GENSCAN 1.0 Date run: 4-Nov-116 Time: 21:41:13 Sequence gi568815582f:57010743_57247655 : 236913 bp : 47.96% 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 Intr + 9959 10265 307 1 1 152 91 379 0.966 40.62 1.02 Intr + 11514 11573 60 1 0 129 77 3 0.798 2.01 1.03 Intr + 13043 13111 69 0 0 136 80 61 0.994 9.25 1.04 Intr + 14626 16276 1651 2 1 125 109 1264 0.995 119.52 1.05 Intr + 17330 17413 84 2 0 100 72 32 0.769 1.74 1.06 Intr + 17560 17643 84 1 0 96 109 79 0.998 9.74 1.07 Intr + 19031 19114 84 2 0 49 80 81 0.604 2.34 1.08 Intr + 19186 19342 157 1 1 56 99 66 0.871 4.51 1.09 Intr + 20700 20721 22 2 1 120 116 12 0.941 4.32 1.10 Intr + 22429 22548 120 2 0 75 82 70 0.911 5.57 1.11 Intr + 22864 22927 64 2 1 12 82 52 0.915 -5.22 1.12 Intr + 23426 23509 84 2 0 82 64 125 0.949 8.44 1.13 Intr + 25358 25441 84 2 0 42 64 114 0.857 3.34 1.14 Intr + 26453 26542 90 2 0 103 75 54 0.960 4.71 1.15 Intr + 26626 26778 153 1 0 60 49 122 0.955 4.69 1.16 Intr + 29039 29107 69 2 0 119 75 72 0.992 7.30 1.17 Intr + 29908 29976 69 1 0 86 77 39 0.637 0.90 1.18 Intr + 31240 31323 84 1 0 105 81 47 0.960 4.64 1.19 Intr + 32773 32862 90 1 0 66 99 100 0.966 8.01 1.20 Intr + 36803 36886 84 2 0 109 92 53 0.970 6.74 1.21 Intr + 40796 40879 84 2 0 117 55 39 0.756 2.44 1.22 Intr + 44009 44098 90 2 0 102 80 60 0.828 5.71 1.23 Intr + 44290 44352 63 1 0 83 94 39 0.375 1.83 1.24 Intr + 47090 47254 165 2 0 -16 22 193 0.506 1.38 1.25 Intr + 47323 47406 84 1 0 87 80 58 0.931 3.84 1.26 Intr + 48230 48319 90 2 0 113 72 18 0.777 1.81 1.27 Intr + 48725 48790 66 2 0 87 89 48 0.875 2.82 1.28 Intr + 50706 50789 84 0 0 111 94 107 0.999 12.54 1.29 Intr + 50876 50959 84 2 0 83 82 39 0.760 1.74 1.30 Intr + 55792 55872 81 1 0 82 75 93 0.986 6.15 1.31 Intr + 56973 57086 114 0 0 44 88 136 0.714 8.76 1.32 Intr + 59094 59177 84 0 0 107 64 46 0.873 3.04 1.33 Intr + 59793 59876 84 0 0 100 83 98 0.998 9.44 1.34 Intr + 63858 63941 84 0 0 96 109 31 0.843 4.94 1.35 Intr + 67201 67278 78 1 0 129 79 52 0.992 7.07 1.36 Intr + 68308 68391 84 1 0 125 111 22 0.987 7.14 1.37 Intr + 68479 68550 72 1 0 90 89 56 0.955 4.42 1.38 Intr + 68804 68887 84 2 0 87 70 67 0.930 3.74 1.39 Intr + 70356 70513 158 0 2 89 52 219 0.929 18.05 1.40 Intr + 82505 82631 127 0 1 93 23 52 0.031 -1.06 1.41 Intr + 95305 95432 128 1 2 65 96 51 0.477 3.92 1.42 Intr + 99966 100180 215 1 2 134 78 182 0.459 20.23 1.43 Intr + 102546 