GENSCAN 1.0 Date run: 7-Nov-116 Time: 23:54:07 Sequence gi568815597f:15338465_15545749 : 207285 bp : 49.37% 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 + 3272 3424 153 1 0 68 91 242 0.910 22.77 1.02 Intr + 6619 6726 108 0 0 61 95 110 0.967 9.48 1.03 Intr + 6952 7059 108 0 0 26 85 97 0.889 3.68 1.04 Intr + 8564 8663 100 1 1 62 69 28 0.358 -2.02 1.05 Intr + 14360 14520 161 0 2 106 64 217 0.636 20.81 1.06 Intr + 19646 19819 174 1 0 103 115 75 0.654 11.84 1.07 Intr + 22014 22239 226 2 1 99 111 217 0.994 22.66 1.08 Intr + 24178 24262 85 2 1 65 76 78 0.690 3.18 1.09 Intr + 27363 27469 107 0 2 85 20 71 0.585 -0.14 1.10 Intr + 28999 29158 160 2 1 104 47 282 0.999 24.75 1.11 Intr + 30906 31038 133 0 1 118 105 153 0.999 20.65 1.12 Intr + 32470 32649 180 0 0 81 49 97 0.682 5.16 1.13 Intr + 36038 36167 130 1 1 89 111 104 0.962 13.07 1.14 Intr + 37139 37266 128 0 2 108 33 48 0.759 1.70 1.15 Intr + 42237 42332 96 2 0 43 84 86 0.069 3.91 1.16 Intr + 42767 42987 221 1 2 81 82 271 0.995 22.90 1.17 Intr + 43564 43729 166 1 1 57 100 354 0.995 33.46 1.18 Intr + 45249 45397 149 2 2 67 95 50 0.543 2.63 1.19 Intr + 46540 46606 67 1 1 136 76 0 0.217 2.51 1.20 Intr + 49587 49667 81 2 0 44 80 63 0.141 0.93 1.21 Intr + 52187 52358 172 1 1 81 48 57 0.038 0.52 1.22 Intr + 68359 68513 155 2 2 96 52 98 0.468 6.79 1.23 Intr + 71385 71815 431 2 2 33 92 765 0.004 63.91 1.24 Intr + 75209 75272 64 2 1 67 42 19 0.002 -6.08 1.25 Intr + 75499 75609 111 0 0 135 78 21 0.007 6.38 1.26 Intr + 87152 87204 53 1 2 81 89 39 0.994 1.01 1.27 Intr + 87407 87554 148 2 1 100 99 301 0.999 32.64 1.28 Intr + 88686 88820 135 2 0 89 100 255 0.979 27.56 1.29 Term + 90129 90260 132 2 0 141 44 305 0.994 29.49 1.30 PlyA + 94971 94976 6 1.05 2.00 Prom + 96415 96454 40 -4.36 2.01 Init + 100001 100040 40 1 1 66 91 94 0.961 5.90 2.02 Intr + 101836 101927 92 2 2 97 115 -27 0.970 0.61 2.03 Intr + 102029 102126 98 1 2 96 69 74 0.924 5.11 2.04 Intr + 103983 104108 126 0 0 98 101 217 0.999 23.79 2.05 Intr + 104955 105091 137 0 2 80 64 226 0.985 19.61 2.06 Intr + 106142 106287 146 0 2 102 82 140 0.985 14.80 2.07 Intr + 107133 107285 153 2 0 74 90 284 0.961 27.47 2.08 Term + 108111 108125 15 2 0 120 34 18 0.867 -2.16 2.09 PlyA + 108166 108171 6 1.05 3.00 Prom + 115319 115358 40 -5.56 3.01 Init + 118290 118329 40 2 1 69 107 59 0.983 5.35 3.02 Intr + 118622 118710 89 0 2 113 109 2 0.993 