Result of GENSCAN for
pF1KB6921
GENSCAN 1.0 Date run: 4-Nov-116 Time: 12:42:12 Sequence gi568815590f:123316850_123541412 : 224563 bp : 42.70% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.26 Intr - 6217 6089 129 1 0 81 97 89 0.868 9.07 1.25 Intr - 9177 9044 134 1 2 79 53 168 0.990 11.84 1.24 Intr - 11777 11341 437 1 2 62 102 336 0.548 24.70 1.23 Intr - 15087 14991 97 1 1 6 89 79 0.566 -2.05 1.22 Intr - 17172 17029 144 1 0 37 119 69 0.949 4.23 1.21 Intr - 17473 17351 123 2 0 51 75 152 0.998 9.84 1.20 Intr - 19683 19524 160 0 1 54 83 118 0.998 6.54 1.19 Intr - 20972 20776 197 0 2 -13 52 217 0.905 6.21 1.18 Intr - 22597 22462 136 1 1 85 92 157 0.999 15.02 1.17 Intr - 28220 28035 186 2 0 125 76 93 0.995 10.76 1.16 Intr - 29423 29237 187 1 1 88 91 89 0.876 7.97 1.15 Intr - 29901 29769 133 1 1 72 44 71 0.850 -0.12 1.14 Intr - 30557 30243 315 0 0 57 75 129 0.452 3.61 1.13 Intr - 31424 31334 91 2 1 49 25 72 0.511 -4.35 1.12 Intr - 32595 32436 160 2 1 44 94 204 0.889 15.67 1.11 Intr - 39628 39540 89 1 2 96 98 23 0.951 1.95 1.10 Intr - 40887 40713 175 2 1 91 80 148 0.983 13.32 1.09 Intr - 42487 42372 116 1 2 72 86 62 0.998 2.73 1.08 Intr - 42836 42728 109 1 1 27 70 148 0.990 6.27 1.07 Intr - 44797 44690 108 0 0 101 97 113 0.991 11.98 1.06 Intr - 50028 49995 34 1 1 97 80 15 0.854 -2.04 1.05 Intr - 53175 52972 204 1 0 -24 106 583 0.910 47.15 1.04 Intr - 54141 54054 88 0 1 48 40 87 0.870 -1.48 1.03 Intr - 54489 54387 103 2 1 55 23 158 0.861 5.26 1.02 Intr - 54986 54821 166 0 1 -17 97 134 0.478 1.90 1.01 Init - 79508 78986 523 2 1 80 29 412 0.074 28.16 1.00 Prom - 80496 80457 40 -4.05 2.00 Prom + 81294 81333 40 -7.45 2.01 Init + 83700 84480 781 2 1 1 48 883 0.393 68.50 2.02 Intr + 84519 84671 153 1 0 41 46 192 0.471 9.42 2.03 Term + 84752 84918 167 0 2 60 32 231 0.456 11.80 2.04 PlyA + 85942 85947 6 1.05 3.00 Prom + 88021 88060 40 -7.85 3.01 Init + 90270 90394 125 2 2 48 37 146 0.977 5.19 3.02 Term + 94342 94534 193 1 1 81 43 186 0.969 9.31 3.03 PlyA + 94739 94744 6 -0.45 4.00 Prom + 94800 94839 40 -6.55 4.01 Init + 100001 100083 83 1 2 86 81 112 0.934 10.81 4.02 Intr + 111075 111174 100 0 1 60 115 66 0.845 5.69 4.03 Intr + 118370 118412 43 1 1 96 76 84 0.645 4.89 4.04 Intr + 118605 118693 89 1 2 22 60 72 0.626 -3.43 4.05 Intr + 119604 119752 149 2 2 71 78 91 0.939 4.51 4.06 Intr + 120361 120485 125 1 2 102 83 64 0.924 6.61 4.07 Intr + 130689 130743 55 1 1 78 100 8 0.357 -1.88 4.08 Intr + 131869 132074 206 1 2 55 101 204 0.212 16.32 4.09 