GENSCAN 1.0 Date run: 5-Nov-116 Time: 21:08:04 Sequence gi568815597r:9630511_9873396 : 242886 bp : 49.89% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.10 PlyA - 1508 1503 6 1.05 1.09 Term - 21733 21616 118 0 1 57 47 107 0.368 1.51 1.08 Intr - 23894 23688 207 1 0 81 78 76 0.298 4.09 1.07 Intr - 25971 25794 178 1 1 49 99 31 0.023 -0.72 1.06 Intr - 41599 41471 129 2 0 64 44 84 0.189 2.27 1.05 Intr - 50304 50172 133 0 1 48 60 71 0.032 0.52 1.04 Intr - 50625 50604 22 2 1 141 86 -15 0.064 1.15 1.03 Intr - 56951 56825 127 0 1 44 119 23 0.118 0.74 1.02 Intr - 57836 57681 156 0 0 64 66 59 0.138 1.28 1.01 Init - 60125 60008 118 2 1 80 60 87 0.122 3.83 1.00 Prom - 62474 62435 40 -5.06 2.00 Prom + 78035 78074 40 -1.16 2.01 Init + 79946 80086 141 1 0 75 80 219 0.957 19.93 2.02 Intr + 85031 85259 229 1 1 55 65 463 0.880 38.14 2.03 Intr + 85339 85568 230 2 2 119 83 298 0.999 29.99 2.04 Intr + 85930 86109 180 0 0 88 94 444 0.967 45.06 2.05 Intr + 86449 86598 150 0 0 61 100 71 0.975 5.96 2.06 Intr + 87027 87116 90 2 0 81 81 243 0.990 23.09 2.07 Intr + 88184 88405 222 1 0 101 64 542 0.996 51.42 2.08 Intr + 89411 89507 97 1 1 129 57 85 0.991 9.08 2.09 Intr + 89602 89732 131 2 2 67 86 255 0.986 23.61 2.10 Intr + 89924 90151 228 1 0 67 105 134 0.953 11.07 2.11 Intr + 90232 90399 168 0 0 45 94 368 0.807 33.24 2.12 Intr + 90617 90738 122 1 2 92 86 231 0.926 22.59 2.13 Intr + 90934 91077 144 1 0 103 31 357 0.999 30.90 2.14 Intr + 91251 91350 100 0 1 79 94 192 0.970 19.01 2.15 Intr + 91465 91643 179 0 2 85 93 255 0.971 24.42 2.16 Intr + 91734 91846 113 0 2 90 77 220 0.999 21.12 2.17 Intr + 92018 92096 79 0 1 31 78 135 0.998 5.41 2.18 Intr + 92615 92782 168 2 0 96 47 331 0.822 28.86 2.19 Intr + 93459 93582 124 0 1 74 92 222 0.996 21.79 2.20 Intr + 93766 93911 146 0 2 123 93 199 0.999 22.98 2.21 Intr + 94294 94426 133 1 1 110 95 177 0.999 21.25 2.22 Term + 96399 96536 138 2 0 101 40 178 0.996 12.26 2.23 PlyA + 99577 99582 6 1.05 3.22 PlyA - 99591 99586 6 -0.45 3.21 Term - 100195 99998 198 1 0 90 46 410 0.988 34.40 3.20 Intr - 100880 100696 185 0 2 91 75 334 0.986 31.91 3.19 Intr - 101386 101251 136 1 1 104 91 149 0.999 16.94 3.18 Intr - 103036 102891 146 2 2 88 105 321 0.995 33.80 3.17 Intr - 103632 103462 171 1 0 94 110 334 0.999 36.11 3.16 Intr - 104664 104438 227 2 2 121 95 293 0.999 30.93 3.15 Intr - 105105 104864 242 0 2 61 105 142 0.895 9.55 3.14 Intr - 105532 105375 158 2 2 69 92 