GENSCAN 1.0 Date run: 5-Nov-116 Time: 13:48:14 Sequence gi568815575r:129966724_130181330 : 214607 bp : 49.17% 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 + 6581 6746 166 1 1 77 53 77 0.159 2.90 1.02 Intr + 16259 16361 103 0 1 63 71 78 0.032 2.83 1.03 Intr + 22110 22186 77 0 2 43 105 90 0.031 5.36 1.04 Intr + 38522 38594 73 0 1 48 78 197 0.175 13.16 1.05 Intr + 45855 45945 91 0 1 71 116 59 0.991 7.00 1.06 Intr + 46227 46715 489 2 0 103 19 406 0.392 28.40 1.07 Intr + 47004 49490 2487 2 0 81 113 1674 0.277 156.55 1.08 Intr + 54262 54427 166 0 1 116 102 169 0.997 20.63 1.09 Intr + 56174 56254 81 0 0 40 105 75 0.498 4.01 1.10 Intr + 58267 58656 390 2 0 94 110 441 0.861 41.60 1.11 Intr + 61912 62138 227 2 2 107 93 109 0.968 11.00 1.12 Intr + 63995 64027 33 1 0 138 86 -22 0.636 1.02 1.13 Intr + 67732 67953 222 0 0 123 116 79 0.985 12.52 1.14 Intr + 70644 70834 191 2 2 114 -68 255 0.742 10.88 1.15 Intr + 72414 72559 146 0 2 99 91 253 0.889 26.63 1.16 Intr + 83994 84071 78 1 0 97 106 8 0.845 3.02 1.17 Intr + 85137 85293 157 1 1 80 114 82 0.991 9.07 1.18 Term + 89131 89413 283 1 1 132 47 277 0.866 22.90 1.19 PlyA + 90238 90243 6 1.05 2.13 PlyA - 90864 90859 6 1.05 2.12 Term - 100802 99998 805 1 1 124 47 348 0.990 27.00 2.11 Intr - 102954 102577 378 2 0 129 94 395 0.989 38.28 2.10 Intr - 104509 104317 193 2 1 105 97 179 0.998 19.05 2.09 Intr - 104696 104592 105 0 0 89 94 82 0.893 9.09 2.08 Intr - 105694 105503 192 2 0 95 100 161 0.986 17.46 2.07 Intr - 107418 107326 93 1 0 4 84 95 0.468 0.64 2.06 Intr - 108029 107858 172 2 1 101 62 137 0.778 11.92 2.05 Intr - 114612 114533 80 1 2 9 80 120 0.018 2.57 2.04 Intr - 115418 115381 38 1 2 115 116 -8 0.018 2.61 2.03 Intr - 119810 119692 119 2 2 85 97 10 0.001 0.86 2.02 Intr - 126278 126171 108 2 0 76 35 88 0.035 2.78 2.01 Init - 131486 131343 144 2 0 63 91 88 0.335 4.74 2.00 Prom - 139314 139275 40 -3.86 3.00 Prom + 141854 141893 40 -5.66 3.01 Init + 150542 150662 121 1 1 83 68 114 0.765 9.26 3.02 Term + 153538 153695 158 2 2 81 41 91 0.272 1.80 3.03 PlyA + 156237 156242 6 1.05 4.14 PlyA - 157617 157612 6 1.05 4.13 Term - 162905 162834 72 2 0 104 48 89 0.987 4.41 4.12 Intr - 163443 163247 197 1 2 47 100 217 0.994 17.93 4.11 Intr - 165076 164952 125 0 2 104 110 125 0.999 16.53 4.10 Intr - 166732 166590 143 1 2 94 50 28 0.964 -1.25 4.09 Intr - 169462 169322 141 1 0 114 103 155 0.996 20.15 4.08 Intr - 170008 169920 89 2 2 100 116 61 0.999 9.79 4.07 Intr - 170462 170355 108 0 0 116 65 114 0.999 12.16 4.06 Intr - 173894 173810 85 2 1 55 99 45 0.759 1.69 4.05 Intr - 178846 178756 91 0 1 102 105 52 0.973 