4.49 3.03 Intr + 123097 123194 98 0 2 87 93 117 0.969 10.91 3.04 Intr + 124269 124397 129 0 0 85 17 185 0.758 10.91 3.05 Intr + 124922 125058 137 2 2 65 89 160 0.892 14.01 3.06 Intr + 127535 127680 146 0 2 60 92 103 0.999 7.90 3.07 Intr + 128922 129074 153 2 0 106 103 220 0.994 25.57 3.08 Term + 134168 134236 69 1 0 70 48 67 0.257 -1.16 3.09 PlyA + 135901 135906 6 1.05 4.00 Prom + 137603 137642 40 -6.76 4.01 Init + 137662 137701 40 0 1 76 107 55 0.973 5.40 4.02 Intr + 137993 138081 89 0 2 100 109 8 0.985 3.79 4.03 Intr + 142634 142731 98 1 2 117 93 109 0.984 13.11 4.04 Intr + 143801 143929 129 2 0 63 17 227 0.974 12.91 4.05 Intr + 144800 144936 137 2 2 74 89 160 0.999 14.91 4.06 Intr + 147437 147582 146 0 2 79 92 129 0.820 12.40 4.07 Intr + 148821 148973 153 2 0 99 103 223 0.998 25.17 4.08 Term + 152831 152848 18 1 0 114 41 14 0.269 -2.38 4.09 PlyA + 153604 153609 6 1.05 5.10 PlyA - 153833 153828 6 1.05 5.09 Term - 154187 154176 12 2 0 94 37 4 0.152 -5.90 5.08 Intr - 155537 155428 110 0 2 81 96 75 0.969 7.60 5.07 Intr - 156988 156809 180 2 0 71 99 157 0.995 14.94 5.06 Intr - 166294 166147 148 1 1 68 86 140 0.969 11.61 5.05 Intr - 167615 167526 90 2 0 58 91 105 0.996 7.99 5.04 Intr - 168611 168435 177 2 0 57 81 287 0.832 25.02 5.03 Intr - 169443 169409 35 1 2 128 97 -9 0.758 1.94 5.02 Intr - 179931 179646 286 0 1 77 123 197 0.983 19.01 5.01 Init - 185736 185605 132 0 0 96 85 306 0.955 29.24 5.00 Prom - 188996 188957 40 -11.63 6.00 Prom + 189458 189497 40 -3.06 6.01 Init + 190642 190808 167 0 2 61 78 101 0.404 4.51 6.02 Intr + 195773 195839 67 2 1 118 59 55 0.955 4.51 6.03 Intr + 198011 198350 340 1 1 101 86 293 0.999 25.45 6.04 Intr + 205935 206119 185 1 2 113 106 136 0.804 17.41 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 42276 42332 57 2 0 96 84 44 0.818 6.12 S.002 Intr - 75981 75871 111 2 0 89 85 60 0.840 5.29 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_1|1377_aa IKFNSSQETQQSLLQEKLREHLAEKEKLNEERLEQEEKLKAKIRQLTEEKAALEEYITQE RNRAKETLEEERKRMQELESLLAQQKKALAKSITQEKNRVKEALEEEQTRVQELEERLAR QKEEKQKDLWAKPVPFDLTQDRETFTCRFSLGVSGTVSFPFEGTGPQTTFIDFQISESNI AYEKRKAKEAMEKEKKKVQDLENRLTKQKEELELKEQKEDVLNNKLSDALAMVEETQKTK ATESLKAESLALKLNETLAELETTKTKMIMVEERLILQQKMVKALQDEQESQRHGFEEEI MEYKEQIKQHAQTIVSLEEKLQKVTQHHKKIEGEIATLKDNDPAPKEERPQDPLVAPMTE SSAKDMAYEHLIDDLLAAQKEILSQQEVIMKLRKDLTEAHSRMSDLRGELNEKQKMELEQ NVVLVQQQSKELSVLKEKMAQMSSLVEKKDRELKALEEALRASQEKHRLQLNTEKEQKPR KKTQTCDTSVQIEPVHTEAFSSSQETALSQGRKQLERKGSRSSQLSLASIAVQSTLTELS PGCSGQPGRQGLQQVHVAVSSVGQGQQSFSDLGVRCKGSRHEEVIQRQKKALSELRARIK ELEKARSPDHKDHQNESFLDLKNLRMENNVQKILLDAKPDLPTLSRIEILAPQNGLCNAR FGSAMEKSGKMDVAEALELSEKLYLDMSKTLGSLMNIKNMSGHVSMKYLSRQEREKVNQL RQRDLDLVFDKITQLKNQLGRKEELLRGYEKDVEQLRRSKVSIEMYQSQVAKLEDDIYKE AEEKALLKEALERMEHQLCQEKRINRAIRQQKARDWAHLSFAAVIGLINASNSPAWYDDP YFTDEETAPQRVKRRPSAHSGWMHPAYSITISLGVHPQAQFAFKESVEEHELRNAKESTP CNCAFKEKDRQGTVAEVPHLGDPRVSNCKPNPREIASFRFWVTMTFKQAPKGSSTIMGPT IPEPLGYRDLARDKKASEAKSGCDPVLLSLQLPRMNIGAAPELRSLCSIHQGFPDDCGVF GPSPTFGGGAWPGECQEEEERGRRRCAESRGPAKASAARATMATDELATKLSRRLQMEGE GGGETPEQPGLNGAAAAAAGAPDEAAEALGSADCELSAKLLRRADLNQGIGEPQSPSRRV FNPYTEFKEFSRKQIKDMEKMFKQRGNQDPERCGGDLLGVTERFSGWLWNPPVREAKRMA LESLGSAHPWADNSLAGALEGFACPKVSAIRHAGGCQALWYDAGRDGFIDLMELKLMMEK LGAPQTHLGLKNMIKEVDEDFDSKLSFREFLLIFRKAAAGELQEDSGLCVLARLSEIDVS SEGVKGAKSFFEAKVQAINVSSRFEEEIKAEQEERKKQAEEMKQRKAAFKELQSTFK >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_1|4134_bp atcaagttcaacagttctcaggaaactcagcagtctttactgcaggaaaagctgcgggag catctggcagagaaggagaagctgaacgaggagaggctagagcaagaggagaagctcaaa gccaaaatcaggcaactgacggaagagaaggcggctttggaggagtacattactcaagag agaaacagagcgaaagagactttagaggaagaacggaagagaatgcaagaactggagagc ctcctggcccagcagaagaaggctttggcgaaaagcattacccaggagaagaacagagtg aaggaagcattagaggaagagcagacaagagtccaagagctggaggaacgcttggcccgc cagaaggaggagaaacaaaaagacctctgggcaaagcctgtgccatttgatctgacccag gacagagagacgtttacatgtcggttctcccttggcgtctctggcacagtgtcatttccc tttgagggcacaggccctcaaaccactttcattgacttccagatctcagagagcaacatt gcgtacgagaaacgcaaagcaaaggaggccatggagaaggaaaagaaaaaggtgcaagac ctggagaatcgcttaaccaagcagaaagaggaattagaattaaaagagcaaaaagaggac gttttaaataataaattaagtgacgcactggccatggttgaagagactcagaaaacaaag gcaactgaaagtctaaaagcagagagcctcgccttgaaattaaatgaaacattagccgaa ctggaaactaccaagacaaaaatgatcatggtggaagagcggctaatcctgcagcagaag atggtaaaggccctccaggatgagcaggaatcacagagacacgggtttgaagaagagatc atggaatataaggagcaaatcaaacagcacgcccagacaattgtgagcctcgaagagaaa ctccagaaagtcactcagcaccataaaaaaatagaaggcgagattgcaacattgaaggac aatgacccagccccaaaggaggaaaggccgcaagaccctctggtggctcccatgacagag agcagtgccaaagacatggcgtacgaacatctgatagatgacttattggctgctcagaag gaaattctgtctcagcaggaagtcatcatgaagttaaggaaagaccttaccgaagcccac agcagaatgtcggatttgagaggggagctaaacgagaagcagaagatggaactggagcag aacgtggtgctggtccagcagcagagcaaggagctgagtgtgctcaaggagaagatggcc