Abstract:
The invention relates to newly identified cancer associated antigens, referred to as CT7, KOC-2 and KOC-3. The invention also relates to observations regarding known molecule KOC-1. It has been discovered that each of these molecules provokes antibodies when expressed by a subject. The ramifications of this observation are also a part of this invention.

Description:
RELATED APPLICATION 
     This application is a continuation in part of Ser. No. 09/061,709 filed Apr. 17, 1998, now U.S. Pat. No. 6,297,364, incorporated by reference. 
    
    
     FIELD OF THE INVENTION 
     This invention relates to antigens associated with cancer, the nucleic acid molecules encoding them, as well as the uses of these. 
     BACKGROUND AND PRIOR ART 
     It is fairly well established that many pathological conditions, such as infections, cancer, autoimmune disorders, etc., are characterized by the inappropriate expression of certain molecules. These molecules thus serve as “markers” for a particular pathological or abnormal condition. Apart from their use as diagnostic “targets”, i.e., materials to be identified to diagnose these abnormal conditions, the molecules serve as reagents which can be used to generate diagnostic and/or therapeutic agents. A by no means limiting example of this is the use of cancer markers to produce antibodies specific to a particular marker. Yet another non-limiting example is the use of a peptide which complexes with an MHC molecule, to generate cytolytic T cells against abnormal cells. 
     Preparation of such materials, of course, presupposes a source of the reagents used to generate these. Purification from cells is one laborious, far from sure method of doing so. Another preferred method is the isolation of nucleic acid molecules which encode a particular marker, followed by the use of the isolated encoding molecule to express the desired molecule. 
     Two basic strategies have been employed for the detection of such antigens, in e.g., human tumors. These will be referred to as the genetic approach and the biochemical approach. The genetic approach is exemplified by, e.g., dePlaen et al., Proc. Natl. Sci. USA 85: 2275 (1988), incorporated by reference. In this approach, several hundred pools of plasmids of a cDNA library obtained from a tumor are transfected into recipient cells, such as COS cells, or into antigen-negative variants of tumor cell lines which are tested for the expression of the specific antigen. The biochemical approach, exemplified by, e.g., O. Mandelboim, et al., Nature 369: 69 (1994) incorporated by reference, is based on acidic elution of peptides which have bound to MHC-class I molecules of tumor cells, followed by reversed-phase high performance liquid chromography (HPLC). Antigenic peptides are identified after they bind to empty MHC-class I molecules of mutant cell lines, defective in antigen processing, and induce specific reactions with cytotoxic T-lymphocytes. These reactions include induction of CTL proliferation, TNF release, and lysis of target cells, measurable in an MTT assay, or a  51 Cr release assay. 
     These two approaches to the molecular definition of antigens have the following disadvantages: first, they are enormously cumbersome, time-consuming and expensive; and second, they depend on the establishment of cytotoxic T cell lines (CTLs) with predefined specificity. 
     The problems inherent to the two known approaches for the identification and molecular definition of antigens is best demonstrated by the fact that both methods have, so far, succeeded in defining only very few new antigens in human tumors. See, e.g., van der Bruggen et al., Science 254: 1643-1647 (1991); Brichard et al., J. Exp. Med. 178: 489-495 (1993); Coulie, et al., J. Exp. Med. 180: 35-42 (1994); Kawakami, et al., Proc. Natl. Acad. Sci. USA 91: 3515-3519 (1994). 
     Further, the methodologies described rely on the availability of established, permanent cell lines of the cancer type under consideration. It is very difficult to establish cell lines from certain cancer types, as is shown by, e.g., Oettgen, et al., Immunol. Allerg. Clin. North. Am. 10: 607-637 (1990). It is also known that some epithelial cell type cancers are poorly susceptible to CTLs in vitro, precluding routine analysis. These problems have stimulated the art to develop additional methodologies for identifying cancer associated antigens. 
     One key methodology is described by Sahin, et al., Proc. Natl. Acad. Sci. USA 92: 11810-11913 (1995), incorporated by reference. Also, see U.S. Pat. No. 5,698,396, and application Ser. No. 08/479,328, filed on Jun. 7, 1995 and Jan. 3, 1996, respectively. All three of these references are incorporated by reference. To summarize, the method involves the expression of cDNA libraries in a prokaryotic host. (The libraries are secured from a tumor sample). The expressed libraries are then immunoscreened with absorbed and diluted sera, in order to detect those antigens which elicit high titer humoral responses. This methodology is known as the SEREX method (“Serological identification of antigens by Recombinant Expression Cloning”). The methodology has been employed to confirm expression of previously identified tumor associated antigens, as well as to detect new ones. See the above referenced patent applications and Sahin, et al., supra, as well as Crew, et al., EMBO J 144: 2333-2340 (1995). 
     This methodology has been applied to a range of tumor types, including those described by Sahin et al., supra, and Pfreandschuh, supra, as well as to esophageal cancer (Chen et al., Proc. Natl. Acad. Sci. USA 94: 1914-1918 (1997)); lung cancer (Güre et al., Cancer Res. 58: 1034-1041 (1998)); colon cancer (Ser. No. 08/948,705 filed Oct. 10, 1997) incorporated by reference, and so forth. Among the antigens identified via SEREX are the SSX2 molecule (Sahin et al., Proc. Natl. Acad. Sci. USA 92: 11810-11813 (1995); Tureci et al., Cancer Res. 56: 4766-4772 (1996); NY-ESO-1 Chen, et al., Proc. Natl. Acad. Sci. USA 94: 1914-1918 (1997); and SCP1 (Ser. No. 08/892,705 filed Jul. 15, 1997) incorporated by reference. Analysis of SEREX identified antigens has shown overlap between SEREX defined and CTL defined antigens. MAGE-1, tyrosinase, and NY-ESO-1 have all been shown to be recognized by patient antibodies as well as CTLs, showing that humoral and cell mediated responses do act in concert. 
     It is clear from this summary that identification of relevant antigens via SEREX is a desirable aim. The inventors have modified standard SEREX protocols and have screened a cell line known to be a good source of the antigens listed supra, using allogeneic patient sample. New antigens have been identified in this way and have been studied. Also, a previously known molecule has now been identified via SEREX techniques. 
    
    
     DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
     EXAMPLE 1 
     The melanoma cell referred to as SK-MEL-37 was used, because it has been shown to express a number of members of the CT antigen family, including MAGE-1 (Chen et al., Proc. Natl. Acad. Sci. USA 91: 1004-1008(1994); NY-ESO-1 (Chen et al. Proc. Natl. Acad. Sci. USA 94: 1914-1918 (1997)); and various members of the SSX family (Gure et al., Int. J. Cancer 72: 965-971 (1997)). 
     Total RNA was extracted from cultured samples of SK-MEL-37 using standard methods, and this was then used to construct a cDNA library in commercially available, λZAP expression vector, following protocols provided by the manufacturer. The cDNA was then transfected into  E. coli  and screened, following Sahin et al., Proc. Natl. Acad. Sci. USA 92: 11810-11813 (1995), incorporated by reference, and Pfreundschuh, U.S. Pat. No. 5,698,396, also incorporated by reference. The screening was done with allogeneic patient serum “NW38.” This serum had been shown, previously, to contain high titer antibodies against MAGE-1 and NY-ESO-1. See, e.g., Jäger et al., J. Exp. Med. 187: 265-270 (1998), incorporated by reference. In brief, serum was diluted 1:10, preabsorbed with lysates of transfected  E. coli,  further diluted to 1:2000, and then incubated overnight at room temperature with nitrocellulose membranes containing phage plagues, prepared in accordance with Sahin et al., and Pfreundschuh, supra. The library contained total of 2.3×10 7  primary clones. After washing, the filters were incubated with alkaline phosphatase conjugated, goat anti-human Fcy secondary antibodies, and were then visualized by incubating with 5-bromo-4-chloro-3-indolyl phosphate, and nitroblue tetrazolium. 
     After screening 1.5×10 5  of the clones, a total of sixty-one positives had been identified. Given this number, screening was stopped, and the positive clones were subjected to further analysis. 
     EXAMPLE 2 
     The positive clones identified in example 1, supra, were purified, the inserts were excised in vitro, and inserted into a commercially available plasmid, pBK-CMV, and then evaluated on the basis of restriction mapping with EcoRI and XbaI. Clones which represented different inserts on the basis of this step were sequenced, using standard methodologies. 
     There was a group of 10 clones, which could not be classified other than as “miscellaneous genes”, in that they did not seem to belong to any particular family. They consisted of 9 distinct genes, of which four were known, and five were new. The fifty one remaining clones were classified into four groups. The data are presented in Tables 1 and 2, which follow. 
     The largest group are genes related to KOC (“KH-domain containing gene, overexpressed in cancer” which has been shown to be overexpressed in pancreatic cancer, and maps to chromosome 7p11.5. See Müeller-Pillasch et al., Oncogene 14: 2729-2733 (1997). Two of the 33 were derived from the KOC gene, and the other 31 were derived from two previously unidentified, but related genes. Examples 6 et seq. describe work on this group of clones. 
     Eleven clones, i.e., Group 2, were MAGE sequences. Four were derived from MAGE-4a, taught by DePlaen et al., Immunogenetics 40: 360-369, Genbank U10687, while the other 7 hybridized to a MAGE-4a probe, derived from the 5′ sequence, suggesting they belong to the MAGE family. 
     The third group consisted of five clones of the NY-ESO-1 family. Two were identical to the gene described by Chen et al., Proc. Natl. Acad. Sci. USA 94: 1914-1918 (1997), and in Ser. No. 08/725,182, filed Oct. 3, 1996, incorporated by reference. The other three were derived from a second member of the NY-ESO-1 family, i.e., LAGE-1. See U.S. application Ser. No. 08/791,495, filed Jan. 27, 1997 and incorporated by reference. 
     The fourth, and final group, related to a novel gene referred to as CT7. This gene, the sequence of which is presented as SEQ ID NO: 1, was studied further. 
     
       
         
               
             
               
               
               
               
             
           
               
                 TABLE 1 
               
             
             
               
                   
               
               
                 SEREX-identified genes from allogeneic 
               
               
                 screening of SK-MEL-37 library 
               
             
          
           
               
                   
                 Gene group 
                 # of clones 
                 Comments 
               
               
                   
                   
               
               
                   
                 KOC 
                 33 
                 derived from 3 related genes 
               
               
                   
                 MAGE 
                 11 
                 predominantly MAGE-4a (see text) 
               
               
                   
                 NY-ESO-1 
                  5 
                 derived from 2 related genes 
               
               
                   
                   
                   
                 (NY-ESO-1, LAGE-1) 
               
               
                   
                 CT7 
                  2 
                 new cancer/testis antigen 
               
               
                   
                 Miscellaneous 
                 10 
                 sec Table 2 
               
               
                   
                   
               
             
          
         
       
     
     
       
         
               
             
               
               
               
             
           
               
                 TABLE 2 
               
             
             
               
                   
               
               
                 SEREX-identified genes from allogeneic screening 
               
               
                 of SK-MEL-37 library--Miscellaneous group 
               
             
          
           
               
                   
                 Clone designation 
                 Gene 
               
               
                   
                   
               
               
                   
                 MNW-4, MNW-7 
                 S-adenyl homocysteine hydrolase 
               
               
                   
                 MNE-6a 
                 Glutathione synthetase 
               
               
                   
                 MNW-24 
                 proliferation-associated protein p38-2G4 
               
               
                   
                 MNW-27a 
                 phosphoribosyl pyrophosphate synthetase- 
               
               
                   
                   
                 associated protein 39 
               
               
                   
                 MNW-6b 
                 unknown gene, identical to sequence tags from 
               
               
                   
                   
                 pancreas, uterus etc. 
               
