GENSCAN 1.0 Date run: 5-Nov-116 Time: 22:21:56 Sequence gi568815588r:103932238_104180673 : 248436 bp : 40.31% C+G : Isochore 1 ( 0 - 43 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.00 Prom + 3207 3246 40 -1.55 1.01 Init + 32496 32571 76 2 1 98 109 -5 0.835 2.00 1.02 Intr + 33560 33694 135 0 0 52 100 63 0.820 3.52 1.03 Intr + 35118 35230 113 1 2 61 55 148 0.873 7.98 1.04 Intr + 35473 35658 186 0 0 33 116 187 0.329 14.96 1.05 Intr + 58438 58602 165 0 0 98 106 139 0.985 15.94 1.06 Intr + 60361 60409 49 0 1 82 27 52 0.665 -4.17 1.07 Intr + 60747 60896 150 1 0 84 106 66 0.797 7.21 1.08 Intr + 66662 66734 73 0 1 38 76 25 0.429 -6.15 1.09 Intr + 66882 67076 195 0 0 97 53 154 0.638 10.41 1.10 Intr + 67630 67711 82 1 1 15 110 34 0.720 -2.98 1.11 Intr + 69207 69335 129 2 0 35 65 263 0.635 18.67 1.12 Intr + 69935 71290 1356 1 0 39 108 1395 0.999 124.36 1.13 Intr + 73324 73454 131 0 2 13 95 100 0.997 1.77 1.14 Intr + 73675 73798 124 1 1 42 58 174 0.997 9.47 1.15 Intr + 75940 76119 180 0 0 61 107 294 0.999 27.74 1.16 Intr + 78579 78671 93 2 0 58 92 135 0.954 10.14 1.17 Intr + 81395 81466 72 1 0 56 105 39 0.646 1.08 1.18 Intr + 85923 86052 130 2 1 74 76 147 0.999 11.45 1.19 Intr + 86547 86671 125 1 2 45 33 178 0.999 7.38 1.20 Intr + 87497 87685 189 1 0 38 99 187 0.990 13.66 1.21 Intr + 88251 88376 126 2 0 78 71 145 0.998 11.76 1.22 Intr + 89383 89496 114 0 0 75 86 82 0.981 6.42 1.23 Term + 93337 93483 147 0 0 73 42 105 0.831 1.32 1.24 PlyA + 93827 93832 6 1.05 2.60 PlyA - 94360 94355 6 1.05 2.59 Term - 96144 95877 268 2 1 67 36 208 0.335 7.48 2.58 Intr - 100053 100002 52 1 1 117 52 23 0.263 -1.35 2.57 Intr - 100517 100437 81 0 0 117 115 77 0.271 11.99 2.56 Intr - 100731 100669 63 1 0 93 115 50 0.308 5.97 2.55 Intr - 101138 101001 138 0 0 95 78 120 0.997 11.21 2.54 Intr - 102044 101708 337 2 1 64 94 391 0.467 31.47 2.53 Intr - 102530 102328 203 0 2 100 95 155 0.196 15.48 2.52 Intr - 103136 103026 111 0 0 102 14 94 0.855 2.83 2.51 Intr - 103326 103237 90 1 0 118 94 62 0.993 8.85 2.50 Intr - 104395 104255 141 2 0 92 91 128 0.879 12.90 2.49 Intr - 104876 104429 448 2 1 77 55 169 0.016 4.50 2.48 Intr - 104974 104903 72 1 0 80 91 45 0.031 2.68 2.47 Intr - 105536 105415 122 0 2 109 36 64 0.044 2.59 2.46 Intr - 106291 106169 123 2 0 68 70 78 0.094 3.64 2.45 Intr - 106933 106834 100 1 1 56 116 70 0.530 5.36 2.44 Intr - 107282 107208 75 2 0 95 86 91 0.585 8.39 2.43 Intr - 107403 107371 33 0 0 105 110 -5 0.566 0.90 2.42 Intr - 107762 107736 27 2 0 122 87 32 0.840 3.89 2.41 Intr - 108173 108114 60 2 0 110 100 3 0.527 1.71 2.40 Intr - 108881 108828 54 2 0 89 95 41 0.781 3.16 2.39 Intr - 109107 109066 42 0 0 128 94 31 0.569 5.22 2.38 Intr - 109301 109222 80 0 2 111 81 -29 0.513 -2.95 2.37 Intr - 110218 110084 135 2 0 88 93 46 0.596 4.72 2.36 Intr - 111344 111264 81 0 0 82 82 28 0.451 0.29 2.35 Intr - 113556 113521 36 1 0 80 115 21 0.657 1.32 2.34 Intr - 114536 114510 27 0 0 110 96 18 0.439 1.97 2.33 Intr - 115573 115502 72 2 0 111 92 100 0.652 11.16 2.32 Intr - 116044 115722 323 0 2 -12 2 226 0.150 -1.42 2.31 Intr - 117887 117770 118 0 1 94 63 76 0.458 4.30 2.30 Intr - 118419 118384 36 1 0 89 91 63 0.935 4.02 2.29 Intr - 118664 118611 54 0 0 91 121 73 0.981 8.93 2.28 Intr - 119279 119244 36 0 0 139 82 7 0.781 2.52 2.27 Intr - 119980 119918 63 2 0 109 115 75 0.483 10.07 2.26 Intr - 120898 120794 105 2 0 52 94 96 0.963 5.87 2.25 Intr - 121745 121683 63 0 0 89 86 52 0.864 2.87 2.24 Intr - 121881 121855 27 1 0 131 91 -4 0.715 1.37 2.23 Intr - 122770 122744 27 2 0 107 86 13 0.528 0.17 2.22 Intr - 123766 123398 369 2 0 103 92 275 0.905 23.55 2.21 Intr - 124935 124738 198 1 0 124 79 134 0.976 14.50 2.20 Intr - 125953 125909 45 2 0 91 94 43 0.852 2.66 2.19 Intr - 127469 127401 69 0 0 53 95 105 0.867 5.94 2.18 Intr - 128043 127882 162 1 0 114 51 168 0.999 14.73 2.17 Intr - 129236 129168 69 0 0 101 117 49 0.974 7.34 2.16 Intr - 130092 130021 72 1 0 110 82 25 0.792 2.56 2.15 Intr - 131581 131510 72 2 0 119 82 -9 0.464 0.06 2.14 Intr - 132105 132016 90 1 0 86 78 35 0.564 1.35 2.13 Intr - 132359 132201 159 0 0 88 82 94 0.952 7.84 2.12 Intr - 132970 132899 72 2 0 91 48 70 0.263 1.76 2.11 Intr - 135558 135397 162 1 0 71 44 91 0.316 2.03 2.10 Intr - 138332 138189 144 0 0 72 114 223 0.405 22.63 2.09 Intr - 139842 139795 48 1 0 95 95 39 0.708 3.03 2.08 Intr - 141008 140973 36 0 0 89 105 29 0.648 2.02 2.07 Intr - 141994 141947 48 2 0 92 76 87 0.797 5.63 2.06 Intr - 145289 145185 105 0 0 93 89 118 0.963 11.67 2.05 Intr - 146349 146305 45 1 0 94 108 38 0.935 3.86 2.04 Intr - 148447 148385 63 2 0 124 63 102 0.927 9.07 2.03 Intr - 155946 155849 98 2 2 81 88 13 0.054 -0.67 2.02 Intr - 159107 159023 85 0 1 57 73 86 0.081 1.96 2.01 Init - 171144 170973 172 0 1 45 66 79 0.232 1.05 2.00 Prom - 174765 174726 40 -7.25 3.00 Prom + 176396 176435 40 -5.75 3.01 Init + 184846 185017 172 0 1 87 10 170 0.259 8.75 3.02 Intr + 190728 190849 122 1 2 90 18 101 0.888 2.59 3.03 Intr + 191477 191887 411 1 0 84 100 294 0.988 23.66 3.04 Term + 193276 193467 192 0 0 104 31 129 0.912 5.24 3.05 PlyA + 197683 197688 6 1.05 4.21 PlyA - 197720 197715 6 1.05 4.20 Term - 198068 197902 167 0 2 47 42 102 0.857 -1.40 4.19 Intr - 199247 199094 154 2 1 -19 94 128 0.919 1.42 4.18 Intr - 199959 199879 81 0 0 30 115 79 0.910 3.72 4.17 Intr - 201547 201383 165 1 0 26 94 109 0.041 4.54 4.16 Intr - 210156 210085 72 0 0 96 51 91 0.048 4.88 4.15 Intr - 211402 211189 214 0 1 35 10 229 0.915 7.60 4.14 Intr - 213327 213239 89 0 2 74 76 98 0.952 5.05 4.13 Intr - 214112 214026 87 2 0 62 50 164 0.952 9.25 4.12 Intr - 215761 215654 108 1 0 68 69 49 0.588 0.56 4.11 Intr - 220489 220370 120 1 0 107 99 124 0.879 15.17 4.10 Intr - 223080 222943 138 0 0 31 67 109 0.179 2.84 4.09 Intr - 228925 228800 126 1 0 86 77 138 0.975 12.46 4.08 Intr - 229930 229724 207 1 0 128 14 112 0.946 6.15 4.07 Intr - 232063 231857 207 1 0 59 69 294 0.906 22.95 4.06 Intr - 234481 234329 153 1 0 59 28 188 0.587 9.25 4.05 Intr - 235500 235384 117 0 0 60 13 113 0.624 0.74 4.04 Intr - 236611 236507 105 1 0 63 87 125 0.985 9.39 4.03 Intr - 240298 240173 126 1 0 49 86 153 0.789 11.16 4.02 Intr - 246869 246792 78 2 0 114 93 19 0.785 3.83 4.01 Init - 247375 247352 24 1 0 69 115 15 0.343 1.88 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 104597 104429 169 2 1 74 55 168 0.877 11.86 S.002 Intr + 105140 105401 262 2 1 69 94 245 0.812 19.77 S.003 Term + 105708 105824 117 2 0 94 48 90 0.800 3.16 S.004 Term - 210156 210040 117 0 0 96 28 139 0.949 6.26 