GENSCAN 1.0 Date run: 4-Nov-116 Time: 10:37:39 Sequence gi568815593r:176521213_176729654 : 208442 bp : 54.05% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.10 Intr - 97 74 24 1 0 89 101 14 0.076 1.50 1.09 Intr - 8175 8076 100 2 1 91 87 114 0.968 12.21 1.08 Intr - 8432 8311 122 2 2 100 68 222 0.998 21.20 1.07 Intr - 8606 8519 88 1 1 112 16 159 0.931 11.57 1.06 Intr - 8994 8870 125 0 2 104 95 136 0.999 15.79 1.05 Intr - 9531 9370 162 0 0 90 89 201 0.992 21.09 1.04 Intr - 9809 9636 174 2 0 91 101 183 0.960 20.55 1.03 Intr - 10418 10251 168 2 0 120 117 84 0.999 15.16 1.02 Intr - 10981 10792 190 0 1 66 96 128 0.928 11.51 1.01 Init - 11260 11154 107 1 2 46 97 63 0.787 0.72 1.00 Prom - 12667 12628 40 -9.26 2.00 Prom + 15077 15116 40 0.19 2.01 Init + 16696 16752 57 0 0 99 68 6 0.095 0.96 2.02 Intr + 21270 22287 1018 2 1 111 11 434 0.307 28.94 2.03 Intr + 24386 24479 94 0 1 53 111 41 0.447 2.42 2.04 Intr + 32556 32730 175 0 1 59 11 121 0.002 1.96 2.05 Intr + 44126 44192 67 1 1 80 82 39 0.102 1.47 2.06 Intr + 44460 44531 72 1 0 60 92 76 0.790 5.07 2.07 Intr + 47466 47605 140 1 2 104 88 213 0.996 23.59 2.08 Intr + 47748 47798 51 2 0 90 109 105 0.989 12.39 2.09 Intr + 50001 50090 90 2 0 86 46 128 0.990 9.09 2.10 Intr + 52871 52960 90 1 0 48 113 166 0.959 15.79 2.11 Intr + 53872 53997 126 0 0 89 56 216 0.999 19.88 2.12 Intr + 54068 54214 147 1 0 97 50 161 0.883 14.14 2.13 Intr + 54294 54369 76 2 1 10 39 163 0.927 3.18 2.14 Intr + 54512 54627 116 0 2 87 101 242 0.987 26.07 2.15 Intr + 54740 54991 252 1 0 114 33 449 0.931 40.16 2.16 Intr + 56187 56342 156 2 0 44 94 283 0.992 25.22 2.17 Intr + 56425 56586 162 0 0 118 94 228 0.825 27.09 2.18 Intr + 56822 56883 62 1 2 98 82 33 0.867 1.72 2.19 Intr + 57153 57396 244 0 1 44 64 525 0.296 43.73 2.20 Intr + 60131 60370 240 1 0 85 94 415 0.277 40.08 2.21 Intr + 62978 63047 70 1 1 66 91 101 0.974 7.45 2.22 Intr + 63198 63803 606 1 0 99 91 941 0.985 88.54 2.23 Intr + 64742 64813 72 0 0 53 99 92 0.990 6.67 2.24 Intr + 65581 65630 50 2 2 101 114 67 0.994 9.49 2.25 Intr + 67819 67970 152 0 2 80 -43 191 0.901 4.67 2.26 Intr + 68118 68226 109 0 1 126 82 38 0.992 7.79 2.27 Intr + 68250 68404 155 2 2 54 35 208 0.555 11.48 2.28 Intr + 68866 68934 69 1 0 118 109 29 0.954 6.79 2.29 Intr + 69041 69118 78 2 0 113 56 80 0.973 6.46 2.30 Intr + 69144 69273 130 0 1 36 105 108 0.675 8.50 2.31 Intr + 69351 69475 125 2 2 80 64 143 0.949 10.99 2.32 Term + 69998 70115 118 2 1 114 53 124 0.935 9.81 2.33 PlyA + 70217 70222 6 -3.64 3.07 PlyA - 70238 70233 6 -10.49 3.06 Term - 71448 70298 1151 1 2 50 38 1563 0.981 140.12 3.05 Intr - 71971 71889 83 0 2 88 85 32 0.699 2.68 3.04 Intr - 78316 75630 2687 1 2 123 -5 1754 0.069 158.04 3.03 Intr - 87376 87257 120 1 0 34 99 50 0.596 1.89 3.02 Intr - 87764 87638 127 1 1 11 53 104 0.597 0.39 3.01 Init - 88965 88787 179 0 2 42 107 160 0.911 10.01 3.00 Prom - 95554 95515 40 -4.01 4.10 PlyA - 96144 96139 6 -0.45 4.09 Term - 98059 97916 144 1 0 57 37 82 0.438 -1.78 4.08 Intr - 100091 100002 90 2 0 110 94 126 0.938 16.09 4.07 Intr - 100728 100651 78 0 0 86 39 51 0.497 0.24 4.06 Intr - 105304 105186 119 2 2 80 121 75 0.988 10.69 4.05 Intr - 105549 105508 42 1 0 124 79 38 0.806 5.20 4.04 Intr - 106336 106168 169 1 1 100 -15 109 0.357 1.83 4.03 Intr - 107582 107416 167 0 2 41 56 81 0.568 0.39 4.02 Intr - 108451 108322 130 1 1 87 72 253 0.777 24.37 4.01 Init - 108958 108869 90 1 0 55 34 103 0.277 0.74 4.00 Prom - 109584 109545 40 -3.61 5.00 Prom + 114045 114084 40 -6.30 5.01 Init + 114507 114560 54 2 0 97 75 49 0.594 4.63 5.02 Intr + 115188 115242 55 2 1 117 81 38 0.627 5.04 5.03 Term + 115678 