               
                   
                 MNW-14b 
                 unknown gene, identical to sequence tags from 
               
               
                   
                   
                 lung, brain, fibroblast etc. 
               
               
                   
                 MNW-34a 
                 unknown gene, identical to sequence tags 
               
               
                   
                   
                 from multiple tissues 
               
               
                   
                 MNW-17 
                 unknown gene, identical to sequence tags 
               
               
                   
                   
                 from pancreas and fetus 
               
               
                   
                 MNW-29a 
                 unknown gene, no significant sequence 
               
               
                   
                   
                 homology, universally expressed 
               
               
                   
                   
               
             
          
         
       
     
     EXAMPLE 3 
     The two clones for CT7, referred to supra, were 2184 and 1965 base pairs long. Analysis of the longer one was carried out. It presented an open reading frame of 543 amino acids, which extended to the 5′ end of the sequence, indicating that it was a partial cDNA clone. 
     In order to identify the complete sequence, and to try to identify additional, related genes, a human testicular cDNA library was prepared, following standard methods, and screened with probes derived from the longer sequence, following standard methods. 
     Eleven positives were detected, and sequenced, and it was found that all derived from the same gene. When the polyA tail was excluded, full length transcript, as per SEQ ID NO: 1, consisted of 4265 nucleotides, broken down into 286 base pairs of untranslated 5′-region, a coding region of 3429 base pairs, and 550 base pairs of untranslated 3′ region. The predicted protein is 1142 amino acids long, and has a calculated molecular mass of about 125 kilodaltons. See SEQ ID NO: 2. 
     The nucleotide and deduced amino acid sequences were screened against known databases, and there was some homology with the MAGE-10 gene, described by DePlaen et al., Immunogenetics 40: 360-369(1994). The homology was limited to about210 carboxy terminal amino acids, i.e., amino acids 908-1115 of the subject sequence, and 134-342 of MAGE-10. The percent homology was 56%, rising to 75% when conservative changes are included. 
     There was also extensive homology with a sequence reported by Lucas et al., Canc. Res. 58: 743-752 (1998), and application Ser. No. 08/845,528 filed Apr. 25, 1997, also incorporated by reference. A total of 14 nucleotides differ in the open reading fine, resulting in a total of 11 amino acids which differ between the sequences. 
     The 5′ region of the nucleotide and sequence and corresponding amino acid sequence demonstrates a strikingly repetitive pattern, with repeats rich in serine, proline, glutamine, and leucine, with an almost invariable core of PQSPLQI (SEQ ID NO: 3). In the middle of the molecule, 11 almost exact repeats of 35 amino acids were observed. The repetitive portions make up about 70% of the entire sequence, begin shortly after translation initiation, at position 15, and ending shortly before the region homologous to MAGE 4a. 
     EXAMPLE 4 
     The expression pattern for mRNA of CT7 was then studied, in both normal and malignant tissues. RT-PCR was used, employing primers specific for the gene. The estimated melting temperature of the primers was 65-70° C., and they were designed to amplify 300-600 base pair segments. A total of 35 amplification cycles were carried out, at an annealing temperature of 60° C. Table 3, which follows, presents the data for human tumor tissues. CT7 was expressed in a number of different samples. Of fourteen normal tissues tested, there was strong expression in testis, and none in colon, brain, adrenal, lung, breast, pancreas, prostate, thymus or uterus tissue. There was low level expression in liver, kidney, placenta and fetal brain, with fetal brain sowing three transcripts of different size. The level of expression was at least 20-50 times lower than in testis. Melanoma cell lines were also screened. Of these 7 of the 12 tested showed strong expression, and one showed weak expression. 
     Table 3. CT7 mRNA Expression in Various Humor Tumors by RT-PCR 
     
       
         
               
               
               
             
           
               
                   
                   
               
               
                   
                 Tumor type 
                 mRNA, positive/total 
               
               
                   
                   
               
             
             
               
                   
                 Melanoma 
                  7/10 
               
               
                   
                 Breast cancer 
                  3/10 
               
               
                   
                 Lung cancer 
                 3/9 
               
               
                   
                 Head/neck cancer 
                  5/14 
               
               
                   
                 Bladder cancer 
                 4/9 
               
               
                   
                 Colon cancer 
                  1/10 
               
               
                   
                 Leimyosarcoma 
                 1/4 
               
               
                   
                 synovial sarcoma 
                 2/4 
               
               
                   
                 Total 
                 26/70 
               
               
                   
                   
               
             
          
         
       
     
     EXAMPLE 5 
     Southern blotting experiments were then carried out to determine if CT7 belonged to a family of genes. In these experiments, genomic DNA was extracted from normal human tissues. It was digested with BamHI, EcoRI, and HindIII, separated on a 0.7% agarose gel, blotted onto a nitrocellulose filter, and hybridized, at high stringency (65° C., aqueous buffer), with a  32 P labelled probe, derived from SEQ ID NO: 1. 
     The blotting showed anywhere from two to four bands, suggesting one or two genes in the family. 
     EXAMPLE 6 
     As noted in example 2, surra, thirty three of the sixty one positive clones were related to KOC. Clones were sequenced using standard methodologies. As indicated supra, one clone was identical to KOC, initially reported by Müeller-Pillasch, et al., supra. Given that two additional related sequences were identified, the known KOC gene is referred to as KOC-1 hereafter (SEQ ID NO: 4). The second clone, referred to as KOC-2 hereafter, was found once. The sequence is presented as SEQ ID NO: 5. Its deduced amino acid sequence is 72.5% identical to that for KOC-1. 
     The third sequence, KOC-3, appeared thirty times (SEQ ID NO: 6). Its deduced amino acid sequence is 63% identical to KOC-1. 
     Testicular cDNA libraries were analyzed in the same way that the SK-MEL-37 library was analyzed, i.e., with allogeneic serum from NW-38. See example 3, supra. 
     Following analysis of testicular libraries, a longer form of KOC-2 was isolated. This is presented as SEQ ID NO: 7. When SEQ ID NOS: 5 &amp; 7 are compared, the former is 1705 base pairs in length, without a polyA tail. It contains 1362 base pairs of coding sequence, and 343 base pairs of 3′ untranslated sequence. Nucleotides 275-1942 of SEQ ID NO: 7 are identical to nucleotides 38-1705 of SEQ ID NO: 5. 
     The sequence of KOC-3, set forth as SEQ ID NO: 6, is 3412 base pairs long, and consists of 72 base pairs of 5′ untranslated region, 1707 base pairs of open reading frame, and 1543 base pairs of untranslated, 3′ region. An alternate form was also isolated, (SEQ ID NO: 8), and is 129 base pairs shorter than SEQ ID NO: 6. 
     EXAMPLE 7 
     Expression patterns for KOC-1, KOC-2 and KOC-3 were then studied, using RT-PCR and the following primer pairs: 
      GAAAGTATCT TCAAGGACGC C 
     
       
         CTGCAAGGGG TTTTGCTGGG CG  (SEQ ID NOS: 9 &amp; 10). 
       
     
     
       
         TCCTTGCGCG CTGCGGCCTC AG 
       
     
     
       
         CCAACTGGTG GCCATRCAGCT TC  (SEQ ID NOS: 11 &amp; 12) 
       
     
     
       
         GCTCTTTGGG GACAGGAAGG TC 
       
     
     
       
         GACGTTGACA ACGGCGGTTT CT  (SEQ ID NOS: 13 &amp; 14). 
       
     
     SEQ ID NOS: 9 &amp; 10 were designed to amplify KOC-1 while SEQ ID NOS: 11 &amp; 12 were designed to amplify KOC-2, and SEQ ID NOS: 13 &amp; 14 were designed to amplify KOC-3. 
     To carry out the RT-PCR, relevant primer pairs were added to cDNA samples prepared from various mRNAs by reverse transcription. PCR was then carried out at an annealing temperature of 60° C., and extension at 72° C., for 35 cycles. The resulting products were then analyzed by gel electrophoresis. 
     SEQ ID NOS 9 &amp; 10 amplify nucleotides 305-748 of SEQ ID NO: 1. A variety of normal and malignant cell types were tested. Strong expression was found in testis, moderate expression in normal brain, and low levels of expression were found in normal colon, kidney, and liver. 
     The Müeller-Pillasch paper, cited supra, identified expression of KOC-1 in pancreatic tumor cell lines, gastric cancer, and normal placenta, via Northern blotting. This paper also reported that normal heart, brain, lung, liver, kidney and pancreatic tissue were negative for KOC-1 expression. The difference in results suggests that the level of expression of KOC-1 is very low in normal tissues. 
     When KOC-2 expression was studied, the only positive normal tissue was testis (brain, liver, kidney and colon were negative). 
     Modification of the protocol for detecting KOC-2 resulted in positives in normal kidney, liver and melanoma. 
     When KOC-3 expression was studied, it was found that the gene was universally expressed in normal tissues, with highest expression in testis. 
     The pattern of expression of KOC-3 in different melanoma cell lines was analyzed, using standard Northern blotting. Over expression in several cell lines was observed, which is consistent with the more frequent isolation of this clone than any other. 
     EXAMPLE 8 
     A study was carried out to determine if KOC-1 is expressed at higher levels in melanoma cells, as compared to normal skin cells. This was done using representational difference analysis, or “RDA.” See Lisitsyn, et al. Science 259: 946-951 (1993), and O&#39;Neill, et al. Nucl. Acids Res. 25:2681-2 (1997), both of which are incorporated by reference. Specifically, tester cDNA was taken from SK-MEL-37, and driver cDNA was taken from a skin sample representing mRNA from various cell types in the skin. The cDNAs were digested with either Tsp5091, Hsp92II, or DpnII. When DpnII was the enzyme used for digestion, adaptor oligonucleotides R-Bgl-24, J-Bgl-24, and N-Bgl-24 described by O&#39;Neill, et al., supra, and Hubank, et al. Nucl. Acids Res. 22:5640-5648 (1994) were used. When Tsp509I was the endonuclease, the same adaptors were used, as were R-Tsp-12, i.e.: 
     
       
         AATTTGCGGT GA  (SEQ ID NO: 15) 
       
     
     J-Tsp-12, i.e.: 
     
       
         AATTTGTTCA TG  (SEQ ID NO: 16) 
       
     
     and N-Tsp-12, i.e.: 
     
       
         AATTTTCCCT CG  (SEQ ID NO: 17) 
       
     
     When Hsp92II was the endonuclease, the adaptors were: 
     R-Hsp-24, i.e.: 
     
       
         AGCACTCTCC AGCCTCTCAC CATG  (SEQ ID NO: 18); 
       
     
     J-Hsp-24, i.e.: 
     
       
         ACCGACGTCG ACTATCATG CATG  (SEQ ID NO: 19); 
       
     
     N-Hsp-24, i.e.: 
     
       
         AGGCAACTGT GCTATCCGAG CATG  (SEQ ID NO: 20); 
       
     
     R-Hsp-8, i.e.: 
     
       
         GTGAGAGG  (SEQ ID NO: 21); 
       
     
     J-Hsp-8, i.e.: 
     
       
         CATGGATG  (SEQ ID NO: 22); 
       
     
     N-Hsp-8, i.e.: 
     
       
         CTCGGATA  (SEQ ID NO: 23). 
       
