Result of GENSCAN for
pF1KB0423
GENSCAN 1.0 Date run: 5-Nov-116 Time: 16:50:29 Sequence gi568815597r:45528259_45759087 : 230829 bp : 43.82% 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 + 19170 19296 127 0 1 69 115 74 0.410 8.88 1.02 Intr + 22385 22618 234 1 0 -9 64 154 0.260 1.19 1.03 Intr + 33531 33620 90 2 0 95 94 20 0.326 3.49 1.04 Intr + 38311 38430 120 0 0 83 116 214 0.999 24.39 1.05 Intr + 38611 38762 152 0 2 59 35 207 0.993 11.46 1.06 Intr + 39724 39919 196 1 1 50 110 248 0.969 22.62 1.07 Intr + 40227 40426 200 2 2 50 80 84 0.978 1.95 1.08 Intr + 40669 40741 73 1 1 86 75 78 0.993 5.71 1.09 Intr + 40885 40971 87 0 0 102 89 55 0.971 7.17 1.10 Intr + 55850 55947 98 1 2 101 82 93 0.001 8.81 1.11 Intr + 62965 63012 48 1 0 84 94 72 0.326 5.20 1.12 Intr + 73997 74107 111 2 0 64 78 79 0.445 3.99 1.13 Intr + 76678 76758 81 1 0 62 86 57 0.721 1.65 1.14 Intr + 78224 78333 110 2 2 82 80 86 0.953 7.13 1.15 Intr + 79063 80079 1017 2 0 45 86 746 0.162 60.73 1.16 Intr + 84911 84990 80 0 2 35 95 99 0.238 4.57 1.17 Intr + 85838 85923 86 1 2 30 93 87 0.986 2.02 1.18 Intr + 86035 86108 74 1 2 89 55 21 0.521 -2.05 1.19 Intr + 86755 86943 189 2 0 80 92 283 0.999 27.46 1.20 Intr + 87047 87213 167 0 2 76 16 161 0.900 7.38 1.21 Term + 89205 89345 141 2 0 26 47 186 0.637 6.23 1.22 PlyA + 89971 89976 6 1.05 2.27 PlyA - 90012 90007 6 -0.45 2.26 Term - 92175 92017 159 0 0 142 46 75 0.293 6.64 2.25 Intr - 92575 92465 111 1 0 61 93 134 0.899 11.78 2.24 Intr - 92855 92645 211 1 1 77 109 9 0.686 0.82 2.23 Intr - 94409 94206 204 1 0 77 58 200 0.368 14.22 2.22 Intr - 94576 94493 84 0 0 80 97 76 0.990 6.64 2.21 Intr - 95154 94697 458 0 2 68 76 282 0.414 17.02 2.20 Intr - 95394 95299 96 0 0 83 65 34 0.635 0.81 2.19 Intr - 95685 95478 208 2 1 127 91 88 0.975 12.08 2.18 Intr - 100150 100002 149 1 2 52 24 113 0.159 0.33 2.17 Intr - 101420 101318 103 1 1 100 91 85 0.997 10.18 2.16 Intr - 102348 102224 125 0 2 94 111 10 0.990 3.28 2.15 Intr - 105389 105231 159 2 0 32 58 218 0.925 13.38 2.14 Intr - 105978 105838 141 0 0 92 105 8 0.880 3.45 2.13 Intr - 112145 111952 194 0 2 98 86 74 0.722 7.41 2.12 Intr - 120989 120973 17 1 2 47 110 -15 0.062 -8.21 2.11 Intr - 122951 122737 215 2 2 67 90 153 0.358 10.91 2.10 Intr - 126571 126285 287 2 2 71 78 142 0.353 8.56 