GENSCAN 1.0 Date run: 5-Nov-116 Time: 11:51:51 Sequence gi568815597r:15841972_16048495 : 206524 bp : 48.66% C+G : Isochore 2 (43 - 51 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 5841 6361 521 2 2 49 50 392 0.048 23.84 1.02 Intr + 30845 31165 321 2 0 91 106 214 0.997 18.48 1.03 Intr + 34231 34707 477 1 0 94 96 351 0.579 28.66 1.04 Intr + 67350 67510 161 0 2 89 98 121 0.917 12.83 1.05 Intr + 69130 69330 201 2 0 31 110 140 0.993 9.76 1.06 Intr + 74157 74308 152 1 2 81 68 160 0.998 13.18 1.07 Intr + 76955 77080 126 1 0 90 94 100 0.999 11.68 1.08 Intr + 77433 77546 114 2 0 45 102 61 0.914 3.84 1.09 Intr + 78899 79012 114 1 0 127 75 108 0.999 14.04 1.10 Intr + 80278 80378 101 0 2 92 95 55 0.997 5.51 1.11 Intr + 86120 94295 8176 2 1 54 99 5612 0.993 546.48 1.12 Intr + 95516 95674 159 1 0 95 121 5 0.926 4.68 1.13 Intr + 95841 96035 195 2 0 58 107 236 0.882 22.11 1.14 Intr + 96747 96905 159 2 0 85 67 221 0.999 19.88 1.15 Term + 97325 97456 132 1 0 92 52 141 0.959 8.99 1.16 PlyA + 98164 98169 6 -0.45 2.27 PlyA - 98468 98463 6 1.05 2.26 Term - 100281 99998 284 1 2 112 49 288 0.658 22.89 2.25 Intr - 100449 100360 90 1 0 88 100 101 0.357 11.27 2.24 Intr - 100767 100558 210 1 0 36 80 397 0.989 32.58 2.23 Intr - 101223 101093 131 2 2 83 93 232 0.991 23.54 2.22 Intr - 101548 101428 121 2 1 74 19 254 0.850 16.65 2.21 Intr - 101744 101628 117 0 0 86 94 229 0.999 23.74 2.20 Intr - 101924 101837 88 2 1 77 91 177 0.964 16.44 2.19 Intr - 102629 102329 301 1 1 108 69 813 0.866 78.14 2.18 Intr - 102868 102726 143 1 2 117 84 276 0.885 29.25 2.17 Intr - 103231 102966 266 2 2 127 78 474 0.999 47.53 2.16 Intr - 103869 103744 126 1 0 65 63 171 0.989 12.95 2.15 Intr - 104323 104183 141 2 0 64 101 165 0.992 15.72 2.14 Intr - 105152 104964 189 0 0 86 100 224 0.996 22.96 2.13 Intr - 106526 106320 207 0 0 83 80 382 0.458 35.95 2.12 Intr - 108282 108176 107 2 2 118 46 62 0.188 4.86 2.11 Intr - 110991 110939 53 0 2 51 109 -11 0.079 -4.99 2.10 Intr - 111527 111463 65 0 2 82 93 58 0.051 4.14 2.09 Intr - 112778 112755 24 0 0 86 89 23 0.030 0.20 2.08 Intr - 116773 116694 80 0 2 109 48 37 0.062 0.99 2.07 Intr - 118668 118601 68 0 2 101 57 49 0.006 0.80 2.06 Intr - 126995 126906 90 2 0 84 87 41 0.009 3.79 2.05 Intr - 148013 147921 93 2 0 60 32 102 0.326 1.96 2.04 Intr - 148965 148916 50 1 2 128 71 38 0.615 4.50 2.03 Intr - 150298 150255 44 0 2 70 80 57 0.463 0.98 2.02 Intr - 150470 150361 110 2 2 49 44 98 0.420 0.58 2.01 Init - 153226 153092 135 1 0 51 95 107 0.478 5.86 2.00 Prom - 156346 156307 40 -4.96 3.00 Prom + 162228 162267 40 -1.96 3.01 Init + 162333 162414 82 2 1 66 111 46 0.886 5.83 3.02 Intr + 163948 164147 200 2 2 151 27 148 0.810 14.07 3.03 Intr + 167141 167280 140 1 2 49 70 87 0.247 2.26 3.04 Term + 171088 171169 82 1 1 102 53 86 0.338 3.67 3.05 PlyA + 171803 171808 6 1.05 4.05 PlyA - 172078 172073 6 1.05 4.04 Term - 173788 173609 180 1 0 76 48 324 0.990 24.81 4.03 Intr - 175218 175103 116 1 2 27 105 230 0.158 18.77 4.02 Intr - 175793 175616 178 2 1 86 80 110 0.264 9.49 4.01 Init - 177189 177163 27 0 0 75 86 26 0.226 -0.25 4.00 Prom - 177543 177504 40 -12.96 5.00 Prom + 178279 178318 40 -6.16 5.01 Init + 180649 180748 100 0 1 67 100 81 0.329 7.63 5.02 Intr + 181829 181957 129 0 0 72 78 183 0.860 16.37 5.03 Intr + 182792 182920 129 0 0 61 105 81 0.936 7.77 5.04 Intr + 184137 184276 140 1 2 50 44 189 0.845 10.88 5.05 Intr + 184565 184642 78 1 0 125 50 129 0.999 12.55 5.06 Intr + 184726 184804 79 0 1 57 81 58 0.986 1.12 5.07 Intr + 185339 185464 126 0 0 70 84 163 0.999 14.75 5.08 Intr + 185850 185934 85 1 1 81 84 108 0.999 8.58 5.09 Intr + 186047 186148 102 2 0 93 68 155 0.999 13.29 5.10 Intr + 186790 186874 85 1 1 49 90 74 0.938 3.52 5.11 Intr + 187155 187328 174 2 0 96 86 186 0.995 19.34 5.12 Intr + 187760 187829 70 1 1 119 97 69 0.918 9.65 5.13 Intr + 187994 188104 111 0 0 12 109 87 0.874 3.55 5.14 Intr + 188490 188703 214 1 1 113 100 418 0.999 43.27 5.15 Intr + 189739 189872 134 1 2 97 49 202 