGTTGGGGCCAAGAGGACAGGGCCTGGCAGATCTTCAGTCATTGGGAAGATGGAGATACCNC





TGTAGGGGTGACACCGGGAGACCTAGCAGATCCCTTCCTGCCCTCTTTCTCTTGGCCTCCGATTCACTCCTGTCCCCTTC





CCTGACTTGGTGCTCACAGGCACCTCACTGGGGATTATGACCAGGGTCTAGACGAGCTTGAGTCTGAATTGAGTTTGTAT





TTCTACACCCTGGGTTTTTACATGTTTGCTCTTTTTGTTTTTGTTTGTCACCCCTCGATAAAGAAAGTATATTCATTTG





AAAAAAAAAAAAAAAAAAA





Clone 0003-T7 Sequence


AGGTTCCTGTCGTTTATGCTGCGCGCCGCGAGCATCTTCGTGAAGGACGCTGTGCTCTASTCTGGCTTCACGCTGGATGA





GGCCGAGCGCCTCACGGAGGAAGAGTTGCATATCATCGCGCAGGTGCCGCCTCCACCCGCCGCTGCCGCCGTTGGCTACG





CTGGCTGCCGTGTGGCTGTGACCTTCTTCCTCTACTTCCTGGCTACCAACTACTACTGGATTCTGGTGGAGGGACTGTAC





TTACACAGCCTCATCTTCATGGCCTTTTTCTCAGAGAAGAAGTATCTGTGGGGCTTCACCATCTTTGGCTGGGGTCTGCC





GGCTGTCTTCGTGGCTGTGTGGGTCGGTGTCAGAGCAACCTTGGCCAACACTGGGTGCTGGGACCTGAGCTCTGGGCACA





AGAAGTGGATCATCCAGGTGCCCATCCTGGCATCTGTTGTGCTCAACTTCATCCTCTTTATCAACATCATCCGGGTGCTT





GCCACTAAGCTTCGGGAGACMAATGCGGGCCGGTGTGACACCAGGCAGYAGTACCGGAAGCTGCTCACGTCCACGTTGGT





CYNGCGCCACTCTTTKGTGTCCACTACACCCGTCTTCATGGCCTTGCCGTACACCCGAGGTCTTAGGGACACTGGGGCA





ATCCAGATGCACTATGAGATGCTCTCTTTAACTCCTTTCAGG





Clone 0004-Contig


AGGCGCTGCCTACCAGAGCGCAGCATGACGGCCATCGGCGCGCAGGCCCACAAGCTGTTGGGCCTTAAGAGGCCCCACCG





GTCTTTCTTTGAGTCCTTCATCCGGACACTCATCATCGTGTGCACTGCCCTGGCTGTGGTCCTTTCTTCAGTCTCCATCT





GCGATGGCCACTGGCTCCTAGTGGAGGATCATCTCTTTGGGCTGTGGTACTTCTGCACCATCGGCAACCACAGTGAACCA





CACTGTCTGAGAGACCTGAGCCAGGCCCATATGCCCGGGCTGGCTGTAGGCATGGGCCTAGCACGCAGTGTGGCCGCCAT





GGCAGTGGTGGCTGCCATCTTCGGCTTGGAGATGCTCATTGTGTCCCAGGTGTGTGAAGATGTCCGCTCACGGCGCAAGT





GGGCCATCGGTTCCTACCTCCTCCTGGTTGCCTTTATCCTCTCCTCTGGGGGCCTCCTCACCTTCATCATCCTGCTCAAG





AATCAGATCAACCTCCTGGGCTTCACCCTGATGTTCTGGTGTGAATTCACTGCCTCCTTCCTCTTCTTCCTCAATGCCGC





CAGCGGCCTTCACATCAACAGCCTCACTCAGCCCTGGGACCCTCCAGCAGGGACCCTGGCTTACAGAAAGCGAGGTTATG





ATGGGACTTCTCTGATATAGGACCTCTGGCTGAGATTGAATAGGACAACCAATGACCTTGACACTGCCTCTTAGGCACTT





AGCTCTAGCAATGCCCTGGAAGTCTCTTCAGCTGAGCTCCAGGGCAAAGGCAGAAGGGTGCCTCTGTACGACGGCACAGT





GAGCTGGATAGGTTAGTCATGCTATTAAAATCTCAATTTGAAAGTAAAAAAAAAAAAAAA





Clone 0005-Contig


AGCAGACTCAGGAAGAAACCATGGTGCTCTCTGGGGAAGACAAAAGCAACATCAAGGCTGCCTGGGGGAAGATTGGTGGC





CATGGTGCTGAATATGGAGCTGAAGCCCTGGAAAGGATGTTTGCTAGCTTCCCCACCACCAAGACCTACTTCCCTCACTT





TGATGTAAGCCACGGCTCTGCCCAGGTCAAGGGTCACGGCAAGAAGGTCGCCGATGCTCTGGCCAATGCTGCAGGCCACC





TCGATGACCTGCCCGTGCCCTGTCTGCTCTGAGCGACCTGCATTGCCCACAAGCTGCGTGTGGATCCCGTCAACTTCAAG





CTCCTGAGCCACTGCCTGCTGGTGACCTTGGCTAGCCACCACCCTGCCGATTTCACCCCCGCGGTGCATGCCTCTCTGGA





CAAATTCCTTGCCTCTGTGAGCACCGTGCTGACCTCCAAGTACCGTAAGCTGCCTTNTGCGGGGCTTGCCTTCTGGCCAT





GCCCTTCTTCTCTCCTTGCACCTGTACCTCTTTGGTTTTGAATAAAGCCTGAGTAGGAAGAAAAAAAAAAAAAAA





Clone 0006-T7 Sequence


AGGGGCTTCGGACCCGGAAGTGGCGCCTTGGGCTCCCGGCGGCGCCGCGGGGATGGCGGGAGCCGGAGCTGGTGCAGGAG





CTCGGGGCGGCGCGCCGGCCGGAGTCGAGGCCCGCGCTCGGGACCCGCCACCCGCGCACCGCGCGCACCCTCGCCATCCT





CGGCCCGCGGCTCAGCCGTCGGCGCGCAGGATGGACGGCGGCCCGGGCGCCCCGGGCTCCGGGGACAACGCCCCGACCAC





CGAGGCGCTGTTCGTGGCGCTGGGCGCGGGCGTGACGGCTCTCAGTCACCCGCTGCTCTACGTGAAGCTGCTGATCCAGG





TGGGTCATGAGCCGATGCCCCCCACCCTTGGGACCAATGTGCTGGGGAGGAAGGTCCTCTACCTGCCGAGCTTCTWCAAC





CTATGCCAAGTACATTGTGCAGGTGGATGGGAAGATAGGGCTCTTCCGGGGCCTGAGCCCCCGCCTTATGTCCAACGCCT





TGTCCACTGTGACCCGCGGCAGCATGAAGAAGGTTTTCCCTCCAGATGAGATGGAGCAGGTTTCCAAACAAGGACGACAT





GAAGACCTCACTCAAGAAAGTTGTGAAGGAGACATCGTATGAGATGATGATGCAGTGTGTATCGCGAATGCTGGCCCATC





CCTTACACGTGATCTCGATGCGATGCATGGTGCAGTTTGTGGGACGGGAGGCCAAGTACAGTGGTGTGCTGAGTTCTATT





GGGAAGATCTTCAAGGAAGAGGGGCTGCTGGGATTCTTCGTTGGCTTAATCCCTCACCTCCTGGGCGATGTGGTTTTCTT





GTGGGGCTGTAACCTGCTGGCCCACTTCATCAATGCCTACTTGGTGGACGACAGCTTTAGCCAGGCCCTGGCCATCCGGA





GCTACACCAAGTTTGTGATGGGGATTGCAGTGAGCATGCTGACCTACCCCTTCCTGCTCGTTGGAGATCTCATGGCAGTG





AACAACTGTGGGCTGCGGGCTGGACTCCCTCCGAATTCCCCTCAGTTCAAGTC





Clone 0006-EGH Sequence


GAGCAGTGTTGGGGTGGCATCCCCCTTCCTGCCTAGAGGTACTGGAGTCCATCTTGTACTCAGGCAGAGGCAGGCTGCAG





AGGCAAACGTCACTCAGTGCCAACGCTTCCCTGCACCTCTAGCCCAGCTCATCCTGCCAGTCAGCCAGAAGCACCCCCGC





CCCCCACTTCCTGCTTTGTAAATTGGGCGCCATCACACCTGGGCCATGGGAGGCTGGCGCTATGTTCCCAACACTAATTT





TCTTATACAAGGGTGGTGCCTTCTCCTGAATAGGAAATCATGTTCTCCTCAGACCATCCCCTCATCTGCTTGTCTGTGCT





GGTGACGCCAGGTGTGAGGGTTCAGTCACTGTGCTGGGTGCGAATACGCACAGGTTACATAGGCCGACATCTAGTCCTCC





CCTCGTGGTAAGATAGACCCATCTCCTCGAATAAATGTATTGGTGGTGATTTGGAAAAAAAAAAAAAAAAAA





Clone 0007-Contig


AGCTCCGCCCCTGCTACTGGACCATGGARACTGTGGCCCAGTAGAGACCTTAGTGTGAGGCTTTCAGGGGCGGCGGCCAT





GGAGGCCGTGCTGAACGAGCTGGTGTCTGTGGAGGATCTGAAGAATTTTGAAAGGAAATTTCAGTCTGAGCAGGCAGCTG





GTTCTGTGTCCAAGAGCACGCAATTTGAATATGCCTGGTGCCTGGTTCGAAGCAAATACAATGAGGACATCCGCAGAGGC





ATCGTGCTGCTGGAGGAGCTGTTGCCCAAAGGGAGCAAAGAGGAACAGCGGGACTATGTCTTCTACCTGGCCGTGGGCAA





CTACCGGCTCAAGGAATATGAAAAGGCTCTAAAGTATGTGCGAGGGCTGTTGCAGACTGAGCCCCAGAACAACCAGGCCA





AGGAGCTGGAACGCCTGATTGATAAGGCCATGAAGAAAGATGGACTGGTAGGCATGGCCATCGTTGGTGGCATGGCCCTG





GGCGTGGCAGGCCTGGCTGGACTCATTGGACTGGCTGTCTCCAAGTCCAAATCCTGAAGGCAGCCTCACCTGCTCTCTGC





CCCGGGACGCCTAGGAGCCTGGGGGACACTGGAAGAGGGGCCTGTCCATCCTCACCATCGCCTTCCCTTTTCTCCTGCAC





CCCTGTAGTCTACCTCTACAGTCTCCATGACCCCCAGCCTYTTAGCCCCTGCACCTGTCGTTTAACCCTGTCATGCTTTG





CAATGAGTGTAAATAAAATTGGGCCGTGGCTCGGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0008-Contig


AGATTGACTTGGGCACTGACATGCTTCCTGCCATCTCCCTGGCCTACGAGCAAGCTGAGAGCGACATCATGAAGAGGCAG





CCCAGAAACCCCAAAACGGACAAACTTGTGAACGAGCGTCTGATCAGCATGGCCTATGGACAGATCGGTATGATCCAGCC





CCTGGGAGGCTTCTTCACTTACTTTGTGATTCTGGCTGAGAACGGTTTCCTGCCCTTTCACCTGTTGGGCATCCGAGAGA





CCTGGGATGACCGCTCGGTCAACGATGTGGAGGACAGCTACGGGCAGCAGTGGACCTACGAGCAGAGGAAGATCGTGGAG





TTCACCTGCCATACAGCGTTCTTTGTCAGTATTGTGGTAGTGCAGTGGGCCGACTTGGTCATCTGCAAGACCAGAAGGAA





TTCTGTCTTCCAGCAGGGAATGAAGAACAAGATCTTGATATTTGGCCTCTTTGAAGAGACAGCCCTTGCTGCTTTCTTAT





CCTACTGCCCCGGGATGGGGGCAGCCCTTAGGATGTATCCCCTCAAACCTACATGGTGGKTCTGTGCCTTYCCCTACTCC





CTTCTYATCTTTGTGTATGACGAGGTGCGGAAGCTYATTATYACGCGGSGCCCTGGCGGCTGGGTGGAGAAGGAGACCTA





CTACTAGCCCYACTGCCCTGSACGCCGKGGAACATTGTGCCACACACTGCACCCACCCCWACCCCCTCTWYSYSYMCTTY





AAGTYTTGGAGCTCGGRACTCTWCCCTSRWAGGRWWKYWSSRARSCMTKTGGGRATKYWKACSYCYTGGRATGRAGSAWR





TAGCTGYAMCSSRRRRCSGKKYGKKGGGGAGGRYTGCCTGAGAAACNCCGTGTMCKKGGACGACAKCGGRMAAGRATTKW





TACGTGCCTTTTTGTTTTTGTAAAAAAGGAAAACCTGGAAAGACTGAAAGATTACGTTTTATATCTGGATTTTTACAAAT





AAAGATGGCTATTATAACGG





Clone 0009-T7 Sequence


AGCCGGAGGCCGAGCCCAGTCGCCAGCTCCTGCTCTGCTCCTCTCCCGCCTGCCGCCGCGCTGCACGCCTCGAGCACTCC





CTCGGCCCCGCCGGGGACCGGGGACCCCGCAGCTACCGCCATGCTGCCAGTGCTCTACACCGGCCTGGCGGGGCTGCTGC





TGCTGCCTCTGCTGCTCACCTGCTGCTGCCCCTACCTCCTCCAAGATGTGCGGTACTTCCTGCGGCTGGCCAACATGGCC





CGGCGGGTGCGCAGCTACCCGCACCGGCGACCCGTGCGTACCATCCTGCGGGCCTTCCTGGAACAAGCGCGCAAGACCCC





ACACAAGCCCTTCCTGCTGTTCCGAGACGAGACGCTCACCTACGCCCAGGTGGACCGGCGCAGCAACCAAGTGGCGCGGG





CGCTGCACGATCAACTGGGCCTACGACAGGGGGATTGCGTAGCCCTCTTCATGGGCAATGAGCCGGCCTACGTGTGGATC





TGGCTGGGACTGCTCAAACTGGGCTGTCCCATGGCGTGCCTCAACTACAACATTCGTGCCAAGTCTCTGCTGCACTGCTT





TCAATGCTGCGGGGCGAAGGTGCTGCTGGCCTCCCCAGATCTACAAGAAGCTGTGGAGGAGGTTCTTCCAACCCTGAAAA





ANGATGCCGTGTNCCGTCTTTTACGTAAGCAGAACTTCTAACACAAATGGTGTGGACACAATACTGGACAAAAGTAGA





Clone 0009-BGH Sequence


TTTTTTTTTTTTTTTAGTGTTAATATAGTTTATTATGTCTTTAAAAAAATAAGGCCCTCTCTCCAAGAAGCTTAGTTTGC





AAGGACAAATGGCAGGTGCACATTGAAAAATAATTGTTTCTAAATCTTTTTACTTGCAAAGGTTCAGGTGTAATTTAAAA





AAAAAACAAACAAACTATCCTTTTAATGAATAATTTCCTAAAAATAAAATCGCACCTTATAGCCTTCAATCAAGTTAAAG





TTGGATTCTACGTATGAAGTGGCTCTGCGAGGTCTATCGAGTTTCTTTCTGGAAATGTCATGAGCTAAACCACCAGGGAA





TATTCAGAGCTTCAGAGTTTTATCAATTATGCCATTATAAATGTTCTCAGTCATGGGCACAAATGTTTTCTCTCCATCAT





CCATGAAATACAAGGTATCTTTGATGACTGTGGGATTGAAGCCCTCTTCCATCAGGGTCACTTTGCGGTGTTTAAAAGTC





CCAGTGATCTCAATGGTATCTTGTATCCTCAGGAACCGAGGCCTCGCGTAACTGGGCACCTACTCCGCGATGTGTTGAAA





GAGTTTCTTTCCATTGAACTCGTAGTTTTCTTTGATCTTGA





Clone 0010-Contig


AGCGCGGGAGGCGCATGGCGGGCATGGCGCTGGCGCGAGCATGGAAGCAGATGTCCTGGTTCTACTACCACTACCTGCTC





GTCACTGCGCTCTACATGCTGGAGCCCTGGGAGCGAACCGTGTTCAATTCGATGCTGGTTTCCGTGGTGGGGATGGCCCT





GTACACTGGCTACGTCTTCATGCCCCAGCACATCATGGCTATTCTGCATTACTTTGAAATTGTACAGTGACGAAGATGTG





ACCAGGATCCAGAGGTTCCTGGGGAAGATCTGCCTTGTGAAGTTGGAATGAGACCTCATCAGATGTAAGATGTGCTACGG





ATGTCCACGTGACCAACCTTATAAATACAAAGACTTTAAAAAAAACTTCATGAGTAGAACAGGAAAAATCATCCTGGCTC





ATGTGTTGWGTTCTTTCTTTTTGATTTTAACAGAGGCTCTTATATAGTAGCTTTTATCTATTTTAACATTGTAGTCATTT





GTACTTTGATATCAGTATTTTCTTAACCTTTGTGACTGTTTCAATATTATCCAGTGAAAGCTTTTCTTAATGTAACTTTG





AGTACATCTCAATTGCCTTCTATTTTTAAAACCTAAGGTCATTAGTTGGGCTTTACTGTTCTTGCTATCATATGGCATAT





ACATCTGCCTGGATATATTTCTACTCTTGACCAAAGTTTTGTAAGAAACAATACAGAATTTGGGGACGGGAGGGAGGATA





CTTTGAGAACTACTTACAAAAGATTTATCTGCTTGCTTGAACTCAGGAGTACGGTTTTAGCTCCCTAGACTCTTAACAGC





TTTTGCTCTAAAACTATTAAAGTGTTTCTTAGTAATGAAAAAGTAAAGATCTTGCTAACATTAATACAAGGAACATTTCN





CCTTTTAGATATTAAATTCTTATGTGGACTTATTTCCAACCAACTTTGATGATTCCTGTGATTCGTGATTGGTGGCCGGC





TTGTATGACATATGCTGAGATACACTGTGGAGCTTTTCATACAAGGCTTATCAGATCCTCTGAGGCAGTATTGACCCTGT





ATACGCTCAAGAGTTAATTTGATGTTGTAACAGGCGTTGTGAAATGCATTTGCACGTTGTGATAAAGACMCAATGAGATG





AATTGTGCAGAACCATAACCAAAAGAAATGTAAACTTGCTTAAAAATCCTTTCACTCTTTGTATTTTTTTTAAAACGGTT





TTTATTCCTTAGATGTAAAATGACTACTTTTTTTTGATGTAAACTCATTAAATTCAAAGAAAAATGTAAAAAAAAAAAAA





AAAAAAAAAAAAAAAAAAAAAA





Clone 0011-Contig


AGCGAGTTTGCAGACTTCTTGTGCCCAGCTAGCCGCCTNAGGTGTTNGAACCATGAATCTTTTACTCCTTTNGGCTGTCC





TCTGCTTGGGAACAGCCTTAGCTACTCCAAAATTTGATNAAACCTTTAGTGCANAGTGGCACCAGTGGAAGTCNACGCAC





AGAAGACTGTATGGCACGAATGAGGAANAGTGGAGGANAGCGATATGGGAGAAGAACATGAGAATGATCCAGCTACACAA





CGGGGAATACAGCAACGGGCAGNACGGCTTTTCCATGGAGATGAACGCCTTTGGTGACATGACCAATGAGGAATT
AGGC





AGGNGGNGAATGGCTATCGCCACCAGAAGCACAAGAAGGGGAGGCTTTTTCAGGAACCGCTGATGCTTAAGATCCCCAAG





TCTGNGGACTGGAGAGAAAAGGGTTGNGTGACTCCTGTGAAGAACCAGGGCCAGNGCGGGTCTNGNNGGGCGTTTAGCGC





ATCGGGTTGCCTAGAAGGACAGATGTTCCTTAAGACCGGCAAACTGATCTNACTGAGTNAACAGAACCTTGTGGACTGTT





CTCACGCTCAAGGCAATCAGGGCTGTAACGGAGGCCTGATGGATTTTGCTTTCCAGTACATTAAGGAAAATGGAGGTCTG





NACTCGGAGGAGTCTTACCCCTATGAAGCAAAGGACNGGWTCTTGTAAATACAGAGCCGAGTTCSCTGTGGCTAATGACA





CAGGGTTCCGTGGATATCCCTYAGCMAGGAGAAAGCCCTCATGAAGGCTGTGCGACTGTGGGGCCTATTTCTGTTGCTAT





GGACGCAAGCCATCCGTCTCTCCAGTTCTATAGTTCAGGCATCTACTATNAACCCNACTGTAGCAGCAAGATCCTCGACC





ATGGGGTTCTGTTGNTNGGCTATGGCTATNAAGGANCAGATTCAAATAAGAATAAATATTGGCTTGTCAAGANCAGCTGG





GGAAGTGAATGGGGTATGGAAGGCTACATCNAAATAGCCNAAGACCGGGNCNACCTCTGTGGACTTGCCNCCGCGNCCAN





CTATCCTGTCNTNAATTNATNGGTAGCGNTAATGAGGACTTATGGNCTCTATGTCCNAAGGAATTCAGCTTAAAACTGAC





CNAACCCTTATTNANTCNAACCNTGGTNCTTNAATCATTNAGGATCCAANTCATNATTTNAATTCTGTTGCCATTTTTAC





ATGGGTTAAATGTTACCNCTACTTAAAACTCCTNTTATAAACANCTTTATAATATTGAAAACTTAGTGCTTAATTCTNAG





TCTNNAATATTTNTTTTATATAAAGGTTGTATAAAACTTTCTTTACCTCTTAAAAATAAATTTTAGCTCAGTGTGTGTGT





AA





Clone 0012-Contig


GAGCGCCGCCGGGTCGGCCAGCGAGGCCTCAGAGGTTCCAGACAACGTGGGAGACTGGCTCCGCGGCGWCTTCCGCTTCG





CCACCGATCGAAACGACTTCCGGAGGAACTTGATCCTYAATTTGGGACTCTTTGCTGCGGGAGTCTGGCTGGCCAGGAAC





TTGAGTGACATTGATTTGATGGCCCCTCAGCCAGGGGTGTAGCCAGAGAATGGAACTCCTGTGTATTCAGACTTTCCAAA





GACAGCCTACTGTCTGTGACCACAAGATCCTACCTGAGTGGCAGCTGAAGTTGACTCCCTCTCCKTGCCTGAACCCCCCC





CCWCTGCCCCCCCATCCCCCAGTGTCGGCTRAGATGTTGCCTCTGCACGGTTCTGTGTGCAGTTCCCNACTTTCTGCAGA





AGATGGTCCTTGCCCTTGTCCTNAAGAGTAATAATGGTTCTTGAAAAAGATTTCAAATAAAGCCTGCNCAT





Clone 0014-T7 Sequence


AAAGGAAAAACACAGCTCAGCAGATCCAGGCACTAAAGAGAGCTAGCTGCAAGCAGGAGCAGTCAAGAATCTGTGGTCAG





AAGTACTGGAGTGGGCCAGCAGGGCCAGCTTTTTCTACCATGGCAGCCCAAGGCTACGGCTACTATCGCACTGTCATATT





TGCGGCCATGTTTGGAGGCTACAGCCTGTACTATTTCAACCGCAAAACCTTCTCCTTTGTCATGCCCTCCTTGGTGGATG





AGATCGCTCTGGACAAGGACGATTTGGGGCTCATCACAAGCAGCCAGTCGGCAGCCTACGCCATCAGCAAGTTTGTGAGC





GGGGTTCTGTCAGATCAGATGAGCGCCCGCTGGCTCTTCTCCTCTGGGCTGCTCCTGGTTGGTCTGGTCAACGTAGTCTT





CTYATGGAGCTCCACAGTGTCAGCCTTWGCTGCTCTTTGGTTTCTTAATGGTCTGGCACAGGGGCTGGGCTGGCCCCCCT





GTGGGAAGATCCTGAGGAAGTGGTTTGAGCCATCCCAGTTTGGCACTTGGTGGGCTGTGTTGTCAACCAGCATGAACCTG





GCTGGAAGTTTGGGACCTATCTTGGCAACGATCCTCGCCCAGAGCTACAGCTGGCGCAGCACACTGGCCCTGTCTG





Clone 0014-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAGDAACAAATCTAGCTTTATTGATCTATACAA