102725 180 2 0 81 101 311 0.992 31.76 1.44 Intr + 104734 104808 75 0 0 130 33 76 0.984 6.01 1.45 Intr + 106754 106825 72 1 0 69 116 88 0.996 9.30 1.46 Intr + 108453 108536 84 2 0 118 90 76 0.999 10.82 1.47 Intr + 108819 108908 90 2 0 153 94 110 0.999 18.29 1.48 Intr + 110351 110449 99 1 0 86 97 216 0.998 22.61 1.49 Intr + 110932 111414 483 0 0 60 47 246 0.442 10.92 1.50 Intr + 112672 112731 60 0 0 85 75 42 0.597 1.53 1.51 Intr + 115118 115251 134 1 2 106 110 159 0.999 19.34 1.52 Intr + 117290 117455 166 2 1 122 97 -20 0.399 2.26 1.53 Intr + 124033 124084 52 0 1 108 109 88 0.999 11.38 1.54 Intr + 126407 126540 134 0 2 30 113 215 0.969 18.56 1.55 Intr + 135343 135579 237 0 0 81 92 468 0.123 44.31 1.56 Term + 136809 136916 108 2 0 112 49 117 0.998 8.71 1.57 PlyA + 137203 137208 6 1.05 2.08 PlyA - 137902 137897 6 1.05 2.07 Term - 143693 143548 146 0 2 75 29 241 0.679 14.97 2.06 Intr - 153323 153259 65 1 2 79 98 42 0.935 2.66 2.05 Intr - 156472 156351 122 1 2 -10 88 138 0.603 3.29 2.04 Intr - 161630 161482 149 0 2 82 67 147 0.991 11.95 2.03 Intr - 162132 162034 99 1 0 147 63 141 0.999 17.58 2.02 Intr - 163127 162986 142 2 1 104 69 147 0.812 14.33 2.01 Init - 163722 163699 24 0 0 45 90 2 0.220 -4.32 2.00 Prom - 164591 164552 40 -3.66 3.00 Prom + 170424 170463 40 -6.66 3.01 Init + 174881 175042 162 1 0 56 43 137 0.717 3.79 3.02 Term + 175272 175427 156 2 0 84 55 126 0.961 6.83 3.03 PlyA + 176891 176896 6 1.05 4.00 Prom + 185331 185370 40 -5.36 4.01 Init + 194034 194266 233 2 2 81 97 127 0.580 10.63 4.02 Intr + 197316 197368 53 0 2 98 68 -9 0.481 -3.35 4.03 Intr + 198333 198445 113 1 2 79 106 -4 0.610 0.60 4.04 Intr + 202230 202356 127 2 1 95 93 11 0.590 2.55 4.05 Intr + 206162 206293 132 0 0 97 84 45 0.964 5.62 4.06 Intr + 209990 210105 116 0 2 74 92 122 0.837 11.37 4.07 Intr + 210530 210673 144 1 0 76 84 168 0.999 15.68 4.08 Intr + 216600 216678 79 2 1 123 74 197 0.940 20.92 4.09 Intr + 219969 220071 103 1 1 106 75 5 0.733 0.23 4.10 Intr + 220425 220577 153 0 0 78 116 40 0.706 4.99 4.11 Intr + 224382 224486 105 0 0 65 110 23 0.194 1.53 4.12 Intr + 235338 235399 62 0 2 31 94 77 0.004 0.98 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 8470 8472 3 0 0 113 22 0 0.814 -4.10 S.002 Init + 135271 135579 309 0 0 40 92 571 0.856 48.01 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582f:57010743_57247655|GENSCAN_predicted_peptide_1|2561_aa