Result of GENSCAN for
pF1KE5356
GENSCAN 1.0 Date run: 8-Nov-116 Time: 00:04:57 Sequence gi568815583f:42302794_42511345 : 208552 bp : 42.82% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 3753 3834 82 2 1 94 40 130 0.413 7.09 1.02 Intr + 5429 5525 97 0 1 73 106 46 0.881 3.05 1.03 Intr + 7490 7670 181 2 1 87 83 115 0.999 9.85 1.04 Intr + 7900 8119 220 0 1 80 127 129 0.752 12.95 1.05 Intr + 18992 19227 236 0 2 105 93 253 0.868 23.98 1.06 Intr + 23505 23631 127 2 1 65 80 105 0.832 6.73 1.07 Intr + 24570 24604 35 1 2 116 77 24 0.422 1.12 1.08 Intr + 26513 26656 144 1 0 25 66 138 0.044 4.86 1.09 Intr + 27783 27879 97 2 1 17 91 51 0.029 -3.04 1.10 Intr + 36876 37119 244 1 1 109 83 209 0.336 18.13 1.11 Intr + 37897 37961 65 1 2 117 80 68 0.999 6.34 1.12 Intr + 40285 40361 77 2 2 88 94 62 0.927 5.12 1.13 Intr + 42965 43039 75 1 0 111 93 35 0.281 5.09 1.14 Intr + 45310 45423 114 0 0 80 63 93 0.174 5.72 1.15 Intr + 57004 57321 318 0 0 38 117 278 0.044 20.93 1.16 Intr + 65228 65329 102 1 0 59 76 52 0.002 0.55 1.17 Intr + 81690 81759 70 2 1 108 63 72 0.620 4.54 1.18 Intr + 83374 83492 119 2 2 103 94 68 0.437 8.16 1.19 Intr + 84960 85093 134 2 2 48 71 175 0.989 10.32 1.20 Intr + 86135 86303 169 2 1 69 95 247 0.994 22.53 1.21 Intr + 87160 87303 144 0 0 64 65 134 0.939 8.26 1.22 Intr + 91340 91548 209 1 2 53 82 163 0.842 9.15 1.23 Intr + 94007 94084 78 2 0 106 105 136 0.999 14.85 1.24 Intr + 96699 96859 161 0 2 98 75 156 0.855 14.01 1.25 Intr + 98809 99219 411 2 0 19 51 389 0.289 21.53 1.26 Intr + 99331 99494 164 2 2 75 51 93 0.700 3.07 1.27 Intr + 100001 100209 209 1 2 83 61 262 0.662 19.95 1.28 Intr + 100948 100984 37 1 1 108 89 94 0.144 8.85 1.29 Intr + 105418 105531 114 0 0 114 39 135 0.526 10.92 1.30 Intr + 106420 106587 168 0 0 88 76 94 0.592 7.42 1.31 Intr + 106994 107080 87 1 0 157 47 87 0.787 10.75 1.32 Intr + 107795 107915 121 1 1 57 56 187 0.876 11.55 1.33 Intr + 108091 108207 117 2 0 93 89 102 0.999 10.32 1.34 Intr + 108494 108552 59 0 2 95 88 86 0.641 6.98 1.35 Term + 111830 112024 195 1 0 35 38 191 0.476 5.23 1.36 PlyA + 112688 112693 6 -0.45 2.21 PlyA - 113496 113491 6 1.05 2.20 Term - 114567 114511 57 0 0 116 45 134 0.999 8.61 2.19 Intr - 115158 115012 147 0 0 102 88 53 0.970 6.21 2.18 Intr - 118339 118268 72 1 0 88 82 114 0.996 9.48 2.17 Intr - 119195 119124 72 2 0 67 101 63 0.920 4.18 2.16 Intr - 119827 119708 120 1 0 77 75 111 0.986 8.47 2.15 Intr - 121267 121205 63 1 0 86 87 51 0.798 2.80 2.14 Intr - 122232 122113 120 0 0 67 20 183 0.504 9.17 2.13 Intr - 