0.952 17.49 5.16 Intr + 190232 190356 125 0 2 91 47 55 0.619 2.00 5.17 Intr + 190475 190555 81 1 0 74 92 54 0.580 4.23 5.18 Term + 191640 191687 48 2 0 139 52 25 0.814 1.30 5.19 PlyA + 192061 192066 6 1.05 6.07 PlyA - 192563 192558 6 -1.95 6.06 Term - 193487 193207 281 0 2 98 51 303 0.543 23.21 6.05 Intr - 194375 194265 111 0 0 107 87 244 0.998 26.55 6.04 Intr - 194822 194604 219 0 0 74 24 271 0.470 17.57 6.03 Intr - 197725 197632 94 1 1 99 69 144 0.862 13.14 6.02 Intr - 198058 198023 36 1 0 139 82 -18 0.598 1.16 6.01 Init - 198797 198681 117 2 0 83 49 21 0.367 -2.09 6.00 Prom - 199151 199112 40 -5.46 7.00 Prom + 199858 199897 40 -3.46 7.01 Init + 200488 200493 6 0 0 100 86 10 0.698 2.31 7.02 Intr + 201614 201675 62 1 2 69 64 39 0.809 -2.87 7.03 Intr + 202515 202621 107 0 2 93 78 129 0.898 12.26 7.04 Intr + 203587 203715 129 2 0 91 76 231 0.575 22.87 7.05 Intr + 204564 204692 129 1 0 78 105 80 0.982 9.37 7.06 Intr + 205934 206085 152 0 2 43 60 138 0.522 6.38 7.07 Intr + 206372 206449 78 1 0 111 50 150 0.999 13.25 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_1|3702_aa MRCRSARVGFGCVVAAELSCEARESEPGGEGWSLHGGEPEEPPPLPTPPPQPPPPPPRHP PPGADGLVRSRRGGASSGGRRHAAQHGPGNQASLGGQLTRERAGREDHRAFQTVSDTRPA AALAPRAPLPAPARCRPLPERGAGEEDSGPDPRALWDLVSRSARVAALGLGCRRYGRVES VKILPKRGSEGGVAAFVDFVDIKSAQKAHNSVNKMGDRDLRTDYNEPGTIPSAARGLDDT VSIASRSREVSGFRGGGGGPAYGPPPSLHAREGRYERRLDGASDNRERAYEHSAYGHHER GTGGFDRTRHYDQDYYRDPRERTLQHGLYYASRSRSPNRFDAHDPRYEPRAREQFTLPSV VHRDIYRDDITREVRGRRPERNYQHSRSRSPHSSQSRNQSPQRLASQASRPTRSPSGSGS RSRSSSSDSISSSSSTSSDSSDSSSSSSDDSPARSVQSAAVPAPTSQLLSSLEKDEPRKS FGIKVQNLPVRSTDTSLKDGLFHEFKKFGKVTSVQIHGTSEERYGLVFFRQQEDQEKALT ASKGKLFFGMQIEVTAWIGPETESENEFRPLDERIDEFHPKATRTLFIGNLEKTTTYHDL RNIFQRFGEIVDIDIKKVNGVPQYAFLQYCDIASVCKAIKKMDGEYLGNNRLKLGFGKSM PTNCVWLDGLSSNVSDQYLTRHFCRYGPVVKVVFDRLKGMALVLYNEIEYAQAAVKETKG RKIGGNKIKVDFANRESQLAFYHCMEKSGQDIRDFYEMLAERREERRASYDYNQDRTYYE SVRTPGTYPEDSRRDYPARGREFYSEWETYQGDYYESRYYDDPREYRDYRNDPYEQDIRE YSYRQRERERERERFESDRDRDHERRPIERSQSPVHLRRPQSPGASPSQAERLPSDSERR LYSRSSDRSGSCSSLSPPRYEKLDKSRLERYTKNEKTDKERTFDPERVERERRLIRKEKV EKDKTDKQKRKGKVHSPSSQSSETDQENEREQSPEKPRSCNKLSREKADKEGIAKNRLEL MPCVVLTRVKEKEGKVIDHTPVEKLKAKLDNDTVKSSALDQKLQVSQTEPAKSDLSKLES VRMKVPKEKGLSSHVEVVEKEGRLKARKHLKPEQPADGVSAVDLEKLEARKRRFADSNLK AEKQKPEVKKSSPEMEDARVLSKKQPDVSSREVILLREGEAERKPVRKEILKRESKKIKL DRLNTVASPKDCQELASISVGSGSRPSSDLQARLGELAGESVENQEVQSKKPIPSKPQLK QLQVLDDQGPEREDVRKNYCSLRDETPERKSGQEKSHSVNTEEKIGIDIDHTQSYRKQME QSRRKQQMEMEIAKSEKFGSPKKDVDEYERRSLVHEVGKPPQDVTDDSPPSKKKRMDHVD FDICTKRERNYRSSRQISEDSERTGGSPSVRHGSFHEDEDPIGSPRLLSVKGSPKVDEKV LPYSNITVREESLKFNPYDSSRREQMADMAKIKLSVLNSEDELNRWDSQMKQDAGRFDVS FPNSIIKRDSLRKRSVRDLEPGEVPSDSDEDGEHKSHSPRASALYESSRLSFLLRDREDK LRERDERLSSSLERNKFYSFALDKTITPDTKALLERAKSLSSSREENWSFLDWDSRFANF RNNKDKEKVDSAPRPIPSWYMKKKKIRTDSEGKMDDKKEDHKEEEQERQELFASRFLHSS IFEQDSKRLQHLERKEEDSDFISGRIYGKQTSEGANSTTDSIQEPVVLFHSRFMELTRMQ QKEKEKDQKPKEVEKQEDTENHPKTPESAPENKDSELKTPPSVGPPSVTVVTLESAPSAL EKTTGDKTVEAPLVTEEKTVEPATVSEEAKPASEPAPAPVEQLEQVDLPPGADPDKEAAM MPAGVEEGSSGDQPPYLDAKPPTPGASFSQAESNVDPEPDSTQPLSKPAQKSEEANEPKA EKPDATADAEPDANQKAEAAPESQPPASEDLEVDPPVAAKDKKPNKSKRSKTPVQAAAVS IVEKPVTRKSERIDREKLKRSNSPRGEAQKLLELKMEAEKITRTASKNSAADLEHPEPSL PLSRTRRRNVRSVYATMGDHENRSPVKEPVEQPRVTRKRLERELQEAAAVPTTPRRGRPP KTRRRADEEEENEAKEPAETLKPPEGWRSPRSQKTAAGGGPQGKKGKNEPKVDATRPEAT TEVGPQIGVKESSMEPKAAEEEAGSEQKRDRKDAGTDKNPPETAPVEVVEKKPAPEKNSK SKRGRSRNSRLAVDKSASLKNVDAAVSPRGAAAQAGERESGVVAVSPEKSESPQKEDGLS SQLKSDPVDPDKEPEKEDVSASGPSPEATQLAKQMELEQAVEHIAKLAEASASAAYKADA PEGLAPEDRDKPAHQASETELAAAIGSIINDISGEPENFPAPPPYPGESQTDLQPPAGAQ ALQPSEEGMETDEAVSGILETEAATESSRPPVNAPDPSAGPTDTKEARGNSSETSHSVPE AKGSKEVEVTLVRKDKGRQKTTRSRRKRNTNKKVVAPVESHVPESNQAQGESPAANEGTT VQHPEAPQEEKQSEKPHSTPPQSCTSDLSKIPSTENSSQEISVEERTPTKASVPPDLPPP PQPAPVDEEPQARFRVHSIIESDPVTPPSDPSIPIPTLPSVTAAKLSPPVASGGIPHQSP PTKVTEWITRQEEPRAQSTPSPALPPDTKASDVDTSSSTLRKILMDPKYVSATSVTSTSV TTAIAEPVSAAPCLHEAPPPPVDSKKPLEEKTAPPVTNNSEIQASEVLVAADKEKVAPVI APKITSVISRMPVSIDLENSQKITLAKPAPQTLTGLVSALTGLVNVSLVPVNALKGPVKG