GENSCAN 1.0 Date run: 3-Nov-116 Time: 07:08:25 Sequence gi568815589r:121081399_121293412 : 212014 bp : 41.17% 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 Init + 7016 7145 130 1 1 50 64 75 0.393 1.66 1.02 Intr + 8877 9007 131 1 2 108 100 50 0.971 7.69 1.03 Intr + 13490 13620 131 1 2 27 109 53 0.879 -0.13 1.04 Intr + 15024 15165 142 0 1 108 123 75 0.996 12.43 1.05 Intr + 16988 17174 187 1 1 63 82 80 0.268 3.24 1.06 Intr + 21131 21782 652 0 1 67 39 211 0.014 4.14 1.07 Intr + 22828 22946 119 1 2 60 59 25 0.022 -4.01 1.08 Intr + 26404 26597 194 2 2 71 111 82 0.539 7.09 1.09 Intr + 32104 32326 223 0 1 76 37 250 0.954 15.48 1.10 Intr + 33693 33802 110 1 2 65 95 134 0.933 10.88 1.11 Intr + 35359 35505 147 0 0 22 65 183 0.930 8.91 1.12 Intr + 36984 37142 159 2 0 -26 84 181 0.440 5.56 1.13 Intr + 42533 42686 154 1 1 45 116 251 0.984 22.32 1.14 Intr + 44318 44538 221 0 2 48 86 261 0.935 19.00 1.15 Intr + 54408 54584 177 2 0 49 111 239 0.995 21.49 1.16 Intr + 57147 57281 135 2 0 48 80 145 0.999 9.54 1.17 Intr + 59243 59388 146 1 2 92 72 190 0.997 15.96 1.18 Intr + 59983 60190 208 1 1 87 52 251 0.989 19.56 1.19 Intr + 60693 60872 180 2 0 91 97 227 0.999 23.04 1.20 Intr + 62505 62684 180 2 0 74 105 260 0.985 25.44 1.21 Intr + 63445 63561 117 0 0 52 82 72 0.854 2.74 1.22 Intr + 63846 63987 142 2 1 33 48 167 0.980 6.21 1.23 Intr + 64710 64858 149 1 2 73 19 187 0.926 9.33 1.24 Intr + 67274 67463 190 1 1 81 107 -1 0.892 -0.66 1.25 Intr + 68772 69085 314 1 2 72 83 279 0.977 20.78 1.26 Intr + 71087 71295 209 1 2 74 25 285 0.995 17.75 1.27 Intr + 73323 73554 232 0 1 73 92 215 0.577 17.25 1.28 Intr + 76072 76202 131 0 2 68 100 171 0.999 14.87 1.29 Intr + 76342 76482 141 1 0 -10 89 126 0.731 1.45 1.30 Intr + 76585 76711 127 1 1 68 80 135 0.999 10.46 1.31 Intr + 77457 77621 165 2 0 108 61 139 0.909 12.44 1.32 Intr + 78745 78904 160 0 1 71 131 124 0.999 13.64 1.33 Intr + 80458 80573 116 2 2 86 80 75 0.964 5.75 1.34 Intr + 80656 80873 218 0 2 48 100 223 0.995 15.88 1.35 Intr + 83545 83702 158 1 2 67 70 184 0.832 13.23 1.36 Intr + 86008 86279 272 2 2 81 34 256 0.526 15.84 1.37 Intr + 86698 86923 226 0 1 51 41 277 0.643 15.94 1.38 Intr + 88213 88418 206 2 2 81 70 219 0.798 17.40 1.39 Intr + 90010 90150 141 0 0 43 89 183 0.975 13.53 1.40 Intr + 91845 92111 267 2 0 29 91 241 0.988 15.31 1.41 Intr + 93620 93826 207 1 0 77 115 131 0.951 13.05 1.42 Intr + 119566 119840 275 0 2 76 27 288 0.060 16.91 1.43 Intr + 124195 124287 93 1 0 75 28 120 