115889 212 2 2 73 46 118 0.570 3.88 5.04 PlyA + 116230 116235 6 1.05 6.00 Prom + 120129 120168 40 -5.71 6.01 Init + 121625 121660 36 1 0 104 80 22 0.655 1.29 6.02 Intr + 121870 122054 185 0 2 84 96 165 0.999 16.00 6.03 Intr + 122427 122522 96 0 0 129 69 157 0.998 17.52 6.04 Intr + 123164 123227 64 2 1 14 121 110 0.991 6.11 6.05 Intr + 123918 124031 114 2 0 95 113 138 0.999 18.15 6.06 Intr + 124165 124304 140 0 2 64 68 175 0.999 12.87 6.07 Intr + 124654 124762 109 1 1 104 34 117 0.011 8.69 6.08 Intr + 126332 126490 159 1 0 -9 80 155 0.013 5.70 6.09 Intr + 130404 130454 51 2 0 126 116 18 0.907 7.99 6.10 Intr + 130542 130688 147 2 0 76 59 188 0.970 15.64 6.11 Intr + 131531 131701 171 1 0 47 83 399 0.994 35.95 6.12 Intr + 133683 133808 126 2 0 102 101 108 0.967 14.88 6.13 Intr + 134866 134913 48 0 0 101 85 96 0.943 9.96 6.14 Intr + 135488 135604 117 1 0 88 80 211 0.999 21.47 6.15 Term + 135683 135748 66 1 0 139 54 104 0.648 10.33 6.16 PlyA + 137820 137825 6 1.05 7.07 PlyA - 137875 137870 6 -3.44 7.06 Term - 140491 140354 138 1 0 50 49 112 0.601 1.77 7.05 Intr - 143304 143131 174 0 0 72 94 96 0.453 9.25 7.04 Intr - 143784 143695 90 0 0 58 47 67 0.206 0.29 7.03 Intr - 149699 149463 237 2 0 97 34 103 0.064 4.14 7.02 Intr - 151026 150981 46 2 1 112 42 21 0.046 -1.20 7.01 Init - 153614 153535 80 2 2 82 21 113 0.789 4.49 7.00 Prom - 166856 166817 40 -0.31 8.06 PlyA - 169180 169175 6 1.05 8.05 Term - 173418 173014 405 0 0 27 46 181 0.600 3.36 8.04 Intr - 176137 176113 25 0 1 91 69 25 0.470 -0.59 8.03 Intr - 177341 177227 115 0 1 92 75 89 0.769 8.01 8.02 Intr - 183564 183466 99 1 0 110 64 17 0.177 2.08 8.01 Init - 185776 185737 40 1 1 84 74 34 0.452 1.91 8.00 Prom - 185869 185830 40 -3.61 9.07 PlyA - 188082 188077 6 1.05 9.06 Term - 189623 189378 246 2 0 35 48 133 0.327 0.13 9.05 Intr - 190163 190098 66 2 0 94 89 -1 0.316 0.19 9.04 Intr - 191426 191255 172 1 1 128 92 28 0.572 7.66 9.03 Intr - 192421 192223 199 2 1 73 31 59 0.111 -2.37 9.02 Intr - 200229 200141 89 2 2 49 101 72 0.403 4.71 9.01 Init - 204617 204562 56 2 2 87 91 58 0.516 4.70 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 124654 124768 115 1 1 104 55 140 0.986 10.65 S.002 Init + 126404 126490 87 1 0 94 80 129 0.973 13.30 S.003 Init - 178283 178235 49 2 1 68 86 44 0.902 3.50 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_1|420_aa MRPWALAVTRWPPSAPVGQRRFSAGPGSTPGQLWGSPGLEGPLASPPARDERLPSQQPPS RPPHLPVEERRASAPAGGSPRMLHPATQQSPFMVDLHEQVHQGPVPLSYTVTTVTTQGFP LPTGQHIPGCSAQQLPACSVMFSGQHYPLCCLPPPLIQACTMQQLPVPYQAYPHLISSDH YILHPPPPAPPPQPTHMAPLGQFVSLQTQHPRMPLQRLDNDVDLRGDQPSLGSFTYSTSA PGPALSPSVPLHYLPHDPLHQELSFGVPYSHMMPRRLSTQRYRLQQPLPPPPPPPPPPPY YPSFLPYFLSMLPMSPTAMGPTISLDLDVDDVEMENYEALLNLAERLGDAKPRGLTKADI EQLPSYRFNPDSHQSEQTLCVVCFSDFEARQLLRVLPCNHEFHTKCVDKWLKRKVQALKA >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_1|1260_bp atgcgaccatgggctctggcagtgactaggtggccaccctccgcccccgtgggccagcgg cgattctctgcgggacctggcagcaccccgggccagctctggggaagccctggcctcgag ggccccctggccagcccgcctgcccgggatgagcgcttaccctcccagcagccgccgtcc cgacctccacacctccccgtagaggagcgccgagcctcggctcctgccggcgggagcccc cgaatgctgcacccagccacccagcagagcccgttcatggttgatctccacgagcaggtg caccagggacctgtccctctgtcctacacggtcaccacagtgacgacccaaggcttcccc ttgcctacaggccagcacatccctggctgcagtgcccagcagctcccagcatgctccgtg atgttcagtgggcagcattaccccctctgctgcctcccgcccccgcttatccaggcgtgc accatgcagcagctgcctgtgccctatcaggcctacccccacctcatctccagtgaccac tacatcctgcaccccccaccaccggccccacccccccagcccacccacatggcgcccctg gggcagtttgtgtctctgcagacccagcaccctcggatgcccctccagcggctcgacaac gacgtggacctgcgtggggaccagccctccctgggcagcttcacctactccacctctgcg cctggcccagccctttccccgtcggtgcccctgcactacctgccccacgatccgctgcac