GKCGGTTTGCCCTCTATATTCTTCCCTTTTGKCCCAGGGTATTCATGAGAGGGGGGGACYCCTYTYCTCCCTTAGGGACT





CRGGTATTGGCAACAATTTTGCCCCCTGCCAAGAAGCCTTGGGGTACAGCAGAAACCACAGGCCATTAATACTCACTAGG





AGATCAGGACCTAGGAGCAAGAAGAAGGGTATAGGAGACACTCTGAATTCAGGAGTTGCCTGTCTGCCAGAAGGKAGAAA





CAGAAGCTGAWGGAGTCTAGAACCAAACATCATCATTTTAAATAGAGCATGGGAAGGGAGT





Clone 0015-T7 Sequence


AGCGGAACTCAAGATGGCTGCGCTCTTGCTGAGTGCTGCTCCTTTGGGAACCACAGCTAAGGAGGAGATGGAGCGGTTCT





GGAAGAAGAACACGAGTTCAAACCGTCCTCTGTCTCCCCATTTGACTATCTACAAATGGTCTCTTCCTATGGCACTGTCC





GTTTGCCACCGAGGCTCTGGAATAGCCTTGAGTGGAGGGGTCTCTCTTTTTGGCCTGTCGGCACTGGTGCTTCCTGGGAA





CTTTGAGTCGTATTTGATGTTTGTGAAGTCCCTGTGTTTGGGGCCAACACTGATCTACTCGGCTAAGTTTGTGCTTGTCT





TCCCGCTCATGTACCACTCACTGAATGGGATCCGACACTTGCTATGGGACCTAGGAAAAGGCCTGGCAATACCCCAGGTC





TGGCTGTCTGGAGTGGCGGTCGTGGTTCTTGCTGTGTTGTCCT





Clone 0015-BGH Sequence


CTTYTTTTTTTTTTTTTTTTTTTTAAAAKGAGTAGTACTTTAATCGTTTCCAAAGAAGATGGTACATGAATTTAGATTAG





AAAATATGACATTAAAGGTGTATTTTCCTAGAAATGAAAAACAGAACAGAAACTTAATACAATTTTTTTTGATCTTCCTC





ATACATCAAAAGCTGTGTATCTGTTCCCAGGCTTGAGCTCCAAGCTCCCAGGCTGCTCTTTATCTCCCTCTAGCTGAGCA





GGACAATCCCTCCTCCTCCACCTCTCTCCTCTCAGTCATGAGGTGTGGGTGCTAAAGGCCCTAAGCTGACCAATGGACAG





AAGTGTCCTTTAAGCCAGCAGCCCACAGGCAGTGGCACTCGGGGCGGTCACAGAACTGGCATTGTTTMYACTGTCTCAGC





AGAAAGCAGCGGAAAGCTGACCCTCAGCACAAATCAGTCAAATGTGGAACCGGAGCAAGGGCTCCCAGGCCCAGGGAGGA





TGACCCTTTCGTACTACAACAGGTCTTTAAGCCGCTCTACTGCACTCCAAGGGGATTGAAAGCATGTGGCATCTAAACAA





ATCAGGAGAACCTGGGTGGT





Clone 0016-Contig


GAGGGGAACAAGATGGCGGCGCCAAAGGGGAAGCTTTGGGTCCAGGCCCAACTGGGGCTCCCGCCGCTGCTGCTGTTGAC





TATGGCGCTGGCCGAGGCTCGGGGACTGCAGCGGCCGAAGCCTTTGACTCGGTCCTGGGAGACACAGCCGTCCTGTCACC





GGGCCTGTCAGCTGACCTACCCCTTGCACACCTACCCGAAGGAAGAGGAGTTATACGCATGCCAGAGAGGCTGCAGGCTG





TTTTCAATTTGCCAGTTTGTGGATGATGGGCTTGATTTAAATCGGACCAAGCTGGAATGTGAATCTGCGTGCACAGAAGC





ATATTCCCAACCTGATGACCAGTATGCTTGTCATCTTGGCTGCCAGGATCAGTTGCCATTTGCTGAACTGAGACAAGAAC





AACTCATGTCCCTGATGCCAAGAATGCATCTCCTCTTCCCTCTGACTCTGGTGAGGTCGTTCTGGAGTGACATGATGGAC





TCTGCACAGACCTTCATAACCTCTTCATGGACTTTTTATCTTCAAGCCGATGACGGAAAAATAGTTATATTCCAGTCTAA





GCCAGAAATTCAGTATGCACCGCAGTTGGAGCAGGAGCCTACAAACTTGAGAGAATCATCTTTAAGCAAAATGTCCTATC





TGCAGATGAGAAACTCACAAGCACACAGGAACTACCTTGAAGAGGAAGAAAGCGATGGCTTTTTAAGATGTCTATCTCTT





AACTCTGGATGGATTTTAACCACAACCCTTGTCCTCTCGGTGATGGTGTTGCTCTGGATCTGTTGTGCAGCTGTTCCTAC





AGCTGTAGAACAGTATGTTCCCCCTGAGAAGCTGAGTATCTATGGTGACTTGGAATTTATGAATGAACAAAAGCTGAGCA





GATACCCAGCTCCTTCTCTTGTGATTGTTAGGTCTCAGACTGAAGAACATGAGGAGGCAGGGCCCCTGCCCACCAAGGTG





AACCTTGCTCACTCAGAAATCTAAGCTTTTTAAAAGAGTCGTGGACACATAAACTTCCATTCCTCATAGAGCTTTTTAAG





ATGGTTTCATTGGACATAGGCCTTAAGAAATCACTATAAAATGCAAATAAAGTTACCAAACTCTGTGAAGACTTTATTTG





CTGTGACTTTACCTGTATTTTTCTAGTCATTTAAGATGGACATTGGGTTGTATTTTTATTTTACTAATATCTGTAGCTAC





TTAGTTAGTTGCATTGGTTTTGGTTTTTTTCCTCTCTTCGCCAAATTCTATGAGCTGATCATTGTGGCCCCGCCCCTGCC





ATGCCCCCCGTCAGTCATCTCACTTAATAACCGAAACCTTAGGGTGTGATGCTTCTGCCCGGAAATGGCCTCCAAACTGT





CCTCTGGATTATAGCAGAAATGTTATTTAATGACWCTACATTTTCAGTTGTATTGAATTGAAATCATTAAAATCTATTTG





AATAATTATGTTCTGAAAAAAAAAAAAAAAAAAAA





Clone 0017-T7 Sequence


AAAGGTACGAAGCTAGGGAAGATATTCGCGTGGCTAAATCTGCACGTGGAAGGAGCATTAACTTGGCCCTTTCTTATAGA





GGACGGCAGGCCTTGAAAGCCATTGGTCTGGAAGATCAGATCGTTTCCAAAGGTGTGCCCATGAAAGCCAGAATGATCCA





CTCTCTTTCTGGAAAGAAGTCTGCAATTCCCTATGGGAACAAGTCACAGTATATCCTTTCAATAAGCAGAGAAAACTTAA





ACAAGGACCTGCTGACTGCCGWGGAGTCCTATGCCAATGCGAAGGTGCACTTTGGCCACAAGCTGTCGAAATGCATTCCG





GAGGAAGGGGTACTCACAGWGCTCGGACCTGACAAGGTTCCCCGAGATGTCACATGTGACCTTGTTCTAGGGTGTGATGG





AGCCTATTCAACTGTCAGAGCCCACCTCATGAAGAAGCCCCGCTTTGATTACACTCAGCAATATATCCCTCATGGATACA





TGGAGTTGACAATTCCACCTAAGAATGGGGAGTACGCCATGGAACCTAACTGTCTTCACATTTGGCCTAGAAATGCCTAT





ATGATGATCGCCCTTCCGAACATGGACAAATCTTTCACATGCACCTTGNTCATGCCCTTTGAGGAGTTTGAAAGACTTCC





AACGCGCAGCGATGTGCTGGACTTCTTCCAGAAGAACTTTNCAGATCCTATCCCTCTGATGGGAGAGCAAGCCCTCATGA





GAGA





Clone 0018-Contig


CCCTTTTNNCCCCAATTGGGCCGTTAGGCGTTTCCGGTGGAAAGGTCCTANNTTAAGCAGANGCCNCTTCGGGGCTAACC





TANAAGNNCCCCNCTTGGNTTNCCNGGCCTTNTCGGAAATTTNATTTCGGACCNCCCCTTTAAGGGAGNCCCCAAGCTTG





GGTCCCAAACCTCGGNTTCCCCTAGTTCCGNGCGGCCAATTGTGCTGAAAGCGRCTGCAMAGTGAAGCCCTCTGTTACCT





GTGTCGATCAAGACCTCAAWCCCCAGAGGAACTTCGTCATCAACATGACTTGCAGGTTTTGCTGGCAGCTTCCTGAAACA





GACTACGAGTGTTCAAATTCCACCACCTGCATGACCGTGGCTTGCCCTCGGCAGCGCTATTTCGCCAACTGCACCGTGCG





TGACCACATTCACTGCCTGGGCAACCGGACTTTCCCTAAGCTGCTGTACTGCAACTGGACAGGTGGCTACAAGTGGTCGA





CAGCCCTGGCTCTCAGCATCACCCTTGGGGGGTTTGGAGCCGATCGCTTCTACCTGGGCCAGTGGCGAGAAGGCCTCGGC





AAGCTCTTCAGCTTTGGCGGCCTGGGAATATGGACCCTAATCGATGTCTTGCTGATTGGAGTTGGCTATGTGGGACCAGC





GGATGGCTCTTTGTACATTTAGCCGAGGTTATGTGCTTCAGAGAGCAGTGTAGAGTCCTGTGTGTGGAGATGGATGCGGT





GTGAGAGGGGGATTTATGTTTTTAATGTACAGCATCTGTACTTGGCTTGCCTTGATGAAGGTAAAATAAAGAAATCGAAC





MCTGAAAAAAAAAAAAAAAAAAAAAAA





Clone 0019-T7 Sequence


CCTGGTAGGAGCCGCAGTGTGTGGCCATGCCTCAGATAGGTTTGGGCGCAGAAGGGTGCTGACCTGGAGCTATCTTCTGG





TGTCCGTGTCCGGCACAGYAGCTGCCTTCATGCCCACCTTCCCCCTCTACTGCCTGTTWSGTTTCCTGCTGGCCTCTGCA





GTGGCAGGTGTCATGATGAACACAGCCAGTCTCTTGATGGAGTGGACATCAGCCCAGGGTAGCCCTTTGGTGATGACCTT





GAACGCCTTGGGCTTCAGCTTTGGGCAGGTCCTGACAGGTTCTGTGGCCTATGGTGTGCGCAGCTGGAGGATGCTACAGC





TGGCTGTCTCTGCCCCCTTCTTCCTCTTCTTTGTTTATTCATGGTGGCTACCAGAATCGGCACGCTGGCTCATCACGGTA





GGCAAGCTGGACCAGGGCCTGCAGGAACTACAGAGGGTAGCTGCTGTCAACAGGAGGAAGGCAGAGGGAGACACGTTGAC





CATGGAGGTGCTGCGGTCAGCTATGGAGGAGGAACCAAGCAGGGACAAAGCTGGTGCCAGTCTGGGCACTCTACTCCACA





CACCTGGGCTGCGCCACCGAACCATCATCTCCATGCTGTGCTGGTTTGCCTTTGCCTTCACCTTCTACCGCCTGGCCCTT





GACCTGCAAGCCCTAGGAAGCAATATCTTCCTGCTCCAGGCACTCATCGGGATTGTGGACTTCCCGGTGAAGACAGGCAG





CCTGCTGCTGATCAGCCGCTTGGGCCGGCGCCTCTGCCAGGTCAGCTTCCTGGTGCTCCCCGGACTCTGCATCCTGTCCA





ACATACTGGTGCCCCATGGGATGGGGGTCCTTCGCTCGGCCCTGGCTGTGCTGGGGCTGGGCTGCCTGGGGGGCGCCTTC





ACCTGCATCACCATCTTTTCCAGTGAGCTCTTTCCCCACTGNGATCAGGGATGACTGCAGNGGGCC





Clone 0019-BGH Sequence


TTTTTTTTTTTTTTTTTTTTYTCTTTAAAAATTATTTATTTGKGTGTATCACCGGGGGCGGGTATGTGTCCATGCGGAGC





TCACAGGACAACTTTGTGAAGTCTGTTCTCACATGAGTTTCAGAAATTTAGGCCCGGAGGCAGGTGTCTTTACCCGCCGT





CGCCAGCCCTGCCCTTTCCTCCTCCTCCTCCTCTTCCTCCTCCTCCTCCTCTWCCTCCTCC





Clone 0020-Contig


GAAAGGGGACGGAGACCTTCAGCGTGGAATCTATATCCAAGAATGGAATCTGTCTGGAGATGGGCCCACAGCCTCAGGGC





GTGCTGCGGGCCGACCTGTTCTCCCGGATGCGAGCTCTGGTGGCATCCATTCTGGACTTCATCGAGCTCTTCAACCAAGG





CATGGACTTACCCGCCTTTGAGATGGATATCTACAGGAACTTGGGCAGTGTGGACTTCCCACGCACTGCGGATGGTGACC





TGGCTGGCACTGTGCACCCTCAACTGCAGGACCATTACTTTGAGCCACTGAGGCCTGGTGAACCCATCTTCAAGCTTTTC





AGCGGAGAAGACGTACTGTATGAGGGGGACTCCATTGTGTACCCTGTGTTCATTAATGAGGCTGCCTATTATGAGAAGCA





CGTGGCATTCCTGAAGTCTGAGAAGATCAGGGTCACAGTGCCTGCCCTGCTGAGGTTGACCCCCCGCTCCACCCAGACTC





CCTAACCCAAATCATACCTGGCCTGATCTCAGTTTTCCTATCTGAACAATGGGTCCCAAGCCCAGGGTCCCCTATCTCAC





TCTGGACACCATATCCCTTTCCAGACAACTGATCTCATTATATAAAATAGACTGTGCCCCAAAAAAAAAAAAAAA





Clone 0022-T7 Sequence


AGCGGACGTTTGTGCCGGGACATGGCCGCTGCGGATGCCGGGTCCTTGAGCTGAGCGCTTGCTGCCGGAGCCAACCTCTG





CCGTCAACCGTCCGCGCGGGCTGGGCCCAGGCGCCGGGACGGCCAAGATCCGCCGAGGAAGCTGAGGCAGCTATAGAACG





CCGCCGCGGCGGGCGCATGGCGTCCATCTTGCTCAGGAGCTGCCGGGGCCGGGGGCCTGCCCGCCTCGCGCCACCTCGGG





CCGCCTCCCCGCGGGGTAGTCTGAGGGATCGAGCTTGTCTCAGCTGTACCAGGACCCTGGGGTTGACGAGCCGTGAGAGT





GTTCTGTCTCGTTGCTGTACTCCAGCCCACCCTGTGTACCTCTGCTTCAAAGGTGAGCCCCTCAGCTGTTGGACTCAGAG





GCCTGAGTGCCAGGGCACCGCAGCAAGAACAACATGGACACCTGCCTCTGCAAGGCTGGTGGTTACGGGACCTCAGTACC





TTCCTGTGCGCGGCTGGCACTCATCATCTYCGCTAGGAGAGGACTCTGTGATAGAGAAGTCCCTTAAGTCCTTAAAAGAC





AAGAATAAGAAGCTGGAGGAGGGCGGCCCCGTGTACAGCCCGGCCGCGCAGGTGGCTGGTGAGGAAATCCCTNGGGCAGA





AGGTACTGGATGAGCTGAGGCACTACTACCATGGCTTTCCGCCTGCTCTGGGATNGACACCAAAGANCGCTTG





Clone 0022-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAATTATGGAAGTTTCTGATTTATTCCAGACAAAATATTAGATTTGCC





ACTAAGAATCACCTCAAAGCAATCACTCTTGNGTGTCATGCCCCTGNGGCTGGCACGGCATGATGAAGGCAGACCTGNGG





GCCAGAAGCTGGCAGCTCTAATTCTTCACTTCTGCGGCCTCTTTCTCAGCCTTCTCCTTGGCCTTCTCTTTCTCTTCTAT





CTTTTCTTCTTTCTCTAGNGNGGCCACAATTTCAGCTACCTGGGNGGNAGAGATCTGAACATCTTCTTTGTTCACCAAGT





CGATTACCTTGACAAGGTCATCGATGTTGATATTGCCGNCCTTATTATCATCCAGGGCTGAGGTCAAACTGATGAGCTTG





AGCTCTGGAATGNGCTTGATTTGCTTCATGGCGCTGATGAGCTCAGTGATGCTGATGACACTCTCCCCTGTWGGAGNGCT





CTGGCTGGGGCCCAGCTTGCCATCCTGWTGAGAGGWCTCCAGCTGTGTGATCAGGCCATCGATCTGCCCGATCATCTGCT





GCACTCGCTTTGACAGCCTCTTGCTCGCTGCARAWTCTTCTATGNACTTTCTCCTCACCCGTCTNTTGAAAGKTCCTTCT





TTGAWCTCCTGTAAGTCCTCACNTGTAGGCCTGGACGCCCTCTTTTGAGMRSRSNTCCAGGCTTCCTCCTTTCTCCCTTG





GTCAGGGACTTCTTCTGCNCTGAGCTTGGAACAGGCGTACTGAGGATGTNAA





Clone 0023-T7 Sequence


ATGGACCGCTTCGTGTGGACCAGCGGCCTCCTGGAGATCAACCAGACCCTGGTTATCCAGCAGCGCGGGGTGCGCGTCTA





CGACGGCGAGGAGAAGATAAAATTTGATGCCGGGACTCTTCTTCTTAGTACACACCGGCTGATTTGGAGAGACCAGAAGA





ATAATGAGTGCTGCATGGCCATTCCCCTGTCTCAGATTGTGTTCATCGAGGAGCAGGCAGCTGGAATCGGGAAGAGCGCC





AAAATCGTGGTTCACCTGCACCCAGCTCCTTCTAACAAAGAGCCCGGTCCGTTCCAGAGCAGTAAGAACTCCTACATCAG





ACTCTCCTTCAAAGAACATGGCCAGATTGAGTTTTACAGGCGTTTATCAGAAGAAATGACACAGAGAAGATGGGAGACTG





TGCCAGTTTCCCAGTCACTACAAACAAATAAAGGACCCCAGCCAGGAAGAGTAAGAGCTGTTGGAATTGTAGGTATTGAA





AGGAAACTTGAAGAAAAAAGAAAAGAAACCGATAAAAACATTTCTGAGGCCTTTGAAGACCTGAGCAAGCTGATGATTAA





GGCTAAGGAAATGGTGGAGTTATCCAAATCAATCGCTAATAAGATTAAAGAGAAGCAAGGCGATGTCACAGAGGATGAGA





CCATCAGGTTTAAGTCGTACCTGCTGAGTATGGGAATAGCCAACCCAGTCACCAGAGAAACCTATGGCTCCGGCACACAG





TACCACATGCAGCTGGCCAAACAGGCTGGCTGGAATATTGCAGGCACCTTTGGAGGAGCGTGGGGGAATAATGNCCCTCA





CACAGGNG





Clone 0024-T7 Sequence


AAAGTGGGGATCCTGGWGACAGTTCTGGTGCAGAGTTCCAGTACCTCTACATCCATCATTGTCAGCATGGTCTCCTCCGG





CTTGTTGGAGGTGAGCTCCGCCATTCCGATCATCATGGGCTCCAACATCGGAACCTCTGTCACCAACACCATTGTGGCCC





TGATGCAGGCAGGGGACAGGACTGACTTCAGGCGGGCTTTTCCAGGGGCGACCGTGCATGACTGTTTTAACTGGCTGTCT





GTTCTGGTCCTACTGCCCCTGGAGGCTGCCACGGGCTACCTACACCATGTCACCGGGCTTGAGGTTGCTTCCTTCAACAT





CCGAGGTGGCCGTGATGCCCCCGACCTTCTCAAAGTCATCACAGAGCCCTTCACAAGACTCATCATCCAGCTGGACAAGT





CTGTGATCACCAGCATTGCCGTGGGGGATGAGTCCCTGAGGAATCACAGTCTCATTCGGATTTGGTGTCACCCAGACACA





ACAGAGGCTTCCACTTCTATGTCCAGGGTAGAGGCCATCGGCAGCCTTGCAAACACCACCATGGAGAAATGCAACCATAT





CTTCGTGGATACGGGGCTGCCCGACCTGGCCCGTGGGGCTCATTCTGCTGGCGGGCTCCCTGGTGGTTCTCTGCACTTST





CTTATCCTCCTTGNCAACATGCTCAACTCCCTGCTCAAGGGCCAAGTGGCCAATGTCATCCAGAAGGTCATCAACACAGA





CT





Clone 0025-T7 Sequence


AGGGCGCCAGCTGAAGACGCGGGACTTAAAGCGCGTAGCCAGAACCCAGGCACCAGTGTGTCCATTGTCCAGAACTCATC





TGAAAAACTGCCACAGGAATTGCTTCTCTGCTCCAGGCTGGTCACTGAACAGGTTGCTCCAGGACCTGCAGAATGGGGGC





AGGCTGTGTCAAAGTCACCAAGTATTTCCTCTTCCTCTTCAACTTGCTGTTCTTTATCCTGGGTGCTGAGATCCTGGGCT





TCGGGGWGTGGATTCTTCCACACAAGAACAGCTTCATTTCCGTCCTACAAACCTCATCCAGCTCGCTGCAGGTGGGGGCT





TACGTCTTCATCGGWGTGGGCGCCATCACCATAGTGATGGGCTTCCTGGGCTGTATCGGWGCTGTCAATGAGGTCCGCTG





CTTGCTGGGTCTGTACTTTGTCTTCCTTCTGCTGATCCTCATCGCACAGGTGACCGTAGGGGTCCTCTTCTACTTCAACG





CTGACAAGCTGAAGAAGGAGATGGGGAACACAGTGATGGACATCATTCGCAACTACACTGCCAATGCCACCAGTAGCCGC





GAGGAGGCCTGGGACTACGTGCAGGCGCACGTCAAGTGCTGTGGCTGNGTCAGCCACTACAACTGNACAGAGAACGAGGA





CCTCATGGGCTTTACCAAGACCACTTACCCATGCTCCTGCGAGAAGGATCAAGGNAAGAGGACAACCAGCTCATTGTGAA





GAAAGGATTCTTGCGAGGCTGATAACAGCACCTGTGAGCGAAAACAACCCCTGAGGATT





Clone 0026-T7 Sequence


AGGAGCCCTCGAAAGCGACATGGCGGTTCTCTTAAAGCTGGGCGTTCTCTGCAGTGGCCAAGGAGCTCGAGCTCTCCTAC





TCCGAAGCCGGGTGGTCAGACCCGCTTATGTGTCAGCATTTCTCCAGGACCAGCCTACCCAAGGACGGWGTGGTACCCAG





CACATTCACCTGTCACCAAGCCACCACTCTGGTTYCAAGGCTGCATCTCTCCACTGGACCAGTGAGAGGGWWGTCAGTGT





TCTGCTCTTGGGGCTGATCCCTGCTGGGTACTTGAATCCCTGCTCTGTGGTGGACTACTCTCTGGCTTCAGCCCTCACCC





TGCACAGTCACTGGGGCCTTGGACAAGTGGTTACCGACTACGTTCATGGGGACACCCTGCCGAAGGCTGCCAGGGCAGGC





CTCTTGGCACTCTCAGCTTTGACCTTTGCTGGGCTTTGCTACTTCAATTACCACGATGTCGGCATCTGCAGAGCGGTTGC





CATGCTGTGGAAGCTCTGACCTGGGTGCAGCACTTTGATTGTGTGCCTCCTTGCCTCTGCTTTACCAATGCCGTTCACCT





CGCAGTGAGGGGGGATGAAGGATAAGCCCATTGGTGGGCAGAATGTCTTCTAATTACATGGGTATTTTCAGAATTATTTG





NTGAGGAAGAGGNTT





Clone 0028-BGH Sequence


TTTTTTTTTTTTTTTTTTCTTTTTTAAGATAATGGTCTTTTAATTGAGTTATTGAGATGAAGAGACAGTGAAGCCCTGTT





TGCTACTTACATGAAAAGAAGATTTTAAAAAACAATCACTGCACAAAATACAAAGGGGCAGGGTATGCTGWGGCATTGAA





TTCCTCCCCACGTTTTTTCTTGACTTCTCAAGAACAAATTAAAGTCTCCACAGCAAATTTGTTCTCAAAATGCCGAATGG





TGAAACAGTTACTGGCTTCCCGCTTCTGAATACCTCTAATTGTTTCCCGGCGCTGCAGTTTGTAGGTCTCCTTGTCGTGA





CACAGTCGGTAGATGAAGAAGCCCAGGTTGTCCACGTTCTCGATGCGGTCGGTGATCACCATGTGCTCATGGATAAGGTA





GGACTGAGGCAGGTAGGTCCCGGCCTTAATGTTAATAAGGAGCTCCAGCAGGTTTTTGGGCGGCATAACGATGGAAGTGT





TCAGAGGATCACGTAGCACTTGTCCAGGTTAAGGT





Clone 0029-T7 Sequence


AAAGAGCGGCTGCTGTCGGAAGCACCGGGCGAGCTATCTGTTACAGTCCGGCCCGGGGATGGCTCGGGACGCGGAGCTGG





CGCGCAGTAGCGGGTGGCCGTGGCGGWGGCTGCCGGCGCTGCTGCTGCTGCAGCTGCTGCGGTGGAGGTGCGCCCTGTGC





GCGCTCCCCTTCACCAGCAGTCGGCACCCAGGCTTTGCGGACCTGCTGTCGGAGCAGCAGCTGTTGGAGGTGCAGGACTT





GACCCTGTCTTTGCTGCAGGGCGGAGGTCTAGGGCCGCTGTCACTGCTACCTCCGGACCTGCCGGATCTGGAGCCTGAGT





GCCGGGAGCTGCTGATGGACTTCGCCAATAGCAGCGCCGAGCTGACCGCCTGTATGGTGCGCAGCGCTCGGCCCGTGCGC





CTCTGCCAGACCTGCTACCCGCTCTTCCAACAGGTCGCAATCAAGATGGACAACATCAGCCCGAAACATCGGGAATACCT





CCGAGGGCCCGCGCTGAGGCGGAAGTCTCCTGACGGCAGACAGAATGCAGATAGTTCTCATGGTCTCTGAGTTTTTCAAC





AGCACGTGGCAGGAGGCGAACTGCGCAAATTGCCTAACAAACAATGGTGAGGATTTGTCAAACAACACAGAGGACTTCCT





CAGTCTGTTTAACAAGACTTTGGCCTGCTTTGAGCATAACCTGCAGGGGCACACATACAGNCTCCTTCCACCAAAAAATT





ACTCCGAAGTGTGCAGAAACTTGTAAAGAGGCATATAAAAACCTGAGCCTNCTGTACAGTCAAATGNA





Clone 0029-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCTTGTTATTTCCTTTATTGGAAAGCATAAGGAAAAAACAGGTTTT





CTTGDGCACACACATAACCCTATGKGCCTMAGGATTCAGAACTATGTACATTTTTTTAATATGACCACAAGATGAAATTC





TTTGGCACATTTTCAAATATATTTCTAATGCAACCTCTAGAGAGCCAGACCCTGATCAGGAACAGAGATGGCTGGCTTGT





TAAAGGGCTCTCCAGCTTCTTAGCCAAAAGCAGGGGTTTGTACACACAGTACTGAAAGGNACCCGAGGAAGTCGCTACTC





ACAGGTTTAAATATGTCACTTCACTCACTTTGCACATGTAAATAAGNTTTACATGTACTGATGAAGATGGNTTCCAATGA





CCCTNAACCATGNGCTTCAAATCAAGACAGGAACAATGACAGCNCAATGAACCCCGGCACATNTAGGGGATCACAGCGNC





GNCTGATTGTCACATACCCGGGGTGACACACTCTGGGACTAAGACTAGCCTGCTNTCACACTCTGCANATGTGGNAAACA





TACAAAAAATACCCAAACACTCCTGCCTTCCTGTAGGGCAAANACAGGTTTTNAAGG





Clone 0030-Contig


AAAGGCGCGGAGCCTGCTGCTGCCATGGTGGCTGGTGGCTGGGTACACTATGTCTAGACTGGGGGCCCTGGGCGGCTCCC





GCGCCGGGTTCGGACTGTTACTTGGTACTGCCGCCGGCCTTGGATTCCTGTGCGTCCTTTACAGCCACCGATGGAAACGG





ACCCAGCGCCATGGCCGGAGTCACAGTCTGCCCAACTCCCTGGACTATGCGCAGGCTTCAGAGCGTGGACGCCAGGTGAC





ACAGTTTCGGGCTATCCCAGGTGAAGCTGGAGATGCTGCCATACTGCCCAGCCTCTCACAGGAAGGGCAGGAGAAGGTCC





TGGACCGCCTGGACTTTGTGCTGACCAGTCTTATGGCGCTGCGGCGCGAGGTGGAGGAGCTTCAGAGAAGCCTGCAAGGA





CTAGCTGGGGAGATTGTCGGGGAGGTCCGCTCTCATATAGAAGAGAACCAGAGAGTGGCCCGGCGGCGCAGGTTCCCTTT





TGCCAGAGAGAGGAGTGACTCCACGGGCTCCAGCTCTGTCTACTTCACCGCCTCCTCAGGGGCCGCACTCACAGACGCCC





AGAGCGAGGGAGGCTATACAACAGCCAACGCCGAGTCTGATTACGAGCGCGACTCCCACAAGGAGAGTGGAGATGCTGAG





GACGAAGTGAGCTGCGAGACCGTGAGGATGGGGAGGAAGGACTCTCTGGACCTGGATGTGGAGGCGGCGTCCAGTCCGTC





Clone 0031-T7 Sequence


AGGCTTGCCGTCCAGGCCATGCGGCTCGWGGTCTGCATCGWGGCGTTTCCCATGTTTCTGCTGAACCTTCTAGGCATGTG





GAGCTGGGTATGCAAAAAGTGCTTTCCCTACTTCCTGAAGCGGTTCGCCATGATATACAATTGGAAGATGGCGAGCCTAA





AGCGGGAGCTCTTCAGCAATCTGCAGGAGTTCGCCGGCCCCTCGGGGAAGCTAACTCTGCTGGAGGTGGGCTGCGGCACC





GGGGCCAACTTCAAGTTCTATCCCCCCGGGWGCAGGGTCACTTGTATCGACCCYAACCCCAACTTTGAGAAGTTCTTGTT





CAAGAGCGTCGCAGAGAACCGGCAGCTGCAGTTCGAGCGCTTCGTGGTGGCAGCCGGGGAGGACATGCACCAGGTGACCG





ATGGCTCTGTGGACGTCGTGGTCTGCACCCTGGTGCTGTGCTCGGTGAAGAACCAGGAGAAGATTCTGCGCGAGGTGTGC





CGAGTGCTGAAGCCGGGAGGGGCTTTTTACTTCATAGACCATGTGGCAGATGAACGGTCTACCTCGAATTACTTCTGGCA





GCAGGTCCTGGCTCGTGTGTGGTTCCTTGCTTTTGACGGATGCAATCTGACCAGAGAGAGCTGGAAGGCCATAGAGCAGG





CCAACTTCTCCAAGCTGAACCTGCAGCACATNCAGCCCCCGCTCCCCTTGACCTTCGTGCGGNCCCACATCTATGGCTAT





GCTGTGAAATAGAGT





Clone 0031-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGGCAAATATAGAAACCATTTATCAAATGAATATAAATGTATT