     
     In order to hybridize tester and driver, either 3×EE buffer (30 mM EPPS, pH8, 3 mM EDTA), or a buffer of 2.4M tetraethylammonium chloride (TEACl) 3 mM EDTA, 10 mM Tris HC1, pH8, was used. When DNA was dissolved in 10 μl of TEACl buffer, it was denatured at 80° C. for 10 minutes, followed by renaturing at 42° C. for 20 hours. Amplicons were gel purified, and the DP3 or DP2 product was ligated into BamHI (when DpnII was used), EcoRI (when Tsp 509I was used), or SpHI (when Hsp92II was used), cloning vectors were digested, and then sequenced. Sequence analysis of the cDNA molecules derived from these experiments identified KOC-1 as one of the genes isolated, indicating that KOC-1 mRNA is present at a higher level in Sk-Mel 37 cells as compared to normal skin cells. 
     The foregoing examples describe the isolation of a nucleic acid molecule which encodes a cancer associated antigen. “Associated” is used herein because while it is clear that the relevant molecule was expressed by several types of cancer, other cancers, not screened herein, may also express the antigen. 
     The invention relates to those nucleic acid molecules which encode the antigens CT7, KOC-2 and KOC-3, as described herein, such as a nucleic acid molecule consisting of the nucleotide sequence SEQ ID NO: 1, molecules comprising the nucleotide sequence of SEQ ID NO: 5, 6, 7 or 8 and so forth. Also embraced are those molecules which are not identical to SEQ ID NOS: 1, 5, 6, 7 or 8, but which encode the same antigen. 
     Also a part of the invention are expression vectors which incorporate the nucleic acid molecules of the invention, in operable linkage (i.e., “operably linked”) to a promoter. Construction of such vectors, such as viral (e.g., adenovirus or Vaccinia virus) or attenuated viral vectors is well within the skill of the art, as is the transformation or transfection of cells, to produce eukaryotic cell lines, or prokaryotic cell strains which encode the molecule of interest. Exemplary of the host cells which can be employed in this fashion are COS cells, CHO cells, yeast cells, insect cells (e.g.,  Spodoptera frugiperda ), NIH 3T3 cells, and so forth. Prokaryotic cells, such as  E. coli  and other bacteria may also be used. Any of these cells can also be transformed or transfected with further nucleic acid molecules, such as those encoding cytokines, e.g., interleukins such as IL-2, 4, 6, or 12 or HLA or MHC molecules. 
     Also a part of the invention are the antigens described herein, both in original form and in any different post translational modified forms. The molecules are large enough to be antigenic without any posttranslational modification, and hence are useful as immunogens, when combined with an adjuvant (or without it), in both precursor and post-translationally modified forms. Antibodies produced using these antigens, both poly and monoclonal, are also a part of the invention as well as hybridomas which make monoclonal antibodies to the antigens. The whole protein can be used therapeutically, or in portions, as discussed infra. Also a part of the invention are antibodies against this antigen, be these polyclonal, monoclonal, reactive fragments, such as Fab, (F(ab) 2 ′ and other fragments, as well as chimeras, humanized antibodies, recombinantly produced antibodies, and so forth. 
     As is clear from the disclosure, one may use the proteins and nucleic acid molecules of the invention diagnostically. The SEREX methodology discussed herein is premised on an immune response to a pathology associated antigen. Hence, one may assay for the relevant pathology via, e.g., testing a body fluid sample of a subject, such as serum, for reactivity with the antigen per se. Reactivity would be deemed indicative of possible presence of the pathology. So, too, could one assay for the expression of any of the antigens via any of the standard nucleic acid hybridization assays which are well known to the art, and need not be elaborated upon herein. One could assay for antibodies against the subject molecules, using standard immunoassays as well. 
     Analysis of SEQ ID NO: 1, 5, 6, 7 and 8 will show that there are 5′ and 3′ non-coding regions presented therein. The invention relates to those isolated nucleic acid molecules which contain at least the coding segment, i.e., nucleotides 54-593, of SEQ ID NO: 1, nucleotides 1-1019 of SEQ ID NO: 3, nucleotides 73-1780 of SEQ ID NO: 8, and so forth, and which may contain any or all of the non-coding 5′ and 3′ portions. 
     Also a part of the invention are portions of the relevant nucleic acid molecules which can be used, for example, as oligonucleotide primers and/or probes, such as one or more of SEQ ID NOS: 7, 8, 9, 10, 11, 12, 13 or 14 as well as amplification product like nucleic acid molecules comprising at least nucleotides 305-748 of SEQ ID NO: 1. 
     As was discussed supr. % study of other members of the “CT” family reveals that these are also processed to peptides which provoke lysis by cytolytic T cells. There has been a great deal of work on motifs for various MHC or HLA molecules, which is applicable here. Hence, a further aspect of the invention is a therapeutic method, wherein one or more peptides derived from the antigens of the invention which bind to an HLA molecule on the surface of a patient&#39;s tumor cells are administered to the patient, in an amount sufficient for the peptides to bind to the MHC/HLA molecules, and provoke lysis by T cells. Any combination of peptides may be used. These peptides, which may be used alone or in combination, as well as the entire protein or immunoreactive portions thereof, may be administered to a subject in need thereof, using any of the standard types of administration, such as intravenous, intradermal, subcutaneous, oral, rectal, and transdermal administration. Standard pharmaceutical carriers, adjuvants, such as saponins, GM-CSF, and interleukins and so forth may also be used. Further, these peptides and proteins may be formulated into vaccines with the listed material, as may dendritic cells, or other cells which present relevant MHC/peptide complexes. 
     Similarly, the invention contemplates therapies wherein nucleic acid molecules which encode the proteins of the invention, one or more or peptides which are derived from these proteins are incorporated into a vector, such as a Vaccinia or adenovirus based vector, to render it transfectable into eukaryotic cells, such as human cells. Similarly, nucleic acid molecules which encode one or more of the peptides may be incorporated into these vectors, which are then the major constituent of nucleic acid bases therapies. 
     Any of these assays can also be used in progression/regression studies. One can monitor the course of abnormality involving expression of these antigens simply by monitoring levels of the protein, its expression, antibodies against it and so forth using any or all of the methods set forth supra. 
     It should be clear that these methodologies may also be used to track the efficacy of a therapeutic regime. Essentially, one can take a baseline value for a protein of interest using any of the assays discussed supra, administer a given therapeutic agent, and then monitor levels of the protein thereafter, observing changes in antigen levels as indicia of the efficacy of the regime. 
     As was indicated supra, the invention involves, inter alia, the recognition of an “integrated” immune response to the molecules of the invention. One ramification of this is the ability to monitor the course of cancer therapy. In this method, which is a part of the invention, a subject in need of the therapy receives a vaccination of a type described herein. Such a vaccination results, e.g., in a T cell response against cells presenting HLA/peptide complexes on their cells. The response also includes an antibody response, possibly a result of the release of antibody provoking proteins via the lysis of cells by the T cells. Hence, one can monitor the effect of a vaccine, by monitoring an antibody response. As is indicated, supra, an increase in antibody titer may be taken as an indicia of progress with a vaccine; and vice versa. Hence, a further aspect of the invention is a method for monitoring efficacy of a vaccine, following administration thereof, by determining levels of antibodies in the subject which are specific for the vaccine itself, or a large molecule of which the vaccine is a part. 
     The identification of the subject proteins as being implicated in pathological conditions such as cancer also suggests a number of therapeutic approaches in addition to those discussed supra. The experiments set forth supra establish that antibodies are produced in response to expression of the protein. Hence, a further embodiment of the invention is the treatment of conditions which are characterized by aberrant or abnormal levels of one or more of the proteins, via administration of antibodies, such as humanized antibodies, antibody fragments, and so forth. These may be tagged or labelled with appropriate cystostatic or cytotoxic reagents. 
     T cells may also be administered. It is to be noted that the T cells may be elicited in vitro using immune responsive cells such as dendritic cells, lymphocytes, or any other immune responsive cells, and then reperfused into the subject being treated. 
     Note that the generation of T cells and/or antibodies can also be accomplished by administering cells, preferably treated to be rendered non-proliferative, which present relevant T cell or B cell epitopes for response, such as the epitopes discussed supra. 
     The therapeutic approaches may also include antisense therapies, wherein an antisense molecule, preferably from 10 to 100 nucleotides in length, is administered to the subject either “neat” or in a carrier, such as a liposome, to facilitate incorporation into a cell, followed by inhibition of expression of the protein. Such antisense sequences may also be incorporated into appropriate vaccines, such as in viral vectors (e.g., Vaccinia), bacterial constructs, such as variants of the known BCG vaccine, and so forth. 
     Also a part of the inventions are Peptides, such as those set forth in FIG. 1, and those which have as a core sequence 
     
       
         PQSPLQI  (SEQ ID NO.: 3) 
       
     
     These peptides may be used therapeutically, via administration to a patient who expresses CT7 in connection with a pathology, as well as diagnostically, i.e., to determine if relevant antibodies are present and so forth. 
     Other features and applications of the invention will be clear to the skilled artisan, and need not be set forth herein. The terms and expression which have been employed are used as terms of description and not of limitation, and there is no intention in the use of such terms and expression of excluding any equivalents of the features shown and described or portions thereof, it being recognized that various modifications are possible within the scope of the invention. 
     
       
         
               
             
           
               
                   
               