GWLLMDPVGLQLGNKNLWSCLVRLLTKDPEWLNAKMKFFLPNTDLDSRNETLDPEQRVIL QLNKLHVQGSDTWQSFIHCVCMQLEVPLDLEVLLLSTFGYDDGFTSQLGAEGKSQPESQL HHGLKRPHQSCGSSPRRKQCKKQQLELAKKYLQLLRTSAQQRYRSQIPGSGQPHAFHQVY VPPILRRATASLDTPEGAIMGDVKVEDGADVSISDLFNTRVNKGPRVTVLLGKAGMGKTT LAHRLCQKWAEGHLNCFQALFLFEFRQLNLITRFLTPSELLFDLYLSPESDHDTVFQYLE KNADQVLLIFDGLDEALQPMGPDGPGPVLTLFSHLCNGTLLPGCRVMATSRPGKLPACLP AEAAMVHMLGFDGPRVEEYVNHFFSAQPSREGALVELQTNGRLRSLCAVPALCQVACLCL HHLLPDHAPGQSVALLPNMTQLYMQMVLALSPPGHLPTSSLLDLGEVALRGLETGKVIFY AKDIAPPLIAFGATHSLLTSFCVCTGPGHQQTGYAFTHLSLQEFLAALHLMASPKVNKDT LTQYVTLHSRWVQRTKARLGLSDHLPTFLAGLASCTCRPFLSHLAQGNEDCVGAKQAAVV QVLKKLATRKLTGPKVVELCHCVDETQEPELASLTAQSLPYQLPFHNFPLTCTDLATLTN ILEHREAPIHLDFDGCPLEPHCPEALVGCGQIENLSFKSRKCGDAFAEALSRSLPTMGRL QMLGLAGSKITARGISHLVKALPLCPQLKEVSFRDNQLSDQVVLNIVEVLPHLPRLRKLE QGRSGAPGVGDSTPDTFATILQPEQQQHLRVNPTLLGKGGSHVSYRQDASGQRQLQSYKD STSTNGDHHIIDNSSFCLLTFDFTPMLGTWTYIVSFNPSAPDLQESDGQRKGAQSRSLTL RLQKCQLQVHDAEALIALLQEGPHLEEVDLSGNQLEDEGCRLMAEAASQLHIARKLDLSN NGLSVAGVHCVLRAVSACWTLAELHIRPWDGQKMLLLSHPDPVTAGTPLPSCCGYRLLMV YTSGELPLADKNQRRLAGLQHKTVIFMFAQEPEEQKGPQERAAFLDSLMLQMPSELPLSS RRMSFSGNALGDEGAARLAQLLPGLGALQSLNLSENGLSLDAVLGLVRCFSTLQWLFRLD ISLSECPLEPPSLTRLCATLKDCPGPLELQLSCEFLSDQSLETLLDCLPQLPQLSLLQLS QTGLSPKSPFLLANTLSLCPRVKKVDLRSLHHATLHFRSNEEEEGVCCGIVVIMKVVVVM VVILVVVTLVVVVMVVILVMVVMVVALVTLTWGPVAVTVDAGSCLSANLLGDSGLRCLLE CLPQVPISGLLDLSHNSISQESALYLLETLPSCPRVREASVNLGSEQSFRIHFSREDQAG KTLRLSECSFRPEHVSRLATGLSKSLQLTELTLTQCCLGQKQLAILLSLVGRPAGLFSLS ISETQQQLCVQLEFPRQEENPEAVALRISLDLFSLSQVNLCEDDDASSLLLQSLLLSLSE LKTFRLTSSCVSTEGLAHLASGLGHCHHLEELDLSNNQFDEEGTKALMRALEGKWMLKRL DLSHLLLNSSTLALLTHRLSQMTCLQSLRLGCNALGDPTALGLAQELPQHLRVLHLPFSH LGPGGALSLAQALDGSPHLEEISLAENNLAGGVLRFCMELPLLRQIDLVSCKIDNQTAKL LTSSFTSCPALEVILLSWNLLGDEAAAELAQVLPQMGRLKRVEYEGPGEEWDGLKGDLHP GNTKRPLGNCRRAGSQPRYWERRGGVELGSFPEVGVCLQTSFCEKAVWHLPQGPVRLAAA GLAQRDPLFPPPAPTPDIMCSPFRGSRSFQPEDCQELLPPPPAPMAHIPSGGAPAAGAAP MGPQYCVCKVELSVSGQNLLDRDVTSKSDPFCVLFTENNGRWIEYDRTETAINNLNPAFS KKFVLDYHFEEVQKLKFALFDQDKSSMRLDEHDFLGQFSCSLGTIVSSKKITRPLLLLND KPAGKGLITIAAQELSDNRVITLSLAGRRLDKKDLFGKSDPFLEFYKPGDDGKWMLVHRT EVIKYTLDPVWKPFTVPLVSLCDGDMEKPIQVMCYDYDNDGGHDFIGEFQTSVSQMCEAR DSVPLEFECINPKKQRKKKNYKNSGIIILRSCKVNQRGQARARGQVSGHTEGTDRALDLE PARPVFKSRLCHILALWPSELHLTRPQSPHLWNGDINEAEHVQGYSSLTFLCGGQGRHEL TFQGLSWWENCHCELLPPTVGMQGAEDIGWGHPVLSGISVTVTPMINRDYSFLDYILGGC QLMFTVGIDFTASNGNPLDPSSLHYINPMGTNEYLSAIWAVGQIIQDYDRPRSFLKPDPW