cagatgagcagcctggtagaaaagaaagatcgggagctgaaggcccttgaggaggcactc agggcttcccaagagaaacacagactccagctgaacacagagaaggaacagaagccccgg aagaagacccagacgtgtgacacctctgtgcagatagaacccgtccacactgaggccttc tccagcagccaagagacagcattgagccagggccgcaaacagcttgaacgaaagggctcg aggtccagccagctgtccttggcatcgattgctgtccagagcactttaacagaattgtct cctggttgctcagggcaaccaggaaggcaggggctgcagcaggtccacgtggccgtaagc tccgtggggcaggggcagcaatccttcagcgatctaggggtcaggtgcaaagggtcccgg cacgaggaggtcattcagcgtcagaaaaaggccttatctgaacttcgagcgcgaattaaa gaactcgagaaggcgcgctcaccagatcataaagaccaccagaatgaatcatttctagat ttaaagaacctcagaatggaaaacaatgtccagaaaatactactggatgcaaaaccggat ttgccaactctctcaagaatagagatcctagcgcctcagaatggcctttgcaacgcaagg ttcggctcagccatggagaagtcagggaagatggatgtggctgaggctttagagctcagt gaaaagctgtacctggatatgagcaaaaccctcggaagtctcatgaacatcaagaatatg tcaggccacgtgtccatgaaatacctctcccgccaggagagggagaaggtcaaccagctt cgacaaagggacctcgacctggtgtttgataagatcacccaactcaagaaccagctgggg aggaaagaggagctgttgagaggatatgaaaaggacgttgaacagctcaggcggagcaaa gtgtccattgagatgtaccagtcgcaggtggcaaagctggaggatgatatctacaaagag gccgaagagaaggccctgctgaaggaggccctggagcgcatggagcaccagctgtgccag gagaagaggatcaacagggccatccggcagcagaaggccagggactgggctcacctgagc tttgcagccgtgatagggcttattaatgcctctaatagccctgcctggtacgatgatccc tattttacagatgaggaaactgcgcctcagagagttaagaggcgcccaagtgcacacagc ggctggatgcaccccgcctactccatcaccatttctctcggggttcatccccaggctcag tttgcatttaaggaaagtgtagaggagcacgaactgagaaacgcaaaagaatcgacacct tgcaactgtgccttcaaagagaaagacaggcagggaactgttgctgaggtgccacatctt ggggaccccagggtcagcaactgtaaaccaaaccccagggaaatagcaagcttcagattc tgggtgacgatgacattcaaacaggcccctaaagggagttcaaccatcatgggccccacc atccctgagccattgggataccgagatcttgcaagagataagaaagcctctgaggccaaa tcaggctgtgatcctgtgctgctctcactccaattgccccggatgaatattggtgctgct cctgaacttcgatctctgtgcagcatccatcaagggtttcctgatgactgtggagtgttt ggcccaagtcccaccttcgggggcggtgcctggcccggggagtgtcaggaagaggaagag cgcggccggcggcgctgcgctgagagcaggggcccggccaaggcgagtgccgcgcgggcc accatggccacggacgagctggccaccaagctgagccggcggctgcagatggagggcgag ggcggcggcgagaccccggagcagcccgggctgaacggggcagcggcggcggcggcgggg gcacccgacgaggcggccgaggcgctgggcagcgcggactgcgagctgagcgccaagctg ctgcggcgcgcagacctcaaccagggcatcggcgagccccagtcgcccagccgccgcgtc ttcaacccctacaccgagttcaaggagttctccaggaagcagatcaaggacatggagaag atgttcaagcaaagagggaaccaagacccagaaagatgtggcggtgacttgctcggggtt acggagaggttctcaggctggctctggaaccctcctgtcagagaggcaaagagaatggcc ctggagagcctcgggagtgcccacccctgggctgacaacagcctagcgggggctctggag