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_1|1379_aa MAHCSLILLGPSDPPASASPVAETTDTAIHSFIHQICLPIICQECCRVLGYLDEQQTTGL KELPSGGGGEEWPPPLETRRDTGLSRRRGSPDRSDPSDQAGWERACGQSLSARNSVLGGK MSFFNFRKIFKLGSEKKKKQYEHVKRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLA AAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVM LELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKN TRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNP MRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPI RELIAEAKAEVTEEVEDGKEEDEEEETENSLPIPASKRASSDLSIASSEEDKLSQNACIL ESVSEKTERSNSEDKLNSKILNEKPTTDEPEKAVEDINEHITDAQLEAMTELHDRTAVIK ENEREKRPKLENLPDTEDQETVDINSVSEGKENNIMITLETNIEHNLKSEEEKDQEKQQM FENKLIKSEEIKDTILQTVDLVSQETGEKEANIQAVDSEVGLTKEDTQEKLGEDDKTQKD VISNTSDVIGTCEAADVAQKVDEDSAEDTQSNDGKEVVEVGQKLINKPMVGPEAGGTKEV PIKEIVEMNEIEEGKNKEQAINSSENIMDINEEPGTTEGEEITESSSTEEMEVRSVVADT DQKALGSEVQDASKVTTQIDKEKKEIPVSIKKEPEVTVVSQPTEPQPVLIPSININSDSG ENKEEIGSLSKTETILPPESENPKENDNDSGTGSTADTSSIDLNLSISSFLSKTKDSGSI SLQETRRQKKTLKKTRKFIVDGVEVSVTTSKIVTDSDSKTEELRFLRRQELRELRFLQKE EQRAQQQLNSKLQQQREQIFRRFEQEMMSKKRQYDQEIENLEKQQKQTIERLEQEHTNRL RDEAKRIKGEQEKELSKFQNMLKNRKKEVINEVEKAPKELRKELMKRRKEELAQSQHAQG VAQIMIQSFQLSSCAVFNAQMQDEQEFVQKQQQELDGSLKKIIQQQKAELANIERECLNN KQQLMRAREAAIWELEERHLQEKHQLLKQQLKDQYFMQRHQLLKRHEKETEQMQRYNQRL IEELKNRQTQERARLPKIQRSEAKTRMAMFKKSLRINSTATPDQDRDKIKQFAAQEEKRQ KNERMAQHQKHENQMRDLQLQCEANVRELHQLQNEKCHLLVEHETQKLKELDEEHSQELK EWREKLRPRKKTLEEEFARKLQEQEVFFKMTGESECLNPSTQSRISKFYPIPSLHSTGS >gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_1|4140_bp atggctcactgcagcctcatcctcttgggcccaagtgatcctcctgcctcagcctcccca gtagctgagaccacagataccgccattcattcattcattcaccagatctgccttcctatt atatgccaggaatgttgccgggtacttggatatcttgatgaacaacaaaccactggcctg aaagagctcccgtctggtggaggaggggaagagtggccgccgcccctggagactcgccgt gacacgggcctaagccgccgccgcgggagtcctgaccgctcggacccgtcggatcaggcc gggtgggagcgagcttgcgggcagtccttaagtgcaaggaactctgtgttgggaggaaaa atgtccttcttcaatttccgtaagatcttcaagttggggagcgagaagaagaagaagcag tacgaacacgtgaagagggacctgaaccccgaagacttttgggagattataggagaactg ggcgacggagcctttgggaaagtgtacaaggcccagaataaagagaccagtgttttagct gctgcaaaagtgattgacactaaatctgaagaagaacttgaagattacatggtagagatt gacatattagcatcttgtgatcacccaaatatagtcaagcttctagatgccttctattat gagaacaatctttggatcctcattgaattttgtgcaggtggagcagtagatgctgtgatg cttgaacttgagagaccattaactgagtcccaaatacaagtagtttgcaagcagacttta gatgcattgaactacttacatgataataagatcatccacagagatctgaaggctggcaac attctctttaccttagatggagatatcaaattggcggattttggagtatcagctaaaaac acgaggacaattcaaagaagagattcctttattggtacaccatattggatggctcctgaa gtagtcatgtgtgaaacatctaaggacagaccctatgactacaaagctgatgtttggtcc ctgggtatcactttaatagaaatggctgagatagaaccacctcatcatgaattaaatcca atgcgagtgctgctaaaaatagcaaaatctgagccacctacattagcacagccatccaga tggtcttcaaattttaaggactttctaaagaaatgcttagaaaagaatgtggatgccagg tggactacatctcagctgctgcagcatccctttgttactgttgattccaacaaacccatc cgagaattgattgcagaggcgaaggctgaagtaacagaagaagttgaagatggcaaagag gaagatgaagaggaggaaacagaaaattctctgccaatacctgcaagtaagcgtgcatct tctgaccttagtatcgccagctctgaagaagataaactttcacaaaatgcttgtattttg gagtctgtctcagaaaaaacagaacgtagtaactctgaagataaactcaacagcaaaatt cttaatgaaaaacccaccactgatgaacctgaaaaggctgtggaggatattaatgaacat attaccgatgctcagttagaagcaatgactgaactccatgacagaacagcagtaatcaag gagaatgaaagagagaagaggcccaagcttgaaaatctgcctgacacagaagaccaagaa