2.09 Intr - 127061 126932 130 2 1 23 83 47 0.162 -2.03 2.08 Intr - 159043 158794 250 0 1 78 81 151 0.443 10.84 2.07 Intr - 159801 159725 77 0 2 54 114 16 0.036 -0.89 2.06 Intr - 186208 185988 221 2 2 35 92 145 0.968 7.62 2.05 Intr - 188759 188637 123 0 0 87 84 84 0.992 8.46 2.04 Intr - 199540 199373 168 2 0 85 75 82 0.932 6.52 2.03 Intr - 201511 201356 156 2 0 43 66 123 0.923 5.58 2.02 Intr - 213074 212643 432 0 0 97 88 204 0.956 14.92 2.01 Init - 218153 217862 292 2 1 99 91 141 0.984 12.81 2.00 Prom - 224077 224038 40 -3.36 3.04 PlyA - 225188 225183 6 1.05 3.03 Term - 225767 225574 194 0 2 94 42 103 0.560 3.88 3.02 Intr - 230155 230018 138 2 0 55 121 26 0.718 3.04 3.01 Intr - 230745 230302 444 1 0 51 5 207 0.002 2.07 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 41633 41698 66 1 0 123 53 26 0.939 0.54 S.002 Sngl - 56182 55853 330 1 0 110 43 236 0.943 16.05 S.003 Term - 100150 99998 153 1 0 52 48 123 0.827 2.62 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:45528259_45759087|GENSCAN_predicted_peptide_1|1160_aa XSSGSGLTIPLKELSTLVTNDLHVHQIQKFLLWISDNMNIKTMGEYGATDGIVNPEGRHQ KNLQRGICYLTSPGKAPAAAPRRAVQCGPAKGEAGPAPCTAHVASATCLIVPRSSPNPRC GGAMAASCVLLHTGQKMPLIGLGTWKSEPGQVKAAVKYALSVGYRHIDCAAIYGNEPEIG EALKEDVGPGKAVPREELFVTSKLWNTKHHPEDVEPALRKTLADLQLEYLDLYLMHWPYA FERGDNPFPKNADGTICYDSTHYKETWKALEALVAKGLVQALGLSNFNSRQIDDILSVAS VRPAVLQVECHPYLAQNELIAHCQARGLEVTAYSPLGSSDRAWRDPDEPVLLEEPVVLAL AEKYGRSPAQILLRWQVQRKVICIPKSITPSRILQNIKVFDFTFSPEEMKQLNALNKNWR YIVPMLTALFRSLVRHLRGTMAMESTATAAVAAELVSADKIEDVPAPSTSADKVESLDVD SEAKKLLGLGQKHLVMGDIPAAVNAFQEAASLLGKKYGETANECGEAFFFYGKSLLELAR MENGVLGNALEGVHVEEEEGEKTEDESLVENNDNIDEEAREELREQVYDAMGEKEEAKKT EDKSLAKPETDKEQDSEMEKGGREDMDISKSAEEPQEKVDLTLDWLTETSEEAKGGAAPE GPNEAEVTSGKPEQEVPDAEEEKSVSGTDVQEECREKGGQEKQGEVIVSIEEKPKEVSEE QPVVTLEKQGTAVEVEAESLDPTVKPVDVGGDEPEEKVVTSENEAGKAVLEQLVGQEVPP AEESPEVTTEAAEASAVEAGSEVSEKPGQEAPVLPKDGAVNGPSVVGDQTPIEPQTSIER LTETKDGSGLEEKVRAKLVPSQEETKLSVEESEAAGDGVDTKVAQGATEKSPEDKVQIAA NEETQEREEQMKEGEETEGSEEDDKENDKTEEMPNDSVLENKSLQENEEEEIGNLELAWD MLDLAKIIFKRQETKEAQLYAAQAHLKLGEVSVESENYVQAVEEFQSCLNLQEQYLEAHD RLLAETHYQLGLAYGYNSQYDEAVAQFSKSIEVIENRMAVLNEQVKEAEGSSAEYKKEIE ELKELLPEIREKIEDAKESQRSGNVAELALKATLRKPEEESPRKDDAKKAKQEPEVNGGS GDAVPSGNEVSENMEEEVGS >gi568815597r:45528259_45759087|GENSCAN_predicted_CDS_1|3483_bp