125341 125225 117 1 0 68 96 137 0.931 12.24 2.12 Intr - 132725 132591 135 2 0 54 100 159 0.985 13.54 2.11 Intr - 134584 134439 146 2 2 106 103 192 0.996 21.58 2.10 Intr - 135874 135819 56 0 2 57 68 34 0.987 -4.00 2.09 Intr - 137020 136240 781 2 1 67 116 580 0.927 48.30 2.08 Intr - 139621 139280 342 2 0 84 39 289 0.961 18.08 2.07 Intr - 141685 141628 58 1 1 23 91 24 0.581 -6.26 2.06 Intr - 142188 142034 155 1 2 85 92 146 0.777 13.57 2.05 Intr - 143865 143796 70 0 1 107 86 -14 0.942 -1.86 2.04 Intr - 145912 145279 634 0 1 92 64 414 0.951 30.61 2.03 Intr - 149161 146978 2184 0 0 94 89 1629 0.999 149.97 2.02 Intr - 154365 154165 201 2 0 110 123 203 0.996 23.48 2.01 Init - 163318 163260 59 1 2 68 80 72 0.753 5.23 2.00 Prom - 165186 165147 40 -7.15 3.00 Prom + 167716 167755 40 -6.65 3.01 Init + 170333 170402 70 1 1 94 100 45 0.285 7.56 3.02 Term + 187739 188019 281 0 2 45 40 256 0.237 11.12 3.03 PlyA + 189589 189594 6 1.05 4.03 PlyA - 191256 191251 6 1.05 4.02 Term - 193157 192746 412 1 1 4 36 232 0.199 3.33 4.01 Init - 195747 195392 356 0 2 67 31 189 0.257 5.82 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 26513 26710 198 1 0 25 49 180 0.857 4.22 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815583f:42302794_42511345|GENSCAN_predicted_peptide_1|1659_aa ENQEDLGLWEEKFGKFVDIKANGKIETGPSSIGLDFSLHGFEHLYGIPQHAESHQLKNTG DGDAYRLYNLDVYGYQIYDKMGIYGSVPYLLAHKLGRTIGIFWLNASETLVEINTEPAVE YTLTQMGPVAAKQKVRSRTHVHWMSESGIIDVFLLTGPTPSDVFKQYSHLTGICTKKCQF LVLLHIQCPMCHHGTQAMPPLFSLGYHQCRWNYEDEQDVKAVDAGFDEHDIPYDAMWLDI EHTEGKRYFTWDKNRFPNPKRMQELLRSKKRKLVVISDPHIKIDPDYSVYVKAKDQGFFV KNQEGEDFEGVCWPGLSSYLDFTNPKGSTDILFLWNDMNEPSVFRGPEQTMQKNAIHHGN WEHRELHNIYGFYHQMATAEGLIKRSKGKERPFVLTRSFFAGSQKYADIGGFIGNPETEL LVRWYQAGAYQPFFRGHATMNTKRREPWLFGEEHTRLIREAIRERYGLLPYWYSLFYHAH VASQPVMRPLWVEFPDELKTFDMEDEYMLGSALLVHPVTEPKATTVDVFLPGSNEVWYDY KTFAHWEGGCTVKIPVALDTIPVFQRGGSVIPIKTTVGKSTGWMTESSYGLRVALSTKPL AMPTVISASVAPRTAAEPRSPGPVPHPAQSKATEAGGGNPSGIYSAIISRNFPIIGVKEK TFEQLHKKCLEKKVLYVDPEFPPDETSLFYSQKFPIQFVWKRPPAWLFQHGGRQCYKPYT ANPCYLQMPYLQIHLLAKEICENPRFIIDGANRTDICQGELGDCWFLAAIACLTLNQHLL FRVIPHDQSFIENYAGIFHFQFWRYGEWVDVVIDDCLPTYNNQLVFTKSNHRNEFWSALL EKAYAKLHGSYEALKGGNTTEAMEDFTGGVAEFFEIRDAPSDMYKIMKKAIERGSLMGCS IDDGTNMTYGTSPSGLNMGELIARMVRNMDNSLLQDSDLDPRGSDERPTRSQAEHPRVRD LPPSPVPALSKTEDSLSREAAEHESSFCVLKVPFKGEKVKLVRLRNPWGQVEWNGSWSDR WKDWSFVDKDEKARLQHQVTEDGEFWMSYEDFIYHFTKLEICNLTADALQSDKLQTWTVS VNEGRWVRGCSAGGCRNFPEAAVNACFLSGGADTFWTNPQYRLKLLEEDDDPDDSEVICS FLVALMQKNRRKDRKLGASLFTIGFAIYEVCSPDWLQPRKHTFPGRTLPGASRGALWLPQ YPVTHRAPGIRTTCVCNKQKIPGGALERQWSGPGRTGSQRGIAAAAASSCVQHYPGGPES VCGSSRSFLVGFVGRTVIGEGLACVISTAEQMHGNKQHLQKDFFLYNASKARSKTYINMR EVSQRFRLPPSEYVIVPSTYEPHQEGEFILRVFSEKRNLSEEVENTISVDRPVPIIFVSD RANSNKELGVDQESEEGKGKTSPDKQKQSPQALGSLGPEELASQACAPLTPVNQFSFVPP QPQPGSSDQESEEQQQFRNIFKQIAGDDMEICADELKKVLNTVVNKRELLKPNGGGKIFK HYDTDQSGTINSYEMRNAVNDAGAEKEGVAGMWTRDGFHLNNQLYDIITMRYADKHMNID FDSFICCFVRLEGMFRAFHAFDKDGDGIIKLNVLEKFPQLPNTSPTRFLLHKVSFTLIFS IHRQAGQKGTTPQSIRGSQHTASQRENAASLQPREKGQV >gi568815583f:42302794_42511345|GENSCAN_predicted_CDS_1|4980_bp gaaaatcaagaagatctgggcctgtgggaagagaaatttggaaaatttgtggatatcaaa gctaatggtaaaattgaaactggcccttcttctattggtttggatttctccttgcatgga tttgagcatctttatgggatcccacaacatgcagaatcacaccaacttaaaaatactggt gatggagatgcttaccgtctttataacctggatgtctatggataccaaatatatgataaa atgggcatttatggttcagtaccttatctcctggcccacaaactgggcagaactataggt attttctggctgaatgcctcggaaacactggtggagatcaatacagagcctgcagtagag tacacactgacccagatgggcccagttgctgctaaacaaaaggtcagatctcgcactcat gtgcactggatgtcagagagtggcatcattgatgtttttctgctgacaggacctacacct tctgatgtcttcaaacagtactcacaccttacaggtatttgcacgaagaagtgccagttt cttgttctgttacatatccaatgtcccatgtgtcatcacggcacacaagccatgccccct cttttctctttgggataccaccagtgccgctggaactatgaagatgagcaggatgtaaaa gcagtggatgcagggtttgatgagcatgacattccttatgatgccatgtggctggacata gagcacactgagggcaagaggtacttcacctgggacaaaaacagattcccaaaccccaag aggatgcaagagctgctcaggagcaaaaagcgtaagcttgtggtcatcagtgatccccac atcaagattgatcctgactactcagtatatgtgaaggccaaagatcagggcttctttgtg aagaatcaggaaggggaagactttgaaggggtgtgttggccaggtctctcctcttacctg gatttcaccaatcccaagggatctacggacatcctcttcctttggaatgacatgaatgag ccttctgtctttagagggccagagcaaaccatgcagaagaatgccattcatcatggcaat tgggagcacagagagctccacaacatctacggtttttatcatcaaatggctactgcagaa ggactgataaaacgatctaaagggaaggagagaccctttgttcttacacgttctttcttt gctggatcacaaaagtatgctgacataggcgggttcattgggaatccagagacagagctg ctagtgcgttggtaccaggctggagcctaccagcccttcttccgtggccatgccaccatg aacaccaagcgacgagagccctggctctttggggaggaacacacccgactcatccgagaa gccatcagagagcgctatggcctcctgccatattggtattctctgttctaccatgcacac gtggcttcccaacctgtcatgaggcctctgtgggtagagttccctgatgaactaaagact tttgatatggaagatgaatacatgctggggagtgcattattggttcatccagtcacagaa ccaaaagccaccacagttgatgtgtttcttccaggatcaaatgaggtctggtatgactat aagacatttgctcattgggaaggagggtgtactgtaaagatcccagtagccttggacact attccagtgtttcagcgaggtggaagtgtgataccaataaagacaactgtaggaaaatcc acaggctggatgactgaatcctcctatggactccgggttgctctaagcactaagccactt gccatgccgaccgtcattagcgcatctgtggctccaaggacagcggctgagccccggtcc ccagggccagttcctcacccggcccagagcaaggccactgaggctgggggtggaaaccca agtggcatctattcagccatcatcagccgcaattttcctattatcggagtgaaagagaag