0.107 2.86 1.44 Intr + 128838 128931 94 0 1 79 105 76 0.352 7.45 1.45 Intr + 131584 131710 127 0 1 92 76 5 0.004 -0.97 1.46 Intr + 140090 140168 79 0 1 102 83 40 0.260 2.59 1.47 Intr + 149492 149647 156 2 0 73 98 61 0.159 3.80 1.48 Intr + 149767 149905 139 1 1 143 62 103 0.940 12.75 1.49 Intr + 152954 153105 152 1 2 -5 31 117 0.029 -5.26 1.50 Intr + 153699 153824 126 0 0 26 72 147 0.032 5.77 1.51 Term + 154262 154343 82 2 1 59 41 86 0.216 -2.81 1.52 PlyA + 155355 155360 6 1.05 2.02 PlyA - 155841 155836 6 1.05 2.01 Sngl - 158265 157777 489 0 0 67 45 328 0.705 22.21 2.00 Prom - 162717 162678 40 -6.35 3.00 Prom + 163205 163244 40 -2.95 3.01 Init + 166396 166451 56 0 2 23 103 45 0.068 0.31 3.02 Intr + 172664 172815 152 2 2 101 96 46 0.234 5.59 3.03 Intr + 183756 183833 78 1 0 102 58 49 0.530 1.90 3.04 Intr + 184263 184356 94 1 1 96 78 88 0.881 6.70 3.05 Intr + 186698 186821 124 2 1 56 91 42 0.422 0.97 3.06 Intr + 190376 190465 90 1 0 127 78 -6 0.020 1.57 3.07 Intr + 194033 194169 137 1 2 16 83 113 0.027 2.05 3.08 Intr + 199616 199825 210 2 0 47 87 127 0.170 5.61 3.09 Term + 201089 201284 196 2 1 39 41 193 0.204 5.60 3.10 PlyA + 202366 202371 6 -0.45 4.05 PlyA - 202983 202978 6 -0.45 4.04 Term - 203739 203561 179 1 2 76 41 167 0.186 7.67 4.03 Intr - 208079 207974 106 2 1 62 7 120 0.038 0.17 4.02 Intr - 210401 210316 86 0 2 40 61 89 0.619 0.02 4.01 Init - 211486 211345 142 1 1 84 72 77 0.847 6.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 109333 109156 178 2 1 99 82 131 0.959 11.66 S.002 Init - 112014 111963 52 0 1 114 111 -25 0.855 3.77 S.003 Term + 149991 150110 120 2 0 10 48 116 0.871 -2.71 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815589r:121081399_121293412|GENSCAN_predicted_peptide_1|2978_aa MRSRSLSPLIGSETLPFHSGGQWCEQVEIADENNMLLDYQDHKGADSHAGVRYITEALIK KLTKQDNLALIKSLNLSLSKDGGKKFKYIENLEKCVKLEVLNLSYNLIGKIEKLDKLLKL RELNLSYNKISKIEGIENMCNLQKLNLAGNEIEHIPVWLGKKLKSLRVLNLKGNKISSLQ DISKLKPLQDLISLILVENPVVTLPHYLQFTIFHLRSLESLEGQPVTTQDRQEAFERFSL VLEILARAIRQEKEIKDVHLGKEEVKLSLFADDVIVYLENPIVSAQNLLKLIRNFSKLSG YKINVQKSQAFLYTNDRQTESRIMSELPFTIASKRIKYLGIQLKRDVKDLFKENYKPLLN EIKEDTNKWRNIPCSWIGRINIMKMAILPKVIYRFNAIPIKLPMTFFTEFEKTTLKFIWN QKRACIAKTILSKKNKAGGITLPDFKLYYKATVNKTAWDMVEAGNHHSLQTVTRTENQTP HVLTHRWELNNENTWTQEEVERLERDLEKKMIETEELKSKQTRFLEEIKNQDKLNKSLKE EAMLQKQSCEELKSDLNTKNELYAEIDKAPDESPYIGKSRYKRNMFATESYIIDSAQAVQ IKKMEPDEQLRNDHMNLRGHTPLDTQLEDKEKKISAAQTRLSELHDEIEKAEQQILRATE EFKQLEEAIQLKKEAVVQYRQEMILAPTRKVLVDVERKPADSRKHWTVELTGLNDGLKVG