ggttttgcttgtccaaaagttagcgctattcgacatgcaggaggctgccaggccctgtgg tatgatgccgggcgggacggcttcatcgacctgatggagctaaaactcatgatggagaaa cttggggcccctcagacccacctgggcctgaaaaacatgatcaaggaggtggatgaggac tttgacagcaagctgagcttccgggagttcctcctgatcttccgcaaggcggcggccggg gagcttcaggaggacagcgggctgtgcgtgctggcccgcctctctgagatcgacgtctcc agtgagggtgtcaagggggccaagagcttctttgaggccaaggtccaggccatcaacgtg tccagccgcttcgaggaggagatcaaggcagagcaggaggaaaggaagaagcaggcggag gagatgaagcagcggaaagcggccttcaaggagctgcagtccacctttaagtag >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_2|268_aa MLGITVLAALLACASSCGVPSFPPNLSARVVGGEDARPHSWPWQISLQYLKNDTWRHTCG GTLIASNFVLTAAHCISNTRTYRVAVGKNNLEVEDEEGSLFVGVDTIHVHKRWNALLLRN DIALIKLAEHVELSDTIQVACLPEKDSLLPKDYPCYVTGWGRLWTNGPIADKLQQGLQPV VDHATCSRIDWWGFRVKKTMVCAGGDGVISACNGDSGGPLNCQLENGSWEVFGIVSFGSR RGCNTRKKPVVYTRVSAYIDWINEKMQL >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_2|807_bp atgttgggcatcactgtcctcgctgcgctcttggcctgtgcctccagctgtggggtgccc agcttcccgcccaacctatccgcccgagtggtgggaggagaggatgcccggccccacagc tggccctggcagatctccctccagtacctcaagaacgacacgtggaggcatacgtgtggc gggactttgattgctagcaacttcgtcctcactgccgcccactgcatcagcaacacccgg acctaccgtgtggccgtgggaaagaacaacctggaggtggaagacgaagaaggatccctg tttgtgggtgtggacaccatccacgtccacaagagatggaatgccctcctgttgcgcaat gatattgccctcatcaagcttgcagagcatgtggagctgagtgacaccatccaggtggcc tgcctgccagagaaggactccctgctccccaaggactacccctgctatgtcaccggctgg ggccgcctctggaccaacggccccattgctgataagctgcagcagggcctgcagcccgtg gtggatcacgccacgtgctccaggattgactggtggggcttcagggtgaagaaaaccatg gtgtgcgctgggggcgatggcgtcatctcagcctgcaatggggactccggtggcccactg aactgccagttggagaacggttcctgggaggtgtttggcatcgtcagctttggctcccgg cggggctgcaacacccgcaagaagccggtagtctacacccgggtgtccgcctacatcgac tggatcaacgagaaaatgcagctgtga >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_3|286_aa MIRTLLLSTLVAGALSCGDPTYPPYVTRVVGGEEARPNSWPWQVSLQYSSNGKWYHTCGG SLIANSWVLTAAHCISSSRTYRVGLGRHNLYVAESGSLAVSVSKIVVHKDWNSNQISKGN DIALLKLANPVSLTDKIQLACLPPAGTILPNNYPCYVTGWGRLQTNGAVPDVLQQGRLLV VDYATCSSSAWWGSSVKTSMICAGGDGVISSCNGDSGGPLNCQASDGRWQVHGIVSFGSR LGCNYYHKPSVFTRVSNYIDWINSKPGFLCRRCPMGSRRFCRNLMA >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_3|861_bp atgataaggacgctgctgctgtccactttggtggctggagccctcagttgtggggacccc acttacccaccttatgtgactagggtggttggcggtgaagaagcgaggcccaacagctgg ccctggcaggtctccctgcagtacagctccaatggcaagtggtaccacacctgcggaggg tccctgatagccaacagctgggtcctgacggctgcccactgcatcagctcctccaggacc