acattcgagcaacttcacaagaaatgtctagaaaagaaagttctttatgtggaccctgag ttcccaccggatgagacctctctcttttatagccagaagttccccatccagttcgtctgg aagagacctccggcatggcttttccaacatggaggacgtcagtgctataaaccttacaca gccaatccttgttatttgcagatgccatatttgcaaattcacctactcgctaaggaaatt tgcgagaatccccgatttatcattgatggagccaacagaactgacatctgtcaaggagag ctaggggactgctggtttctcgcagccattgcctgcctgaccctgaaccagcaccttctt ttccgagtcataccccatgatcaaagtttcatcgaaaactacgcagggatcttccacttc cagttctggcgctatggagagtgggtggacgtggttatagatgactgcctgccaacgtac aacaatcaactggttttcaccaagtccaaccaccgcaatgagttctggagtgctctgctg gagaaggcttatgctaagctccatggttcctacgaagctctgaaaggtgggaacaccaca gaggccatggaggacttcacaggaggggtggcagagttttttgagatcagggatgctcct agtgacatgtacaagatcatgaagaaagccatcgagagaggctccctcatgggctgctcc attgatgatggcacgaacatgacctatggaacctctccttctggtctgaacatgggggag ttgattgcacggatggtaaggaatatggataactcactgctccaggactcagacctcgac cccagaggctcagatgaaagaccgacccggagccaggcagaacaccctcgcgtaagagat ttgccccccagccccgtcccagccctcagcaagacagaagattccctttccagagaggct gcagagcatgagagctctttctgtgtgcttaaggtcccgttcaaaggtgagaaagtgaag ctggtgcggctgcggaatccgtggggccaggtggagtggaacggttcttggagtgataga tggaaggactggagctttgtggacaaagatgagaaggcccgtctgcagcaccaggtcact gaggatggagagttctggatgtcctatgaggatttcatctaccatttcacaaagttggag atctgcaacctcacggccgatgctctgcagtctgacaagcttcagacctggacagtgtct gtgaacgagggccgctgggtacggggttgctctgccggaggctgccgcaacttcccagag gcagctgtgaatgcgtgcttcctttctgggggtgcagatactttctggaccaaccctcag taccgtctgaagctcctggaggaggacgatgaccctgatgactcggaggtgatttgcagc ttcctggtggccctgatgcagaagaaccggcggaaggaccggaagctaggggccagtctc ttcaccattggcttcgccatctacgaggtgtgcagtcctgattggctccagcccaggaaa catactttcccagggaggacgcttccaggggcttctagaggggccctctggcttcctcaa tacccagtgacccacagagctcctggtatcaggaccacttgtgtttgtaacaagcaaaaa ataccagggggggcattagagaggcagtggagcgggcctggcagaacaggttcccaaaga ggtatagcagcagcagcggccagcagttgtgtgcagcactacccagggggccccgagtct gtctgtggctcgtcgagaagcttcctggtggggtttgtgggcaggactgtgataggagag ggccttgcctgtgttatttccactgcagagcagatgcacgggaacaagcagcacctgcag aaggacttcttcctgtacaacgcctccaaggccaggagcaaaacctacatcaacatgcgg gaggtgtcccagcgcttccgcctgcctcccagcgagtacgtcatcgtgccctccacctac gagccccaccaggagggggaattcatcctccgggtcttctctgaaaagaggaacctctct gaggaagttgaaaataccatctccgtggatcggccagtgcccatcatcttcgtttcggac agagcaaacagcaacaaggagctgggtgtggaccaggagtcagaggagggcaaaggcaaa acaagccctgataagcaaaagcagtccccacaggcacttggctcccttggcccagaggag cttgcctcacaggcctgtgcacctctgacccctgtgaaccagttttcctttgtgcctcca cagccacagcctggcagctctgatcaggaaagtgaggaacagcaacaattccggaacatt ttcaagcagatagcaggagatgacatggagatctgtgcagatgagctcaagaaggtcctt