DELSGRLQLVNKLRQEALDLELQMEKQKQEIAGKQKEIKDLQIAIDSLDSKDPKHSHMKA QKSGKEQQLDIMNKQYQQLESRLDEILSRIAKETEEIKDLEEQLTEGQIAANEALKKDLE GVISGLQEYLGTIKGQATQAQNECRKLRDEKETLLQRLTEVEQERDQLEIVAMDAENMRK ELAELESALQEQHEVNASLQQTQGDLSAYEAELEARLNLRDAEANQLKEELEKVTRLTQL EQSALQAELEKERQALKNALGKAQFSEEKEQENSELHAKLKHLQDDNNLLKQQLKDFQNH LNHVVDGLVRPEEVAARVDELRRKLKLGTGEMNIHSPSDVLGKSLADLQKQFSEILARSK WERDEAQVRERKLQEEMALQQEKLATGQEEFRQACERALEARMNFDKRQHEARIQQMENE IHYLQENLKSMEEIQGLTDLQLQEADEEKERILAQLRELEKKKKLEDAKSQEQVFGLDKE LKKLKKAVATSDKLATAELTIAKDQLKSLHGTVMKINQERAEELQEAERFSRKAAQAARD LTRAEAEIELLQNLLRQKGEQFRLEMEKTGVGTGANSQVLEIEKLNETMERQRTEIARLQ NVLDLTGSDNKGGFENVLEEIAELRREVSYQNDYISSMADPFKRRGYWYFMPPPPSSKVS SHSSQATKDSGVGLKYSASTPVRKPRPGQQDGKEGSQPPPASGYWVYSPIRSGLHKLFPS RDADSGGDSQEESELDDQEEPPFVPPPGYMMYTVLPDGSPVPQGMALYAPPPPLPNNSRP LTPGTVVYGPPPAGAPMVYGPPPPNFSIPFIPMGVLHCNVPEHHNLENEVSRLEDIMQHL KSKKREERWMRASKRQSEKEMEELHHNIDDLLQEKKSLECEVEELHRTVQKRQQQKDFID GNVESLMTELEIEKSLKHHEDIVDEIECIEKTLLKRRSELREADRLLAEAESELSCTKEK VCLLVVWGVSSVWTKNAVEKFTDAKRSLLQTESDAEELERRAQETAVNLVKADQQLRSLQ ADAKDLEQHKIKQEEILKEINKIVAAKDSDFQCLSKKKEKLTEELQKLQKDIEMAERNED HHLQVLKESEVLLQAKRAELEKLKSQVTSQQQEMAVLDRQLGHKKEELHLLQGSMVQAKA DLQEALRLGETEVTEKCNHIREVKSLLEELSFQKGELNVQISERKTQLTLIKQEIEKEEE NLQVVLRQMSKHKTELKNILDMLQLENHELQGLKLQHDQRVSELEKTQVAVLEEKLELEN LQQISQQQKGEIEWQKQLLERDKREIERMTAESRALQSCVECLSKEKEDLQEKCDIWEKK LAQTKRVLAAAEENSKMEQSNLEKLELNVRKLQQELDQLNRDKLSLHNDISAMQQQLQDL VDTGLALTTSSKDGFISSFHLFFHLKDLLHTTKHQDVLLSEQTRLQKDISEWANRFEDCQ KEEETKQQQLQVLQNEIEENKLKLVQQEMMFQRLQKERESEESKLETSKVTLKEQQHQLE KELTDQKSKLDQVLSKVLAAEERVRTLQEEERWCESLEKTLSQTKRQLSEREQQLVEKSG ELLALQKEADSMRADFSLLRNQFLTERKKAEKQVASLKEALKIQRSQLEKNLLEQKQENS CIQKEMATIELVAQDNHERARRLMKELNQMQYEYTELKKQMANQKDLERRQMEISDAMRT LKSEVKDEIRTSLKNLNQFLPELPADLEAILERNENLEGELESLKENLPFTMNEGPFEEK LNFSQVHIMAQLRHCMSKQAEVLIKGKRQTEGTLHSLRRQVDALGELVTSTSADSASSPS LSQLESSLTEDSQLGQNQMLCRFRAVEAVHGPHRNAPKPGHRKHRRTDPDPGPGPARLQG RAPHIDKDTGAAPRRQEGCEELPLYSEPDAAYGTGPPRLGLAGCRAARHAPRLEYGKEVS IREECGIMTQANHLLEDIANVTQADGARCLSVSLRFSLWNVVRCHGGGKRDLRLEGKLRR KGSVKEGEFLPAHIFILNFTGLMSAFPHPELSGKACHVSLGHVSLLGLAFKALHNQPNTE RISPTPTLVNFILFTRKSGFIISSLQTSQHHSMDFMSTYYVQGNHIPNAKTKGSHCLEGE RRARCEKRSTMLQSLVKVEEYSHQQTAFLPWKMSLGGKQRDTGNGITYGMLTHSTDPFRR GASSYLPMGTVSLHKAILLCYRSQLLLGHGKPGKVMPLAVTEIQQLPESEFGFSNLAPMA PVNSFHLAREKSWVLAGGKEDSGESLLVILEPRPGNDT >gi568815589r:121081399_121293412|GENSCAN_predicted_CDS_1|8937_bp atgagatctaggtcactttcacctttgattggatcagagactctaccttttcattctgga