AGTEAVTGQHVMFSVYETHVEWGRQIGLPDVANQNTRHPVKFEFQVSHEFAINFNPTNPF CSGVDGIAQAYSACLPHIRFYGPTNFSPIVNHVARFAAQATQQRTATQYFILLIITDGVI SDMEETRHAVVQASKLPMSIIIVGVGNADFAAMEFLDGDSRMLRSHTGEEAARDIVQFVP FREFRNAAKETLAKAVLAELPQQVVQYFKHKNLPPTNSEPA >gi568815582f:57010743_57247655|GENSCAN_predicted_CDS_1|7686_bp ggctggctcctcatggaccccgttggcctccagctcggcaacaagaacctgtggagctgt cttgtgaggctgctcaccaaagacccagaatggctgaacgccaagatgaagttcttcctc cccaacacggacctggattccaggaacgagaccttggaccctgaacagagagtcatcctg caactcaacaagctgcatgtccagggttcggacacctggcagtctttcattcattgtgtg tgcatgcagctggaggtgcctctggacctggaggtgctgctgctgagtacttttggctat gatgatgggttcaccagccagctgggagctgaggggaaaagccaacctgaatctcagctc caccatggcctgaagcgcccacatcagagctgtgggtcctcaccccgccggaagcagtgc aagaagcagcagctagagttggccaagaagtacctgcagctcctgcggacctctgcccag cagcgctacaggagccaaatccctgggtcagggcagccccacgccttccaccaggtctat gtccctccaatcctgcgccgggccacagcatccttagacactccggagggggccattatg ggggacgtcaaggtggaagatggtgctgacgtgagcatctcggacctcttcaacaccagg gttaacaagggcccgagggtgaccgtgcttttggggaaggctggcatgggcaagaccacg ctggcccaccggctctgccagaagtgggcagagggccatctgaactgtttccaggccctg ttcctttttgaattccgccagctcaacttgatcacgaggttcctgacaccgtccgagctc ctttttgatctgtacctgagccctgaatcggaccacgacactgtcttccagtacctggag aagaacgctgaccaagtcctgctgatctttgatgggctagatgaggccctccagcctatg ggtcctgatggcccaggcccagtcctcacccttttctcccatctctgcaatgggaccctc ctgcctggctgccgggtgatggctacctcccgtccagggaagctgcctgcctgcctgcct gcagaggcagccatggtccacatgttgggctttgatgggccacgggtggaagaatatgtg aatcacttcttcagcgcccagccatcgcgggagggggccctggtggagttacagacaaat ggacgtctccgaagcctgtgtgcggtgcccgcactgtgccaagtcgcctgtctctgcctc caccatctgcttcctgaccacgccccaggccagtctgtggccctcctgcccaacatgact cagctctatatgcagatggtgctcgccctcagcccccctgggcacttgcccacctcgtcc ctactggacctgggggaggtggccctgaggggcctggagacagggaaggttatcttctat gcaaaagatattgctccacccttgatagcttttggggccactcacagcctgctgacttcc ttctgcgtctgcacaggccctgggcaccagcagacaggctatgctttcacccacctcagc ctgcaggagtttcttgctgccctgcacctgatggccagccccaaggtgaacaaagacaca cttacccagtatgttaccctccattcccgctgggtacagcggaccaaagctagactgggc ctctcagaccacctccccaccttcctggcgggcctggcatcctgcacctgccgccccttc cttagccacctggcgcagggcaatgaggactgtgtgggtgccaagcaggctgctgtagtg caggtgttgaagaagttggccacccgcaagctcacagggccaaaggttgtagagctgtgt cactgtgtggatgagacacaggagcctgagctggccagtctcaccgcacaaagcctcccc tatcaactgcccttccacaatttcccactgacctgcaccgacctggccaccctgaccaac atcctagagcacagggaggcccccatccacctggattttgatggctgtcccctggagccc