nngtcatctggctcaggattaaccattccactgaaggagctctccacattggtcaccaat gatcttcatgtccaccaaatccaaaagtttctgctgtggatatcagacaacatgaatata aagactatgggagagtatggagccacggatggcattgtgaatccggagggccgacaccag aagaacctgcaacgtggcatctgctaccttacttcccccggaaaagcgcctgcggcggcg cctaggcgcgcggtgcaatgtgggccagcaaaaggcgaggctggccccgccccttgcacc gcccacgtggccagcgccacctgcctcattgtgcccaggagttctccaaacccgcgctgc ggaggggcaatggcggcttcctgtgttctactgcacactgggcagaagatgcctctgatt ggtctgggtacctggaagagtgagcctggtcaggtaaaagcagctgttaagtatgccctt agcgtaggctaccgccacattgattgtgctgctatctacggcaatgagcctgagattggg gaggccctgaaggaggacgtgggaccaggcaaggcggtgcctcgggaggagctgtttgtg acatccaagctgtggaacaccaagcaccaccccgaggatgtggagcctgccctccggaag actctggctgacctccagctggagtatctggacctgtacctgatgcactggccttatgcc tttgagcggggagacaaccccttccccaagaatgctgatgggactatatgctacgactcc acccactacaaggagacttggaaggctctggaggcactggtggctaaggggctggtgcag gcgctgggcctgtccaacttcaacagtcggcagattgatgacatactcagtgtggcctcc gtgcgtccagctgtcttgcaggtggaatgccacccatacttggctcaaaatgagctaatt gcccactgccaagcacgtggcctggaggtaactgcttatagccctttgggctcctctgat cgtgcatggcgtgatcctgatgagcctgtcctgctggaggaaccagtagtcctggcattg gctgaaaagtatggccgatctccagctcagatcttgctcaggtggcaggtccagcggaaa gtgatctgcatccccaaaagtatcactccttctcgaatccttcagaacatcaaggtgttt gacttcacctttagcccagaagagatgaagcagctaaatgccctgaacaaaaattggaga tatattgtgcctatgcttacggctctattccgttcgctggttcgccacctcaggggaacg atggccatggagtccacagccactgccgccgtcgccgcggagctggtttctgccgacaaa attgaagatgttcctgctccttctacatctgcagataaagtggagagtctggatgtggat agtgaagctaagaaactattgggtttaggacagaaacatctggtgatgggggatattcca gcagctgtcaatgcattccaggaagcagctagtcttttaggtaagaagtatggagagaca gctaatgagtgtggagaagccttctttttctatgggaaatcacttctggagttggcaaga atggagaatggtgtgttgggaaacgccttggaaggtgtgcatgtggaagaggaagaagga gaaaaaacagaagatgaatctctggtagaaaataatgataacatagatgaggaagcaagg gaagagttgagagaacaggtttatgacgccatgggagaaaaagaagaagccaaaaaaaca gaagacaagtctttggcaaagcctgaaactgataaagaacaggacagtgaaatggagaag ggtggaagagaagatatggatataagtaaatctgcagaggagccacaggaaaaagttgac ttgactctagattggttaactgaaacctctgaagaggcaaaaggaggagcagcaccagaa ggaccgaatgaagctgaggtcacttctgggaagccagaacaggaagtaccagatgctgag gaagaaaaatcagtttctggaactgatgtccaagaagagtgcagagaaaaaggaggtcag gagaagcagggagaggtaattgtgagcatagaggagaagccaaaagaagtttcagaagag cagcctgtggtgactctagaaaagcagggcactgcagtggaggtagaagcagagtcttta