ggacagtggtgtgagcaagttgagattgcagatgaaaacaatatgcttttggactatcaa gaccataaaggagctgattcacatgcaggagttagatatattacagaggccctcattaaa aaacttactaaacaggataatttggctttgataaaatctctgaacctttcactttctaaa gacggtggcaagaaatttaagtatattgagaatttggaaaaatgtgttaaacttgaagta ctgaatctcagctataatctaatagggaagattgaaaagttggacaagctgttaaaatta cgtgaactcaacttatcatataacaaaatcagcaaaattgaaggcatagaaaatatgtgt aatctgcaaaagcttaaccttgcaggaaatgaaattgagcatattccagtatggttaggg aagaagttaaaatctttgcgagtcctcaatttgaaaggcaacaagatatcatcgctccaa gatataagcaagttgaaaccgcttcaagatttgatttctctgatcctagttgaaaatcca gttgtgacccttcctcattacctccagtttaccattttccacctccgttcattggaaagt ttggaaggtcagccagtaaccactcaggatagacaggaggcttttgagagattcagttta gtgttggaaattctggccagggcaatcaggcaggagaaagaaataaaggatgttcactta ggaaaagaggaagtcaaattgtccctgtttgcagatgacgtgattgtatatttagaaaac cccattgtctcagcccaaaatctccttaagctgatacgcaacttcagcaaactctcagga tacaaaatcaatgtgcaaaaatcacaagcattcctatacaccaatgatagacagacagag agcagaatcatgagtgaactcccattcacaattgcttcaaagagaataaaatacctagga atccagcttaaaagggatgtgaaggacctcttcaaggagaattacaaaccactgctcaac gaaataaaagaggacacaaacaaatggaggaacattccatgctcgtggataggaagaatc aatatcatgaaaatggccatactgcccaaggtaatttatagattcaatgccatccccatc aagctaccaatgactttcttcacagaattcgaaaaaactactttaaagttcatatggaac caaaaaagagcctgcattgccaagacaatcctaagcaaaaagaacaaagctggaggcatc acactacctgacttcaaactatactacaaggctacagtaaacaaaacagcatgggacatg gttgaagctggaaaccatcattctttgcaaactgtcacaaggacagaaaaccaaacaccg catgttctcactcataggtgggaactgaacaatgagaacacttggacacaggaagaggta gaaagactggaaagagacctagaaaaaaagatgatagaaactgaagagcttaagagcaaa caaacaaggttccttgaggaaattaaaaatcaagataaattgaataaatcattaaaagag gaggccatgttacagaaacagagctgtgaggaactcaagagtgacttaaacacaaaaaat gaattgtatgctgaaattgataaagccccagatgaaagcccttacattggcaaatccaga tacaagagaaatatgtttgccacagagagttatattattgacagtgctcaggcagtacag atcaagaagatggagccagatgaacaacttagaaatgatcacatgaacttgagaggccac acaccactggacacgcaactggaagacaaagaaaaaaaaataagtgcagcacaaactcga ctatcagaactgcatgatgaaatagaaaaggcagaacaacaaattttgagagctactgaa gaatttaaacaactggaagaagctatacaactaaaaaaggaggctgttgttcagtacagg caagagatgatactagcaccaaccaggaaggtgctggtggatgtggagagaaagccagct gattccaggaaacactggacagtagaactgacaggacttaatgatgggttgaaagtagga gatgagttgagtggtagactacaacttgtaaataaattacgccaggaagctctggatcta gaactgcagatggaaaagcaaaagcaggaaattgccggaaagcagaaggagattaaggac ctgcaaatagccatagatagcctggattccaaagacccaaaacattcccatatgaaggct caaaagagcggtaaagaacaacagcttgacattatgaacaagcagtaccaacaacttgaa agtcgtttggatgagatactttctagaattgctaaggaaacggaagagattaaggacctt gaagaacagcttactgaaggccagatagcagcaaatgaagccctgaagaaggatttagaa