cactgccctgaggctctggtaggctgtgggcagatagagaatctcagctttaagagcagg aagtgtggggatgcctttgcagaagccctctccaggagcttgccgacaatggggaggctg cagatgctggggttagcaggaagtaaaatcactgcccgaggcatcagccacctggtgaaa gctttgcctctctgtccacagctgaaagaagtcagttttcgggacaaccagctcagtgac caggtggtgctgaacattgtggaggttctccctcacctaccacggctccggaagcttgag caaggaaggtctggggcccctggggtaggggattccactcctgacacctttgccacaatc ttgcagcctgagcagcaacagcatctgcgtgtcaaccctactctgcttggcaagggtggc agtcacgtgtcctaccgtcaggatgcttcaggccagagacaactgcagagctacaaagac agcacatccacaaatggagaccatcacatcatcgacaatagcagcttctgtttactaacc ttcgattttacacctatgctgggtacttggacatacattgtctcattcaatccttcagct ccagacctgcaggaaagtgacggccagaggaaaggggctcagagcagaagcttgacgctc aggctgcagaagtgtcagctccaggtccacgatgcggaggccctcatagccctgctccag gaaggccctcacctggaggaagtggacctctcagggaaccagctggaagatgaaggctgt cggctgatggcagaggctgcatcccagctgcacatcgccaggaagctggacctcagtaac aacgggctttctgtggccggggtgcattgtgtgctgagggccgtgagtgcgtgctggacc ctggcagagctgcacatcaggccttgggacgggcagaagatgctgctgctgtcccaccca gaccccgttacagccggcacccctcttcctagctgctgtggatataggctgctcatggtt tatacctctggagaactacccttggctgataagaaccagagacgcctggcaggcctgcag cacaaaactgtgatcttcatgtttgcccaggagccagaggagcagaaggggccccaggag agggctgcatttcttgacagcctcatgctccagatgccctctgagctgcctctgagctcc cgaaggatgagcttctcaggcaatgctctgggggatgaaggtgcagcccggctggctcag ctgctcccagggctgggagctctgcagtccttgaacctcagtgagaacggtttgtccctg gatgccgtgttgggtttggttcggtgcttctccactctgcagtggctcttccgcttggac atcagcctcagtgagtgtcctctggagcccccaagcctcacccgcctctgtgccactctg aaggactgcccgggacccctggaactgcaattgtcctgtgagttcctgagtgaccagagc ctggagactctactggactgcttacctcaactccctcagctgagcctgctgcagctgagc cagacgggactgtccccgaaaagccccttcctgctggccaacaccttaagcctgtgtcca cgggttaaaaaggtggatctcaggtccctgcaccatgcaactttgcacttcagatccaac gaggaggaggaaggcgtgtgctgtggaattgtggtgataatgaaagtggtggtggtgatg gtggtaatactggtggtggtgacattggtggtggtggtgatggtggtgatactggtgatg gtggtgatggtggtggcgctggtgaccctgacatggggtccagtagcagtgacagtggat gcaggctcctgtctctcagcaaacctgctgggcgacagcggactcagatgccttctggaa tgtctgccgcaggtgcccatctccggtttgcttgatctgagtcacaacagcatttctcag gaaagtgccctgtacctgctggagacactgccctcctgcccacgtgtccgggaggcctca gtgaacctgggctctgagcagagcttccggattcacttctccagagaggaccaggctggg aagacactcaggctaagtgagtgcagcttccggccagagcacgtgtccaggctggccacc ggcttgagcaagtccctgcagctgacggagctcacgctgacccagtgctgcctgggccag aagcagctggccatcctcctgagcttggtggggcgacccgcagggctgttcagcctcagc atctccgagacccagcagcagctctgtgtccagctggaatttcctcgccaggaagagaat