gacccgacagtcaagccagtggatgtgggtggggacgagccagaggagaaggtagttacc tctgaaaacgaggcaggaaaggcggttcttgaacaactggtaggtcaagaagtaccacct gctgaagagtcaccagaggtgacaacagaggctgcagaggcctcagctgtagaggctgga tcagaagtctctgaaaagcctgggcaggaggctccagttctccctaaggatggtgcagtc aatggaccgtcagttgtaggagatcagactcctattgaaccacagacttctatagaaaga ctgacagaaacaaaagatggctcaggactagaggagaaggtcagggcaaagctggttcct agtcaggaggagactaagctgtctgtagaagagtctgaggcagctggagatggggttgat accaaggtagcccagggagctactgagaaatcacctgaagacaaagttcagatagctgct aatgaagagacacaagagagagaagaacagatgaaagagggtgaagaaactgaaggctca gaagaggatgataaagaaaatgataagaccgaagaaatgccaaatgattcagtccttgaa aacaagtctcttcaagaaaatgaggaggaggagattgggaacctagagcttgcctgggat atgctggatttagcaaagatcatttttaaaaggcaagaaacaaaagaagcacagctttat gctgcccaggcacatcttaaactcggagaagttagtgttgaatctgaaaactatgtgcaa gctgtggaggagttccagtcctgccttaacctgcaggaacagtacctggaagcccacgac cgtctccttgcagagacccactaccagctgggcttggcttatgggtacaactctcagtat gatgaggcagtggcacagttcagcaaatctattgaagtcattgagaacagaatggctgta ctaaacgagcaggtgaaggaggctgaaggatcgtctgctgaatacaagaaagaaattgag gaactaaaggaactgctacccgaaattagagagaagatagaagatgcaaaggagtctcag cgtagtgggaatgtagctgaactggctctgaaagctactctgaggaaaccagaggaagag agtccccggaaagatgatgcaaagaaagccaaacaagagccggaggtgaacggaggcagt ggggatgctgtccccagtggaaatgaagtttcggaaaacatggaggaggaggtgggcagt taa >gi568815597r:45528259_45759087|GENSCAN_predicted_peptide_2|1589_aa MANEDCPKAADSPFSSDKHAQLILAQINKMRNGQHFCDVQLQVGQESFKAHRLVLAASSP YFAALFTGGMKESSKDVVPILGIEAGIFQILLDFIYTGIVNIGVNNVQELIIAADMLQLT EVVHLCCEFLKGQIDPLNCIGIFQFSEQIACHDLLEFSENYIHVHFLEVHSGEEFLALTK DQLIKILRSEELSIEDEYQVFLAAMQWILKDLGKRRKHVVEVLDPIRFPLLPPQRLLKYI EGVSDFNLRVALQTLLKEYCEVCKSPKENKFCSFLQTSKVRPRKKARKYLYAVGGYTRLQ GGRWSDSRALSCVERFDTFSQYWTTVSSLHQARSGLGVTVLGGMVYAIGGGWVGAEIGNT IERFDPDENKWEVVGNMAVSRYYFGCCEMQGLIYVIGGISNEGIELRSFEVYDPLSKRWS PLPPMGTRRAYLGVAALNDCIYSVGGWNETQDALHTVEKYSFEELNPDVERSLKFYSRAP RQQNLPTEFGAAPSSSAIPNETSGRRNGTVASAGSRRNPALRLGGGVTPALQGNYYSQRV ARPTQPRSLRGQAVWPAGDWSLNDAHTRSKERKSPTATFEKHGEHLPRGEGRFGVSRRRH NSSDGFFNNGPLRTAGDSWHQPSLFRHDSVDSGVSKGAYAGITGNPSGWHSSSRGHDGMS QRSGGGTGNHRHWNGSFHSRKGCAFQEKPPMEIREEKKEDKVEKLQFEEEDFVNLEDKGG LSKLVEAIRINYNDRYDEICHHWGGNVLGPKSVTRIAKLKKAKAKELATNWIKCTLLSFL YIKRKYIFKENPPSAKQPSKMLVIKKVSKEDPAAAFSAAFTSPGSHHANGNKLSSVVPSV YKNLVPKPVPPPSKPNAWKANRMEHKSGSLSSSRESAFTSPISVTKPVVLASGAALSSPK