ggtgttatcagtgggttgcaagaatacctggggaccattaaaggccaggcaactcaggcc cagaatgagtgcaggaagctgcgggatgagaaagagacattgttgcagagattgacagaa gtcgagcaggagagagaccagctggaaatagttgccatggatgcagaaaatatgaggaag gagcttgcagagctagaaagtgccctccaagagcagcatgaggtgaatgcatctttgcag cagacccagggagatctcagtgcctatgaagctgagctagaggctcggctaaacctaagg gatgctgaagccaaccagctcaaggaagagttggaaaaagtaacaagacttacccagtta gaacaatcagcccttcaagcagaacttgagaaggaaaggcaagccctcaagaatgccctt ggaaaagcccagttctcagaagaaaaggagcaagagaacagtgagctccatgcaaaactt aaacacttgcaggatgacaataatctgttaaaacagcaacttaaagatttccagaatcac cttaaccatgtggttgatggtttggttcgtccagaagaagtggcagctcgtgtggatgag ctaagaagaaaactgaaattaggaactggggaaatgaacatccatagtccttcagatgtc ttagggaaaagtcttgctgatttacagaaacaattcagtgaaattcttgcacgctccaag tgggaaagagatgaagcacaagttagagagagaaaactccaagaagaaatggctctgcag caagagaaactggcaactggacaagaagagttcaggcaggcctgtgagagagccctggaa gcaagaatgaattttgataagaggcaacatgaagcaagaatccagcaaatggagaatgaa attcactatttgcaagaaaatctaaaaagtatggaggaaatccaaggccttacagatctc caacttcaggaagctgatgaagagaaggagagaattctggcccaactccgagagttagag aaaaagaagaaacttgaagatgccaaatctcaggagcaagtttttggtttagataaagaa ctgaagaaactaaagaaagccgtggccacctctgataagctagccacagctgagctcacc attgccaaagaccagctgaagtcccttcatggaactgttatgaaaattaaccaggagcga gcagaggagttgcaggaagcagagaggttcagcagaaaggcagcacaagcagccagagat ctcacccgagcagaagctgagatcgaactcctgcagaatctcctcaggcagaagggggag cagtttcgacttgagatggagaaaacaggtgtaggtactggagcaaactcacaggtccta gaaattgagaaactgaatgagacaatggaacgacaaaggacagagattgcaaggctgcag aatgtactagacctcactggaagtgacaacaaaggaggctttgaaaatgttttagaagaa attgctgaacttcgacgtgaagtttcttatcagaatgattacataagcagcatggcagat cctttcaaaagacgaggctattggtactttatgccaccaccaccatcatcaaaagtttcc agccatagttcccaggccaccaaggactctggtgttggccttaagtactcagcctcaact cctgttagaaaaccacgccctgggcagcaggatgggaaggaaggcagtcaacctccccct gcctcaggatactgggtttattctcccatcaggagtgggttacataaactgtttccaagt agagatgcagacagtggaggagatagtcaggaagagagtgagctggatgaccaagaagaa cccccatttgtgcctcctcctggatacatgatgtatactgtgcttcctgatggttctcct gtaccccagggcatggccctgtatgcaccacctcctcccttgccaaacaatagccgacct ctcacccctggcactgttgtttatggcccacctcctgctggggcccccatggtgtatggg cctccaccccccaacttctccatccccttcatccctatgggtgtgctgcattgcaacgtc cctgaacaccataacttagagaatgaagtttctagattagaagacataatgcagcattta aaatcaaagaagcgggaagaaaggtggatgagagcatccaagcggcagtcggagaaagaa atggaagaactgcatcataatattgatgatcttttgcaagagaagaaaagcttagagtgt gaagtagaagaattacatagaactgtccagaaacgtcaacagcaaaaggacttcattgat ggaaatgttgagagtcttatgactgaactagaaatagaaaaatcactcaaacatcatgaa