Intr + 137757 137966 210 1 0 28 107 202 0.796 14.06 4.10 Intr + 145806 145841 36 1 0 73 94 37 0.005 0.12 4.11 Intr + 158438 158617 180 0 0 63 85 50 0.012 1.12 4.12 Intr + 160950 160974 25 1 1 73 116 12 0.403 -1.33 4.13 Term + 163352 163481 130 2 1 49 48 145 0.529 3.27 4.14 PlyA + 165063 165068 6 1.05 5.16 PlyA - 165351 165346 6 1.05 5.15 Term - 165653 165492 162 2 0 33 37 181 0.745 4.45 5.14 Intr - 166197 165945 253 2 1 73 50 102 0.621 1.41 5.13 Intr - 166768 166577 192 0 0 24 53 130 0.244 0.79 5.12 Intr - 169242 169063 180 2 0 66 46 138 0.366 5.46 5.11 Intr - 171792 171624 169 1 1 25 95 55 0.158 -2.02 5.10 Intr - 177019 176912 108 2 0 10 86 123 0.045 3.64 5.09 Intr - 183520 183394 127 1 1 54 47 85 0.033 0.33 5.08 Intr - 187898 187755 144 2 0 70 95 98 0.983 8.26 5.07 Intr - 189725 189543 183 2 0 128 76 208 0.984 22.66 5.06 Intr - 196533 196349 185 1 2 57 98 150 0.255 11.49 5.05 Intr - 197484 197391 94 0 1 79 105 85 0.230 7.92 5.04 Intr - 215141 215049 93 2 0 86 114 68 0.951 8.44 5.03 Intr - 216391 216342 50 2 2 97 83 38 0.868 1.68 5.02 Intr - 217965 217853 113 2 2 82 58 97 0.861 5.20 5.01 Init - 224165 224050 116 2 2 74 94 197 0.789 18.63 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 66201 66362 162 2 0 83 55 99 0.894 0.45 S.002 Sngl - 79508 78888 621 2 0 80 31 402 0.916 28.24 S.003 Term - 146869 146786 84 1 0 136 47 73 0.892 4.67 S.004 Term + 213372 213638 267 2 0 114 48 162 0.821 9.31 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590f:123316850_123541412|GENSCAN_predicted_peptide_1|1448_aa MVVLRSSLELHNHSAASATGSLDLSSDFLSLEHIGRRRLRSAGAAQKKPAATTAKAGVST GLRRAPRAVPGGTAGSPALGGAWGWAAPVRVTVVGGEVWSRTSKMEALGIGGAGRIAELR LAGRGLSIWSPPTFTQEEIEARHSGVRSGAKPRLFGRPHDPPLPGRSIAQAPALDKVIPV TRSLRARNIVQSTEHLHEDNGDVEVRRSCRIRSRYSGVNQSMLFDKLITNTAEAVLQKMD DMKKMRRQRMRELEDLGVFNETEESNLNMYTRGKQKDIQRTDEETTDNQEGSVESSEEGE DQEHEDDGEDEDDEDDDDDDDDDDDDDDEDDEDEEDGEEENQKRYYLRQRKATVYYQAPL ESFWGAGGIWLHERRHAIHSSDSTSSSSSEDEQHFERRRKRSRNRAINRCLPLNFRKDEL KGIYKDRMKIGASLADVDPMQLDSSVRFDSVGGLSNHIAALKEMVVFPLLYPEVFEKFKI QPPRGCLFYGPPGTGKTLVARALANECSQGDKRVAFFMRKGADCLSKWVGESERQLRLLF DQAYQMRPSIIFFDEIDGLAPVRSSRQDQIHSSIVSTLLALMDGLDSRGEIVVIGATNRL DSIDPALRRPGRFDREFLFSLPDKEARKEILKIHTRDWNPKPLDTFLEELAENCVGYCGA DIKSICAEAALCALRRRYPQIYTTSEKLQLDLSSINISAKDFEVAMQKMIPASQRAVTSP GQALSTVVKPLLQNTVDKILEALQRVFPHAEFRTNKTLDSDISCPLLESDLAYSDDDVPS VYENGLSQKSSHKAKDNFNFLHLNRNACYQPMSFRPRILIVGEPGFGQGSHLAPAVIHAL EKFTVYTLDIPVLFGVSTTSPEETCAQVIREAKRTAPSIVYVPHIHVWWEIVGPTLKATF