actgtggacattaattcagtcagtgaaggaaaagagaataatataatgataaccttagaa acaaatattgaacataatctaaaatctgaggaagaaaaggatcaggaaaagcaacagatg tttgaaaataagcttataaaatctgaagaaattaaagatactattttgcaaacagtagat ttagtttctcaagagactggagaaaaagaggcaaatattcaggcagttgatagtgaagtt gggcttacaaaggaagacacccaagagaaattgggggaagacgacaaaactcaaaaagat gtgatcagcaatacaagtgatgtgataggaacatgtgaggcagcagatgtggctcagaaa gtggatgaagacagtgctgaggatacgcagagtaatgatgggaaagaagtggtcgaagta ggccagaaattaattaataagcccatggtgggtcctgaggctggtggtactaaggaagtt cctattaaagaaatagttgaaatgaatgaaatagaagaaggtaaaaataaggaacaagca ataaacagttcagagaacataatggacatcaatgaggaaccaggaacaactgaaggtgaa gaaatcactgagtcaagtagcactgaagaaatggaggtcagaagtgtggtggctgatact gaccaaaaggctttaggaagtgaagttcaggatgcttctaaagtcactactcagatagat aaagagaaaaaagaaattccagtgtcaattaaaaaagagcctgaagttactgtagtttca cagcccactgaacctcagcctgttctaatacccagtattaatatcaactctgacagtgga gaaaataaagaagaaataggttctttatcaaaaactgaaactattctgccaccagaatct gagaatccaaaggaaaatgataatgattcaggcactggttccactgctgatactagcagt attgacttgaatttatccatctctagctttctaagtaaaactaaagacagtggatcgata tctttacaagaaacaagaagacaaaagaaaacattgaagaaaacacgcaaatttattgtt gatggtgtagaagtgagtgtaacaacatcaaagatagttacagatagtgattccaaaact gaagaattgcggtttcttagacgtcaggaacttcgggaattaagatttcttcagaaagaa gagcaaagagcccaacaacagctcaatagcaaactacagcaacaacgagaacaaattttc cggcgctttgagcaggaaatgatgagtaaaaagcgacaatatgaccaggaaattgagaat ctagaaaaacagcagaaacagactatcgaacgcctggaacaagagcacacaaatcgcttg cgagatgaagccaaacgcatcaaaggagaacaagagaaagagttgtccaaatttcagaat atgctgaagaaccgaaagaaggaggttataaatgaagtggagaaagcacccaaagagctg agaaaagagctcatgaaacgcaggaaagaggagcttgcacaaagccagcatgctcagggt gttgctcagatcatgattcagtcttttcagttgtcatcttgtgcagtcttcaacgcccaa atgcaggacgaacaagagtttgttcagaaacaacagcaagaattagatggctctctgaaa aagatcatccagcagcagaaggcagagttagctaatattgagagagagtgcctgaataac aagcaacagctcatgagagctcgagaagctgcaatttgggagctcgaagaacgacactta caagaaaaacaccagctgctcaaacagcagcttaaagatcagtatttcatgcaaagacat cagctacttaagcgccacgagaaggaaacagagcaaatgcagcgttacaatcaaagactt attgaggaattgaaaaacagacagactcaagaaagagcaagactgcccaagattcagcgc agtgaagccaagactcgaatggccatgtttaagaagagtttgagaattaactcaacagcc acaccagatcaggaccgtgataaaattaaacagtttgctgcacaagaagaaaagaggcag aaaaatgagagaatggctcagcatcagaaacatgagaatcaaatgcgagatcttcagttg cagtgtgaagccaatgtccgcgaactgcatcagctgcagaatgaaaaatgccacttgttg gttgagcatgagactcagaaactgaaggagttagatgaggaacatagccaagaattaaag gagtggagagagaaattgagacctaggaaaaagacactggaagaagagtttgccaggaaa ctacaggaacaggaagtattctttaaaatgactggggagtctgaatgccttaacccatca acacagagccggatttccaaattttatcctattcccagcttgcattccaccggatcataa >gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_2|2101_aa MPQVSGPSEGSARRDLLLLTEGVSSQTLAIYILVKLFIPIGKALPRIPEAVVYRLIAPQL NLRQLPLTLRMTLTCRRLALQTFSEGLECTGAIIAYCNLELLGSCNPPFSTTRVTGTAGG YGMDVTKKNKRDGTEVTERIVTETVTTRLTSLPPKGGTSNGYAKTASLGGGSRLEKQSLT HGSSGYINSRSSSGNSSPEYPRKEFASSSTRGRSQTRESEIRVRLQSASPSTRWTELDDV KRLLKGSRSASVSPTRNSSNTLPIPKKGTVETKIVTASSQSVSSSFSGRQRTRHVNSLLT LALSHCPPLSRLFASALQLLPPPHLQLHSRLPCLQDKYAELAPNMKKQENPLLGAQCLAV SGTYDATILDANLPSHVWSSTLPAGSSMGTYHNNMTTQSSSLLNTNAYSAGSGPPGEAFC GQTSQEIPPGTSVQFNLEGIASVFGVPNNMASCSPTLHPGLSTSSSVFGMQNNLAPSLTT LSHGTTTTSTAYGVKKNMPQSPAAVNTGVSTSAACTTSVQSDDLLHKDCKFLILEKDNTP AKKEMELLIMTKDSGKVFTASPASIAAKDTLKKEKQAAYNADSGLKAEANGDLKTVSTKG