ccagaagctgtggcactcagaatatccttggaccttttcagcttgtctcaggttaacctc tgtgaggacgatgatgccagttccctgctgctgcagagcctcctgctgtccctctctgag ctgaagacatttcggctgacctccagctgtgtgagcaccgagggcctcgcccacctggca tctggtctgggccactgccaccacttggaggagctggacttgtctaacaatcaatttgat gaggagggcaccaaggcgctgatgagggcccttgaggggaaatggatgctaaagaggctg gacctcagtcaccttctgctgaacagctccaccttggccttgcttactcacagactaagc cagatgacctgcctgcagagcctcaggcttggctgcaatgccctgggggatcccacagcc ctggggctggctcaggagctgccccagcacctgagggtcctacacctaccattcagccat ctgggcccaggtggggccctgagcctggcccaggccctggatggatccccccatttggaa gagatcagcttggcggaaaacaacctggctggaggggtcctgcgtttctgtatggagctc ccgctgctcagacagatagacctggtttcctgtaagattgacaaccagactgccaagctc ctcacctccagcttcacgagctgccctgccctggaagtaatcttgctgtcctggaatctc ctcggggatgaggcagctgccgagctggcccaggtgctgccgcagatgggccggctgaag agagtggagtatgaggggccgggggaggaatgggacgggctaaagggggacctacatccc gggaacaccaagaggccactgggcaactgccggagggccggctcccagccccggtactgg gagcgcagagggggagtggagctgggcagcttcccagaagtcggagtgtgtttgcaaact agtttttgcgaaaaagctgtctggcacctgcctcagggtccagtacgcctggctgctgct gggctggcgcagagggacccactcttccccccgcctgccccaactccagacatcatgtgc tccccgtttcggggatccagaagcttccagccagaggactgccaggaactcctgccaccg ccaccggctcccatggcccacatacccagtgggggtgccccagcagcgggggcagccccc atgggcccccagtattgcgtgtgcaaggtggagctgtcagtgagtggccagaacctactg gaccgggatgttacctccaagtccgaccccttctgtgtcctctttacagagaacaatggc agatggatcgagtacgacaggacagaaaccgcgatcaacaacctcaaccccgccttctcc aagaagttcgtgcttgactaccacttcgaggaggtacagaagctcaagttcgcgctcttt gaccaggacaagtccagtatgcggctggacgagcatgacttcctgggccagttctcctgc agcctgggcacgatcgtctccagcaagaagatcactaggcctctgctgctgctgaatgac aagcctgcggggaagggcttgattacgatcgctgcccaggagctgtccgacaaccgcgtc atcacactaagcctggcgggcaggaggctggacaagaaggacctctttgggaagtcagac ccctttctggagttttataagccaggagacgatggcaagtggatgctggtccacaggact gaggtgatcaagtacacactggaccctgtgtggaagccattcacagtgcccttggtgtcc ctgtgtgatggggacatggagaagcccatccaggtcatgtgctacgactatgacaatgac gggggccatgacttcatcggcgagttccagacctcagtgtcacagatgtgtgaggctcga gacagcgtcccgctggagttcgagtgcatcaaccccaagaagcagaggaagaagaagaac tataaaaactcgggcatcatcatcctgcgatcctgcaaggtgaaccagcgtgggcaagca cgagccaggggccaggtttcaggccacacagaagggacagacagagcactggatctggag ccagcgaggcctgtgttcaaatcccggctctgccacatcctggccctatggccttctgag cttcacctcaccaggcctcagtctcctcatctgtggaatggagatattaacgaggcagag catgtccagggttactcttctctcacattcctgtgtggaggccagggaaggcacgagctg accttccagggcctgtcctggtgggagaattgtcattgcgagttgctgccgcccacggtg