GENSCAN 1.0 Date run: 5-Nov-116 Time: 21:15:06 Sequence gi568815595r:124663626_124987000 : 323375 bp : 44.71% 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 + 2027 2075 49 1 1 77 89 47 0.833 2.81 1.02 Intr + 2621 2670 50 0 2 112 55 45 0.893 2.00 1.03 Intr + 2824 3009 186 0 0 130 100 289 0.995 34.19 1.04 Intr + 3387 3558 172 2 1 77 64 189 0.982 14.92 1.05 Intr + 8035 8273 239 2 2 77 115 60 0.766 4.93 1.06 Intr + 10736 10989 254 1 2 75 108 356 0.668 32.53 1.07 Intr + 14565 14688 124 0 1 53 87 61 0.710 3.09 1.08 Intr + 17306 17453 148 1 1 88 82 21 0.530 1.31 1.09 Intr + 21286 21419 134 2 2 84 60 45 0.244 1.66 1.10 Intr + 30179 30206 28 1 1 102 113 25 0.970 4.09 1.11 Intr + 30707 30878 172 0 1 56 99 111 0.951 8.00 1.12 Intr + 32509 32630 122 1 2 49 87 90 0.997 5.14 1.13 Intr + 33968 34099 132 0 0 120 50 94 0.998 9.42 1.14 Intr + 36244 36408 165 2 0 31 101 152 0.997 10.73 1.15 Intr + 38413 38491 79 2 1 64 90 62 0.836 2.61 1.16 Intr + 49310 49510 201 2 0 96 93 176 0.915 17.30 1.17 Intr + 53622 53760 139 0 1 81 85 135 0.986 12.97 1.18 Term + 55300 55845 546 0 0 80 42 597 0.998 48.58 1.19 PlyA + 56060 56065 6 1.05 2.00 Prom + 56609 56648 40 -4.96 2.01 Init + 66847 67002 156 0 0 104 53 194 0.939 17.65 2.02 Intr + 71468 71621 154 1 1 102 53 35 0.958 1.05 2.03 Intr + 73943 74614 672 0 0 71 115 507 0.997 43.34 2.04 Intr + 76399 76574 176 2 2 87 115 22 0.753 4.46 2.05 Intr + 78527 78641 115 1 1 62 84 20 0.886 -0.98 2.06 Term + 80290 80459 170 2 2 89 48 125 0.846 6.64 2.07 PlyA + 81545 81550 6 1.05 3.00 Prom + 88379 88418 40 -3.36 3.01 Init + 92155 92203 49 0 1 72 119 25 0.406 5.12 3.02 Term + 96341 96378 38 0 2 132 48 37 0.891 1.60 3.03 PlyA + 97426 97431 6 1.05 4.22 PlyA - 98345 98340 6 1.05 4.21 Term - 100093 99998 96 1 0 98 41 173 0.999 11.57 4.20 Intr - 100932 100766 167 1 2 77 103 198 0.998 19.88 4.19 Intr - 102720 102601 120 1 0 88 96 179 0.987 19.17 4.18 Intr - 105488 105388 101 1 2 88 109 110 0.988 12.85 4.17 Intr - 110287 110065 223 2 1 82 69 213 0.879 15.99 4.16 Intr - 119983 119876 108 2 0 79 36 64 0.266 0.56 4.15 Intr - 122962 122862 101 0 2 87 76 15 0.286 -0.05 4.14 Intr - 132055 131959 97 2 1 117 85 -5 0.823 1.17 4.13 Intr - 133369 132763 607 1 1 39 111 585 0.015 47.92 4.12 Intr - 138658 138608 51 1 0 28 89 77 0.256 0.90 4.11 Intr - 145531 145397 135 1 0 84 127 100 0.998 14.26 4.10 Intr - 154085 153996 90 2 0 64 101 60 0.961 5.09 4.09 Intr - 155490 155377 114 0 0 40 77 57 0.574 0.44 4.08 Intr - 156209 156114 96 2 0 73 91 63 0.972 5.31 4.07 Intr - 157849 157688 162 1 0 90 101 217 0.989 23.37 4.06 