SVTTLKSLVSTPAGPVNVLKGPVNVLTGPVNVLTTPVNATVGTVNAAPGTVNAAASAVNA TASAVTVTAGAVTAASGGVTATTGTVTMAGAVIAPSTKCKQRASANENSRFHPGSMPVID DRPADAGSGAGLRVNTSEGVVLLSYSGQKTEGPQRISAKISQIPPASAMDIEFQQSVSKS QVKPDSVTASQPPSKGPQAPAGYANVATHSTLVLTAQTYNASPVISSVKADRPSLEKPEP IHLSVSTPVTQGGTVKVLTQGINTPPVLVHNQLVLTPSIVTTNKKLADPVTLKIETKVLQ PANLGSTLTPHHPPALPSKLPTEVNHVPSGPSIPADRTVSHLAAAKLDAHSPRPSGPGPS SFPRASHPSSTASTALSTNATVMLAAGIPVPQFISSIHPEQSVIMPPHSITQTVSLSHLS QGEVRMNTPTLPSITYSIRPEALHSPRAPLQPQQIEVRAPQRASTPQPAPAGVPALASQH PPEEEVHYHLPVARATAPVQSEVLVMQSEYRLHPYTVPRDVRIMVHPHVTAVSEQPRAAD GVVKVPPASKAPQQPGKEAAKTPDAKAAPTPTPAPVPVPVPLPAPAPAPHGEARILTVTP SNQLQGLPLTPPVVVTHGVQIVHSSGELFQEYRYGDIRTYHPPAQLTHTQFPAASSVGLP SRTKTAAQTAPKQPLFVPTTSGPSTPPGLVLPHTEFQPAPKQDSSPHLTSQRPVDMVQLL KKYPIVWQGLLALKNDTAAVQLHFVSGNNVLAHRSLPLSEGGPPLRIAQRMRLEATQLEG VARRMTVETDYCLLLALPCGRDQEDVVSQTESLKAAFITYLQAKQAAGIINVPNPGSNQP AYVLQIFPPCEFSESHLSRLAPDLLASISNISPHLMIVIASV >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_1|11109_bp atgcgctgccggagcgcgagggtcggcttcgggtgtgtggtggcggcagagctgagctgc gaggcccgagagtcagaacctgggggagagggatggtctctgcacgggggggagccggag gagccgccgccgctgccgacgccaccgccgcagccgccgccgccgccgccccggcacccg cctcccggcgctgacggtctcgtacgaagccggcgagggggagccagcagcggcggtcgc cggcacgccgcccagcatggtccgggaaaccaggcatctctgggtgggcaacttacccga gaacgtgcgggaagagaagatcatcgagcatttcaaacggtgagtgacacgaggcccgcg gccgcgctcgctcctcgggcgccgcttcccgccccggcccgttgccggcccctcccggag cgcggagctggtgaggaggactccggcccggacccacgggcgctgtgggacctcgtcagc cgctcggcccgcgtcgcggcgttgggcctcgggtgtcggcgatatggccgcgtggaaagt gtcaaaattcttcccaagaggggatctgaaggaggagtggctgcctttgtggattttgtg gacatcaaaagtgcacagaaagctcacaactcggtcaacaaaatgggtgacagagaccta cgcacggattataatgaaccaggcaccatcccgagtgctgctcggggattggatgataca gtttccatagcatctcgtagtagagaggtttctgggttcagaggaggtggtggagggcct gcttatggtcccccaccgtcacttcatgcacgagaaggacgttatgagcggagacttgat ggggcttcagataacagggagcgtgcttatgaacatagtgcctatggacaccatgaacgg gggacgggaggatttgatcggacaagacattacgatcaggattactatagagatcctcga gagcggactttacaacatgggctctattacgcttctcggagtcgaagtccaaatcgcttt gatgctcatgacccccgatatgaacctagggctcgcgagcagtttacactgcccagtgtg gtacacagggatatctacagggatgatattacccgggaggtacgaggcagaaggccagag cggaattaccagcacagcaggagtcggtcaccacattcatcccagtctagaaatcagtct cctcagagactggctagccaagcatctagacccacaaggtcccctagcggcagcggctct agaagtagatcctccagtagtgattcaatcagcagcagcagtagtaccagcagtgacagc agtgattccagcagtagttcaagtgatgattctccagctcgatcagttcagtctgcagca gtccctgcacccacttcccagttgctttcatctctggaaaaagatgagccccgtaaaagt tttggcatcaaggtccagaatcttccagtacgctctacagatacaagccttaaagatggc cttttccatgaatttaagaaatttggaaaagtaacttcagtgcagatacatggaacttca gaagagaggtatggtctggtattctttcggcagcaagaggaccaagaaaaagccttgact gcatcaaaaggaaaacttttctttggcatgcagattgaagtaacagcatggataggtcca gaaacagaaagtgaaaatgaatttcgccccttggatgaaaggatagatgaatttcacccc aaagcaacaagaactctctttattggcaaccttgaaaaaaccactacttaccatgacctt cgcaacatcttccagcgctttggagaaattgtggatattgacattaagaaagtaaatgga gttcctcagtatgcgtttctgcaatactgtgatattgctagcgtttgtaaagctattaag aagatggatggggaatatcttggaaataatcgcctcaagctgggttttggaaagagcatg cctacaaactgcgtgtggctagatgggctttcttcgaatgtgtcagatcagtatttaaca cgacatttctgccgatatgggcctgtggtaaaggtggtgtttgaccgcttaaaaggcatg gccctggttctctacaatgaaattgaatatgcacaagcagctgtaaaagagaccaaaggg aggaaaatcggtgggaataaaattaaggtggattttgcaaatcgggaaagtcagctggct ttttatcactgcatggagaaatctggtcaagacatcagagacttttatgaaatgttagcc gaaagaagagaggaacgaagggcatcctacgactataaccaagatcgtacatattatgag agtgttcgaactccaggcacttatcctgaggattccaggcgggactatccagctcgaggg agagagttttattcagaatgggaaacttaccaaggagactactatgaatcacgatactac gatgatcctcgggaatacagggattacaggaatgatccttatgaacaagatattagggaa tatagttacaggcaaagggaacgagaaagagaacgtgaaagatttgagtctgaccgggac agagaccatgagaggaggccgattgaacgaagtcaaagtcctgttcacttgcgacgtcca cagagtcctggagcgtctccctctcaggcagagaggttgccgagtgattctgagaggagg ctttacagccgatcctcagaccggagtggaagctgtagctcactctcccctccaagatat gagaaactggacaagtctcgtttggagcgctatacaaaaaatgaaaagacagataaagaa cgaacttttgatccggagagagtggagagagagagacgcttaatacggaaggaaaaagtg gaaaaggacaaaactgacaagcagaaacgcaaaggaaaggttcactcccctagttctcag