Result of GENSCAN for
pF1KE6792
GENSCAN 1.0 Date run: 8-Nov-116 Time: 16:23:46 Sequence gi568815597r:119793975_119996336 : 202362 bp : 40.82% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.06 PlyA - 133 128 6 1.05 1.05 Term - 1693 1410 284 2 2 100 47 144 0.867 6.10 1.04 Intr - 4628 4523 106 2 1 90 98 53 0.832 5.37 1.03 Intr - 5888 5751 138 2 0 72 86 127 0.834 10.64 1.02 Intr - 7825 7665 161 2 2 -7 55 117 0.824 -2.31 1.01 Init - 8707 8557 151 1 1 85 106 124 0.989 14.15 1.00 Prom - 10084 10045 40 -7.65 2.03 PlyA - 10307 10302 6 1.05 2.02 Term - 13775 13630 146 0 2 49 52 93 0.855 -1.11 2.01 Init - 14795 14729 67 2 1 82 89 131 0.888 11.89 2.00 Prom - 25391 25352 40 -3.65 3.02 PlyA - 25768 25763 6 1.05 3.01 Sngl - 27641 26844 798 2 0 57 44 247 0.977 12.80 3.00 Prom - 37222 37183 40 -6.05 4.10 PlyA - 39651 39646 6 1.05 4.09 Term - 41744 41539 206 0 2 75 40 142 0.545 4.65 4.08 Intr - 42234 42023 212 2 2 91 96 233 0.970 22.03 4.07 Intr - 43385 43310 76 0 1 108 11 109 0.879 2.85 4.06 Intr - 45421 45210 212 0 2 46 26 226 0.887 9.83 4.05 Intr - 46355 46283 73 0 1 66 110 108 0.999 8.35 4.04 Intr - 47626 47412 215 0 2 92 110 172 0.992 17.24 4.03 Intr - 48561 48459 103 1 1 59 94 112 0.998 7.21 4.02 Intr - 50536 50327 210 2 0 98 61 147 0.744 10.96 4.01 Init - 55961 55871 91 2 1 58 77 99 0.527 6.50 4.00 Prom - 56757 56718 40 -6.35 5.00 Prom + 56906 56945 40 -8.45 5.01 Init + 57137 57228 92 1 2 76 81 114 0.831 9.51 5.02 Intr + 59304 59395 92 0 2 45 -9 200 0.622 4.72 5.03 Term + 59456 59724 269 0 2 77 42 366 0.739 25.57 5.04 PlyA + 59995 60000 6 1.05 6.05 PlyA - 60457 60452 6 1.05 6.04 Term - 66207 66034 174 0 0 -50 55 181 0.369 -2.22 6.03 Intr - 66805 66720 86 2 2 92 100 52 0.741 5.42 6.02 Intr - 68177 68036 142 2 1 54 95 97 0.928 6.01 6.01 Init - 68428 68273 156 1 0 101 75 86 0.939 8.57 6.00 Prom - 69225 69186 40 -6.35 7.05 PlyA - 70710 70705 6 1.05 7.04 Term - 72793 72600 194 2 2 68 38 133 0.127 2.90 7.03 Intr - 73814 73738 77 1 2 67 77 58 0.178 0.84 7.02 Intr - 80411 80321 91 0 1 92 60 38 0.107 -0.47 7.01 Init - 85839 85416 424 0 1 56 42 231 0.044 11.85 7.00 Prom - 87885 87846 40 -7.75 8.03 PlyA - 88009 88004 6 1.05 8.02 Term - 92429 92242 188 0 2 93 43 134 0.598 6.07 8.01 Init - 92974 92914 61 1 1 53 76 69 0.611 3.66 8.00 Prom - 96521 96482 40 -8.15 9.02 PlyA - 99577 99572 6 1.05 9.01 Sngl - 102362 99990 2373 2 0 79 41 1293 0.616 113.91 9.00 Prom - 106556 106517 40 -9.35 10.00 Prom + 107018 107057 40 -2.45 10.01 Init + 108301 108457 157 0 1 79 70 129 0.672 10.32 10.02 Intr + 112416 112597 182 1 2 46 94 23 0.017 -2.63 10.03 Intr + 113079 113228 150 2 0 80 38 139 0.035 7.54 10.04 Intr + 113354 113409 56 1 2 51 68 36 0.018 -5.24 10.05 Term + 113629 113785 157 1 1 14 45 202 0.014 4.92 10.06 PlyA + 117609 117614 6 1.05 11.33 PlyA - 117923 117918 6 1.05 11.32 Term - 122720 121332 1389 2 0 68 54 784 0.991 63.22 11.31 Intr - 123788 123691 98 0 2 98 87 90 0.997 8.71 11.30 Intr - 124579 124432 148 1 1 127 54 246 0.999 23.99 11.29 Intr - 125639 125338 302 0 2 89 103 464 0.937 43.53 11.28 Intr - 126144 126016 129 1 0 94 20 98 0.907 3.35 11.27 Intr - 126423 126255 169 0 1 53 76 336 0.979 27.50 11.26 Intr - 127835 127739 97 1 1 37 100 106 0.986 5.79 11.25 Intr - 128472 128262 211 1 1 80 63 136 0.990 7.35 11.24 Intr - 128804 128662 143 1 2 95 70 139 0.999 11.88 11.23 Intr - 130010 129663 348 1 0 113 69 409 0.999 35.05 11.22 Intr - 131836 131331 506 1 2 84 80 417 0.999 31.35 11.21 Intr - 132637 132525 113 2 2 21 131 104 0.793 7.18 11.20 Intr - 135238 135002 237 2 0 125 85 215 0.644 21.56 11.19 Intr - 141630 141498 133 0 1 66 43 53 0.864 -2.10 11.18 Intr - 143492 143308 185 0 2 77 78 182 0.946 14.69 11.17 Intr - 144036 143883 154 0 1 99 99 63 0.557 7.22 11.16 Intr - 146782 146581 202 0 1 84 91 44 0.984 2.67 11.15 Intr - 147780 147552 229 1 1 14 83 166 0.359 4.71 11.14 Intr - 154592 154440 153 0 0 81 81 149 0.576 12.62 11.13 Intr - 155152 155033 120 2 0 98 116 14 0.950 4.75 11.12 Intr - 156863 156672 192 0 0 102 62 131 0.785 10.44 11.11 Intr - 159714 159569 146 2 2 81 62 119 0.721 7.61 11.10 Intr - 161258 161066 193 0 1 134 92 145 0.996 17.13 11.09 Intr - 163382 163248 135 0 0 45 81 78 0.569 2.42 11.08 Intr - 165528 165418 111 1 0 84 103 66 0.992 7.13 11.07 Intr - 169833 169600 234 1 0 40 115 316 0.995 26.24 11.06 Intr - 171592 171479 114 2 0 41 110 83 0.877 5.30 11.05 Intr - 172515 172402 114 1 0 91 119 76 0.998 10.50 11.04 Intr - 173647 173459 189 2 0 69 99 159 0.998 13.74 11.03 Intr - 174258 174103 156 1 0 75 92 126 0.999 10.76 11.02 Intr - 175770 175537 234 1 0 37 96 256 0.875 18.04 11.01 Intr - 193108 192986 123 2 0 83 91 87 0.317 8.14 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl - 85839 85297 543 0 0 56 41 254 0.929 13.34 S.002 Init - 114015 113971 45 0 0 89 110 47 0.934 7.73 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_1|279_aa MPGADTLEPLTEGEAVQENVETFPLLYTVHKPVHFISLKLCLRDNQIDSQRPRCREGART AKPKRTPQTQQELCGSLIPRQCCYRPWLFLHGWLLRPLEADGGNLECQSYGNGAHLASIL SLKEASTIAEYISGYQRSQPIWIGLHDPQKRQQWQWIDGAMYLYRSWSGKSMGGNKHCAE MSSNNRFSPTHTHWEQGQICRSGPKQTPSQGTTPRSAADTHGRQVMLWSLASGREIVGSH LKNTSVLQKATSALGSLLFHKQMACWDVNGFSSFQFFEL >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_1|840_bp atgcctggagcagacaccttggagccgctgacagaaggtgaagcagtccaagaaaatgtg gaaacttttccgctgctctacacagtccacaaacctgtccattttatttcgttgaagctt tgtctgagagataaccaaatagacagtcaaagaccaaggtgcagagagggtgctaggaca gcgaagccaaagaggacccctcaaacccaacaagagctgtgcggctccctgattcctcgc cagtgttgctaccgcccttggctcttcttgcatggctggctcttgagacccctggaagct gatggaggcaacctcgagtgtcagtcttacggaaacggagcccacctggcatctatcctg agtttaaaggaagccagcaccatagcagagtacataagtggctatcagagaagccagccg atatggattggcctgcacgacccacagaagaggcagcagtggcagtggattgatggggcc atgtatctgtacagatcctggtctggcaagtccatgggtgggaacaagcactgtgctgag atgagctccaataacaggttctcacccacccacacgcactgggaacagggccagatctgc aggtcagggcccaagcagacacctagccagggaacaactcctcgctctgctgcagacacc catggaagacaagtgatgctgtggagcttggcttctgggagggaaatagttggatctcac ctcaaaaatacttcagtccttcaaaaggccacctccgccttgggctctctcctttttcat aagcagatggcctgttgggatgtgaatggctttagcagctttcagttctttgaactttga >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_2|70_aa MASRSMRLLLLLSCLAKTGVLGVIPNMSFMALCLQPYTSSLNYRRLLRTCGTQPCKGNHA RECKALGGCS >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_2|213_bp atggcttccagaagcatgcggctgctcctattgctgagctgcctggccaaaacaggagtc ctgggtgttatccctaatatgtctttcatggctctttgtcttcaaccctacaccagttca ctgaactatcgcaggctgctcaggacctgtggaactcagccatgcaaaggaaaccatgca agagagtgcaaggctctggggggctgctcttga >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_3|265_aa MNKQKLEAFLLKSGTRQGYPLSPLLLNIVLEVLAREIRQEKEIKGIQIGREDFKLSLFTD DMIFYLENPISSAQKLLELISNFSKVSGYKINVQKSQPFLYTNNRQAESQVMNELPFTIA TKRIKYLGIQLTRDVKDLFKGNYKPLLKEIRENTNKWKNIPSSWIGRISIMKMAILPKVI YRFSAIPIKVLLTFFIELEKTILNLIWNQRRPCIAKTILSKKNKAGGIALPDFKLYYKAT