Intr - 177926 177758 169 1 1 111 88 142 0.942 16.45 4.05 Intr - 184933 184684 250 2 1 95 106 407 0.984 39.70 4.04 Intr - 190029 190003 27 1 0 153 40 3 0.195 0.09 4.03 Intr - 195821 195617 205 2 1 120 117 133 0.997 18.17 4.02 Intr - 214164 214079 86 1 2 45 68 56 0.062 -1.16 4.01 Init - 223375 223306 70 1 1 108 115 209 0.876 24.81 4.00 Prom - 227748 227709 40 -5.86 5.18 PlyA - 229818 229813 6 1.05 5.17 Term - 238070 238026 45 2 0 66 43 82 0.320 -1.29 5.16 Intr - 244723 244603 121 0 1 67 77 131 0.988 10.40 5.15 Intr - 246874 246790 85 2 1 114 86 107 0.991 11.98 5.14 Intr - 248516 248479 38 1 2 103 79 52 0.867 3.71 5.13 Intr - 249615 249486 130 1 1 8 69 104 0.939 0.25 5.12 Intr - 250056 249937 120 1 0 56 111 83 0.992 7.87 5.11 Intr - 251803 251642 162 2 0 41 59 87 0.281 1.05 5.10 Intr - 252855 252692 164 2 2 77 87 68 0.812 5.22 5.09 Intr - 256664 256609 56 2 2 90 115 24 0.991 3.08 5.08 Intr - 258678 258572 107 1 2 29 111 75 0.937 3.83 5.07 Intr - 259937 259902 36 0 0 42 113 43 0.372 0.43 5.06 Intr - 264368 263907 462 0 0 89 110 92 0.530 4.63 5.05 Intr - 304996 304873 124 1 1 54 76 75 0.547 3.06 5.04 Intr - 305653 305567 87 1 0 53 53 72 0.390 0.37 5.03 Intr - 306533 306405 129 2 0 61 51 87 0.739 3.19 5.02 Intr - 310280 310106 175 1 1 84 74 166 0.963 14.74 5.01 Intr - 314321 314234 88 0 1 55 111 56 0.824 3.63 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 133375 132763 613 1 1 53 111 625 0.966 54.80 S.002 Init - 164238 164212 27 0 0 84 90 35 0.854 2.90 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:124663626_124987000|GENSCAN_predicted_peptide_1|979_aa MRFRHVGQAGLELLTSGPLCEQESGQGRPLDEWGTLTAQGKLLQQDTFYVIELDAGMQSR TKERRVFLFEQIVIFSELLRKGSLTPGYMFKRSIKMNYLVLEENVDNDPCKFALMNRETS ERVVLQAANADIQQAWVQDINQVLETQRDFLNALQSPIEYQRKERSTAVMRSQPARLPQA SPRPYSSVPAGSEKPPKGSSYNPPLPPLKISTSNGSPGFEYHQPGDKFEASKQNDLGGCN GTSSMAVIKDYYALKENEICVSQGEVVQVLAVNQQNMCLVYQPASDHSPAAEGWVPGSIL APLTKATAAESSDGSIKKSCSWHTLRMRKRAEVENTGKNEATGPRKPKDILGNKVSVKDR HQLSWSSHLSACRYWVAPVSPDLSIASMYYRCQLQVEEGQTEAGEKPDLKSQPTPRTPLP ANYHISYSGLLILELQNNPARRIEGNFYTPSQILNPNFIQEVAPEFLVPLVDVTCLLGDT VILQCKVCGRPKPTITWKGPDQNILDTDNSSATYTVSSCDSGEITLKICNLMPQDSGIYT CIATNDHGTTSTSATVKVQGVPAAPNRPIAQERSCTSVILRWLPPSSTGNCTISGYTVEY REEGSQIWQQSVASTLDTYLVIEDLSPGCPYQFRVSASNPWGISLPSEPSEFVRLPEYDA AADGATISWKENFDSAYTELNEIGRGRFSIVKKCIHKATRKDVAVKFVSKKMKKKEQAAH EAALLQHLQHPQYITLHDTYESPTSYILILELMDDGRLLDYLMNHDELMEEKVAFYIRDI MEALQYLHNCRVAHLDIKPENLLIDLRIPVPRVKLIDLEDAVQISGHFHIHHLLGNPEFA APEVIQGIPVSLGTDIWSIGVLTYVMLSGVSPFLDESKEETCINVCRVDFSFPHEYFCGV SNAARDFINVILQEDFRRRPTAATCLQHPWLQPHNGSYSKIPLDTSRLACFIERRKHQND