tcttcagaaacggaccaagaaaatgagcgagagcaaagccctgaaaagcccaggagttgt aataaactgagcagagagaaagctgacaaagagggaatagcgaaaaaccgcctggaactc atgccttgcgtggttttgactcgagtgaaagagaaagagggaaaggtcattgaccacact cctgtggaaaagttgaaagccaagcttgataatgacactgtcaaatcttctgccctggac cagaaacttcaggtctctcagacggagcctgcaaaatctgacttgtctaaactggaatca gttagaatgaaagtaccaaaggaaaaggggctttcaagccatgttgaagtggtggagaag gaaggcaggcttaaagccaggaagcacctcaagcctgagcagcctgcagatggggtaagt gctgtggatctggagaagctggaagccaggaaaaggcgctttgcagattccaatttaaaa gcagaaaagcaaaaaccagaggtcaagaaaagcagtccagagatggaggatgctcgcgtg ctttcaaaaaagcagcctgacgtgtcctctagagaggtcattctgctgagggaaggagag gctgaaagaaagcctgtgaggaaagaaattcttaaaagagaatctaaaaaaatcaaactg gacagacttaatactgttgccagccccaaagactgtcaggagcttgccagtatttctgtt gggtctggctcaaggcccagctcagacctacaagcaagactgggagaactagcaggtgaa tctgtggaaaatcaagaagtccaatcaaaaaagcccattccctcaaaaccacagctcaaa cagctgcaggtattagatgatcaaggaccagagagagaagacgttaggaaaaactattgc agtcttcgtgatgaaacacctgaacgtaaatcaggccaagagaaatcacattcagtaaat actgaagaaaaaattggcattgacatcgatcacacgcagagttaccgaaaacaaatggaa cagagtcgtaggaaacagcagatggaaatggaaatagccaagtctgagaagtttggcagt cctaaaaaagatgtagatgaatatgaaagacgtagcctcgttcacgaggtaggcaaaccc cctcaagatgtcactgatgactctcctcctagcaaaaagaaaaggatggatcatgtcgat tttgatatctgcaccaagcgagaacggaattacagaagttcacgccaaatcagcgaagat tctgaaaggactggtggttctcccagtgtccgacatggttccttccatgaagatgaggat cccataggctcccctaggctactgtcagtaaaagggtctcctaaagtagatgaaaaagtc ctcccctattctaacataacagtcagggaagagtctttaaaatttaatccttatgattct agcaggagagaacagatggcagatatggccaaaataaaactatctgtcttgaattctgaa gatgaactaaatcgttgggactctcagatgaaacaggatgctggcagatttgatgtgagt ttcccaaacagcataattaagagagatagccttcgaaaaaggtctgtacgagatctggaa cctggtgaggtgccttctgattctgacgaagatggtgaacacaaatcccactcacccaga gcctctgcattatatgaaagttctcgattgtcttttttattgagggacagagaagacaag ctacgtgagcgagatgaaagactctctagttctttagaaaggaacaaattttactctttt gcattggataagacaatcacaccagacactaaagctttgcttgaaagagctaaatccctc tcttcatctcgtgaagaaaattggtcttttcttgattgggactcccgatttgcaaatttt cgaaacaacaaagataaagaaaaggttgactctgctccaagacctattccatcctggtac atgaaaaagaagaaaattaggactgattcagaagggaaaatggatgataagaaagaggac cataaagaagaagagcaagagaggcaggaattgtttgcttctcgttttttacacagctca atctttgaacaagattccaagcgattgcagcatctagagagaaaagaggaagattctgac ttcatttctggtaggatctatgggaagcagacatctgagggagcaaacagcacaactgat tccattcaagaaccagtagttctgttccatagcagatttatggagctcacacggatgcaa cagaaagaaaaagaaaaagaccagaaacccaaagaggttgagaaacaggaagatacagag aatcatcccaagaccccagaatctgctcctgagaataaagattcagaactgaaaactcca ccttccgttgggcctccaagtgtcacagtcgtaactctagaatcagccccatcagcacta gagaagaccactggtgacaaaacggtagaggcgcctttggtaacagaagagaagactgtg gagccagctaccgtctcagaagaagcaaagcctgcatctgaacctgctcctgcccctgtg gaacagctggaacaagtagacctgcccccaggagcagaccccgataaagaagctgccatg atgcctgcgggtgttgaggaaggttcatcaggtgaccagccgccttatctggatgccaag cctccaactcccggggcctcgttttcccaggcagagagcaacgtagatccagagcctgac agtacccagccactttcaaaaccagctcagaagtctgaggaagccaatgagccaaaggcc gaaaagccagacgccactgcagatgctgagcctgatgcaaaccagaaagccgaagctgct cctgagtctcagcccccagcttctgaagatttagaggttgatcctccagttgctgcaaag gataaaaagccaaacaaaagcaagcgttcaaagacccctgttcaggcagctgcagtgagt atcgtggagaagcccgtcacaaggaagagtgagaggatagaccgggaaaaactcaagcgg tccaattctcctcggggagaagcacagaagcttttggaattgaagatggaggcagagaag attacaaggactgcttctaaaaactctgctgcagaccttgaacatcccgaaccaagtttg cctctcagccgaacaaggcgccggaatgtaaggagcgtctatgcaaccatgggtgaccat gaaaaccgctctcctgtcaaagagcccgttgagcaaccaagagtgaccagaaagagattg gagcgagagcttcaggaggctgcagcggttcccaccacccctcggaggggaaggcctcca aagacacgccggcgagccgatgaagaggaggagaacgaggccaaggaacctgcagaaaca ctcaagccacctgagggatggcggtcgccaaggtcccagaaaactgcagctggtggtgga ccccaagggaaaaagggaaaaaatgaaccgaaggtggatgctacacgtcctgaggccacc actgaggtgggcccccaaataggcgtgaaagagagctccatggaacccaaggctgctgag gaggaggcagggagtgaacagaaacgtgacagaaaagatgctggcacagacaaaaacccc cctgaaaccgcccctgttgaagttgtagagaaaaaaccggcccctgaaaaaaactccaaa tcaaagagaggaagatctcgaaactccaggttagcagtggacaaatctgcaagtctgaaa aatgtggatgctgctgtcagtcccaggggggctgcagcacaggcaggggagagggaatct ggggtggtggcagtctcccctgagaaaagtgagagtccccaaaaggaggatggtttatca