KTTTADIHSYGSSGGGGSGGGGGVGGAGGGPWGPAPAWCPCGSCCSWWKWLLGLLLTWLL LLGLLFGLIALAEEVRKLKARVDELERIRRSILPYGDSMDRIEKDRLQGMAPAAGADLDK IGLHSDSQEELWMFVRKKLMMEQENGESIAGHRASSPESLSSLHLCGMCACAVSTIIRPT LGLSPPLILSIALRGDMGSPGPKGDRGFPGTPGIPGPLGHPGPQGPKGQKGSVGDPGMEG PMGQRGREGPMGPRGEAGPPGSGEKGERGAAGEPGPHGPPGVPGSVGPKGSSGSPGPQGP PGPVGLQGLRGEVGLPGVKGDKGPMGPPGPKGDQGEKGPRGLTGQSVMGIYFNLSTTFVN PSVTRLEKIQKRRGSGSTVSRECDRQGCPVADGCVGSWDTMCFKATGTVEGGIAEITPGA TERPCFYFTRSCWPRRTPRPKRLVTHLLPPASLPSQPLFQHAALSPLNHSAEEHIACGSE QGLTGMPGIRGPPGPSGDPGKPGLTGPQGPQGLPGTPGRPGIKEGSSMLTVPGPPGPPGA MGPPGPPGAPGPAGPAGLPGHQGMSHPARMQSDGPSREDFPLRVDMGLSVLDDVKEVLNL QGPPGPPGPRGPPGEYLGDLWKGLPFQAHQDPEAHQGRVCQAHQAHQDRSCPTQKPSSPA PQAHLAPQVPRETKVPQAPEDTKASKASQVSQPQGPVLSDSTFRDHQAHLAPRDPKVTKG RLPGGGEANFSFWIPGDPGVPGALGIPSGPSEGGSSSTMYVSGPPGPPGPPGPPGSISSS GQEIQQYISEYMQSDSIRSYLSGVQGPPGPPGPPGPVTTITGETFDYSELASHVTNSSVT GPFRFWNSEGVASVPAKQLRGTVSACSRPPSLLKTFWLCCSVSHLWGDRGWDYLCFLLAS LVMQTLSSSEPWKGCKREAESFGQRATYCSDLLAESANRLERGQEMSSQAPMPDKLAGVP LGTWQLAGVPPEHRGPADPELTNVTQEPVCAGEPRLWLDHGCDPHGLGDDVRQYLRQYLM GPRGPPGPPGASGDGSLLSLDYAELSSRILSYMSSSGISIGLPGPPGPPGLPGTSYEELL SLLRGSEFRGIVGPPGPPGPPGIPGNVWSSISVEDLSSYLHTAGLSFIPGPPGPPGPPGP RGPPGVSGALATYAAENSDSFRSELISYLTSRCPDGDAPPGTPQALLFPGPPGDSRLLST DASHSRGSSSSSHSSSVRRGSSYSSSMSTGGGGAGSLGAGGAFGEAAGDRGPYGTDIGPG GGYGAAAEGGMYAGNGGLLGADFAGDLDYNELAVRVSESMQRQGLLQGMAYTVQGPPGQP GPQGPPGISKVFSAYSNVTADLMDFFQTYGAIQGPPGQKGEMGTPGPKGDRGPAGPPGHP GPPGPRGHKGEKGDKGDQVYAGRRRRRSIAVKPTRKGSLVPQAVGAGSAEVCRSAVFTAL RERGEEVADEGARSEKSVCVSWHILPQQQNNQISSRFDCTLRFQRSLRPSPTRHLHFMQE R >gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_2|6306_bp atgcctcaagtctctgggccatctgagggttcagcaagaagagacctcctgttgctgact gagggagttagttcacaaactcttgccatttacattttagtaaaactcttcataccaata ggaaaggctctcccaaggataccagaagctgtggtgtatagattgatagcaccccagctg aaccttcggcaactccccctcaccctcagaatgacactgacatgccgcagactggcactt cagactttctctgaagggctagagtgcactggcgccattatagcttactgtaaccttgaa ctgctaggctcatgcaatcctcctttctcaaccacccgagtaactgggactgcaggtggc tatggtatggatgtaaccaagaaaaacaaacgagatggaactgaagtcactgagagaatt gtcactgaaacagtaaccacaagacttacatccttaccaccaaaaggcgggaccagcaat ggctatgctaaaacagcctctcttggtggagggagccggctggagaaacaaagcctgact catggcagcagcggctacataaactcaaggagctccagtggcaactcttctccggagtac cctcggaaggaatttgcatcttcttcaaccagaggacggagtcaaacacgagagagtgaa attcgagttcgactgcagagtgcgtccccatccacccgatggacagaattggatgatgtt aagcgtttgctcaaggggagtcgatcggcaagtgtgagccccacccggaattcctccaac acactccccatccccaagaaaggcactgtggagaccaaaattgtgacagcgagctcccag tcggtttcttcttctttctctgggcgccagcgcactcgccatgttaacagcttacttaca ttagctctctcacactgtccacctttatctcggctgtttgcttcggctctgcagctcctg ccgcccccacacctgcagctgcacagccggctcccttgccttcaggacaaatatgcagaa ctggccccaaatatgaagaagcaggaaaatcctctcttgggggcacagtgtctggctgtg tcaggcacctacgatgcaacgatcctggatgccaaccttccctcccatgtgtggtcctcc accctgcccgcggggtcctccatggggacctatcacaacaacatgacaacccagagctca tccctcctcaacaccaatgcctactctgcgggatcagggcctcctggagaggctttctgt ggccaaacatcccaggagattccccctggaacttcagttcaattcaatctagaaggtatt gcttctgtcttcggagttccaaacaacatggcgtcctgctcacccactttgcaccctgga ctcagcacatcctcctcagtgtttggcatgcagaacaatctggcccccagcttgaccacc ctgtcccatggcaccaccaccacttccacagcatatggggtgaagaaaaacatgccccag agtcctgcggctgtgaacactggcgtttccacctccgccgcctgcaccacaagtgtgcag agcgatgaccttttgcacaaggactgcaagttcctgatcctagagaaagacaacacacct