205 0.953 18.73 3.13 Intr - 110746 110584 163 1 1 112 77 116 0.702 12.45 3.12 Intr - 113528 113374 155 0 2 43 109 190 0.610 16.39 3.11 Intr - 114133 113885 249 2 0 51 91 372 0.999 31.21 3.10 Intr - 119136 118951 186 1 0 58 79 181 0.889 13.86 3.09 Intr - 119403 119254 150 1 0 67 105 137 0.974 13.43 3.08 Intr - 121171 120963 209 0 2 60 95 440 0.998 40.62 3.07 Intr - 124799 124604 196 0 1 81 97 242 0.815 22.87 3.06 Intr - 126000 125971 30 1 0 106 54 44 0.160 0.90 3.05 Intr - 142884 142762 123 1 0 56 91 218 0.875 19.46 3.04 Intr - 147457 147428 30 2 0 138 77 -2 0.554 1.80 3.03 Intr - 162134 162046 89 1 2 54 50 97 0.002 2.11 3.02 Intr - 163078 162979 100 2 1 75 71 58 0.001 1.97 3.01 Init - 193223 193133 91 2 1 64 99 316 0.299 28.95 3.00 Prom - 195105 195066 40 -6.66 4.03 PlyA - 195796 195791 6 1.05 4.02 Term - 203183 203131 53 0 2 62 54 69 0.392 -1.51 4.01 Init - 208672 208555 118 1 1 87 90 79 0.717 8.37 4.00 Prom - 213134 213095 40 -1.56 5.10 PlyA - 217786 217781 6 1.05 5.09 Term - 220266 220208 59 1 2 103 37 72 0.647 1.45 5.08 Intr - 221530 221429 102 2 0 88 64 61 0.523 3.85 5.07 Intr - 228260 228175 86 1 2 85 82 47 0.218 3.26 5.06 Intr - 228800 228695 106 0 1 34 99 39 0.217 -1.13 5.05 Intr - 232611 232438 174 1 0 54 99 34 0.122 1.01 5.04 Intr - 240767 240677 91 2 1 104 96 190 0.922 20.97 5.03 Intr - 241578 241459 120 0 0 105 92 114 0.984 14.19 5.02 Intr - 241882 241743 140 2 2 30 72 84 0.905 1.18 5.01 Intr - 242335 242214 122 0 2 97 75 60 0.578 5.74 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 107755 107667 89 0 2 66 80 89 0.916 5.51 S.002 Init - 107812 107760 53 1 2 82 82 48 0.893 2.23 S.003 Init + 155826 155845 20 2 2 72 100 51 0.823 4.21 S.004 Intr + 161844 161953 110 0 2 65 94 97 0.897 7.93 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:9630511_9873396|GENSCAN_predicted_peptide_1|395_aa MLRGPCCGSPGMRARMLPSLKIQGTVASTSQGTATRETGEYSFGSTAQDKPLPQGNAEEE AGCEHQNQPWRVPRGGRRWFEEHSLVVLIAARHTGPPQGGDFPKMRNQPPEVTPDLGRAD RGWEEFWVQSPPTCALISCSGQPVTNTPPMAAAFLLWGQHYSMLRGSINTCDGLNGQYKQ QLLCNGWRDGGKVGETQPIRVKVTASCPAISYPLPLGTRSTRAPGVLPSTKFEVICYSNH RRLTLVEHPKSEIYNVPKSKIFECHHDQIQSSLEHFRCQIFGFGMVSCTAPGTPCDLRKH LLNMVSEEKRSPQLSAKTWRRGLRLQKRRNALFLPEGDICVVGSTSGARALIPETSKGGP WSSSQRSERAHALSASSILAPQPAHRRPHRRCERS >gi568815597r:9630511_9873396|GENSCAN_predicted_CDS_1|1188_bp atgctccggggaccctgctgcgggagcccaggcatgcgggctcggatgctcccttccctc aaaatccaggggacagtggcaagcacttcgcaaggcactgccaccagagaaacaggagaa