tcccagttgaaaagtgatccagttgatccagacaaggaaccagagaaagaagacgtgtct gcctctgggccgtccccagaagccacccagttagccaagcagatggagctggagcaggcc gtggaacacatcgcaaagctcgctgaggcctctgcctctgctgcctataaggcagatgca ccagagggccttgccccagaggacagggacaagcctgcacaccaagcaagtgaaacagag ctggctgcggccatcggctccatcatcaatgacatttctggggagccagaaaacttccca gcacctccaccttatcctggagaatcccagacagatctgcaaccccccgcaggtgcacag gcgctgcagccttctgaggaaggaatggagacagatgaggctgtatctggcatcctggaa actgaggctgctacagaatcttctaggcctccagtcaatgctcctgacccctcagccggc ccaacagataccaaggaagccagaggaaatagcagtgaaacctcacactcagtgccagaa gccaaagggtctaaagaagtggaagtcactcttgttcggaaagacaaagggcgccagaaa acaacccgatcacgccgcaagcgaaacacaaacaagaaagtggtggctcctgtagagagc catgtccctgaatccaaccaagctcaaggtgagagtcctgctgcaaatgaggggacaaca gtacagcaccccgaagccccacaggaagaaaagcagagtgagaaaccccattccactcct cctcagtcatgtacttctgacctaagcaagattccctccacagagaattcgtcccaagaa atcagtgttgaggaaaggactccaaccaaagcatctgtgcccccagaccttcccccacct ccccagccagcaccggtggatgaggagcctcaagccaggttcagggtgcattccatcatt gaaagtgacccggtgaccccacccagcgatccaagcatccccatacccacactgccttct gtaactgcagcaaagctctcacctcctgtcgcctctggggggatcccacaccagagcccc cctactaaggtgacagagtggatcacaaggcaggaggagccacgggctcagtctactcca tctccagctcttcccccagacacaaaggcctctgatgttgacaccagctccagcaccctg aggaagattctcatggaccccaagtatgtgtctgccacaagtgtcacttccacaagtgtc accacagccattgcagagcctgtcagtgctgccccttgcctacatgaggccccgcccccg ccagttgactctaaaaagcctttagaagaaaaaacagcacctccagtgacaaacaactct gagatacaagcctcggaggtgctggtagctgctgacaaggaaaaggtggctccagtcatt gctcccaaaattacctctgttattagccggatgcctgtcagcattgacctggaaaattca cagaagataaccttggcaaaaccagctcctcaaaccctcactggtctggtgagcgcactc actggcctggtgaacgtctccctggtcccggtgaatgccctgaaaggccccgtgaagggc tcagtgaccacactgaaaagtttggtgagcacccctgctgggcccgtgaacgtcctgaaa gggcctgtgaatgttcttacggggccagtgaatgttctcaccactccagtgaacgccacg gtgggcacagtgaatgccgccccaggcacagtcaatgccgctgcgagtgcagtgaatgcc acagcaagtgcagtgaccgtcacagcgggtgcggttactgctgcatctggtggtgtaacg gccacaacaggcacggtgacaatggcaggggcagtgattgcgccgtcaacaaagtgcaaa cagagagcgagtgctaatgaaaacagtcggttccacccagggtccatgcctgtgatcgac gatcgtccggcagacgcgggctcaggggcggggctgcgtgtgaacacttctgaaggggtt gtgctcctgagttactcagggcagaagaccgaaggcccacagcggatcagcgccaagatc agccagatccccccggccagtgcaatggacattgaatttcagcagtcagtgtccaagtcc caggtcaaacctgattctgtcacagcatcgcagcctccatccaaaggccctcaagctcct gcaggctatgcgaacgtggccacccattccacgttggtactgaccgcccagacatataat gcctctcctgtgatttcgtctgtgaaggccgataggccatccttggagaagcccgagccc attcacctctcggtgtccacgcctgtcacccagggaggcacagtgaaggttctcacccag gggatcaacacaccccctgtgctggttcacaaccagctggtcctcaccccaagcattgtc accacaaacaagaagcttgctgaccccgtcacccttaaaatcgagaccaaggtccttcag ccggccaacctggggtccacgctcacgccccaccaccctcctgctctgcccagcaaactg cctacagaagtcaaccatgtcccctcggggcccagcatcccagcagatcgaactgtctcc catttggcagctgcaaagctagatgctcattctcctcgaccaagtggacccgggccatcc tcattcccaagggcaagccaccccagcagtactgcatctacggcgctctccaccaacgcc acagtcatgctggctgcaggcatcccagtgccccagttcatctccagcatccacccagag cagtctgtcatcatgccaccccacagcatcacccagactgtgtccctgagccacctctcc cagggcgaggtgagaatgaacactcccacgctgcccagtatcacctacagcatccggcca gaagcgcttcactctcctcgggctccgctgcagccccagcaaatagaggtcagggcccca cagcgtgccagcaccccgcagccagccccagctggtgtgcctgcactggcctcccagcac cctcccgaggaggaagtgcattatcaccttcctgtcgctcgagccacagcccctgtgcag tcagaggtactagtcatgcagtctgagtaccgactgcacccctatactgtgccacgggat gtgaggatcatggtgcatccacatgtgacggcagtcagcgagcagcccagggccgcggat ggggtggtgaaggtgccaccagccagcaaggcccctcagcagccagggaaggaagctgcc aagacaccagatgccaaagctgcccccacccccacccctgcccccgtccctgtccctgtc ccccttcctgcccctgctcctgcccctcatggtgaggcccgtatcctcacagttaccccc agtaaccaactccaggggctgcctctgacccctcctgtggtggtgacccatggggtgcag attgtgcactccagcggggagctgtttcaagagtaccggtacggcgacatccgcacctac caccccccggcccagctcacacacactcagtttcccgccgcttcctctgttggcctgcct tcccggaccaagacagctgctcagactgccccaaaacagccgttgtttgtcccaacaacc tctggccccagcaccccaccaggactggttctgccacacactgaattccagccagccccc aaacaagattcctctccacacctgacttcccagagacccgtggatatggttcaacttctg aagaagtaccccatcgtgtggcagggcctgctggccctcaagaatgacacagctgctgtg