taccgcgtggggctgggccggcacaacctctacgttgcggagtccggctcgctggcagtc agtgtctctaagattgtggtgcacaaggactggaactccaaccaaatctccaaagggaac gacattgccctgctcaaactggctaaccccgtctccctcaccgacaagatccagctggcc tgcctccctcctgccggcaccattctacccaacaactacccctgctacgtcacgggctgg ggaaggctgcagaccaacggggctgttcctgatgtcctgcagcagggccggttgctggtt gtggactatgccacctgctccagctctgcctggtggggcagcagcgtgaaaaccagtatg atctgtgctgggggtgatggcgtgatctccagctgcaacggagactctggcgggccactg aactgtcaggcgtctgacggccggtggcaggtgcacggcatcgtcagcttcgggtctcgc ctcggctgcaactactaccacaagccctccgtcttcacgcgggtctccaattacatcgac tggatcaattcgaagcctggatttctgtgcaggcgctgccccatgggatcccggaggttc tgccgaaacctcatggcctag >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_4|269_aa MIRTLLLSTLVAGALSCGVSTYAPDMSRMLGGEEARPNSWPWQVSLQYSSNGQWYHTCGG SLIANSWVLTAAHCISSSGIYRVMLGQHNLYVAESGSLAVSVSKIVVHKDWNSDQVSKGN DIALLKLANPVSLTDKIQLACLPPAGTILPNNYPCYVTGWGRLQTNGALPDDLKQGQLLV VDYATCSSSGWWGSTVKTNMICAGGDGVICTCNGDSGGPLNCQASDGRWEVHGIGSLTSV LGCNYYYKPSIFTRVSNYNDWINSVIANN >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_4|810_bp atgattaggaccctgctgctgtccactttggtggctggagccctcagttgtggggtctcc acttacgcgcctgatatgtctaggatgcttggaggtgaagaagcgaggcccaacagctgg ccctggcaggtctccctgcagtacagctccaatggccagtggtaccacacctgcggaggg tccctgatagccaacagctgggtcctgacggctgcccactgcatcagctcctccgggatc taccgcgtgatgctgggccagcataacctctacgttgcagagtccggctcgctggccgtc agtgtctctaagattgtggtgcacaaggactggaactccgaccaggtctccaaagggaac gacattgccctgctcaaactggctaaccccgtctccctcaccgacaagatccagctggcc tgcctccctcctgccggcaccattctacccaacaactacccctgctacgtcacgggctgg ggaaggctgcagaccaacggggctctccctgatgacctgaagcagggccagttgctggtt gtggactatgccacctgctccagctctggctggtggggcagcaccgtgaagacgaatatg atctgtgctgggggtgatggcgtgatatgcacctgcaacggagactccggtgggccgctg aactgtcaggcatctgacggccggtgggaggtgcatggcatcggcagcctcacgtcggtc cttggttgcaactactactacaagccctccatcttcacgcgggtctccaactacaacgac tggatcaattcggtgattgcaaataactaa >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_5|389_aa MDEADRRLLRRCRLRLVEELQVDQLWDALLSRELFRPHMIEDIQRAGSGSRRDQARQLII DLETRGSQALPLFISCLEDTGQDMLASFLRTNRQAAKLSKPTLENLTPVVLRPEIRKPEV LRPETPRPVDIGSGGFGDVGALESLRGNADLAYILSMEPCGHCLIINNVNFCRESGLRTR TGSNIDCEKLRRRFSSLHFMVEVKGDLTAKKMVLALLELAQQDHGALDCCVVVILSHGCQ ASHLQFPGAVYGTDGCPVSVEKIVNIFNGTSCPSLGGKPKLFFIQACGGEQKDHGFEVAS TSPEDESPGSNPEPDATPFQEGLRTFDQLDAISSLPTPSDIFVSYSTFPGFVSWRDPKSG SWYVETLDDIFEQWAHSEDLQSLLLRSRD >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_5|1170_bp