VTKTHRKGNNTHQGLLGDRSRGEGT >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_3|798_bp atgaataagcaaaagctggaagcattccttttgaaaagcggtacaagacaaggataccct ctttcaccactcctactcaacatagtattagaagttctggccagggaaatcaggcaagag aaagaaataaagggtattcagataggaagagaggacttcaagttgtctctgttcacagat gatatgattttttatttagaaaaccccatcagctcagcccaaaaacttcttgaactgata agcaacttcagcaaagtctcaggatacaaaatcaatgtgcaaaaatcacaaccattcctt tacaccaacaataggcaagcagagagccaagtcatgaatgaactcccattcacaattgct acaaagagaataaaatacctaggaatacagctaacaagggatgtgaaggacctcttcaag gggaactacaaaccactgctgaaggaaataagagagaacacaaacaaatggaaaaacatt ccatcctcatggataggaagaatcagtatcatgaaaatggccatactgcccaaagtaatt tatagattcagtgctattcccatcaaagtactattgacattcttcatagaattagaaaaa actattttaaatttaatatggaatcaaagaagaccctgtatagccaagacaatcctaagc aaaaagaacaaagctggaggcatcgcgctaccagacttcaaactatactacaaggctaca gtaaccaaaacacacagaaagggcaacaacacacaccaggggctgttgggggataggagt agaggggagggaacttag >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_4|465_aa MTRALTSAKVSGRISVPRALLQATDAPWRGVPGSTSSATNVTMVVSAGPWSSEKAEMNIL EINEKLRPQLAENKQQFRNMKQKFLVTQMAGFLANQQNKYKYEECKDLIKSMLREELQFK EEKLAEQLKQAEELRQYKVLVHSQERELIQLREKLREGRDASHSLNQHLQALLTPDKHDN SQGQDFREQLAEGCRLARHLVHKLSPENDTDEDENDKTKELDKVQESPAPREEQKAEEKE VPEDSLEECAITYSNSHGPSDSNPPHKNIKITSEEDKVNSILVVDSESSQDEWQDALNIL LENQNDDEEEEGKAPVPPQVTLWICGLKLQESEEKEVLQDSPEERVTTSCSDHDVSQSYQ PCEGTFLALVEQKVCSAQDVASEHSNSKGEETPLGFPELGLEPSLAMKIPPQLEGDALEG SADNTHGHQVIGHIHASSVLKPKMIKRKLPFSKWRLACRFSGLQA >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_4|1398_bp atgaccagggctctcaccagtgccaaagtcagtggaaggatatcggtccccagagctctg ttacaggccacggatgctccatggaggggtgtccctggctccacctcttctgccacaaac gtcaccatggtggtatctgccggcccctggtccagtgagaaagcagagatgaacattcta gaaatcaatgagaaattgcgcccccagctggcagagaacaaacaacagttcagaaacatg aagcagaaatttcttgtaactcaaatggccggcttcctggccaaccagcagaacaaatac aagtatgaggagtgcaaagacctcataaaatctatgctgagggaagagctgcagttcaag gaggagaagcttgcagagcagctcaagcaagctgaggagctcaggcaatataaagtcctg gttcactctcaggaacgagagctgatccagttaagggagaagttacgggaagggagagat gcctcccactcactgaatcagcatctccaggctcttctcactccggataagcatgacaac tcccaggggcaggacttccgagaacagctggctgaggggtgtaggctggcacggcacctt gtccacaagctcagcccagaaaatgacacagatgaggatgaaaatgataaaaccaaggag cttgataaagtacaggaatcacctgctcccagggaggagcagaaggctgaagaaaaggaa gtccctgaggactcactggaggaatgtgccatcacttattcaaatagccatggcccttct gactccaacccgcctcacaagaacatcaaaatcacatctgaggaagacaaagtcaactca attctggttgtagacagtgaatcttctcaagatgaatggcaggatgctctaaacattctt ctggaaaatcaaaatgatgatgaggaagaggaagggaaagcgccagtgcccccccaggta actctgtggatttgtgggctgaagctgcaggagtctgaagagaaggaagtcctgcaggac tccccggaggaaagggttacgacttcttgtagtgaccatgatgtgtcccaatcttaccaa ccttgtgaaggcactttcttggcactagttgaacagaaagtttgctctgctcaggatgta gccagcgaacactccaattccaaaggggaagaaactccacttggcttcccagagctgggt ttagagccttcccttgcaatgaagatccctccccagctggaaggtgatgctcttgaaggt tcagctgacaacacacatgggcatcaagtcattggccacattcacgcctcaagtgtccta aaaccaaaaatgatcaaaagaaaactgccgttcagcaagtggagactggcatgcagattc tctggcctgcaagcttag >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_5|150_aa MALASAPNEGLRLLPLAAEGEKEPVCAEIIWRPQQQRPEEPLQQRDGQVDASIYSLMADG TWKIFVNITPAEVGVLVGKDWSNFFVNGLTLGGQKYTVVPDSLLQDGELTADLHVKSIGG APTFNVTITMTAKTLGLLMGKGVHGSFTIS >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_5|453_bp atggcactcgcatctgctcctaatgagggcctgaggctgcttccacttgcagcagaaggt gaaaaggaaccagtgtgtgcagagatcatatggcggccccagcagcagcgaccagaggag cccctgcagcagcgcgacggccaggtggacgcctccatctacagcctcatggcggacggg