cagctccacttcgtctctggcaacaacgtcctggcccatcggtccctgcccctttctgaa ggagggcccccactaaggatcgcccagaggatgcggctggaggcaacgcagctggaaggg gttgcccgaaggatgacggtggagacagattactgtctgctgctggctctgccctgtggc cgtgaccaagaggatgttgtgagccagaccgagtccctcaaggctgccttcatcacttac ctgcaggccaagcaggcggcagggatcatcaacgttcccaaccctggctccaatcagcct gcctacgtgctgcagatcttcccgccctgtgagttctctgagagtcacctgtcccgcctg gcccctgacctccttgccagcatctccaacatctctccccacctcatgattgtcattgcc tccgtgtga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_2|1110_aa MVSTEVRTLVVGPGALEGLAMVGFVIWGLVCSICECLSSCTLTRDSPEEEEEEKAKRKAQ VVVLEVLGTPQLLTAPGGDSGGGPRVSENCIIIQGPGQERKPNSKSMENPTSQGVPLTSQ HLGQCPEYVLLRQIKEEQGGDVAQATDQQWFVAQGLGTPGIVDIYEMLLTSCCKKEGGGY HQVLSIYAFDSDSCRVECGHVVPGWRFGSPHSALITLSFCPSEASRVAGTTGALAALLAP LTLAATLGLKAALLSPAAQHSTPKPSGISHRSQIGTCCFQGLRTGEKGLCALLQVAVCCC QPLGALAMDFPQHSQHVLEQLNQQRQLGLLCDCTFVVDGVHFKAHKAVLAACSEYFKMLF VDQKDVVHLDISNAAGLGQVLEFMYTAKLSLSPENVDDVLAVATFLQMQDIITACHALKS LAEPATSPGGNAEALATEGGDKRAKEEKVATSTLSRLEQAGRSTPIGPSRDLKEERGGQA QSAASGAEQTEKADAPREPPPVELKPDPTSGMAAAEAEAALSESSEQEMEVEPARKGEEE QKEQEEQEEEGAGPAEVKEEGSQLENGEAPEENENEESAGTDSGQELGSEARGLRSGTYG DRTESKAYGSVIHKCEDCGKEFTHTGNFKRHIRIHTGEKPFSCRECSKAFSDPAACKAHE KTHSPLKPYGCEECGKSYRLISLLNLHKKRHSGEARYRCEDCGKLFTTSGNLKRHQLVHS GEKPYQCDYCGRSFSDPTSKMRHLETHDTDKEHKCPHCDKKFNQVGNLKAHLKIHIADGP LKCRECGKQFTTSGNLKRHLRIHSGEKPYVCIHCQRQFADPGALQRHVRIHTGEKPCQCV MCGKAFTQASSLIAHVRQHTGEKPYVCERCGKRFVQSSQLANHIRHHDNIRPHKCSVCSK AFVNVGDLSKHIIIHTGEKPYLCDKCGRGFNRVDNLRSHVKTVHQGKAGIKILEPEEGSE VSVVTVDDMVTLATEALAATAVTQLTVVPVGAAVTADETEVLKAEISKAVKQVQEEDPNT HILYACDSCGDKFLDANSLAQHVRIHTAQALVMFQTDADFYQQYGPGGTWPAGQVLQAGE LVFRPRDGAEGQPALAETSPTAPECPPPAE >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_2|3333_bp atggtgtcaacggaagtcaggacactggttgtggggccgggggcgctggaggggctggcc atggttggctttgtgatctgggggctggtgtgttccatctgtgaatgtctttcgagctgc acacttaccagggatagtccggaggaagaggaggaagaaaaggcgaagaggaaggcccaa gtagtagtgttggaggtcctgggcactccccaactactgactgccccagggggtgactcg ggaggaggcccaagggtgtctgagaactgcatcatcatccagggcccagggcaggaaagg aaacccaactccaaatccatggagaaccccacgtcccagggagtgcctctcaccagccag catctgggccagtgcccagaatatgtcctcctcaggcagataaaggaggaacaaggcggc gacgtggctcaggccacggaccagcagtggtttgtggcccaggggttgggaacccctggt atagtggacatttatgaaatgttacttacctcctgctgcaagaaagaaggtggcggttac catcaagtattaagcatttatgcctttgattctgattcctgtcgagtggagtgtggtcac gtcgtcccaggctggcgcttcggcagcccccattcagcactcatcacactgtccttctgc cccagtgaagcctcccgagtggctggaaccacaggagccttggcggctctcttagctcct ctgaccctcgctgccacgctgggcctcaaggcagccctgttatctcctgctgcacagcac agcaccccaaaacccagtggcataagtcatcggtcacagataggaacctgctgcttccag ggactgaggacaggagagaaaggcctctgtgctttgctccaggtggccgtgtgctgctgc cagccacttggtgcacttgccatggactttccccagcacagccagcatgtcttggaacag ctgaaccagcagcggcagctggggcttctctgtgactgcacctttgtggtggacggtgtt cactttaaggctcataaagcagtgctggcggcctgcagcgagtacttcaagatgctcttc gtggaccagaaggacgtggtgcacctggacatcagtaacgcggcaggcctggggcaggtg ctggagtttatgtacacggccaagctgagcctgagccctgagaacgtggatgatgtgctg gccgtggccactttcctccaaatgcaggacatcatcacggcctgccatgccctcaagtca cttgctgagccggctaccagccctgggggaaatgcggaggccttggccacagaaggaggg gacaagagagccaaagaggagaaggtggccaccagcacgctgagcaggctggagcaggca ggacgcagcacacccataggccccagcagggacctcaaggaggagcgcggcggtcaggcc cagagtgcggccagcggtgcagagcagacagagaaagccgatgcgccccgggagccgccg cctgtggagctcaagccagaccccacgagtggcatggctgctgcagaagctgaggccgct ttgtccgagagctcggagcaagaaatggaggtggagcccgcccggaaaggggaagaggag caaaaggagcaagaggagcaagaggaggagggcgcagggccagctgaggtcaaggaggag ggttcccagctggagaacggagaggcccccgaggagaacgagaatgaggagtcagcgggc acagactcggggcaggagctcggctccgaggcccggggcctgcgctcaggcacctacggc gaccgcacggagtccaaggcctacggctccgtcatccacaagtgcgaggactgtgggaag gagttcacgcacacggggaacttcaagcggcacatccgcatccacacgggggagaagccc ttctcgtgccgggagtgcagcaaggccttttccgacccggccgcgtgcaaggcccatgag aagacgcacagccctctgaagccctacggctgcgaggagtgcgggaagagctaccgcctc atcagcctgctgaacctgcacaagaagcggcactcgggcgaggcgcgctaccgctgcgag gactgcggcaagctcttcaccacctcgggcaacctcaagcgccaccagctggtgcacagc ggcgagaagccctaccagtgcgactactgcggccgctccttctccgaccccacttccaag