               
                                                SEQUENCE LISTING 
               
               
                 &lt;160&gt; NUMBER OF SEQ ID NOS: 23 
               
               
                 &lt;210&gt; SEQ ID NO 1 
               
               
                 &lt;211&gt; LENGTH: 4265 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 1 
               
               
                 gtctgaagga cctgaggcat tttgtgacga ggatcgtctc aggtcagcgg agggaggaga     60 
               
               
                 cttatagacc tatccagtct tcaaggtgct ccagaaagca ggagttgaag acctgggtgt    120 
               
               
                 gagggacaca tacatcctaa aagcaccaca gcagaggagg cccaggcagt gccaggagtc    180 
               
               
                 aaggttccca gaagacaaac cccctaggaa gacaggcgac ctgtgaggcc ctagagcacc    240 
               
               
                 accttaagag aagaagagct gtaagccggc ctttgtcaga gccatcatgg gggacaagga    300 
               
               
                 tatgcctact gctgggatgc cgagtcttct ccagagttcc tctgagagtc ctcagagttg    360 
               
               
                 tcctgagggg gaggactccc agtctcctct ccagattccc cagagttctc ctgagagcga    420 
               
               
                 cgacaccctg tatcctctcc agagtcctca gagtcgttct gagggggagg actcctcgga    480 
               
               
                 tcctctccag agacctcctg aggggaagga ctcccagtct cctctccaga ttccccagag    540 
               
               
                 ttctcctgag ggcgacgaca cccagtctcc tctccagaat tctcagagtt ctcctgaggg    600 
               
               
                 gaaggactcc ctgtctcctc tagagatttc tcagagccct cctgagggtg aggatgtcca    660 
               
               
                 gtctcctctg cagaatcctg cgagttcctt cttctcctct gctttattga gtattttcca    720 
               
               
                 gagttcccct gagagtattc aaagtccttt tgagggtttt ccccagtctg ttctccagat    780 
               
               
                 tcctgtgagc gccgcctcct cctccacttt agtgagtatt ttccagagtt cccctgagag    840 
               
               
                 tactcaaagt ccttttgagg gttttcccca gtctccactc cagattcctg tgagccgctc    900 
               
               
                 cttctcctcc actttattga gtattttcca gagttcccct gagagaagtc agagaacttc    960 
               
               
                 tgagggtttt gcacagtctc ctctccagat tcctgtgagc tcctcctcgt cctccacttt   1020 
               
               
                 actgagtctt ttccagagtt cccctgagag aactcagagt acttttgagg gttttcccca   1080 
               
               
                 gtctccactc cagattcctg tgagccgctc cttctcctcc actttattga gtattttcca   1140 
               
               
                 gagttcccct gagagaactc agagtacttt tgagggtttt gcccagtctc ctctccagat   1200 
               
               
                 tcctgtgagc ccctccttct cctccacttt agtgagtatt ttccagagtt cccctgagag   1260 
               
               
                 aactcagagt acttttgagg gttttcccca gtctcctctc cagattcctg tgagctcctc   1320 
               
               
                 cttctcctcc actttattga gtcttttcca gagttcccct gagagaactc agagtacttt   1380 
               
               
                 tgagggtttt ccccagtctc ctctccagat tcctggaagc ccctccttct cctccacttt   1440 
               
               
                 actgagtctt ttccagagtt cccctgagag aactcacagt acttttgagg gttttcccca   1500 
               
               
                 gtctcctctc cagattccta tgacctcctc cttctcctct actttattga gtattttaca   1560 
               
               
                 gagttctcct gagagtgctc aaagtgcttt tgagggtttt ccccagtctc ctctccagat   1620 
               
               
                 tcctgtgagc tcctctttct cctacacttt attgagtctt ttccagagtt cccctgagag   1680 
               
               
                 aactcacagt acttttgagg gttttcccca gtctcctctc cagattcctg tgagctcctc   1740 
               
               
                 ctcctcctcc tccactttat tgagtctttt ccagagttcc cctgagtgta ctcaaagtac   1800 
               
               
                 ttttgagggt tttccccagt ctcctctcca gattcctcag agtcctcctg aaggggagaa   1860 
               
               
                 tacccattct cctctccaga ttgttccaag tcttcctgag tgggaggact ccctgtctcc   1920 
               
               
                 tcactacttt cctcagagcc ctcctcaggg ggaggactcc ctatctcctc actactttcc   1980 
               
               
                 tcagagccct cctcaggggg aggactccct gtctcctcac tactttcctc agagccctca   2040 
               
               
                 gggggaggac tccctgtctc ctcactactt tcctcagagc cctcctcagg gggaggactc   2100 
               
               
                 catgtctcct ctctactttc ctcagagtcc tcttcagggg gaggaattcc agtcttctct   2160 
               
               
                 ccagagccct gtgagcatct gctcctcctc cactccatcc agtcttcccc agagtttccc   2220 
               
               
                 tgagagttct cagagtcctc ctgaggggcc tgtccagtct cctctccata gtcctcagag   2280 
               
               
                 ccctcctgag gggatgcact cccaatctcc tctccagagt cctgagagtg ctcctgaggg   2340 
               
               
                 ggaggattcc ctgtctcctc tccaaattcc tcagagtcct cttgagggag aggactccct   2400 
               
               
                 gtcttctctc cattttcctc agagtcctcc tgagtgggag gactccctct ctcctctcca   2460 
               
               
                 ctttcctcag tttcctcctc agggggagga cttccagtct tctctccaga gtcctgtgag   2520 
               
               
                 tatctgctcc tcctccactt ctttgagtct tccccagagt ttccctgaga gtcctcagag   2580 
               
               
                 tcctcctgag gggcctgctc agtctcctct ccagagacct gtcagctcct tcttctccta   2640 
               
               
                 cactttagcg agtcttctcc aaagttccca tgagagtcct cagagtcctc ctgaggggcc   2700 
               
               
                 tgcccagtct cctctccaga gtcctgtgag ctccttcccc tcctccactt catcgagtct   2760 
               
               
                 ttcccagagt tctcctgtga gctccttccc ctcctccact tcatcgagtc tttccaagag   2820 
               
               
                 ttcccctgag agtcctctcc agagtcctgt gatctccttc tcctcctcca cttcattgag   2880 
               
               
                 cccattcagt gaagagtcca gcagcccagt agatgaatat acaagttcct cagacacctt   2940 
               
               
                 gctagagagt gattccttga cagacagcga gtccttgata gagagcgagc ccttgttcac   3000 
               
               
                 ttatacactg gatgaaaagg tggacgagtt ggcgcggttt cttctcctca aatatcaagt   3060 
               
               
                 gaagcagcct atcacaaagg cagagatgct gacgaatgtc atcagcaggt acacgggcta   3120 
               
               
                 ctttcctgtg atcttcagga aagcccgtga gttcatagag atactttttg gcatttccct   3180 
               
               
                 gagagaagtg gaccctgatg actcctatgt ctttgtaaac acattagacc tcacctctga   3240 
               
               
                 ggggtgtctg agtgatgagc agggcatgtc ccagaaccgc ctcctgattc ttattctgag   3300 
               
               
                 tatcatcttc ataaagggca cctatgcctc tgaggaggtc atctgggatg tgctgagtgg   3360 
               
               
                 aataggggtg cgtgctggga gggagcactt tgcctttggg gagcccaggg agctcctcac   3420 
               
               
                 taaagtttgg gtgcaggaac attacctaga gtaccgggag gtgcccaact cttctcctcc   3480 
               
               
                 tcgttacgaa ttcctgtggg gtccaagagc tcattcagaa gtcattaaga ggaaagtagt   3540 
               
               
                 agagtttttg gccatgctaa agaataccgt ccctattacc tttccatcct cttacaagga   3600 
               
               
                 tgctttgaaa gatgtggaag agagagccca ggccataatt gacaccacag atgattcgac   3660 
               
               
                 tgccacagaa agtgcaagct ccagtgtcat gtcccccagc ttctcttctg agtgaagtct   3720 
               
               
                 agggcagatt cttccctctg agtttgaagg gggcagtcga gtttctacgt ggtggagggc   3780 
               
               
                 ctggttgagg ctggagagaa cacagtgcta tttgcatttc tgttccatat gggtagttat   3840 
               
               
                 ggggtttacc tgttttactt ttgggtattt ttcaaatgct tttcctatta ataacaggtt   3900 
               
               
                 taaatagctt cagaatccta gtttatgcac atgagtcgca catgtattgc tgtttttctg   3960 
               
               
                 gtttaagagt aacagtttga tattttgtaa aaacaaaaac acacccaaac acaccacatt   4020 
               
               
                 gggaaaacct tctgcctcat tttgtgatgt gtcacaggtt aatgtggtgt tactgtagga   4080 
               
               
                 attttcttga aactgtgaag gaactctgca gttaaatagt ggaataaagt aaaggattgt   4140 
               
               
                 taatgtttgc atttcctcag gtcctttagt ctgttgttct tgaaaactaa agatacatac   4200 
               
               
                 ctggtttgct tggcttacgt aagaaagtcg aagaaagtaa actgtaataa ataaaagtgt   4260 
               
               
                 cagtg                                                               4265 
               
               
                 &lt;210&gt; SEQ ID NO 2 
               
               
                 &lt;211&gt; LENGTH: 1142 
               
               
                 &lt;212&gt; TYPE: PRT 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 2 
               
               
                 Met Gly Asp Lys Asp Met Pro Thr Ala Gly Met Pro Ser Leu Leu Gln 
               
               
                                  5                  10                  15 
               
               
                 Ser Ser Ser Glu Ser Pro Gln Ser Cys Pro Glu Gly Glu Asp Ser Gln 
               
               
                             20                  25                  30 
               
               
                 Ser Pro Leu Gln Ile Pro Gln Ser Ser Pro Glu Ser Asp Asp Thr Leu 
               
               
                         35                  40                  45 
               
               
                 Tyr Pro Leu Gln Ser Pro Gln Ser Arg Ser Glu Gly Glu Asp Ser Ser 
               
               
                     50                  55                  60 
               
               
                 Asp Pro Leu Gln Arg Pro Pro Glu Gly Lys Asp Ser Gln Ser Pro Leu 
               
               
                 65                  70                  75                   80 
               
               
                 Gln Ile Pro Gln Ser Ser Pro Glu Gly Asp Asp Thr Gln Ser Pro Leu 
               
               
                                 85                  90                  95 
               
               
                 Gln Asn Ser Gln Ser Ser Pro Glu Gly Lys Asp Ser Leu Ser Pro Leu 
               
               
                             100                 105                 110 
               
               
                 Glu Ile Ser Gln Ser Pro Pro Glu Gly Glu Asp Val Gln Ser Pro Leu 
               
               
                         115                 120                 125 
               
               
                 Gln Asn Pro Ala Ser Ser Phe Phe Ser Ser Ala Leu Leu Ser Ile Phe 
               
               
                     130                 135                 140 
               
               
                 Gln Ser Ser Pro Glu Ser Ile Gln Ser Pro Phe Glu Gly Phe Pro Gln 
               
               
                 145                 150                 155                 160 
               
               
                 Ser Val Leu Gln Ile Pro Val Ser Ala Ala Ser Ser Ser Thr Leu Val 
               
               
                                 165                 170                 175 
               
               
                 Ser Ile Phe Gln Ser Ser Pro Glu Ser Thr Gln Ser Pro Phe Glu Gly 
               
               
                             180                 185                 190 
               
               
                 Phe Pro Gln Ser Pro Leu Gln Ile Pro Val Ser Arg Ser Phe Ser Ser 
               
               
                         195                 200                 205 
               
               
                 Thr Leu Leu Ser Ile Phe Gln Ser Ser Pro Glu Arg Ser Gln Arg Thr 
               
               
                     210                 215                 220 
               
               
                 Ser Glu Gly Phe Ala Gln Ser Pro Leu Gln Ile Pro Val Ser Ser Ser 
               
               
                 225                 230                 235                 240 
               
               
                 Ser Ser Ser Thr Leu Leu Ser Leu Phe Gln Ser Ser Pro Glu Arg Thr 
               
               