caggagctgtcctttggtgtgccatattctcacatgatgccacggagactgagcacccag agataccgcctgcagcagccactgcccccgccgcccccacccccacccccaccaccctac taccccagcttcctgccctacttcctctcgatgctgccaatgtcaccaacagcaatgggg cccaccatcagcctggacctggacgtggatgatgtggagatggagaactatgaggccctc ctgaacctggccgagcggctgggagatgccaagccccggggtctcaccaaagcagacata gagcagctcccgtcgtaccgctttaacccggacagccatcagtcggagcagacgctgtgt gtggtctgcttcagtgacttcgaggcgcggcagctgctccgagtcctcccctgcaaccat gagttccacaccaagtgtgttgacaagtggttgaagaggaaggtgcaggctctcaaagcg >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_2|1722_aa MARPPHFSLFILHGVFKKLFSLLEPPGSAKGAGTVTLFSDENRGLQECGPWKIEEDKSTR IPHCPSILLVLLPSLPSPRHQLDSSLVAFRQRKLCDLGQDTDSLRTPQRSDIQNAVRTAL KCSGLFPGPAAAPGQGLGRSGSPAAGTGGVGEMFRTDMARPKNCSASPARGAGRLGPSRS WDSPGVAVGTCAGRRARGGSEFPGAPRVGAFGPSGRGEERRSSRCRARDCELPPCGRRQR PGGKTPRAFLRRPAAAPYRRVLAGPAPGALGAGSGPGVTWGRGGAPPPPGGRRVAPAAAQ ARGAAAARAPPAAAPLRPGAGEPSADLTTRARGAHTGCAASRTPAPAPREWSCLDRTTQQ AYEVESALGPFWTRTPIVWEVVYLAQAPSSATCVSTFISTHIISMSVPTYHHQCHPYPRG IPILILDPASMTTSLTALDSSAMMSLSRVPADVMAQLWLSCFLLPALVVSVAANVAPKFL ANMTSVILPEDLPVGAQAFWLVAEDQDNDPLTYGMSGPNAYFFAVTPKTGEVKLASALDY ETLYTFKVTISVSDPYIQVQREMLVIVEDRNDNAPVFQNTAFSTSINETLPVGSVVFSVL AVDKDMGSAGMVVYSIEKVIPSTGDSEHLFRILANGSIVLNGSLSYNNKSAFYQLELKAC DLGGMYHNTFTIQCSLPVFLSISVVDQPDLDPQFVREFYSASVAEDAAKGTSVLTVEAVD GDKGINDPVIYSISYSTRPGWFDIGADGVIRVNGSLDREQLLEADEEVQLQVTATETHLN IYGQEAKVSIWVTVRVMDVNDHKPEFYNCSLPACTFTPEEAQVNFTGYVDEHASPRIPID DLTMVVYDPDKAGVVAWGSNGTFLLSLGGPDAEAFSVSPERAVGSASVQVLVRVSALVDY ERQTAMAVQVVATDSVSQNFSVAMVTIHLRDINDHRPTFPQSLYVLTVPEHSATGSVVTD SIHATDPDTGAWGQITYSLLPGNGADLFQVDPVSGTVTVRNGELLDRESQAVYYLTLQAT DGGNLSSSTTLQIHLLDINDNAPVVSGSYNIFVQEEEGNVSVTIQAHDNDEPGTNNSRLL FNLLPGPYSHNFSLDPDTGLLRNLGPLDREAIDPALEGRIVLTVLVSDCGEPVLGTKVNV TITVEDINDNLPIFNQSSYNFTVKEEDPGVLVGVVKAWDADQTEANNRISFSLSGSGANY FMIRGLVLGAGWAEGYLRLPPDVSLDYETQPVFNLTVSAENPDPQGGETIVDVCVNVKDV NDNPPTLDVASLRGIRVAENGSQHGQVAVVVASDVDTSAQLEIQLVNILCTKAGVDVGSL CWGWFSVAANGSVYINQSKAIDYEACDLVTLVVRACDLATDPGFQAYSNNGSLLITIEDV NDNAPYFLPENKTFVIIPELVLPNREVASVRARDDDSGNNGVILFSILRVDFISKDGATI PFQGVFSIFTSSEADVFAGSIQPVTSLDSTLQGTYQVTVQARDRPSLGPFLEATTTLNPP TPSASPQGPWCLISCTPPSQLFTVDQSYRSRLQFSTPKEEVGANRQAINAALTQATRTTV YIVDIQDIDSAARARPHSYLDAYFVFPNGSALTLDELSVCEGEQEAWGVPRSLGPKWSSV ARMIRNDQDSLTQLLQLGLVVLGSQESQESDLSKQLISVIIGLGVALLLVLVIMTMAFVC VRKSYNRKLQAMKAAKEARKTAAGVMPSAPAIPGTNMYNTER >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_2|5169_bp atggcccggccgccccacttctccttgtttatactacacggcgtctttaaaaagctgttc tcactgctggaacccccaggttctgcaaagggggcaggaaccgtcacattgttcagtgat gaaaaccgagggctgcaggagtgcggaccctggaagatcgaggaagacaagtctacccga atcccccactgtccctccatcttactcgtcctccttccctcacttcccagcccccggcac cagctcgactcgagcttagtggctttcaggcaacggaagctgtgtgaccttgggcaagac acggactctctccggaccccgcagcgttccgacatccagaatgcagtaaggacggcgctg aagtgcagcggtctgttccccggacctgcagccgctccagggcagggcttaggccgctct ggctccccggcggccggcacagggggcgtcggggaaatgtttaggacggacatggcgagg ccaaagaactgcagcgcgtctccggctcgcggtgccggacgcctgggtcccagccgcagc tgggactcgccgggggtggcggtcgggacgtgcgcggggcgcagggcacgcgggggctcg gagttccccggggctccccgagttggggcgtttggacctagcggacggggagaagagcgg cgcagctcccgctgccgggcccgggactgcgagctcccgccgtgcgggcgccggcagagg cctggcgggaagaccccgcgtgcgttcctccgccggcccgcggccgccccctaccgccgc gtgctcgccggccctgcgcccggggcgctcggcgcagggtccgggcccggcgttacctgg ggccgcggcggggctccacccccacccggcggccggcgcgtcgctcccgctgcagcccag gctcgcggtgcggctgcggcccgcgcgccgcctgccgcggcccctctccggcccggtgca ggggaaccgtccgcggacctcaccacccgggcgcgcggggcccacaccggctgcgcagct tccaggacccccgccccggccccgcgcgaatggagctgcctggaccgcaccacgcaacag gcctatgaggtggagtctgcattaggcccattttggacaaggacaccaatagtgtgggag gtggtgtaccttgcccaagcccccagcagcgccacctgcgtctccaccttcatcagcaca