tattctttcgggtccacagcccaagacaaacctttgccacaggggaacgcagaggaggaa gcggggtgcgagcaccagaatcagccctggcgtgtcccgcggggtggtagaaggtggttt gaagaacactccttggtggtcctaattgctgcacgccacaccggacccccccagggcggg gatttccccaagatgagaaatcagccaccggaagtcacgccggaccttggacgggcagac agaggctgggaggagttctgggtgcagagccccccaacctgtgctctcatctcttgctct gggcaaccagtaactaatacgccacccatggctgccgcgttcctgctgtggggccagcac tattccatgcttagaggctccatcaatacctgtgatggactaaatggtcagtacaaacaa cagctcctctgtaatggctggagggatggtgggaaagttggagaaacacagcccatcagg gtcaaggttactgccagctgcccggccatctcctacccactccccctgggaacccgcagc acaagggctcctggggtgctgccttccacaaagtttgaggtcatttgttacagcaaccac aggaggttaacactggttgagcatcccaaatctgaaatctacaacgttccaaaatccaaa atttttgagtgccatcatgatcaaatacaaagctccttggagcatttcagatgtcagata tttggatttggaatggtcagttgcacagcccctggcaccccgtgtgatctcaggaaacac ttgctaaacatggtatcggaggagaaacggagcccacagcttagtgcaaagacctggcgg cgtggactgaggctgcagaaacgcagaaacgcgcttttcctgccagaaggggacatctgc gtggtcgggagtacctctggggcacgtgccctaattccagaaacatctaaaggaggcccc tggtcctctagtcagcgctcggagcgggcgcacgcgctgagcgcttccagtatcctcgcg cctcagccggcgcaccggaggccgcaccgccgctgtgagcgcagctga >gi568815597r:9630511_9873396|GENSCAN_predicted_peptide_2|1103_aa MPPGVDCPMEFWTKEENQSVVVDFLLPTGVYLNFPVSRNANLSTIKQLLWHRAQYEPLFH MLSGPEAYVFTCINQTAEQQELEDEQRRLCDVQPFLPVLRLVAREGDRVKKLINSQISLL IGKGLHEFDSLCDPEVNDFRAKMCQFCEEAAARRQQLGWEAWLQYSFPLQLEPSAQTWGP GTLRLPNRALLVNVKFEGSEESFTFQVSTKDVPLALMACALRKKATVFRQPLVEQPEDYT LQVNGRHEYLYGSYPLCQFQYICSCLHSGLTPHLTMVHSSSILAMRDEQSNPAPQVQKPR AKPPPIPAKKPSSVSLWSLEQPFRIELIQGSKVNADERMKLVVQAGLFHGNEMLCKTVSS SEVSVCSEPVWKQRLEFDINICDLPRMARLCFALYAVIEKAKKARSTKKKSKKADCPIAW ANLMLFDYKDQLKTGERCLYMWPSVPDEKGELLNPTGTVRSNPNTDSAAALLICLPEVAP HPVYYPALEKLPGGMLLASREWRPELLWMRLHAEDSAPSRMIGVAMPGLGVLPGLVQAPG DAECSRLLQILELGRHSECVHVTEEEQLQLREILERRGSGELYEHEKDLVWKLRHEVQEH FPEALARLLLVTKWNKHEDVAQMLYLLCSWPELPVLSALELLDFSFPDCHVGSFAIKSLR KLTDDELFQYLLQLVQVLKYESYLDCELTKFLLDRALANRKIGHFLFWHLRSEMHVPSVA LRFGLILEAYCRGSTHHMKVLMKQGEALSKLKALNDFVKLSSQKTPKPQTKELMHLCMRQ EAYLEALSHLQSPLDPSTLLAEVCVEQCTFMDSKMKPLWIMYSNEEAGSGGSVGIIFKNG DDLRQDMLTLQMIQLMDVLWKQEGLDLRMTPYGCLPTGDRTGLIEVVLRSDTIANIQLNK SNMAATAAFNKDALLNWLKSKNPGEALDRAIEEFTLSCAGYCVATYVLGIGDRHSDNIMI RESGQLFHIDFGHFLGNFKTKFGINRERVPFILTYDFVHVIQQGKTNNSEKFERFRGYCE RAYTILRRHGLLFLHLFALMRAAGLPELSCSKDIQYLKDSLALGKTEEEALKHFRVKFNE ALRESWKTKVNWLAHNVSKDNRQ >gi568815597r:9630511_9873396|GENSCAN_predicted_CDS_2|3312_bp atgccccctggggtggactgccccatggaattctggaccaaggaggagaatcagagcgtt