gccaagaaggagatggagctgctcatcatgaccaaggacagcgggaaggtctttacagcc tcccctgccagcatcgctgcaaaagacaccctaaaaaaagaaaagcaagctgcctacaat gctgactcaggcctaaaagccgaagctaatggagacctgaagactgtgtccacaaagggc aagaccaccactgcagatatccacagctacggcagcagtggtggtggtggcagtggagga ggtggcggtgttggtggcgctggcggcggcccttggggaccagcgccagcctggtgcccc tgcggctcctgctgcagctggtggaagtggctgctgggcctgctgctcacctggctgcta ctcctggggctgctcttcggcctcattgctctggcggaggaggtgaggaagctgaaggcg cgtgtggatgagctggagaggatcaggaggagcatactgccctatggggacagcatggat agaatagaaaaggaccgcctccagggcatggcacccgcggcgggagcagacctggacaaa attgggctgcacagtgacagccaggaggagctctggatgttcgtgaggaagaagctaatg atggaacaggaaaatggtgagagcatcgccgggcacagggccagctcccctgagtccctt tcttctttgcatctatgtggtatgtgtgcatgtgctgtgagcaccatcatccggcccact ctcggcctctctcctcccctgatcctctcaatagcgctgagaggtgacatgggaagtcca ggccctaaaggagatcgagggttccctgggactccaggtatccctgggcccttgggccac ccaggtccacaaggaccaaagggtcaaaaaggcagcgtgggagatcctggcatggaaggc cccatgggccagagagggcgagaaggccccatgggacctcgtggtgaggcagggcctcct ggatctggagagaaaggggaaagaggggctgctggtgaaccaggtcctcatggcccacct ggtgtcccaggttctgtgggtcccaaaggttccagcggctctcctggcccacagggccct ccaggtcctgtaggtctccaagggctccgaggtgaagtaggacttcctggtgtcaaaggt gacaaaggaccaatgggaccaccaggacccaaaggtgaccagggtgagaaaggacctcga ggcctcacaggtcagtctgtcatgggaatctactttaatctatccacgacttttgtaaat ccatcagtcactaggttggaaaaaatccagaagagaaggggcagtgggagtaccgtatcc agagagtgtgacagacagggctgtcccgtggctgatggctgcgtgggctcctgggacaca atgtgcttcaaggccactgggacagtagagggaggaatcgcagaaatcactccaggagca actgagagaccttgcttctactttaccaggtcctgctggcccagacggacaccaaggccc aagaggttggtcactcatctgctgcccccagcctcactcccgtcacagcccctgttccag catgcagccctcagtccccttaaccatagtgcagaggagcatatagcatgtggaagtgaa caaggtcttactgggatgcctggaatccgtggcccaccaggaccttctggagacccagga aagccaggtctcacaggaccccagggacctcagggacttcccggtacccctggccgacca ggaataaaagaggggtcatcgatgctcactgtcccaggccccccaggacctcctggagcc atgggacccccaggacctccaggtgccccaggccctgccggcccagctggtctcccagga catcaaggtatgtcacaccctgcaagaatgcaaagcgatgggcccagtcgggaggacttt cctctcagggtggacatgggcctctctgttctagatgacgtgaaagaagttcttaattta caaggtcccccaggcccacccggcccacgcgggccaccaggtgagtatcttggagacctt tggaagggccttccattccaggcccaccaggaccccgaggcccaccaggggagggtttgc caggcccaccaggcccaccaggatcgttcctgtccaactcagaaaccttcctctccggcc ccccaggcccacctggccccccaggtcccaagggagaccaaggtcccccaggccccagag gacaccaaggcgagcaaggcctcccaggtttctcaacctcagggtccagttctttcggac tcaaccttcagggaccaccaggcccacctggcccccagggacccaaaggtgacaaaggga aggcttcctggaggaggtgaggcaaacttctcattttggattccaggtgatccaggtgtt ccaggggctcttggcattcctagtggtccttctgaagggggatcatcaagtaccatgtac gtgtcaggcccgccagggccccctgggccccctgggcctccgggctctatcagcagctct ggccaggagattcagcagtacatctctgagtacatgcagagtgacagtattagatcttac ctatccggagttcagggtcccccaggcccacctggtcccccaggacctgtcaccaccatc acaggcgagactttcgactactcagagctggcaagccacgttacaaacagctcggtgacc gggcctttcagattctggaatagtgagggtgttgcttcagtacctgctaagcagcttcgg ggtacggtgtcagcttgttctcgtcctccatctcttctgaagacattctggctgtgctgc agcgtgagtcacctgtggggggatcgagggtgggactatctttgctttctcctggcctca ctcgtcatgcaaaccttgtcctcgtctgagccttggaagggctgcaagagggaggcagag tcctttggacaaagagccacttactgctctgatctgcttgctgagtcagcaaaccggctg gaaagggggcaggaaatgtcctcccaagcccccatgccagacaagctggcaggtgtccct ttgggaacctggcagcttgctggtgtcccccctgaacaccgtggtcctgcggacccagaa ctcacaaatgtcacgcaggagccagtttgtgcaggggagcccaggctgtggctggatcat