cacatcatcagcatgtccgtccctacttaccaccaccagtgccacccctacccccgaggg atccctatcctgatattggaccctgcctccatgaccacctcactcactgcccttgactcc agcgctatgatgtcactctccagggtccctgcggatgtgatggcccagctatggctgtcc tgcttcctccttcctgccctcgtggtgtctgtggcagccaacgtggccccgaagttccta gccaacatgacgtcagtgatcctgcctgaggacctgcctgtgggtgcccaggccttctgg ttggtagcggaagaccaggacaatgaccctctgacctatgggatgagcggccccaatgcc tacttcttcgctgtcactccgaaaactggggaagtgaagctggccagcgctctggactac gagacactctacacattcaaagtcaccatctccgtgagcgacccctacatccaggtgcag agggagatgctggtgattgtggaagatagaaacgacaacgcacccgttttccagaacacc gctttctccaccagcatcaacgagaccctgcccgtgggcagtgtggtgttctccgtgctg gccgtggataaagacatggggtctgcaggcatggtcgtgtactccatagagaaggtcatc cctagcactggggacagcgagcatctcttccggatcctggccaatggctccatagtcctc aatggcagcctcagctacaacaacaagagcgctttctaccagctggagctgaaggcctgt gacttgggcggcatgtaccacaacaccttcaccatccagtgctccctgcctgtcttcctg tccatctccgtggtggaccagcctgaccttgacccccagtttgtcagggagttttactcg gcctctgtggctgaggatgcagccaagggaacctcggtgctgacggtggaggctgtggat ggcgacaaaggcatcaatgaccctgtgatctacagcatctcctactccacgcggcccggc tggtttgacatcggggcagatggggtgatcagggtcaacggctccctggaccgtgagcag ctgctggaggcggatgaggaggtgcagctgcaggtcacggccaccgagacacacctcaac atctacgggcaggaggccaaggtgagcatctgggtgacagtgagagtgatggacgtcaat gaccacaaacctgagttttacaactgcagcctcccagcctgcaccttcacccccgaagag gcccaagtgaacttcactggctacgtggacgagcatgcctccccccgcatccccatcgat gacctcaccatggtggtctacgacccggacaaggcaggcgtggtggcgtggggcagcaat ggcaccttcctgttgtcgctggggggccccgatgcagaagccttcagcgtctccccggag cgggcagtgggctcagcctccgttcaggtgctggtgagagtatccgcgctggtggactac gagaggcagacggcgatggcggtgcaggttgtggccacagactccgtcagccagaacttc tccgtcgccatggtgaccatccaccttagagacattaatgaccacaggcccacgtttccc cagagcttgtacgtcctcacggtgccagagcacagcgccaccggctctgtggtcaccgac agcatccacgccacggacccagacacgggcgcgtggggccaaattacctacagcctgctc ccaggaaatggggcagacctcttccaagtggatcccgtctcagggacggtgacggtgagg aacggtgagctgctggaccgggagagccaggccgtgtactacctgacgctgcaggccaca gacggcgggaacctgtcctcctccaccacactgcagatccacctgctggacatcaacgac aatgcacccgtggttagcggctcctacaacatcttcgtccaggaggaggagggcaatgtc tccgtgaccatccaggcccacgacaatgatgagccgggcaccaacaacagccgtctgctc ttcaacctgctgcctggcccctacagccacaacttctccttggaccctgacacagggctc ctcagaaacctggggcccctggacagagaggccatcgaccccgccctggagggccgcatt gtgctgacagtgcttgtgtctgactgcggcgagcctgtcctcggcaccaaagtcaatgtc accatcactgtggaggacatcaatgataacctgcccatcttcaatcagtccagctacaac tttacggtgaaggaggaggatccaggagtgctagtgggcgtggtgaaggcctgggacgcg gaccagacggaagccaacaaccgcatcagcttcagcctgtcggggagtggtgccaactac ttcatgatccgaggcttggtgctgggggctgggtgggctgagggctacctccggctgccc ccggacgtgagcctggattacgagacacagcccgtcttcaacttgacagtgagtgctgag aacccagacccccaggggggtgagaccatagtagacgtctgcgtgaatgtgaaagacgtg aacgacaatccccccaccctggatgtagcctcactccggggcatccgtgtggctgagaat ggctcacagcacggccaggtggctgtggtggttgcctcggatgtggacaccagtgcccag ctggagatacagcttgtgaacattctctgcaccaaggccggggtcgatgtgggcagccta tgctggggctggttctcagtggcggccaacggctctgtgtacatcaaccagagcaaagcc atcgactacgaggcctgtgacctggtcacgctggttgtgcgggcctgtgacctagccacg gaccccggcttccaggcctacagcaacaatggaagcctcctcattaccattgaggacgtg aatgacaatgcaccctattttctgcctgagaataagacttttgtgatcatccctgaactc gtgctgcccaaccgggaggtggcttctgtccgggccagagacgatgattcagggaacaat ggcgtcatcctgttctccatcctccgagtagacttcatctctaaggacggggccaccatc cctttccagggtgtcttctcgatcttcacctcctccgaggccgacgtgttcgctgggagc attcagccggtgaccagcctcgactccactctccaaggcacctaccaagtgacagtccag gccagggacagaccttccttgggtcctttcctggaagccaccaccaccctgaatccccca acgccctctgccagcccccagggtccctggtgcctcatctcctgcacacccccttcccag ctcttcaccgtggaccagagttaccgctcgcggctgcagttctccacaccgaaggaggag gtgggcgccaacagacaggcgattaatgcggctcttacccaggcaaccaggactacagta tacattgtggacattcaggacatagattctgcagctcgggcccgacctcactcctacctc