gtggttgacttcctgctgcccacaggggtctacctgaacttccctgtgtcccgcaatgcc aacctcagcaccatcaagcagctgctgtggcaccgcgcccagtatgagccgctcttccac atgctcagtggccccgaggcctatgtgttcacctgcatcaaccagacagcggagcagcaa gagctggaggacgagcaacggcgtctgtgtgacgtgcagcccttcctgcccgtcctgcgc ctggtggcccgtgagggcgaccgcgtgaagaagctcatcaactcacagatcagcctcctc atcggcaaaggcctccacgagtttgactccttgtgcgacccagaagtgaacgactttcgc gccaagatgtgccaattctgcgaggaggcggccgcccgccggcagcagctgggctgggag gcctggctgcagtacagtttccccctgcagctggagccctcggctcaaacctgggggcct ggtaccctgcggctcccgaaccgggcccttctggtcaacgttaagtttgagggcagcgag gagagcttcaccttccaggtgtccaccaaggacgtgccgctggcgctgatggcctgtgcc ctgcggaagaaggccacagtgttccggcagccgctggtggagcagccggaagactacacg ctgcaggtgaacggcaggcatgagtacctgtatggcagctacccgctctgccagttccag tacatctgcagctgcctgcacagtgggttgacccctcacctgaccatggtccattcctcc tccatcctcgccatgcgggatgagcagagcaaccctgccccccaggtccagaaaccgcgt gccaaaccacctcccattcctgcgaagaagccttcctctgtgtccctgtggtccctggag cagccgttccgcatcgagctcatccagggcagcaaagtgaacgccgacgagcggatgaag ctggtggtgcaggccgggcttttccacggcaacgagatgctgtgcaagacggtgtccagc tcggaggtgagcgtgtgctcggagcccgtgtggaagcagcggctggagttcgacatcaac atctgcgacctgccccgcatggcccgtctctgctttgcgctgtacgccgtgatcgagaaa gccaagaaggctcgctccaccaagaagaagtccaagaaggcggactgccccattgcctgg gccaacctcatgctgtttgactacaaggaccagcttaagaccggggaacgctgcctctac atgtggccctccgtcccagatgagaagggcgagctgctgaaccccacgggcactgtgcgc agtaaccccaacacggatagcgccgctgccctgctcatctgcctgcccgaggtggccccg caccccgtgtactaccccgccctggagaagctgccaggagggatgctcttggcatctcgt gagtggaggccagagctgctgtggatgcgcctccatgcagaggacagcgccccctcaagg atgattggggtggcaatgcccggcctgggggtcctgcccgggctggtccaggcccctggg gacgctgagtgcagccgtttgttgcagatcttggagctggggcgacacagcgagtgtgtg catgtcaccgaggaggagcagctgcagctgcgggaaatcctggagcggcgggggtctggg gagctgtatgagcacgagaaggacctggtgtggaagctgcggcatgaagtccaggagcac ttcccggaggcgctagcccggctgctgctggtcaccaagtggaacaagcatgaggatgtg gcccagatgctctacctgctgtgctcctggccggagctgcccgtcctgagcgccctggag ctgctagacttcagcttccccgattgccacgtaggctccttcgccatcaagtcgctgcgg aaactgacggacgatgagctgttccagtacctgctgcagctggtgcaggtgctcaagtac gagtcctacctggactgcgagctgaccaaattcctgctggaccgggccctggccaaccgc aagatcggccacttccttttctggcacctccgctccgagatgcacgtgccgtcggtggcc ctgcgcttcggcctcatcctggaggcctactgcaggggcagcacccaccacatgaaggtg ctgatgaagcagggggaagcactgagcaaactgaaggccctgaatgacttcgtcaagctg agctctcagaagacccccaagccccagaccaaggagctgatgcacttgtgcatgcggcag gaggcctacctagaggccctctcccacctgcagtccccactcgaccccagcaccctgctg gctgaagtctgcgtggagcagtgcaccttcatggactccaagatgaagcccctgtggatc