acctggaaaatcttcgtcaacatcacgccagctgaggttggtgtcctggttggcaaagac tggtcaaactttttcgtgaatgggctgacactggggggccagaaatatactgtggtcccg gactcactgctgcaggatggggaattgaccgcggatcttcatgtgaagagcatcggtgga gcccccaccttcaatgtcactatcaccatgactgccaagacgctaggcctgctgatgggc aaaggtgtccacggcagtttcaccatttcataa >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_6|185_aa MADAFRDMSMGYRTPVITTTMKLGFRKEVNHIKNPVTSMSFCQATQGTQVNKPLKIRMVK QNNIIPGETQILLRFTGWESIVNAKKQPPVGIKCEPMDQECIPGSPACTLPVRFSNGGHP VEPGSERKRPVGVTIVGIYDLVSSSDERRLDPLGKSEAFNAATSVCCKSSSRSSPEGPEA FYVGD >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_6|558_bp atggctgatgccttcagggacatgagcatgggatacaggacacctgtcatcaccaccacc atgaagttgggattcagaaaggaggttaatcatataaagaaccctgtgaccagcatgagc ttctgccaggccacacagggcactcaagtgaacaagcccttgaagataaggatggtcaaa caaaataatatcatacctggagaaactcagatcttgctaagatttactggttgggaatcc attgttaatgccaagaagcagccgccagttgggatcaaatgtgagcctatggatcaagaa tgcatccctggctcccctgcgtgcacacttccagttaggtttagcaatggggggcaccca gtggagcctggaagtgagaggaagagacctgttggagttaccatagtgggaatttatgac ctggtatcaagttcagatgagaggagattggatcccttggggaagagtgaagccttcaat gctgccacaagtgtatgctgtaaatcttcctccaggtcttccccagaaggacctgaagcc ttttatgtgggtgactga >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_7|261_aa MTRSNACFRKSTLLQRGEWTELHLTPPSQQKLQALQSPGFCGHYSNEKYCSASGADSGGS STEKHPGSATGWIAMEAGPVLGIQKADPRHREESGAKLRSPARRPHSLTLPTSLGCWVVE PVYIIEPLTGPGGKISCSQVETPLINSGTSGARVLPVSTVAVCPTDRKLNLGPLRHLRHA SNPTFEELHLYRPPNSEGISQSLTDAAGNFGFMGWGRIALKHNLPPSSAAAIQIKLPHGT LPDITHTQQLTQNGYRPSCKS >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_7|786_bp atgactcgatccaatgcgtgtttcagaaagtccactctgctgcagcgaggagaatggact gaactccacctcacccctccaagtcaacaaaaacttcaagcactgcagagtccaggcttc tgtggccactatagcaacgagaaatactgcagtgcatctggggcagattccggaggcagc agcactgaaaagcatccaggctcagccactgggtggattgccatggaggctgggccagta ctgggcattcagaaagctgacccccgccacagagaagaaagtggtgccaaacttcggtct cctgctagaaggccccactctctgactctccccacttccttaggctgctgggtggttgag ccagtttacataatagagccccttactggaccaggaggaaaaattagctgcagccaggtt gagacgccactaatcaactctgggacatctggggcaagggtgcttccagttagcactgtg gcagtctgcccaactgataggaaactgaatttggggcctctgagacatctaagacatgcc agcaatcctacctttgaggagctccacctttataggcccccaaatagtgaaggcattagc caatcactaacagatgcagcaggaaatttcggtttcatgggctggggaaggatagctctt aaacataacttacctccaagttctgctgctgctatccagataaagctccctcatggcact ttgcctgacatcacacatacacagcaattgactcaaaatggatatagacctagttgtaag agctaa >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_8|82_aa MKSEEKLTCGTLAFIAIRVIGANILPIDGVGVTQCPLVARIADACIIQKTQETCRSVGKG ELRENVPHLGKSFLFHQGGKTS >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_8|249_bp atgaagagtgaggagaaacttacctgtggcacactggcattcatagctattcgggtgatc ggtgcaaatatactgcccattgacggggttggtgtcacacagtgcccccttgtggcaagg attgctgatgcgtgcatcatccagaagacacaggagacctgtcgcagcgtgggcaaagga gaattaagagaaaatgtccctcacttggggaagagctttctctttcaccaaggagggaaa acctcatga >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_9|790_aa MRSVQIFLSQCRLLLLLVPTMLLKSLGEDVIFHPEGEFDSYEVTIPEKLSFRGEVQGVVS PVSYLLQLKGKKHVLHLWPKRLLLPRHLRVFSFTEHGELLEDHPYIPKDCNYMGSVKESL DSKATISTCMGGLRGVFNIDAKHYQIEPLKASPSFEHVVYLLKKEQFGNQVCGLSDDEIE WQMAPYENKARLRDFPGSYKHPKYLELILLFDQSRYRFVNNNLSQVIHDAILLTGIMDTY FQDVRMRIHLKALEVWTDFNKIRVGYPELAEVLGRFVIYKKSVLNARLSSDWAHLYLQRK YNDALAWSFGKVCSLEYAGSVSTLLDTNILAPATWSAHELGHAVGMSHDEQYCQCRGRLN CIMGSGRTGFSNCSYISFFKHISSGATCLNNIPGLGYVLKRCGNKIVEDNEECDCGSTEE CQKDRCCQSNCKLQPGANCSIGLCCHDCRFRPSGYVCRQEGNECDLAEYCDGNSSSCPND