ggcatgcaaggggcagaggacattgggtggggacaccctgtcctctctggcatcagcgtc actgtgactcccatgataaaccgagactactccttccttgactacatcctgggaggctgc cagctcatgttcaccgttggaatagactttacagcctccaacgggaatcccctcgaccct tcctctttgcactatatcaaccctatgggcaccaacgaatatctgtcggccatctgggct gttgggcagatcattcaggactacgacaggccacgctcatttctcaagcctgatccttgg gcaggcactgaggctgtaacggggcagcacgttatgttctctgtttatgagacccatgtg gagtgggggagacagataggattgccagatgtcgcaaatcaaaatacaagacacccagtt aagtttgaatttcaggtctcccatgagtttgccatcaacttcaaccccaccaaccccttc tgctcaggtgtggatggtattgcccaggcgtactcagcttgcctgccccacatccgcttc tacggtcctaccaatttctcccccatcgtcaaccacgtggcccggtttgcggcccaggcc acacaacagcggacggccacgcagtacttcatcctcctcatcatcacggacggggtcatc agtgacatggaggagacacggcatgccgtggtgcaggcttccaagctgcccatgtccatc atcatcgtgggcgtgggcaatgcggacttcgctgccatggagttcctggatggggacagc cgcatgctgcgctcccacacgggggaggaggcagcccgcgatattgtgcagttcgttccc tttcgagagttccgcaacgcagcaaaagagaccttggccaaagctgtgctggcggagctg ccccaacaagttgtgcagtatttcaagcataaaaacctgccccccaccaactcggagccc gcctga >gi568815582f:57010743_57247655|GENSCAN_predicted_peptide_2|248_aa MRFTMEHQIGCFIMDGGDDGNLIIKKRFVSEAELDERRKRRQEEWEKVRKPEDPEECPEE VYDPRSLYERLQEQKDRKQQEYEEQFKFKNMVRGLDEDETNFLDEVSRQQELIEKQRREE ELKELKEYRISFVLGGKPKVGISQENKKEVEKKLTVKPIETKNKFSQAKLLAGAVKHKSS ESGNSVKRLKPDPEPDDKNQVCIGILPGLGAYSGSSDSESSSDSEGTINATGKIVSSIFR TNTFLEAP >gi568815582f:57010743_57247655|GENSCAN_predicted_CDS_2|747_bp atgagatttactatggaacaccagattggttgtttcattatggatggaggggatgatggt aaccttattatcaaaaagaggtttgtgtctgaggcagaactagatgaacggcgcaaaagg aggcaagaagaatgggagaaagttcgaaaacctgaagatccagaagaatgtccagaggag gtttatgaccctcgatctctatatgaaaggctacaggaacagaaggacaggaagcagcag gagtacgaggaacagttcaaattcaaaaacatggtaagaggcttagatgaagatgagacc aacttccttgatgaggtttctcgacagcaggaactaatagaaaagcaacgaagagaagaa gaactgaaagaactgaaggaatacagaatatcctttgtacttggaggaaaacctaaggtt ggaatttctcaagagaacaagaaggaagtggaaaagaaactgactgtgaagcctatagaa accaagaacaagttctcccaggcgaagctgttggcaggagctgtgaagcataagagctca gagagtggcaacagtgtgaaaagactgaaaccggaccctgagccagatgacaagaatcaa gtatgtatcggcatcctcccaggcctgggtgcctactctgggagcagcgactccgagtcc agctcagacagcgaaggcaccatcaatgccaccggaaagattgtctcctccatcttccga accaacaccttcctcgaggccccctag >gi568815582f:57010743_57247655|GENSCAN_predicted_peptide_3|105_aa MPSRGHPQLPSGWARKPQASATPDKERVRGLRTGLALTLTAAAAHLFRKEAGTQGFLFLT ATIESRPTSGDVTQSAELFLPGSPMEIRYPENEPERLDWAIHASG >gi568815582f:57010743_57247655|GENSCAN_predicted_CDS_3|318_bp