GATCAACATTTAAAATATAACTTCTGCAAAATCATCTTGAAAAATATACATTTGTTTAGATCCATACATACAAATGCAGC





TCAAACCCTTGGGCCCACCCAGACTTGCTCTCTGTATGAACACAATGATATCCATGGTTTTGTTTCAGGACCAGKGGAAT





TTTTCTTCTTCTTCAATACAGGGTTTATTTGTGTAGCCCTGGCGGKCCTGGAACTCCATCTGTAGATCAGGCTGTACTCA





CAGAGATCCACCTACCTCTGCCACCTGAGAGCTGGGATTGAGGCTCTGCCACCAACCACTCAGGACCAGTGATATTTGAC





CAGAAGAATCCCTCCCCCCCCGSACCCCGAGTCCTTGGTAACTACTCTCGGGCATTACTTTTAGGGKCCCCTACATACTG





GACCCATTTCCCTAACTATAGNGGCCTTCTACTGCCTACGGTAATTAT





Clone 0032-Contig


AAAGAAGGAACTAAACATGGGCCAGCGATGCTCTGACACCAGAGGAATTGCTTTCGAAGACGTCAGAGTGCCTAAGGAAA





ATGTGTTAATCGGTGAAGGAGCACKTTTCAAGATCGCAATGGGTGCTTTTGATAGAACCAGACCTACAGTCGCAGCTGGC





GCTGTCGGGCTAGCCCAGAGAGCTCTGGACGAAGCCACGAAGTATGCCCTGGATAGGAAGACATTTGCAAAGCTGCTAGT





GGAGCACCAAGGAGTTTCATTTCTGCTCGCAGAAATGGCGATGAAGGTTGAACTCGCTAGGCTCAGTTACCAGAGAGCAG





CCTGGGAGGTTGACTCCGGTCGCCGGAACACTTACTATGCCTCGATTGCAAAGGCCTTTGCTGGAGACATTGCCAATCAG





CTAGCCACTGACGCCGTGCAGATTTTCGGAGGCTATGGATTCAACACAGAGTACCCTGTGGAGAAGCTGATGAGGGACGC





CAAGATCTATCAGATTTATGAAGGTACTGCACAAATTCAGAGGCTGATCATAGCTCGTGAGCACATTGAAAAGTATAAAA





ATTAACAGGAATTACTATTGAACGATGCATCACCCTCGTGTAACTAACCTCCAAGCACTGTTCCTGCTTCAGGGGAAAAG





GGCTTTACTGTCTTCCCAAGGAAATGAGATAAAAGACGAGTTTGGATCTATGCGGCGGATTCCCATGGCGGAGGAACCTG





TCTTCAGCTCTATGGTGACCCTTTCTAGATAGGTTTGGCTTTTGGACAATGATTGGTCCTTAGCCCCGAATTGTGTTAGT





TTGCTCTTTGATCACTTAAAATGGAAAAACACCCTGGACTTTTAATGTTCATTCAAGTGACAGGAAAGGCGGCTTGTCAA





GGAAGAACTCATGATTCTAACATAAACACTGAAAATTTGTGGTAGATTGGACACGTCAGACTGTGACATAGCAGCATTTC





TGTGCTGAACTGTTAATTTTATAATTTTGATTATATTTGCTTTGTTTTGCACAAAAGAGTAAAAAGTTTATATTCATATT





CTCCCATTATAAAACTAAAACTTTTCTGGGAATCTTAGTACTGAACGAGAATTTTATTTGTCTTGTTTAAAATAATTCAA





TAAAGCTAACCTTAACTTAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0033-Contig


AGCGTCGCCATCCGCCACCATGGTGAACTTCACAGTAGATCAGATCCGTGCCATCATGGACAAGAAAGCCAACATCGATA





AGGGTGAGGTGTCTGCCCGCCAGGAGCTCAAGGCACGTGCCCGCTACCTGGCCGAAAAGTATGAGTGGGACGTTGCTGAA





GCCCGCAAGATCTGGTGCTTTGGCCCTGATGGCACTGGCCCCAACATTCTCACCGACATCACCAAGGGTCTGCAGTACCT





GAATGAGATCAAGGACAGTGTGGTGGCTGGCTTCCAGTGGGCTACTAAGGAGGGCGCTCTCTGTGAGGAAAACATGCGTG





GTGTGCGGTTTGATGTTCATGATGTGACCCTGCATGCTGATGCCATTCACCGGGGAGGTGGCCAGATCATCCCCACAGCA





CGCCGCTGCCTGTATGCCAGTGTGCTGACCGCACAGCCCCGCCTCATGGAGCCTATCTATCTGGTGGAGATCCAGTGTCC





TGAGCAAGTGGTGGGTGGCATCTACGGTCTCCTGAACAGGAAGCGTGGCCATGTGTTTGAGGAGTCCCAGGTGGCTGGTA





CCCCCATGTTTGTGGTCAACGCATACCTGCCTGTCAATGAGTCCTTTGGCTTCACCGCTGATCTGCGATCCAACACCGGC





GGCCAGGCCTTCCCCCAGTGCGTGTTTGACCACTGCCAGATCCTGCCTGGGGATCCTTTTGACAACAGCAGCCGCCCCAG





CCAAGTGGTAGNTGAGACGCGCAAGCGCAAGGGCCTGAAAGAGGGCATCCCAGCGCTGGACAACTTCCTGGACAAACTGT





AGGCAGCNTGATACTGCCACATGTTGCACAGTGCCCACCCATCAGAAGACCCCTTGAGACTGTCCCACAGTGCTCCTNTA





GAGGCTGCTGGGGCCACCCTGACATCACTCAGCACTCACTTGCTACCAATTCTATTTATTTCGGAATTMCAAGATAGCGG





GAATCTCTCTGCAGGCTGGACTGGCAGGCTGTGGGGTGGGCGGGACMCGGCTCTTAMCATTTTCARAGGGAAACGCGCAG





ATGTCCAAAAGTYTAAATAAATGCATTCAGAGGTTTTTGGGGTCCATGGCCAAGTGGAGTTCCCCCARAGGGGGAGGTGG





GGTAAGTGCCTCCAGGAAGGCAGGCAGCCTGCCTTAGMCTTGCAGCCCGCCTGTGGGAATGAAYCATTGGAGTAATAAAC





TMCAGTGGTTGATCCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0034-T7 Sequence


AAAGGCCAGCTCCTGCTCTGCTCCTCTCCCGCCTGCCGCCGCGCTGCACGCCTCGAGCACTCCCTCGGCCCCGGCGGGGA





CCGGGGACCCCGCAGCTACCGCCATGCTGCCAGTGCTCTACACCGGCCTGGCGGGGCTCCTGCTGCTGCCTCTGCTGCTC





ACCTGCTGCTGCCCCTACCTCCTCCAAGATGTGCGGTACTTCCTGCGGCTGGCCAACATGGCCCGGCGGGTGCGCAGCTA





CCGGCAGCGGCGACCCGTGCGTACCATCCTGCGGGCCTTCCTGGAACAAGCGCGCAAGACCCCACACAAGCCCTTCCTGC





TGTTCCGAGACGAGACGCTCACCTACGCCCAGGWGGACCGGCGCAGCAACCAAGTGGCGCGGGCGCTGCACGATCAACTG





GGCCTACGACAGGGGGATTGCGTAGCCCTCTTCATGGGCAATGAGCCGGCCTACGTGTGGATCTGGCTGGGACTGCTCAA





ACTGGGCTGTCCCATGGCGTGCCTCAACTACAACATTCGTGCCAAGTCTCTGCTGCACTGCTTTCAATGCTGCGGGGCGA





AGGTGCTGCTGGCCTCCCCAGATCTACAAGAAGCTGTGGAGGAGGTTCTTCCAACCCTGAAAAAGGATGCCGTGTCCGTC





TTTTACGTAAGAAGAACTTCTAACACAAATGGTGTGGACACAATACTGGACAAAGTAGACGGAGTGTCGGCGGAACCCAC





CCCGGAGTC





Clone 0034-BGH Sequence


CTTTTTTTTTTTTTTTTTTTTAGTGTTAATATAGTTTATTATGTCTTTAAAAAAATAAGGCCCTCTCTCCAAGAAGCTTA





GTTTGCAAGGACAAATGGCAGGTGCACATTGAAAAATAATTGTTTCTAAATCTTTTTACTTGCAAAGGTTCAGGTGTAAT





TTAAAAAAAAAACAAACAAACTATCCTTTTAATGAATAATTTCCTAAAAATAAAATCGCACCTTATAGCCTTCAATCAAG





TTAAAGTTGGATTCTACGTATGAAGTGGCTCTGCGAGGTCTATCGAGTTTCTTTCTGGAAATGTCATGAGCTAAACCACC





AGGGAATATTCAGAGCTTCAGAGTTTTATCAATTATGGCATTATAAATGTTCTCAGTCATGGGCACAAATGTTTTCTCTG





CATCATCCATGAAATACAAGGTATCTTTGATGACTGTGGGATTGAAGCCCTCTTCCATCAGGGTCACTTTGCGGTGTTTA





AAAGTCCCAGTGATCTCAATGGTATCTTGTATCCTCAGGAACCGAGGCCTCGCGTAACTGGGCAGGTACTCCGCGATGTG





TTGAAAGAGTTTCTTTCCATTGAACTCGTAGTTTTCTTTGATCTTGAGGGAGGCCATCCCAATTCGACCCTCATGACCTG





GCACAGGCACGCCATACACATTCACTTCTTCAACAAAATCTACCAGTCCCACGATGTCAGCGACCTTCTGNGGTAGCTAC





GNTCTCTTCTTTTCACCGGAAAGTATCTNCAACCCTG





Clone 0036-Contig


AAAAGGTGGAATCTATATCCAAGAATGGAATCTGTCTGGAGATGGGCCCRCAGCCTCAGGGCGTGCTGCGGGCCGACCTG





TTCTCCCGGATGCGAGCTCTGGTGGCATCCATTCTGGACTTCATCGAGCTCTTCAACCAAGGCATGGACTTACCCGCCTT





TGAGATGGATATCTACAGGAACTTGGGCAGTGTGGACTTCCCACGCACTGCGGATGGTGACCTGGCTGGCWCTGTGCACC





CTCAACTGCAGGACCATGACTTTGAGCCACTGAGGCCTGGTGAACCCATCTTCAAGCTTTTCAGCGGAGAAGACGTACTG





TATGAGGGGGACTCCATTGTGTACCCTGTGTTCATTAATGAGGCTGCCTATTATGAGAAGCACGTGGCWTTCCTGAAGTC





TGAGAAGATCAGGGTCACAGTGCCTGCCCTGCTGAGGTTGACCCCCCGCTCCACCCAGACTCCCTAACCCAAATCATACC





TGGCCTGATCTCAGTTTTCCTATCTGAACAATGGGTCCCAAGCCCAGGGTCCCCTATCTCACTCTGGACACCATATCCCT





TTCCAGACAACTGATCTCATTATATAAAATAGACTGTGCCCCAAAAAAAAAAAAAAAAAAAAAA





Clone 0037-T7 Sequence


AGCTGCATCGTGGCGTTTCCCATGTTTCTGCTGAACCTTCTAGGCATGTGGAGCTGGGTATGCAAAAAGTGCTTTCCCTA





CTTCCTGAAGCGGTTCGCCATGATATACAATTGGAAGATGGCGAGCCTAAAGCGGGAGCTCTTCAGCAATCTGCAGGAGT





TCGCCGGCCCCTCGGGGAAGCTAACTCTGCTGGAGGTGGGCTGCGGCACCGGGGCCAACTTCAAGTTCTATCCCCCCGGG





TGCAGGGTCACTTGTATCGACCCCAACCCCAACTTTGAGAAGTTCTTGTTCAAGAGCGTCGCAGAGAACCGGCAGCTGCA





GTTCGAGCGCTTCGTGGTGGCAGCCGGGGAGGACATGCACCAGGTGACCGATGGCTCTGTGGACGTGGTGGTCTGCACCC





TGGTGCTGTGCTCGGTGAAGAACCAGGAGAAGATTCTGCGCGAGGTGTGCCGAGTGCTGAAGCCGGGAGGGGCTTTTTAC





TTCATAGACCATGTGGCAGATGAACGGTCTACCTGGAATTACTTCTGGCAGCAGGTCCTGGCTCGTGTGTGGTTCCTTGC





TTTTGACGGATGCAATCTGACCAGAGAGAGCTGGAAGGCCATAGACCAGGCCAACTTCTCCAAGCTGAACCTGCAGCACA





TNCAGGCCCCGCTCCCCTTGACCTTGGTGCGGGCCCACATCTATGGCTATGCTGNGAA





Clone 0037-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTGGCAAATATAGAAACCATTTATCAAATGAATATAAATGTATTGATCAACATTTAAAA





TATAACTTCTGCAAAATCATCTTGAAAAATATACATTTGTTTAGATCCATACATACAAATGCAGCTGAAACCCTTGGGCC





CACCCAGACTTGCTCTCTGTATGAACACAATGATATCCATGGTTTTGTTTCAGGACCAGTGGAATTTTTCTTCTTCTTCA





ATACAGGGTTTATTTGTGTAGCCCTGGCGGTCCTGGAACTCCATCTGTAGATCAGGCTGTACTCACAGAGATCCACCTAC





CTCTGCCACCTGAGAGCTGGGATTGAGGCTCTGCCACCAACCACTCAGGACCAGTGATATTTGACCAGAAGAAT





Clone 0038-Contig


AAAGGTGGAGCTGGGTGGTGTTTGGTGCGGTACGGCGGCCACTCACTTGCAGCAGAGCAGGTGCCATCCTGTGGAAGAAC





CATGAAGCACTACGAGGTGGAGATTCGGGATGCAAAGACGAGGGAGAAGCTGTGCTTCCTGGACAAGGTAGAGCCTCAGG





CCACCATTTCTGAAATCAAGACCCTTTTCACCAAGACACACCCGCAGTGGTATCCTGCCCGCCAGTCCCTCCGCCTGGAC





CCCAAGGGGAAGTCCCTGAAAGATGAAGATGTCTTACAGAAGCTTCCTGTGGGCACCACAGCCACACTCTACTTCCGGGA





CCTCGGGGCCCAGATCAGCTGGGTGACGGTCTTCCTGACGGAGTATGCCGGGCCCCTTTTCATCTACCTGCTCTTCTACT





TCCGGGTACCCTTCATTTATGGCCGCAAATACGACTTTACGTCCAGTCGGCATACGGTGGTGCACCTCGCCTGCATGTGC





CACTCGTTCCACTACATCAAGCGCCTGCTGGAGACTCTCTTCGTGCACCGATTCTCTCACGGAACCATGCCTTTGCGAAA





CATCTTCAAAAACTGCACCTACTATTGGGGCTTTGCTGCATGGATGGCTTATTACATCAACCACCCTCTCTACACACCCC





CTACCTATGGAGTTCAGCAGGTTAAGCTGGCACTGGCCGTTTTTGTGATCTGCCAGCTTGGGAACTTCTCCATCCACATG





GCTCTTCGGGACCTTCGGCCTGCTGGGTCGAAAACCAGGAAGATCCCATACCCCACCAAGAACCCCTTCACCTGGCTGKT





CCTGTTGCTGTCCTGTCCCAACTACACTTATGAGGTGGGCTCCTGGATTGGCTTTGCSATCTTGACTCAGTGTGTCCCAG





TGGCCCTCTTCTCCCTGGTGGGCTTCACCCAGATGACTATCTGGGCCAAGGGCAAACACCGCAGCTACCTGAAGGAGTTC





CGCGACTACCCGCCCCTGCGCATGCCCATTATTCCCTTCCTGCTCTGAGCAGCTCCTCACGGCTCTGCCCAGTAATACTC





TCCACCCCTCACTGCCCCTGTCCTGATGTGTGGCTGGCCATGGCTCTCCAGCAGCAACAATAAAACCTGCTTACCCAAAA





AAAAAAAAAAAAAAAA





Clone 0039-T7 Sequence


AAAGCGCTGGAGCTACAGCCGTTACTGCCGCCGCCGCCGCCGCCGCCGCCGAGGCGTTTGATCGTTGGCAATGTCAGGCT





TTGATAACTTAAACAGCGGTTTCTACCAGACGAGTTACAGCATCGACGAGCAATCTCAGCAGTCCTATGACTATGGAGGA





AGTGGAGGACCCTACAGCAAGCAGTATGCTGGCTGWGACTACTCGCAGCAAGGCCGATTTGTCCCTCCAGACATGATGCA





GCCACAGCAGACATACACTCGGCAGATTTACCAGCCAACTCAGGCCTATCCTCCAACAACACCTCAGCCATTCTATGGAG





ACAGCTTTGAGGAGGAGCCCCCTCTGTTAGAAGAGTTGGGTATCAATTTTGACCACATTTGGCAAAAAACACTAACGGWG





CTACACCCCCCTGAGGGCAGCTGACGGCAGCATCATGAATGAKNACGGACTTGGCAGGGCCAGTGGTGTTCTGCCTTGCC





TTTGGGGCCACACTGTTACTGGCTGGCAAAATCCAGTTTGGCTACGTATACGGGATCAGTGCGATTCGATGTTTAGGAAT





GNTTTGNT





Clone 0040-T7 Sequence


CTCTCCTTTGCCCTGCGCACGGGTACACGGCACGGTGTGGACACTCACCTGTTCAGTGTGGAGTCGCCGCAAGAGCTGGC





AGCCTGGACCCGACAGTTGGWGGATGGCTGTCATCGGSCTGCTGAAGCCGTACAAGAAGTGTCTACAGCCTGCACGTGGA





ACGGCCGTCCCTGCAGCCTGTCTGTGCACATCGACAAGGGCTTCACCCTGTGGGCAGCTGAGCCTGGAGCAGCCCGAGCC





ATGCTGCTCCGACAGCCCTTCGAGAAACTTCAGATGTCATCAGATGATGGCACGAGTCTCCTTTTCCTGGACTTTGGGGG





TGCTGAAGGAGAGATCCAGCTGGACCTGCACTCGWGTCCCAAAACGATGGTCCTTTATCATCCACTCTTTCCTGTCCGCC





AAGGTCACCCGCTTGGGGCTCTTGGCCTAGAAGCTGTCAGATGCACCAGCCCTGAAGAGGATCGTTCATCTTGTGGCCTG





ACCTGTCCTTCTGCTGACTGCCTGCTCGTCTGGGGGCTGAGGGAAGGGAGAGGAGGGGAACTAGGGCCTCANAGACCAGC





CTGAGGAAGCAGAACTCAGACCTGGGA





Clone 0041-T7 Sequence


AGGCTGTGCGAGCGGGCACGCGCGGACCCTKCACCGGGCCGCGGAGCCGCTATGGGCCCGCCAGGCCCCTCCCGTGGCCC





GGCGCAAGGACCGGCTCCGAGCCAGGATTGAAATTCCAAGATGGATGATCAGGACCCTGGGGGCATTAGCCCCCTTCAGC





AAATGGTGGCCTCAGGAGCCGGGGCTGTGGWCACCTCCCTCTTCATGACACCCCTGGATGTGGTGAAGGTCCGCCTTCAG





TCTCAGAGACCCTCGGCAACCAGCGAATTGACAACTCCCTCCAGATTCTGGAGTCTCTCCTACACCAAATCATCCTCCGC





TCTACAGTCCCCAGGGAAGTGCCTCCTATACTGCAATGGAGTCCTGGAGCCCCTGTACCTGTGCCCAAATGGTACCCGCT





GTGCCACCTGGTTTCAGGACCCCACACGGTTCACTGGCACCTTGGATGCCTTTCWGAAGATTGTGCGGCATGAGGGCACT





AGGACCCTGTGGAGCGGCCTCCCAGCCACCCDGGTGATGACCGYGCCAGCTACTGCTATCTACTTCACTCCTTACGACCA





ACTCAAGGCCTTCCTGTGTGGTCAGTCCTTGACCTCTGACCTCTACGCACCCATGGYGGCTGNTGCCCCTCGCCCCGAAT





GGGCACCGTGACAGTTGCAGCCCCTTGNAGCTCGTGCGGACCAAGCTGCAGGCTCAGCATGTGTCATACCGTGAGCTGGC





TTNCTCTGTTAAGCTGCNG





Clone 0041-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTCACAGAAGACCATCATCTTTAGACAAGGAATGAATGGGGCCAAGATACTGCCTGGC





CCAAGCTCCTCGGGCCAAGCTATAACAAACATGCGGATACAAAAAAGGCCGATCATCAGATTTGGTCTTGAATTCGGGAG





GCGGGAGAGGGGCAATCCTGGGAAGGGAAACAGCAGGAATCCAGGTCTGAGGACAGCCTGGGWGACTGGACTGGGAGGGA





AGGCACTTGGCTCAGTCTCCTGATCCCACCCGTGCAAGAGCCGGTTGCTCCCCGACTTTCAGCGGCCCANAGGCTGCTCC





TGGTTGAGCCTCTGGAAGAAGCTTTTGCCAAACTCGTAAGTGCTGATCATGATGSCACAGGAGGGGTGCAGCCTTCATGA





TCCTGGGGAGGAAAGCCTGCAAAGAGTCCCCTGGTGCCAGATTCAGCCCGG





Clone 0042-T7 Sequence


AAAGCTTCACTTCGCCCTCCAGCCGCGGWGGCTGCAGCGCAACTTCCAGATAGCGGAGTGGCCTCAGCTGCGAGCCGAGC





GGWGGCGGCAGCCYYCCTCAGCACACCCCCAGATCACCTTTTCCCCGCGACTTCGCCATGGCTGACTGCTGWGTACCGGT





ATGCCCACGGCCGATGTGTATCCCTCCACCCTATGCTGACCTCGGCAAAGCTGCCAGAGACATTTTCAACAAAGGATTTG





GCTTWGGGCTGGTGAAGCTCGATCTGAAGACGAAGTCATGCACCCGTGTGGAATTTTCAACATCTGGCTCATCTAATACA





GACACTGGTAAAGTTAGCGGGACCTTGGAGACCAACTACAAATGGTGWGAGTATGGTCTGACTTTCACAGAGAAGTGGAA





CACCGATAACACTCTGGGGACAGAGATTGCAATTTGAAGACCAGATTTGTCAAGGWTWGAAACTTGACTTTTGACACCCA





CCTTTTCACCGAACACAGGAAAGAAAAGTGGTAAAATCAAGTCTGCTTACAAGAGGGACTGTATAAACCTCGGCTGTCAT





GTTGACTTTGATTTTGCTGGACCTGCCATCCATGGGTCAGCTGTCTTTGGTTACGAGGGCTGGCTTGCTGGGTACCAAAT





GACCTTTGACAGTGCCAAGTCAAAGCTGACAAGGAGT





Clone 0042-BGH Sequence


TTTTTTTTTTTTTTTTCGGTTTTCATAAACGTCTATTTCATCATTGGTGGGTAGCACATTTAACAGTTAAATACATTTAA





ATAATGTATAGGAGGCCGCACCACGGCAGCACTGATAACCATCCAACTAGGAACCAGCCAACAGTGACTGTCTAAATATT





TAAAATACAGCTCTTGCTTCATCATCCTTTGATGTGATCACCTTCTGGGGGAAGGAAGGGGAGCCTGCTGGTCGCATGGA





AATATATTAAGGCCAAATCTTCTGATATTCGTTCCCAGAGGTTTCTTTTAACTGGATTAAGCCTCCAATTCCAAGGCAAG





CCCAAGTTTGTGGCCTCCAGCATTAAAGCTCTTCCCGTCTACCAGAGCAGACAGTGTAAGCTTCACACCAGGCCTCAGAG





TCTGAGTATAGCCCACTCCAATTAAACTAGAGTTGTTGACCTTTGCACAGATAGAAGCAGTAGGATCCAACTGGTATTTA





GCTGCAATGCCAAAACGAGTGCAGCTGGTACCCTGATGTCCAAGCGAGGNTTACTGAAGTGTCAAAATCTTCACATACTT





TCTGATAAATTTGATCCTCCAAATTCTGTCCCATTATTTACATTTGTGTGNAGCTGGAAGTCCCCAGTCCTGTAGCCGAC





NGCA





Clone 0043-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTAAGTTAACAAGCTTGCATTTAATAAGTCTGAAACCATTCTCAGCACATGGCATTGTACA