aacacagtcgtgaacaaacgtgagttgctcaaaccaaatgggggtgggaaaattttcaaa cactatgacacagaccagtccggcaccatcaacagctacgagatgcgaaatgcagtcaac gacgcaggtgctgagaaggaaggggtggcagggatgtggacccgagacggattccacctc aacaaccagctctatgacatcattaccatgcggtacgcagacaaacacatgaacatcgac tttgacagtttcatctgctgcttcgttaggctggagggcatgttcagagcttttcatgca tttgacaaggatggagatggtatcatcaagctcaacgttctggagaagttcccacaactg cccaacacctcacctacccgtttcctgctgcacaaagtctccttcactctcatcttttcg atacatcgtcaggcagggcagaagggcactacgccgcagagcattcgaggctctcagcac actgccagccagcgtgaaaatgcggcttcactacagcccagagaaaagggccaggtttag >gi568815583f:42302794_42511345|GENSCAN_predicted_peptide_2|1862_aa MDEHMRSMLHHRELENLKGRDISHECRVCGVTEVGLSAYAKHISGQLHKDNVDAQEREDD GKGEEEEEDYFDKELIQLIKQRKEQSRQDEPSNSNQEINSDDRRPQWRREDRIPYQDRES YSQPAWHHRGPPQRDWKWEKDGFNNTRKNSFPHSLRNGGGPRGRSGWHKGVAGGSSTWFH NHSNSGGGWLSNSGAVDWNHNGTGRNSSWLSEGTGGFSSWHMNNSNGNWKSSVRSTNNWN YSGPGDKFQPGRNRNSNCQMEDMTMLWNKKSNKSNKYSHDRYNWQRQENDKLGTVATYRG PSEGFTSDKFPSEGLLDFNFEQLESQTTKQADTATSKVSGKNGSAAREKPRRWTPYPSQK TLDLQSGLKDITGNKSEMIEKPLFDFSLITTGIQEPQTDETRNSPTQKTQKEIHTGSLNH KASSDSAASFEVVRQCPTAEKPEQEHTPNKMPSLKSPLLPCPATKSLSQKQDPKNISKNT KTNFFSPGEHSNPSNKPTVEDNHGPYISKLRSSCPHVLKGNKSTFGSQKQSGDNLNDTLR KAKEVLQCHESLQNPLLSTSKSTRNYAKASRNVEESEKGSLKIEFQVHALEDESDGETSD TEKHGTKIGTLGSATTELLSGSTRTADEKEEDDRILKTSRELSTSPCNPIVRQKESELQM TSAASPHPGLLLDLKTSLEDAQVDDSIKSHVSYETEGFESASLDAELQKSDISQPSGPLL PELSKLGFPASLQRDLTRHISLKSKTGVHLPEPNLNSARRIRNISGHRKSETEKESGLKP TLRQILNASRRNVNWEQVIQQVTKKKQELGKGLPRFGIEMVPLVQNEQEALDLDGEPDLS SLEGFQWEGVSISSSPGLARKRSLSESSVIMDRAPSVYSFFSEEGTGKENEPQQMVSPSN SLRAGQSQKATMHLKQEVTPRAASLRTGERAENVATQRRHSAQLSSDHIIPLMHLAKDLN SQERSIPPSENQNSQESNGEGNCLSSSASSALAISSLADAATDSSCTSGAEQNDGQSIRK KRRATGDGSSPELPSLERKNKRRKIKGKKERSQVDQLLNISLREEELSKSLQCMDNNLLQ ARAALQTAYVEVQRLLMLKQQCFGQQPRYFYQCLGIFKAPETYEPSEHPDQVPCSLTRER RNSRSQTSIDAALLPTPFFPLFLEPPSSHVSPSPTGASLQITTSPTFQTHGSVPAPDSSV QIKQEPMSPEQDENVNAVPPSSACNVSKELLEANREISDSCPVYPVITARLSLPESTESF HEPSQELKFSVEQRNTRNRENSPSSQSAGLSSINKEGEEPTKGNSGSEACTSSFLRLSFA SETPLEKEPHSPADQPEQQAESTLTSAETRGSKKKKKLRKKKSLRAAHVPENSDTEQDVL TVKPVRKVKAGKLIKGGKVTTSTWEDSRTGREQESVRDEPDSDSSLEVLEIPNPQLEVVA IDSSESGEEKPDSPSKKDIWNSTEQNPLETSRSGCDEVSSTSEIGTRYKDGIPVSVAETQ TVISSIKGSKNSSEISSEPGDDDEPTEGSFEGHQAAVNAIQIFGNLLYTCSADKTVRVYN LVSRKCIGVFEGHTSKVNCLLVTQTSGKNAALYTGSSDHTIRCYNVKSRECVEQLQLEDR VLCLHSRWRILYAGLANGTVVTFNIKNNKRLEIFECHGPRAVSCLATAQEGARKLLVVGS YDCTISVVNDLVFSGSSDQSVHAHNIHTGELVRIYKGHNHAVTVVNILGKVMVTACLDKF VRVYELQSHDRLQVYGGHKDMIMCMTIHKSMIYTGCYDGSIQAVRLNLMQNYRCWWHGCS LIFGVVDHLKQHLLTDHTNPNFQTLKCRWKNCDAFFTARKGSKQDAAGHIERHAEDDSKI