                                 245                 250                 255 
               
               
                 Gln Ser Thr Phe Glu Gly Phe Pro Gln Ser Pro Leu Gln Ile Pro Val 
               
               
                             260                 265                 270 
               
               
                 Ser Arg Ser Phe Ser Ser Thr Leu Leu Ser Ile Phe Gln Ser Ser Pro 
               
               
                         275                 280                 285 
               
               
                 Glu Arg Thr Gln Ser Thr Phe Glu Gly Phe Ala Gln Ser Pro Leu Gln 
               
               
                     290                 295                 300 
               
               
                 Ile Pro Val Ser Pro Ser Phe Ser Ser Thr Leu Val Ser Ile Phe Gln 
               
               
                 305                 310                 315                 320 
               
               
                 Ser Ser Pro Glu Arg Thr Gln Ser Thr Phe Glu Gly Phe Pro Gln Ser 
               
               
                                 325                 330                 335 
               
               
                 Pro Leu Gln Ile Pro Val Ser Ser Ser Phe Ser Ser Thr Leu Leu Ser 
               
               
                             340                 345                 350 
               
               
                 Leu Phe Gln Ser Ser Pro Glu Arg Thr Gln Ser Thr Phe Glu Gly Phe 
               
               
                         355                 360                 365 
               
               
                 Pro Gln Ser Pro Leu Gln Ile Pro Gly Ser Pro Ser Phe Ser Ser Thr 
               
               
                     370                 375                 380 
               
               
                 Leu Leu Ser Leu Phe Gln Ser Ser Pro Glu Arg Thr His Ser Thr Phe 
               
               
                 385                 390                 395                 400 
               
               
                 Glu Gly Phe Pro Gln Ser Pro Leu Gln Ile Pro Met Thr Ser Ser Phe 
               
               
                                 405                 410                 415 
               
               
                 Ser Ser Thr Leu Leu Ser Ile Leu Gln Ser Ser Pro Glu Ser Ala Gln 
               
               
                             420                 425                 430 
               
               
                 Ser Ala Phe Glu Gly Phe Pro Gln Ser Pro Leu Gln Ile Pro Val Ser 
               
               
                         435                 440                 445 
               
               
                 Ser Ser Phe Ser Tyr Thr Leu Leu Ser Leu Phe Gln Ser Ser Pro Glu 
               
               
                     450                 455                 460 
               
               
                 Arg Thr His Ser Thr Phe Glu Gly Phe Pro Gln Ser Pro Leu Gln Ile 
               
               
                 465                 470                 475                 480 
               
               
                 Pro Val Ser Ser Ser Ser Ser Ser Ser Thr Leu Leu Ser Leu Phe Gln 
               
               
                                 485                 490                 495 
               
               
                 Ser Ser Pro Glu Cys Thr Gln Ser Thr Phe Glu Gly Phe Pro Gln Ser 
               
               
                             500                 505                 510 
               
               
                 Pro Leu Gln Ile Pro Gln Ser Pro Pro Glu Gly Glu Asn Thr His Ser 
               
               
                         515                 520                 525 
               
               
                 Pro Leu Gln Ile Val Pro Ser Leu Pro Glu Trp Glu Asp Ser Leu Ser 
               
               
                     530                 535                 540 
               
               
                 Pro His Tyr Phe Pro Gln Ser Pro Pro Gln Gly Glu Asp Ser Leu Ser 
               
               
                 545                 550                 555                 560 
               
               
                 Pro His Tyr Phe Pro Gln Ser Pro Pro Gln Gly Glu Asp Ser Leu Ser 
               
               
                                 565                 570                 575 
               
               
                 Pro His Tyr Phe Pro Gln Ser Pro Gln Gly Glu Asp Ser Leu Ser Pro 
               
               
                             580                 585                 590 
               
               
                 His Tyr Phe Pro Gln Ser Pro Pro Gln Gly Glu Asp Ser Met Ser Pro 
               
               
                         595                 600                 605 
               
               
                 Leu Tyr Phe Pro Gln Ser Pro Leu Gln Gly Glu Glu Phe Gln Ser Ser 
               
               
                     610                 615                 620 
               
               
                 Leu Gln Ser Pro Val Ser Ile Cys Ser Ser Ser Thr Pro Ser Ser Leu 
               
               
                 625                 630                 635                 640 
               
               
                 Pro Gln Ser Phe Pro Glu Ser Ser Gln Ser Pro Pro Glu Gly Pro Val 
               
               
                                 645                 650                 655 
               
               
                 Gln Ser Pro Leu His Ser Pro Gln Ser Pro Pro Glu Gly Met His Ser 
               
               
                             660                 665                 670 
               
               
                 Gln Ser Pro Leu Gln Ser Pro Glu Ser Ala Pro Glu Gly Glu Asp Ser 
               
               
                         675                 680                 685 
               
               
                 Leu Ser Pro Leu Gln Ile Pro Gln Ser Pro Leu Glu Gly Glu Asp Ser 
               
               
                     690                 695                 700 
               
               
                 Leu Ser Ser Leu His Phe Pro Gln Ser Pro Pro Glu Trp Glu Asp Ser 
               
               
                 705                 710                 715                 720 
               
               
                 Leu Ser Pro Leu His Phe Pro Gln Phe Pro Pro Gln Gly Glu Asp Phe 
               
               
                                 725                 730                 735 
               
               
                 Gln Ser Ser Leu Gln Ser Pro Val Ser Ile Cys Ser Ser Ser Thr Ser 
               
               
                             740                 745                 750 
               
               
                 Leu Ser Leu Pro Gln Ser Phe Pro Glu Ser Pro Gln Ser Pro Pro Glu 
               
               
                         755                 760                 765 
               
               
                 Gly Pro Ala Gln Ser Pro Leu Gln Arg Pro Val Ser Ser Phe Phe Ser 
               
               
                     770                 775                 780 
               
               
                 Tyr Thr Leu Ala Ser Leu Leu Gln Ser Ser His Glu Ser Pro Gln Ser 
               
               
                 785                 790                 795                 800 
               
               
                 Pro Pro Glu Gly Pro Ala Gln Ser Pro Leu Gln Ser Pro Val Ser Ser 
               
               
                                 805                 810                 815 
               
               
                 Phe Pro Ser Ser Thr Ser Ser Ser Leu Ser Gln Ser Ser Pro Val Ser 
               
               
                             820                 825                 830 
               
               
                 Ser Phe Pro Ser Ser Thr Ser Ser Ser Leu Ser Lys Ser Ser Pro Glu 
               
               
                         835                 840                 845 
               
               
                 Ser Pro Leu Gln Ser Pro Val Ile Ser Phe Ser Ser Ser Thr Ser Leu 
               
               
                     850                 855                 860 
               
               
                 Ser Pro Phe Ser Glu Glu Ser Ser Ser Pro Val Asp Glu Tyr Thr Ser 
               
               
                 865                 870                 875                 880 
               
               
                 Ser Ser Asp Thr Leu Leu Glu Ser Asp Ser Leu Thr Asp Ser Glu Ser 
               
               
                                 885                 890                 895 
               
               
                 Leu Ile Glu Ser Glu Pro Leu Phe Thr Tyr Thr Leu Asp Glu Lys Val 
               
               
                             900                 905                 910 
               
               
                 Asp Glu Leu Ala Arg Phe Leu Leu Leu Lys Tyr Gln Val Lys Gln Pro 
               
               
                         915                 920                 925 
               
               
                 Ile Thr Lys Ala Glu Met Leu Thr Asn Val Ile Ser Arg Tyr Thr Gly 
               
               
                     930                 935                 940 
               
               
                 Tyr Phe Pro Val Ile Phe Arg Lys Ala Arg Glu Phe Ile Glu Ile Leu 
               
               
                 945                 950                 955                 960 
               
               
                 Phe Gly Ile Ser Leu Arg Glu Val Asp Pro Asp Asp Ser Tyr Val Phe 
               
               
                                 965                 970                 975 
               
               
                 Val Asn Thr Leu Asp Leu Thr Ser Glu Gly Cys Leu Ser Asp Glu Gln 
               
               
                             980                 985                 990 
               
               
                 Gly Met Ser Gln Asn Arg Leu Leu Ile Leu Ile Leu Ser Ile Ile Phe 
               
               
                         995                 1000               1005 
               
               
                 Ile Lys Gly Thr Tyr Ala Ser Glu Glu Val Ile Trp Asp Val Leu Ser 
               
               
                     1010                1015                1020 
               
               
                 Gly Ile Gly Val Arg Ala Gly Arg Glu His Phe Ala Phe Gly Glu Pro 
               
               
                 1025                1030                1035                1040 
               
               
                 Arg Glu Leu Leu Thr Lys Val Trp Val Gln Glu His Tyr Leu Glu Tyr 
               
               
                                 1045                1050                1055 
               
               
                 Arg Glu Val Pro Asn Ser Ser Pro Pro Arg Tyr Glu Phe Leu Trp Gly 
               
               
                             1060                1065                1070 
               
               
                 Pro Arg Ala His Ser Glu Val Ile Lys Arg Lys Val Val Glu Phe Leu 
               
               
                         1075                1080                1085 
               
               
                 Ala Met Leu Lys Asn Thr Val Pro Ile Thr Phe Pro Ser Ser Tyr Lys 
               
               
                     1090                1095                1100 
               
               
                 Asp Ala Leu Lys Asp Val Glu Glu Arg Ala Gln Ala Ile Ile Asp Thr 
               
               
                 1105                1110                1115                1120 
               
               
                 Thr Asp Asp Ser Thr Ala Thr Glu Ser Ala Ser Ser Ser Val Met Ser 
               
               
                                 1125                1130                1135 
               
               
                 Pro Ser Phe Ser Ser Glu 
               
               
                             1140 
               
               
                 &lt;210&gt; SEQ ID NO 3 
               
               
                 &lt;211&gt; LENGTH: 7 
               
               
                 &lt;212&gt; TYPE: PRT 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 3 
               
               
                 Pro Gln Ser Pro Leu Gln Ile 
               
               
                  1               5 
               
               
                 &lt;210&gt; SEQ ID NO 4 
               
               
                 &lt;211&gt; LENGTH: 4159 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: CDS 
               