CGGGCATCTGTGCAAACAGATTCATTTAACAGGTCGTAGTTTAAAAAAGTCATAGATACTGTGAGTTCTGTATAAACCGG





TGGACGGCAAGTTAGTTCCTTTTGATTTATAAGCCTCAATGTCACCGCAGAATAAAGAATGTAGCCAAAGAAAGCATTAT





CGGTCACTCGTATAGGACAGWGTTGTTTCTATAATTTGAAGCTTTCTGAATGGACGGGTTCAGGCCTGATCCAACTGTAA





AAAGATCACTCAGTGAATAGACTATATGGGAACTGTACAAAGTGTCATTAACTTCCATCATTAATAGCTTACTCAGCACT





ATACCACTATTGCTAGTTAAAATAACCTGCTTCTGAGGCCCCACGGAGGGAGGCGGCCTGTGCACGCAGCCTCGATGCCC





TGGCCACCCTCATCCCCAGGGCGTGCCATACAGTCCAACAGAAAACTTTGGCTTTAGGAAGGAATCACAGACATTGAAAA





GAATGGCTTTAATCATTATTAAATGTGCAGTGGGAAGGAGTGTGCTTCAGATAGTCTGGGCAGGGCTGGCGGCAGGCAGG





TCACTCCGCTGCACAGCTGCAGACACTAGTTTGTCATGACAAGACAATGAGGGAAAGCAGNC





Clone 0044-Contig


AAAGAAGAAGAGGGGGCTAAGCTGAGTATAGAGGTGCTCCAGACCAGCCTGCAGAAGGAACTCACTCTAAACAAAGGCCA





GGCCTCCGCCATGGAGCTGCTGCGCTGCCCCACGCTTCGGCGCCTCTTCCTCTGCCTCTCTATGCTGTGGTTTGCCACTA





GCTTTGCCTACTACGGGCTGCTCATGGACCTGCAGGGCTTTGGGGTCAGCATGTACCTTATCCAGGTGATTTTCGGCGCT





GTGGACCTGCCTGCC1AGTTTGTGTGCTTCCTAGTCATCAATTCCATGGGCCGCCGGCCTGCACAGTTGGCCTCCCTGCT





GCTGGCAGGCATCTGTATCCTAGTGAATGGCATAATACCGAGGGGCCATACAATCATTCGCACATCCCTGGCTGTACTAG





GGAAAGGCTGTCTGGCTTCCTCTTTCAACTGCATCTTCCTGTACACCGGAGAGCTGTACCCCACAATGATTCGGCAGACG





GGCCTGGGCATGGGCAGCACCATGGCCCGGGTGGGCAGCATAGTGAGCCCACTGATAAGCATGACTGCCGAGTTCTACCC





CTCCATACCTCTCTTCATCTTCGGCGCTGTCCCCGTGGCCGCCAGCGCTGTCACTGCCCTGCTGCCAGAGACCTTGGGCC





AGCCGCTGCCTGATACAGTGCAGGACCTGAAGAGCAGCAGCAGAGCAAAGCAGAAGCAACAGCAGCTGGAACAGAG





CAGATGATACCACTCCAGGTCTCAACACAAGAGAAGAACGGACTCTGAAAATGGAGAGGGCGTCACTCAGCACG





AGTGGGGTTCTGCAGGTCCCACCATCTATGAGGAGGGGGAGTGAGTGGAGGGACTGGGCCATCTAAATGCGGAGC





ATTCAGAGAAATGCCTCCCCAAAGGTCACTTCAATAGACCTACTAGGAACAAAAGCTCTAACTGTGTGCAGCTTCAG





CAGAATGAGCTCTTCCTCAGCCATCTTCCAGCTCAGTGGTCACTCCTCCAGCTCCTGTCCCTTCCACCTCCAGGACATTG





CAAAGAATCCCAGACAATTAAATAAATTTCTTCTACCTTGAAAAAAAAAAAAAAAAAA





Clone 0045-Contig


AGCAGGAACTGAAGTCTTTATGGCCTTCCCACTGGAGACCAGCCGCCTGGAAGGCAGATGGGAGCCTCTTTTTCCTGCAA





TACAGTCGATACAGTTTGCTGTCGCTACTCTGAGTGTTATAGGCTCCAGTTCACTCCTCACCTACATCGCGTTCCAGAGC





CCACAGAAGTCTGCAGAGATAAAGCCACTCTTGTATCTGAGCTTCTCTGACCTGCTCCTGGGAATTTGCTGGCTCGTAAA





GGCACTTCTCTATGGAACTGCAGCAGCCCACAAGGACAGCATCTGCTATAACCTACAGACCGTGGGGGAGATTTTCTACC





TTGCCTCACTCCTCTACACCGTCAGCTACATCTCGTGTCTCTACTCGGAGCTGAGGAGGAAGAGCCGCCAGACTGAGAGG





AGCACGGTTGCCCAGGTGACAGATTATGTTTGCCAAGGTGGTCACATATTGTTCCTTTTGTCAAGCCTGATACCTCCGCT





GCTGATGACGCCTGTGTTCCTTTTGGGCAATGTCAATGAATGTTTCCACAACTTCAGTGAGAGCCACAGGTGTATCCTAA





TGCACTCACCGCCATCAGCCACGCCTGAGCCCCTGCCTTCCACCAATACATCTGTCTGCAGCACACTCTATTTTTATGGT





GTCACCATTTTCCTGGCCAGCTTTTTCTTCAGCTTCCTCACCATCATGGTCTTACTCGTCCATGCCCAGATGTTATATAA





GAAGTTTTGTRAAGTCGACGGGCCTTCTGGAGAGTGAGCAGTGGGCAGTGATTCACACTGTGGGCCAGCGAGTGCGTTTC





TTNNCAGTGGCCTTTGTGTGCTGCTGGGGTNCAGCTGTCTCCCTGCTGATCATGAAGCTGACAGAGCCTCAGGAGACCTT





CCTGCACATGGCCCTCTCTGTGCTCCAGGCTCTCTCAGCAGCATCCCAGGGGCTGCTCAACTGTGGCWTTTATGGCTGGA





CNCAGTCCAAGTTCCAGCAGATAAAGCGTGAGCCTCACCGTGACGCAGACACGCAGACCCCWCTGCTGTCCTCTCAGAAG





AGAATTTATAGTAGAAGCCCAAACCTACTGGAGTCTCCTCTTGCCCTTGCTTCCAGCTCCTCCACCGTTCTTTGAGACCC





TAGAATGGGAATGTCAGGGAGTGAATGTTTCACATGAGTGGACTCTCCTCTGGCCAAACCCGAGACTGGAGAGCTGAAAG





GAAATGTGGGCTCAGGGTCAGTAGCAATTCTGGGTGAATTCAGAAGCAGCTCTCTAACTGCTCCTTCAGAGATATACAGC





CGCTTTCCATMTAAGAGACTCGTTACTTTGACAAGAAAAAATAAATCTCAGGTTCATAAAAAAAAAAAAAAAAAAA





Clone 0046-Contig


AAAAGTGCGCCCCGAGGTCGCGTCTTGCCCAAGTCTCCGCGGTCCCCAGCGCTCGCTCGCGCGGTCCTGCCACGGCCTTC





CTGCTGCCCGCGCCATGGGCCTCAGCTCCAACTCCGCTGTGCRAGTTGAGTGGATCGCGGCCGTCACCTTTGCTGCTGGC





ACAGCCGCTCTCGGTTACCTGGCTTACAAGAAGTTCTACGCTAAAGAGAATCGCWCCAAAGCTATGGTGAATCTTCAGAT





CCAGAAAGWCAACCCGAAGGTGGTGCATGCCTTCGACATGGAGGATCTGGGGGATAAGGCCGTCTACTGCCGATGCTGGA





GGTCTAAAAAGTTCCCCTTCTGCGATGGGGCTCACATAAAGCACAACGAAGAGACTGGCGACAACGTAGGACCTCTGATC





ATCAAGAAAAAGGAAACCTAATGGACACTTGCGAGGCTGCACCCAGCGTGTTGTGATGTCACCTGCTGATTTACGTAGAA





TGGCACCCAACCCACMBGTCTGATTGGCCTCCCCGGTTCTAGATGTGGTTGGTCCCTGCAAATCACAGCTCTCATATCCA





TGGCATCGGCCTTGCTACTGAAACATGTGGTGCACGTTTGTTGAAAGAAGAAGAAAGGCTAAACCAACCTCGTGCTATAT





GGGTTATTTTGGTCTTGTAAGGATCCGTTCCTTTAAAATAATGGTCTTAGAATATAGTTGTATCTTGAGGTTAAAGTATT





AAATTATTCCAAAATCATGTACATGTAAAAAAAAAAAAAAAAAA





Clone 0047-Contig


AAAGGAGCAACGCGGGTCTTCCCGCTGTTGCTTGTCGCGGCCACGGCCGAGCATACGTCCCCGGCCTGAGGTGGTGGTGG





CGAGCCCACCGCCGTTTGCTGCGACCTCATGGAAGGTGGCGGAGGAAGTAGCAACAAATCCACCAGCGGGTTAGCTGGCT





TCTTCGGAGCCGGAGGAGCGGGTTACTCGAACGCTGATTTGGCCGGCGTCCCGCTCACTCGTATGAACCCCCTCTCTCCT





TATTTAAATGTGGATCCACGCTATCTCGTTCAGGATACTGATGAATTTATTTTGCCAACTGGAGCTAATAAAACCCGAGG





CAGATTTGAACTAGCTTTCTTTACCATTGGAGGATGTTGCATGACAGGGGCCGCATTCGGGGCAATGAACTGTCTTCGTT





TAGGATTGAAGGAAACCCAGAGCATGGCCTGGTCCAAACCAAGAAATGTACAGATTTTGAATATGGTGACTAGGCAAGGA





GCACTTTGGGCTAATACTCThGGCTCCCTGGCTTTGCTCTATAGTGCTTTTGGTGTTATCATTGAGAAAACACGGGGTGC





AGAAGATGACCTCAACACAGTAGCAGCTGGAACCATGACCGGGATGYTGTATAAATGTACAGGTGGTCTTCGAGGAATAG





CACGCGGTGGCCTGGCAGGACTGACACTCACCAGTCTCTATGCACTGTATAACAACTGGGAGCACATGAAAGGTTCCCTG





CTCCAACAGTCACTCTGAAGATTTTTGGCACCTCAGGAATGGGGGACACTTCATAGTCATCCAGATCAATTAATAAGCCA





GTCTGGAGTTGCTTTCTGTCTTGTACCTACAGTTACTTTGAACAATTCGAGACTCTGATTTGCTGTGACAAAGATCATGG





ATGGTTAGCCTGGACTGCACTGCTTGCCCTCAGTGAGTGGAAGCCAACCCCTTGGTGGCTCACTGAGTATGTGTTCTCTT





CTCCTTTGGAGATGATCTTGCACCCCAAACTGGAAAACCACTTACTCTCCAAATTCAGGCCATACTTTTTATTACCATGT





TAATTCATTTAAAAAATCTAAAACTTAAATGTTGCCCTGTTTTCCAAATAAAGGGTGAAAACAGAAAAAAAAAAAAAAAA





Clone 0048-Contig


AGGGCCTCCGCACTTCCAAGTCATCTGCCGGCTACTTGGCTACCAGGGCATTGCAGTAGTCATGGAAGAGCTGCTGAAGG





TTGTCAAGAGCCTGCTGCAAGGCACAATCCTACAGTACGTGAAAACTCTGATGGAAGTGATGCCCAAGATCTGCCGGCTT





CCGCGACATGAGTACGGCTCWCCTGGCATCCTGGAGWTCTTCCACCACCAGCTGAGGACATTGWGGAAGWATGCASNAGC





TGAAAACCGTATGCTTCCAGAACCTGCGGSAGGTGGGMAATGCTGYYCTCTTCTGCCTGCTTATWGAGCAAAGCCTGTCT





TTAGAAGAACTCTGTGACCTGTTGCATGCAGCTCCTTTCCAGAATATCTTACCTCGAATCCATGTAAAAGAGGGGGAGAG





AGTTGATGCCAAAATGAAAAGACTAGAATCCAAGTATGCCCCACTGCACCTTGTCCCACTGATTGAAAGGCTGGGGACCC





CACAGCAAATTGCAATTGCAAGAGAGCGGGACTTGCTGACCAAGGAGCGTCTCTGTTGTGGTCTGTCCATGTTTGAAGTC





ATCCTGACACGGATCCGGACCTTTCTGGATGATCCCATCTGGCGTGGGCCCCTACCCAGCAATGGTGTCATGCACGTGGA





TGAGTGTGTCGAGTTTCACAGACTATGGAGTGCCATGCAGTTTGTTTACTCCATTCCTGTAGGGACACACGAGTTTACAG





TGGGAGCAGTGTTTTGGAGATGGGCNTCCWCTGGGCTGGCTGCATGATCATTGTACTTCTTGGACAGCAGCGGCGCTTTG





CTGTGTTGGATTTCTGCTATCATCNTCTCAAAGTTCAGAANCATGATGGCAAAGATGAGATCATCAAAAATGTGCCATTG





AAGAAGATGGTGGAGAGGATCCGCAAGTTCCAGATTCTCAACGATGAAATCATCACTATCCTGGACAAGTACTTGAAATC





TGGTGATGGCGAGAGCNCNCCTGTGGAGCATGTACGCTGCTTCCAGCCNCCCNTCCTCCAGTCCCTAGCCNGTAGCTGAG





GGCTAAGCTCNCAGCATCCCAGTAACTGATGGCATGTTTGTCTTTATGTAAACTATATTGAAATTTTTAGGGGCTATTTT





CCNTTATGTCTGAACCTACTTTTGATCTGAAAGCTTAACTTTATAAAATTTACTTATTTTTCTATACTAAAATTGTATAT





GCCTTTGGAATTGGGAAGTCTGAGAATACGGTTACTAGTTGTTGCCNTTACGGTATTAACAAGTATTTTCATCCCGAATA





TTACAGCAGNTA





Clone 0051-T7 Sequence


AAAGCCTGTGTACGCCACCATCGGCTYYNGGTATCGTCAACACGGCCTTCACTGTGGWGTCGCTGTTTGTTGTAGAGCGA





GCTGGACGACGGACCCTGCACCTCATTGGCCTGGCTGGCATGGCAGGCTGWGCTGTGCTCATCACCATCGCCCTGGCCTT





GCTGGAACCGCTGCCTTGGATGTCCTATCTGAGCATCGTCCCCATCTTTGGCTWWGTGGCCTTCTTTGAAGTAGGCCCTG





GTCCTATTCCATGGYTCATTGTGGCCGAGCTGTTCAGCCAGGGGCCCCGTCCTGCTGCTATTGCTGAGGCTGGCTTCTCC





AACTCGACCTCAAACTTCATTGTGGGCATGTGCTTCCAGTATGTGGAGCAACTGTGCGCCCCCTACCTCCTTCATCATCT





TCACGGWGCTCCTCGTGCTCTTCTTCATCTTCACCTACTTCAAAGTCCCTGAGACCAAAGGCCTGAACCTTCGATGAGAT





CGCTTCCGGCTTCCGGCAGGGGGGTGCCAGCCAAAGTGACAAGACACCCGAGGAGCTCTTCCACCCTCTGGGGGCGGACT





CCCAAGTGTGAGGAGCCCCACACCCAGCCCCCGCCTGCTCCCTGCAGCCCAAGGATCTCTCTGGAGCACAGGCAGCTAGA





TGAGACCTCTTNCGAACCGACAGATCTCGGGCAAGCCGGGCCTGGGCGCCTTTCCTCAG





Clone 0052-T7 Sequence


AAAGCTTACCCAGCAGSRNGAGTAGATTTGTATCAACAAGAGAAGGCACGGATGGGCTCAGCGGGACTCAGAGTTCTTGC





CTTGGCGTCTGGTCCGGAACTGGGGCAGCTGACCTTCCTTGGCCTGGWCGGAATCATTGACCCTCCTCGAACTGGTGTGA





AGGAAGCTGTCACAACACTCATTGCCTCAGGAGTCTCCATYAAAATGATCACTGGAGATTCTCAGGAGACTGCAATTGCC





ATCGCTAGWCGTCTGGGATTGTACTCTAAGACTTCACAGTCCGWGTCTGGGGAAGAAGTCGATACAATGGAGGTGCAGCA





CCTTTCACAGATAGWGCCAAAGGTTGYAGTATTTTACAGAGCAAGCCCAAGACACAAGATGAAAATTATTAAGTCTCTAC





AGAAGAACGGGGCAGTTGTAGCCATGACAGGAGATGGGGTAAATGATGCAGTTGCTCTCAAGGCTGCAGACATTGGAGTT





GCGATGGGCCAGACTGGCACCGATGTTTGCAAAGAGGCTGCAGACATGATCTTGGTGAATGATGATTTCCAAACCATCAT





GTCTGCAATAGAAGAGGGTAAAGGCATTTATAATAACATTAAAAATTTTGCTAGATTTCAACTGAGCACGAGTATAGCAG





CATTAACTTTAATCTCATTGGCTACGTTAATGAACTTTCCTAACCCTCTCAATGCAATGCAGATTTTGTGGATCAATATT





ATAATGGATGGACCTCCAGCTCAGAGCCTTGGAGTAGAGCCAGNGGATAAAGATGTCATTCGAAAACCGNCTCGAAA





Clone 0052-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCCYTTAAATGATTGAGTTTATTTGTGKGTTAGTAAGAAA