VYKQDGTPCKYEGRCFRKGCRSRYMQCQSIFGPDAMEAPSECYDAVNLIGDQFGNCEITG IRNFKKCESANSICGRLQCINVETIPDLPEHTTIISTHLQAENLMCWGTGYHLSMKPMGI PDLGMINDGTSCGEGRVCFKKNCVNSSVLQFDCLPEKCNTRGVCNNRKNCHCMYGWAPPF CEEVGYGGSIDSGPPGLLRGAIPSSIWVVSIIMFRLILLILSVVFVFFRQVIGNHLKPKQ EKMPLSKAKTEQEESKTKTVQEESKTKTGQEESEAKTGQEESKAKTGQEESKANIESKRP KAKSVKKQKK >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_9|2373_bp atgaggtcagtgcagatcttcctctcccaatgccgtttgctccttctactagttccgaca atgctccttaagtctcttggcgaagatgtaatttttcaccctgaaggggagtttgactcg tatgaagtcaccattcctgagaagctgagcttccggggagaggtgcagggtgtggtcagt cccgtgtcctacctactgcagttaaaaggcaagaagcacgtcctccatttgtggcccaag agacttctgttgccccgacatctgcgcgttttctccttcacagaacatggggaactgctg gaggatcatccttacataccaaaggactgcaactacatgggctccgtgaaagagtctctg gactctaaagctactataagcacatgcatggggggtctccgaggtgtatttaacattgat gccaaacattaccaaattgagcccctcaaggcctctcccagttttgaacatgtcgtctat ctcctgaagaaagagcagtttgggaatcaggtttgtggcttaagtgatgatgaaatagaa tggcagatggccccttatgagaataaggcgaggctaagggactttcctggatcctataaa cacccaaagtacttggaattgatcctactctttgatcaaagtaggtataggtttgtgaac aacaatctttctcaagtcatacatgatgccattcttttgactgggattatggacacctac tttcaagatgttcgtatgaggatacacttaaaggctcttgaagtatggacagattttaac aaaatacgcgttggatatccagagttagctgaagttttaggcagatttgtaatatataaa aaaagtgtattaaatgctcgcctgtcatcagattgggcacatttatatcttcaaagaaaa tataatgatgctcttgcatggtcgtttggaaaagtgtgttctctagaatatgctggatca gtgagtactttactagatacaaatatccttgcccctgctacctggtctgctcatgagctg ggtcatgctgtaggaatgtcacatgatgaacaatactgccaatgtaggggtaggcttaat tgcatcatgggctcaggacgcactgggtttagcaattgcagttatatctctttttttaaa catatctcttcgggagcaacatgtctaaataatatcccaggactaggttatgtgcttaag agatgtggaaacaaaattgtggaggacaatgaggaatgtgactgtggttccacagaggag tgtcagaaagatcggtgttgccaatcaaattgtaagttgcaaccaggtgccaactgtagc attggactttgctgtcatgattgtcggtttcgtccatctggatacgtgtgtaggcaggaa ggaaatgaatgtgaccttgcagagtactgcgacgggaattcaagttcctgcccaaatgac gtttataagcaggatggaaccccttgcaagtatgaaggccgttgtttcaggaaggggtgc agatccagatatatgcagtgccaaagcatttttggacctgatgccatggaggctcctagt gagtgctatgatgcagttaacttaataggtgatcaatttggtaactgtgagattacagga attcgaaattttaaaaagtgtgaaagtgcaaattcaatatgtggcaggctacagtgtata aatgttgaaaccatccctgatttgccagagcatacgactataatttctactcatttacag gcagaaaatctcatgtgctggggcacaggctatcatctatccatgaaacccatgggaata cctgacctaggtatgataaatgatggcacctcctgtggagaaggccgggtatgttttaaa aaaaattgcgtcaatagctcagtcctgcagtttgactgtttgcctgagaaatgcaatacc cggggtgtttgcaacaacagaaaaaactgccactgcatgtatgggtgggcacctccattc tgtgaggaagtggggtatggaggaagcattgacagtgggcctccaggactgctcagaggg gcgattccctcgtcaatttgggttgtgtccatcataatgtttcgccttattttattaatc ctttcagtggtttttgtgtttttccggcaagtgataggaaaccacttaaaacccaaacag gaaaaaatgccactatccaaagcaaaaactgaacaggaagaatctaaaacaaaaactgta caggaagaatctaaaacaaaaactggacaggaagaatctgaagcaaaaactggacaggaa gaatctaaagcaaaaactggacaggaagaatctaaagcaaacattgaaagtaaacgaccc aaagcaaagagtgtcaagaaacaaaaaaagtaa >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_10|233_aa MVRMLVLNRNVNGKGYSDEVLDGNEERLVENERKDNPYDKVAQNIAELCFVQVAVVGWTG WWVFGPLHSEQGIDDGSSSSGTTFLFPSSLHWGWQGQKFASWASPQARRSCMQMLPALEH QAPGSSAFGLLDLYQWFAADSQAFDHRLKAALSASLLLSFGLGFCPFGELSPIHQVPGRM LGSSQQQQPAAAAVGGGYQRGTQDVEMQRLLSLMTGFILLRDGLSKWNLAVAA >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_10|702_bp atggtcagaatgttggtattaaatagaaatgtgaatggtaaaggctattctgatgaggta ttagatggaaatgaggaacgtcttgttgaaaatgagaggaaagacaatccttatgataaa gtggcacaaaacatagctgaattgtgttttgtgcaagtggcagtggtgggctggacaggt tggtgggtctttgggcccctgcacagtgagcaaggcatagatgatggcagtagcagtagt