               
                 &lt;222&gt; LOCATION: 3347,3502,3506,3520,3538,3549,3646,3940,3968,3974,4036, 
               
               
                       4056,4062,4080,4080,4115 
               
               
                 &lt;223&gt; OTHER INFORMATION: unsure of nucleotide 
               
               
                 &lt;400&gt; SEQUENCE: 4 
               
               
                 ggtggatgcg tttgggttgt agctaggctt tttcttttct ttctctttta aaacacatct     60 
               
               
                 agacaaggaa aaaacaagcc tcggatctga tttttcactc ctcgttcttg tgcttggttc    120 
               
               
                 ttactgtgtt tgtgtatttt aaaggcgaga agacgagggg aacaaaacca gctggatcca    180 
               
               
                 tccatcaccg tgggtggttt taatttttcg ttttttctcg ttattttttt ttaaacaacc    240 
               
               
                 actcttcaca atgaacaaac tgtatatcgg aaacctcagc gagaacgccg ccccctcgga    300 
               
               
                 cctagaaagt atcttcaagg acgccaagat cccggtgtcg ggacccttcc tggtgaagac    360 
               
               
                 tggctacgcg ttcgtggact gcccggacga gagctgggcc ctcaaggcca tcgaggcgct    420 
               
               
                 ttcaggtaaa atagaactgc acgggaaacc catagaagtt gagcactcgg tcccaaaaag    480 
               
               
                 gcaaaggatt cggaaacttc agatacgaaa tatcccgcct catttacagt gggaggtgct    540 
               
               
                 ggatagttta ctagtccagt atggagtggt ggagagctgt gagcaagtga acactgactc    600 
               
               
                 ggaaactgca gttgtaaatg taacctattc cagtaaggac caagctagac aagcactaga    660 
               
               
                 caaactgaat ggatttcagt tagagaattt caccttgaaa gtagcctata tccctgatga    720 
               
               
                 aatggccgcc cagcaaaacc ccttgcagca gccccgaggt cgccgggggc ttgggcagag    780 
               
               
                 gggctcctca aggcaggggt ctccaggatc cgtatccaag cagaaaccat gtgatttgcc    840 
               
               
                 tctgcgcctg ctggttccca cccaatttgt tggagccatc ataggaaaag aaggtgccac    900 
               
               
                 cattcggaac atcaccaaac agacccagtc taaaatcgat gtccaccgta aagaaaatgc    960 
               
               
                 gggggctgct gagaagtcga ttactatcct ctctactcct gaaggcacct ctgcggcttg   1020 
               
               
                 taagtctatt ctggagatta tgcataagga agctcaagat ataaaattca cagaagagat   1080 
               
               
                 ccccttgaag attttagctc ataataactt tgttggacgt cttattggta aagaaggaag   1140 
               
               
                 aaatcttaaa aaaattgagc aagacacaga cactaaaatc acgatatctc cattgcagga   1200 
               
               
                 attgacgctg tataatccag aacgcactat tacagttaaa ggcaatgttg agacatgtgc   1260 
               
               
                 caaagctgag gaggagatca tgaagaaaat cagggagtct tatgaaaatg atattgcttc   1320 
               
               
                 tatgaatctt caagcacatt taattcctgg attaaatctg aacgccttgg gtctgttccc   1380 
               
               
                 acccacttca gggatgccac ctcccacctc agggccccct tcagccatga ctcctcccta   1440 
               
               
                 cccgcagttt gagcaatcag aaacggagac tgttcatcag tttatcccag ctctatcagt   1500 
               
               
                 cggtgccatc atcggcaagc agggccagca catcaagcag ctttctcgct ttgctggagc   1560 
               
               
                 ttcaattaag attgctccag cggaagcacc agatgctaaa gtgaggatgg tgattatcac   1620 
               
               
                 tggaccacca gaggctcagt tcaaggctca gggaagaatt tatggaaaaa ttaaagaaga   1680 
               
               
                 aaactttgtt agtcctaaag aagaggtgaa acttgaagct catatcagag tgccatcctt   1740 
               
               
                 tgctgctggc agagttattg gaaaaggagg caaaacggtg aatgaacttc agaatttgtc   1800 
               
               
                 aagtgcagaa gttgttgtcc ctcgtgacca gacacctgat gagaatgacc aagtggttgt   1860 
               
               
                 caaaataact ggtcacttct atgcttgcca ggttgcccag agaaaaattc aggaaattct   1920 
               
               
                 gactcaggta aagcagcacc aacaacagaa ggctctgcaa agtggaccac ctcagtcaag   1980 
               
               
                 acggaagtaa aggctcagga aacagcccac cacagaggca gatgccaaac caaagacaga   2040 
               
               
                 ttgcttaacc aacagatggg cgctgacccc ctatccagaa tcacatgcac aagtttttac   2100 
               
               
                 ctagccagtt gtttctgagg accaggcaac ttttgaactc ctgtctctgt gagaatgtat   2160 
               
               
                 actttatgct ctctgaaatg tatgacaccc agctttaaaa caaacaaaca aacaaacaaa   2220 
               
               
                 aaaagggtgg gggagggagg gaaagagaag agctctgcac ttccctttgt tgtagtctca   2280 
               
               
                 cagtataaca gatattctaa ttcttcttaa tattccccca taatgccaga aattggctta   2340 
               
               
                 atgatgcttt cactaaattc atcaaataga ttgctcctaa atccaattgt taaaattgga   2400 
               
               
                 tcagaataat tatcacagga acttaaatgt taagccatta gcatagaaaa actgttctca   2460 
               
               
                 gttttatttt tacctaacac taacatgagt aacctaaggg aagtgctgaa tggtgttggc   2520 
               
               
                 aggggtatta aacgtgcatt tttactcaac tacctcaggt attcagtaat acaatgaaaa   2580 
               
               
                 gcaaaattgt tccttttttt tgaaaatttt atatacttta taatgataga agtccaaccg   2640 
               
               
                 ttttttaaaa aataaattta aaatttaaca gcaatcagct aacaggcaaa ttaagatttt   2700 
               
               
                 tacttctggc tggtgacagt aaagctggaa aattaatttc agggtttttt gaggcttttg   2760 
               
               
                 acacagttat tagttaaatc aaatgttcaa aaatacggag cagtgcctag tatctggaga   2820 
               
               
                 gcagcactac catttattct ttcatttata gttgggaaag tttttgacgg tactaacaaa   2880 
               
               
                 gtggtcgcag gagattttgg aacggctggt ttaaatggct tcaggagact tcagtttttt   2940 
               
               
                 gtttagctac atgattgaat gcataataaa tgctttgtgc ttctgactat caatacctaa   3000 
               
               
                 agaaagtgca tcagtgaaga gatgcaagac tttcaactga ctggcaaaaa gcaagcttta   3060 
               
               
                 gcttgtctta taggatgctt agtttgccac tacacttcag accaatggga cagtcataga   3120 
               
               
                 tggtgtgaca gtgtttaaac gcaacaaaag gctacatttc catggggcca gcactgtcat   3180 
               
               
                 gagcctcact aagctatttt gaagattttt aagcactgat aaattaaaaa aaaaaaaaaa   3240 
               
               
                 aaattagact ccaccttaag tagtaaagta taacaggatt tctgtatact gtgcaatcag   3300 
               
               
                 ttctttgaaa aaaaagtcaa aagatagaga atacaagaaa agttttnggg atataatttg   3360 
               
               
                 aatgactgtg aaaacatatg acctttgata acgaactcat ttgctcactc cttgacagca   3420 
               
               
                 aagcccagta cgtacaattg tgttgggtgt gggtggtctc caaggccacg ctgctctctg   3480 
               
               
                 aattgatttt ttgagttttg gnttgnaaga tgatcacagn catgttacac tgatcttnaa   3540 
               
               
                 ggacatatnt tataaccctt taaaaaaaaa atcccctgcc tcattcttat ttcgagatga   3600 
               
               
                 atttcgatac agactagatg tctttctgaa gatcaattag acattntgaa aatgatttaa   3660 
               
               
                 agtgttttcc ttaatgttct ctgaaaacaa gtttcttttg tagttttaac caaaaaagtg   3720 
               
               
                 ccctttttgt cactggtttc tcctagcatt catgattttt ttttcacaca atgaattaaa   3780 
               
               
                 attgctaaaa tcatggactg gctttctggt tggatttcag gtaagatgtg tttaaggcca   3840 
               
               
                 gagcttttct cagtatttga tttttttccc caatatttga ttttttaaaa atatacacat   3900 
               
               
                 aggagctgca tttaaaacct gctggtttaa attctgtcan atttcacttc tagcctttta   3960 
               
               
                 gtatggcnaa tcanaattta cttttactta agcatttgta atttggagta tctggtacta   4020 
               
               
                 gctaagaaat aattcnataa ttgagttttg tactcnccaa anatgggtca ttcctcatgn   4080 
               
               
                 ataatgtncc cccaatgcag cttcattttc caganacctt gacgcaggat aaattttttc   4140 
               
               
                 atcatttagg tccccaaaa                                                4159 
               
               
                 &lt;210&gt; SEQ ID NO 5 
               
               
                 &lt;211&gt; LENGTH: 1708 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: CDS 
               
               
                 &lt;222&gt; LOCATION: 1384,1464,1533,1571,1595 
               
               
                 &lt;223&gt; OTHER INFORMATION: unsure of nucleotide 
               
               
                 &lt;400&gt; SEQUENCE: 5 
               
               
                 agggacgctg ccgcaccgcc ccagtttacc ccggggagcc atcatgaagc tgaatggcca     60 
               
               
                 ccagttggag aaccatgccc tgaaggtctc ctacatcccc gatgagcaga tagcacaggg    120 
               
               
                 acctgagaat gggcgccgag ggggctttgg ctctcggggt cagccccgcc agggctcacc    180 
               
               
                 tgtggcagcg ggggccccag ccaagcagca gcaagtggac atcccccttc ggctcctggt    240 
               
               
                 gcccacccag tatgtgggtg ccattattgg caaggagggg gccaccatcc gcaacatcac    300 
               
               
                 aaaacagacc cagtccaaga tagacgtgca taggaaggag aacgcaggtg cagctgaaaa    360 
               
               
                 agccatcagt gtgcactcca cccctgaggg ctgctcctcc gcttgtaaga tgatcttgga    420 
               
               
                 gattatgcat aaagaggcta aggacaccaa aacggctgac gaggttcccc tgaagatcct    480 
               
               
                 ggcccataat aactttgtag ggcgtctcat tggcaaggaa ggacggaacc tgaagaaggt    540 
               
               
                 agagcaagat accgagacaa aaatcaccat ctcctcgttg caagacctta ccctttacaa    600 
               
               
                 ccctgagagg accatcactg tgaagggggc catcgagaat tgttgcaggg ccgagcagga    660 
               
               
                 aataatgaag aaagttcggg aggcctatga gaatgatgtg gctgccatga gctctcacct    720 
               
               
                 gatccctggc ctgaacctgg ctgctgtagg tcttttccca gcttcatcca gcgcagtccc    780 
               
               
                 gccgcctccc agcagcgtta ctggggctgc tccctatagc tcctttatgc aggctcccga    840 
               
               
                 gcaggagatg gtgcaggtgt ttatccccgc ccaggcagtg ggcgccatca tcggcaagaa    900 
               
               
                 ggggcagcac atcaaacagc tctcccggtt tgccagcgcc tccatcaaga ttgcaccacc    960 
               
               
                 cgaaacacct gactccaaag ttcgtatggt tatcatcact ggaccgccag aggcccaatt   1020 
               
               
                 caaggctcag ggaagaatct atggcaaact caaggaggag aacttctttg gtcccaagga   1080 
               
               
                 ggaagtgaag ctggagaccc acatacgtgt gccagcatca gcagctggcc gggtcattgg   1140 
               
               
                 caaaggtgga aaaacggtga acgagttgca gaatttgacg gcagctgagg tggtagtacc   1200 
               
               
                 aagagaccag acccctgatg agaacgacca ggtcatcgtg aaaatcatcg gacatttcta   1260 
               
               
                 tgccagtcag atggctcaac ggaagatccg agacatcctg gcccaggtta agcagcagca   1320 
               
               
                 tcagaaggga cagagtaacc aggcccaggc acggaggaag tgaccagccc ctccctgtcc   1380 
               
               
                 cttngagtcc aggacaacaa cgggcagaaa tcgagagtgt gctctccccg gcaggcctga   1440 
               
               
                 gaatgagtgg gaatccggga cacntgggcc gggctgtaga tcaggtttgc ccacttgatt   1500 
               
               
                 gagaaagatg ttccagtgag gaaccctgat ctntcagccc caaacaccca cccaattggc   1560 
               
               
                 ccaacactgt ntgcccctcg gggtgtcaga aattntagcg caaggcactt ttaaacgtgg   1620 
               
               
                 attgtttaaa gaagctctcc aggccccacc aagagggtgg atcacacctc agtgggaaga   1680 
               
               
                 aaaataaaat ttccttcagg ttttaaaa                                      1708 
               
               
                 &lt;210&gt; SEQ ID NO 6 
               
               
                 &lt;211&gt; LENGHT: 3412 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: CDS 
               