gatgcctactttgtcttccccaatgggtcagccctgacccttgatgagctgagtgtgtgt gagggtgagcaggaagcctggggtgtgccaaggtccctcgggcctaagtggagttctgtg gccaggatgatccggaatgatcaggactcgctgacgcagctgctgcagctggggctggtg gtgctgggctcccaggagagccaggagtcagacctgtcgaaacagctcatcagtgtcatc ataggattgggagtggctttgctgctggtccttgtgatcatgaccatggccttcgtgtgt gtgcggaagagctacaaccggaagcttcaagctatgaaggctgccaaggaggccaggaag acagcagcaggggtgatgccctcagcccctgccatcccagggactaacatgtacaacact gagcggtga >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_3|1448_aa MPGAGRGAGARSRRWGRRRRVCGSSRQPGRRQPRPLGRRRRRRREPERISPRSRSSGTAW RLRCSEGTTREGDEGQQTEILRHTQMPDEVPQAFVGLVSTEEGVHTHNKLFLSRTQEPGP GPRVAQAGTYIHKQSVHSFACQESPSKETLEAHGASISGTPEATTSGKPEPVSSVKTEPK SSDDRNPMFLEKMDFKSSKQADSTSIGKEDPGSSRKADPMFTGKAEPEILGKGDPVAPGR MDPMTVRKEDLGSLGKVDPLCSSKTYTVSPRKEDPGSLRKVDPVSSDKVDPVFPRKEEPR YSGKEHPVSSEKVAPTSAEKVDLVLSGKRDPGPSGKADPMPLESMDSASTGKTEPGLLGK LIPGSSGKNGPVSSGTGAPGSLGRLDPTCLGMADPASVGNVETVPATKEDSRFLGKMDPA SSGEGRPVSGHTDTTASAKTDLTSLKNVDPMSSGKVDPVSLGKMDPMCSGKPELLSPGQA ERVSVGKAGTVSPGKEDPVSSRREDPISAGSRKTSSEKVNPESSGKTNPVSSGPGDPRSL GTAGPPSAVKAEPATGGKGDPLSSEKAGLVASGKAAPTASGKAEPLAVGKEDPVSKGKAD AGPSGQGDSVSIGKVVSTPGKTVPVPSGKVDPVSLGKAEAIPEGKVGSLPLEKGSPVTTT KADPRASGKAQPQSGGKAETKLPGQEGAAAPGEAGAVCLKKETPQASEKVDPGSCRKAEP LASGKGEPVSLGKADSAPSRKTESPSLGKVVPLSLEKTKPSSSSRQLDRKALGSARSPEG ARGSEGRVEPKAEPVSSTEASSLGQKDLEAAGAERSPCPEAAAPPPGPRTRDNFTKAPSW EASAPPPPREDAGTQAGAQACVSVAVSPMSPQDGAGGSAFSFQAAPRAPSPPSRRDAGLQ VSLGAAETRSVATGPMTPQAAAPPAFPEVRVRPGSALAAAVAPPEPAEPVRDVSWDEKGM TWEVYGAAMEVEVLGMAIQKHLERQIEEHGRQGAPAPPPAARAGPGRSGSVRTAPPDGAA KRPPGLFRALLQSVRRPRLCWFTSGSAFPPPAGFPITAIKGWKQIEPPPPSPPSPSPRLP PSSPSPPPPSSQLPSSLPSAPSPSPQHQHHHHHYHHNHYHHHHHHHLNTNTTTTTVIIHH HHHHHHLNTNTTTTIIIITITTTITITTITITTITSTPTPPPPPSPSPPSPSPPSSPQHQ HHHHHHHCHHHHHHHHHHQHHHHLNTNTTTTIIIVIITIITTITITTITITTTITTTTTI TATTTMTTMTTTITIATTITHHHYHHHHHLNTNTTTTTTVIITIITTITITTITITSTPT PSSPPSPSQPSPSPQHQHHHHHHHHHNHHHHLNTNTTTTTTIVIITIITTITITTITITS TPTPSSPPSLLSSSPLSPLLPSPSPHYHHHHHHNYHYYHDHTITIVITIITTNTITTTTV TTCTTTTT >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_3|4347_bp atgcccggggcggggcgcggggcgggagcgcggagccggcgctggggacggcggcgccga gtctgcgggtcctcccgccagcccggccggaggcagccgaggccgctcgggcggcggcgg cggcggcggcgggagccggagcgcatctcgcccaggagccggagcagcggcactgcctgg agacttcgctgctctgagggcactacgagagaaggggacgaggggcagcagactgagatt ctcagacacactcagatgcctgacgaagtccctcaagcctttgttggtcttgtcagcaca gaagagggtgtacatacgcacaacaagctcttcttgagcagaacacaggagccaggtcct ggccccagagtggcccaagctggtacatacatccacaagcagtctgttcactcctttgca tgccaggagtcaccctccaaggagacattggaggcacatggagcctccatctcagggaca ccagaagccaccacgtctgggaagccagagcctgtgtcctccgtgaaaactgagcccaaa tcctcagatgacagaaatcccatgttcttagagaagatggatttcaagtcctcaaagcag gccgattccacttccataggaaaggaggatcctgggtcctcacggaaggcagatcccatg tttacaggaaaggcagagcctgaaatcttgggaaagggggatcctgtggctcctggaagg atggatcccatgactgtaagaaaggaagatcttggatccctgggaaaagtagatcctttg tgctccagcaagacgtatacagtgtcaccgaggaaggaggatcctgggtctttgagaaag gtggatcctgtgtcctcagacaaagtggaccctgtattcccaagaaaggaggagcccagg tattcaggaaaagagcatcctgtgtcctcagaaaaggtcgctcctacatctgcagaaaag gtagatcttgtattgtcgggaaagagagatcctgggccctcgggaaaggcagatcccatg cccttggaaagcatggattctgcgtccacaggaaagacagagccggggctcctgggcaag ctgattccaggctcatcaggcaagaatgggcctgtatcctctgggaccggggctcctggg tccttgggaaggctggatcccacatgcttggggatggcagatcccgcatctgtgggaaat gtagaaactgtgcctgccacaaaagaggactcccggttcctgggaaagatggaccctgcc tcctcaggagaggggcgtcctgtgtctggccacacggatactacggcttcagcaaagaca gatctcacatctttgaaaaatgtggatcccatgtcttcaggcaaggtggatccagtttct ctgggaaagatggaccccatgtgctcaggaaagccagagctcttgtctcctggacaggca gagcgtgtgtctgtgggaaaggcaggaactgtatccccaggaaaagaggacccggtgtcc