TTLLQNIPSFAPVLLLATSDKPHSALPEEVQELFIRDYGEIFNVQLPDKEERTKFFEDLI LKQAAKPPISKKKAVLQALEVLPVAPPPEPRSLTAEEVKRLEEQEEDTFRELRIFLRNVT HRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLIC SNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESRKKRGCSSSK YAPSYYHVMPKQNSTLVGDKRSDPEQNEKLKTPSTPVACSTPVHNFTTVILEPPPVAVVV SSSFMSICLKRCVMRKWLNVLSSFFFKFLEAQLKRKIRKKSNWYLGTIKKRRKISQAKDD SQNAIDHKIESDTEETQDTSVDHNETGNTGESSVEENEKQQNASESKLELRNNSNTCNIE NELEDSRKTTACTELRDKIACNGDASSSQIIHISDENEGKEMCVLRMTRARRSQVEQQQL ITVEKALAILSQPTPSLVVDHERLKNLLKTVVKKSQNYNIFQLENLYAVISQCIYRHRKD HDKTSLIQ >gi568815590f:123316850_123541412|GENSCAN_predicted_CDS_1|4344_bp atggtggttctccgcagcagcttggagctgcacaaccactccgcggcctcggccacgggc tccttggacctgtccagtgacttcctcagtctggagcacatcggccggaggcggctccgc tcggccggcgcggcgcagaagaaacccgcggcgaccacagccaaagcgggcgtgagtacg ggcctgaggcgggctcccagggcggttcccggggggactgccggcagcccggcgctcgga ggggcctgggggtgggcggcgccggtcagggtgacagttgtcgggggagaagtgtggtcg aggacgagtaaaatggaagctctcgggatcggaggtgcgggtcggatcgctgagctgagg ctggccgggagaggactaagcatttggtcaccacctacttttacgcaagaggaaatcgaa gcccgccacagcggagtgcggtctggggccaagccgcggctgttcggccgcccgcacgac cccccactccctggccgatcgatcgcccaggctcctgccctagacaaagtgattccagtt actcggtcattgagggctagaaacatcgttcaaagtacagaacacttacatgaagataat ggtgatgttgaagtgcgtcgaagttgtaggattagaagtcgttatagtggtgtaaaccag tccatgctgtttgacaaacttataactaacactgctgaagctgtacttcaaaaaatggat gacatgaagaagatgcgtagacagcgaatgagagaacttgaagacttgggagtgtttaat gaaacagaagaaagcaatcttaatatgtacacaagaggaaaacagaaagatattcaaaga actgatgaagaaacaactgataatcaagaaggcagtgtggagtcatctgaagagggtgaa gaccaagaacatgaagatgatggtgaagatgaagatgatgaagatgatgatgatgatgac gatgatgatgatgatgatgatgatgaagatgatgaagatgaagaagatggagaagaagag aatcagaagcgatattatcttagacagagaaaagctactgtttactatcaggctccattg gaaagtttttggggagcaggtggtatttggttacatgagcgaaggcatgcaatccacagt agtgactcgacttcatcttcctcctctgaagatgaacagcactttgagaggcggaggaaa aggagtcgtaatagggctatcaataggtgcctcccactaaattttcggaaagatgaatta aaaggcatttataaagatcgaatgaaaattggagcaagccttgccgatgttgatccaatg caactagattcttcagtacgatttgatagtgttggtggcctgtctaatcatatagcagct ctaaaagagatggtggtgtttccattactttatccagaagtctttgaaaaatttaaaatt caacccccaagaggttgtttgttttatgggccacctggaactggaaagactctggttgcc agagcacttgccaatgagtgcagtcaaggggataaaagagtagcatttttcatgaggaaa ggtgctgattgtctaagtaaatgggtaggagaatctgaaagacagctacgattgctgttt gatcaggcctatcagatgcgcccatcaattattttttttgacgaaattgatggtctggct ccagtacggtcaagcaggcaagatcagattcacagttctattgtttccaccctgctagct cttatggatggattggacagcagaggggaaattgtggtcattggtgctacgaacaggcta gattctatagatcctgctttacgaaggcctggtcgctttgatagagaattcctctttagc