               
                 &lt;222&gt; LOCATION: 3372 
               
               
                 &lt;223&gt; OTHER INFORMATION: unsure of nucleotide 
               
               
                 &lt;400&gt; SEQUENCE: 6 
               
               
                 ggcagcggag gaggcgagga gcgccgggta ccgggccggg ggagccgcgg gctctcgggg     60 
               
               
                 aagagacgga tgatgaacaa gctttacatc gggaacctga gccccgccgt caccgccgac    120 
               
               
                 gacctccggc agctctttgg ggacaggaag ctgcccctgg cgggacaggt cctgctgaag    180 
               
               
                 tccggctacg ccttcgtgga ctaccccgac cagaactggg ccatccgcgc catcgagacc    240 
               
               
                 ctctcgggta aagtggaatt gcatgggaaa atcatggaag ttgattactc agtctctaaa    300 
               
               
                 aagctaagga gcaggaaaat tcagattcga aacatccctc ctcacctgca gtgggaggtg    360 
               
               
                 ttggatggac ttttggctca atatgggaca gtggagaatg tggaacaagt caacacagac    420 
               
               
                 acagaaaccg ccgttgtcaa cgtcacatat gcaacaagag aagaagcaaa aatagccatg    480 
               
               
                 gagaagctaa gcgggcatca gtttgagaac tactccttca agatttccta catcccggat    540 
               
               
                 gaagaggtga gctccccttc gccccctcag cgagcccagc gtggggacca ctcttcccgg    600 
               
               
                 gagcaaggcc acgcccctgg gggcacttct caggccagac agattgattt cccgctgcgg    660 
               
               
                 atcctggtcc ccacccagtt tgttggtgcc atcatcggaa aggagggctt gaccataaag    720 
               
               
                 aacatcacta agcagaccca gtcccgggta gatatccata gaaaagagaa ctctggagct    780 
               
               
                 gcagagaagc ctgtcaccat ccatgccacc ccagagggga cttctgaagc atgccgcatg    840 
               
               
                 attcttgaaa tcatgcagaa agaggcagat gagaccaaac tagccgaaga gattcctctg    900 
               
               
                 aaaatcttgg cacacaatgg cttggttgga agactgattg gaaaagaagg cagaaatttg    960 
               
               
                 aagaaaattg aacatgaaac agggaccaag ataacaatct catctttgca ggatttgagc   1020 
               
               
                 atatacaacc cggaaagaac catcactgtg aagggcacag ttgaggcctg tgccagtgct   1080 
               
               
                 gagatagaga ttatgaagaa gctgcgtgag gcctttgaaa atgatatgct ggctgttaac   1140 
               
               
                 caacaagcca atctgatccc agggttgaac ctcagcgcac ttggcatctt ttcaacagga   1200 
               
               
                 ctgtccgtgc tatctccacc agcagggccc cgcggagctc cccccgctgc cccctaccac   1260 
               
               
                 cccttcacta cccactccgg atacttctcc agcctgtacc cccatcacca gtttggcccg   1320 
               
               
                 ttcccgcatc atcactctta tccagagcag gagattgtga atctcttcat cccaacccag   1380 
               
               
                 gctgtgggcg ccatcatcgg gaagaagggg gcacacatca aacagctggc gagattcgcc   1440 
               
               
                 ggagcctcta tcaagattgc ccctgcggaa ggcccagacg tcagcgaaag gatggtcatc   1500 
               
               
                 atcaccgggc caccggaagc ccagttcaag gcccagggac ggatctttgg gaaactgaaa   1560 
               
               
                 gaggaaaact tctttaaccc caaagaagaa gtgaagctgg aagcgcatat cagagtgccc   1620 
               
               
                 tcttccacag ctggccgggt gattggcaaa ggtggcaaga ccgtgaacga actgcagaac   1680 
               
               
                 ttaaccagtg cagaagtcat cgtgcctcgt gaccaaacgc cagatgaaaa tgaggaagtg   1740 
               
               
                 atcgtcagaa ttatcgggca cttctttgct agccagactg cacagcgcaa gatcagggaa   1800 
               
               
                 attgtacaac aggtgaagca gcaggagcag aaataccctc agggagtcgc ctcacagcgc   1860 
               
               
                 agcaagtgag gctcccacag gcaccagcaa aacaacggat gaatgtagcc cttccaacac   1920 
               
               
                 ctgacagaat gagaccaaac gcagccagcc agatcgggag caaaccaaag accatctgag   1980 
               
               
                 gaatgagaag tctgcggagg cggccaggga ctctgccgag gccctgagaa ccccaggggc   2040 
               
               
                 cgaggagggg cggggaaggt cagccaggtt tgccagaacc accgagcccc gcctcccgcc   2100 
               
               
                 ccccagggct tctgcaggct tcagccatcc acttcaccat ccactcggat ctctcctgaa   2160 
               
               
                 ctcccacgac gctatccctt ttagttgaac taacataggt gaacgtgttc aaagccaagc   2220 
               
               
                 aaaatgcaca ccctttttct gtggcaaatc gtctctgtac atgtgtgtac atattagaaa   2280 
               
               
                 gggaagatgt taagatatgt ggcctgtggg ttacacaggg tgcctgcagc ggtaatatat   2340 
               
               
                 tttagaaata atatatcaaa taactcaact aactccaatt tttaatcaat tattaatttt   2400 
               
               
                 tttttctttt taaagagaaa gcaggctttt ctagacttta aagaataaag tctttgggag   2460 
               
               
                 gtctcacggt gtagagagga gctttgaggc cacccgcaca aaattcaccc agagggaaat   2520 
               
               
                 ctcgtcggaa ggacactcac ggcagttctg gatcacctgt gtatgtcaac agaagggata   2580 
               
               
                 ccgtctcctt gaagaggaaa ctctgtcact cctcatgcct gtctagctca tacacccatt   2640 
               
               
                 tctctttgct tcacaggttt taaactggtt ttttgcatac tgctatataa ttctctgtct   2700 
               
               
                 ctctctgttt atctctcccc tccctcccct ccccttcttc tccatctcca ttcttttgaa   2760 
               
               
                 tttcctcatc cctccatctc aatcccgtat ctacgcaccc cccccccccc aggcaaagca   2820 
               
               
                 gtgctctgag tatcacatca cacaaaagga acaaaagcga aacacacaaa ccagcctcaa   2880 
               
               
                 cttacacttg gttactcaaa agaacaagag tcaatggtac ttgtcctagc gttttggaag   2940 
               
               
                 aggaaaacag gaacccacca aaccaaccaa tcaaccaaac aaagaaaaaa ttccacaatg   3000 
               
               
                 aaagaatgta ttttgtcttt ttgcattttg gtgtataagc catcaatatt cagcaaaatg   3060 
               
               
                 attcctttct ttaaaaaaaa aaatgtggag gaaagtagaa atttaccaag gttgttggcc   3120 
               
               
                 cagggcgtta aattcacaga tttttttaac gagaaaaaca cacagaagaa gctacctcag   3180 
               
               
                 gtgtttttac ctcagcacct tgctcttgtg tttcccttag agattttgta aagctgatag   3240 
               
               
                 ttggagcatt tttttatttt tttaataaaa atgagttgga aaaaaaataa gatatcaact   3300 
               
               
                 gccagcctgg agaaggtgac agtccaagtg tgcaacagct gttctgaatt gtcttccgct   3360 
               
               
                 agccaagaac cnatatggcc ttcttttgga caaaccttga aaatgtttat tt           3412 
               
               
                 &lt;210&gt; SEQ ID NO 7 
               
               
                 &lt;211&gt; LENGTH: 1946 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: CDS 
               
               
                 &lt;222&gt; LOCATION: 1622,1702,1771,1809,1833 
               
               
                 &lt;223&gt; OTHER INFORMATION: unsure of nucleotide 
               
               
                 &lt;400&gt; SEQUENCE: 7 
               
               
                 gctgtagcgg aggggctggg gggctgctct gtccccttcc ttgcgcgctg cggcctcagc     60 
               
               
                 ccacccagag gccggggtgg gagggcgagt gctcagcttc ccgggttagg agccggaaaa    120 
               
               
                 ttcaaatccg aaatattcca ccccagctcc gatgggaagt actggacagc ctgctggctc    180 
               
               
                 agtatggtac agtagagaac tgtgagcaag tgaacaccga gagtgagacg gcagtggtga    240 
               
               
                 atgtcaccta ttccaaccgg gagcagacca ggcaagccat catgaagctg aatggccacc    300 
               
               
                 agttggagaa ccatgccctg aaggtctcct acatccccga tgagcagata gcacagggac    360 
               
               
                 ctgagaatgg gcgccgaggg ggctttggct ctcggggtca gccccgccag ggctcacctg    420 
               
               
                 tggcagcggg ggccccagcc aagcagcagc aagtggacat cccccttcgg ctcctggtgc    480 
               
               
                 ccacccagta tgtgggtgcc attattggca aggagggggc caccatccgc aacatcacaa    540 
               
               
                 aacagaccca gtccaagata gacgtgcata ggaaggagaa cgcaggtgca gctgaaaaag    600 
               
               
                 ccatcagtgt gcactccacc cctgagggct gctcctccgc ttgtaagatg atcttggaga    660 
               
               
                 ttatgcataa agaggctaag gacaccaaaa cggctgacga ggttcccctg aagatcctgg    720 
               
               
                 cccataataa ctttgtaggg cgtctcattg gcaaggaagg acggaacctg aagaaggtag    780 
               
               
                 agcaagatac cgagacaaaa atcaccatct cctcgttgca agaccttacc ctttacaacc    840 
               
               
                 ctgagaggac catcactgtg aagggggcca tcgagaattg ttgcagggcc gagcaggaaa    900 
               
               
                 taatgaagaa agttcgggag gcctatgaga atgatgtggc tgccatgagc tctcacctga    960 
               
               
                 tccctggcct gaacctggct gctgtaggtc ttttcccagc ttcatccagc gcagtcccgc   1020 
               
               
                 cgcctcccag cagcgttact ggggctgctc cctatagctc ctttatgcag gctcccgagc   1080 
               
               
                 aggagatggt gcaggtgttt atccccgccc aggcagtggg cgccatcatc ggcaagaagg   1140 
               
               
                 ggcagcacat caaacagctc tcccggtttg ccagcgcctc catcaagatt gcaccacccg   1200 
               
               
                 aaacacctga ctccaaagtt cgtatggtta tcatcactgg accgccagag gcccaattca   1260 
               
               
                 aggctcaggg aagaatctat ggcaaactca aggaggagaa cttctttggt cccaaggagg   1320 
               
               
                 aagtgaagct ggagacccac atacgtgtgc cagcatcagc agctggccgg gtcattggca   1380 
               
               
                 aaggtggaaa aacggtgaac gagttgcaga atttgacggc agctgaggtg gtagtaccaa   1440 
               
               
                 gagaccagac ccctgatgag aacgaccagg tcatcgtgaa aatcatcgga catttctatg   1500 
               
               
                 ccagtcagat ggctcaacgg aagatccgag acatcctggc ccaggttaag cagcagcatc   1560 
               
               
                 agaagggaca gagtaaccag gcccaggcac ggaggaagtg accagcccct ccctgtccct   1620 
               
               
                 tngagtccag gacaacaacg ggcagaaatc gagagtgtgc tctccccggc aggcctgaga   1680 
               
               
                 atgagtggga atccgggaca cntgggccgg gctgtagatc aggtttgccc acttgattga   1740 
               
               
                 gaaagatgtt ccagtgagga accctgatct ntcagcccca aacacccacc caattggccc   1800 
               
               
                 aacactgtnt gcccctcggg gtgtcagaaa ttntagcgca aggcactttt aaacgtggat   1860 
               
               
                 tgtttaaaga agctctccag gccccaccaa gagggtggat cacacctcag tgggaagaaa   1920 
               
               
                 aataaaattt ccttcaggtt ttaaaa                                        1946 
               
               
                 &lt;210&gt; SEQ ID NO 8 
               
               
                 &lt;211&gt; LENGTH: 3283 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: CDS 
               