DS >gi568815583f:42302794_42511345|GENSCAN_predicted_CDS_2|5589_bp atggacgaacacatgcggagcatgttgcatcacagggaacttgagaacctcaagggcagg gacattagtcatgagtgccgagtgtgcggggtcacagaagtgggtctttctgcatatgca aagcacatttctggccagttgcacaaagataacgttgatgcccaggaaagagaagatgat ggaaaaggagaggaagaggaagaagattattttgacaaggaactcattcagttaataaaa caaaggaaagaacaaagtcgacaagatgaaccttccaatagcaaccaagaaataaactct gatgacagacgaccccaatggagacgagaagaccgaattccttaccaagacagagagagt tacagtcagcctgcatggcatcatcgtggacctccacagcgggattggaaatgggaaaaa gatggctttaataatactaggaaaaacagctttccacattctttgaggaatggtggtgga ccaagaggacgttccgggtggcataagggtgttgcaggaggctcctcgacttggtttcac aaccatagtaattctggaggtggttggctttcaaatagtggagcagtagattggaatcat aatggtacaggaaggaattccagttggctttctgaaggaacaggtggcttttccagttgg catatgaacaacagtaacggaaactggaaatccagtgtacgtagtacaaataattggaat tacagtggccctggagacaaatttcaaccaggcagaaacagaaattctaactgtcaaatg gaagacatgactatgctatggaacaagaaatctaataagtcaaacaaatacagtcacgac agatataattggcagcggcaagaaaatgacaaacttggtacagttgccacatatagaggt ccttctgaaggatttacaagtgataaatttccttcagaaggcttactcgacttcaatttt gagcagctggaaagccaaaccactaaacaagcagacactgctacttccaaagttagtgga aagaatggcagtgcggcaagggaaaagcctcgtcgctggacgccttacccttctcagaag actctggatttacagtcgggattgaaagacatcactggtaacaagtcagaaatgatagag aaacctctctttgattttagcttgataactacaggaatacaggagccccaaactgatgaa acacgtaattccccaacacagaaaacacaaaaagaaatacatactggatctcttaatcac aaggcctcttctgattccgctgcttccttcgaggtggtgagacagtgccccactgcagaa aaacctgaacaagagcatacaccaaataaaatgccatcattgaaatccccactccttcca tgtccagccactaaatcattgtctcaaaagcaagatccaaagaatatctcaaaaaacacc aaaacaaattttttttcccctggagaacactcaaatccctcgaacaagcccactgtggaa gataaccatggtccttacatatccaaactgcgtagttcatgtcctcatgttttaaaaggg aataaaagtacatttggctctcaaaagcaatctggtgataatttaaatgatactttacga aaggccaaagaggtgctacagtgtcatgagtcattgcaaaatccacttcttagcacttct aaaagtaccaggaactatgcaaaagcaagtagaaatgtagaagaatctgaaaaagggtct ttgaaaattgagtttcaagtgcacgcactagaagatgaaagtgatggagagacatctgac acggaaaagcatggaacaaaaattggaaccctaggttctgcaactacagaattgttatct ggcagcactcgaactgctgatgagaaagaggaggatgaccgcatcctgaagacttctaga gagctatccacttccccatgtaatcccatagttcgccagaaagaatctgaattacaaatg acatctgcagccagtccacaccctggcttattgctagacttgaaaacctctctagaagat gcacaggttgatgactctattaaatctcatgtatcttatgaaacagaaggctttgagagt gctagcttggatgcagagcttcaaaaaagtgacatcagtcagccctcgggccctctcctg cctgaactaagtaagcttggctttcctgcctcacttcagagggatctaacccggcacatt agtttgaagagcaaaactggagtacaccttcctgagccaaacctcaatagtgcccgccgc attcgcaatattagcggtcaccgaaagagtgagacagagaaggagtctgggctcaagcca accctacggcagattctaaatgcatctcggagaaatgtcaactgggaacaggtcattcag