gatattgtagatgaaattgagtgcattgagaagactcttctgaaacgtcgctcagagctc agggaagctgaccgactcctggcagaggctgagagtgaactttcatgcactaaagaaaag gtttgtcttcttgtggtttggggtgtgagctcagtgtggacaaaaaatgctgttgaaaag ttcactgatgccaagagaagtttattgcaaactgagtcagatgctgaggaattagaaagg agagctcaggaaactgctgttaacctcgtcaaagctgatcagcagctaagatcgctccag gctgatgcaaaggatttggagcagcacaaaatcaagcaagaagaaatcttgaaagaaata aacaaaattgtagcagcaaaagactcagacttccaatgtttaagcaagaagaaggaaaaa ctgacagaagagcttcagaaactacagaaagacatagagatggcagaacgcaatgaggat caccacctgcaggtccttaaagaatctgaggtgcttcttcaggccaaaagagccgagctg gaaaagctgaaaagccaggtgacaagtcagcagcaggagatggctgtcttggacaggcag ttagggcataaaaaggaggagctgcatctactccaaggaagcatggtccaggcaaaagct gacctccaggaagctctgagactgggagagactgaagtaactgagaagtgcaatcacatt agggaagtaaaatctcttctggaagaactgagttttcagaaaggagaactaaatgttcag attagtgaaagaaaaactcaacttacacttataaagcaggaaattgaaaaagaggaagaa aatcttcaggttgttttaaggcagatgtctaaacataaaaccgaactaaagaatattctg gacatgttgcaacttgaaaaccatgagctacaaggtttgaagctacaacatgaccaaagg gtatctgaattagagaagactcaggtggcagtgctagaggagaaactggagttagagaat ttgcagcagatatcccagcagcagaaaggggaaatagagtggcagaagcagctccttgag agggataaacgagaaatagaacgaatgactgctgagtcccgagctttacaatcgtgtgtt gagtgtttgagcaaagaaaaggaagatctccaagagaaatgtgacatttgggaaaaaaag ttggcacaaaccaaaagggttttagcagcagcagaagaaaatagcaaaatggagcaatca aacttagaaaagttggaattgaatgtcagaaaactgcagcaggaactagaccaactaaac agagacaagttgtcactgcataacgacatttcagcaatgcaacagcagctccaagactta gtagatactggattggcactgaccacctctagtaaagatggctttattagtagtttccac ttgttctttcacctaaaggacctgcttcacaccaccaagcatcaggatgtgttgctcagt gagcagacccgactccagaaggacatcagtgaatgggcaaataggtttgaagactgtcag aaagaagaggagacaaaacaacaacaacttcaagtgcttcagaatgagattgaagaaaac aagctcaaactagtccaacaagaaatgatgtttcagagactccagaaagagagagaaagt gaagaaagcaaattagaaaccagtaaagtgacactgaaggagcaacagcaccagctggaa aaggaattaacagaccagaaaagcaaactggaccaagtgctctcaaaggtgctggcagct gaagagcgtgttaggactctgcaggaagaggagaggtggtgtgagagcctggagaagaca ctctcccaaactaaacggcagctttcagaaagggagcagcaattggtggagaaatcaggt gagctgttggccctccagaaagaggcagattctatgagggcagacttcagccttctgcgg aaccagttcttgacagaaagaaagaaagctgagaagcaggtggccagcctgaaggaagca cttaagatccagcggagccagctggagaaaaaccttcttgagcaaaaacaggagaacagc tgcatacaaaaggaaatggcaacaattgaactggtagcccaggacaaccatgagcgggcc aggcgcctgatgaaggagctcaaccagatgcagtatgagtacacggagctcaagaaacag atggcaaaccaaaaagatttggagagaagacaaatggaaatcagtgatgcaatgaggaca cttaaatctgaggtgaaggatgaaatcagaaccagcttgaagaatcttaatcagtttctt ccagaactaccagcagatctagaagctattttggaaagaaacgaaaacctagaaggagaa