gggacaaccttcttgtttccaagcagtctgcactggggttggcaggggcagaaatttgct agttgggccagtccccaagcccgtaggtcatgcatgcagatgcttcctgcccttgaacat caggctccaggttcttcggcctttggactcttggacttataccagtggtttgctgcagac tctcaggcctttgaccacagactgaaggctgcactgtcggcttccctacttttgagcttt ggacttggattctgtccctttggagaactctcaccaatacaccaggtccctggcagaatg cttggtagcagccaacagcagcaaccagcagcagcagctgtgggtggaggatatcaacgg gggacccaggatgtggagatgcagaggcttttgagcctcatgacaggattcattctgctg agagatggactctcaaaatggaaccttgctgtagctgcttag >gi568815597r:119793975_119996336|GENSCAN_predicted_peptide_11|2335_aa XFEGSTCERNIDDCPNHRCQNGGVCVDGVNTYNCRCPPQWTGQFCTEDVDECLLQPNACQ NGGTCANRNGGYGCVCVNGWSGDDCSENIDDCAFASCTPGSTCIDRVASFSCMCPEGKAG LLCHLDDACISNPCHKGALCDTNPLNGQYICTCPQGYKGADCTEDVDECAMANSNPCEHA GKCVNTDGAFHCECLKGYAGPRCEMDINECHSDPCQNDATCLDKIGGFTCLCMPGFKGVH CELEINECQSNPCVNNGQCVDKVNRFQCLCPPGFTGPVCQIDIDDCSSTPCLNGAKCIDH PNGYECQCATGFTGVLCEENIDNCDPDPCHHGQCQDGIDSYTCICNPGYMGAICSDQIDE CYSSPCLNDGRCIDLVNGYQCNCQPGTSGVNCEINFDDCASNPCIHGICMDGINRYSCVC SPGFTVLQSTFMPIIFLNSHNNPERKFYYTRLTNKATERQTLMYILMASARQRCNIDIDE CASNPCRKGATCINGVNGFRCICPEGPHHPSCYSQVNECLSNPCIHGNCTGGLSGYKCLC DAGWVGINCEVDKNECLSNPCQNGGTCDNLVNGYRCTCKKGFKGYNCQVNIDECASNPCL NQGTCFDDISGYTCHCVLPYTGGSWRYQQGPEGILDLALSVPESQCPGKNCQTVLAPCSP NPCENAAVCKESPNFESYTCLCAPGWQGQRCTIDIDECISKPCMNHGLCHNTQGSYMCEC PPGFSGMDCEEDIDDCLANPCQNGGSCMDGVNTFSCLCLPGFTGDKCQTDMNECLSEPCK NGGTCSDYVNSYTCKCQAGFDGVHCENNINECTESSCFNGGTCVDGINSFSCLCPVGFTG SFCLHEINECSSHPCLNEGTCVDGLGTYRCSCPLGYTGKNCQTLVNLCSRSPCKNKGTCV QKKAESQCLCPSGWAGAYCDVPNVSCDIAASRRGVLVEHLCQHSGVCINAGNTHYCQCPL GYTGSYCEEQLDECASNPCQHGATCSDFIGGYRCECVPGYQGVNCEYEVDECQNQPCQNG GTCIDLVNHFKCSCPPGTRGLLCEENIDDCARGPHCLNGGQCMDRIGGYSCRCLPGFAGE RCEGDINECLSNPCSSEGSLDCIQLTNDYLCVCRSAFTGRHCETFVDVCPQMPCLNGGTC AVASNMPDGFICRCPPGFSGARCQSSCGQVKCRKGEQCVHTASGPRCFCPSPRDCESGCA SSPCQHGGSCHPQRQPPYYSCQCAPPFSGSRCELYTAPPSTPPATCLSQYCADKARDGVC DEACNSHACQWDGGDCSLTMENPWANCSSPLPCWDYINNQCDELCNTVECLFDNFECQGN SKTCKYDKYCADHFKDNHCDQGCNSEECGWDGLDCAADQPENLAEGTLVIVVLMPPEQLL QDARSFLRALGTLLHTNLRIKRDSQGELMVYPYYGEKSAAMKKQRMTRRSLPGEQEQEVA GSKVFLEIDNRQCVQDSDHCFKNTDAAAALLASHAIQGTLSYPLVSVVSESLTPERTQLL YLLAVAVVIILFIILLGVIMAKRKRKHGSLWLPEGFTLRRDASNHKRREPVGQDAVGLKN LSVQVSEANLIGTGTSEHWVDDEGPQPKKVKAEDEALLSEEDDPIDRRPWTQQHLEAADI RRTPSLALTPPQAEQEVDVLDVNVRGPDSKSARGNECLRNVATKKLSAQKGKDFTLLHVQ CVETKQADKMDGCTPLMLASLRGGSSDLSDEDEDAEDSSANIITDLVYQGASLQAQTDRT GEMALHLAARYSRADAAKRLLDAGADANAQDNMGRCPLHAAVAADAQGVFQILIRNRVTD LDARMNDGTTPLILAARLAVEGMVAELINCQADVNAVDDHGKSALHWAAAVNNVEATLLL LKNGANRDMQDNKEETPLFLAAREGSYEAAKILLDHFANRDITDHMDRLPRDVARDRMHH DIVRLLDEYNVTPSPPGTVLTSALSPVICGPNRSFLSLKHTPMGKKSRRPSAKSTMPTSL PNLAKEAKDAKGSRRKKSLSEKVQLSESSVTLSPVDSLESPHTYVSDTTSSPMITSPGIL QASPNPMLATAAPPAPVHAQHALSFSNLHEMQPLAHGASTVLPSVSQLLSHHHIVSPGSG SAGSLSRLHPVPVPADWMNRMEVNETQYNEMFGMVLAPAEGTHPGIAPQSRPPEGKHITT PREPLPPIVTFQLIPKGSIAQPAGAPQPQSTCPPAVAGPLPTMYQIPEMARLPSVAFPTA MMPQQDGQVAQTILPAYHPFPASVGKYPTPPSQHSYASSNAAERTPSHSGHLQGEHPYLT PSPESPDQWSSSSPHSASDWSDVTTSPTPGGAGGGQRGPGTHMSEPPHNNMQVYA >gi568815597r:119793975_119996336|GENSCAN_predicted_CDS_11|7008_bp ngttttgaagggagcacctgtgagaggaatattgatgactgccctaaccacaggtgtcag aatggaggggtttgtgtggatggggtcaacacttacaactgccgctgtcccccacaatgg acaggacagttctgcacagaggatgtggatgaatgcctgctgcagcccaatgcctgtcaa aatgggggcacctgtgccaaccgcaatggaggctatggctgtgtatgtgtcaacggctgg agtggagatgactgcagtgagaacattgatgattgtgccttcgcctcctgtactccaggc tccacctgcatcgaccgtgtggcctccttctcttgcatgtgcccagaggggaaggcaggt