caagtaaccaagaaaaagcaagagctgggcaaaggcttacccaggtttggcatagaaatg gtaccccttgttcaaaatgaacaagaagccttagatttggatggggaacctgatctgtcc agtctagaaggattccagtgggaaggtgtttccatttcctcgtcccctggcttggcaaga aagcgaagcctttctgagagcagcgtgatcatggacagagctccttctgtgtatagcttc ttcagtgaggaaggtacaggcaaagaaaatgagccccagcagatggtttcacctagtaac tcattgagggctggacagagccagaaagcaaccatgcacctcaaacaagaagtgacacct cgggctgcctccctccgaacaggtgaaagggctgaaaatgttgctacccaaaggcgacat agtgcacaattatcctctgaccatataatacctttgatgcatttggcaaaagacttgaac agccaggagaggtctataccaccgtcagagaatcagaattcccaggagagtaatggagag ggaaactgtctgtcatcaagcgcatcctcagcccttgcgatctccagtttagcggatgca gccacagatagtagctgtacctctggtgctgaacaaaatgatggccaaagtattagaaag aaacgaagagccactggagatggatcttctcctgaactcccaagtcttgagagaaaaaat aaaagaaggaaaattaaaggaaaaaaagaacgttctcaggttgaccagctgctgaatatt tctttaagggaggaagaacttagtaagtcattgcagtgcatggataacaatcttctgcaa gcccgtgcagcccttcagacagcttatgtggaagttcagaggctacttatgctcaagcag cagtgttttgggcaacaacctagatacttttatcagtgcctgggaatcttcaaggcccca gaaacatatgaaccttctgagcacccagaccaggttccctgtagcctcacacgagaacga aggaacagtagatctcaaacatccattgatgccgcactgctgcccactccctttttccca ctttttctggagcctccatcttcccatgtgtctccatcacccaccggagcctctcttcaa ataaccacgtctcctactttccaaacccatggcagtgtccctgctccagactcatcagtt cagattaaacaagagcccatgtctcctgaacaagatgagaatgtgaatgctgtgccacca agctctgcctgcaatgtgtccaaggaattactggaagctaatagagagatcagtgacagt tgtccagtttatccagtcatcactgctagattgtccttaccagagtcaacagaaagtttc catgagcctagccaagaactgaagttttctgtggagcaaagaaataccagaaacagagaa aactctccctcttcccaatcagctggtctttctagcataaataaagaaggggaagagcca accaaaggcaatagtgggtctgaagcctgtaccagttcttttctaagattgtcttttgct tcagaaacccctttggagaaggaaccccactctccagctgaccagcctgaacaacaggca gaatccactttgacatcagctgagactaggggaagcaagaaaaagaagaaactccggaag aagaaaagtctacgggctgcccatgttcctgagaatagtgacactgaacaggatgttttg actgttaaacctgtaaggaaagtaaaagctggaaagttaattaaaggggggaaagtaaca acctccacttgggaagacagcaggactggtcgggagcaggagagtgtcagagatgagcca gatagtgactcgtctctggaagtcctagaaattcctaatcctcagttagaagtagtagcc attgattcttcagaatcaggagaagagaaaccagacagcccatctaaaaaggatatttgg aactctacagagcaaaacccactagaaacgtctcgttctgggtgtgatgaagttagctct accagtgaaattggcactcgctataaagatggcatccctgtaagtgtggcagaaactcag actgtgatctcctccataaaaggatcaaagaattcttcagaaatatcttcagagccagga gatgatgatgaacccacagaaggaagctttgagggacaccaagctgccgtaaatgcaatt cagatatttgggaacttgctatatacctgttcagcagataaaactgttcgggtttataat ctggtgagtcggaaatgtattggtgtctttgagggtcatacctccaaagttaactgcctc ctggttactcagacctccgggaagaatgctgccctttacaccgggtccagtgaccatacc atccgctgctataatgttaagagccgagagtgtgtggagcagttacagctggaagaccgg