ESPSSTTPPIEISSSRLTKLTRRTTDRKSEFLKTLKDDRNGDFSENRDCDKLEDLEDNST PEPKENGEEGCHQNGLALPVVEEGEVLSHSLEAEHRLLKAMGWQEYPENDENCLPLTEDE LKEFHMKTEQLRRNGFGKNGFLQSRSSSLFSPWRSTCKAEFEDSDTETSSSETSDDDAWK SWLVSGNGSHPMDSHSGEPALLPCGTCDMVFRSSALLATHTQRFCIGHPTQEMTFGAQAS VATEPQRAAVVPQEHQGVPQEPQGLPDQQASRSALKRLTEEEMRPWITEVPRVFAGPWTR SEARPQSPMSEAVGSPSERLRALFRTRARRVAEMEAQSRALQLRGEGEGDGGRGPRTSSA LAVWLKLARAGSDSARIPSELSRRLQVVACTRGGMSRLFGLEQEIRELQAEAGRTRGALE VLGARIQELQAEPGNPLSSRREAELYSPVQKANPGTLAAEIRALREAYIRDGGRDPGVLG QIWQLQVEASALELQRSQTRRGEQEGLSPAVVSPGRRKELEGGPVAVDGILPPSSSVSLV CELQVWQGLAWARAPQPKAWVSLGLFDQDQRVLSGRWRLPLRALPLDPSLSLGQLNGIPQ AGQAELFLRLVNARDAAVQTLAEINPASVHEYQYPPPVSSTSSLEASFLTPAVGFADPPP RTEEPLSGVKDRDEGLGPHHSSDLPPVSF >gi568815597r:45528259_45759087|GENSCAN_predicted_CDS_2|4770_bp atggctaatgaggactgtcccaaggctgctgatagtcctttttcatcagataaacatgcc caactcatcttggcccaaatcaataagatgagaaatggacagcatttctgtgatgtgcag ctgcaagttggacaggaaagttttaaagctcatcggctggttttggctgccagcagtcct tactttgcagctttgttcactggaggaatgaaagagtcctcaaaagatgttgtaccgatt ctaggaattgaagcaggaatctttcagatacttctagatttcatttacacaggtatagtg aacataggtgtgaataatgtccaggagttgattattgcagcagacatgctacagttgact gaagttgttcatctttgctgtgaatttctgaaaggacaaattgatccactgaactgcatt ggaatttttcagttctctgagcaaattgcctgccatgatctcttggaattctcagaaaac tacattcatgtccatttcttggaggttcatagtggagaagagttcctggcacttacgaaa gatcagctgatcaaaattttgcgaagtgaagagcttagcattgaggatgaataccaggtc ttcttagctgcaatgcaatggattctgaaagatttgggaaaaagaagaaaacatgtggtg gaagtgctagacccaattcgattccctttattacctcctcagagacttttaaagtatata gaaggagtatccgattttaatcttcgtgttgcattgcaaacacttctgaaagagtactgt gaagtatgcaaatctcccaaagagaacaagttttgtagttttctgcagacatctaaggtt cgacctcggaagaaagcaagaaagtacctgtatgcagtaggtggatatactcggttgcag gggggtcgctggagtgatagcagagccctcagctgtgtagaacgttttgacacctttagc cagtactggaccactgtgtcttcacttcatcaggctcgaagtgggctgggagtaacagtt ctgggagggatggtctacgctattggaggtggatgggttggagctgagatagggaacacc attgaacgatttgatcctgatgaaaataaatgggaagtagttggtaacatggctgtgtca cgctactactttgggtgctgtgaaatgcaaggtttaatttatgtaattgggggcatcagc aatgaaggaatagaacttcgttcttttgaagtctatgatccactttctaagcgttggtct ccacttcctccaatgggaaccaggagagcatatcttggtgtggctgcactcaatgactgc atctattctgttggaggatggaatgagacccaagatgctcttcatactgtagaaaaatat tcctttgaagagttgaatccagatgttgaacggtccttgaagttctattccagggctccc aggcagcagaatctgcccacagagttcggcgccgccccttccagtagtgcgatacccaat