8.30 4.04 Intr - 180900 180770 131 0 2 61 93 85 0.999 5.79 4.03 Intr - 181153 181029 125 2 2 61 86 83 0.925 5.70 4.02 Intr - 182845 182746 100 1 1 71 105 38 0.943 3.48 4.01 Init - 189827 189738 90 2 0 48 92 61 0.607 2.99 4.00 Prom - 192130 192091 40 -5.66 5.00 Prom + 197556 197595 40 -5.16 5.01 Sngl + 198815 199279 465 1 0 49 47 265 0.822 14.71 5.02 PlyA + 201032 201037 6 1.05 6.00 Prom + 202864 202903 40 -7.96 6.01 Init + 205340 205597 258 1 0 98 53 667 0.432 59.34 6.02 Term + 209173 209184 12 0 0 104 53 3 0.137 -3.40 6.03 PlyA + 211427 211432 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 114607 114533 75 1 0 93 80 119 0.967 12.69 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_1|1819_aa MGNADFYDKVPALRWGHLTKAQAQKSAKLCTTYLRGQEFRDERTSQRQRHYPKASSFLQP CSFFSLRPLGLPPGGAVLFVSPDVALPGAGDKENKQIFAFPSFVEKCTVYDYDRRAPLYS GVHNWTSSDRIRMCGINEERRAPLSDEESTTGDCQHFGSQEFCVSSSFSKVELTAVGSGS NARGADPDGSATEKLGHKSEDKPDDPQPKMDYAGNVAEAEGLLVPLSSPGDGLKLPASDS AEASNSRADCSWTPLNTQMSKQVDCSPAGVKALDSRQGVGEKNTFILATLGTGVPVEGTL PLVTTNFSPLPAPICPPAPGSASVPHSVPDAFQAPVPPSAPTLVLAPVPTPVLAPMPAST PPAAPAPPSVPMPTPTPSSGPPSTPTLIPAFAPTPVPAPTPAPIFTPAPTPMPAATPAAI PTSAPIPASFSLSRVCFPAAQAPAMQKVPLSFQPGTVLTPSQPLVYIPPPSCGQPLSVAT LPTTLGVSSTLTLPVLPSYLQDRCLPGVLASPELRSYPYAFSVARPLTSDSKLVSLEVNR LPCTSPSGSTTTQPAPDGVPGPLADTSLVTASAKVLPTPQPLLPAPSGSSAPPHPAKMPS GTEQQTEGTSVTFSPLKSPPQLEREMASPPECSEMPLDLSSKSNRQKLPLPNQRKTPPMP VLTPVHTSSKALLSTVLSRSQRTTQAAGGNVTSCLGSTSSPFVIFPEIVRNGDPSTWVKN STALISTIPGTYVGVANPVPASLLLNKDPNLGLNRDPRHLPKQEPISIIDQGEPKGTGAT CGKKGSQAGAEGQPSTVKRYTPARIAPGLPGCQTKELSLWKPTGPANIYPRCSVNGKPTS TQVLPVGWSPYHQASLLSIGISSAGQLTPSQGAPIRPTSVVSEFSGVPSLSSSEAVHGLP EGQPRPGGSFVPEQDPVTKNKTCRIAAKPYEEQVNPVLLTLSPQTGTLALSVQPSGGDIR MNQGPEESESHLCSDSTPKMEGPQGACGLKLAGDTKPKNQVLATYMSHELVLATPQNLPK MPELPLLPHDSHPKELILDVVPSSRRGSSTERPQLGSQVDLGRVKMEKVDGDVVFNLATC FRADGLPVAPQRGQAEVRAKAGQARVKQESVGVFACKNKWQPDDVTESLPPKKMKCGKEK DSEEQQLQPQAKAVVRSSHRPKCRKLPSDPQESTKKSPRGASDSGKEHNGVRGKHKHRKP TKPESQSPGKRADSHEEGSLEKKAKSSFRDFIPVVLSTRTRSQSGSICSSFAGMADSDMG SQEVFPTEEEEEVTPTPAKRRKVRKTQRDTQYRSHHAQDKSLLSQGRRHLWRAREMPWRT EAARQMWDTNEEEEEEEEEGLLKRKKRRRQKSRKYQTGEYLTEQEDEQRRKGRADLKARK QKTSSSQSLEHRLRNRNLLLPNKVQGISDSPNGFLPNNLEEPACLENSEKPSGKRKCKTK HMATVSEEAKTLRWMAPAHTKGKGRWSQQKTRSPKSPTPVKPTEPCTPSKSRSASSEEAS ESPTARQIPPEARRLIVNKNAGETLLQRAARLGYKDVVLYCLQKDSEDVNHRDNAGYTAL HEACSRGWTDILNILLEHGANVNCSAQDGTRQEGCISPQPVHDAVVNDNLETIWLLLSYG ADPTLATYSGQTAMKLASSDTMKRFLSDHLSDLQGRAEGDPGVSWDFYSSSVLEEKDGFA CDLLHNPPGSSDQEGDDPMEEDDFMFELSDKPLLPCYNLQVSVSRGPCNWFLFSDVLKRL KLSSRIFQARFPHFEITTMPKAEFYRQVASSQLLTPAERPGGLDDRSPPGSSETVELVRY EPDLLRLLGSEVEFQSCNS >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_1|5460_bp atggggaatgctgacttctatgacaaggtgcctgctctcagatggggccatctaactaag gcacaggcacagaagagtgctaaactgtgcactacttacctacggggccaagagttcagg gacgagaggacttctcagaggcaaaggcattatcctaaagcttcatcctttctccaaccc tgttccttcttttccctgcggccgctcggcttgccccccgggggcgccgtcctcttcgtg tccccggacgtagcgctccctggagctggggacaaggagaacaagcagatttttgctttt ccaagttttgtggagaagtgcaccgtatatgactatgatcgcagagcaccgctctacagc ggcgtgcacaactggaccagttctgaccggattcgcatgtgtggcatcaacgaggagaga agagcacctctttctgatgaggagtcaacgacaggcgactgccagcactttggatctcag gagttttgtgtcagcagcagtttttccaaggtggagctcacggcagttggaagtggcagc aatgcccggggggcagacccagatggcagtgctacagaaaaacttgggcacaagtcagaa gacaagcctgacgatccccagccaaaaatggactacgctgggaacgtggcagaggctgag ggcctcttggtgcccctgagcagcccaggagacgggctcaagcttcccgcatctgacagc gccgaggccagcaacagcagggccgactgctcctggactccactcaacacccaaatgagc aaacaggttgactgctcacccgccggagtaaaggctttggactctcggcaaggtgttgga gagaagaatactttcattttggcaactctgggaactggagtccctgtggaggggaccctg cccctggttaccactaacttcagtcctctgccagcccctatctgtccccctgctcccggt tcggcctctgtgccccactctgttccagatgcattccaggctcctgtgcccccttcagct ccgaccttggttctcgctcccgtccccactccggttctggctcccatgccagcatccacg cctccagcggcccctgcccctccgtctgtgcccatgcccactccaaccccatcttccggc ccaccttctacccccaccctcatccccgcctttgctcctacaccggtgcctgcacccacc ccagcccccatctttactccagcccctacacccatgcctgctgccacgccagctgccatt cccacctctgcacccatcccggcctccttcagtttgagtagagtgtgctttcctgcagct caggcaccagctatgcaaaaagtccccctgtcctttcagccagggacagtgctgaccccg agccagccgctggtatatatcccgcctccaagctgtgggcagccactcagtgtggccaca ctgccaaccactctaggggtttcctccactcttacgctccctgtcctgccgtcctacctg caggacaggtgtctcccaggcgtgctagcctcccccgagctccgttcttacccgtatgca ttttctgtggcccggcctctgacttcggattccaagctggtatctctggaggtgaacagg ctcccctgcacttccccatccggtagcaccaccacccagcctgcacccgatggggtccct gggcctttggcagatacctcccttgttactgcttctgccaaggtgcttccaactccacag cctctgctgccagcccccagtgggagctcagccccaccgcaccccgccaagatgcccagt ggcaccgagcagcaaacagaagggacttccgttaccttctctcctcttaagtcaccgcca cagctggaacgagagatggcctctccacctgagtgcagcgagatgccccttgatctgtcc tccaagtccaaccgccagaagcttccattgccgaaccagcgcaagacaccccccatgcct gtgttgacccccgtgcacaccagcagcaaggccctcctctccacagtcctgtctaggtct cagcgcacaacccaggctgccggtggcaatgtcacctcctgcctgggctccacttcctcg ccctttgtcatctttcccgagatcgtgaggaatggggacccgagcacctgggtgaagaac tcaactgcactgatcagcaccattcctggcacctacgtgggagtggccaacccagtgcct gcatccctgctgctgaacaaagaccccaacctgggcctcaaccgtgacccccgccatctc cccaagcaggagcccatctccatcattgatcaaggagagcctaagggcactggtgccacg tgtggcaaaaagggcagccaggctggtgctgagggacagccaagcacagtgaaacgatat actccagcccgcattgcccctgggctgccagggtgccaaaccaaggaactctctttgtgg aaacccacggggccggcaaatatttatccccggtgttcagtcaatgggaaacctaccagc