tccagaagggaggaccccatatctgctggaagtagaaagacatcatctgaaaaagtgaat cctgagtcttcaggaaagacaaaccctgtgtcttcaggtccaggcgatcccaggtccttg gggacagcaggtcccccatctgcagtaaaggctgagccagcgacggggggaaaaggagat cccctgtcctcggagaaggcaggtctggtggcctctggaaaggcggctcccacagcctca gggaaggccgagcccctcgcggtgggcaaggaggaccctgtgagcaagggaaaggcagac gctggcccctctggacaaggggactctgtgtctataggtaaagtggtctcaactccagga aaaacagtcccggtgccctcggggaaggtggatcccgtgtccctgggaaaagcagaagct atcccagagggaaaagtgggttctctgcctctagagaaggggagtcctgttaccaccaca aaggcggatcccagggcctcggggaaagcacagccgcagtctggtggcaaagcagaaaca aagctccctgggcaagagggcgctgcagcaccaggggaagcaggggctgtgtgtttgaaa aaggagacaccacaggcctcagagaaggtggatcctggatcctgcagaaaagcagagccc cttgcctcagggaagggagagcctgtgtccctggggaaagccgactctgcaccttccaga aaaacggagtccccatccttggggaaggtggtccccctgagtctggagaagaccaagccg tcctcctcctccaggcagttagaccgcaaagccctcggctcagcccggtctcccgagggt gccaggggcagtgaaggccgcgtggagccgaaggccgagcccgtgtccagcaccgaggcc tccagtctcggccagaaagacctggaagccgctggggccgagagaagcccctgcccagag gccgcagcgcccccgccggggccgcggactcgcgacaacttcaccaaggcgccgtcgtgg gaggcgagcgccccgccgccgccgcgcgaggacgcgggcactcaggcgggcgcgcaggcc tgcgtctcagtggccgtgagccccatgtctccgcaggacggcgctgggggctcggccttc agcttccaggcggcgccgcgcgcgcccagcccgccctcgcgccgagatgcgggcctgcag gtgtcgctgggcgccgccgagacgcgctccgtggccactgggcccatgacacctcaagcc gccgcgccgcccgccttccccgaagtgcgggtgcggcccggctcagcgctggcggccgct gtagcgcccccggagccggctgagcccgtgcgagacgtgagctgggacgagaagggcatg acgtgggaggtatacggcgccgccatggaggtggaggtgctgggcatggccatccagaag catctggagcgacagatcgaggagcacggccgccaaggggcgcccgcgccgccgcccgcc gcccgtgccggccccggccgttcgggctcggtgcgcaccgcgcccccagatggcgccgcc aagcgtccgcccggcctgttccgcgcgctgctgcagagtgtgcgccggccgcgactatgc tggttcacctctggatctgctttcccacccccagctggctttcctataacggccataaag ggctggaagcagattgaaccaccacctccatcaccaccatcaccatcaccacgactacca ccatcatcaccatcaccaccaccaccatcatcacaactaccatcatcactaccatcagca ccatcaccatcacctcaacaccaacaccaccaccaccactatcatcataatcactatcac caccaccatcaccatcacctcaacaccaacaccaccaccaccaccgtcatcatccatcat caccaccatcaccatcacctcaacaccaacaccaccaccaccatcatcatcataaccatc accaccaccatcaccatcactaccatcaccatcaccaccatcacctcaacaccaacacca ccaccaccaccatcaccatcaccaccatcaccatcaccaccatcatcacctcaacaccaa caccaccaccaccatcatcattgtcatcatcaccatcatcaccaccatcaccatcagcac catcatcacctcaacaccaacaccaccaccaccatcatcattgtcatcatcaccatcatc accaccatcaccatcactaccatcaccatcaccaccaccatcaccaccaccaccacgata actgccaccactaccatgaccaccatgaccaccaccatcaccattgccaccaccatcacc caccaccactaccatcaccaccatcacctcaacaccaacaccaccaccaccaccaccgtc atcatcaccatcatcaccaccatcaccatcacaaccatcaccatcacctcaacaccaaca ccatcatcaccaccatcaccatcacaaccatcaccatcacctcaacaccaacaccatcat caccaccatcaccatcacaaccatcaccatcacctcaacaccaacaccaccaccaccacc accatcgtcatcatcaccatcatcaccaccatcaccatcacaaccatcaccatcacctca acaccaacaccatcatcaccaccatcattgttgtcatcatcaccactgtcaccattgcta ccatcaccatcacctcactaccatcaccaccaccaccataactaccactactaccatgac cacaccatcaccattgtcatcaccatcatcaccaccaacaccatcaccaccaccaccgtc actacctgtaccaccaccaccacctag >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_4|342_aa MRVSVHPGVCEYAPVFAAARAAVGTCVRAHAARMDVFMKGLSMAKEGVVAAAEKTKQGVT EAAEKTKEGVLYVGILQMLGFHSEQERMVPDLLMVIQSISAVRVDIQWLPEENASSLSNK RGAGLQKSQPRSGPLAFPAAPRHFEVIKLLPSEEGPANATGASYNLHITFRPTLSLTPPT LARRRGSKTREGVVQGVASVAEKTKEQASHLGGAVFSGAGNIAAATGLVKREEFPTDLKV AGHVSGSPPTCMPAGLRLSGQQTQRPEEVAQEAAEEPLIEPLMEPEGESYEDPPQRPRPH PDWLLAWLCRRGPQTRLRKTLPYSKPQCDLNSCRKPASPSSL >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_4|1029_bp atgcgcgtcagtgtgcaccccggagtatgtgagtatgctccggtgtttgcagctgcccgg gcggctgtggggacgtgtgtccgcgcccatgccgccaggatggacgtgttcatgaagggc ctgtccatggccaaggagggcgttgtggcagccgcggagaaaaccaagcagggggtcacc gaggcggcggagaagaccaaggagggcgtcctctacgtcggcatcctgcagatgctgggg