GCCCYAYAACCATAAATAGTACAATATTTAAAAGTAAAAAAAATATTTATATCCATCTAAGACAGACAGTGTATTTGTAC





ATTAGAATTCTTTAAGTGCAGAAGGTGGTTCAGGTTTTGCCTTTTGKATTTTTTAATTCAGTACTTGCCCATATGTTGAA





GTTCACTCAATTGCAAAAGCCAATTCAAATCAAGGAATGTGTTATTCAAAGKTGCATAATTTCATTTGGGACTACCAACA





AAGTTCAAATCAAGTCTTTAACATTAATGGGTCATTTTTAGTCAATGGAAAGTTAAAAAGTCCTTAAGTCTTCATTATCT





TCTTGAACTTGCCCTTCTAAATGATTCTNAGACTGCANTNCCTAGTTTGCNAATTAAAAAAAAATGCNNTATGCATCATA





CTTNAAGGAAAGACGATGAANGCTNAACCAGCNTTCTTCCTGGACCTTCTCCCGGCTCCTTTCANCCTTCTTTATAACCC





TCAGNCACA





Clone 0055-Contig


AGGATTGGCGGGGTTCTCTTTGACCACATAAATCAATTCTTTCTTTTGGGAGCCTCAATGGTGGCAACTGCAGCGGGACT





TTATCTCATCCCGTTCTGCAAGACAGCAGTCTTATTGATCATCACCATGTCTGTCTTTGGAGCTTCCGTTGGTGTTGTGG





ATACAGGTGCAAATGTTCTCATCTTGGATCTCTGGGGGGACAAAGGAGCCCCACAAATGCAGGCCTTGCACTTCAGTTTC





GCCTTGGGTGCCTTTCTGGCTCCCCTGCTGGCTAAGTTGGCCTGGGGTACAGCACCTGCTCAGAACCACACCGAGTCCGA





CCTTGACACTCTGATGCTGAACCGATCCTCCAACGGCACCTCAGACTCCGTGTTTGCGGTACCCGATGACATGAATCTGC





TGTGGGCATATGCTTCCATTGGCACCTTTATTTTAGTAGTTTCTGTCTTTCTGTTTGGTCTGTTTTGTAAGAAACATTCA





AGCCAGAAAAAACCCAGAGCATCTGCTGAGGGAGCTCGAAGGGCTAAATATCACAGGGCCCTGCTATGCCTGCTCTTCCT





CTTCTTCTTCTTCTATGTGGGAGCCGAGATAACATACGGCTCTTACATATTCTCCTTCGCCACCACCCATGTTGGCATGG





AAGAGAGCGAGGCAGCTGGCTTGAATTCCATCTTCTGGGGAACCTTTGCAGCCTGCAGGGGCCTGGCCATCTTCTTTGCG





ACATTCTTACAGCCTGGAACCATGATCGTGCTGAGCAACATTGGCAGCCTGGTCTCATGTTTCTTTCTGCTACTTTTTGA





CAAGAGCCCTCTTTGTCTCTGGATCGCGACTTCTGTGTATGGAGCCTCAATGGCAGCCACGTTTCCCAGCGGCATCTCCT





GGATTGAGCAGTACACCACCTTAACTGGGAAATCTCCAGCATTCTTTGTAATTGGCTCTGCCCTGGGAGATATGGCCATT





CCAGCGGTGATCGGAATTCTTCAGGGACACTACCCAGATCTGCCAGTAGTTCTGTACACATGTCTGGGCTCAGCCATATT





CACAGCTATTTTATTTCCTGTGATGTATAAATTAGCTACCTTGCCCCTGAAGAGAGAGGACCAGAAAGCTTTGCCCACTA





GTTCTAGACTGTGAGGAAGAGACTACATGAGAACTTAAAAAAAAAAAAAAA





Clone 0056-Sequence


ATGCAATGGCGGACGTGTCTGAGAGGACGCTGCAGGTGTCCGTGCTAGTGGCTTTCGCCTCTGGAGTGGTCCTGGGCTGG





CAAGCGRATCGGCYGYGGAGGCGTTACCTAGACTGGAGGAAGCGGAGGCTGCAGGWCRRGCTGGCAACGACTCAGAAAAA





GCTGGACCTGGCCTGAGCACGCGCTGCAGCCCGAGTCCGCCGGGTTCTCACTCCCTAAGCCCAACGCAGCCCGGATCGTG





GGAGCCGCGCGACCCAGGAGTCGTCCTTGCACGGCTTGCAAGAACATGGCTTGCTTCAGAAAGAAAATAGTTTTGTCTTC





TCTAACAACTTACTTTCAGCTTGTCGAAGATGAAAATAAAAAGCACTGGAGAGAAATAATTTCTTGCACTTTATGAATCT





ATTTTTAAAATAAAAAAATTAAACATCTTTGAATCTTTTTCCTCCTCACAAAAGAAAGCAGTATTTTTGCCTACCATTCA





GTTTGCTGCAGTAAGAGATTTGGAGCCTGAAAGCAGAGACTTTCTGATGGAATCTCACCTTGGTACAGCCTGGAGGCAGA





TCTGATCAACGGACCATTATGAGTCATTTTTCTAGACATATTCAGAAAACCTAGGAGCTGTGTCAAATGCCTGAATTAAG





CATTACAAATGCAAGATATTTGCACTTTGAAGAATGTAGAGAGTAAAAAAACTAAAATTAAAAAAAATAATGCATGTGAT





ATAACGGAATATATATGTGAAAGAGAAAAAAAAAAAAAAAAAAAAAAA





Clone 0057-Contig


AGATAGTTTTGAACTTCCGATTCCCCTGCCTCCCCACCCCAGGGCTGTGATTGCAGGTGTGCGCTTGGGACTGACCCCAG





GCTTTGTCGGTGCTAGGGCAGCACTCTGCGACTGAATTAGGTCCCAGCCACTTCTCTGTCTTTTAAAAGAACAAAACATT





GCTAAATGTGCCATTGTTGCTTTGAGTTTTAATTCTTTTTTTTTTCTTTCTTTCATAAAACATTACAGTCTTAAGATATT





AAAGACTTTTATTCTGGTTCTATTTCTGTCTTTTCACTCAAAACTGGTTTTACAAATGATGCCTTGTTTACAGAAAGCTC





TCTACCACAGGGCCTAGTCATGTGTAAAGTCTCAGTTTCTCTCTGGAGTATCTTGGAGCCTAGCACACTGGCTTTAAAGG





ACACAGCTAAGAAGCTGATATCTTGACAGTGTTTGTAGACCTTTGTTATAAAAATGAATGTCCTGGAAAGGGTTGGGAGG





GAGTTCAACAACAAAGAAACAAGAATGTCATGTTTAAATTTAATAGTTGTCTAAAATGTCATCTCAAGTCAAGTCACTGG





TCTGTTTGCATTTGATAGGTTTTTATACTAACTAGCATTATAAGATTATTTCATAATTAGAAAATACCTGTGGATATTTG





TATAAAAGTGTGAAATAAATTTTTTACAAAAGTGCTCATCGCTTGTTAACACAGCATCATGTATGTGAAAGCAAACTCTA





AGATTATAAATGACAACCTGAGTTGCCTTTCTTTGTATTTCATCAAGCCAAAGTAAAGCTTTCAATATTTAAAAAAAAAA





AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0060-17 Sequence


AGCATCCCTCCATGGCCTCTGCATTGGCTYCTGCTTTCTGACCTGCTTGAGTTCCAGTCCTGACTTCCTTGGTGATGAAC





AGCAGTATGGAAGTGTAAGCCGAATAAACCCTTTCCTCTCCAACTTGTTTCTTGGTCATGATGTTTGTGCAGGAATAGAA





ACCCTGACTAAGACAAATTGGTACCAGCAGAGTGGGGTATTCCTGTGACAACCTGACCATGTTTTGGGGAGGACTGTGGA





TGGACTTTGGAACTTTGGGCTTAAAGATCCATCCGTTGTTAAGAGCTCTGTCAGATGTTGTGTAGGAGCTTGGAAGATAA





TGTTGAGAACACTGCAGAAGATGGAGGTCTGGTTTGTGAAATTTCAGAGGGAAAATTAAAGACTCTTTTCAGGGCCATTG





CTGTTTTGAATGTGAAGATTCTGTAGTTCTGGWTAGCTGGGGCTGAAGAATCAGCTGTGATTAACAAGATACCAGAACTA





CCAAAGCAAAAACTTTGCATTACTGGGACTATTGATGCTGGTTAGCTGGAGCTAAGAAATTAGCGGTGATTAAGAAGAGA





CCAGCATCATTGAGGTGACATCTTCTGGGAAGTGTTTTCTGAAAGCACAAAGATGCTGTGTTCCAGAGATGGCCAAGGTT





GTACTCCTGCTGCAGCAGGACTTGGTAATATGTAAGGGTCACCCAGGTGGTACTGGTTTTGAAGGCATGAANGGGTCACG





CAAAGCAGCTGANGCTCGGCACTGTGAGAGGCCATGGAAGGCCATTGCTGAAAGTACAGCCTCAGTT





Clone 0063-Contig


AAACGGCAACACTTCGGTCAGGATATCTTCTACCAGACACCAAGGCGTATGGAGATAGAATAGAAAGAATGCTTCGCCTC





AGTTTAAACATTGACCCTGAAGCACAGGTGGAGGAAGAACCAGAAGAAGAGCCTGAAGACACCTCAGAAGACGCAGAAGA





CTCAGAGCAGGATGAGGGAGAAGAGATGGATGCAGGGACAGAAGAAGAAGAGGAGGAAACAGAAAAGGAATCTACAGAGA





AGGATGAATTGTAAATTATACTCTCGCTATGAATCCCGTGTGGAGAGGGAATGTGAAGTTTTGAAGTCATTTCTTTTGAG





AGACTTGTTTTGGATGCTTCCCCAAGCCYCCTTCTCCCCTGCMCTGTAAAATGTTGGGATTATGGGTCACAGGAARAAGT





GGTTTTTTTAGTTGAATTTTTTTTAACATTCCTCCTGAATGTAAATTTGTACTATTTAACTGACTATTGGTGTAAAATCT





TGTCATGTGTATAAAAATAAAAAAAGRTCCCCAATWAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA





AAAAAAAAAAAAAAAA





Clone 0065-Contig


AGGGGAGATCCTGAGAACAGACCAGTGGCCTCGGAGGCTCTTCATGCAGCTCATTCCGCAGCAGTTGCTGACCACCCTCG





TGCCACTGTTCCGGAATTCACGCCTGGTACAGTTCCACTTCACTAAGGACATGGAGACTCTGAAGAGCCTTTGCCGGATC





ATGGACAATGGCTTCGCGGGCTGCGTGCACTTCTCCTACAAGGCATCGTGTGAGGTGCGTGTGCTCATGCTCCTGTACTC





CTCGGAGAAGAAGATCTTCATCGGCCTCATCCCGCACGACCAGAGCAACTTTGTCAACGGCATCCGTCGCGTCATCGCCA





ACCAGCAGCAGGTCCTGCAGCGAAGCCTGGAGCAGGAGCAGCAGCAGCGAGGGATGGGTGGCTAGAGGATGCCTGGGCTG





GGCGGGCCACAGTCCCAGACGAGGCCCCAGTGGAGACTGGTCAGCTGCTTCTGAGCAGGGGCTCCTGGCGACTGTACCTG





CCCAGCAACCTGGAGGACAGCGTCCTGAGGTCTCCCAAGGATGGTCCTTGCCCCTGTATGTTTCCCTAATAAAGCCTTTT





ACCCCAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0066-Contig


GGCTGCTTCGTGGAGCAGAGAGGTGCATCACCAGGTTCCCGATGAACCCAGAGAACCCTCCACCGTATCCGGGCCCCGGG





CCAACAGCCCCATACCCACCTTATCCACAACAGCCAATGGGGCCAATGGGGCCTATGGGAGCCCCACCTTCCTCAGGGGT





ACCCCTACCCACCACCTCAGGGGTACCCCTATCAAGGATACCCACAGTACGGCTGGCAGGGTGGACCTCAGGAGCCTCCT





AAGACCACAGTGTATGTGGTGGAAGACCAAACGAAGAGACGACCTGSGCCCATCCACCTGCCTCACAGCCTGCTGGACTG





CTCTGTGTTGCTGCTGCCTCTGGGACATGCTCACCTGATCACCTGATGAGCCCAGCTCTTCCGCTTGGCCGCTCTGTGCC





ACCTCCGATAAGTGTGCCTGGCCCCATCTCTTCTGATTGCTATAAAGTGGCTAGCTCTGCGCAGACACCTCTACTTTCTG





TCCTATGGAGTTTTAGATTAGTGAGGGTTACTGCTATTTAGTTCAGTGACTTGATCTTTTTAATGTTCAAAACTCATTTC





TTACTGATCTTTAAAAAATGTGCTAAATAATTTACTTTTTTGGCCAAAGGCTTAGTTATGAAATATATATTTATAATGTT





TAAATTATACACTCAAGGTAATGGCAATATGTGACACACTACTAGATCTCTCTGCTCATACCCTTTATGTTTCAATAAAT





CTGTCCAAAATCTGGAAAAAAAAAAAAAAAAAAAA





Clone 0067-Contig


CTGGAAAGGCGCGGAGCCTGCTGCTGCCATGGWGGCTGGTGGCTGGGTACACTATGTCTAGACTGGGGGCCCTGGGCGGC





TCCCGCGCCGGGTTGGGACTGTTACTTGGTACTGCCGCCGGCCTTGGATTCCTGTCCGTCCTTTACAGCCAGCGATGGAA





ACGGACCCAGCGCCATGGCCGGAGTCACAGTCTGCCCAACTCCCTGGACTATGCGCAGGCTTCAGAGCGTGGACGCCAGG





TGACACAGTTTCGGGCTATCCCAGGTGAAGCTGGAGATGCTGCCATACTGCCCAGCCTCTCACAGGAAGGGYAGGAGAAG





GTGCTGGACCGCCTGGACTTTGYGCTGACCAGTCTTATGGCGCTGCGGCGCGAGGTGGAGGAGCTTCAGAGAAGCCTGCA





AGGACTAGCTGGGGAGATTGTCGGKGAGGWCCGCTCTCATATAKAAGAGAACCAGAGAGWGGCCCGGCGGCGCASGTTCC





CTTTTGCCAGAGAGAGGAGTGACTCCACGGGCTCCAGCTCTGTCTACTTCACCGCCTCCTCAGGGGCCGCACTCACAGAC





GCCGAGAGCGAGGGAGGCTATACAACAGCCAACGCGGAGTCTGATTACGAGCGGGACTCCGACAAGGAGAGTGGAGATGC





TGAGGACGAAGTGAGCTGCGAGACCGTGAGGATGGGGAGGAAGGACTCTCTGGACCTGGATGTGGAGGCGGCGTCCAGTC





CGTC





Clone 0068-Contig


AGCGCTGGGTCTGAGTGACCAAAGGCAGTAGCGCTCGCGGAGATCACCCGCTGGCCCTCGATCACCATGTCGGCCTTCGA





CACTAACCCCTTCGCGGACCCAGTGGACGTAAACCCCTTCCAGGATCCCTCTGTGACCCAGCTGACCAATGCTCCTCAGA





GTGGCCTGGCTGAGTTCAATCCCTTCTCAGAGACAAATGCAGCGACAACAGTTCCTGCCACACAAGCTCCTGGGCCCTCC





CAGCCAGCAGTTCTCCAGCCCTCAGTGGAACCAGCACAGCCAACGCCCCAGGCTGTTGCAGCTGCGGCCCAGGCAGGCTT





GCTTCGACAGCAGGAAGAACTAGACAGGAAAGCTGCCGAGCTGGAACGCAAGGAGCGAGAGTTGCAGAACACTGCAGCGA





ATTTGCATGTGCGAGACAACAACTGGCCGCCACTCCCCTCATGGTGCCCTGTGAAACCCTGCTTCTATCAGGACTTCTCC





ACGGAGATCCCTGCTGACTACCAGCGGATTTGCAAGATGCTTTACTATCTCTGGATGTTGCATTCAGYGACTCTGTTTCT





AAACCTGCTTGCGTGCCTGGCCTGGTTCACAAGTGACGCAGCCAATGGAACAGCCTTTGGCCTCTCCATCCTTTGGTTTC





TGATCTTCACTCCCTGTGCCTTCCTTTGTTGGTACCGACCCATCTACAAGGCTTTCAGGTCTGACAACTCTTTCAGCTTC





TTCGTGTTCTTTTTTGTATTTTTTTGTCAAATAGGGATCTACTTCATCCAGTTGATTGGCTTGCCTAACTTGGGGACCAG





TGGTTGGCTTGCAGCCCTATCTACGATGAAAAATGGGCCCTTAGCTGTGACCATCATCATGATGGTAGTGGCTGGCTTCT





TTACCCTCTGTGCTGGGCTTTCACTCTTCCTCCTGCAGCGGGTACACGCCTTCTACCGCCGAACAGGAGCCAGCTTCCAG





CAGGCCCAGGAAGAGTTCTCCCAGGGTATCTTCAGCAGCAGAACCTTTCGCGGGGCTGCCTCATCTGCTGCCCGAGGAGC





CTTTCAGGGGAATTAGGCTTCCCGACTCTCCTTCCCTGAGCCCTGGCCTCTCTGTCAACTGTCTTCTGAGCTGCACTTTC





CTCGGGTGCCTTATGCAGTGACTACACCAGCACAGACCTGGCAGGGATTTGTCTTGTCCCTGCTCCTCCCTCAGTAGTCA





GCTTTCTCCTCTACAAGAGGGAAGGAGAGGAAGGGACAAGGACTTTAAAAAAAAAAAAAAAAA





Clone 0069-Contig


TTCGTCACTGCCAGGCTGAACTGGAGAGGCTTTCAGAGTCCCTGAGGAAGAGCATCTCCTGTGGAGCTTTCTCTGTTCCT





GGGGGTCACAGCCTCTACTTAGAAGCCAGGAAGAAGATTGAGCTGGGCTACCAGCAAGTGCCGAGGAAGGGAGTGAAGGC





AAAAGAGGTTCTCAAGAGTTTCCTACAGTCACAGGCTATTATGGAGGACTCTATCTTGCAGTCAGACAAAGCTCTTACAG





ATGGAGAGAGAGCCATAGCAGCTGAGCGGACAAAGAAGGAAGTGGCTGAGAAGGAACTAGAGCTGCTGAGGCAGAGACAG





AAGGAGCAAGAGCAAGTGATGGAGGCTCAGGAGAGAAGCTTCCGAGAAAACATTGCTAAACTTCAGGAGAAGATGGAGAG





CGAAAAGGAGATGCTGCTGAGGGAGCAGGAGAAGATGCTGGAGCACAAGCTGAAGGTCCAAGAAGAACTGCTTATTGAAG





GATTCAGAGAGAAATCTGATATGTTAAAGAATGAAATAAGTCACCTGAGAGAAGAGATGGAAAGAACAAGAAGGAAACCC





TCACTGTTTGGTCAAATCCTTGACACCCGTTGGCAATGCGTTCATTATGATTTTACCAGGAGCTGGTAAACTATTTGGTG





TGGGGCTGAAATTCCTCGGCTCACTAAGTAGTTAGTCTAAAGAGTTTCTGGGAAGGAATTTATAAAATCCAGGCTTCTGG





TATTTTGATACCAAACTTTTTGCTGKGATTTTTAAGTACACATTCTAGTTTAATAACCACGGTTACMAAGAAAGTAAGAA





CTTYCATTAATAGCTAAATTGTCAGATACTGCTTCCTCGGAGTCTAATTCTGTGTCAGTTCATTACCTATTATATTTAAG





GTTAAAGATNCAAACCAATGATTGAAGAATATAAGGGTCTGGCGTCCATAAATCCTGTCAAATTTCAGTGATGTTATCTA





AATAATAAAGAGGGAGGCCAGTCAGAATATAGTGAAATTATTTCTAGAAAAGATGTAAGTAAATCAAACAGAAACATGGC





CAAATGAAGACMCATTGGCATATGTATCCCAGTTGTACACTACAGATAAATTGTTAAAAAGAGCTCTTGTTAAAACGCMC





AAGTGGGTTTTCATAAGAGAATGTATGAGGAAAATGTTTGATTGATAATAAAAGGCATGCAGATTAAAATAAAAAAAAAA





AAAAAAAAAAAAAAAAAAAAAAAAAAAAA


0


Clone 0070-Contig


GAACGCCTCTGGGGAGCATGGCATCCTGGTTTTCTCTTTGGGATCCATGGTCTCAGAGATTCCGGAGAAGAAAGCCATG





AAATTGCTGAGGCTTTGGGCAGAATTCCTCAGACGGTCCTGTGGCGCTACACCGGAACTAGACCATCGAATCTTGCAAA





AACACAATTCTTGTCAAATGGCTACCCCAAAATGATCTGCTTGGTCATCCAAAGACTCGGGCATTCATCACACACTCTG





CTCCCATGGTATTTATGAAGGAATATGCAATGGAGTTCCGATGGTGATGATGCCCCTATTTGGCGATCAGATGGACAAT





CCAAGCGCATGGAAACTCGGGGAGCTGGGGTGACCCTGAATGTCCTTGAAATGACTGCTGATGATTTGGAAAATGCCCT





AAAACTGTCATCAACAACAAGAGCTACAAGGAGAACATCATGCGCCTCTCCAGCCTTCACAAGGACCGTCCTATAGAGC





TCTGGACCTGGCTGTGTTCTGGGTGGAATACGTGATGAGGCACAAGGGGGCACCACACCTGCGCCCGGCCGCCCATGAC





TCACCTGGTATCAGTACCACTCCTTGGATGTGATTGGCTTCCTCCTGGCCATTGTGTTGACAGTGGTCTTCATTCTCTT





TAAATGTTGTGCCTATGGCTGCCGGAAATGCTTTGGGGGAAAGGGGCGAGTGAAGAAATCACACAAATCCAAGACCCATT





GAGAAGTGGGGGGAAGTGAAGGAGAAGTATTAGTTCATTATCTGATCAGTTGAACYTTGGAAACAAGTGTTAGATCCATA





TTGTTTTTGTTAGGGAAATAATTCACCATACATTATACATTCAGCACATTTAAAAATAATAATAATAACAATCTAATTGC





TGGCCACACCCATCAGGGAAGGTTCTAGTATATGTGATGTGCTTTTCCAGTATCTTCAGTCTAGACAACTCTTGCCATCT





GTTGGTAATTTACAGAAAGTCTGGCACTCTGCTTTCAGTGACAGCCCCACAGTTTCCCCTGCTCCCCCCAGCTGATGGTT





TTCTCCCCTGGATTCTCAGACTGCCGTGGCCTTCTCCAGTGTTAGTCATTCTTCATTGTGTTCATGCATTATGGGTAGCA





AGACCTTTGGAGCTTTGGGAGAAGAGATCAGGCTGTGACACTGATGGCCCTGTGTTTGAGATAATAATTGTTGCTTGTGC





CGGAATTTGATGAAAACCAAAGTATGTTCTAAGGCAAGTACATCTTCTATTGTGTTCCCAAACCAAGAACTTATCAATAA





ATTCATATAAATTGTATCACTAAAAAAAAAAAAAAAAA





Clone 0071-Sequence


AGAGAAGCAGACATGGCTCAATTTGCACAGGTCATGGCTGAAGTGGGCGACTTTGGTCGCTTTCAGGTGCGGTTGACCAT





CCTGATGGGCATTCCCAATTTCCTGGCTGCATTCTTCATATTTGGCCAAGTCTTCATGGTCCTTGATGAGGCTCACCACT





GTTCAGTGTCCTGGGTTAAGAACCACACTTTCAACCTAAGTGCCGCTGACCACCTGGCTATAAGCATCCCCAACGACACA





GCGGGCAGACCCGAGTCCTGCCTCATGTTCCGGCCACCTCCTGACAGTGCCAGCCTGGAAGACATCCTGAGCCACCGCTT





CAATGAGACACAGGCCTGTGACTCAGGCTGGGACTATCCTGAGAACCGGCCTCAGTCCCTAAAGAAAGAGTTTGACCTGG





TGTGTGATCGAAAGAACCTGAAGAAGACCTCCCAGTCGGTGTTCATGGCTGGTCTCCTTGTTGGGGCCCTGGTCTTTGGG





CCTGTCTGTGACTGGATTGGCCGCAGACCCTCCCTCCTGATGCAGGTGCTTCTGTCAGGCATCACAAGCATGGCCACAGC





CTTCGTGTCCAGCTTTGAGCTCTACTTGGCCCTACGCTTTGTCTTGGCTACTGCCAATGCTGGATTTTTACTAAGTACCA





ATGTCCTGATTTCAGAGTGGGTGGGGCCATCTTGGAGAACACAAGCCGTGGTCTTTGGCCCANAGCAACGTTGCCCTTGG





GCAGATGGTGTTAGCAGGACTGGCCTATGGTGTCCGAAACTTGGAGACTTCTTCAGATACANGGACCCGACCCGCTTACT





GNTCTTCTTCTATTTCT





Clone 0073-T7 Sequence


AGCGGGCCTGAGCCGAGCAGCTGCGCGACGTCATGGACAACTCCGGGAAGCAGGCTGAGGCTATGGCGCTGCTGGCTGAA





GCGGAGCGCAAGGTGAAGAACTCGCACTCCTTCTTCTCCGGCCTCTTTGGAGGCTCATCCAAAATAGAGGAAGCATGCGA





GATCTATGCCAGAGCGGCGAACATGTTCAAGATGGCCAAGAACTGGAGCGCTGCTGGGAACGCTTTCTGCCAGGCTGCCC





AACTACACCTACAGCTCCAAAGCAAGCACGATGCAGCCACCTGCTTTGTGGACGCTGGCAATGCTTTCAAGAAAGCTGAC





CCCCAAGAGGCCATTAACTGTCTGATGAGAGCAATTGAGATCTATACAGACATGGGCAGATTCACAATCGCAGCCAAGCA





CCACATCTCCATCGCTGAGATCTATGAGACAGAACTGGTGGATGTAGAGAAGGCCATCGCCCACTATGAGCAATCCTGCA





GACTACTACAAAAGGGAGAAGAGTCCAACAGCTNAGCCAACAAGYGTCTGCTGAAGGTGGCTGGCTACCCCCGAACAGCT





GGAGCAGTACCAGAAGGCTATCGACATCTATTGAGCAGGGGGGGACCAGTGCC





Clone 0074-T7 Sequence


AAAGTTGTTCTTCTCGTGGTTCCCAGTGGCGAGAGGAGGAGGAAGCCCGGAGCGGAGCGGGGCGKCTGGGGGGGGTGGAC





CCGCCGCGGCTGCTGCTACCACCGCCGCCGCCGCCACCACCGCTCGTGGGGCTCGTGGCGTGAGGAAGGAGGACGAGTGA





GACCCCGGGGCGAGCGGGCGGCGGCGCCGCTGCTGCTGCTGCTGCTGCGGGAGGGTCGGCGGCGGGACGGCGATGGCGGA





TATCGACAAACTCAACATCGACAGCATCATCCAACGGCTGCTGGAAGTGAGAGGGTCCAAGCCAGCCAAGAATGTCCAGC





TCCAGGAGAACGAGATCCGAGGACTCTGCCTGAAGTCTCGGGAGATCTTCCTCAGTCAGCCTATCCTTTTAGAACTTGAA





GCACCACTCAAGATATGTGGNGACATCCACGGGCAGTACTATGATTTGCTCCGTCTGTTTGAATACGGTGGCTTTCCTCC





AGAGAGCAACTATTTGTTTCTCGGGGACTATGTGGACAGGGGCAAGCAGTCCCTGGACACAATCTGCCTCTTGCTGGCCT





ACAAAATCAAGTATCCGGAGAACTTCTTTCTTCTCAGAGGGAACCACGACTGCGCCAGCATCAATAGGATCTACSGATTT





TATGATGAGTGTAAAAGAAGATACAMCATTAAGCTTGTGGAAAACGTTCACAGACTGKTTTAACTGCTTGCCGATAGCAA





GCCATCGTGGACNAAGAAGATAWTCTGCTGTCATGGAGGGTTATCACCAGAWCTTCAATCTATGGAGCAGAATTCSGCSG





AAATATKAGACCAAYTGATGTACCAGAWCAAGGGCCTTCTTTKCGAACCNTTGGGGGCCTGANCCCCATAAAGAGGCNTT





AAGCTTGGGTGGAAAATGCCCGAGGAGNGGCCTTCCAATTGGTGCCAAAT





Clone 0076-Contig


AGGATCATCCGTCTCGCCTCCAGTTCTTCACCGGCTGAGCTGGGTACGGACATCTCAGTGACCACGAGCTAACATAGCAC





GTGAAACTGACCTCAGGAAGAACGAAGCCTGGAGACCCGGAGTGCGACAGCGACCTCCGGACTGAAGTGGAAGAAGCGTA





GCGAGGCCTTCGTGTCCTCGCTGTGGGGGGCGGGGCTTGTTGTGCAGGCGGGGCTCACGTGGTACTTTGGTACTTTGGAT





GACTGAAGGGAAGCTTGGTACCCGCCTGGTCACTACCCGGAAGTCCAGCCGGAGTAGCACTACCCTGCAGTCCACCCGGC





TGTGAAGCGGTGGTGCTCTTAGGGGTGCTTGACGCCCTCATTGTTAGAAACTGATGGGTACTGTTGGCCGATTCCTAGAC





CCGCTTTTGACCTACGTCATAAATGTGTTTCCGGAACTCTGCCAAAAAGTGTTCTGGAGGTTTTTGTTTGTTTCGGAGCC





AAGGCCTCCCTCGTAGCTCTTAATGGCCTGAAACACTCTTTGTAGCCTAGACTGGCATTGAAGTCAAGTTAGCCCTGCCT





TTGCCTCCCTGGGCTCTGGGATTACCCTGCCTTTCTTGATTATTTCTATTTGAACAAATATGAACAAACTATGTGGCCAC





CACAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0077-Contig


AGATGGAGCCTGCGTTTCACAGAGGGGATCTCCTTTTCCTCACGAACCGAGTTGAAGATCCTATACGCGTGGGGGAGATC





GTTGTTTTCAGGATAGAAGGAAGAGAGATTCCTATAGTGCACCGAGTCCTGAAGATCCATGAAAAGCAAGATGGGCATAT





CAAGTTTTTAACCAAAGGAGATAATAATGCTGTTGATGACCGAGGTCTCTATAAACAAGGACAACACTGGCTGGAGAAGA





AAGATGTTGTGGGGAGAGCAAGAGGGTTTGTTCCTTACATTGGAATTGTGACGATCCTCATGAATGACTATCCTAAATTT





AAGTATGCAGTACTGTTTCTGCTCGGTTTATTTGTGCTGGTCCATCGTGAGTAAGAAGTCGGACTCCCTGTTCCTAGGAA





GCTGCTGTGCTTGTTGTTACTGAATGTTGGAGTAGATCCTGATCTGTGATTGCGGATTTTCGGAGGACACACACGTTGGC





ACTTCTTGGTAGCCCTGGTTTGCATTGCTTTGTGTTTCCACACCAGAGGCTGTGTGGGCGGGTGCATGTGCACCGTGGAG





TGCACACAAGGGGACTGTCAATCACAGGGTTTCATATGTTGTCATTGTCACTCTTTCACATTTTTGTACATCAGTGAATT





TTTTATATTAAAAGGTTGAGCCAAAGCCCCCAGTGTTTGTATTTTGAAGCCAAGCTTCACTTTAAAAGTGCCTACAGAGT





TCTGTAAATGAAAACACAGCTCTGCATGAGTTCAAACCTGTCGKTCCTYCTTACAGTAGGAATGGCACATATTGAGGCGG





KCATAAGTCTTAACTTTTCAAAATTTTAAATAAAAGACTTTGCACATTTAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0079-Contig


AAAGTTCTTCTCTCACGTGGGTTGGCTGCTTGTGCGCAAACACCCGGCTGTCAAAGAGAAGGGCGGAAAACTGGACATGT





CTGACCTGAAAGCCGAGAAGCTGGTGATGTTCCAGAGGAGGTACTACAAGCCCGGCCTCCTGCTGATGTGCTTCATCCTG





CCCACGCTGGTGCCCTGGKACTGCTGGGGCGAGACTTTTGTAAACAGCCTGTTCGTTAGCACCTTCTTGCGATACACTCT





GGTGCTCAAACGCCACCTGGCTGGTGAACAGTGCCGCGCATCTCTATGGATATCGCCCCTACGACAAGAACATTCAATCC





CGGGAGAAATATCCTGGKTTCCCTGGGTGCCGTGGGCGAGNGGCTTCCACAACTACCACCACACCTTYCCCTTCGACTAC





TCTGCCAGTGAGTACCGCTGGCACATCAACTTCACCACGTTCTTCATCGACTGCATGGCTGCCCTGGGCCTGGCTTACGA





CCGGAAGAAAGTTTCTAARGCTACTGTCTTAGCCAGGATTAAGAGAACTGGAGACGGGAGTCACAAGAGTAGCTGAGCTT





TGGGCTTYTGAGWTCCTGTTTYAAACGKTTTCTGGCAGAGATTTAATATTCTGTTGATTAACTAACAACTGGATATTGCT





ATCGGGGTGTTAATGATGCATTTAACCTATTCCGGKACAGTATTCTTATAAAATGAGAAAGCTTTGATCACGTTTTGAGG





T





Clone 0080-7 Sequence


TCATACAAACACCCCAGTACCTCCAGCAGCTCCAGGAGTCAAAAACACCAGCAGTGGACCGAGGTCCTACAGCTGCCTGC





AGCCATGTTGGCCTTCAGTCTGCTCGTGCTGGGTCTGCTCGCGGAAGTGGCACCTGCCAGCTGTCAACAAGGTCTAGGAA





ACCTTCAGCCCTGGATGCAAGGCCTCATTGCTGTCGCYGTGTTCTTGGTCCTYGTTGCAATCGYCTTYGCMGTCAACCAC





TTCTGGTGCCAGGAGGAGCCGGAGCCTGSGAGCACAGTSMTGAYCRTYGGAAACAAGGCAGATGGRGTCCTGGTGGGAAY





RGATGGMAGRTACTCYTCRATGGCRKCYRGTTTYAAGTCCAGYGAGCAYRAGAATGCCTAYGAGAATGTKCYSGAGGARG





ARGGCARGGTCCGCAGCACMCCSATGTGRCRAGCYKCTMYSYRKMCSWMGTCCCCAGRCTACGCWTAGAGTTGATCCCCA





CCATCTCACCCAGCCACTGCTCTACAGGAATCTACTGAAACAAGCTGACTYCCTCACCTCTCTAGAATCACAGTCATCTY





AGGCCAGGACTCAGACCAAGCCCAGCACACCAATGTGCTGTGACCCYKGGCTTTCC





Clone 0081-Contig


AAAGCGCTCCTCGAGGGTCGGTCCCGCCACGTCTCTTCCCGGTCTCTCTGGCTCTGGAGTGCTTTCCCCCCGCGGAGGGT





GGGAGCGCGGGGACAGACGGGCGAGATGAGCACCATGTTTGCAGACACGCTGCTCATCGTCTTTATCTCCGTGTGCACCG





CGCTGCTCGCCGAGGGCATAACCTGGGTCCTGGTTTACAGGACAGACAAATACAAGAGATTGAAGGCAGAAGTGGAAAAA





CAAAGTAAAAAATTAGAGAAGAAGAAGGAAACTATAACAGAGTCAGCTGGTCGACAACAGAAGAAGAAGATAGAGAGACA





AGAAGAGAAATTAAAGAACAACAATAGAGACCTGTCAATGGTACGGATGAAATCCATGTTCGCGATTGGCTTTTGTTTTA





CTGCCTTAATGGGAATGTTTAATTCCATATTTGATGGTAGAGTGGTGGCAAAGCTCCCCTTCACTCCTCTGTCTTACATC





CAAGGACTATCTCATCGGGAACCTGCTGGGAGATGACACCACGGACTGCTCTTCATCTTCCTGTATATCCTCTGTACCAT





GTCAATTCGACAAAACATCCAGAAGATTCTTGGCCTCGCCCCTTCACGAGCTGCCACCAAGCAGGCTGGTGGATTTCTTG





GCCCACCACCTYCGTCTGGGAAGTTTTCCTGAAGGAAAGCAGAATTCTGAATTTCCTGTCATACTTTTTAGACATTCACA





TCAGACTTACMGAGCACCTGGCCACAWTCTAGGTNKGKGTWATTTCTCAGCTATGGATAGATWCMAATGAGAACCCTGMT





TTAACTAAWGGGAWARTGCTATGGTCACCGGATGGCTTCTTTNAGTAATAAGTGSMCYCNNTCTGGKTACCATTTGGAWG





GCTTAATGTAACCCCMAACCATCAATCTTTCTTGTCTYACTTGAGTATTTCAGTGTATGTGCCATATACACAGAAGCAC





CTGTCCATGAACATTAGGAGAAAAATAGTTTATGTAACAACTTCACTGTAATTAGTTGTTGTGTTTTTTAAAAAGCCA





TATGTCACTTTGTGTTCGACAATGAGCCAAATTTTTAGATGTTTCAGTTAGAGAAATGTTTGATTTTTTTGCATATTA





AAGAGTATTTTCTGTAATCTGAACATAAGGATAAGCATTGGCCCAAAAAGCTAAAATAAAGTTTTGTCATGTTCTTTTAC





CAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0082-Contig


AGGCGACATGGGGAGGCGCGGAGGCGACACCGGAAGTGGCTGTGGTCCGGGTCGGCCCGAGGGGGACTCAGCGCCCGCAG





CAACCACCCGCGCGGCGGCGGTCACAGCTCATACCCGTGCGGGTGGGCGTGGCGGGCGCCGGGACACAGCTCCGACTGTT





CGCTGTCGGCGCGGRGMGKCGCCGCGTCGCTCGCCTTNACCAGCTGCCATGAGCGAGCGCCTCCGCCCCAGAAAAAGGAG





AAGAAATGGCAGTGATGATGACAACCACCCTCCTCCCCAGACCAAAAGGAGCAGTAGGAACCCCATCTTCCAGGACTCCT





GGGACACAGAGTCTTCAAGCAGCGACAGTGGTGGGAGCAGCAGCAGCAGCAGCATCAACAGCCCAGACAGGGCCAGTGGG





CCAGAGAGCAGCCTGAGCCACACCATCCCCGGATCCTGCCCCAGCACCCCCCAGCCGATGCCTGAGCAGTCTGCACTATG





CCAAGGCCCTTACTTCCACATCAACCAGACCCTGAAGGAGGCTCACTTTCATAGCCTACAGCACCGAGGCCGGCCGCCGA





CATGATGCTCCTCCGGCAGTTTCTTGCCTTCTGTGAAGGGACAGCACTGTGCAGATTGGATATTTCAACTTAATGATTTG





TTTTTAAAAGTTGCACACAGAAAAAAAAAAAAAAAAA





Clone 0083-Contig


TGCTGAGGTGGGAGTGGGCCCAGCGCCCGGTGGCCGCAGCTCACGCGCAACCTGCGCCATGGCCGCCTCCGCCGCCTCCT





CCGAGCATTTCGAGAAGCTGCACGAGATCTTCCGCGGCCTCCTTGAAGACTTACAAGGGGTGCCGGAGCGGCTGCTGGGG





ACCGCGGGGACAGAAGAGAAGAAGAAGCTGGTCAGAGATTTTGATGAAAAGCAACAGGAAGCAAATGAAACGTTGGCAGA





GATGGAGGAAGAACTACGATATGCACCCCTGACTTTCCGTAACCCCATGATGTCTAAGCTGCGAAACTACCGGAAGGACC





TTGCTAAACTCCACCGTGAGGTGAGAAGTACACCTCTGACAGCCGCACCTGGAGGCCGAGGAGACCTGAAGTATGGCACC





TATGCCTTGGAGAACGAGCATTTGAATCGACTACAGTCTCAAAGAGCATTACTCCTACAAGGCACTGAAAGCCTGAACCG





GGCTACCCAAAGCATTGAGCGTTCTCATCGGATTGCCACAGAAACTGATCAAATTGGTACAGAAATCATAGAAGAGTTGK





GGGAGCAACGAGACCAGTTGGAACGTACTAAGAGCAGACTGGTAAATACAAATGAAAATTTGAGCAAAAGCCGGAAGATT





CTTCGCTCAATGTCCAGAAAAGTGATAACCAACAAGTTGCTGCTCTCCGTCATCATCTTGCTGGAGCTAGCCATCCTGGT





CGGTCTGGTGTATTACAAATTCTTTCCACACCATTGAACTTCTGTAGGGAAAGCCTTGTGGACCAGCATCTTACTCTGAA





TGAATGGTTTTACATAGGGATATGTGTTGCTGCTGTGGGCTAACAGTTCAAGAATGTATTGTCTTGTCAGACTATGGGAG





GGAGGGCAATGGAAAACCTCGAAAATGTGAAGGAACAGCAACAAGACCAGTATGATATACTAAGGTAATAAATGTTGTTT





ATGACTCCTTCAAACTTAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0084-Contig