VRPIPNVKSYIVNRVNQGT >gi568815595r:124663626_124987000|GENSCAN_predicted_CDS_1|2940_bp atgaggtttcgccatgttgggcaggctggtcttgaactcctgacctcagggcccttgtgt gaacaggaaagtggccaaggtcggcccctggatgagtggggcactctgactgctcagggg aagctgctgcagcaggacacattctatgtgatcgagctggatgcaggcatgcagtcccgg accaaagagaggcgcgtgttcctcttcgagcagattgtcatcttcagtgaactgctcagg aagggatccctcacccctggctacatgttcaaaaggagcatcaagatgaattacttggtc ctggaggagaatgtggacaatgatccctgcaagtttgcactcatgaacagagagacttct gagagggttgttctgcaagccgccaacgctgacatccagcaggcctgggtgcaggacatc aatcaagtcttagaaacacagcgagactttttgaatgcactgcaatcgcccattgagtat caacggaaagaaaggagcacagctgtgatgaggtctcaacctgccaggcttccccaagcc agccccaggccctactcctctgttcctgcgggctcagagaagcccccaaagggctccagc tataacccacctctgcctcccctgaagatatctacctccaatggcagtccagggtttgaa taccaccagcctggggacaagttcgaagccagcaagcagaacgacctgggaggctgcaat gggacctcgtccatggccgtgatcaaagattactatgcactgaaggagaatgaaatctgt gtgagccaaggtgaggtggtccaggtcctcgccgtcaaccagcagaacatgtgtctggtg taccagcctgccagcgaccattcccccgccgccgagggctgggtcccaggcagcatcctg gcgcccctcaccaaagccacagcagcagaaagtagtgacgggagcatcaagaagtcatgt tcatggcatactctacgcatgagaaagcgggcggaagtggagaacacgggtaaaaatgaa gccacagggcctcgtaaacccaaggatattctgggcaacaaagtctctgttaaagatagg caccagctctcctggagttcacacctgtcagcttgtagatactgggtggcacctgtatcc ccagacctaagtattgccagcatgtattatagatgtcagctgcaagtggaggaaggccag acagaggcaggggaaaagccagatctgaagagccagcctactccccgcaccccactcccc gccaactaccacatcagctactctggcctccttatcctagagcttcaaaataacccggcc agacggattgaaggaaacttttacacccccagccagatcttaaatccaaatttcatccaa gaagtggccccagaattccttgtgcccttggtggatgtgacctgcttgcttggggacaca gtgatactgcagtgcaaagtctgtgggcggccaaagcccaccatcacttggaagggtcca gaccagaacatccttgacactgataacagctcagccacatacacggtctcctcttgtgat tctggagaaatcaccctgaagatctgtaatctgatgccccaagacagtgggatttatacc tgcatagcaacaaatgaccacgggaccacatcaacgtctgcaacagtcaaagtgcaaggt gttccagcagcccctaaccgccccattgcccaggagagaagctgcacctccgtgattctc cgctggctgcccccctccagcacaggaaactgcactatttctggttacactgtggagtac agagaggaaggttctcagatctggcagcagtcagtggcttcgaccttggacacttacctc gtcatcgaagaccttagtcccgggtgtccttatcagttcagagtcagtgccagtaacccc tggggaatcagccttcccagcgagccctcggagtttgtgcgacttccagaatatgatgct gctgctgatggtgccaccatttcttggaaggaaaattttgactcagcttacactgagctg aatgaaattggaagaggccgtttctctatagtaaagaaatgcattcacaaagctacccgc aaagatgtggctgtgaaatttgttagcaaaaaaatgaagaagaaagaacaggctgcccac gaggctgccctgcttcagcacctacagcacccccagtacatcactctccatgacacctat gagtcccccacatcctacatcctgatcttggaactgatggatgatggccggctcttagac taccttatgaatcatgatgaactgatggaggaaaaagtagctttctatatccgagacatc atggaggctctgcagtaccttcacaactgcagggttgcacatttggacataaagcctgaa