atgtacagcaacgaggaggcaggcagcggcggcagcgtgggcatcatctttaagaacggg gatgacctccggcaggacatgctgaccctgcagatgatccagctcatggacgtcctgtgg aagcaggaggggctggacctgaggatgaccccctatggctgcctccccaccggggaccgc acaggcctcattgaggtggtactccgttcagacaccatcgccaacatccaactcaacaag agcaacatggcagccacagccgccttcaacaaggatgccctgctcaactggctgaagtcc aagaacccgggggaggccctggatcgagccattgaggagttcaccctctcctgtgctggc tattgtgtggccacatatgtgctgggcattggcgatcggcacagcgacaacatcatgatc cgagagagtgggcagctgttccacattgattttggccactttctggggaatttcaagacc aagtttggaatcaaccgcgagcgtgtcccattcatcctcacctacgactttgtccatgtg attcagcaggggaagactaataatagtgagaaatttgaacggttccggggctactgtgaa agggcctacaccatcctgcggcgccacgggcttctcttcctccacctctttgccctgatg cgggcggcaggcctgcctgagctcagctgctccaaagacatccagtatctcaaggactcc ctggcactggggaaaacagaggaggaggcactgaagcacttccgagtgaagtttaacgaa gccctccgtgagagctggaaaaccaaagtgaactggctggcccacaacgtgtccaaagac aacaggcagtag >gi568815597r:9630511_9873396|GENSCAN_predicted_peptide_3|1077_aa MLRRPAPALAPAARLLLAGLLCGGGVWAARESFRMASIHEPSVRPLFSVGECIKLFHSKP VSARDTVAKGMVPDTRHPWLESVSLVINTLQDGCVGTEGQSEVVNKHKPWLEPTYHGIVT ENDNTVLLDPPLIALDKDAPLRFAESFEVTVTKEGEICGFKIHGQNVPFDAVVVDKSTGE GVIRSKEKLDCELQKDYSFTIQAYDCGKGPDGTNVKKSHKATVHIQVNDVNEYAPVFKEK SYKATVIEGKQYDSILRVEAVDADCSPQFSQICSYEIITPDVPFTVDKDGYIKNTEKLNY GKEHQYKLTVTAYDCGKKRATEDVLVKISIKPTCTPGWQGWNNRIEYEPGTGALAVFPNI HLETCDEPVASVQATVELETSHIGKGCDRDTYSEKSLHRLCGAAAGTAELLPSPSGSLNW TMGLPTDNGHDSDQVFEFNGTQAVRIPDGVVSVSPKEPFTISVWMRHGPFGRKKETILCS SDKTVGNLPIETAFADMNRHHYSLYVHGCRLIFLFRQDPSEEKKYRPAEFHWKLNQVCDE EWHHYVLNVEFPSVTLYVDGTSHEPFSVTEDYPLHPSKIETQLVVGACWQGGDLHMTQFF RGNLAGLTLRSGKLADKKVIDCLYTCKEGLDLQVLEDSGRGVQIQAHPSQLVLTLEGEDL GELDKAMQHISYLNSRQFPTPGIRRLKITSTIKYVLIFNSRPVLPNDTCIFRFLRQPNPF CKERCFNEATCISVPPVDGYVMVLQPEEPKISLSGVHHFARAASEFESSEGVFLFPELRI ISTITREVEPEGDGAEDPTVQESLVSEEIVHDLDTCEVTVEGEELNHEQESLEVDMARLQ QKGIEVSSSELGMTFTGVDTMASYEEVLHLLRYRNWHARSLLDRKFKLICSELNGRYISN EFKVEVNVIHTANPMEHANHMAAQPQFVHPEHRSFVDLSGHNLANPHPFAVVPSTATVVI VVCVSFLVFMIILGVFRIRAAHRRTMRDQDTGKENEMDWDDSALTITVNPMETYEDQHSS EEEEEEEEEEESEDGEEEDDITSAESESSEEEEGEQGDPQNATRQQQLEWDDSTLSY >gi568815597r:9630511_9873396|GENSCAN_predicted_CDS_3|3234_bp atgctgcgccgccccgctcccgcgctggccccggccgcccggctgctgctggccgggctg ctgtgcggcggcggggtctgggccgcgcgagaaagctttcgaatggcctccattcatgaa ccttctgtgaggccattgttctctgttggggagtgcatcaaattgttccacagcaaacct gtcagcgccagggataccgtagccaagggcatggttcccgacacccgacacccgtggctg gagtctgtgtccctggtaattaataccctacaggatggctgtgttggaacagagggacag