ttggaaagcttgaaagagaaccttccatttaccatgaatgagggaccttttgaagaaaaa ctgaacttttcccaagttcacataatggcccaactccgacactgtatgtccaagcaagca gaagtattaattaaaggaaagcggcagacagagggcactttacacagtttgaggagacaa gtagatgctttaggggaattggtcaccagcacctctgcagattcagcgtcatcacccagt ctgtctcagctggagtcttccctcacagaggactctcaacttggacaaaatcagatgctc tgtaggttcagggccgtagaggctgtccacgggcctcacaggaacgcaccaaaaccagga catcgcaagcacaggcgcacagacccagaccccggccccggcccggcccggctgcagggc cgggctccccacatcgacaaggacaccggagctgccccgagacgccaagagggctgcgaa gagctgcctttgtactcagagccagacgcggcctacgggacgggaccgccacgtctgggg cttgcgggctgcagggcggcgcggcacgctcccagattggagtacggcaaagaagtgtcc atcagagaggagtgtggcataatgacacaagctaaccatctgctggaagatatagcaaat gtgactcaggctgacggagcacgctgcctgtctgtgtctctccgtttctctctctggaac gttgtcagatgtcacggcggagggaaaagagacctgagattggagggaaagctaaggaga aaaggcagcgtgaaggaaggagaatttcttcctgcccatatatttattttgaattttaca ggtttaatgtctgcctttcctcaccctgagctgagtgggaaagcgtgccatgtttctctg ggacatgtttctctccttggcttggcattcaaggcccttcacaatcagcccaatacggag aggataagtcctactcccactctcgtgaacttcattttattcacacgtaaatcagggttc ataatctcttcactgcaaacttcacagcatcactcaatggatttcatgagcacctactac gtgcagggtaatcacattcctaacgctaaaaccaaagggtcacactgtttagaaggagaa agaagagctcgctgtgaaaaacgctccacaatgctgcagagccttgtgaaggtggaagag tactctcatcagcaaacggcattccttccatggaaaatgtcattgggaggaaagcagaga gacacaggaaatggcatcacatatgggatgctgactcacagcaccgatcccttccggagg ggagcaagcagttatctccccatgggcactgtgagcctccacaaggccattctactgtgc tataggagccagctgctcctgggtcatgggaaacctggcaaagtcatgccgttggctgtc actgaaattcagcaactccccgaatccgagtttggctttagcaatctcgcacccatggcc ccagtgaacagtttccatctggccagagaaaagtcctgggttctggctggtgggaaagaa gacagtggagaaagcttgctggttatcttagaacccaggcccggaaatgacacgtga >gi568815589r:121081399_121293412|GENSCAN_predicted_peptide_2|162_aa MANQSSTSNLPRGHDSDQHFSHSWYEQYCRGRKFLSSLLLGYYTKIAAQICHQTGLLNES KDVDYTEENFPIVFAAKDVNMETAWFFKSGFEENGSMDNICLFLNLANDPTIGWIAIPHP VLTTAEFLAYQYEKHVLVILTDMSSSTEALQEVSTAREEIPG >gi568815589r:121081399_121293412|GENSCAN_predicted_CDS_2|489_bp atggccaaccaatcctcaacgtcaaatctacccagaggacatgattcggaccagcatttc agccatagttggtatgaacagtattgccggggcagaaaatttttatcttctctgctgctg ggttactacacaaagattgcagctcaaatctgccaccagactggtttgctaaatgaatcc aaagacgtagactacactgaggaaaattttccaattgtatttgctgctaaggatgtaaac atggaaactgcctggttcttcaaatctggttttgaagaaaatggctcaatggacaacatc tgcctgtttttgaacttggctaatgacccaactattgggtggattgccatccctcacccg gttctaaccacagccgaatttctggcataccaatatgagaaacatgtattggttatccta acagatatgagttcatctactgaagcacttcaagaggtttctacagccagagaagagatt cctggttga >gi568815589r:121081399_121293412|GENSCAN_predicted_peptide_3|378_aa