gagacttcaggtaggagaaacggcactgtcgcaagcgcaggctctcgccggaatcccgcc cttcgcttgggcgggggagtgacgcctgcgctccaggggaactactactcccagcgggta gcgcggccgacgcagccgcgcagcctccggggccaggccgtgtggcccgctggggactgg agtctcaacgacgcgcacacgagaagtaaggagcggaagtcacctactgccaccttcgaa aaacacggagagcacctacccagaggagaaggtagatttggagtaagccgccgtcgacat aattcctctgatggtttttttaacaatggtcccctacgaactgcaggagattcttggcac cagccctccctgttccgccatgattctgtggactctggtgtctctaagggagcatatgct ggaatcacagggaacccatctggttggcatagctcttcccgaggtcatgatggcatgagc caacgtagtggaggtggcacagggaaccatcgccattggaatggcagcttccactcccgg aaagggtgtgcttttcaggaaaagccacctatggagattagggaagaaaagaaagaagac aaggtggaaaagttgcagtttgaagaggaggactttgttaacttggaagacaaaggaggt ttgtctaagctggtggaagctatcaggatcaattacaatgacagatacgatgagatctgc catcactggggaggcaatgtcctgggtcccaagtctgtgactcgcattgccaagctcaaa aaggcaaaggctaaagaacttgccaccaattggattaaatgtacactgttgagctttctt tacataaaaaggaaatacatatttaaggaaaacccgcctagtgccaagcaaccctccaag atgctagttatcaaaaaagtttccaaagaggatcctgctgctgccttctctgctgcattc acctcaccaggatctcaccatgcaaatgggaacaaattgtcatccgtggttccaagtgtc tataagaacctggttcctaagcctgtaccacctccttccaagcctaatgcatggaaagct aacaggatggagcacaagtcaggatccctttcctctagccgggagtctgcttttaccagt ccaatctctgttaccaaaccagtggtactggctagtggtgcagctctgagttctcccaaa gagagtccctccagcaccacccctccaattgagatcagctcctctcgtctgaccaagttg acccgccgaaccaccgacaggaagagtgagttcctgaaaactctgaaggatgaccggaat ggagacttctcagagaatagagactgtgacaagctggaagatttggaggacaacagcaca cctgaaccaaaggaaaatggggaggaaggctgtcatcaaaatggtcttgccctccctgta gtggaagaaggggaggttctctcacactctctagaagcagagcacaggttattgaaagct atgggttggcaggaatatcctgaaaatgatgagaattgccttcccctcacagaggatgag ctcaaagagttccacatgaagacagagcagctgagaagaaatggctttggaaagaatggc ttcttgcagagccgcagttccagtctgttctccccttggagaagcacttgcaaagcagag tttgaggactcagacaccgaaaccagtagcagtgaaacatcagatgacgatgcctggaag tcttggctggtttcaggaaacgggtcccatcccatggactcccactctggggagcctgcg ctcctgccctgtgggacctgtgacatggttttccgctcctcagctctgttagccacccat actcagcgcttctgcattggccacccgacccaagagatgacatttggagcacaggcatca gttgccactgaaccccagcgggccgcggttgtgccacaagaacaccagggcgtgccacaa gaaccccagggcctcccagaccagcaggccagtagatctgctctaaagaggttaacagag gaggaaatgcggccctggataacagaggtccccagggtgttcgcggggccctggacacgt tccgaggcgcggcctcagagtcccatgtccgaggcggtgggaagccccagcgagcggctg cgggcgctgttcaggactcgcgcgaggcgcgtggcggagatggaagcgcagagccgggcc