CTTTTTTTTTTTTTTTTTTTTCCGTTATAATAGCCATCTTTATTTGTAAAAATCCAGATATAAAACGTAATCTTTCAGTC





TTTCCAGGTTTTCCTTTTTTACAAAAACAAAAAGGCACGTATAAACCTTGCCCGCTGTCGTCCCCGTACACGGTGTTTCT





CAGGCAGCCCTCCCCCCCGCCCCGCCCCCCGTTACAGCTACATGCTTCATTCCAGCACGTCTGCATCCCCACATGCTTTG





GTGCTTTCCTACCAGGGTAGAGTTCCGAGCTCCAACACTTGAAGTACACAAAGAGGGGGTAGGGGTGGGTGCAGTGTGTG





GCACAATGTTCCACGGCGTGCAGGGCAGTGGGCTAGTACTAGGTCTCCTTCTCCACCCAGCCGCCAGGGCGCCGCCTGAT





AATGAGCTTCCGCACCTCGTCATACACAAAGATGAGAAGGGAGTAGGGGAAGGCACAGAACCACCATGTAGGTTTGAGGG





GATACATCCTAARGGCTGCCCCCATCCCGGGGCAGTAGGATAAGAAAGCAGCAAGGGCTGTCTCTTCAAAGAGGCCAAAT





ATCAAGATCTTGKTCTTCATTCCCTGCTGGAAGACAGAATTCCTTCTGGTCTTGCAGATGACCAAGTCGGCCCACTGCAC





TACCACAATACTGACAAAGAACGCTGTATGGCAGGTGAACTCCACGATCTTCCTCTGCTCGTAGGTCCACTGCTGCCCGT





AGCTGTCCTCCACATCGTTGACCCAGCGGTCATCCCAGGTCTCTCGGATGCCCAACAGGTGAAAGGGCAGGAAACCGTTC





TCAGCCAGAATCACAAAGTAAGTGAAGAAGCCTCCCAGGGCCTGGATCATACCGATCTGTCCATAGGCCATGCTGATCAG





ACGCTCGTTCACAAGTTTGTCCGTTTTGGGGTTTCTGGGCTGCCTCCTTGTGATGTCGCTCTCAGCTTGCTCGTAGGCCA





GGGAGATGGCAGGAACCATGTCAGTGCCCAAGTCAATGCAGAGGATGGTCACAGTCCCCAGGGGCAGTGGAATGTTTGCA





ATAATAAATATCAAGAAGGGGGTGATTTCCGGAATGTTACTGGTTAGGGTGTAAGCGATGGATTTCTTCAAGTTATCAAA





AATCAGACGACCTTCCTCTACTCCAGTCACAATGGAGGCAAAGTTGTCATCCAGAAGGATCATGTCAGCAGCTTGCTTGG





ACACATCAGAGCCAACAATCCCCA





Clone 0085-Contig


AGGTCTGCGGCCCTCGCAGAACTTCCAGCAGCGACATCTTGGGCCAGAGTATCCGGAGGTTCACGACCTCCGTGGTCCGT





CGCAGCCACTATGAGGAGGGTCCGGGGAAGAATTTGCCATTTTCAGTGGAAAACAAGTGGCGGTTGCTGGCTATGATGAC





CGTGTACTTTGGATCTGGGTTTGCCGCACCTTTCTTTATAGTAAGACACCAGCTACTTAAAAAATAAGGATATTTAATTC





ATCCCTTTAACAGAATGAAGAAAGTTTAAGAGGTGATCTGAAAATTGGATTAAACTCTTGAACTCTTATACTAGAAAAAA





TTGTAAATAAACTAATGACATAAAGATTCAAAAAAAAAAAAAAAAAAAAA





Clone 0086-T7 Sequence


AGATGAATTCAAAGAGTGCCCAGGGTCTGGCTGGTCTTCGAAACCTTGGGAACACGTGCTTCATGAACTCAATTCTTCAG





TGCCTGAGCAACACCCGAGAGCTGAGAGATTACTGCCTCCAGAGGCTGTACATGCGGGACCTCGGCCACACCAGCAGCGC





TCACACGGCCCTCATGGAAGAGTTTGCAAAACTAATCCAGACCATATGGACGTCGTCCCCCAATGATGTGGTGAGCCCAT





CTGAGTTCAAGACCCAGATCCAGAGATATGCGCCACGCTTCATGGGCTATAATCAGCAGGATGCTCAGGAATTCCTTCGT





TTCCTTCTGGATGGTCTCCACAATGAGGTGAACCGGGTGGCAGCAAGGCCTAAGGCCAGCCCTGAGACCCTTGATCATCT





CCCTGATGAAGAAAAGGGGCGACAGATGTGGAGGAAGTATCTGGAAAGGGAAGACAGTCGGATTGGGGATCTCTTCGTTG





GGCAGCTGAAGACCTCCCTCACATGCACCGATTGTGGCTACTGCTCTACAGTCTTCGATCCCTTCTGGGATCTCTCGTTG





CCCATCGCAAAGAGAGGTTACCCTGAGGTGACGTTAATGGATTCTATGAGGCTCTTCACCAAASAGGACATATTGGATGG





GTGATGAGAAGCCAACTTGCTGCCGCTGCCGAGCCAGAAAACGATGCATAAAAAAGNTCTCTGTCCAGAGG





Clone 0087-Contig


AGGGCGCCTGAGTGAAAAGTGTGGCACCATGGCCTCTGTGCTGTCCTACGAAAGTCTGGTACACGCCGTGGCCGGAGCCG





TGGGAAGTGTGACTGCCATGACAGTGTTCTTCCCCTTGGATACTGCTAGACTTCGGCTTCAGGTCGATGAGAAAAGAAAG





TCAAAAACGACGCATGCAGTGCTCCTGGAGATAATTAAGGAAGAAGGCCTCCTGGCACCATACCGAGGATCGTTTCCAGY





TATTTCCAGTCTCTGCTGCTCCAATTTTGTCTATTTTTACACTTTTAATAGCCTCAAAGCAGTGTGGGTCAAAGGTCAGC





GTTCTTCTACAGGAAAAGATCTCGTGGTTGGGTTTGTAGCAGGAGTGGTGAATGTGCTGCTGACGACTCCGCTCTGGGTG





GTAAACACCAGACTGAAGCTGCAGGGGGCAAAATTTCGGAATGAAGMCATTATACCARCTAACTACAAAGGCATTATCGA





TGCATTCCACCAGATTATTCGAGATGAAGGGATCTTGGCTCTGTGGAATGGCACCTTCCCCTCCTTGCTGWTGGWCTTCA





ACCCTGCCATCCAATTCATGTTCTATGAAGGCTTAAAACGGCAGCTTCTAAAGAANCGGATGAAGCTCTCTTCTCTGNAT





GTGTTCATCATTGGCGCAATAGCCANAGCGATTGCCNCCNCAGTCACCTATCCCATGCAGACGGTACAGTCAATTCTGAG





GTTTGGACGTCATAGACTGAACCCAGAAAACAGGACCCTGGGAAGTCTTCGGAATGTTCTCTCTCTTCTTCACCAGCGAG





TCAAGCGCTTTGGAATAATCGGACTCTACAAAGGCCTGGAAGCTAAGCTGCTGCAGACAGTGCTCACAGCCGCCCTCATG





TTCCTTGTGTACGAGAAACTGACAGCTGCTACCTTCNCCGTAATGGGCCTGAAGAGCACACATAAGCNCTGAGGCCCGCC





CNCAGGACAGTGTGGAGACGCAGGTGCTGCACAGGGAGAAGAGGAACAGTTCTCCTTTCCCGTTGGTCCCATCCNCNCCN





CAGACATTCCAGTCATTGCCTGTAAAGGCATCAAAGGCTAAGCAGGGAGTATAGCCAGCTAAGCCTGTCACCTTTATGGG





GTTTTTTGGTGTTTTTATGGTGTTTGGTTGTATTTGGGGGTAGAGGTTAGACTGATATGAAAATATTGAAACCCTGAAAA





AAAAAAAAAAA





Clone 0088-Contig


AGTAGAGCCCCTACGGTCATGGCGGCTACCGCCCCCAAGGCCGGGGGTTCAGCTCCTGAGGCAGCGGGTTCTGCCGAAGC





TCCGTTGCAGTACAGCCTTCTTCTTCAGTACCTGGWGGGCGACAAGCGTCAGCCCCGGCTTCTGGAGCCTGGCAGCCTGG





GCGGGATCCCGAGTCCTGCCAAGAGCGAGGAGCAGAAGATGATCGAGAGGGCAATGGAAAGTTGCGCCTTCAAGGCTGWG





CGTTCCTGTGTAGGAGGGTTTGTCTTGGGAGGCGCGTTTGGTATCTTTACTGCTGGCATTGATTCCAACGTAGGCTTTGA





CCCAAAGGACCCTTACCGGACACCAACTGCAAAAGAAGTCCTGAAAGACATGGGACAGAGAGGAATGTCCTATGCCAAAA





ACTTTGCCATTGWGGGCGCCATGTTTTCATGTACTRAGTGTCTGGTAGAGTCTTACCGGGGAAAGTCGGRCTGGAAGAAC





AGCGTCATCAGTGGCTGCATCACTGGCGGAGCCATCGGCTTCCGAGCTGGAGTAAAGGCCGGGGCCATAGGTTGTGGAGG





GTTTGCTGCTTTCTCTGCTGCAATCGATTATTACCTACGGTGAAGGAANCAGCCGGGAAGGANAGAGGACGCCAGCCNCC





TTCANAGCTGCTCTGTGGANCAGTTTCTACACACTTGGACTGCTTCAGGGGTGAAGCCAAGTGCATCCCTCTACAGTTNA





TGGTGTNAAGGACNCNCCTCGCTGCTCGATCGCTCTCTGCAGCCNTTGGAACAACCATACTTTTCCMCTTGAATTCCAAC





CAGGTTTTTCAGGGRAGGTGGTATGGCAGATTGTCTCCTTGCAGTAAMCAGATCAGGAGSCAGTGTGTGGMCTGTTACGC





WTTAAGCTTTGAACCAGGCTCAGTTCTGMCCTGGCTCAGCTCCCCAGCTTTGAATAGGGAAGTGSCAGTGTTTGCCCATA





SCCGGGAAGCTCTTCTTCCTTCTGTGTGCAAGTATCCATCATGAGTCCCAGGGCAGGSCAAAGTAAACTTATGCCATCGA





GGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0089-T7 Sequence


AAGGCCGGGAGGATGCGGCCGGAGCCCGGAGGCTGCTGCTGCCGCCGCCCGATGCGGGCGAACGGCTGCGTCAAGAACGG





GGAAGTGAGGAACGGGTACTTGAGGAGCAGCACCGCCACCGTCGCGGCTGCCGGCCAGATTCATCATGTAACAGAAAATG





GAGGACTGTACAAAAGACCGTTTAATGAAGCTTTTGAAGAAACACCCATGCTGGYTGCTGTGCTCACATATGTGGGCTAT





GGCGTACTCACCCTCTTTGGATATCTTCGAGATTTCTTGAGGCATTGGAGAATTGAAAAGTGCCACCATGCAACAGAAAG





AGAAGAACAAAAGGACTTTGYGTCCTTGTATCAGGATTTTGAAAACTTCTATACAAGGAACCTCTACATGAGAATCAGAG





ACAACTGGAATCGACCTATCTGTAGTGTGCCTGGAGCCAAGGTGGATATCATGGAGAGAAAATCTCATGACTATAACTGG





TCATTCAAGTACACAGGGAATATAATTAAAGGTGTAATAAACATGGGTTCCTACAACTATCTTGGATTTGCGAGGAACAC





TGGATCATGTCAGGAAGCAGCTGCTGAAGTCCTCAAGGAGTATGGAGCANGGGTGTGCAGCACTCGTCAGGAAATTGGAA





ACCTGGACAAGCATGAAG





Clone 0090-Contig


AGCGGATCTTCGGGCCGGGAGGACATTCGGCCTCTGTGAGCCGCAACCTTGCCCAGCGAGCGGTTGGGNGTTCGCCATCT





TAGGAGGATGTTCTCGTCCGTAGCGCACCTGGCGCGGGCGAACCCCTTCAACGCGCCACACCTGCAGCTGGTGCACGATG





GCCTGTCGGGTCCCCGCAGTCCCCCACCTCCGCCCCGGCGTTCCCGCCACCTGGCCGCCGCCGCCGNGTAAGAGTACAGT





TGNGAATTTGGCTCCATGAAGTATTATGCACTGAGNGGCTTTGGNGGGGTCTTAAGTTGAGGGCTGACACACACTGCTGT





TGTTCCCCTGGACTTAGTAAAGYGCCGCATGCAGGTGGACCCTCAGAAGTACAAAGGCATATTTAATGGATTCTCCATTA





CACTGAAAGAAGATGGCGTTCGNGGKTYGGCTAAAGGATGGGCCCCAACTTTGATTGGCTATTCCATGCAAGGGCTCTGC





AAATTCGGCTTTTATGAAGTCTTCAAAGCCTTATATAGCAACATACTTGGTGAGGAAAACACCTACCTGTGGCGCACATC





ACTGTATTTAGCTTCTTCTGCCAGAGCTGAATTCTTCGCTGACATTGCCCTGGACTCCTATGGAAGCTGCTAAAGTTCGA





ATTCAAAACCCAGCCTGGKTATGCCAACACCTTGAGGGAAGCTGTTCCCAAAATGTATAAAGAGGAAGGCTTAAATGCGT





TCTACAAGGGCGWTGCTCCTCTGTGGATGAGACAGATCCCSTACACCATGATGAAGTTCGCCTGCTTTGAACGTACTGTT





GAAGCTTTGTACAAATTTGTGGTTCCCAAGCCCCGAAGTGAATGTACAAAGGCAGAGCAGCTGGTTGTGACATTTGTGGC





AGGTTACATAGCTGGAGTCTTCTGTGCGATCGTCTCCCNCCCTGCTGACTCTGTGGTCTCTGTGCTGAATAAAGAGAAAG





GCAGCTCCGCGTCTCAGGTCCTGCAGAGGCTGGGCTTCAGAGGTGTGTGGAAGGGGCTCTTCGCCCGAATCATCATGATT





GGCACTCTGACTGCNCTACAGTGGTTCATCTACGACTCTGTCAAGGTCTACTTCAGGCTCCCTCGCCCTCCTCCCCCTGA





GATGCCAGAGTCTCTGAAGAAGAAGCTTGGGTTAACTGAGTAGATACATCAAAGTAACATGGACTGAATCTGCTTGTTGA





TCAGTGTTGAAAGTGCAAAGGAACTTTTATATATTTGACAGTGTAGGAAATGTCTGTTCCTGATATAATTACTGTAGTAC





CCTTGCTTAAAGCAAGAGTTTCAAACTTAATGCTAAATAAACCCATCTATTCCTGAAAAAAAAAAAAAAAA





Clone 0091-Contig


AGGCACTGCTGGCGACATGGCCGACACGGACCCGGGCTATCCCCGCTCGTCCATCGAGGATGACTTCAACTACGGCAGCT





GCGTCGCGTCGGCCAGCGTGCACATCCGCATGGCCTTTCTCAGAAAAGTCTACAGTATCCTCTCTCTGCAAGTCCTCCTG





ACTACAGTCACCTCTGCCCTGTTCCTGTATTTCCAAGCTCTGCGGACATTTGTCCATGAAAGCCCTGCCTTAATTGWGGW





GTTWGCTCTGGGATCTCTGGGCTTGATCTTTGCACTGACTCTGCACAGACACACGCATCCTCTGAACCTCTATCTACTCT





TTGCATTTACACTGTCAGAATCCCTGGCCGWGGCAGCTGTTGWTACCTTCTATGATGTATATCTGGTTCTGCAAGCGTTT





ATAATGACTACTGCAGTCTTTCTTGGCTTGACTGCCTATACTCTACAATCAAAGAGAGATTTCACCAAATTCGGAGCAGG





GTTGWTWGCTGGTWTGWGGATTTTGWGCTTGGCAGGATTCTTGAAGCTGWTTTTTTACAGWGAGACGATGGAGCTGGTCT





TGGCCTCTCTAGGCGCCCTCCTCTTCTGTGGGTTCATCATCTATGATACACACTCGCTGATGCACAGACTCTCTCCCGAA





GAGTACGTGAWCGCTGCCATCAGTCTCTACATGGATATCATCAACCTCTTCCTGCACCTGKTGAAGTTTCTGGAAGCAGT





TAAATAAAAAGTAACCGAGCAGTNGTTCAGAGACAGKTCTATTATGAAAGGACGCTTTGGAATTAAACTTTAAATGGTTA





ATAATTAAAAGCCAWATGTGAWCTTTAAAAAAAAAAAAAAAAAAAA





Clone 0094-Contig


AGGGCCGCAGCAGGCGCGAGCGCCCAGGACCTGCCAGCTGAGCCCTCCGCCGYCGCCATGGGACAGAACGACCTCATGGG





CACGGCCGAGGACTTCGCCGACCAGTTCCTTCGAGTCACCAAGCAGTACCTGCCTCATGTGGCGCGCCTCTGCCTGATCA





GCACCTTCCTGGAGGATGGCATCCGCATGTCGTTCCAGWGGAGTGAGCAGYGTGACTATATCGACACCACCTGGAGCTGT





GGCTACCTGTTGGCCTCATCCTTCGTGTTCCTCAACCTGCTGGGACAATTGACTGGCTGTGTTTTGGTGCTGAGCAGGAA





CTTCGTGCAGTATGCCTGCTTTGGGCTGTTTGGAATCATCGCACTGCAGACAATTGCCTATAGCATTTTGTGGGACTTGA





AGTTTCTCATGAGGAACCTGGCTTTAGGAGGAGGTTTGCTGCTGCTCTTGGCAGAATCCCGCTCAGAAGGGAAGAGCATG





TTTGCTGGTGTCCCAACCATGCGTGAGAGCTCCCCCAAGCAGTACATGCAGCTTGGAGGAAGGGTCCTGCTGGTCCTGAT





GTTCATGACCCTCCTTCACTTTGATGCCAGCTTCTTTTCTATCATCCAGAACATTGTGGGCACAGCTCTGATGATCTTAG





TAGCCATCGGTTTTAAAACCAAGCTGGCAGCTTTGACTCTCGTCGTCTGGCTGTTTGCCATCAACGTCTATTTCAACGCC





TTCTGGACAATCCCGGTATATAAACCCATGCATGACTTCCTGAAATACGACTTCTTCCAGACCATGTCAGTGATTGGAGG





CCTGCTCCTGRTGGTGCCTCTTGGMCCAGCGGGTGTGTCCATGCATGAGAAGAARAAAGAGTGGTAACACACWGATCCCT





CCCCTCCCTGGCTGAGGCRCAGGGCCCTGGCCTGGTTCAGGGCARAGTCAACAAACTGCCCGCGTTTGTGTGTCCTTCTC





CCTTCCCCTCCCTTGGTAAAGGCACAGATGTTTTGAGAACTTTATTTGCAGACACCTGAAAATTGGAGATAAAATCTTTG





GAAAAAAAAAAAAAAAAA





Clone 0095-Contig


AGCTTCTTCAGTCGGGACGGGGTCAGCGAGCGGCTGCTTCGTGGAGCAGAGAGGTGCATCACCAGGTTCCCGATGAACCC





AGAGAACCCTCCACCGTATCCGGGCCCCGGGCCAACAGCCCCATACCCACCTTATCCACAACAGCCAAWGGGGCCAATGG





GGCCTATGGGAGCCCCACCTCCTCAGGGGTACCCCTACCCACCACCTCAGGGGTACCCCTATCAAGGATACCCACAGTAC





GGCTGGCAGGGTGGACCTCAGGAGCCTCCTAAGACCACAGTGTATGTGGTGGAAGACCAAAGAAGAGACGACCTGGGCCC





ATCCACCTGCCTCACAGCCTGCTGGACTGCTCTGTGTTGCTGCTGCCTCTGGGACATGCTCACCTGATCACCTGATGAGC





CCAGCTCTTCCGCTTGGCCGCTCTGTGCCACCTCCGATAAGTGTGCCTGGCCCCATCTCTTCTGATTGCTATAAAGTGGC





TAGCTCTGCGCAGACACCTCTACTTTCTGTCCTATGGAGTTTTAGATTAGTGAGGGTTACTGCTATTTAGTTCAGTGACT





TGATCTTTTTAATGTTCAAAACTCATTTCTTACTGATCTTTAAAAAATGTGCTAAATAATTTACTTTTTTGGCCAAAGGC





TTAGTTATGAAATATATATTTATAATGTTTAAATTATACACTCAAGGTAATGGCAATATGTGACACACTACTAGATCTCT





CTGCTCATACCCTTTATGTTTCAATAAATCTGTCCAAAATCAAAAAAAAAAAAAAAAAAAA





Clone 0097-T7 Sequence


CTTTCCAACAAGGACGACATGAAGACCTCACTCAAGAAAGTTGTGAAGGAGACATCGTATGAGATGATGATGCAGTGTGT





ATCGCGAATGCTGGCCCATCCCTTACACGTGATCTCGATGCGATGCATGGTGCAGTTTGTGCGACGGGAGGCCAAGTACA





GWGGTGTGCTGAGTTCTATTGGGAAGATCTTCAAGGAAGAGGGGCTGCTGGGATTCTTCGTTGGCTTAATCCCTCACCTC





CTGGGCGATGWGGTTTTCTTGTGGGGCTGTAACCTGCTGGCCCACTTCATCAATGCCTACTTGGTGGACGACAGCGTGAG





TGACACCCCAGGGGGGCTGGGAAACGACCAGAATCCAGGTTCCCAGTTTAGCCAGGCCCTGGCCATCCGGAGCTACACCA





AGTTTGYGATGGGGATTGCAGYGAGCATGCTGACCTACCCCCTTYCTGCTCGCTGGAGATCTCATGGCAGTGAACAACTG





TGGGCTGCGGGCTGGACTCCCTCCGTATTCCCCTGTGTTCAAGTCCTGGATCCACTGCTGGAAGTACCTGAGTCTGCAGG





GCCAGCTCTTCCGCGGCTCCAGCCTGCTTTTCCGCCGGGTGTCATCGGGGTCATGCTTTGCCCTGGAGTAACCTAAGCTG





CCCGACCAAACATTTATGGGGTCTTAGCCTACCCCTGGTGAGGACCCATCATCTCAGATGCCCCAAGGGTGACTCCAGCC





CAGCCCTGGCTTCATGTCCATATTTGCCATGTGTCTGTCCAGATGT





Clone 0097-BGH Sequence


CTTTTTTTTTTTTTTTTTTTCACCACCAATACATTTATTCGAGGAGATGGGTCTATCTTACCACGAGGGGAGGACTAGAT





CTCGGYCTATGTAACCTGTGCGTATTCGCACCCAGCACAGTGACTGAACCCTCACACCTGGCGTCACCAGCACAGACAAG





CAGATGAGGGGATGGTCTGAGGAGAACATGATTTCCTATTCAGGAGAAGGCACCACCCTTGTATAAGAAAATTAGTGTTG





GGAACATAGCGCCAGCCTCCCATGGCCCAGGTGTGATGGCGCCCAATTTACAAGCAAGGAAGTGGGGGGCGGSGGTGCTT





CTGGCTGACTGGCAGGATGAGCTGGGCTAGAGGTGCAGGGAAGCCTTGCCACTGAGTGACGTTTGCCTCTGCAGCCTGCC





TCTGCCTGAGTACAAGATGGACTCCAGTACCTCTAGGCAGGAAGGGGATGCCACCCCACCACTGCTC





Clone 0098-T7 Sequence


AGGGCGGAGGAAGCGGACTGTTCCGGAGCTCTGCCTAGCCGGGCCCAACCTTTGCTCCAGAGATCATGGCTGCCGAGGAT





GTGGTGGCGACTGGCGCCGACCCTGAGCGAGCTAGAGGGCGGCGGGCTGCTGCACGAGATTTTCACGTCCTCCTCTCAAC





CCTGCTCCTCCTGGGCCTCTGCATCTTCCTGCTCTACAAGATCGTTCCGCCGGGACCAGCCCGGTGCYAGTGSCGACAAC





GACGAYGACGAACCACCCCCGCTGCCCCGCCTCAAGCGGCGCGACTTCACCCCTGCCGAGCTGAGGCGTTTCGATGGCGT





CCAGGACCCGCGCATTCTCATGGCCATCAACGGYAAGGTGTTCGACGTGACCAAAGGCCGCAAGTTCTACGGGCCTGAGG





GGCCATATGGGGTCTTTGCCGGAAGAGATGCATCCAGGGGCCTTGCCACATTTTGCCTGGACAAAGAAGCACTGAAGGAT





GAGTATGACGACCTTTCTGACCTCACCCCTGCACAGCAGGAGACCCTGAGTGACTGGGACTCTCAGTTCACTTTCAAGTA





TCATCACGTGGGAAAACTGCTGAAGGAAGGGGAGGAGCCTACTGTGTACTCAGATGATGAAGAACCAAAAGAYGAGACAG





CTCGGAAGAATGAATGAAGCATTCGGTGGAGCATATCTATTTTTGTATTTTGCAAAATCATTTGTAACATTCCAGTCTGT





CTTTACAACATGGTGATTTCAATATTTAGAAAAGNTTTGAACTTGCTGTAAATTTTTTAAGTAACATCACTAGTGACACC





GATAAAATCAACTCG





Clone 0099-Contig


AGCTCGAAAGCGACATGGCGGTTCTCTTAAAGCTGGGCGTTCTCTGCAGTGGCCAAGGAGCTCGAGCTCTCCTACTCCGA





AGCCGGGTGGTCAGACCCGCTTATGTGTCAGCATTTCTCCAGGACCAGCCTACCCAAGGACGGTGTGGTACCCAGCACAT





TCACCTGTCACCAAGCCACCACTCTGGTTCCAAGGCTGCATCTCTCCACTGGACCAGTGAGAGGGTTGTCAGTGTTCTGC





TCTTGGGGCTGATCCCTGCTGGGTACTTGAATCCCTGCTCTGTGGTGGACTACTCTCTGGCTGCAGCCCTCACCCTGCAC





AGTCACTGGGGCCTTGGACAAGTGGTTACCGACTACGTTCATGGGGACACCCTGCCGAAGGCTGCCAGGGCAGGCCTCTT





GGCACTCTCAGCTTTGACCTTTGCTGGCCTTTGCTACTTCAATTACCACGATGTCGGCATCTGCAGAGCGGTTGCCATGC





TGTGGAAGCTCTGACCTGGGTGCAGCACTTTGATTGTGTGCCTCCTTGCCTCTGCTTTACCAATGCCGTTCACCTCGCAG





TGAGGGGGGATGAAGGATAAGCCCATTGGTGGGCAGAATGTCTTCTAATTACATGGTTATTTTCAGAATTTATTTGTTGA





GGAAGAGGTTTGAGGAGTTAGGTTCGACCATTCGTGAGTCTGTGTTCCATACTCCACTGAGTGTGGGCACTAGCTCACAG





CCTCGCGGTGAGACTGAACATTTCATGAGCTCATGKTGCCTTTGACCACCATTTTCTTAAGGAGAGCCAGCTGATTGCTG





TCAGGATAAGAGCATCTCTTCAGCCAGGAGGGAGGCCTGTTCCCTCCTGAGTTAGACTTTGCATGAAGCTCGAAAGTATT





CCCTTTGGAACCTCCCATTCTTGTTCAGGTGACACCAGCTCTGTTGATGGCTCTGCTTCTAGGGAACATTTAATCAGGAG





ATGCTCTCAATGACTAATTTGTCTAAGTCTTAGGAAGGAGGTTGAGGAAAGCTGGATTTAGACAAGTTCAATTTAGGGAG





TTCTCCTTGTTTGTGGATTAAAATATGACAGATTGCAAACAGACTACTCTTCAAATGTATCTCAATTGTGCAGAAGTGAG





CTGTCCAAAAGTATAAGACTAAGTGATAAACTGTCTTCCCACCGTGGGAGTTGTTAATGAGAAAGAAAGTGTACTCTGAA





AAAACAAAATTTTTAAATAAAATATTATATAATGAAAAAAAAAAAAAAAAAA





Clone 0100-Contig


AGCTAGGATCTTTAGTCTTCAACTCCTACTGCTCCTTCTAACCCAGCAGCCCCGGATAATGCAGCCCAGGAGGAGCTCAT





GATCACCCTGATCACAGGATTGGCGTCCCTCACGTCGAGAACCTCCATGGGCATCATCGKTGKTGGGGGCCGGTRATTTG





GAAAACAGGTGCGCTGGAAACTAATCTCTGTCACCTTAAGTATGTACGGAGCTCTGTACCTTTATGAGAGGCTGACGTGG





ACGACCCGTGCGAAAGAGAGAGCGTTTAAGCAGCAGTTTGTAAACTATGCAACTGAGAAGCTGCAGATGATTGTGAGCTT





CACCAGTGCAAACTGCAGCCACCAAGTACAGCAAGAAATGGCCACTACTTTTGCTCGACTGTGCCAACAAGTCTGATGTT





ACTCAGAAACATCTGGAAGAGGAAATTGCAAGATTATCCAAAGAGATAGACCAACTGGAGAAAATACAGAACAACTCAAA





GCTCTTAAGAAATAAAGCTATTCAACTCTGAAAGTGAGCTGGAGAATTTTTSGAAGCAGTTTCTACACCCGAGCAGTGGA





GAATCCTAACGGCAGAGGCACTGTAGGAGGAAGCGGACTTGGAAGATGGGAAATGTTACTTTATGAAATGACCTCAGTAC





AAATTACTAACTCTTAGTATCGATGCCTTGCGGAGATTGTGGTAATGACCTGTCTCAGGGGTTGCACCTTTGGAAGTGTT





GTGATTCGCCTTGTCTTAGCATTAGTTTGGAGTAAAGACTGAATTGTTAAGGTTAAATGATGAATTCCTTTAGAAACAGT





GGAACCGGCTGTKCGGCCCCTGAGGGTGGGTCCTGCAGCTCCTCACCAGGCTGGCTGTCTGCGGCTCTCAGAAGCTGCTT





CCTGGCATCCAGGAGTTAGAGACCTTTTCATCCTTTCTCAGTGCTAGTTCTTGATGCTTCTTTAATGGGAATAGTGAACT





TGTTTATAASCCGATTTGCTCAAACGAGGGGTGTGGGCTGCTCCTGGGGGGGTCCTGCAATCACTCTGTCCTCACAGCAA





GGATGTAACCMCTACTAAACAGTTTTTACTTTCTTTTATTCCCATTAAAGCTGATGTGAAATAGTAAAAAAAAAAAAAAA





AAAAAAAA





Clone 0101-T7 Sequence


AGTCTGCGCCCCTGTACCCTAGGTCTAGTAGTGAACCCGCACCCGRKCAAAGAAGTCTAGGCCGGRGTCCGCAGMATCAG





CCATCACTTCGCACAAAGCAGCGCAGCTCCGGGACCGCCGAGGACCACAGCGGCGCGGCAGCGGYGCGGMGACACTCAGT