ctgcctgataaagaggctcgaaaagagattctaaagattcacaccagggattggaatccc aaaccactggacacatttttagaagagctagcagaaaactgtgttggatactgtggagca gatattaaatcaatatgtgctgaagctgctttatgtgctttacgacgacgctacccacag atctataccactagtgagaaactgcagttggatctctcttcaattaatatctcagctaag gatttcgaggtagctatgcaaaagatgataccagcctcccaaagagctgtgacatcacct gggcaggcactgtccaccgttgtgaaaccactcctgcaaaacactgttgacaagatttta gaagccctgcagagagtatttccacatgcagaattcagaacaaataaaacattagactca gatatttcttgtcctctgctagaaagtgacttggcttacagtgatgatgatgttccatca gtttatgaaaatggactttctcagaaatcttctcataaggcaaaagacaattttaatttt cttcatttgaatagaaatgcttgttaccaacctatgtcttttcgaccaagaatattgata gtaggagaaccaggatttgggcaaggttctcacttggcaccagctgtcattcatgctttg gaaaagtttactgtatatacattagacattcctgttctttttggagttagtactacatcc cctgaagaaacatgtgcccaggtgattcgtgaagctaagagaacagcaccaagtatagtg tatgttcctcatatccacgtgtggtgggaaatagttggaccgacacttaaagccacattt accacattattacagaatattccttcatttgctccagttttactacttgcaacttctgac aaaccccattccgctttgccagaagaggtgcaagaattgtttatccgtgattatggagag atttttaatgtccagttaccggataaagaagaacggacaaaattttttgaagatttaatt ctaaaacaagctgctaagcctcctatatcaaaaaagaaagcagttttgcaggctttggag gtactcccagtagcaccaccacctgagccaagatcactgacagcagaagaagtgaaacga ctagaagaacaagaagaagatacatttagagaactgaggattttcttaagaaatgttaca cataggcttgctattgacaagcgattccgagtgtttactaagcctgttgaccctgatgag gttcctgattatgtcactgtaataaagcaaccaatggacctttcatctgtaatcagtaaa attgatctacacaagtatctgactgtgaaagactatttgagagatattgatctaatctgt agtaatgccttagaatacaatccagatagagatcctggagatcgtcttattaggcataga gcctgtgctttaagagatactgcctatgccataattaaagaagaacttgatgaagacttt gagcagctctgtgaagaaattcaggaatctagaaagaaaagaggttgtagctcctccaaa tatgccccgtcttactaccatgtgatgccaaagcaaaattccactcttgttggtgataaa agatcagacccagagcagaatgaaaagctaaagacaccgagtactcctgtggcttgcagc actcctgtacataactttactaccgtaattttggagccacctcctgtggctgttgtggtg agctcaagtttcatgagtatctgcttaaaacgatgtgtgatgcgaaaatggttgaatgtt ctttcatcatttttctttaaatttcttgaagctcagttgaagaggaaaattcgcaaaaag tcaaactggtacttaggcaccataaaaaagcgaaggaagatttcacaggcaaaggatgat agccagaatgccatagatcacaaaattgagagtgatacagaggaaactcaagacacaagt gtagatcataatgagaccggaaacacaggagagtcttcggtggaagaaaatgaaaaacag caaaatgcctctgaaagcaaactggaattgagaaataattcaaatacttgtaatatagag aatgagcttgaagactctaggaagactacagcatgtacagaattgagagacaagattgct tgtaatggagatgcttctagctctcagataatacatatttctgatgaaaatgaaggaaaa gaaatgtgtgttctgcgaatgactcgagctagacgttcccaggtagaacagcagcagctc atcactgttgaaaaggctttggcaattctttctcagcctacaccctcacttgttgtggat catgagcgattaaaaaatcttttgaagactgttgttaaaaaaagtcaaaactacaacata