aacctgctcattgacctacggattccagtgcctcgagtgaagctcattgacttggaggat gctgtccagatctcgggtcacttccacattcaccacctgctggggaaccctgagtttgct gccccagaagtcattcaaggcatccccgtctccctggggacagacatctggagcatcggg gttctgacatatgtcatgctgagtggggtctcccccttcttggatgagagcaaagaggag acatgtatcaacgtatgcagggtggatttcagcttcccccatgaatacttctgtggtgtg agcaatgctgccagagatttcatcaatgtgatcttacaggaagattttcggaggcggccc acagcagccacatgcttgcagcatccatggctgcagccccataatggcagctactctaag atccccctggacacctcccgcctagcatgcttcatagaacgtcgcaagcaccagaatgat gtgcggcctattcccaatgtcaagagctacattgtcaaccgggtgaaccaagggacgtag >gi568815595r:124663626_124987000|GENSCAN_predicted_peptide_2|480_aa MAVARAALGPLVTGLYDVQAFKFGDFVLKSGLSSPIYIDLRGIVSRPRLLSQVADILFQT AQNAGISFDTVCGVPYTALPLATVICSTNQIPMLIRRKETKDYGTKRLVEGTINPGETCL IIEDVVTSGSSVLETVEVLQKEGLKVTDAIVLLDREQGGKDKLQAHGIRLHSVCTLSKML EILEQQKKVDAETVGRVKRFIQENVFVAANHNGSPLSIKEAPKELSFGARAELPRIHPVA SKLLRLMQKKETNLCLSADVSLARELLQLADALGPSICMLKTHVDILNDFTLDVMKELIT LAKCHEFLIFEDRKFADIGNTVKKQYEGGIFKIASWADLVNAHVVPGSGVVKGLQEVGLP LHRGCLLIAEMSSTGSLATGDYTRAAVRMAEEHSEFVVGFISGSRVSMKPEFLHLTPGVQ LEAGGDNLGQQYNSPQEVIGKRGSDIIIVGRGIISAADRLEAAEMYRKAAWEAYLSRLGV >gi568815595r:124663626_124987000|GENSCAN_predicted_CDS_2|1443_bp atggcggtcgctcgtgcagctttggggccattggtgacgggtctgtacgacgtgcaggct ttcaagtttggggacttcgtgctgaagagcgggctttcctcccccatctacatcgatctg cggggcatcgtgtctcgaccgcgtcttctgagtcaggttgcagatattttattccaaact gcccaaaatgcaggcatcagttttgacaccgtgtgtggagtgccttatacagctttgcca ttggctacagttatctgttcaaccaatcaaattccaatgcttattagaaggaaagaaaca aaggattatggaactaagcgtcttgtagaaggaactattaatccaggagaaacctgttta atcattgaagatgttgtcaccagtggatctagtgttttggaaactgttgaggttcttcag aaggagggcttgaaggtcactgatgccatagtgctgttggacagagagcagggaggcaag gacaagttgcaggcgcacgggatccgcctccactcagtgtgtacattgtccaaaatgctg gagattctcgagcagcagaaaaaagttgatgctgagacagttgggagagtgaagaggttt attcaggagaatgtctttgtggcagcgaatcataatggttctcccctttctataaaggaa gcacccaaagaactcagcttcggtgcacgtgcagagctgcccaggatccacccagttgca tcgaagcttctcaggcttatgcaaaagaaggagaccaatctgtgtctatctgctgatgtt tcactggccagagagctgttgcagctagcagatgctttaggacctagtatctgcatgctg aagactcatgtagatattttgaatgattttactctggatgtgatgaaggagttgataact ctggcaaaatgccatgagttcttgatatttgaagaccggaagtttgcagatataggaaac acagtgaaaaagcagtatgaaggaggtatctttaaaatagcttcctgggcagatctagta aatgctcacgtggtgccaggctcaggagttgtgaaaggcctgcaagaagtgggcctgcct ttgcatcgggggtgcctccttattgcggaaatgagctccaccggctccctggccactggg gactacactagagcagcggttagaatggctgaggagcactctgaatttgttgttggtttt atttctggctcccgagtaagcatgaaaccagaatttcttcacttgactccaggagttcag ttggaagcaggaggagataatcttggccaacagtacaatagcccacaagaagttattggc aaacgaggttccgatatcatcattgtaggtcgtggcataatctcagcagctgatcgtctg