acccaggtcctgcctgttggctggtccccgtaccaccaggcgtctctgctttccattggc atttccagtgccgggcagctgacccccagtcagggggcgcccatcaggcccaccagcgtt gtttcggagttttctggtgtgccatctctcagctccagcgaagccgtgcacggacttcct gaggggcaaccacggcctgggggctccttcgttccagagcaggaccctgttacaaagaac aaaacttgccggattgctgccaagccttatgaagaacaagtcaatcctgtcctcttgacc ctcagccctcagactgggaccctggcactgtctgttcagcctagcggtggggacattcga atgaatcaggggcctgaggaatcagagagccacctctgctctgacagcactcctaagatg gaaggcccccagggggcttgtggcctgaagctggcaggagacacgaagcctaagaaccaa gtgctggccacctacatgtcccatgagctggtcctggccaccccccagaacctgcctaag atgcctgagctgcctttgctacctcacgacagccaccccaaggaacttatattggacgtg gttccgagcagcaggaggggctccagcacagagcgcccacagcttggaagccaggtggat ctggggcgagtgaaaatggagaaggtggatggtgatgtggtcttcaatttagccacctgc ttccgggctgatggcctcccagtggctccccagaggggccaagctgaagttcgggctaag gccgggcaggctcgagtgaaacaggaaagcgtaggggtctttgcttgcaagaacaagtgg cagccagatgatgtgacggaatctctgccgcccaagaagatgaagtgcggcaaagagaag gacagtgaagagcagcagctccagccacaagccaaggccgtggtccggagttcccacaga cccaagtgccggaagctgcccagtgacccccaggaatccaccaagaaaagccccaggggg gcttcagattcaggaaaagagcacaatggagtcaggggaaagcacaagcaccggaagccg acaaagccggagtcccagtctccaggaaaacgagccgacagccacgaggaaggttccttg gaaaagaaagcaaagagcagtttccgtgactttattcctgtggttctgagcacccgcacg cgcagtcagtctggaagcatctgtagctcctttgctggcatggcagacagtgacatggga agccaggaagtcttccccacagaagaagaagaggaggtaacccccaccccagctaagcgt cgaaaggtgagaaagacccaacgggacacccagtatcgcagccaccatgcccaggacaag tctctgctgagccagggccgaaggcacctgtggcgagcccgagaaatgccctggaggaca gaggctgcccggcaaatgtgggacaccaatgaggaggaggaggaagaagaggaggagggc ctgctgaagaggaagaaacgaagacggcagaagagccgaaaatatcagactggggagtac ctgacagagcaagaagacgagcagcggcggaaagggagagcagatttaaaggcccgtaag cagaagacttcctcctcccaaagtttggagcaccgcctcaggaacaggaaccttctcttg cccaacaaagtccaggggatctcggattcaccaaacggtttcctcccaaataacctggaa gagccagcctgccttgaaaattcagaaaagccatcaggaaaacgaaagtgcaagaccaag cacatggcaaccgtctcagaagaggcaaagacactcagatggatggccccagcccacaca aagggcaaaggtcgttggagccagcagaagacacgatctcccaaatctcccaccccagtg aaacccacagaaccatgtacaccctctaagtcccgaagtgccagctcagaggaggcctca gagtcacctacagcccggcagatccccccagaggcacgtcggctcatagtgaacaaaaat gctggtgagaccctcctgcagagggcggcgcgtcttggctataaggatgttgttctctac tgcctccagaaagacagtgaagatgtgaatcaccgtgacaatgctggctacacagccctg catgaggcttgttcccggggctggaccgacatcctgaacatcctgctggagcacggggcc aacgtgaactgcagtgcgcaggacggcacgaggcaagagggctgcatctccccccagcca gttcatgatgcggtggtcaatgacaacctggagaccatctggctcctgctgtcctatggg gccgatcccacactggctacctactcgggtcagacagccatgaagctggccagcagcgac accatgaagcgctttctcagtgatcacctctcggatcttcagggccgggcagagggtgat cccggtgtatcctgggatttttacagcagttctgtgttggaggaaaaagacgggtttgcc