tttcagttggaaaatttgtatgcagtaatcagccaatgtatttatcggcatcgcaaggac catgataaaacatcacttattcag >gi568815590f:123316850_123541412|GENSCAN_predicted_peptide_2|366_aa MLGRRVSGSLTDYLMSQGTGCVPEDGLTTQQLFARADSLTYNEFLILPGFIDFIADEADL TSALTWKITLKTPLISSSMDTVTEGNMAITMALVGGIGFIHHNCTPEFQAKEVRKVKKFE HGFITDPMVLSPSHPVGDVLEATMRHGFSGIPITETGTMGSKPVGIVTSRDIDFLAEKDH TTLLSEVMMPRIELVVAPAGVMLKEANEILQQSKKVKLPIVNDDDELVAIIALTDLKNRD YPVASKDSHEQLLCGAAVGTCGCRRHSLGLVRRELAVSTAMVYYVKQKYSHLQVIGGNVV TAAQAKNLIDAGHCVYKVAEYARHFGVPIIADGGILTVGHVKVPALGASIVMMGSLLAAT SEAPSE >gi568815590f:123316850_123541412|GENSCAN_predicted_CDS_2|1101_bp atgttgggtcgccgggtctctggcagcctgacagactacctgatgagccagggcaccggc tgcgtgcccgaggacgggctcaccacgcagcagctcttcgccagagccgacagcctcacc tacaacgagttcctgattctcccaggattcatagacttcatagctgatgaggcggacctc acctcagcccttacctggaagatcacgctgaagacgccgctgatctcctcctccatggac actgtgacagagggcaacatggccatcacgatggctctggtgggaggtattggtttcatt caccacaactgcaccccagagttccaggccaaggaggtgcggaaggtcaagaagtttgaa catggcttcatcacggaccccatggtgctgagcccctcgcaccctgtgggtgatgtgctg gaggccacgatgcggcatggcttctctggtatccccatcactgagacaggcaccatgggc agcaagccggtgggcatcgtcacttcccgagacatcgactttcttgctgagaaggaccac accaccctcctcagtgaggtgatgatgccaaggattgagctggtggtggctccagcagga gtgatgttgaaagaggcaaatgagatcctgcagcaaagcaagaaagtgaagctgcctatc gtcaatgacgatgatgagctggtggccatcattgccctcaccgacctgaagaaccgagac taccctgtggcctccaaggattcccatgagcagctgctgtgtggggcagctgtgggcacc tgcgggtgtcgacgtcatagtcttggacttgtccgaagggaacttgctgtatcaactgcc atggtgtattacgtcaaacagaagtactcccacctccaggtgattggggggaacgtggtg acagcagcccaggccaagaacctgattgatgctgggcactgtgtgtacaaggtggctgag tatgcccggcactttggtgtgcccatcatagccgatggtggcatcctgactgtggggcac gtcaaggtgccggcccttggtgcctccatagtgatgatgggctccctgctggctgccacc tcggaggcccccagcgaatag >gi568815590f:123316850_123541412|GENSCAN_predicted_peptide_3|105_aa MPRFASNHCKPGEKHGTDSSSKSPERINLADALISDFQTLELIKAAKLQIILQMQPQMQS MTKIYRGPLDWPASPCSDVNDIEGTPPQEISTAQPLLRPNSARSS >gi568815590f:123316850_123541412|GENSCAN_predicted_CDS_3|318_bp atgccaaggtttgccagcaaccactgcaagccaggagagaagcatggaacagattcttcc tccaaatctccagaaagaatcaacctggctgacgctttgatttcagacttccagactctt gaactaatcaaagctgcaaaactacaaatcattcttcaaatgcagccccagatgcagtct atgactaagatctaccgcggacccctggactggcctgctagcccatgctccgatgttaat gacatcgaaggcacccctccccaggaaatttcaactgcacaacccctactacgccccaat tcagcaagaagcagttag >gi568815590f:123316850_123541412|GENSCAN_predicted_peptide_4|476_aa MEGNGPAAVHYQPASPPRDACVYSSCYCEENIWKLCEYIKNHDQYPLEECYAVFISNERK MLIAGVGQYLESESEEASFVTSLEQILADVFLCIHMHANVLLNAHDYHVVLLHVSSGGQN