gaagcagcagagatgtacagaaaagctgcttgggaagcgtatttgagtagacttggtgtt tga >gi568815595r:124663626_124987000|GENSCAN_predicted_peptide_3|28_aa MVYGASEAIRQHQSSAALMFAPLEGLKA >gi568815595r:124663626_124987000|GENSCAN_predicted_CDS_3|87_bp atggtctacggggcttctgaggcaatcaggcagcatcagtcttcagccgctcttatgttt gcacccctggagggtctgaaggcctga >gi568815595r:124663626_124987000|GENSCAN_predicted_peptide_4|1024_aa MPRAPAPLYACLLGLCALLPRLAGAVTDLQRTLELSRSHQPYIQDGRGTTRQDFGSPRSI TSRCDLRANLVKNGCGGEIESPASSFHVLRSLPLSSKGSGSAGWDVIQMTPQEIAVNLRP GSTWKNQFLGDKTTFQLQVRQVEDYPVDLYYLMDLSLSMKDDLDNIRSLGTKLAEEMRKL TSNFRLGFGSFVDKDISPFSYTAPRYQTNPCIGYKLFPNCVPSFGFRHLLPLTDRVDSFN EEVRKQRVSRNRDAPEGGFDAVLQAAVCKEKIGWRKDALHLLVFTTDDVPHIALDGKLGG LVQPHDGQCHLNEANEYTASNQMDYPSLALLGEKLAENNINLIFAVTKNHYMLYKKLFLG HPGPSSKTPHMNVLLLTITDEPSLNYRSPRCAHNFTALIPGTTVEILDGDSKNIIQLIIN AYNSIRSKVELSVWDQPEDLNLFFTATCQDGVSYPGQRKCEGLKIGDTPYISELASDCAD IHSYSHGSLLVLRSLPTPAILVVLPECVERAGVRSCSSSRALPLGEWETLACRSHDIPSL PSAQASFEVSLEARSCPSRHTEHVFALRPVGFRDSLEVGVTYNCTCGCSVGLEPNSARCN GSGTYVCGLCECSPGYLGTRCECQDGENQSVYQNLCREAEGKPLCSGRGDCSCNQCSCFE SEFGKIYGPFCECDNFSCARNKGVLCSDPCGYKGPSVEPWKVSPSPGPQLTHICTVPFTT GGNLLSLHPIATTPKVYQVSPDVPKLKKYATQVALDVFPQGLRFVLVILSTTTKGQHVLS IFYTPDTMLGHGECHCGECKCHAGYIGDNCNCSTDISTCRGRDGQICSERGHCLCGQCQC TEPGAFGEMCEKCPTCPDACSTKRDCVECLLLHSGKPDNQTCHSLCRDEVITWVDTIVKD DQEAVLCFYKTAKDCVMMFTYVELPSGKSNLTVLREPECGNTPNAMTILLAVVGSILLVG LALLAIWKLLVTIHDRREFAKFQSERSRARYEMASNPLYRKPISTHTVDFTFNKFNKSYN GTVD >gi568815595r:124663626_124987000|GENSCAN_predicted_CDS_4|3075_bp atgccgcgggccccggcgccgctgtacgcctgcctcctggggctctgcgcgctcctgccc cggctcgcaggggctgttacagatctccagaggaccctagagctcagcaggtcacaccag ccctacatccaagatggcagagggaccaccaggcaggacttcggaagcccacggtccatc acctctcggtgtgatctgagggcaaaccttgtcaaaaatggctgtggaggtgagatagag agcccagccagcagcttccatgtcctgaggagcctgcccctcagcagcaagggttcgggc tctgcaggctgggacgtcattcagatgacaccacaggagattgccgtgaacctccggccc ggttctacttggaagaaccagtttttaggtgacaagaccaccttccagctacaggttcgc caggtggaggactatcctgtggacctgtactacctgatggacctctccctgtccatgaag gatgacttggacaatatccggagcctgggcaccaaactcgcggaggagatgaggaagctc accagcaacttccggttgggatttgggtcttttgttgataaggacatctctcctttctcc tacacggcaccgaggtaccagaccaatccgtgcattggttacaagttgtttccaaattgc gtcccctcctttgggttccgccatctgctgcctctcacagacagagtggacagcttcaat gaggaagttcggaaacagagggtgtcccggaaccgagatgcccctgaggggggctttgat gcagtactccaggcagccgtctgcaaggagaagattggctggcgaaaggatgcactgcat ttgctggtgttcacaacagatgatgtgccccacatcgcattggatggaaaattgggaggc ctggtgcagccacacgatggccagtgccacctgaacgaggccaacgagtacactgcatcc aaccagatggactatccatcccttgccttgcttggagagaaattggcagagaacaacatc