atgcgccacctggagacccacgacacggacaaggagcacaagtgcccacactgcgacaag aagttcaaccaggtagggaacctgaaggcccacctgaagatccacatcgctgacgggccc ctcaagtgccgagagtgtgggaagcagttcaccacctcagggaacctgaagcggcacctt cggatccacagcggggagaagccctacgtgtgcatccactgccagcgacagtttgcagac cccggcgctctgcagcggcacgtccgcattcacacaggtgagaagccatgccagtgtgtg atgtgcggtaaggccttcacccaggccagctccctcatcgcccacgtgcgccagcacacc ggggagaagccctacgtctgcgagcgctgcggcaagagattcgtccagtccagccagttg gccaatcatattcgccaccacgacaacatccgcccacacaagtgcagcgtgtgcagcaag gccttcgtgaacgtgggggacctgtccaagcacatcatcattcacactggagagaagcct tacctgtgtgataagtgtgggcgtggcttcaaccgggtagacaacctgcgctcccacgtg aagaccgtgcaccagggcaaggcaggcatcaagatcctggagcccgaggagggcagtgag gtcagcgtggtcactgtggatgacatggtcacgctggctaccgaggcactggcagcgaca gccgtcactcagctcacagtggtgccggtgggagctgcagtgacagccgatgagacggaa gtcctgaaggccgagatcagcaaagctgtgaagcaagtgcaggaagaagaccccaacact cacatcctctacgcctgtgactcctgtggggacaagtttctggatgccaacagcctggct cagcatgtgcgaatccacacagcccaggcactggtcatgttccagacagacgcggacttc tatcagcagtatgggccaggtggcacgtggcctgccgggcaggtgctgcaggctggggag ctggtcttccgccctcgcgacggggctgagggccagcccgcactggcagagacctcccct acagctcctgaatgtcccccgcctgccgagtga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_3|167_aa MAPSEDPRDWRANLKGTIRETGLETSSGGKLAGHQKTVPTAHLTFVIDCTHGKQLSLAAT ASPPQAPSPNRGLVTPPMKTYIVFCGENWPHLTRAPRTRLQREFETLKEKGDLWLHIRLF TSRCRPLIRLEDTGSRPGQGRVTLAGLAAKGSFRPDVPQRPSGRLVP >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_3|504_bp atggccccgtcagaagaccccagggactggagagccaacctcaaaggcaccatccgtgag acaggcctggagaccagctccggtgggaagctggctggccatcagaagaccgtccccacg gctcacctgacttttgttattgactgcacccacgggaagcagctctccctggcagcaacc gcatcaccaccccaagcccccagtcccaatcgagggcttgtcaccccaccaatgaagacc tacatcgtgttctgtggggaaaactggccccatctgactcgggccccaaggacaaggctg cagagggagtttgagaccctcaaggagaaaggagacctgtggctgcacatccggcttttc accagcaggtgtcgccctctcatcagactagaggacactgggtccaggcctggacaggga agggtcaccttggccgggctggcggccaagggctccttcagacccgacgtgccccagcgg cccagcggccgcttggtcccctga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_4|166_aa MASTLAQGKASDPGPEGRGGAQGGDVCSRAPPKALWLPVGLEQVLHSLQPCVATKTDVAT GTDVAMKTGNIKTLGDAYEFAVDVRDFSPEDIIVTTSNNHIEVRAEKLAADGTVMNTFAH KCQLPEDVDPTSVTSALREDGSLTIRARRHPHTEHVQQTFRTEIKI >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_4|501_bp atggcctccaccctggcccagggcaaggcaagtgatccgggccctgaggggaggggaggt gcacagggaggggacgtctgctccagggcgccaccgaaggcgctgtggctgccggtcggc ctggaacaggtgctgcacagcctgcagccatgtgtggccaccaagacagatgtggccaca gggacagatgtggccatgaaaacaggcaacatcaagaccctaggagacgcctatgagttt gcggtggacgtgagagacttctcacctgaagacatcattgtcaccacctccaacaaccac atcgaggtgcgggctgagaagctggcggctgacggcactgtcatgaacaccttcgctcac aagtgccagctgccggaggacgtggacccgacgtcggtgacctcggctctgcgggaggac ggcagcctcactatccgggcacggcgtcacccgcatacagaacacgtccagcagaccttc cggacggagatcaaaatctga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_5|669_aa MEELVGLREGFSGDPVTLQELWGPCPHIRRAIQGGLEWLKQKVFRLGEDWYFLMTLGVLM ALVSYAMNFAIGCVVRAHQWLYREIGDSHLLRYLSWTVYPVALVSFSSGFSQSITPSSGG SGIPELKTMLAGVILEDYLDIKNFGAKVVGLSCTLATGSTLFLGKVGPFVHLSVMIAAYL GRVRTTTIGEPENKSKQNEMLVAAAAVGVATVFAAPFSGVLFSIEVMSSHFSVRDYWRGF FAATCGAFIFRLLAVFNSEQETITSLYKTSFRVDVPFDLPEIFFFVALGGICGVLSCAYL FCQRTFLSFIKTNRYSSKLLATSKPVYSALATLLLASITYPPGVGHFLASRLSMKQHLDS LFDNHSWALMTQNSSPPWPEELDPQHLWWEWYHPRFTIFGTLAFFLVMKFWMLILATTIP MPAGYFMPIFILGAAIGRLLGEALAVAFPEGIVTGGVTNPIMPGGYALAGAAAFSGAVTH TISTALLAFELTGQIVHALPVLMAVLAANAIAQSCQPSFYDGTIIVKKLPYLPRILGRNI GSHHVRVEHFMNHSITTLAKDTPLEEVVKVVTSTDVTEYPLVESTESQILVGIVQRAQLV QALQAEPPSRAPGHQVVTPEGRGDGAGCLQDILARGCPTEPVTLTLFSETTLHQMKKAIS NLTNPPAPK >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_5|2010_bp atggaggagttggtggggctgcgtgagggcttctcaggggaccctgtgactctgcaggag ctgtggggcccctgtccccacatccgccgagccatccaaggtggcctggagtggctaaag cagaaggtgttccgcctgggagaagactggtacttcctgatgaccctcggggtgctcatg gccctggtcagctatgccatgaactttgccatcgggtgtgtggtccgagcacaccagtgg ctgtacagggagattggggacagccacctgctccggtatctttcctggactgtgtaccct gtggccctcgtctctttctcctcaggcttctcccagagcatcacgccctcctctggaggt tctggaatcccggagctgaagaccatgttggcgggtgtgatcttggaggactacctggat