FIYDLDTVLPFPCLFDTYVEDAFKSDDDIHPQFRRKFRVIRADSYLKNFASDRSHMKDSS GNWREPPPPYPCIETGDEETDAERGFHIAHQVTSQMFTNPEHRRLSSPVVLHEVQEPCGK EAKWSVFSFRVQTFIGLSRGLEVLKDVFARGEKNMNRSLRENQCVAVGDALTSSLGAQTC ELWQYCHWFRASTTSYGTEPQCHQVVSASGYCSSVSNGPFILPSRRSPTPGDHDYEADTQ RGPPASSSCTFFAPTMELIFSPKNSDSFYWKMDLGTKILALSSLIATGVSLLLRPLSGQS LEIYADEEMKAQRSWASSWNNGSSRHNSYKWLPYHSVTTKTRDPGLQDECGWSLTG >gi568815590f:123316850_123541412|GENSCAN_predicted_CDS_4|1431_bp atggaaggtaatggccccgctgctgtccactaccagccggccagccccccgcgggacgcc tgcgtctacagcagctgctactgtgaagaaaatatttggaagctctgtgaatacatcaaa aaccatgaccagtatcctttagaagaatgttatgctgtcttcatatctaatgagaggaag atgctcatcgctggtgttgggcagtaccttgagtctgagagtgaggaagcctcctttgtt actagtttggagcagatccttgcagacgttttcctctgcattcacatgcatgcaaatgta cttctgaatgcgcacgattaccatgttgttttgcttcatgtttcaagtggaggacagaac ttcatttatgatctcgatactgtcttgccatttccctgcctctttgacacttatgtagaa gatgcctttaagtctgatgatgacattcacccacagtttaggaggaaatttagagtgatc cgtgcagattcatatttgaagaactttgcttctgaccgatctcacatgaaagactccagt gggaattggagagagcctccgccgccatatccctgcattgagactggagatgaggaaact gatgcagagagaggttttcatatagctcaccaagtcactagccaaatgttcacaaaccct gaacacagacgtctatccagtcctgttgttttgcatgaggttcaggagccttgtgggaaa gaagccaaatggtctgtgttctcatttagggttcagacgtttataggcttgtcccgtggg ctagaggtcctcaaagatgtctttgctagaggagagaaaaacatgaacaggtccctgaga gaaaatcaatgtgtagcagtcggagatgcactcacttctagccttggtgcccagacctgt gaactctggcagtactgtcactggttcagagcatctactacatcttatgggacagaaccc cagtgtcaccaggtggtgtctgccagcggatactgtagctcagtctccaatgggccattc attctaccatcaagaagatcacctacccctggggaccacgattacgaagcggacactcaa agaggtcccccagctagctcatcttgtactttctttgccccaaccatggaattgatcttt tctccaaagaactctgattccttttattggaaaatggacttaggaaccaagatcttggca ttgagtagtctcattgctactggggtttcattgcttctgcgtcctctcagtggacagagt ttggaaatatatgcagatgaagaaatgaaagcacagagaagctgggcttcttcctggaac aacggaagctcaaggcacaacagttacaagtggttaccctatcacagcgtaaccacaaag accagggaccctgggttacaggatgagtgtggctggagcctaacaggataa >gi568815590f:123316850_123541412|GENSCAN_predicted_peptide_5|722_aa MPFLGQDWRSPGQNWVKTADGWKRFLDEKSGSFVSDLSSYCNKEVYNKENLFNSLNYDVA AKKRKKDMLNSKTKTQYFHQEKWIYVHKGSTKERHGYCTLGEAFNRLDFSTAILDSRRFN YVVRLLELIAKSQLTSLSGIAQKNFMNILEKVVLKVLEDQQNIRLIRELLQTLYTSLCTL VQRVGKSVLVGNINMWVYRMETILHWQQQLNNIQITRPAFKGLTFTDLPLCLQLNIMQRL SDGRDLVSLGQAAPDLHVLSEDRLLWKKLCQYHFSERQIRKRLILSDKGQLDWKKMYFKL VRCYPRKEQYGDTLQLCKHCHILSWKNFKIDVKYEVIQTSKEGKSSAQGSMSKSTGMLRF GPTQRFMGKSLKVQEECSGGQTDATQGLHWPLLTLKVEEETTSQVSSFNSWSQPPPYRVY QEARIDPTHSIPSINIKEGVRRKKDTLERRVVFMERAYLLLFEMLHHKTHNMSMKMPPDI NNVCSRTSRRQNPSDTELNKEGLYSAGSIGKTHVSKTELLDLNRPLVPHKPSEVIILLGT