               
                 &lt;222&gt; LOCATION: 3243 
               
               
                 &lt;223&gt; OTHER INFORMATION: unsure of nucleotide 
               
               
                 &lt;400&gt; SEQUENCE: 8 
               
               
                 ggcagcggag gaggcgagga gcgccgggta ccgggccggg ggagccgcgg gctctcgggg     60 
               
               
                 aagagacgga tgatgaacaa gctttacatc gggaacctga gccccgccgt caccgccgac    120 
               
               
                 gacctccggc agctctttgg ggacaggaag ctgcccctgg cgggacaggt cctgctgaag    180 
               
               
                 tccggctacg ccttcgtgga ctaccccgac cagaactggg ccatccgcgc catcgagacc    240 
               
               
                 ctctcgggta aagtggaatt gcatgggaaa atcatggaag ttgattactc agtctctaaa    300 
               
               
                 aagctaagga gcaggaaaat tcagattcga aacatccctc ctcacctgca gtgggaggtg    360 
               
               
                 ttggatggac ttttggctca atatgggaca gtggagaatg tggaacaagt caacacagac    420 
               
               
                 acagaaaccg ccgttgtcaa cgtcacatat gcaacaagag aagaagcaaa aatagccatg    480 
               
               
                 gagaagctaa gcgggcatca gtttgagaac tactccttca agatttccta catcccggat    540 
               
               
                 gaagaggtga gctccccttc gccccctcag cgagcccagc gtggggacca ctcttcccgg    600 
               
               
                 gagcaaggcc acgcccctgg gggcacttct caggccagac agattgattt cccgctgcgg    660 
               
               
                 atcctggtcc ccacccagtt tgttggtgcc atcatcggaa aggagggctt gaccataaag    720 
               
               
                 aacatcacta agcagaccca gtcccgggta gatatccata gaaaagagaa ctctggagct    780 
               
               
                 gcagagaagc ctgtcaccat ccatgccacc ccagagggga cttctgaagc atgccgcatg    840 
               
               
                 attcttgaaa tcatgcagaa agaggcagat gagaccaaac tagccgaaga gattcctctg    900 
               
               
                 aaaatcttgg cacacaatgg cttggttgga agactgattg gaaaagaagg cagaaatttg    960 
               
               
                 aagaaaattg aacatgaaac agggaccaag ataacaatct catctttgca ggatttgagc   1020 
               
               
                 atatacaacc cggaaagaac catcactgtg aagggcacag ttgaggcctg tgccagtgct   1080 
               
               
                 gagatagaga ttatgaagaa gctgcgtgag gcctttgaaa atgatatgct ggctgttaac   1140 
               
               
                 acccactccg gatacttctc cagcctgtac ccccatcacc agtttggccc gttcccgcat   1200 
               
               
                 catcactctt atccagagca ggagattgtg aatctcttca tcccaaccca ggctgtgggc   1260 
               
               
                 gccatcatcg ggaagaaggg ggcacacatc aaacagctgg cgagattcgc cggagcctct   1320 
               
               
                 atcaagattg cccctgcgga aggcccagac gtcagcgaaa ggatggtcat catcaccggg   1380 
               
               
                 ccaccggaag cccagttcaa ggcccaggga cggatctttg ggaaactgaa agaggaaaac   1440 
               
               
                 ttctttaacc ccaaagaaga agtgaagctg gaagcgcata tcagagtgcc ctcttccaca   1500 
               
               
                 gctggccggg tgattggcaa aggtggcaag accgtgaacg aactgcagaa cttaaccagt   1560 
               
               
                 gcagaagtca tcgtgcctcg tgaccaaacg ccagatgaaa atgaggaagt gatcgtcaga   1620 
               
               
                 attatcgggc acttctttgc tagccagact gcacagcgca agatcaggga aattgtacaa   1680 
               
               
                 caggtgaagc agcaggagca gaaataccct cagggagtcg cctcacagcg cagcaagtga   1740 
               
               
                 ggctcccaca ggcaccagca aaacaacgga tgaatgtagc ccttccaaca cctgacagaa   1800 
               
               
                 tgagaccaaa cgcagccagc cagatcggga gcaaaccaaa gaccatctga ggaatgagaa   1860 
               
               
                 gtctgcggag gcggccaggg actctgccga ggccctgaga accccagggg ccgaggaggg   1920 
               
               
                 gcggggaagg tcagccaggt ttgccagaac caccgagccc cgcctcccgc cccccagggc   1980 
               
               
                 ttctgcaggc ttcagccatc cacttcacca tccactcgga tctctcctga actcccacga   2040 
               
               
                 cgctatccct tttagttgaa ctaacatagg tgaacgtgtt caaagccaag caaaatgcac   2100 
               
               
                 accctttttc tgtggcaaat cgtctctgta catgtgtgta catattagaa agggaagatg   2160 
               
               
                 ttaagatatg tggcctgtgg gttacacagg gtgcctgcag cggtaatata ttttagaaat   2220 
               
               
                 aatatatcaa ataactcaac taactccaat ttttaatcaa ttattaattt ttttttcttt   2280 
               
               
                 ttaaagagaa agcaggcttt tctagacttt aaagaataaa gtctttggga ggtctcacgg   2340 
               
               
                 tgtagagagg agctttgagg ccacccgcac aaaattcacc cagagggaaa tctcgtcgga   2400 
               
               
                 aggacactca cggcagttct ggatcacctg tgtatgtcaa cagaagggat accgtctcct   2460 
               
               
                 tgaagaggaa actctgtcac tcctcatgcc tgtctagctc atacacccat ttctctttgc   2520 
               
               
                 ttcacaggtt ttaaactggt tttttgcata ctgctatata attctctgtc tctctctgtt   2580 
               
               
                 tatctctccc ctccctcccc tccccttctt ctccatctcc attcttttga atttcctcat   2640 
               
               
                 ccctccatct caatcccgta tctacgcacc cccccccccc caggcaaagc agtgctctga   2700 
               
               
                 gtatcacatc acacaaaagg aacaaaagcg aaacacacaa accagcctca acttacactt   2760 
               
               
                 ggttactcaa aagaacaaga gtcaatggta cttgtcctag cgttttggaa gaggaaaaca   2820 
               
               
                 ggaacccacc aaaccaacca atcaaccaaa caaagaaaaa attccacaat gaaagaatgt   2880 
               
               
                 attttgtctt tttgcatttt ggtgtataag ccatcaatat tcagcaaaat gattcctttc   2940 
               
               
                 tttaaaaaaa aaaatgtgga ggaaagtaga aatttaccaa ggttgttggc ccagggcgtt   3000 
               
               
                 aaattcacag atttttttaa cgagaaaaac acacagaaga agctacctca ggtgttttta   3060 
               
               
                 cctcagcacc ttgctcttgt gtttccctta gagattttgt aaagctgata gttggagcat   3120 
               
               
                 ttttttattt ttttaataaa aatgagttgg aaaaaaaata agatatcaac tgccagcctg   3180 
               
               
                 gagaaggtga cagtccaagt gtgcaacagc tgttctgaat tgtcttccgc tagccaagaa   3240 
               
               
                 ccnatatggc cttcttttgg acaaaccttg aaaatgttta ttt                     3283 
               
               
                 &lt;210&gt; SEQ ID NO 9 
               
               
                 &lt;211&gt; LENGTH: 21 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 9 
               
               
                 gaaagtatct tcaaggacgc c                                               21 
               
               
                 &lt;210&gt; SEQ ID NO 10 
               
               
                 &lt;211&gt; LENGTH: 22 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 10 
               
               
                 ctgcaagggg ttttgctggg cg                                              22 
               
               
                 &lt;210&gt; SEQ ID NO 11 
               
               
                 &lt;211&gt; LENGTH: 22 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 11 
               
               
                 tccttgcgcg ctgcggcctc ag                                              22 
               
               
                 &lt;210&gt; SEQ ID NO 12 
               
               
                 &lt;211&gt; LENGTH: 23 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 12 
               
               
                 ccaactggtg gccattcagc ttc                                             23 
               
               
                 &lt;210&gt; SEQ ID NO 13 
               
               
                 &lt;211&gt; LENGTH: 22 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 13 
               
               
                 gctctttggg gacaggaagg tc                                              22 
               
               
                 &lt;210&gt; SEQ ID NO 14 
               
               
                 &lt;211&gt; LENGTH: 22 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: Homo sapiens 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;400&gt; SEQUENCE: 14 
               
               
                 gacgttgaca acggcggttt ct                                              22 
               
               
                 &lt;210&gt; SEQ ID NO 15 
               
               
                 &lt;211&gt; LENGTH: 12 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...12 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 15 
               
               
                 aatttgcggt ga                                                         12 
               
               
                 &lt;210&gt; SEQ ID NO 16 
               
               
                 &lt;211&gt; LENGTH: 12 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...12 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 16 
               
               
                 aatttgttca tg                                                         12 
               
               
                 &lt;210&gt; SEQ ID NO 17 
               
               
                 &lt;211&gt; LENGTH: 12 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...12 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 17 
               
               
                 aattttccct cg                                                         12 
               
               
                 &lt;210&gt; SEQ ID NO 18 
               
               
                 &lt;211&gt; LENGTH: 24 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...24 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 18 
               
               
                 agcactctcc agcctctcac catg                                            24 
               
               
                 &lt;210&gt; SEQ ID NO 19 
               
               
                 &lt;211&gt; LENGTH: 23 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...23 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 19 
               
               
                 accgacgtcg actatcatgc atg                                             23 
               
               
                 &lt;210&gt; SEQ ID NO 20 
               
               
                 &lt;211&gt; LENGTH: 24 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...24 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 20 
               
               
                 aggcaactgt gctatccgag catg                                            24 
               
               
                 &lt;210&gt; SEQ ID NO 21 
               
               
                 &lt;211&gt; LENGTH: 8 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...8 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 21 
               
               
                 gtgagagg                                                               8 
               
               
                 &lt;210&gt; SEQ ID NO 22 
               
               
                 &lt;211&gt; LENGTH: 8 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...8 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 22 
               
               
                 catggatg                                                               8 
               
               
                 &lt;210&gt; SEQ ID NO 23 
               
               
                 &lt;211&gt; LENGTH: 8 
               
               
                 &lt;212&gt; TYPE: DNA 
               
               
                 &lt;213&gt; ORGANISM: artificial sequence 
               
               
                 &lt;220&gt; FEATURE: 
               
               
                 &lt;221&gt; NAME/KEY: adaptor 
               
               
                 &lt;222&gt; LOCATION: 1...8 
               
               
                 &lt;223&gt; OTHER INFORMATION: synthetic adaptor sequence 
               
               
                 &lt;400&gt; SEQUENCE: 23 
               
               
                 ctcggata                                                               8