aacctcatctttgcagtgacaaaaaaccattatatgctgtacaagaaactgttcctgggt caccctggaccatcttcaaaaactccccacatgaacgtgctccttctcacaatcacagat gagccaagtttgaattacagatctcctcggtgtgctcataattttacagccctgatacct ggaacaacggtggagattttagatggagactccaaaaatattattcaactgattattaat gcatacaatagtatccggtctaaagtggagttgtcagtctgggatcagcctgaggatctt aatctcttctttactgctacctgccaagatggggtatcctatcctggtcagaggaagtgt gagggtctgaagattggggacacgccatacatttcagaacttgccagtgactgtgctgac atccactcgtactcacatgggagcttgctggttctgaggtctcttcctactccggccatc ttggtggttctacctgagtgcgtggagagggctggagttcgcagctgctcttcatcaagg gccctgcccctgggtgaatgggagaccctggcttgccgcagccatgatatcccttctctt ccttctgcccaggcatcttttgaagtatcattggaggcccgaagctgtcccagcagacac acggagcatgtgtttgccctgcggccggtgggattccgggacagcctggaggtgggggtc acctacaactgcacgtgcggctgcagcgtggggctggaacccaacagcgccaggtgcaac gggagcgggacctatgtctgcggcctgtgtgagtgcagccccggctacctgggcaccagg tgcgagtgccaggatggggagaaccagagcgtgtaccagaacctgtgccgggaggcagag ggcaagccactgtgcagcgggcgtggggactgcagctgcaaccagtgctcctgcttcgag agcgagtttggcaagatctatgggcctttctgtgagtgcgacaacttctcctgtgccagg aacaagggagtcctctgctcagacccttgtggttacaagggaccctcagtcgaaccctgg aaagtctccccatccccaggtcctcagcttactcacatctgcacagtccctttcaccaca ggagggaacctgctgtcactccaccccatagccaccactcccaaagtctatcaggtgagt ccagatgtccctaagctaaagaaatatgcaacccaggttgcattggatgtcttcccccag ggtttgaggtttgtcctggtgatattgtcaaccacaaccaaaggacagcatgttctgagc atcttctacacgcctgacaccatgctaggccatggcgagtgtcactgcggggaatgcaag tgccatgcaggttacatcggggacaactgtaactgctcgacagacatcagcacatgccgg ggcagagatggccagatctgcagcgagcgtgggcactgtctctgtgggcagtgccaatgc acggagccgggggcctttggggagatgtgtgagaagtgccccacctgcccggatgcatgc agcaccaagagagattgcgtcgagtgcctgctgctccactctgggaaacctgacaaccag acctgccacagcctatgcagggatgaggtgatcacatgggtggacaccatcgtgaaagat gaccaggaggctgtgctatgtttctacaaaaccgccaaggactgcgtcatgatgttcacc tatgtggagctccccagtgggaagtccaacctgaccgtcctcagggagccagagtgtgga aacacccccaacgccatgaccatcctcctggctgtggtcggtagcatcctccttgttggg cttgcactcctggctatctggaagctgcttgtcaccatccacgaccggagggagtttgca aagtttcagagcgagcgatccagggcccgctatgaaatggcttcaaatccattatacaga aagcctatctccacgcacactgtggacttcaccttcaacaagttcaacaaatcctacaat ggcactgtggactga >gi568815595r:124663626_124987000|GENSCAN_predicted_peptide_5|709_aa XYQLITVVIAAAGGGLLLILGIALIVTCCRKNKNDISKLIFKSGDFQMSPYAEYPKNPRS QEWGREAIEMHENGSTKNLLQMTDVYYSRLRAKQQMRMSVPLKSEDVAIERTVFSYVSRL SYATVSKPAPTGDIQYSVSLIATWGTVFIGLLWGILVLDELTSQLTNHLLYRSQKTSAPQ NEVFCPENILGKNPNIEKTVSSTNQGNSADAVTTTETATSGPTVAAADTTETNFPETAST TANTPSFPTATSPAPPIISTHSSSTIPTPAPPIISTHSSSTIPIPTAADSESTTNVNSLA TSDIITASSPNDGLITMVPSETQSNNEMSPTTEDNQSSGPPTGTALLETSTLNSTEGYYY NSSTCKKGKVFPGKISVTVSETFDPEEKHSMAYQDLHSEITSLFKDVFGTSVYGQTVILT