tgtgacctcctacataatcctcctgggagctcagatcaagaaggagacgatccgatggag gaggatgatttcatgtttgaactctcagacaagcctcttctcccttgctacaacctccaa gtgtcagtgtcccgcgggccctgcaactggttcctcttttccgatgtcttgaagaggctg aagctttcctcgaggatctttcaggcccggttcccgcactttgaaatcaccaccatgccc aaggccgagttctacaggcaggtggcctccagtcagctgctgacccctgccgagaggcct ggaggcttggacgacagatcccccccaggctcctctgagactgtggagctggtgcggtac gagccagacctacttcggctcctagggtccgaggtggaattccagtcttgcaacagttga >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_2|808_aa MNIQVSLWQAGPQALRACARQQSFVHTPCLPMAQGGSRLREPVVTKEQYSQDSKPEYREG HLFGFVGSTGQLRDLSVHGFWYSQAVYTVGGLWVPWRKRKKHLFAWDLPSNHSSSGTDQG LQRRCGPSKLTGPHSQDSMAITLQPSDLIFEFASNGMDDDIHQLEDPSVFPAVIVEQVPY PDLLHLYSGLELDDVHNGIITDGTLCMTQDQILEGSFLLTDDNEATSHTMSTAEVLLNME SPSDILDEKQIFSTSEMLPDSDPAPAVTLPNYLFPASEPDALNRAGDTSDQEGHSLEEKA SREESAKKTGKSKKRIRKTKGNRSTSPVTDPSIPIRKKSKDGKGMDSWDSGSTIYLWEFL LALLQDRNTCPKYIKWTQREKGIFKLVDSKAVSKLWGKQKNKPDMNYETMGRALRYYYQR GILAKVEGQRLVYQFKEMPKDLVVIEDEDESSEATAAPPQASTASVASASTTRRTSSRVS SRSAPQGKGSSSWEKPKIQHVGLQPSASLELGPSLDEEIPTTSTMLVSPAEGQVKLTKAV SASSVPSNIHLGVAPVGSGSALTLQTIPLTTVLTNGPPASTTAPTQLVLQSVPAASTFKD TFTLQASFPLNASFQDSQVAAPGAPLILSGLPQLLAGANRPTNPAPPTVTGAGPAGPSSQ PPGTVIAAFIRTSGTTAAPRVKEGPLRSSSYVQGMVTGAPMEGLLVPEETLRELLRDQAH LQPLPTQVVSRGSHNPSLLGNQTLSPPSRPTVGLTPVAELELSSGSGSLLMAEPSVTTSG SLLTRSPTPAPFSPFNPTSLIKMEPHDI >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_2|2427_bp atgaatattcaggtttcgctctggcaggcagggccccaggcactgcgggcctgtgccagg cagcaatccttcgtccacaccccctgcctgcccatggctcaggggggctccaggctgcgg gagcctgtagtgacgaaagagcagtattctcaagattcgaaacctgagtacagggagggc cacctttttggatttgtgggctccacaggccaactgcgggacttgagtgtgcatggattt tggtattcccaggcagtctacactgtgggtgggctgtgggtcccctggagaaagaggaaa aagcatctctttgcctgggacctgccatctaatcactcctcctctgggacagatcaaggc ctgcaaagaagatgtggcccctcaaagctaactggcccccactcccaagacagcatggct attaccctacagcccagtgacctgatctttgagttcgcaagcaacgggatggatgatgat atccaccagctggaagacccctctgtgttcccagctgtgatcgtggagcaggtaccctac cctgatttactgcatctgtactcgggactggagttggacgacgttcacaatggcatcata acagacgggaccttgtgcatgacgcaggatcagatcctggaaggcagttttttgctgaca gatgacaatgaggccacctcgcacaccatgtcaaccgcggaagtcttactcaatatggag tctcccagcgatatcctggatgagaagcagatcttcagtacctccgaaatgcttccagac tcggaccctgcaccagctgtcactctgcccaactacctgtttcctgcctctgagcccgat gccctgaacagggcgggtgacactagtgaccaggaggggcattctctggaggagaaggcc tccagagaggaaagtgccaagaagactgggaaatcaaagaagagaatccggaagaccaag ggcaaccgaagtacctcacctgtcactgaccccagcatccccattaggaagaaatcaaag gatggcaaaggtatggacagctgggactcaggcagcaccatctatctgtgggagttcctc ctggctcttctgcaagacagaaacacctgtcccaagtacatcaagtggacccagcgagag aaaggcatcttcaaactggtggactccaaagctgtgtccaagctgtgggggaagcagaaa