tttcacagtgaacaggaaagaatggttcctgatctcctgatggtgatacagagcatttca gcagtgcgagttgacatccagtggctccctgaagagaatgcctcatccctgagtaataag aggggggcagggctgcagaaaagccagcccagatcaggccctctggccttcccagcggcc cccagacattttgaagttatcaagttgctaccctccgaggaaggcccagccaatgccacg ggtgccagttacaatctgcacatcacctttagacccaccctgagcctgacaccccctact ttggccagaagaaggggaagcaagacccgagaaggtgtggtacaaggtgtggcttcagtg gctgaaaaaaccaaggaacaggcctcacatctgggaggagctgtgttctctggggcaggg aacatcgcagcagccacaggactggtgaagagggaggaattccctactgatctgaaggtg gctggccatgtgtctggcagcccgcccacatgcatgcccgctggtctgcgcctgtctggg cagcagacgcagcggccagaggaagtggcccaggaagctgctgaagaaccactgattgag cccctgatggagccagaaggggagagttatgaggacccaccccagaggccccgcccccac ccggactggctcttggcgtggctatgccgcagaggcccccaaactcgcctgcgcaagacc ctgccctattctaaacctcagtgcgacctcaattcgtgccgcaagcctgcctcgccctcc agcctctag >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_5|106_aa MAAAAPAIMLMQTAGRGEECTKDDDSGSFWEGNMAKGTGDAAGNQTNEALAPLELSIRVG WGRQFTTRNHKRRFHCAALVKVVSDTHFAKSIDQSSLLPLTSEYFP >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_5|321_bp atggctgctgcagctcctgccatcatgttgatgcagacagcaggaagaggggaggaatgt actaaggacgatgactctggaagcttctgggaagggaacatggcaaaaggtacaggagat gcagcaggaaatcagaccaatgaagcccttgcccctctggaactcagcattcgagtggga tggggcagacaattcacaactagaaaccacaaaagacgcttccactgtgccgctcttgta aaagtcgtcagcgacactcactttgctaaatctattgaccaatcctccctgctccctctg acttctgagtacttcccataa >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_6|542_aa MAPPSPPPPPPQVSEAEGGIREWEEEEKEEEAAERTPTGEKSPNSPRTLLSLRGKARTGG PMEVKLELHPLQNRWALWFFKNDRSRAWQDNLHLVTKVDTVEDFWALYSHIQLASKLSSG CDYALFKDGIQPMWEDSRNKRGGRWLVSLAKQQRHIELDRLWLETLLCLIGESFEEHSRE VCGAVVNIRTKGDKIAVWTREAENQAGVLHVGRVYKERLGLSPKTIIGYQAHADTATKSN SLAKNKFVPRAARGALGLAPGSGFRAGGWPLTMPGKHQHFQEPEVGCCGKYFLFGFNIVF WVLGALFLAIGLWAWGEKGVLSNISALTDLGGLDPVWLFVVVGGVMSVLGFAGCIGALRE NTFLLKFFSVFLGLIFFLELATGILAFVFKDWIRDQLNLFINNNVKAYRDDIDLQNLIDF AQEYWSCCGARGPNDWNLNIYFNCTDLNPSRERCGVPFSCCVRDPAEDVLNTQCGYDVRL KLELEQQGFIHTKGCVGQFEKWLQDNLIVVAGVFMGIALLQIFGICLAQNLVSDIKAVKA NW >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_6|1629_bp atggccccgccctctccccccccccccccgccccaggtgagtgaagctgagggtggaatc cgagagtgggaggaggaggagaaggaggaggaggcagcagagaggacgcccacaggagaa aagtctccaaactctcccaggactttgctgtctctgagagggaaggcccggacggggggc cccatggaagtcaagctggagctgcaccccttgcagaacaggtgggctctgtggttcttc aagaatgaccgcagccgggcctggcaggacaacctgcacctggtcaccaaggtggacact gtggaggacttctgggcgctatacagtcacatccagctggccagcaagctctcctctggc tgtgactacgccctcttcaaggatggcatccagcccatgtgggaggacagcaggaataaa cggggtggccgctggctggtcagcctggccaagcagcagcgccacattgagctggaccgg ctgtggctggagacgctgctgtgtctgatcggggagagctttgaggaacacagcagagag gtatgtggggccgtcgtcaacatccgcaccaagggggacaagatcgctgtgtggacgagg gaggcggaaaaccaggcgggcgtgctgcacgttgggcgtgtatacaaagagcgcctgggc ctctccccaaagaccatcattgggtaccaggcccatgcagacacagccaccaagagcaac tccctagccaagaacaagtttgtgcccagggcggcccgcggggcgctgggcctggctccc ggctccggtttccgggccggcgggtggccgctcaccatgcccggcaagcaccagcatttc caggaacctgaggtcggctgctgcgggaaatacttcctgtttggcttcaacattgtcttc tgggtgctgggagccctgttcctggctatcggcctctgggcctggggtgagaagggcgtt ctctcgaacatctcagcgctgacagatctgggaggccttgaccccgtgtggctgtttgtg gtagttggaggcgtcatgtcggtgctgggctttgctggctgcattggggccctccgggag aacaccttcctgctcaagtttttctccgtgttcctcggtctcatcttcttcctggagctg gcaacagggatcctggcctttgtcttcaaggactggattcgagaccagctcaacctcttc atcaacaacaacgtcaaggcctaccgggacgacattgacctccagaacctcattgacttt gctcaggaatactggtcttgctgcggagcccgaggccccaatgactggaacctcaatatc tacttcaactgcactgacttgaaccccagccgggagcgctgcggggtgcccttctcctgc tgcgtcagggaccctgcggaggatgtcctcaacacccagtgtggctacgacgtccggctc aaactggagctggagcagcagggcttcatccacaccaaaggctgcgtgggccagtttgag