VSTSLSPRSEMRADDKFVNVTIVTILAETTSDNEKTVTEKINKAIRSSSSNFLNYDYPSK GFQEQQEGKIQCTNISQVSAYITVTTVQLAKAIRITKHSVEGPCPRGTERLTLRCDYYGC NQTADDCLNGLACDCKSDLQRPNPQSPFCVASSLKCPDACNAQHKQCLIKKSGGAPECAC VPGYQEDANGNCQKCAFGYSGLDCKDKFQLILTIVGTIAGIVILSMIIALIVTARSNNKT KHIEEENLIDEDFQNLKLRSTGFTNLGAEGSVFPKSLEAKSHIVDKKPQ >gi568815595r:124663626_124987000|GENSCAN_predicted_CDS_5|2130_bp ncctatcagcttatcactgtggtgatcgcagccgcgggaggtgggctcctgctcatccta ggcatcgcactgattgttacctgttgcagaaagaataaaaatgacataagcaaactcatc ttcaaaagtggagatttccaaatgtccccgtatgctgaataccccaaaaatcctcgctca caagaatggggccgagaagctattgaaatgcatgagaatggaagtaccaaaaacctcctc cagatgacggatgtgtactactcgcgcctgcgtgctaaacaacagatgaggatgagcgta ccactgaagtctgaagatgtcgccattgaacggacagtgttttcatatgtttctaggttg tcttatgctacagtttccaagccagcccccacaggagacatccagtactcggtgtcttta attgccacctggggaactgtgtttattggccttctttggggcatcctggttttggatgaa ctgacgtcacagctgacaaatcatctcctctatcggagccagaagacttcagctccacaa aatgaagtgttctgtcctgaaaacattcttgggaagaatcccaacatcgagaaaacggtg tcctccaccaaccaaggcaactcagctgatgctgtaacaaccacagaaactgcgactagt ggtcctacagtagctgcagctgataccactgaaactaatttccctgaaactgctagcacc acagcaaatacaccttctttcccaacagctacttcacctgctccccccataattagtaca catagttcctccacaattcctacacctgctccccccataattagtacacatagttcctcc acaattcctatacctactgctgcagacagtgagtcaaccacaaatgtaaattcattagct acctctgacataatcaccgcttcatctccaaatgatggattaatcacaatggttccttct gaaacacaaagtaacaatgaaatgtcccccaccacagaagacaatcaatcatcagggcct cccactggcaccgctttattggagaccagcaccctaaacagcacagaagggtattactac aactcttctacatgtaagaaaggaaaggtattccctgggaagatttcagtgacagtatca gaaacatttgacccagaagagaaacattccatggcctatcaagacttgcatagtgaaatt actagcttgtttaaagatgtatttggcacatctgtttatggacagactgtaattcttact gtaagcacatctctgtcaccaagatctgaaatgcgtgctgatgacaagtttgttaatgta acaatagtaacaattttggcagaaaccacaagtgacaatgagaagactgtgactgagaaa attaataaagcaattagaagtagctcaagcaactttctaaactatgattacccatccaaa ggatttcaagagcagcaagagggtaagattcaatgcacaaatatttctcaagtctctgct tacatcacagttacaactgtccaattggctaaagcaattcgcattaccaagcacagtgtg gaagggccctgcccaaggggtacagaaaggttgacccttcggtgtgattattatggctgt aaccagactgcggatgactgcctcaatggtttagcatgcgattgcaaatctgacctgcaa aggcctaacccacagagccctttctgcgttgcttccagtctcaagtgtcctgatgcctgc aacgcacagcacaagcaatgcttaataaagaagagtggtggggcccctgagtgtgcgtgc gtgcccggctaccaggaagatgctaatgggaactgccaaaagtgtgcatttggctacagt ggactcgactgtaaggacaaatttcagctgatcctcactattgtgggcaccatcgctggc attgtcattctcagcatgataattgcattgattgtcacagcaagatcaaataacaaaacg aagcatattgaagaagagaacttgattgacgaagactttcaaaatctaaaactgcggtcg acaggcttcaccaatcttggagcagaagggagcgtctttcctaagagtctagaagccaag agtcacattgtggacaagaagccccagtaa