ctcctgtgtcatctggatgatgcatgcatcagcaatccttgccacaagggggcactgtgt gacaccaaccccctaaatgggcaatatatttgcacctgcccacaaggctacaaaggggct gactgcacagaagatgtggatgaatgtgccatggccaatagcaatccttgtgagcatgca ggaaaatgtgtgaacacggatggcgccttccactgtgagtgtctgaagggttatgcagga cctcgttgtgagatggacatcaatgagtgccattcagacccctgccagaatgatgctacc tgtctggataagattggaggcttcacatgtctgtgcatgccaggtttcaaaggtgtgcat tgtgaattagaaataaatgaatgtcagagcaacccttgtgtgaacaatgggcagtgtgtg gataaagtcaatcgtttccagtgcctgtgtcctcctggtttcactgggccagtttgccag attgatattgatgactgttccagtactccgtgtctgaatggggcaaagtgtatcgatcac ccgaatggctatgaatgccagtgtgccacaggtttcactggtgtgttgtgtgaggagaac attgacaactgtgaccccgatccttgccaccatggtcagtgtcaggatggtattgattcc tacacctgcatctgcaatcccgggtacatgggcgccatctgcagtgaccagattgatgaa tgttacagcagcccttgcctgaacgatggtcgctgcattgacctggtcaatggctaccag tgcaactgccagccaggcacgtcaggggttaattgtgaaattaattttgatgactgtgca agtaacccttgtatccatggaatctgtatggatggcattaatcgctacagttgtgtctgc tcaccaggattcacagttttacaaagcaccttcatgcccattatcttcctgaattctcat aacaatccagaaaggaagttctactatacccgtttaacaaataaggcaactgagagacag accttgatgtatatactcatggcctctgccaggcagagatgtaacattgacattgatgag tgtgcctccaatccctgtcgcaagggtgcaacatgtatcaacggtgtgaatggtttccgc tgtatatgccccgagggaccccatcaccccagctgctactcacaggtgaacgaatgcctg agcaatccctgcatccatggaaactgtactggaggtctcagtggatataagtgtctctgt gatgcaggctgggttggcatcaactgtgaagtggacaaaaatgaatgcctttcgaatcca tgccagaatggaggaacttgtgacaatctggtgaatggatacaggtgtacttgcaagaag ggctttaaaggctataactgccaggtgaatattgatgaatgtgcctcaaatccatgcctg aaccaaggaacctgctttgatgacataagtggctacacttgccactgtgtgctgccatac acaggtgggtcctggaggtaccagcagggaccagaggggatacttgaccttgctttgtca gtgcctgagtctcagtgcccaggcaagaattgtcagacagtattggctccctgttcccca aacccttgtgagaatgctgctgtttgcaaagagtcaccaaattttgagagttatacttgc ttgtgtgctcctggctggcaaggtcagcggtgtaccattgacattgacgagtgtatctcc aagccctgcatgaaccatggtctctgccataacacccagggcagctacatgtgtgaatgt ccaccaggcttcagtggtatggactgtgaggaggacattgatgactgccttgccaatcct tgccagaatggaggttcctgtatggatggagtgaatactttctcctgcctctgccttccg ggtttcactggggataagtgccagacagacatgaatgagtgtctgagtgaaccctgtaag aatggagggacctgctctgactacgtcaacagttacacttgcaagtgccaggcaggattt gatggagtccattgtgagaacaacatcaatgagtgcactgagagctcctgtttcaatggt ggcacatgtgttgatgggattaactccttctcttgcttgtgccctgtgggtttcactgga tccttctgcctccatgagatcaatgaatgcagctctcatccatgcctgaatgagggaacg tgtgttgatggcctgggtacctaccgctgcagctgccccctgggctacactgggaaaaac tgtcagaccctggtgaatctctgcagtcggtctccatgtaaaaacaaaggtacttgcgtt cagaaaaaagcagagtcccagtgcctatgtccatctggatgggctggtgcctattgtgac gtgcccaatgtctcttgtgacatagcagcctccaggagaggtgtgcttgttgaacacttg tgccagcactcaggtgtctgcatcaatgctggcaacacgcattactgtcagtgccccctg ggctatactgggagctactgtgaggagcaactcgatgagtgtgcgtccaacccctgccag cacggggcaacatgcagtgacttcattggtggatacagatgcgagtgtgtcccaggctat cagggtgtcaactgtgagtatgaagtggatgagtgccagaatcagccctgccagaatgga ggcacctgtattgaccttgtgaaccatttcaagtgctcttgcccaccaggcactcggggc ctactctgtgaagagaacattgatgactgtgcccggggtccccattgccttaatggtggt cagtgcatggataggattggaggctacagttgtcgctgcttgcctggctttgctggggag cgttgtgagggagacatcaacgagtgcctctccaacccctgcagctctgagggcagcctg gactgtatacagctcaccaatgactacctgtgtgtttgccgtagtgcctttactggccgg cactgtgaaaccttcgtcgatgtgtgtccccagatgccctgcctgaatggagggacttgt gctgtggccagtaacatgcctgatggtttcatttgccgttgtcccccgggattttccggg gcaaggtgccagagcagctgtggacaagtgaaatgtaggaagggggagcagtgtgtgcac accgcctctggaccccgctgcttctgccccagtccccgggactgcgagtcaggctgtgcc agtagcccctgccagcacgggggcagctgccaccctcagcgccagcctccttattactcc