gtcctctgcctccacagtagatggcgaatcctctatgcgggactggcaaatggcactgtg gtcaccttcaacataaagaacaacaaacgacttgagatctttgaatgccatggccctcgg gcagtcagctgtcttgctacagctcaggaaggtgcccgaaaactgctggtcgtggggtct tatgactgcacaattagtgtggtgaatgatctcgtgttcagtggctccagtgatcagtca gtccatgctcacaacattcacactggtgagctcgtgcggatctataaaggtcacaatcat gcagtgactgtggtgaatatcctaggaaaagtgatggtgactgcttgcctggataaattt gttcgtgtctatgaattacagtctcatgatcgattacaagtttatggaggacacaaagac atgattatgtgtatgaccatccataaaagcatgatttacactggctgttatgatggcagt attcaggccgtgaggcttaatctgatgcagaattaccgctgttggtggcatggttgctct ctgatatttggcgttgtagatcatttaaaacaacacttgctgaccgaccacactaatccc aacttccagactctgaaatgtcgctggaagaactgcgatgcttttttcactgctaggaaa ggatccaaacaggatgctgcaggacatattgaacgacatgctgaagatgacagcaaaatt gattcatga >gi568815583f:42302794_42511345|GENSCAN_predicted_peptide_3|116_aa MMLKGNARWSSLDLECSDLGCSAIVIIKTHPTRRETKGGKRTEVVSRERLKCVPGLRPTG FKDQGLWTPCPTGDEGGQWLPLKVKALEPRFLLGLGAELERPRENPYPEASSTACP >gi568815583f:42302794_42511345|GENSCAN_predicted_CDS_3|351_bp atgatgctcaaaggaaatgcccgctggagcagtttagatttggaatgttccgatttggga tgttcagccattgttattatcaagacgcatcccacaaggagagaaacgaaaggaggaaaa agaacggaggttgtcagtcgcgagaggttgaaatgtgtccctggcctgagacctacgggc tttaaggaccagggtctttggactccctgcccaactggggacgaaggaggtcagtggctt cccctaaaggtcaaggctttggagccacgtttccttctggggctgggagcagagctggaa cgcccccgcgaaaatccgtaccccgaagccagcagcaccgcctgcccataa >gi568815583f:42302794_42511345|GENSCAN_predicted_peptide_4|255_aa MVSWAASELGALSPSCSSSWLKGVKVQLGLLLQRVQAPNLGSFHVVAGPAGAQKSRIEVW EPLSRFQRMYGNAWMSRPKSAAVEETSWRTSARALQKGNVGLDTAHPPESPLGHCLVELK GPENYHPATLPPLVPRCSPGTSRPLSGPICRVRAREPPPPLKPDPTNFSTNTIHSFFSGH SLRLHPGQLPPSHSWRLTKRARPLLSGGNSDTPTPDLALHPSRACARRARAPAHFPFAAD TDTPLQLEPITVLGV >gi568815583f:42302794_42511345|GENSCAN_predicted_CDS_4|768_bp atggtttcgtgggcagcctcagaacttggggccctgagtcccagctgctccagctcctgg ctaaaaggggtcaaggtacagcttgggctgttgcttcagagggtgcaagccccaaacctt ggtagcttccacgtggtagctgggcctgcaggtgcacagaagtcaagaattgaggtttgg gaacctctgtctagatttcagaggatgtacggaaatgcctggatgtccaggccaaagtct gctgcagtggaagagacctcatggagaacctctgctagggcactgcagaaaggaaacgtg ggattggacaccgcccaccccccagaatccccactggggcactgcctagtggagctgaag ggtccagagaattaccatccagctacccttcctccactggtccctcgatgttctcccggc acctcccgtcctctctccgggcccatctgccgagtaagggccagagagccccctcctccg cttaagcccgaccccaccaacttttcaaccaatacgatacactctttcttctcaggacat agtctcagacttcatcccggccagctccctccgtcccactcctggagactcaccaagcgg gcgaggccactcctctccggcggcaactcggacaccccaacaccggacctggcgctgcac cctagtcgcgcctgcgcgcgccgagcccgcgcgcctgctcacttcccgttcgccgcggac acagacacacccctgcagctggagccaatcacggtgctgggggtttaa