agcgaggttgttaacaagcacaagccctggctggagcccacctaccacggcatagtcaca gagaacgacaacaccgtgctcctcgaccccccactgatcgcgctggataaagatgcgcct ctgcgatttgcagagagttttgaggtgacagtcaccaaagaaggtgagatttgtggattt aaaattcacgggcagaatgtcccctttgatgcagtggtagtggataaatccactggtgag ggagtcattcgctccaaagagaaactggactgtgagctgcagaaagactattcattcacc atccaggcctatgattgtgggaagggacctgatggcaccaacgtgaaaaagtctcataaa gcaactgttcatattcaggtgaacgacgtgaatgagtacgcgcccgtgttcaaggagaag tcctacaaagccacggtcatcgaggggaagcagtacgacagcattttgagggtggaggcc gtggatgccgactgctcccctcagttcagccagatttgcagctacgaaatcatcactcca gacgtgccctttactgttgacaaagatggttatataaaaaacacagagaaattaaactac gggaaagaacatcaatataagctgaccgtcactgcctatgactgtgggaagaaaagagcc acagaagatgttttggtgaagatcagcattaagcccacctgcacccctgggtggcaagga tggaacaacaggattgagtatgagccgggcaccggcgcgttggccgtctttccaaatatc cacctggagacatgtgacgagccagtcgcctcagtacaggccacagtggagctagaaacc agccacatagggaaaggctgcgaccgagacacctactcagagaagtccctccaccggctc tgtggtgcggccgcgggcactgccgagctgctgccatccccgagtggatccctcaactgg accatgggcctgcccaccgacaatggccacgacagcgaccaggtgtttgagttcaacggc acccaggcagtgaggatcccggatggcgtcgtgtcggtcagccccaaagagccgttcacc atctcggtgtggatgagacatgggccattcggcaggaagaaggagacaattctttgcagt tctgataaaacagttggcaatttacccatagaaactgcctttgcagatatgaatcggcac cactactccctctatgtccacgggtgccggctgatcttcctcttccgtcaggatccttct gaggagaagaaatacagacctgcagagttccactggaagttgaatcaggtctgtgatgag gaatggcaccactacgtcctcaatgtagaattcccgagtgtgactctctatgtggatggc acgtcccacgagcccttctctgtgactgaggattacccgctccatccatccaagatagaa actcagctcgtggtgggggcttgctggcaaggtggcgacctgcacatgacccagtttttc cgaggcaatctggctggcttaactctccgttccgggaaactcgcggataagaaggtgatc gactgtctgtatacctgcaaggaggggctggacctgcaggtcctcgaagacagtggcaga ggcgtgcagatccaagcacaccccagccagttggtattgaccttggagggagaagacctc ggggaattggataaggccatgcagcacatctcgtacctgaactcccggcagttccccacg cccggaattcgcagactcaaaatcaccagcacaatcaagtacgtcctgatttttaacagc cggcctgttttgcccaatgacacttgtatatttaggtttttaagacagcctaaccccttc tgtaaggaaaggtgttttaacgaggccacctgcatttcggtccccccggtagatggctac gtgatggttttacagcccgaggagcccaagatcagcctgagtggcgtccaccattttgcc cgagcagcttctgaatttgaaagctcagaaggggtgttccttttccctgagcttcgcatc atcagcaccatcacgagagaagtggagcctgaaggggacggggctgaggaccccacagtt caagaatcactggtgtccgaggagatcgtgcacgacctggatacctgtgaggtcacggtg gagggagaggagctgaaccacgagcaggagagcctggaggtggacatggcccgcctgcag cagaagggcattgaagtgagcagctctgaactgggcatgaccttcacaggcgtggacacc atggccagctacgaggaggttttgcacctgctgcgctatcggaactggcatgccaggtcc ttgcttgaccggaagtttaagctcatctgctcagagctgaatggccgctacatcagcaac