ctgcagctacgcggcgagggtgaaggagatgggggacggggaccaaggacctcctctgcc ctcgccgtttggcttaagcttgctcgggccggttctgactcggcccgcattccctcagaa ctgagccgacgcctccaagttgtggcctgtacgcggggcgggatgtcccgcctcttcggc ctggagcaggagattcgagaactacaagctgaggccgggaggacgcggggagctctagag gtgttgggggcccgcattcaggagctgcaggcggagccagggaacccgctgagctcccgg cgagaggcagaactttattctccagtgcaaaaggccaacccgggaactctggctgccgaa atccgggcgctgcgggaggcctacattcgagacgggggccgggaccccggcgtgctgggc cagatatggcagttgcaggtggaggcgtctgcactggagctgcagcggtcgcagacccgc agaggtgaacaggagggcctctcgccagcggtggtcagtcctgggaggagaaaagaactc gagggagggcctgtggctgtggatggcatactaccaccctcatcatcagtatctttggtc tgtgagctgcaggtctggcaggggctagcatgggctagggcaccacagccaaaggcttgg gtctcacttggactatttgaccaagatcagcgggtgctaagtggccgctggcgcctccca cttcgggcccttcctctggaccccagccttagccttgggcagctgaatgggattcctcag gcaggtcaggctgagctctttctgcggctggtgaatgcaagagatgcagctgtacagaca ctggcagagatcaatccagcaagtgtccatgagtaccagtacccacctccggtgtccagc acatcttcactggaagccagcttcctcacccccgcagttggctttgctgatcccccacct cgtacagaagagcccctcagtggagtcaaggatagagatgagggtttgggccctcaccac agttctgacttgcccccagtgagtttctga >gi568815597r:45528259_45759087|GENSCAN_predicted_peptide_3|258_aa XESHIHPNIWSKEGNRGKLRVTLIHVKLKTPGEVVRREQYPIPLEARIGLKPLIESLVHD GLLKPCMSPYNTVRKPDGSYWLVQDLRAINQIVQTTHTVVPNPYTNVSRIPHNHQRFTVV DLKDAFCACLLAEDSQDMFACEWEDPHSGDNKDQVTAISVNFLNFLREQGLQVSKNKLQV VGPEVKYLGHLISKGVLILVGCCIIPYIRGLTQRLIEAALTKSSPTSPPLYSDKFLLLDN QEEQQSQILLKKSEEEEL >gi568815597r:45528259_45759087|GENSCAN_predicted_CDS_3|777_bp naagaaagccacatccatcccaacatatggtcgaaggaaggaaatcgaggaaagctacgg gttactctaatccatgtcaaattaaaaactcctggggaagtagtgagaagagaacaatac cctattcccttggaagccaggataggtttaaaacctctaattgaaagccttgtccatgac ggactccttaaaccctgtatgtccccttataacactgtaaggaagccagacgggtcatac tggctagtgcaagatctccgggctattaatcaaatagttcagaccacccacactgttgtt cccaatccttacaccaatgtcagtagaatccctcacaaccaccagcggttcacggtggta gatttaaaagatgccttttgcgcttgccttttagcagaggacagccaggacatgtttgcc tgtgagtgggaggaccctcactccggagataacaaggatcaagtaacagcaatttcagtt aacttcctaaatttcctgagggaacaagggttacaggtctcaaagaacaaacttcaagtc gtaggacctgaggtaaaatatctaggacacctaatcagcaaaggtgtactcatccttgtg ggctgctgtatcataccctatattcgtgggttaacccaaaggctcatagaagcagctctc acaaaatcctcccctacgtctccccctctgtactcagataagttcttgctcctagataat caagaagaacaacaaagccaaatcctgttgaagaaatctgaagaggaagagctatag