atgccttcccgcgggcaccctcagctcccctcaggctgggcccgcaagccccaggcttcg gctactccggacaaggagcgggtgcgcggactgagaacaggcctggccctaaccctaaca gcagccgcagctcatctcttccgtaaggaagctggaacccagggcttcctgttcctcacc gccacaatagagtcccgccccacttccggcgacgtaacccaatccgcggagctcttcctc cccgggagcccgatggaaatccggtaccctgaaaacgagccggagagacttgattgggcc attcacgcctcaggatga >gi568815582f:57010743_57247655|GENSCAN_predicted_peptide_4|474_aa MGNSCICRDDSGTDDSVDTQQQQAENSAVPTADTRSQPRDPVRPPRRGRGPHEPRRKKQN VDGLVLDTLAVIRTLVDNDQEPPYSMITLHEMAETDEGWLDVVQSLIRVIPLEDPLGPAV ITLLLDECPLPTKDALQKLTEILNLNGEVACQDSSHPAKHRNTSAVLGCLAEKLAGENKL TISESSISDRLVTLESWANDPDYLKRQVGFCAQWSLDNLFLKEGRQLTYEKVNLSSIRAM LNSNDVSEYLKISPHGLEARCDASSFESVRCTFCVDAGVWYYEVTVVTSGVMQIGWATRD SKFLNHEGYGIGDDEYSCAYDGCRQLIWYNARRDTVGFLLDLNEKQMIFFLNGNQLPPEK QVFSSTVSGFFAAASFMSYQQCEFNFGAKPFKYPPSMKFSTFNDYAFLTAEEKIILPRHR RLALLKQVSIRENCCSLCCDEVADTQLKPCGHSSSASDAEFDAVVGYLEDIIMX >gi568815582f:57010743_57247655|GENSCAN_predicted_CDS_4|1422_bp atgggtaattcctgtatctgccgagatgacagtggaacagatgacagtgttgacacccaa cagcaacaggccgagaacagtgcagtacccactgctgacacaaggagccaaccacgggac cctgttcggccaccaaggaggggccgaggacctcatgagccaaggagaaagaaacaaaat gtggatgggctagtgttggacacactggcagtaatacggactcttgtagataatgatcag gaacctccctattcaatgataacattacacgaaatggcagaaacagatgaaggatggttg gatgttgtccagtctttaattagagttattccactggaagatccactgggaccagctgtt ataacattgttactagatgaatgtccattgcccactaaagatgcactccagaaattgact gaaattctcaatttaaatggagaagtagcttgccaggactcaagccatcctgccaaacac aggaacacatctgcagtcctaggctgcttggccgagaaactagcaggtgaaaataaattg actatttctgaatccagtattagtgaccggcttgtcacattggagtcctgggctaatgat cctgattatctgaaacgtcaagttggtttctgtgcccagtggagcttagacaatctcttt ttaaaagaaggtagacagctgacctatgagaaagtgaacttgagtagcattagggccatg ctgaatagcaatgatgtcagcgagtacctgaagatctcacctcatggcttagaggctcgc tgtgatgcctcctcttttgaaagtgtgcgttgcaccttttgtgtggatgccggggtatgg tactatgaagtaacagtggtcacttctggcgtcatgcagattggctgggccactcgagac agcaaattcctcaatcatgaaggctacggcattggggatgatgaatactcctgtgcgtat gatggctgccggcagctgatttggtacaatgccagaagagatacagtaggatttctgtta gacttgaatgaaaagcaaatgatcttctttttaaatggcaaccagctgcctcctgaaaag caagtcttttcatctactgtatctggattttttgctgcagctagtttcatgtcatatcaa caatgtgagttcaattttggagcaaaaccattcaaatacccaccatctatgaaatttagc acttttaatgactacgccttcctaacagctgaagaaaaaatcattttgccaaggcacagg cgtcttgctctgttgaagcaagtcagtatccgagaaaactgctgttccctttgttgtgat gaggtagcagacacacaattgaagccatgtggacacagctcctccgcctctgatgcagaa tttgatgctgtggttggatatttagaggacattatcatggnn