gaatttaaggtggaggtgaatgtaatccacacggccaaccccatggaacacgccaaccac atggctgcccagccacagttcgtgcacccggaacaccgctcctttgttgacctgtcaggc cacaacctggccaacccccacccgttcgcagtcgtccccagcactgcgacagttgtgatc gtggtgtgcgtcagcttcctggtgttcatgattatcctgggggtatttcggatccgggcc gcacatcggcggaccatgcgggatcaggacaccgggaaggagaacgagatggactgggac gactctgccctgaccatcaccgtcaaccccatggagacctatgaggaccagcacagcagt gaggaggaggaggaagaggaagaggaagaggaaagcgaggacggcgaagaagaggatgac atcaccagcgccgagtcggagagcagcgaggaggaggagggggagcagggcgacccccag aacgcaacccggcagcagcagctggagtgggatgactccaccctcagctactga >gi568815597r:9630511_9873396|GENSCAN_predicted_peptide_4|56_aa MPKSSYYGSRSLIVTSRQTATRGPTPASVSHLADTACDRGSFKVKEKAPKSQRSLI >gi568815597r:9630511_9873396|GENSCAN_predicted_CDS_4|171_bp atgccgaagagcagttactatggcagccgatctctcatcgtgacttctagacagacagca acgcggggccccacccctgcttccgtgtcccacctggcagacactgcctgcgacagaggg agcttcaaggtcaaggaaaaagcaccaaaaagccagagaagcctcatctga >gi568815597r:9630511_9873396|GENSCAN_predicted_peptide_5|333_aa XSSWREGALDFSPGDFLQVRSLLHVDTLLAFPAACRSYPLTGRNNQQSRSSQFSWTQQLH AQRQQAGQPLQRLLENRAAQFSLLGPAWESPEPGRGMNREGAPGKSPEEMYIQQKVRVLL MLRKMGSNLTASEEEFLRTYAGVVNSQLSQLPPHSIDQGRVALTPAAYSAPGCGSREGRF DPITPRHGFCCLELRTDARMASEKSLWDSTLPPSSPGAKLALGIGWEGLLDTLSWFRKLR LCQCPGPGFQGRYLPRYCDYVSEQNKVPDDMRCTFQWRKEERIPAVAQTTCQKDHGQPDW YFSGQSEDLAFYKGGAEDVVMAFSRSETEDRRQ >gi568815597r:9630511_9873396|GENSCAN_predicted_CDS_5|1002_bp nnctcctcctggagggagggggctctggacttctctcctggggactttctacaggttagg tccctgctgcatgtggacacgctgctggccttcccagctgcctgcaggagctaccctctg acaggtagaaacaaccagcagtccaggtcatctcagttttcctggacgcagcagcttcat gcacagaggcagcaggcaggccagcccttgcagcgcctgctggagaacagagctgctcag ttcagcctgctgggaccagcatgggagtccccagagccaggcagggggatgaaccgcgag ggagctcccgggaagagtccggaggagatgtacattcagcagaaggtccgagtgctgctc atgctgcggaagatgggatcaaacctgacagccagcgaggaggagttcctgcgcacctat gcaggggtggtcaacagccagctcagccagctgcctccgcactccatcgaccaggggagg gtcgctttgaccccagctgcttactcagcacctggctgcggctccagggagggtcgcttt gaccccatcaccccgcgtcatgggttctgttgtttagaactgagaacagatgcccgaatg gcctcagagaagtccttgtgggactctacacttcccccctcaagccctggggcaaagctg gcattgggcataggatgggagggcctgctggataccctgtcctggtttagaaagctgcgc ctttgccagtgtcctggccctggtttccagggcaggtacttgcccagatactgtgactat gtcagtgaacaaaacaaagtccctgatgacatgagatgtacgttccagtggagaaaggaa gagagaatacctgcagtagcacagacaacatgtcagaaagaccatgggcagccagactgg tacttttcggggcaaagtgaagatctggccttttacaaagggggtgcagaggacgtggtg atggcgttttccaggtcggagacggaagaccggaggcagtag