GCACCGTATGCCCCTGCGMCCCTGCCGAGGCAACCGGAGCGCCCCGAGAGACCGCGCCGCCGCGGCGWCCAGGTGCAGYT





AGCGAGCCTAGCCCGCAGCGCGCAGTCGCGGGAGAGCGGGGAGCGGCAAGCAACAGGGAGCGGGACGGCGGCGAGGCGCT





CGCGGGCCCCTCCTGCTGCCCGCGCCCGGCGAGCTCATGGCGGCCATCCGCAAGAAGCTGGNGGNGGNGGGCGACGGCGC





GTGCGGCAAGACGTGCCTGCTGATCGTGTTCAGTAAAGACGAATTCCCCGAGGTGTACGTGCCCACCGTGTTCGAGAACT





ATGTGGCGGACATCGAGGTGGACGGCAAGCAGGTGGACCTGGCGCTGNGGGACACGGCAGGCCAGGAGGACTACGATCGT





TTACGGCCGCTCTCCTATCCGGACACCGACGTCATCCTTATGTGCTTCTCGGTGGACAGCCCGGACTCTCTCGAGAACAT





CCCCGAGAAGTGGGTGCCCGAGGTAAAGCACTTCTGCCCCAATGTGCCCATCATCCTGGTGGCCAACAAAAAAGACCTGN





TCAGCGACNAGCATGTCCGACGGAGCTGGCCCGCATCAAGCACCAGCCAGTNCNGCACGGATTCACGG





Clone 0102-Contig


AGGTTTCCTCGCCGCCGGCCAAGATGAACCGATTCTTCGGAAAAGCGAAACCCAAGGCTCCGCCACCTAGCTTGACGGAC





TGCATTGGGACGGTGGATAGCAGGGCAGAATCCATTGACAAAAAGATTTCCCGGCTGGATGCTGAACTAGTGAAATATAA





GGATCAAATCAAGAAGATGAGAGAGGGTCCTGCTAAGAACATGGTCAAACAGAAAGCCCTGAGAGTTTTAAAGCAAAAGC





GGATGTATGAGCAACAGCGAGACAACCTGGCCCAACAGTCCTTTAACATGGAGCAAGCTAATTACACCATCCAGTCACTA





AAGGACACCAAGACCACGGTTGATGCCATGAAGTTGGGAGTAAAGGAAATGAAGAAGGCATATAAGGAAGTAAAAATTGA





CCAGATTGAGGACTTACAAGACCAGCTGGAGGATATGATGGAAGATGCAAATGAGATCCAGGAAGCCCTGGGCCGCAGCT





ACGGCACCCCAGAGTTAGATGAGGACGACCTGGAAGCAGAGTTAGATGCGCTGGGCGATGAGCTTCTGGCTGATGAAGAT





AGCTCCTACTTGGATGAGGCAGCTTCCGCTCCTGCAATTCCGGAAGGTGTTCCCACTGACACAAAAAACAAGGATGGCCG





TGCTGNNGGATGAATTTGNACTGCCGCAGATTCCCGCTTCGTAGACTTACAACATTCAGCACGTGATGTGAAACAACAAG





AGAAGTATTCTGGGACTAGGAAATAGTTCCCCGATCTGCCAACCAGATTTAGGTTTCTTTCCTTTCTTTGAWGAAAAAGC





TNTNTACACTGCTCCNGNATTTTTATTTTTTCCGNTAAGGAATTCATTGCTTTTGGGAAACTGTCTTTACTAAAACTTGA





TTCNTTTTTTTTTTTTTCTCTTAGGAAAGACTAATTGAAAAGTACCCTTGACTTTGTATGACTTGTTTTCATTCATTAAC





AATAATCTGAAATTAAACCAAGGAGATGAGACTCTGAATTCTATGGTAGNGTAAGTACAGTCTCAGTGNGCTGATACATT





GATAAGATAAAAGTGATTGATGAGATTGGGACTGCTGATAGTATGCTTCAGAACCCTTGTCTGTTGTGGTATTGTANATG





GGTTTAAGTCATGGCCTCTTTTGATANATTTTGTTGTGTCATGTGAGCAAGTCATTNCACGATNTACTGTTGGAATGAAC





TGTCTCTTCGGTATCATGAGTTACTATTTTGATTCCATGGTTCCCTCCAGTATACTAGCCTGRCTTGTAATGAATAATGA





ATATTTCTTGATATTTAATGKATAGGRCMTTTATTTATACTCAATWAATATTTTTCMAAAGGAAAAAAAAAAAAAAAAAA





AAAAAAAAAAAAAAAA





Clone 0101-Contig


AGGGCGGCGGCCTTGGGCCGCGGGGAATGGGAGTCCCAGGGCCCTGACTGAGCACCGCCCCCGCCTCCCCGCCGCGCCAT





GGCTCAGGAGAAGATGGAGCTGGACCTGGAGTTGCCCGCGGGCGCGAGCCCGGCGGAGGGCGGCGGCCCTGGCGGCGGGG





GCCTGCGGAGGTCTAACAGCGCCCCCCTGATCCACGGCCTCAGCCACTCGTCCCCCCTGTTCCAGGCCGACGCGCCCAGC





GCCAGACGGAACAGCACGACGTTCCCGAGCCGCCACGGCCTGCTGCTCCCGGCCTCGCCGGTCCGAATGCACAGCAGCCG





CCTGCACCAGATCAAACAGCAGGAGGCCATCGACCTCATCAACCGAGAGACCGTTCACGAGCGCGAGGTGCAGACCGCAA





TGCAGATAAGCCACTCCTGGGAGGAAAGTTTCAGCCTGAGTGACAACGACGTCGAGAAATCCGCCTCCCCGAAGCGCATC





GATTTCATTCCGGTGTCTCCGGCACCGTCCCCGACCCGGGGAATTGGGAAGCAGTGTTTCTCACCGTCCTTGCAAAGTTT





TGTGAGTAGCAACGGACTGCCTCCAAGTCCCATTCCCAGCCCAACCACCCGATTTACCACCCGGAGAACCCAGAGTCCCA





TCAACTGCATTAGACCAAGTGTTCTTGGACCATTGAAAAGAAAATGTGAAATGGAAACTGATTATCAGCCAAAGAGATTT





TTCCAGCGCATCACCAACATGCTGTCTTCTGACGTTGCACAGCTGTCAGACCCCGGTGTGTGCGTATCTTCCGATACCCT





GGATGGAAACAGCAGCAGTGCCGGATCTTCCTGTAACTCACCAGCCAAAGTCAGCACTACCACCGACTCTCCTGTGTCGC





CCGCCCAAGCAGCCTCCCCCTTTATTCCAGTAGATGAACTTTCCTCAAAGTGACTCACTCATCTTGAATCCCCCTCCCCC





AATGGAGAGACAAAAAAACAAAAACAAACAAAAAAAAAAAAAAA





Clone 0111-Contig


AGGCAATGGCGGACGTGTCTGAGAGGACGCTCCAGGTGTCCGTGCTAGTGGCTTTCGCCTCTGGAGTGGTCCTGGGCTGG





CAACCCAATCCCCTGCCGAGGCGTTACCTAGACTGGAGGAAGCGGAGGCTGCAGGACAAGCTGGCAACGACTCAGAAAAA





GCTGGACCTGGCCTGAGCACGCGCTGCAGCCCGAGTCCGCCGGCTTCTCACTCCCTAAGCCCAACGCACCCCCGATCGTG





GGAGCCGCGCGACCCAGGAGTCGTCCTTGCACGGCTTGCAAGAACATGGCTTGCTTCAGAAAGAAAATAGTTTTGTCTTC





TCTAACAACTTACTTTCAGCTTGTCGAAGATGAAAATAAAAAGCACTGGAGAGAAATAATTTCTTGCACTTTATGAATCT





ATTTTTAAAATAAAAAAATTAAMCATCAAAAAAAAAAAAAAAAAAAAAAAAAAA





Clone 0112-Contig


AGGGACTTTGTTCAGATCTTTTTCTGATCGTGCATCAGCTGCTGGTTCATTATAGCCTTCTCTTAAGCACTGAATAAGAC





AAAAAATGAATCTTGGAAGAACAAATTCAGACATCATCAGTAAGTCTTTGGGGACACAGGGAATATTTGAACTTGATTTA





ATCTGATGTCTTCTACAAAACCCGCTCTCCCGCATTACGTTGCTGTCCCCGCAGTCGCAGGCGCCCCCCGCCTGCCTGCG





GAACATGTTCAAGTCGTGTCCAGTGTGGTCGCCCTGGTGGAAGCACTCCGCGCACAGCGACATGCAGGGGGAGATGCCGC





ACGTCCGGCAGCGGTAGGCCACGAAGTTGGCCGTCCAGACCACGCCCCAGAGCGCCGCGGGGTCGTAGGCCCGCACGGCC





GCGCAGAACTCCTCGTAGCCGCCGCCGCCGGCCAGAAGGCACTTACACCACTCCAGGGCATCCTCCTCCGCCTCGCCCGG





GCCGCCGCCGCCGCCCCCCCCCGCCTCCTCGCCGCCCGCAGCCCCGCCCAGC





Clone 0113-T7 Sequence


AGGCGACGCGCGCATGGAGGCCGGCTGAGGAGCGCCGCCGCCTCTCTCGGTAAGGACTGTGTCTGTGTCCCCAGGCATCC





TACATCAATCAGGAAGCTGCTGTCCAGCCATGGAGGGAGAGGAGAAGCCAGCTCAAGAGGCTGACGTGGAACCTGTGGTA





ACAGCAGGCACCTCAGAAGCAGTGCCAAGGGTGCTTGCTGGAGACCCTCAGAACATCTCTGATGTGGATGCCTTCAACTT





GCTCCTGGAGATGAAACTGAAACGACGGCGTGAACGCCCCAACCTTCCACGTACAGTGACCCAGCTAGTGGCCGAGGATG





GGAGCAGGGTGTATGTGGTGGGCACTGCTCACTTCAGTGATGATAGCAAGAGAGATGTAGTAAAGACTATCCGGGAGGTG





CAACCGGATGTGGTCGTGGNGGAGCTCTGTCAGTACCGGGGTGTCCATGCTCAAGATGGACGAGAGGACGCTGCTGCGAG





AGGCCATGGAGGTCAGCCTGGAGAAGCTGCAGCAGGCTGTCAGGCAGAATGGNTTATGTCTGGACTCATCAGATGTTGCT





GCNTGNAGGTGTCTGCTCACATCACTGAGCAGCTGGGCATGGCCCCTGGTGNCCAGTTCAGGGAGGCCTTCAAAGAGGCC





AGCAAGGTACCATTCTGCAAATTCCACCTGGGNGACCGACCAATCCCAGNC





Clone 0115-T7 Sequence


AGCCCGTCCCCAGCGCTCCGGCGAGCTGGCCTCCGCTGCAGTTGAGCCGGGCTCGCACTATGCAGCGCCTGGCCATGGAC





CTGCGGGTGCTGTCCCGGGAGCTGGCGCTCTACCTGGAGCACCAGGTTCGCGTCCGCTTCTTCGGCTCGGGCGTGGGCTT





GTCACTGATCTTGGGATTCAGCGTTGCCTATGCTTGCTACTACCTGAGTAGCATTGCCAAGAAACCCCAGTTAGTGATTG





GAGGGGAGAGTTTCAGCNCGCTTCCTACAGGACCACTGTCCCGTGGTGACAGAAACCTATTACCCGACGGTCTGGTGCTG





GGAGAGCCGAGGACAGACATTGCTGAGACCCTTCATCACTTCCAAACCCCCGGTGCAATACAGGAACGAACTCATTAAAA





CTGCAGACGGAGGACAGATCTCACTGGACTGGTTTGATAACAATAACAGTGCGTACTATGNGGATGCCAGCACCAGACCN





TACTATCTTGCTCTTGCCTGGCCTNACTGNAACAAGCAAGGAATCCTACATCCTTCATATGATCCATCTCAGTGAAGAAT





TNGGATACAGGTGNGNGGNTTTTAATAACANAGGAGTAGCANGAGAAAGTCTCTTGACACCACCGGACTTACTGCTGNGC





GAACACTGAAGAACTTGGAGGCCGNNGTCCACCACGTGCACAGCCTGT





Clone 0116-Contig


AGGGCGCAGCCGGCCTAGCGAGGTCAACATGCCGGTCGCCAGAAGCTGGGTTTGTCGCAAAACCTATGTGACCCCACGGA





GACCCTTCGAGAAGTCGCGTCTCGACCAGGAGCTAAAGTTGATTGGAGAGTATGGACTCCGGAACAAACGTGAGGTTTGG





AGGGTCAAGTTTACCCTGGCCAAGATCCGTAAGGCGGCCCGGGAGCTGTTGACGCTGGACGAGAAGGATCCCCGGCGTCT





GTTTGAAGGCAATGCTCTCCTGCGGCGGCTTGTTCGCATTGGGGTGCTGGACGAGGGCAAGATGAAGCTGGATTACATCC





TGGGACTGAAGATTGAGGATTTCTTGGAGAGGCGGCTGCAGACCCAGGTCTTTAAGCTGGGCCTGGCCAAATCTATTCAC





CATGCCCGTGTGCTCATCCGCCAACGTCACATTAGGGTCCGCAAGCAGGTGGTGAACATCCCATCCTTTATTGTTCGCCT





GGACTCGCAGAAGCACATCGACTTCTCCCTCCGTTCTCCTTATGGTGGCGGCCGTCCAGGCCGAGTGAAGAGGAAGAATG





CCAAGAAAGGCCAGGGCGGGGCTGGAGCTGGTGATGATGAGGAAGAGGATTAATTCTTGGCTGAACTGGAGGATTGTCTA





GTTTTCCAGCTGAAAAATAAAAAAGAATTGATACTTGGAAAAAAAAAAAAAAAAAAAA





Clone 0117-T7 Sequence


AGCGGCGGCTCTGAGTCGCCGGAGCCGCCCCGGGACATCATGGCGGAGGTCTGCGAGCCCACCCGCCCCTCGGAGGACGA





GGACGAGGAGCGGGAGCCGCTGCTGCCTCGCGTTGCCTGGGCCCAGCCGCGGAGGGTCGCGCCCGGGAGCGCCGTGAGAA





TGCAGGCGGACGAGGGCGCGGATGTCCTCCGCGAGCCCGCTACCGACGAGCCGCCGGCGGTGTCCGGGGAAGGGTCGATC





TCCGCGAGCTTGTCCACCGAGCTGGATCGGACCCGCACTACGAGCTCAGAAACAAATACATTCTTGGAAGATCCAGAATT





TGCTGATATTGTATTGAAAGCAGAGCAAGCAATAGAAATTGGAGTTTTCCCAGAAAGAATTTCT





Clone 0119-Contig


CATCATCGAGACAAGCACCATTAAGCCTTACCGTCGAGGGTTTTACTGCAATGACGAGAGCATCAAGTATCCCCTGAAAG





TCAGTGAGACTATAAACGATGCTGNGCTCTGNGCGGNGGGGATCGTCATCGCCATCCTGGCGATCATTACAGGGGAATTC





TACCGGATCTATTACCTCAAGGAGAAGTCCCGCTCCACCACTCAGAACCCGTATGTGGCAGCNCNCNATAAGCAAGTGGN





ATGCNTCCTTTNNGNTGTGCCAATTAGCAAGTCCTTCANNGNCATCGCCAAAGTGTCCATCGGGCGCCTAAGGCCTCACT





TCCTNAGCGTCTGTGACCCTGATTTCAGTCAGATCAATTGCTCCGAGGGCTACATTCAGANCTACAGGTGCAGAGGAGAA





GNCAGCANAGTACAGGAGGCCAGGAAGTCCTTCTTCTCGGGCCACGCCTCCTTCTCCATGTTCACTATGCTGTATCTGGT





GCTCTACCTTCAGGCCCGCTTCACCTGGCGCGGGGCCCGACTGCTCCGCCCCCTCCTGCAGTTCACTTTGCTCATGATGG





CCTTCTACACGGGATTGTCACGGGTATCTGACTACAAGCATCATCCTAGCGATGTCCTGGCAGGATTTGCCCAAGGAGCT





CTGGTGGCCTGCTGCATAGTGTTCTTCGTGTCCGACCTCTTCAAGACTAAGACGAGCCTCTGACTGCCCGCCCCTGCGAT





CAGGAGGGAGATCCTGTCTCCCGTGGACATCATCGACAGGAACAATCACCATAACATGGTGTAGATGCTGCGGCCTCCGG





AGCGCTTTCTCTGAAGCGACTGCACGTTCCTGCTGCTCTCCGATCTCATCAGACAGTAGAATGTAGGGAAAAGCTTTTGC





CCGATGGATTTTGAAAACATTTAAAAAAAAAAAAAAAAA





Clone 0121-BGH Sequence


TGCAGGGAAGACAGAAAGGCCTCCCACGCCACTTGGTTTATTAGATCCTGAAGAGAGGTGTAGGCAGTGCCCCTGGGCCG





CTGCCACCTCCTGGGGGAGGACCTGTGGGAGGCACAGGGCCGAACCTCGTTTTGATACACACAACCCCATTTGAGGGAAA





ACAGGCTGCTTCGAAGCCTGAGGGATGGTGAGGGGTGATGCCTGCCATACAGGAAGCCAGGTCCTGGGAGGGCACAAACG





ATGAATCCATCACTGCCCCAGCTCTGCCAGCATGCCCACCTGGCCCTGGGGAAGCCAGGCAAGGGAGGGCACAGGCGTGT





GAGGGACACAGACAGTTCCTGGTGACGGCAGTAGCTGCTGAGCAGGAGGGTTCAGCAAAACTGACCATTAGAGCAGCCAA





GGCTGCATATAGGAGGTGCGCTCGGGAACCCCAGGCACTTTCTCTGGACTCCACGGTCATGGCTTCTGCTGGTGATCTGC





ACTGCCTGCCTGTCCCCTCTCCTGAAGGCACTACCTTCCAGAACACAGCACGGTGGTCCCTCTTGTGACAAAGTGCTTGT





GTGTGTGCTCTAGTCATTTGGTAAGCAGAAGCTGCCACGGGCCATACCCTGCCACACTACCCAAGTTCTGGGCNGGAAAC





TGCTCCCTGCACAGAGGGCCAGCGGGAGCAGGAAACGAACTCAACTTCGCTGGGCTTGCCAGGCANGGCACGGTAGCAGC





CAGGGAGGTTGGGACAGTGACANCAGNCAGGCAGACTTTTTTG





Clone 0123-T7 Sequence


AGCAACCGCAACCTGACCTTGACCAAGAAGGAACCTGTTGGGGTCTGTGGTATTGTCATCCCCTGGAACTATCCCTTAAT





GATGCTGTCCTGGAAGACAGCAGCCTGCCTGGCTGCCGGGAACACCGTGKTGATCAAGCCTGCCCAGGTGACCCCACTCA





CAGCCTTGAAGTTTGCAGAGCTGACACTGAAGGCTGGCATTCCCAAGGGTGTGGTCAACATCCTCCCAGGATCTGGCTCG





CTGGTTGGCCAGAGACTCTCAGACCACCCTGATGTGAGGAAAATAGGGTTCACAGGCTCCACGGAGGTGGGAAAACACAT





CATGAAAAGCTGTGCCCTGAGTAATGTGAAGAAGGTCTCCCTGGAGCTGGGTGGAAAGTCACCCCTTATCATCTTTGCTG





ACTGTGACCTCAACAAAGCTG





Clone 0124-Contig


TGGAAAGGCGATGGGCATCTCTCGGGACAACTGGCACAAGCGCCGCAAGACCGGGGGTAAGCGAAAACCCTACCACAAGA





AGCGAAAGTATGAGCTGGGACGGCCCGCTGCCAACACGAAGATTGGCCCTCGCCGCATACACACAGTCCGAGTTCGAGGA





GGCAATAAGAAGTACCGTGCCCTGAGATTGGATGTGGGGAACTTTTCCTGGGGCTCTGAGTGTTGTACTCGCAAAACAAG





GATCATTGATGTTGTCTACAATGCATCCAACAACGAGCTTGTCCGCACCAAGACCCTGGTGAAGAACTGCATCGTGCTTA





TTGACAGCACGCCGTACCGACAGTGGTACGAGTCCCACTATGCACTGCCCCTGGGCCGCAAGAAGGGGGCCAAGCTGACT





CCTGAGGAGGAAGAGATTTTWAACAAAAAACGATCAAAGAAAATTCAAAAGAAATWCGATGAAAGGAAAAAGAATGCCAA





AATCAGCAGCCTCCTGGAGGAGCAGTTCCAGCAGGGCAAGCTTYTAGCCTGTATTGCCTCMCGACCAGGCCAGTGTGGCA





GAGCAGACGGCTATGTGCTCGAAGGCAAGGAGCTGGAGTTCTATYTGCGGAAGATCAAAGCCCGGAAAGGCMAATGAGCC





TCATGTGTAGTGTAATAAAGGTGTYTGCTGTTCTATYTTAAAAAAAAAAAAAAAAAAAAAAA





Clone 0125-Contig


CTGGAAAGCCHGGATGAGGCTCTTCATCGCTCTTCCTGTCCTGATTGTGGTCGTAGCCATGACCTTGGAAGGCCCAGCCC





CCGCCCAGGCGGCCCCGGATTTGTCCGGAACATTGGAGAGCATACCGGATAAACTGAAGGAGTTTGGGAACACTTTGGAA





GACAAGGCCCGGGCAGCCATTGAACATATCAAACAGAAGGAAATTTTGACCAAGACCCGGGCCTGGTTCTCAGAGGCATT





TGGCAAAGTGAAGGAGAAGTTGAAGACCACGTTCTCCTGAGCACCTGGCGGGCCACCTCGAAGCATCAAGGACATCCACG





TAATGTGCCAGGTCCCTCTTCATCACAGACCAATAAAAAACGTGTAGAAGGCAAAA





Clone 0127-Contig


AGGTTTGAACAGCTTTCTGAATCTGCAAAAGAAGAGCTGATAAACTTCAAACGGAAGAGAGTGGCAGCATTTCGAAAGAA





CCTAATCGAAATGTCTGAACTGGAAATAAAGCATGCCAGAAACAACGTCTCCCTGTTGCAGAGCTGCATCGACTTATTCA





AGAACAACTGACCTGTCTAYTTTAAAGGCCCCCAWTGTGAAAGCCAGCATCACTTGCACTTAAATCATTACTGCAAAAGA





AATAGCTTTGACTAGTTTAAAATCATGTGAATAAATATTTTGATTTCTAAAAATCTTAACACTTAACCATGTTGGTTTAA





AAATATTTTCATTGCATGTTACTTGGACATAACTAATCCTTTTCTTATGCATTTAATACCTCAAAGTAGGTAGAATCTAA





CAGATTCTCCTATAGACTGTCAGGAATTACTAAGAAATGGTATGGANATGTGTGCCTTCTGGAAATGAGAAGCAATAGCC





TGGCCCATGTCTGTCTGAACATTTCCTGTGTCTGCTCCTACAGACATGTCAGGTGTGAATTACAGCAAACAGTGACTGCT





TGTGGGCAGGTGGCAGACACTCTTCTTTATTTAGGTANATTTTGCTCCCTCTTGTCAAGATCACTTCANATGCTTGTACG





GTAACAAGCAAGAAGATCTCATATGTCTTTTTACATCCTTTACAGCTCCATTTTTGTAACTGGGATATAAATACTTGAGA





GAAAGGAGAATCTANAGTTNTGACACTCCCTGATGGTGGGGCATGTGTGTTTGTGCTTTGGATGTTTTTATAAAGTATAT





AATAAAGATAATCCATGTT





Clone 0128-T7 Sequence


GGCGTGCTGACGTCAGGCGCGTGCCCCTGTCCGGCAGCCGAGGAGGCCCCGCGCAGTGCTGCCAACGCCCCGGCGGAGAA





GCTGAGGACAAGATCTAATTTGAAATATTAAAAGTGGATACAAAACTGTTTCCGAAATGCAGACAATTAAGTGTGTTGTT





GTTGGTGATGGTGCTGTTGGTAAAACATGTCTCCTGATATCCTACACAACAAACAAATTCCCATCGGAATATGTACCAAC





TGTTTTTGACAACTATGCAGTCACAGTTATGATTGGTGGAGAGCCATACACTCTTGGACTTTTTGATACTGCAGGGCAAG





AGGATTATGACAGACTACGACCGCTAAGTTATCCACAGACAGATGTTTTTCTAGTATGTTTCTCAGTGGTCTCTCCATCC





TCATTTGAAAATGTGAAAGAAAAGTGGGTGCCTGAGATAACTCACCACTGTCCAAAGACTCCTTTCTTGCTTGTTGGGAC





CCAAATTGATCTCAGAGATGACCCCTCTACTATTGAGAAACTTGCCAAGACAAACAGAAGC





Clone 0131-T7 Sequence


AGAGGGAGGCTCTCAGCGATACGTGCCCGGCCCAGCTTTTTTTTTCTTCAAAATGTCTACTGTCCACGAAATCCTGTGCA





AGCTCAGCCTGGAGGGTGATCATTCTACACCCCCAAGTGCCTACGGGTCAGTCAAACCCTACACCAACTTCGATGCTGAG





AGGGATGCTCTGAACATTGAGACAGCAGTCAAGACCAAAGGAGTGGATGAGGTCACCATTGTCAACATCCTGACAAACCG





CAGCAATGTGCAGAGCCAGGACATTGCCTTCGCCTATCAGAGAAGGACCAAAAAGGAGCTCCCGTCAGCGCTGAAGTCAG





CCTTATCTGGCCACCTGGAGACGGTGATTTTGGGCCTATTGAAGACACCTGCCCAGTATGATGCTTCGGAACTAAAAGCT





TCCATGAAGGGCCTGGGGACTGACGAGGACTCCCTCATTGAGATCATCTGCTCACGAACCAACCAGGAGCTGCAAGAGAT





CAACAGAGTGTACAAGGAAATGTACAAGACTGATCTGCAGAAGCACATCATCTCTGACACATCTGGAGACTTCCGAAAGC





TGATGGTCGCCCT





Clone 0133-contig


CTGGAAAGGCTCCTCGAGGGTCGGTCCCGNCACGTCTNTTCCCGGTCTCTCTGGCTCTGGAGTGCTTTCCCCCCGCGGAG





GGTGGGAGCGCGGGGACAGACGGGCGAGATGAGCACCATGTTTGCAGACACGCTGCTCATCGNCTTTATCTCCGTGTGCA





CCGCGCTGCTCGCCGAGGGCATAACCTGGGTCCTGGTTTACAGGACAGACAAATACAAGAGATTGAAGGCAGAAGTGGAA





AAACARAGTRAAAAATTANAGAAGAAGAAGGAAACTATAACAGAGTCAGCTGGTCGACAACAGAAGAAGAAGATAGAGAG





ACAAGAAGAGAAATTAAAGAACAACAATAGAGACCTGTCAATGGTACGGATGAAATCCATGTTCGCGATTGGCTTTTGWT





TTACTGCCTTAATGGGAATGTTTAATTCCATATTTGATGGTAGAGTGGTGGCAAAGCTCCCCTTCACTCCTCTGTCTTAC





ATCCAAGGACTATCTCATCGGAACCTGCTGGGAGATGACACCACGGACTGCTCCTTCATCTTCCTGTATATCCTCTGTAC





CATGTCAATTCGACAAAACATCCAGAAGATTCTTGGCCTCGCCCCTTCACGAGCTGCCACCAAGCAGGCTGGTGGATTTC





TTTGGCCCACCACCTCCGTCTGGGAAGTTTTCCTGAAGGAAAGCAGAATTCTGAATTTCCTGTCATACTTTTTAGACATT





CACATCAGACTTACAGAGCACCTGGCCACATTCTAGGTTTGTGTTATTTCTCAGCTATGGATATGATCAAATGAGANCAC





TGCTTAACTAATGGGATAGTGCTATGGTCACGGATGGCTTCTTTAGTAATAAGTGCACTCACTGGTTACATTTGGATGGC





TTATGTAACCACAAACATCATCTTTCTTGTCTCACTTGAGTATTTCAGTGTATGTGCCATATACACAGAAGCAGACTGTC





CATGAACATTAGGAGAAAAATAGTTTATGTAACAACTTCACTGTAATTAGTTGTTGTGTTTTTTAAAAAGCCAAATATGT





CACTTTGTGTTCGACAATGAGCCAAATTTTTAGATGTTTCAGTTAGAGAAATGTTTGATTTTTTTGCATATTAAAAAGAG





TATTTTCTGTAATCTGAACATAAGGATAAGCATTGGCCCAAAAAGCTAAAATAAAGTTTTGTCATGTTCTTTT





Clone 0134-Contig


ANCCTCTTCTTGGGNCTAACCTAAAAAAAACCCCCCCCTGGTTTACCTGGGCTTTTTCGGAAATTTNATTNCGGNCCCCC





CCTNTTAAGGGAGNCCCCNAAGCTTTGGGTNCCCAAAGCTCGGGATTCCCCTTATTTACCGGCCCGCCCCATTGTGCTGG





AAAAGGTGGAASCCSCCGCCACGATGCAGATTCTTTGTGAAGACCCCTTMCGGGGAAAACCCWTCACGCTCGAGGTTGAA





CCCTCGCACACTATAGAAAATGTAAAGGCCAAGATCCAGGATAAGGAAGGAATTCCTCCTGATCAGCARAGGCTGATCTT





TGCTGGTAAGCAGCTGGAAGATGGCCGGACTTTGTCTGACTACAACATTCAAAAGGAGTCCACCCTTCATCTGGTGTTGA





GACTTCGGGGTGGTGCTAAGAAAAGGAAGAAGAAGTCTTACACCACTCCCAAGAAGAMCAAGCATAAGAGGAAGAAGGTT





AAGTTGCCTGTGCTGAAATACTATAAGGTGGATGAAAATCGCAAAATTAGCCGACTTCGTCGAGAGTGTCCTTCTGATGA





ATGTGGTGCTGGAGTTTTCATGGGAAGCCACTTTGACAGGCATTACTGTGGCAAGTGTTGTCTGACTTACTGCTTTCAAC





AAACCAGAAGACAAGTAGTTGTGTATGCGTTAATAAAAAGAAGGAACTCGTAAAAAAAAAAAAAAAA





Clone 0136-BGH Sequence


TTTTTTTTTTTTTTTTTTTTTTTTTTTGAAAATTAAATCCAGATATTTAATAGACGGKGCAAACCATAATTTCATCTGAA





TATAAATGTATGCACACGTTTCCAATGAGCTATGTATCAATTATCACAACAGCAATGAGGACCTTAGAGCTACGTTAGAA





AACTGGATAGCTGGAATTAACTCTAACAATCTTATTCGCTTGCAAGAGAACACATCCATTTCAGATCCGTGTCACAAACT