atcaagaactttggggccaaggtggtgggcctctcctgcaccctggccaccggcagcacc ctgttcctgggcaaagtgggccctttcgtgcacctgtctgtaatgatcgctgcctacctg ggccgtgtgcgcaccacgaccatcggggagcctgagaacaagagcaagcaaaacgaaatg ctggtggcagcggcggcagtgggcgtggccacagtctttgcagctcccttcagcggcgtc ctgttcagcatcgaggtcatgtcttcccacttctctgtccgggattactggaggggcttc tttgcggccacctgcggggccttcatattccggctcctggcagtcttcaacagcgagcag gagaccatcacctccctctacaagaccagtttccgggtggacgttcccttcgacctgcct gagatcttcttttttgtggcgctgggtggcatctgcggcgtcctgagctgtgcttacctc ttctgtcagcgaaccttcctcagcttcatcaagaccaatcggtacagctccaaactgctg gctactagcaagcctgtgtactccgctctggccaccttgcttctcgcctccatcacctac ccgcctggtgtgggccacttcctagcttctcggctgtccatgaagcagcatctggactcg ctgttcgacaaccactcctgggcgctgatgacccagaactccagcccaccctggcccgag gagctcgacccccagcacctttggtgggaatggtaccacccgcggttcaccatctttggg acccttgccttcttcctggttatgaagttctggatgctgattctggccaccaccatcccc atgcctgccgggtacttcatgcccatctttatccttggagctgccatcgggcgcctcttg ggagaggctcttgccgtcgccttccctgagggcattgtgactggaggggttaccaatccc atcatgcccggggggtatgctctggcaggggctgcagccttctcaggggctgtgacccac accatctccacggcgctgctggcctttgagctgaccggccagatagtgcatgcactgccc gtgctgatggcggtgctggcagccaacgccattgcacagagctgccagccctccttctat gatggcaccatcattgtcaagaagctgccatacctgccacggattctgggccgcaacatc ggctcccaccatgtgagggtggagcacttcatgaaccacagcatcaccacactggccaag gacacgccgctggaggaggtggtcaaggttgtgacctccacagacgtgaccgagtatccc ctggtggagagcacagagtcccagatcctggtaggcatcgtgcagagggcccagctggtg caggccctccaggctgagcctccttccagggctccaggacaccaggtggttactcctgag gggcgtggggatggggcggggtgtctccaggacatcttggccaggggctgccccacggaa ccagtgaccctgacgctattctcagagaccaccttgcaccagatgaagaaagcaatttcc aacctgacaaatccgccagctccaaagtga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_6|285_aa MPQQREQGPPGEGRDGSQSGMDGREGLKCSRKSSLLEKEDKQMDFCWDPWQRCFQTTNGH LSDSRSCPGNYNVAALATSFLVGVVQSIKDHITKPTAMARGRVAHLIEWKGWSAQRAGWE LSPAEDEHYCCLRISSVRPALLQVSEEGDWPGLCGGVAEQFAITEATLSAWSSLDEEELH PENSPQGIVQLQDLESIYLQDSLPSGPSQDDSLQAFSSLSPSPDSCPSPEEPPSTAGIPQ PPSPELQHRRRLPGAQGPEGGTHPLGSLPSMDSGSLWEEDEVFYN >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_6|858_bp atgccgcagcagagagagcaaggccccccgggggagggcagggatgggagccagtccggg atggacgggcgagaaggtcttaagtgcagcaggaaaagctctttgttggagaaggaggac aaacagatggatttctgttgggatccttggcagaggtgcttccagaccaccaacggccac ctgtccgactccaggtcctgccccggcaactacaacgtggcagccctggccacctcgttc cttgtgggggtggtgcagagcatcaaggaccacatcacaaagcccacggccatggcccga ggccgcgtggcccacctcatcgagtggaagggctggagtgcccagcgggcaggctgggag ctgtccccagctgaggacgagcattactgctgcctccggataagctcagtgaggcccgct ttgctgcaggtcagcgaggagggggactggccagggctctgtgggggggtcgccgagcag tttgccatcacagaggccacactgagcgcttggtcctcgctggacgaagaggagctgcac cccgagaacagcccccagggcatcgtccagctccaagatctggagagcatctaccttcag gacagccttcccagcggcccctcacaggatgacagccttcaggccttctcctcgctcagc ccctcccctgacagctgtccctcacctgaggagccccccagcaccgctggcatcccgcag ccccccagcccagagctgcagcatcggcggcggctgcccggggcccaaggacccgagggt ggaacccaccccctgggctccctcccctccatggacagcggctccctctgggaggaggac gaggtgttctataactga >gi568815597r:15841972_16048495|GENSCAN_predicted_peptide_7|221_aa MKPPSSSTQEPEYSWAPPSVQLWGLMEEFVGLREGSSGNPVTLQELWGPCPRIRRGIRGG LEWLKQKLFRLGEDWYFLMTLGVLMALVSCAMDLAVESVVRAHQWLYREIGDSHLLRYLS WTVYPVALVSFSSGFSQSITPSSGGSGIPEVKTMLAGVVLEDYLDIKNFGAKVVGLSCTL ACGSTLFLGKVVWAGGPFVHLSVMMAAYLGRVRTTTIGEPE >gi568815597r:15841972_16048495|GENSCAN_predicted_CDS_7|663_bp atgaagcccccgtccagcagcacccaggagcctgagtacagctgggcaccaccctctgtg cagctatggggcctgatggaggagtttgtggggctgcgtgaaggctcctcagggaaccct gtgactctgcaggagctgtggggcccctgtccccgcatccgccgaggcatccgaggtggc ctggagtggctgaagcagaagctcttccgcctgggcgaggactggtacttcctgatgacc ctcggggtgctcatggccctggtcagctgtgccatggacttggctgttgagagtgtggtc cgagcgcaccagtggctgtacagggagattggggacagccacctgctccggtatctctcc tggactgtgtaccctgtggccctcgtctctttctcttcaggcttctctcagagcatcaca ccctcctctggaggttctggaatcccggaggtgaagaccatgttggcgggtgtggtcttg gaggactacctggatatcaagaactttggggccaaagtggtgggcctctcctgcaccctg gcctgtggcagcaccctcttcctcgggaaagtggtatgggcagggggccctttcgtgcac ctgtctgtgatgatggctgcctacctgggccgtgtgcgcaccacgaccatcggggagcct gag