ggctgcgacccccatggcctgggggatgacgtgcgtcagtacctacgtcagtacttgatg ggccctcggggtccgccagggccaccaggagccagtggagatgggtccctcctgtctttg gactatgcagagctgagtagtcgcattctcagctacatgtcgagttctgggatcagcatt gggcttcctggtcccccggggccccctggcttgccgggaacctcctatgaggagctcctc tccttgctgcgagggtctgaattcagaggcatcgttggacccccaggtcccccgggtcca ccagggatcccaggcaatgtgtggtccagcatcagcgtggaggacctctcgtcttactta catactgccggcttgtcattcatcccaggccctccaggacctcctggtcccccagggcct cgagggcccccgggtgtctcaggagccctggcaacctatgcagctgaaaacagcgacagc ttccggagcgagctgatcagctacctcacaagtaggtgccccgacggtgatgccccacca ggcaccccgcaggccttgcttttccctggaccccctggggacagccgcctcctgtccacg gatgcctcccacagtcggggtagcagctcctcctcacacagctcatctgtcaggcggggc agctcctacagctcttccatgagcacaggaggaggtggtgcaggctccctgggtgcaggc ggtgcctttggtgaagctgcaggagacaggggtccctatggcactgacatcggcccaggc ggaggctatggggcagcagcagaaggcggcatgtatgctggcaatggcggactattggga gctgactttgctggagatctggattacaatgagctggctgtgagggtgtcagagagcatg cagcgtcagggcctactgcaagggatggcctacactgtccagggcccaccaggccagcct gggccacaggggccacccggcatcagcaaggtcttctctgcctacagcaacgtgactgcg gacctcatggacttcttccaaacttatggagccattcaaggaccccctgggcaaaaagga gagatgggcactccaggacccaaaggtgacaggggccctgctgggccaccaggtcatcct gggccacctggccctcgaggacacaagggagaaaaaggagacaaaggtgaccaagtctat gctgggcggagaaggagaagaagtattgctgtcaagccgactaggaaaggcagcctagtg ccccaagctgtaggagctggatctgcagaagtgtgcaggtctgctgtgttcacagcactc agggaaagaggggaggaggtggctgatgagggtgcacgttcggagaagtctgtatgtgtt tcatggcatattctgccacagcaacaaaacaaccaaatcagcagtagatttgactgtacc cttcgatttcaaagaagtctgcgcccctcgcccactcgccacctacacttcatgcaggaa agatag >gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_3|298_aa MSTRHNLAGGRERIHEEVSLLKPPCPSLIMPLHLVLTGASEVLVRGSAFSRFDAAPKEKN QDFTFKMESPSDSAVVLPSTPQASANPSSPYTNSSRKQPMSATLRERLRKTRFSFNSSYN VVKRLKVESEENDQTFSEKPASSTEENCLEFQESFKHIDSEFEENTNLKNTLKNLNVCES QSLDSGSCSALQNEFVSEKLPKQRLNAEKAKLVKQVQEKEDLLRRLKLVKMYRSKNDLSQ LQLLIKKWRSCSQLLLYELQSAVSEENKKLSLTQLIDHYGLDDKLLHYNRSEEEFIDV >gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_3|897_bp atgagcactcgacacaatcttgcaggtggaagggagaggatccatgaagaggtgtctttg ctcaagccaccttgcccgtctttgatcatgcctctccacctggtcctcacgggggcttca gaagttctggtcaggggctctgcattcagcaggtttgacgctgctcctaaagagaaaaac caagatttcactttcaagatggaaagtccgtcagactcagctgtggttttacctagcact cctcaggcctctgcgaatccatcatctccctatacaaatagttcccgaaaacaacctatg agtgcaacacttagagaaagattaaggaaaacaagattttcatttaattcctcttacaat gtggtgaaacgtcttaaagtagagagtgaagaaaatgatcagaccttttcagagaaacca gcatcttccacagaggaaaactgtttggaatttcaagaaagttttaaacatatagacagt gaatttgaagaaaatacaaatttgaaaaatactttgaagaatctcaatgtctgtgaatct cagtcacttgattctggatcatgcagtgctctccaaaatgagtttgtgagtgagaagctt cctaaacaaagattaaacgctgaaaaagccaaattggtgaagcaggttcaggagaaagaa gaccttcttcggaggctaaaactagtcaaaatgtatagatcaaagaatgatctgtctcag ttacagttgttaataaagaagtggagaagctgtagccagctcttgctttatgagttgcag tcagctgtgtctgaagagaacaagaaactaagccttactcaattgatagaccactatggg ttagatgataaattactacactataacagaagtgaagaagaatttatagatgtttaa >gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_4|845_aa MQPNNGVQAIKKEVNLFSKKRKEIKQGIKSLSKTILNMMEENDKLENIAKLDQQEFGLDL EELERLHDESQEEVAKMIKDVEMHNLAKSYLAELIKEECWNSMAVKGRALKCFHIPCVVE NFPMKARTVEELKELERVLQQKKIEAECLKLRKEIVEAQSGVKLIKQRHEEDDEEEEEED KTVKYSNLPNYLLGSLSTDFGDIIYKVKTVFNNEFDAAYKQKEFEIARVKERNVRIREII LDLELEEAVWQPEFEDCEKPERTLVVQDEEALPTFPNPKCSHSNVGWEAASGATWNVRSL