CCAAAAGACCAGGGGGGACAGGAGTGACAAGGGCCAGGATGGTAGACATGGGGCCAGTACACAGGTGACAGACAGAAACA





CAGCTCTTGAGGGAACCAAAACTAGATGTGTTATTACAGCTAAGAACAAGGAAAAGCCTATCTATGGCTTTTAAAAAACG





ACTTTTCTGCCAGTACCGTACACATCTTACAGAGTGAGACACGTCAGCTGCAGGGCTACATTTCCAGTTCGCTTCAACTG





CAAACGGCCGACCCTCCACAGAGGACGCAGCAGTGGGCTTAGCGCAGCCCAGCAACTCAGTGTTGGATTTGCAAATACAG





TTTATTTTACAGGAAATTCAACATTATAAAMNGGGGAACT





Clone 0137-T7 Sequence


AGCAAGGACCCTGAAAATAAACAGCCGCTGCTTTGCGAGTCGCCTTCTTCGTTCTTCGTCCGAGTCTCCTCCGCTGTGGG





CAGCTCAGACGCCGAAGCTCTAACTGCAGCCTATGAGCAGCAACGAATGCTTCAAGTGTGGACGATCTGGCCACTGGGCC





AGGGAGTGCCCTACTGGTGGAGGTCGGCGTCGTGGAATGAGAAGCCGCGGCAGACGGTTCCACTTTCTTTCCTCGTCTCT





CCCTGACATCTGCTACCGCTGTGGTGAGTCTGGTCATCTTGCCAAGGATTGTGATCTGCAGGAGGATGCCTGCTATAACT





GCGGTAGAGGTGGCCACATTGCCAAGGACTGCAAGGAGCCCAAGAGAGAGCGAGAGCAATGCTGCTACAATTGTGGCAAG





CCAGGCCATCTGGCTCGTGACTGTGACCACGCGGATGAGCAGAAGTGCTATTCTTGTGGTGAATTTGGACATATTCAAAA





AGACTGCACCAAGGTGAAGTGCTATACGTGTGGTGAAACTGGTCATGTMGCCATCAATTGCAGCAAGACAAGTGAAGTCA





ACTGTTACCGCTG





Clone 0137-BGH Sequence


TTTTTTTTTTTTTTTTTTCAGTCCTCCACATTCCCCTCTTTAATATGGWATTTTGTTCTATATACATTGATGAAAATTTA





AAACAAACAAAAGGAACTTTAGTCAAAACTCCCCTTCCTCCTCCAGCTTTATTGGAATAGTTTAAAATTACATTTTCTAT





TTTCTAGGACTTCAGTTGCTTTTTCCATCTGACTTTTAAAAACTGATTACAGCAAATGAAACACAGTTGTCTAAGTGATA





TAGTATACAAAAATAACATCTTGATTTCTGTGAAAATGCATTTCTCTGCAATTCCTGAATAGCTCCAAATTATGCTAACT





CTGAGCATCGGATGTTTACTCTGGGTTTTAGATTTAGTCTTTGAAAAAATGTGTTCTACACCTTTGCCATCACCATCTGT





ACGTCCAGCATCGTCACTGGGATGAAGCTGCTTCTGTGTTAGGCTTTGAGCCAGATTCCCTGGCATAGCCTTCAACACAT





TTGTCTTTTCAGTTTACTCCCAACTCAACTGTATATTCTGAGGGCCTGATGCAGATGTTACTCGATGTTATTTAATAGCT





ACTGAGGGTCAGACAATCCAAGGCCGNCATTATGCTAANAATTAAAGGNTATTTATGGAAGCTTAAATGCTTNCAGAATT





GGNTTTACCTTCTACATGGGGAACACACT





Clone 0136-BGH Sequence


TTTTTTTTTTTTTTTTTCGCATATAAATGATTCTTTATGCCCTTCCCCCATGCAGDGGGGGGCGGAGCAGGGGGAAGTCC





CCCGCCTCATGCAGGGAACGGGAGGTCAATGTTTAGTAGTCTTATTGCCAGATGCCCTGTGGCCATGGGGTGGGGAGTGG





GGGGTGTCWACAGCCCCTTGTTTTCTGGCATTGGTCTCCCTTTACCAAGTCACCATGGTGGAGCCAGGGGACTGGAGGCT





TAAAGCTGAGGTAAAGATGGTTCTCTCCAGGAAGAAAAGTGGTTCTCCCCGCTTGCCTGCTGGCCATCCTCAAGGTGAGT





ATGAGGCGGNGTCTGTGGGAANTGGAACGTCACCCAGGGGTCTCTACCCTGTGGNCAGTANGCCGGACAATGTCTC





Clone 0139-T7 Sequence


AGGGACCCCGCATCTTATTAKCAACCAGGGAGATTTCTCCATTTTCCTCTTGTACTACAGTGCGGCCTACAAATCTGGGA





TTTTTTTTTATTACTTCTTTTTTTAAAAAAACTACACTWGGGCTCCTTTTTTGTGCTCGACTTTTCCACCTTTTTCCCTC





CTTCCTGCGCTGCTGCTTTTTTGATCTCTTCGACTAAAAATTTTTTATCCGGAGTATTTAATCGGGTCTCTTCTGTCCTC





CTCGCCACCCCCACCCCCTCCCTCCGGTGTGTGTGCCGCCGCCGCTGNATGCTGCTGCTGCTGCTCGCCCCGTCGTTACA





CCAACCGAAGGCTCTTTGTTTCCTCTCTTGGATCTGCCGAGTTTCTTTGTTGAAGAAGCCAGCATGGGTGCCCAGNTCTC





NAAGACCGCAGCGAAGGGAGAAGCCACCGTCGAGAGGCCCCG





Clone 0139-BGH Sequence


TTTTTTTTTTTTTTTAAATCTGGGTATTGGTGTTTTTATTTTTTTACTCTTTCCTTCTTATTCAAAACGTGTAGTGTTGT





AAACCTGCCTCACAAAATACATCGTAATAATTTTTCTTTAAAAAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGA





AAGAAAGAAAGGACAAGAACCCTAAGCCTTTACACCCACCACCATTTTAGTGGCATATTATCTTGGCAATGTTATGCACT





GCTTCAATTTCCCATAGTGGCCCCTATCACTTCATTTGTTATTCCTTTTGACCCACCCATCTCCTTCATATATGGGTATG





TCTATAGATCTGACAAAGAAAGTTTACACTTTTTTAATAAAGATGCAAAGTATGCAAAAAACATTAATACTGATGCCAAA





AAAAAAAAAAAAAAAGTAAAAGTAAAGAAAGAAGGCAGAGGAAGCTGTCTAACACGTCCTCGGCCTGTCGGAATGGTGGA





AACAACTATCTGAGATGGGATCTGTGGGGAAGGGGGCTTAAAAAAAACANAAAACAAAAAATTTGCTGNTTAANAAAAAT





GTGAAATTTAAAANANAATNTTTAAAATNAATCCCTGGTTGTAGACANGTTNCCAAAAACCAGTACCTGGCACCACTCCA





AC





Clone 0140-Contig


CTGGAAAGCTCGGTTCGGTGTCTGGGGTATGAAGGTCCTGCAAACCCGAGGCTTCGTCTCGGACTCGTCGGATAGCATGG





ATACGGGCGCTGGCTCCATCCGAGAAGCTGGTGGAGCCTTCGGAAAACGAGAAAAGGCTGAAGAGGATCGGTACTTCCGA





GAGAAGACTAAAGAACAGCTGGCTGCCCTGAGGAAACACCATGAAGATGAGATTGACCACCATTCGAAGGAGATAGAGCG





TCTGCAGAAGCAAATTGAACGCCATAAGAAGAAGATCCAACAACTAAAGAATAATCATTGAATGCGCGCAGTCGGTCCCT





CACAGAGTGGCCCGTATCACTCCCCACGTCTGTAGACACATGGCTTTGAATGATTACTATTTGGTCTGTGTGCTACTAAC





AGATAATAACGATCACCAGGAAAAAAAAAAAAAAAAA





Clone 0141-Contig


AGGGAGGTAGAGGTGMCCGATCCTGGGGGTCGGTGTTAGGCCGTGGGAGGTTTTTCGCGAGACTGAGCCACGCGTCTATC





TTCTGTCCCAGGGCCGCCGTCACCATGGGCCGCGAGTTTGGGAACCTGGCGCGGATACGGCACGTGATCTCCTACAGCTT





GTCGCCCTTTGAGCAGCGCGCCTTCCCAAGCTATTTCAGCAAAGGCATCCCCAACGTGCTGCGCCGCACTCGCGAGCGCA





TCCTGCGCGTGGCGCCGCCGTTTGTAGTGGTCTACCTGATCTACACATGGGGCAACCAGGAGTTTGAGCAGTCGAAAAGG





AAGAATCCAGCCATGTATGAAAATGACAAGTAGACGGCCTGCACCTGGGTGACAGTCCCCTGCCTCTGAAAGACCCTTCT





CTGGGAGAGGAATCCMCMCTGTAGTCTTGAAGMCAATAAACTACTTATGGMCTTCCAAAAAAAAAAAAAAAAAAAAAA





Clone 0142-T7 Sequence


CGTTGTCTTGCTCCGGCTGCGCGCATTGTCCTCAGGGTCCTCCGACAGGGCTGCTGCGGGGCCCGGGACCCGCGCCCTAG





GGACGCGCCCCCGCTGCCGGTCGGCCTGGCGCGGGGCTCTGCTAGTCTGTTGGCGAGCCCGTGCTACCGGGCTAGTCTCG





CCGGGGTTTTTCCTGCGAAGTTGAGGAAGGGGAGAAGTCCCACCCGTCCGCCCAGCCCAGCCTTNCCCGGCGCGCAGCCT





CGACGGGGCCGTGGCAGGCGCGACGAGGGCCGCCGACGGAGCCCTGAGAGAAGTACAAAGTGGTTNGTAACTGGGCTCGN





Clone 0142-BGH Sequence


TTTTTTTTTTTTTTTCAGGTTTGAAACTTTTGCTTGCCCGTGTCAAGCAGCCAATACAGAGCCTTAATGGCCTATTTAAA





CGGGGAAATATGCATGAACCAAAATCAACGAGGAACGTACACGCTGTATAGAGCCATTTTTCCACCGGGGTCTCAGATGC





TCTGCAACGTACACCCTCTCAGACCCTGGCTGAAGGCTGGGGATGCTGGCTACACAAGTCAGCCAGGTTCCTCGGACATC





CCAGCCAAGACAACAAAGTCGTCTCCAATCTCAAAGCAAGAAGACAATCACATTAAGAGAATCGGGTGCGTTTGGCTTTG





TGCACAGAGCGTGGCCAGCGCCCGGCGGCAGACGGCGCCTCACAGGATCACGCAGGCCGAGCAGCAGCCTCGTCGCCGTT





GGGCTGTGCCGCGTAGTTCATCTGCCTCACGATCTCTGCGAATAGCTCATCCACTGAGGCTTTGTTTTTGGCCCGATGTC





TCCATGAAGGGGCAGCTCCACTCCTCGGCCAGGGCCTTACCCTCGCCATAGGAGACCTCACGTTCACCCTCCAAGTCCAC





CTTGTTGCCTACCAGGATCATGGGGTACGCGCTCGTACCGCTTCACGCGGATGATCTGGGCCCGCATGGGCTTGATGN





Clone 0143-T7 Sequence


TGGNAAGGGGGGACTTTTGGTATAGCATTGGAAATGTAAATGAGCTAAATACCTAATAAAAAAATGGAAAAAAAAAAAAA





AAAAAAAAAAAGAAMTAGAAAAAATGTTTACTGAGGTCTTTATGTCTGTTGTTTTGTTTTGTTTTAGAAGTTTCTGAACG





TTGTTTTAGGACTAAACTGGGAAGCCATGTGTCTTCGTTTTGGATTTTATAGATAACCTGAAGCATTATTGAGATTCCTT





CAAAGTCAGTAACAACTTATTGGGTGTTTCAAGCCAGTTGTGAGTCTCTGAGTATTTGCCCAGNTTCACATTTATTGGTA





AAGGTCCCTTACAAG





Clone 0143-BGH Sequence


TTTTTTTTTTTTTTTGACTCTTGCTACTTGTGAGGCTCAGCAAAAAGAATTCTTTACAAGGTGTAACCCAGATTATGAGA





ACTATAGATGGAATCAGTCTGTACCACTCTGTGCCATTGTCCTCTGAGTAGGTTCTCTGTGACTGTAGATTATTTTTCCA





GTCTATAAAAGGTCATGGGTGCTATTGGAACTCTAGTCAGGCATCAACTTTAGGCCATCATTTCTCCATCAAAGGAAAGA





GAGCTTCTACATTTCGCAGACATGAGCATCCTAGATTACCCATAGTGCTCAAGTGTCATTTGAGTAATTTATTGAGATAG





CAAAGGCCTTTTGCATCTGATCATGCTGGGAAGAATGGAGTAAGTTTGGCATCCTTACACCTACCGAGTTGGCGACAGAC





ATATTCCTCAGGAGGTTGGAATGAAATTTTTGAATGTTCAGAGGAAACCTATATACATTTAAGGTGAAATCTAAAGAATA





AGAGAGAAAAACAAAACAAAACAACAAAAGAAACTCTTACCATTTGAGCACTAAGAATAGTCAAAGCAGAGGAAACAGGC





TAGTGCAAAGGTCCATCTAGTACAAGAGAGNTTATGGCTTGCTCCAGGAACGGACAGAAGGCTAGCGNGGCTGGCG





Clone 0144-Contig


AGGGACAGCTCCCCTTTCTGGAAGGTGAAATTTTTGATTCTGTGAAGCCGGGACTTTCTGCTTTTGTGGATCAGCCCAAA





CAGGGTGCTGAGACTGTCCAGGAGCTCTTGGAGGTGGCCAAAGACTCGATCCCCAGAAGCCACTGGGAAAGGACCCCGGT





GGTTCTGAAAGCAACGGCCGGACTCCGTTTGCTGCCTGAGCAGAAAGCCCAGGCTCTGCTCTTGGAGGTAGAGGAGATCT





TCAAGAATTCACCTTTCCTGGTCCCAGATGGCAGCGTTAGCATCATGGATGGGTCCTATGAAGGCATACTAGCCTGGGTT





ACCGTGAACTTTCTAACAGGTCAGCTGCATGGTCGTGGCCAGGAGACTGTGGGGACCCTTGACCTGGGGGGTGCCTCCAC





CCAAATCACGTTTCTACCCCAGTTTGAGAAAACCCTGGAACAAACACCTAGGGGCTACCCTCACTTCCTTTGAGATGTTT





AACAGCACTTTTAAGCTCTATACACATAGTTACTTGGGATTTGGACTGAAAGCTGCAAGACTGGCAACTCTGGGAGCCCT





GGAAGCAAAAGGGACTGATGGACATACGTTTCGAAGTGCCTGTTTACCAAGATGGTTGGAAGCAGAGTGGATCTTTGGGG





GTGTGAAATACCAGTATGGTGGTAACCAAGAAGGGGAGATGGGCTTTGAACCCTGCTATGCGGAAGTGCTGAGGGTAGTA





CAGGGGAAACTTCACCAGCCAGAAGAAGTCCGAGGAAGCGCCTTCTACGCTTTCTCTTACTACTACGATCGACCCGCTGA





CACACACTTCATCGATTATAAAAA





Clone 0145-Contig


AAAAGGGCAGCCATGGCGCCCAGCCGGAATGGCATGATACTGAAGCCCCACTTCCACAAGGATTGGCAGCAGCGAGTGGA





CACTTGGTTCAACCAGCCGGCGCGCAAGATCCGCAGGCGCAAGGCCCGGCAGGCGAAAGCGCGTCGCATCGCCCCTCGCC





CCGCGTCCGGCCCCATCAGGCCCATCGTGAGGTGCCCTACAGTGAGATACCACACCAAGGTCCGGGCTGGCAGGGGCTTC





AGCCTGGAGGAGCTCAGGGTGGCTGGCATCCACAAGAAAGTGGCTCGCACCATCGGCATCTCTGTGGACCCGAGGAGGCG





AAACAAGTCCACCGAGTCACTGCAGGCCAACGTCCAGCGCCTGAAGGAGTACCGCTCCAAGCTCATCCTGTTCCCCAGGA





AGCCTTCTGCTCCGAAGAAGGGAGACAGTTCTGCTGAAGAACTTAAGCTGGCCACCCAGCTGACAGGACCTGTGATGCCC





ATCCGGAATGTGTACAAAAAGGAAAAGGCCAGAGTTATCACAGAAGAAGAGAAGAACTTTAAGGCTTTTGCCAGTCTCCG





AATGGCCCGTGCCAATGCCCGACTCTTTGGCATCCGAGCAAAAAGGGCGAAGGAAGCTGCAGAGCAAGATGTTGAAAAGA





AAAAATAATTCTGTGTTGGAGAGCTGCAATAAATTTTCCATAAAGCAAAAAAAAAAAAAAAAAAA





Clone 0146-Contig


AGGGCGAAGAGTGAGTGCCAAGGTTCATATGGGAAGGACTTTGGGGTGAGCATCTTCTCTATTTCCAGCTGGCTTTTCTG





ATTTTCAGAAAGAAGACTCATCAAAGATGTCCAGCAAGACGGCAAGCACCAACAGCATAGCCCAAGCCAGGAGAACTGTG





CAGCAGCTGAGATTGGAAGCCTCCATCGAAAGAATAAAGGTCTCAAAAGCATCAGCAGACCTGATGTCATACTGTGAGGA





GCATGCCCGGAGCGACCCTCTGCTGATGGGCATACCGACCTCAGAAAACCCGTTCAAGGATAAGAAGACCTGCATCATCT





TATAGTGGACCAGGAAGCGCCCCTTGCCTCTTAACGCAAACCACAGCAGCAACCTGAAGGGATTCCTTCAGCTTACCTGG





TAACCACAGCTAGTAACTAAAACACCCTTCTCTCGGAATAATAGACCCTGAAGTCTCTCTTTTTCAAGTTGTCCTTTCTT





CACCCTTTACTGATTTAATACAGAATAGCAATCTTATTTTCTATTTGATAACTATGGTATCATATTGGGTTACTGTATAA





GGAAAATGGCAGGGGAGTTGTGGGAAGCTTGTCTTTACAAAATATAATTGATTAAGATATGTCAAGACCTACATTGTCTA





AGCACCGGCAAATTAAAATGTCGAGAATCACTTCAGTCAAAAACCTTTATATTCTGTTCTTAATAATGTTTGTGCCAACC





TATATCCCATGTAAGGGATCTGGGGAGGAGGCATGTGTCTACAACCATACCTTTTTGCACTATGGGCACTAACCACCCTG





AAACTTCCTGCGGTAGCTCCCTCCCTTCAGAGTTACATCATTATCCTGACTCTGTGTAGGTAAATTTTCGTGAAATTTTT





GTACAAAAAAAAAAAAAAAA










[0190]


Claims
  • 1. An apoptosis-associated nucleic acid comprising: (a) the nucleic acids of clones 1-124, shown in table 1 or in SEQ ID NO: 1-225, or the nucleic acids of clones 1-124, 125, 127, 133, 134, 140, 141, 144, 145, 146, shown in table 2, nucleic acids complementary thereto or fragments thereof, (b) nucleic acids corresponding to the sequences as claimed in (a) within the framework of the degeneracy of the genetic code and (c) nucleic acids hybridizing with the sequences as claimed in (a) or/and (b) under stringent conditions.
  • 2. The nucleic acid as claimed in claim 1, characterized in that said nucleic acid induces apoptosis in a cell after expression.
  • 3. The nucleic acid as claimed in claim 1 or 2, characterized in that said nucleic acid codes for an apoptosis-associated polypeptide.
  • 4. The nucleic acid as claimed in any of claims 1 to 3, characterized in that said nucleic acid originates from a eukaryotic organism.
  • 5. The nucleic acid as claimed in claim 4, characterized in that said nucleic acid originates from a mammal.
  • 6. The nucleic acid as claimed in claim 5, characterized in that said nucleic acid is of human origin.
  • 7. The nucleic acid as claimed in claim 1, characterized in that the part fragments have a length of at least 15 nucleotides.
  • 8. The nucleic acid as claimed in any of claims 1 to 7, characterized in that said nucleic acid is operatively linked to an expression control sequence.
  • 9. The nucleic acid as claimed in claim 8, characterized in that the expression control sequence is a heterologous expression control sequence.
  • 10. A recombinant vector, characterized in that said recombinant vector contains a nucleic acid as claimed in any of claims 1 to 9.
  • 11. A recombinant cell, characterized in that said recombinant cell is transformed or transfected with a nucleic acid as claimed in any of claims 1 to 9 or a vector as claimed in claim 8.
  • 12. A polypeptide, characterized in that said polypeptide is encoded by a nucleic acid as claimed in claim 1.
  • 13. A pharmaceutical composition comprising a nucleic acid as claimed in any of claims 1 to 9, a vector as claimed in claim 10 or a polypeptide as claimed in claim 12, where appropriate together with pharmaceutically conventional carriers and excipients.
  • 14. The use of a nucleic acid as claimed in any of claims 1 to 9, of a vector as claimed in claim 10, of a cell as claimed in claim 11 or of a polypeptide as claimed in claim 12 for producing a diagnostic or therapeutic agent.
  • 15. The use as claimed in claim 14 for the diagnosis, therapy or prevention of apoptosis-associated disorders.
  • 16. The use of a nucleic acid as claimed in any of claims 1 to 9, of a vector as claimed in claim 10, of a cell as claimed in claim 11 or of a polypeptide as claimed in claim 12 for identifying active substances for the therapy or prevention of apoptosis-associated disorders.
  • 17. The use as claimed in claim 16, characterized in that identification is carried out in a high-throughput method.
  • 18. The use as claimed in claim 16 or 17, characterized in that the active substances activate or inhibit signal pathways induced by expression of the nucleic acid.
  • 19. A transgenic nonhuman animal, (i) which constitutively or inducibly overexpresses the gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene, (ii) which contains the endogenous gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene in an inactivated form, (iii) in which the endogenous gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene has been replaced completely or partially by a mutated gene of a nucleic acid as claimed in any of claims 1 to 9 or by a mutated ANT-1 gene, (iv) which over- or underexpresses conditionally and tissue-specifically the gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene, or (v) which has a conditional and tissue-specific knockout of the gene of a nucleic acid as claimed in any of claims 1 to 9 or of the ANT-1 gene.
  • 20. The transgenic animal as claimed in claim 19, characterized in that the endogenous promoter of the gene of a nucleic acid as claimed in any of claims 1 to 9 or of the ANT-1 gene has a genetic modification which results in a modified expression of said gene.
  • 21. The transgenic animal as claimed in claim 19 or 20, characterized in that it is a rodent, in particular a mouse.
  • 22. The use of a transgenic animal as claimed in any of claims 19 to 21 for the genetic and/or pharmacological investigation of apoptotic processes, in particular of disorders which are associated with increased or reduced apoptosis.
  • 23. A cell culture (i) which overexpresses constitutively or inducibly the gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene, (ii) which contains the endogenous gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene in an inactivated form, (iii) in which the endogenous gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene has been replaced completely or partially by a mutated gene of a nucleic acid as claimed in any of claims 1 to 9 or by a mutated ANT-1 gene, (iv) which over- or underexpresses conditionally and tissue-specifically the gene of a nucleic acid as claimed in any of claims 1 to 9 or the ANT-1 gene, or (v) which has a conditional and tissue-specific knockout of the gene of a nucleic acid as claimed in any of claims 1 to 9 or of the ANT-1 gene.
  • 24. The cell culture as claimed in claim 23, characterized in that it consists of human cells.
  • 25. The use of a cell culture as claimed in claim 23 or 24 for the genetic and/or pharmacological investigation of apoptotic processes, in particular of disorders which are associated with increased or reduced apoptosis.
Priority Claims (1)
Number Date Country Kind
10034303.1 Jul 2000 DE
PCT Information
Filing Document Filing Date Country Kind
PCT/EP01/08170 7/13/2001 WO