TTGLSHGFHIQITREEKGHRDQEKKPQNHRNHGRAQGYQRNWGFRSQNVSLIHVRTSALP IWKTALVPSALSFHTNHTQSGWNSETSAIISKLFTVLFPASESIPELQDTGPRSGPNSAT HPPQLCIPHLATEYTEEDEMKGQTPPASFSTCDLAHECAMAPPALKPSGCELAATFLHCA HI >gi568815590f:123316850_123541412|GENSCAN_predicted_CDS_5|2169_bp atgccattcctcgggcaggactggcggtcccccgggcagaactgggtgaagacggccgac ggctggaagcgcttcctggatgagaagagcggcagtttcgtgagcgacctcagcagttac tgcaacaaggaggtatacaataaggagaatcttttcaacagcctgaactatgatgttgca gccaagaagagaaagaaggacatgctgaatagcaaaaccaaaactcagtatttccaccaa gaaaaatggatctatgttcacaaaggaagtactaaagagcgccatggatattgcaccctg ggggaagctttcaacagactggacttctcaactgccattctggattccagaagatttaac tacgtggtccggctgttggagctgatagcaaagtcacagctcacatccctgagtggcatc gcccaaaagaacttcatgaatattttggaaaaagtggtactgaaagtccttgaagaccag caaaacattagactaataagggaactactccagaccctctacacatccttatgtacactg gtccaaagagtcggcaagtctgtgctggtcgggaacattaacatgtgggtgtatcggatg gagacgattctccactggcagcagcagctgaacaacattcagatcaccaggcctgccttc aaaggcctcaccttcactgacctgcctttgtgcctacaactgaacatcatgcagaggctg agcgacgggcgggacctggtcagcctgggccaggctgcccccgacctgcacgtgctcagc gaagaccggctgctgtggaagaaactctgccagtaccacttctccgagcggcagatccgc aaacgattaattctgtcagacaaagggcagctggattggaagaagatgtatttcaaactt gtccgatgttacccaaggaaagagcagtatggagatacccttcagctctgcaaacactgt cacatcctttcctggaagaatttcaaaatagatgtcaaatatgaagtaattcagacttcc aaagaaggaaagagttctgcccagggcagtatgagcaaatccacagggatgttaagattt ggtccaactcaaaggtttatgggcaagtctttaaaagtacaagaggaatgcagcggaggt caaactgatgcaacacaaggactccactggcccttgctgactttgaaggtggaggaggag accaccagccaagtttccagtttcaatagttggagccagccacctccatacagggtttat caagaggccagaattgatcctactcattccattcccagcatcaatataaaagaaggggtg aggagaaagaaggacaccctggaaaggagagtagtattcatggaaagagcctatcttctc ctatttgaaatgttacatcataaaacacataatatgtcaatgaagatgccaccagacatt aacaatgtctgcagcaggacaagccgcagacaaaacccctcagacactgagttaaacaag gaagggctttattcggccggaagcatcggcaagactcatgtctcaaaaaccgagctcctc gacctcaaccgtcccttggttccacataaaccctctgaggtcataattctcctcggaaca accacaggcctttctcatgggtttcatatccagattaccagggaagagaagggacacaga gaccaagagaaaaagccccagaatcacaggaaccatgggagggctcaaggctatcaacgc aactggggattcagaagccaaaatgtaagtctaattcacgtgcgcacttcagcccttcca atatggaagacagccctcgtgccgtctgccctgtcttttcacacaaaccacactcagtca gggtggaactctgagacttctgcaattatttctaagctcttcaccgtcctgttccctgcc tctgaaagcattccagaacttcaagacacaggacccagaagtggcccaaacagtgcaact catcccccccaactctgtataccccatttggcaacagaatatactgaagaggatgagatg aagggacaaactccacccgcaagtttctcaacctgtgacttggcccatgagtgtgccatg gcgccaccagccttgaaaccatccggctgtgagttagcggccacgtttctccattgtgcc cacatctaa