SQYSSLILALSQDASTRLRALMDMMGGVLEVKKEDILRMVIPQPAFMAKPDAVWTEEERK QFKDYEKKVKELNEERDKYRKRLLHLRPSLECCCPWMIKGASMSRDIAKFTPLPSPRAAS DRLMEPKSLEAELKKLQNSIQESTQAFDEHLKRLFERRVKAEMVTNQEELKISNLAFSLL LDEELSSREKFLNNYLTRKQHEKSQTSEAVRKSREDLDVCKEHYDNLLAEDKVMDRSFKK EFSEIPGHQVDILYKLFKRRPRISKQKTHSETTSVVPFGELPGSGKLNKDAFAQLMKAMD ELDNISNMPEGLDPLVWNHFCMTRRAKVENEQKVKQKAADLLEMATFLQKRVEEEEKTQG QKKVASMMESKDVHKRILQIEWEHKKMEMEREDLNQKAWDIQMLFFSRDRQKYLNEPNYE ALISIQIGIMEQTIAVLDKMHKKNVENCKKLLKKLGKFSNQKDIANYALSCNLREELVAV SERKDICNAMGSKLTCEKIVKERYENMMQQQKLTNISKQQAEQISILQTEVERLRMKTFP ALVQM >gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_4|2538_bp atgcaacccaacaatggtgtccaggccatcaaaaaggaggttaatctgttttccaagaaa aggaaagagataaaacaaggaatcaaatcactttccaaaactattctgaatatgatggaa gaaaatgacaaactagaaaatattgcaaaattagaccaacaggaatttggtctggatctt gaggaactagaaaggcttcatgatgaaagtcaggaagaagtggcaaagatgataaaggat gtagagatgcataacttagccaagagctatttggctgaacttatcaaagaagaatgttgg aattcgatggctgtgaaaggtcgagctcttaagtgttttcatatcccctgtgtggttgaa aacttcccgatgaaagcgcgcacggttgaagagctgaaagaattggaaagagttttacag caaaagaagattgaagcagagtgtcttaaactacggaaggaaattgtagaggctcagtct ggagttaagttgattaaacagcgtcatgaagaggatgatgaagaagaggaagaggaagac aagacagtaaaatatagcaatttgcccaattacctgcttggtagtctgagtactgatttt ggggatatcatttacaaggtaaaaactgttttcaataatgagtttgacgctgcatataaa caaaaagagtttgaaattgcacgcgtgaaggaaagaaatgttcgaattcgagaaattatt ttagatctggaattggaagaagcagtctggcaaccagaatttgaagactgtgagaagcca gagagaacgcttgttgtgcaagatgaggaggcactacctaccttccccaatcccaaatgc agtcattctaatgttgggtgggaagctgcctctggagccacctggaatgtcaggtctctg tctcagtattcctctctgattctggctctttcccaggatgccagtacaagactccgagct ctgatggacatgatgggaggagttctggaagtcaagaaggaagatattttgagaatggtg attcctcaacctgctttcatggcaaaacctgatgctgtgtggactgaagaagaaagaaaa caattcaaagattatgagaaaaaagtaaaggagttaaatgaagaaagagataagtataga aagaggcttttacacctgagaccttctctggaatgttgttgcccttggatgatcaaggga gcctccatgtccagagacatcgccaagtttacaccactaccctcacccagggcagccagt gaccggctgatggagcccaagtcattagaagcagaactgaagaaacttcaaaactctatt caagaaagcacacaggcctttgatgaacatttgaaaagactttttgaaaggagagtgaag gcagagatggttaccaaccaggaggaactgaaaataagtaaccttgcattttctttattg ttggatgaagaattaagctctagagaaaaattcctgaacaactaccttacaaggaaacag cacgagaaaagccagacttcagaagctgttcggaaatctagagaagacctggatgtgtgc aaggagcactatgacaacttactggcagaagacaaagttatggatcgcagctttaaaaag gaattttctgaaattcctggtcatcaagtggatatactctacaaactttttaaacgccga ccaaggatttccaaacagaaaacgcactcagaaacaaccagcgttgtccctttcggagaa ctaccaggatctggcaagttgaataaggatgcctttgcccagttaatgaaagctatggat gagttggacaatattagtaacatgccagaaggcttggaccctttggtctggaatcatttc tgcatgacaagacgagcaaaagtggaaaatgaacagaaagtaaagcagaaagcagctgac ttattggaaatggcaactttcctccagaagagagttgaggaggaagagaagactcaagga caaaagaaagttgctagcatgatggaaagtaaagatgtacacaaaagaatacttcagatt gagtgggaacataagaaaatggagatggaaagggaagatctaaatcagaaggcttgggat attcagatgctatttttttcaagagatcgtcaaaagtacctaaatgaaccaaactatgag gctctgattagtattcagattggaataatggaacaaaccattgctgttttagataagatg cacaaaaagaatgtggaaaactgcaagaaactactcaaaaaacttggaaagttcagcaat caaaaagatatagcaaattatgccctaagctgcaatctacgagaagagttggtagctgtc tcagagagaaaagacatctgtaatgcaatggggtctaaactgacttgtgaaaagattgtc aaagaacggtatgaaaacatgatgcaacagcagaagttaacaaatatttcaaaacaacaa gctgaacagatttcaatactacagactgaagttgaaagattaagaatgaaaacatttcct gctcttgttcaaatgtaa