aacaagcctgacatgaactatgagacaatggggcgggcactaagatactactaccaaaga ggcatactggccaaagtggaagggcagaggctggtgtaccagtttaaggagatgcccaag gacctggtggtcattgaagatgaggatgagagcagcgaagccacagcagccccacctcag gcctccacggcctctgtggcctctgccagtaccacccggcgaaccagctccagggtctca tccagatctgccccccagggcaagggcagctcttcttgggagaagccaaaaattcagcat gtcggtctccagccatctgcgagtctggaattgggaccgtcgctagacgaggagatcccc actacctccaccatgctcgtctctccagcagagggccaggtcaagctcaccaaagctgtg agtgcatcttcagtgcccagcaacatccacctaggagtggcccccgtggggtcgggctcg gccctgaccctgcagacgatcccactgaccacggtgctgaccaatgggcctcctgccagt actactgctcccactcagctcgttctccagagtgttccagcggcctctactttcaaggac accttcactttgcaggcctctttccccctgaacgccagtttccaagacagccaggtggca gccccaggggctccactgattctcagtggcctcccccaacttctggctggggccaaccgt ccgaccaacccggcgccacccacggtcacaggggctggaccagcagggcccagctctcag ccccctgggactgtcattgctgccttcatcaggacttctggcactacagcagcccctagg gtcaaggaggggccactgaggtcctcctcctatgttcagggtatggtgacgggggccccc atggaggggctgctggttcctgaagagaccctgagggagctcctgagagatcaggctcat cttcagccacttccaacccaggtggtttccaggggttcccacaatccgagccttctgggc aaccagactttgtctcctcccagccgccccactgttgggctgaccccagtggctgaactt gagctctcctcaggctcagggtccctgctgatggctgagcctagtgtgaccacatctggg agccttctgacaagatcccccaccccagcccctttctccccattcaaccctacttccctc attaagatggagccccatgacatataa >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_3|92_aa MKAPTKLQKITGFQLSSSWTAAQEGWLPGGDDADTGGAAGSAEDRIDKHGPPNCPSRSGL KQSLYLSCRPSRVSGCAPALATVCIPCAGDAF >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_3|279_bp atgaaagcccctacaaaacttcagaagatcaccggctttcaattgtcttcgagctggaca gcagctcaggagggctggctgcctggaggggatgatgccgacacaggaggcgctgctggc tctgcagaagaccggattgacaagcacggaccacctaactgtccctctagatccggactt aagcagagcctctacctctcatgtcggccgagccgagtctcaggctgcgccccagccttg gccacagtctgcatcccctgtgctggagatgcgttctaa >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_4|498_aa MASSGASGGKIDNSVLVLIVGLSTVGAGAYAYKTMKEDEKRYNERISGLGLTPEQKQKKA ALSASEGEEVPQDKAPSHVPFLLIGGGTAAFAAARSIRARDPGARVLIVSEDPELPYMRP PLSKELWFSDDPNVTKTLRFKQWNGKERSIYFQPPSFYVSAQDLPHIENGGVAVLTGKKV VQLDVRDNMVKLNDGSQITYEKCLIATARALGTEVIQLFPEKGNMGKILPEYLSNWTMEK VRREGVKVMPNAIVQSVGVSSGKLLIKLKDGRKVETDHIVAAVGLEPNVELAKTGGLEID SDFGGFRVNAELQARSNIWVAGDAACFYDIKLGRRRVEHHDHAVVSGRLAGENMTGAAKP YWHQSMFWSDLGPDVGYEAIGLVDSSLPTVGVFAKATAQDNPKSATEQSGTGIRSESETE SEASEITIPPSTPAVPQAPVQGEDYGKGVIFYLRDKVVVGIVLWNIFNRMPIARKIIKDG EQHEDLNEVAKLFNIHED >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_4|1497_bp atggctagctctggtgcatcagggggcaaaatcgataattctgtgttagtccttattgtg ggcttatcaacagtaggagctggtgcctatgcctacaagactatgaaagaggatgaaaaa agatacaatgaaagaatttcagggttagggctgacaccagaacagaaacagaaaaaggcc