tgccagtgtgccccaccattctcgggtagccgctgtgaactctacacggcaccccccagc acccctcctgccacctgtctgagccagtattgtgccgacaaagctcgggatggcgtctgt gatgaggcctgcaacagccatgcctgccagtgggatgggggtgactgttctctcaccatg gagaacccctgggccaactgctcctccccacttccctgctgggattatatcaacaaccag tgtgatgagctgtgcaacacggtcgagtgcctgtttgacaactttgaatgccaggggaac agcaagacatgcaagtatgacaaatactgtgcagaccacttcaaagacaaccactgtgac caggggtgcaacagtgaggagtgtggttgggatgggctggactgtgctgctgaccaacct gagaacctggcagaaggtaccctggttattgtggtattgatgccacctgaacaactgctc caggatgctcgcagcttcttgcgggcactgggtaccctgctccacaccaacctgcgcatt aagcgggactcccagggggaactcatggtgtacccctattatggtgagaagtcagctgct atgaagaaacagaggatgacacgcagatcccttcctggtgaacaagaacaggaggtggct ggctctaaagtctttctggaaattgacaaccgccagtgtgttcaagactcagaccactgc ttcaagaacacggatgcagcagcagctctcctggcctctcacgccatacaggggaccctg tcataccctcttgtgtctgtcgtcagtgaatccctgactccagaacgcactcagctcctc tatctccttgctgttgctgttgtcatcattctgtttattattctgctgggggtaatcatg gcaaaacgaaagcgtaagcatggctctctctggctgcctgaaggtttcactcttcgccga gatgcaagcaatcacaagcgtcgtgagccagtgggacaggatgctgtggggctgaaaaat ctctcagtgcaagtctcagaagctaacctaattggtactggaacaagtgaacactgggtc gatgatgaagggccccagccaaagaaagtaaaggctgaagatgaggccttactctcagaa gaagatgaccccattgatcgacggccatggacacagcagcaccttgaagctgcagacatc cgtaggacaccatcgctggctctcacccctcctcaggcagagcaggaggtggatgtgtta gatgtgaatgtccgtggcccagactctaaatcagctcgaggaaatgaatgcttaaggaat gtagccacaaagaaattatcagctcagaaagggaaggatttcacattgcttcatgtacag tgtgttgagactaaacaggctgataaaatggatggctgcaccccattgatgttggcttct ctccgaggaggcagctcagatttgagtgatgaagatgaagatgcagaggactcttctgct aacatcatcacagacttggtctaccagggtgccagcctccaggcccagacagaccggact ggtgagatggccctgcaccttgcagcccgctactcacgggctgatgctgccaagcgtctc ctggatgcaggtgcagatgccaatgcccaggacaacatgggccgctgtccactccatgct gcagtggcagctgatgcccaaggtgtcttccagattctgattcgcaaccgagtaactgat ctagatgccaggatgaatgatggtactacacccctgatcctggctgcccgcctggctgtg gagggaatggtggcagaactgatcaactgccaagcggatgtgaatgcagtggatgaccat ggaaaatctgctcttcactgggcagctgctgtcaataatgtggaggcaactcttttgttg ttgaaaaatggggccaaccgagacatgcaggacaacaaggaagagacacctctgtttctt gctgcccgggaggggagctatgaagcagccaagatcctgttagaccattttgccaatcga gacatcacagaccatatggatcgtcttccccgggatgtggctcgggatcgcatgcaccat gacattgtgcgccttctggatgaatacaatgtgaccccaagccctccaggcaccgtgttg acttctgctctctcacctgtcatctgtgggcccaacagatctttcctcagcctgaagcac accccaatgggcaagaagtctagacggcccagtgccaagagtaccatgcctactagcctc cctaaccttgccaaggaggcaaaggatgccaagggtagtaggaggaagaagtctctgagt gagaaggtccaactgtctgagagttcagtaactttatcccctgttgattccctagaatct cctcacacgtatgtttccgacaccacatcctctccaatgattacatcccctgggatctta caggcctcacccaaccctatgttggccactgccgcccctcctgccccagtccatgcccag catgcactatctttttctaaccttcatgaaatgcagcctttggcacatggggccagcact gtgcttccctcagtgagccagttgctatcccaccaccacattgtgtctccaggcagtggc agtgctggaagcttgagtaggctccatccagtcccagtcccagcagattggatgaaccgc atggaggtgaatgagacccagtacaatgagatgtttggtatggtcctggctccagctgag ggcacccatcctggcatagctccccagagcaggccacctgaagggaagcacataaccacc cctcgggagcccttgccccccattgtgactttccagctcatccctaaaggcagtattgcc caaccagcgggggctccccagcctcagtccacctgccctccagctgttgcgggccccctg cccaccatgtaccagattccagaaatggcccgtttgcccagtgtggctttccccactgcc atgatgccccagcaggacgggcaggtagctcagaccattctcccagcctatcatcctttc ccagcctctgtgggcaagtaccccacacccccttcacagcacagttatgcttcctcaaat gctgctgagcgaacacccagtcacagtggtcacctccagggtgagcatccctacctgaca ccatccccagagtctcctgaccagtggtcaagttcatcaccccactctgcttctgactgg tcagatgtgaccaccagccctacccctgggggtgctggaggaggtcagcggggacctggg acacacatgtctgagccaccacacaacaacatgcaggtttatgcgtga