atggacgaagcggatcggcggctcctgcggcggtgccggctgcggctggtggaagagctg caggtggaccagctctgggacgccctgctgagccgcgagctgttcaggccccatatgatc gaggacatccagcgggcaggctctggatctcggcgggatcaggccaggcagctgatcata gatctggagactcgagggagtcaggctcttcctttgttcatctcctgcttagaggacaca ggccaggacatgctggcttcgtttctgcgaactaacaggcaagcagcaaagttgtcgaag ccaaccctagaaaaccttaccccagtggtgctcagaccagagattcgcaaaccagaggtt ctcagaccggaaacacccagaccagtggacattggttctggaggatttggtgatgtcggt gctcttgagagtttgaggggaaatgcagatttggcttacatcctgagcatggagccctgt ggccactgcctcattatcaacaatgtgaacttctgccgtgagtccgggctccgcacccgc actggctccaacatcgactgtgagaagttgcggcgtcgcttctcctcgctgcatttcatg gtggaggtgaagggcgacctgactgccaagaaaatggtgctggctttgctggagctggcg cagcaggaccacggtgctctggactgctgcgtggtggtcattctctctcacggctgtcag gccagccacctgcagttcccaggggctgtctacggcacagatggatgccctgtgtcggtc gagaagattgtgaacatcttcaatgggaccagctgccccagcctgggagggaagcccaag ctctttttcatccaggcctgtggtggggagcagaaagaccatgggtttgaggtggcctcc acttcccctgaagacgagtcccctggcagtaaccccgagccagatgccaccccgttccag gaaggtttgaggaccttcgaccagctggacgccatatctagtttgcccacacccagtgac atctttgtgtcctactctactttcccaggttttgtttcctggagggaccccaagagtggc tcctggtacgttgagaccctggacgacatctttgagcagtgggctcactctgaagacctg cagtccctcctgcttaggagcagggattaa >gi568815597f:15338465_15545749|GENSCAN_predicted_peptide_6|253_aa MEVRKLSISWQFLIVLVLILQILSALDFDPYRVLGVSRTASQADIKKAYKKLAREWHPDK NKDPGAEDKFIQISKAYEILSNEEKRSNYDQYGDAGENQGYQKQQQQREYRFRHFHENFY FDESFFHFPFNSERRDSIDEKYLLHFSHYVNEVVPDSFKKPYLIKITSDWCFSCIHIEPV WKEVIQELEELGVGIGVVHAGYERRLAHHLGAHSTPSILGIINGKISFFHNAVVRENLRQ FVESLLPGNLVEK >gi568815597f:15338465_15545749|GENSCAN_predicted_CDS_6|759_bp atggaagtgagaaagttgagcatttcctggcagttcttgatagttctggttctgatcctg caaattctgtctgcgttggattttgacccatacagagtcctaggggtcagccgaacagcc agtcaggctgatattaaaaaggcttataagaagctcgcccgggaatggcatcctgacaaa aacaaagatcctggagcagaagacaagttcattcaaatcagtaaggcttacgagattctt tcaaatgaagaaaagagatcaaattatgatcaatatggagacgctggagagaaccagggc taccagaagcagcaacagcagcgagagtatcgcttccgccatttccatgaaaatttttat tttgatgaatccttttttcacttcccttttaattctgaacggcgggactcaattgacgaa aagtatttattgcacttttcacattatgtgaatgaagtggttccagatagcttcaagaaa ccctacctcatcaagatcacctccgattggtgctttagctgcattcatatcgagcctgtg tggaaagaagtcattcaagaactggaagaattgggtgtaggaattggcgtggtccatgct gggtatgagagacgcctggcccatcacctaggggcacacagcacgccctctatcctagga atcattaacgggaaaatctccttcttccacaatgcagttgtccgtgaaaatctgcgacaa tttgtagaaagtcttcttccagggaacttggtggagaaa