gcgttatctgcttcagaaggagaggaagttcctcaagacaaggcgccaagtcatgttcct ttcctgctaattggtggaggcacagctgcttttgctgcagccagatccatccgggctcgg gatcctggggccagggtactgattgtatctgaagatcctgagctgccgtacatgcgacct cctctttcaaaagaactgtggttttcagatgacccaaatgtcacaaagacactgcgattc aaacagtggaatggaaaagagagaagcatatatttccagccaccttctttctatgtctct gctcaggacctgcctcatattgagaatggtggtgtggctgtcctcactgggaagaaggta gtacagctggatgtgagagacaacatggtgaaacttaatgatggctctcaaataacctat gaaaagtgcttgattgcaacagctcgagccttgggcacagaagtgattcaactcttcccc gagaaaggaaatatgggaaagatcctccccgaatacctcagcaactggaccatggaaaaa gtcagacgagagggggttaaggtgatgcccaatgctattgtgcaatccgttggagtcagc agtggcaagttacttatcaagctgaaagacggcaggaaggtagaaactgaccacatagtg gcagctgtgggcctggagcccaatgttgagttggccaagactggtggcctggaaatagac tcagattttggtggcttccgggtaaatgcagagctacaagcacgctctaacatctgggtg gcaggagatgctgcatgcttctacgatataaagttgggaaggaggcgggtagagcaccat gatcacgctgttgtgagtggaagattggctggagaaaatatgactggagctgctaagccg tactggcatcagtcaatgttctggagtgatttgggccccgatgttggctatgaagctatt ggtcttgtggacagtagtttgcccacagttggtgtttttgcaaaagcaactgcacaagac aaccccaaatctgccacagagcagtcaggaactggtatccgatcagagagtgagacagag tccgaggcctcagaaattactattcctcccagcaccccggcagttccacaggctcccgtc cagggggaggactacggcaaaggtgtcatcttctacctcagggacaaagtggtcgtgggg attgtgctatggaacatctttaaccgaatgccaatagcaaggaagatcattaaggacggt gagcagcatgaagatctcaatgaagtagccaaactattcaacattcatgaagactga >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_5|154_aa MGQSPGSRFLCLGLRTHTVRTKGTSFCFKAPAARPPHRNISATAIRDLLLPFPLTHDRRV KHREPRPAPPVSSHAHYADSSSQLRVGIGQRSRPARAGEGERRPEAYCAGVALAAALRLV RTARGFAHALAGRKLAKTLALGSRFSRVCGTVLD >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_5|465_bp atgggtcagtcacctgggagccggttcctctgcctcgggcttcggacgcacacggtccgc accaagggcaccagcttctgcttcaaagcacccgccgccaggcctccacaccggaacatt tcggcgaccgctattcgggacctcctccttccctttcctctcacgcacgaccgacgggtc aaacaccgtgagccccggccagctcccccagtctcttcacacgcacattacgcagactcc tcctcccagctccgggtgggcattggacagagaagccggcctgctagagccggggaaggg gaacggcgaccggaggcctactgcgcaggcgtagcactcgctgccgcattgcgattggtc cgcacggcgagaggatttgcgcatgcactagctggccgcaagctcgcaaagacgctggct ctaggtagccggttttcgcgagtttgtggcacagtgttggactga >gi568815575r:129966724_130181330|GENSCAN_predicted_peptide_6|89_aa MAQPILGHGSLQPASAAGLASLELDSSLDQYVQIRIFKIIVIGDSNVGKTCLTFRFCGGT FPDKTEATIGVDFREKTVEIEGEKIKIGN >gi568815575r:129966724_130181330|GENSCAN_predicted_CDS_6|270_bp atggcgcagcccatcctgggccatgggagcctgcagcccgcctcggccgctggcctggcg tccctggagctcgactcgtcgctggaccagtacgtgcagattcgcatcttcaaaataatc gtgattggggactccaacgtgggcaagacctgcctgaccttccgcttctgcgggggtacc ttcccagacaagactgaagccaccatcggcgtggacttcagggagaagaccgtggaaatc gagggcgagaagatcaagataggaaactga