aagtggctgcaggacaacctgattgtggtggcgggagtcttcatgggcatcgccctcctc cagatctttggcatctgcctggcccagaacctcgtgagtgacatcaaggcagtgaaagcc aactggtga >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_7|254_aa MRVLSCEMPGPGKPIATVRRFVIVEIGSPLFAQAPAPSKVHRPQGQCRDPQEMGSMTMNE TVEMVPILEMRKMSPRGQATTQHPDLRPRSPDLGLFPLHQLLSSTRLSPVQGFLEPTDGQ EPLSTLGLREINSQRQPLSRVNEDVSAPAAGNHSSPGAPHPLELTLVILTMPNRTDLHEH TLNLSHRSRAKENHKEKPFSSNRLTKMNQLKIKRRMIFTTHENHTRFAVSVHKYDVMGTP RTRLLSPTRSCFPP >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_7|765_bp atgcgcgtgctctcctgtgagatgcccggaccaggaaaacctatagcaacagtgcggaga tttgtgatcgtggagatagggtcacctctgtttgcccaggcccctgctccctccaaggtc cacaggcctcagggacagtgccgggacccacaggagatggggtcaatgacaatgaatgaa actgtggaaatggtacccattttagagatgaggaagatgagccccagaggacaagcaaca actcagcacccagatcttcgtcctcgttccccggacctggggctcttccctctgcatcag ttgctgtcaagtaccaggctgtccccagtccagggcttccttgagccaacagatgggcag gagccgctgtccacactgggcctgagggagatcaattcccagcgccagccactgagccgt gttaatgaggatgtaagcgcccctgcagctgggaaccactccagcccgggggctccccac cccttggagctcactctggtaattctgactatgccaaatcgtactgatctgcatgaacac acgctcaacctctctcataggagccgtgcaaaggagaaccacaaagagaaaccattttct tccaacagattgacaaagatgaaccagctgaaaatcaaaaggaggatgatattcacgacc catgaaaatcacacgaggttcgccgtcagcgtccacaagtacgatgtgatggggacaccc cgcacgagactgcttagccccacccggagctgctttccaccatga >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_8|227_aa MIVSFLKPPAMLNSCFYLCGQEHPLGGHRSCEVTQASTIQVLGDGRATSGKPQGPLELVP EEFIPITSSLPSSTHHLFCSGSGPRCCSEKRTQPLAKQKGNSQLVLTQLEERGDEAVSDV PSSSSDSVLVPIAQKGTNGSPSTTWEHEPAGDHRVDIICVSPAPHPFVLLGANSTQFLSG SPHRPRFQSMSFRCSRPRPRVQGCHVAQARPENLNFSNYHDRPGMDM >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_8|684_bp atgattgtaagtttcctgaagcccccagccatgctgaactcctgcttctatctgtgtggc caggaacacccacttgggggccacaggtcctgtgaggtcacccaggcatccaccatccag gtgttgggtgatggaagagccacctccggcaagccccagggccccttggagctggtgcca gaagagttcattcccatcacctcctcactcccttcctcaacgcaccacctgttctgctcg ggctctggccccaggtgctgcagcgagaaaaggacacagcctctggcaaagcagaaagga aattctcaactggtcctcacacagttagaagaacgtggtgatgaggcggtctcagatgtc ccatcctcatcctctgactcggtccttgtacccattgcacagaaaggaaccaatggctcc ccttccaccacctgggagcacgagccagctggtgaccacagagtggatatcatctgtgtc tctccagccccacatccgttcgtccttctcggtgctaacagcacccagtttctctctggg agtccccaccgtccccgctttcaatccatgagcttcagatgtagcagacctcgccccagg gtccaaggctgccatgtggctcaggccaggccagagaacttaaatttctccaactaccat gatcgaccagggatggacatgtga >gi568815593r:176521213_176729654|GENSCAN_predicted_peptide_9|275_aa MVWAALLVSRVWVRWCLCSGFVVSLASGVKLQTFPVSVTAHKRSVDPNGAAEFLHQTLGI IGSLGVLASPASSSTHMQAVGTSERAATLGISECEREEALAGGEDPRESTPTSLLSLLHR LCCHWCRPHAVFLIHLSAGLSIVLFLLHWNMSRDLQGHAHQSPRAQRNIWHIGPRAPHCP AQGLEAVLNWVFQQAVDTQNENNSGSALVEFHLLQWKWQTNKTQSNPENLLEMQIPRPYL DLPAEELFCCPAIWMSQALLMNLMDALMVQELGPE >gi568815593r:176521213_176729654|GENSCAN_predicted_CDS_9|828_bp atggtgtgggctgctctgctggtctctcgtgtgtgggtcaggtggtgtctgtgcagtggg ttcgtggtctcgctggcctcaggagtaaagctgcagaccttcccagtgagtgttacagct cataaacgcagtgtggacccaaacggggcggctgagttcttacatcagacccttggaatc attggtagtttgggggtgttggcttcacctgccagttcctccacccacatgcaggctgta ggcacctcagagagggctgctacccttggaatctcagagtgtgaaagagaagaggccctt gcgggaggggaggacccccgggaaagcacacccacctccttgctgtccctgctccatcgg ctgtgctgccactggtgcagaccacatgctgtctttctcattcatttatctgctggcctg tccatcgtcctcttccttctccactggaacatgagcagggacctccaaggacatgcccac cagagccccagggcacagaggaacatctggcacataggccccagggctccccactgccca gctcagggcctggaagctgtcctgaactgggtcttccaacaggctgtggatactcagaat gaaaacaactcggggtcagcccttgtggagtttcatctgctgcagtggaaatggcaaact aacaaaacccaaagcaatcctgagaacttgttagaaatgcagattcccaggccctacctg gacctgcctgctgaggagctgttctgctgcccagccatctggatgtcccaagccctcctg atgaatctgatggacgctttaatggtgcaagagctgggacctgaatga