MLALLDSRDSGNGSLIKPSRRLDDLFNLESGSSAIKTSQKRKKIISFSLSGQERSAFKLH NTVGAKIVAGTNYKAFDAQQILVLITSLSEASSRRASLWEGGGLLAKEDIKVLPSEEILI SKTFTLRAAPARALPTPAARTTTPPPRRPEPAERSWTQQPLSPVPQQQDPQCRSISPPFQ GIQAPKGHRTCPARSCGESPGKEAGRDRSFPFHGLREETAMFLGVLSFTSGTGSPKELYR SERRDRFHLEQIREQGERTGNPGLRKSWRKGGAQFVEDLRGPGSLSSNLQRAIRKEGDRP VLADPKGGRANTSSWLPDGDMSHPQPELFLFPKAQVKGLFGGPQDVVPQKPGIPKRSAGP RKLTHPISGYPKVLLTKR >gi568815589r:121081399_121293412|GENSCAN_predicted_CDS_3|1137_bp atgttagccctacttgactcacgagattctggtaatgggtcactgataaagcccagcaga agacttgatgacctatttaatctagagtctggatcatcagcaattaaaacaagccaaaaa agaaaaaagatcatttccttttccttaagcggtcaggagcgctcagccttcaaactgcat aatacagttggggcaaaaattgtggcagggacaaactacaaggcattcgatgctcaacaa atacttgtgctgataacttctctttctgaagccagctccaggagagcctcactctgggaa ggaggtggtcttctggcaaaagaagatatcaaagttcttccatcagaggagatccttatc agcaagacattcactctgagggcggctcccgcccgcgccctgcccaccccggccgcgcgc accacaacgcccccgccccgccgcccggaaccagctgagcgcagctggacccagcagccg ctgtctccagtgccgcagcagcaggaccctcagtgcaggtcaatctcccctccatttcag ggaatccaggctccaaaaggacacaggacttgcccagcaaggtcatgtggtgagagccct ggaaaggaagcaggtagggacagatccttcccatttcatggactcagagaagaaacggcc atgtttcttggtgtcctgagcttcacttcaggaactggtagtccaaaggaactgtatcgt tcagaacggagggacaggtttcatctggagcagatcagggaacagggtgagcgaaccgga aaccctggtctcaggaagagctggaggaaagggggtgcacaatttgtagaagacttgagg ggcccaggatcactgtcttcaaatctccaaagagccatcaggaaagagggggacagacct gttctggctgacccaaaaggaggcagagctaataccagcagctggcttccagatggtgac atgagccacccacagccggagctgttcctctttcccaaagctcaggtgaaagggcttttt ggtggtccccaggatgttgtgccccaaaagccagggattcccaaaaggtctgccgggccc agaaagctgactcaccccatcagcggctatccaaaggttctgctgacaaagaggtag >gi568815589r:121081399_121293412|GENSCAN_predicted_peptide_4|170_aa MPRKGTLQGELPEKDKRGQVRGRGKRQWDPGVPAESLWAGDTKNDQQGIEWPYYLTDSPE LDTSTNQLEKKSNGGQLWNADVLTASTSRQGGERREDSLEENYPAFTPANTDVETEAEKS KGLVQGHRASQGYGDVSGPDLFASGAQGLTHPSAAVKGLWTAQAGRPIRG >gi568815589r:121081399_121293412|GENSCAN_predicted_CDS_4|513_bp atgccccgcaaaggcactctgcagggagaactccctgagaaagacaaaagggggcaggtg cggggaagagggaaaagacaatgggatccaggagtgcctgcggagtctctgtgggctgga gataccaaaaatgaccaacaggggatagaatggccatattatctcacggactcaccagaa cttgatacaagtacaaatcagttagagaaaaagtccaatgggggccagctctggaatgca gacgtgctcacagccagcaccagcaggcagggaggggagcggagggaggacagcttagag gaaaattacccggctttcaccccagccaacactgatgtggaaactgaggctgagaagagt aagggacttgtccaagggcacagagcaagtcagggctacggtgatgtttcaggcccagac ctgtttgcctctggagcccagggtttaacacaccccagtgctgctgtgaaagggctctgg acagctcaggctggccggccaattcggggataa