GENSCAN 1.0 Date run: 3-Nov-116 Time: 19:45:45 Sequence gi568815595f:46879862_47109317 : 229456 bp : 48.30% 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 Init + 3699 3773 75 2 0 89 105 194 0.985 20.29 1.02 Intr + 14046 14148 103 2 1 77 75 202 0.944 17.55 1.03 Intr + 15835 16008 174 2 0 44 94 183 0.790 14.41 1.04 Intr + 17994 18104 111 1 0 72 100 55 0.968 5.45 1.05 Intr + 18213 18331 119 1 2 63 53 184 0.991 12.58 1.06 Intr + 18517 18611 95 0 2 103 52 174 0.610 14.06 1.07 Intr + 18801 18996 196 0 1 101 83 400 0.999 40.22 1.08 Intr + 19442 19595 154 1 1 58 59 251 0.943 18.85 1.09 Intr + 21164 21224 61 0 1 123 77 58 0.946 5.99 1.10 Intr + 21553 21619 67 1 1 61 77 59 0.429 1.01 1.11 Intr + 21905 21999 95 1 2 82 105 189 0.860 18.76 1.12 Intr + 22665 22806 142 0 1 78 85 239 0.997 22.96 1.13 Term + 23409 23795 387 2 0 74 47 463 0.998 35.74 1.14 PlyA + 23905 23910 6 -0.45 2.03 PlyA - 29098 29093 6 1.05 2.02 Term - 30164 29970 195 2 0 64 36 149 0.346 4.71 2.01 Init - 31832 31755 78 2 0 72 101 36 0.417 4.36 2.00 Prom - 38357 38318 40 -5.76 3.11 PlyA - 38607 38602 6 1.05 3.10 Term - 42278 42196 83 0 2 112 54 69 0.987 3.76 3.09 Intr - 42451 42375 77 0 2 93 94 133 0.809 13.56 3.08 Intr - 43502 43468 35 2 2 140 105 28 0.998 6.72 3.07 Intr - 43807 43746 62 2 2 62 89 206 0.994 16.55 3.06 Intr - 45674 45595 80 1 2 125 115 92 0.999 14.79 3.05 Intr - 47065 46921 145 2 1 79 69 51 0.406 1.64 3.04 Intr - 47298 47210 89 2 2 49 115 2 0.005 -1.39 3.03 Intr - 61204 61137 68 1 2 120 95 100 0.131 11.60 3.02 Intr - 74434 74282 153 1 0 52 80 52 0.002 1.07 3.01 Init - 87276 87262 15 0 0 77 115 -1 0.050 1.76 3.00 Prom - 88708 88669 40 -1.96 4.00 Prom + 93111 93150 40 -0.76 4.01 Init + 100001 100051 51 1 0 98 99 156 0.999 18.86 4.02 Intr + 108808 108896 89 0 2 123 100 90 0.999 12.47 4.03 Intr + 108981 109109 129 0 0 134 39 154 0.966 14.91 4.04 Intr + 109224 109305 82 0 1 88 57 45 0.959 1.04 4.05 Intr + 109399 109520 122 0 2 89 72 125 0.976 10.29 4.06 Intr + 109650 109732 83 0 2 101 77 93 0.958 8.78 4.07 Intr + 109816 109927 112 2 1 83 49 6 0.889 -4.36 4.08 Intr + 110059 110167 109 1 1 82 35 103 0.894 4.69 4.09 Intr + 111312 111443 132 2 0 54 102 83 0.947 7.14 4.10 Intr + 111545 111827 283 1 1 96 72 195 0.973 15.69 4.11 Intr + 111979 112085 107 2 2 82 98 79 0.999 8.23 4.12 Intr + 112614 112694 81 2 0 116 76 99 0.998 11.33 4.13 Intr + 114076 114159 84 0 0 100 100 58 0.986 8.22 4.14 Intr + 114594 114692 99 2 0 57 77 153 0.999 11.41 4.15 Intr + 115171 115772 602 0 2 116 94 426 0.986 37.31 4.16 Intr + 115853 115985 133 2 1 38 72 174 0.699 11.45 4.17 Intr + 116071 116190 120 0 0 15 53 102 0.469 0.09 4.18 Intr + 116410 116731 322 0 1 87 59 228 0.810 15.23 4.19 Intr + 116890 116972 83 2 2 42 68 56 0.986 -1.64 4.20 Intr + 117093 117206 114 2 0 109 54 137 0.796 13.04 4.21 Intr + 117398 117572 175 1 1 115 111 86 0.991 13.11 4.22 Intr + 117700 117833 134 2 2 42 81 160 0.994 11.06 4.23 Intr + 118206 118365 160 2 1 100 86 201 0.979 20.66 4.24 Intr + 118602 118704 103 1 1 92 94 194 0.999 19.63 4.25 Intr + 118856 119018 163 2 1 15 96 224 0.999 15.88 4.26 Intr + 119098 119256 159 0 0 51 81 162 0.994 11.98 4.27 Intr + 119454 119613 160 2 1 58 87 171 0.997 13.56 4.28 Intr + 119769 119854 86 1 2 82 99 67 0.987 6.74 4.29 Intr + 120028 120543 516 0 0 100 94 369 0.999 31.86 4.30 Intr + 120692 120733 42 1 0 72 96 25 0.523 0.14 4.31 Intr + 121140 121318 179 2 2 75 94 114 0.975 9.42 4.32 Intr + 121418 121577 160 2 1 34 86 180 0.999 12.39 4.33 Intr + 121828 121965 138 0 0 62 99 155 0.999 14.66 4.34 Intr + 122059 122427 369 0 0 97 51 330 0.996 25.50 4.35 Intr + 122510 122659 150 1 0 85 69 148 0.993 12.96 4.36 Intr + 122784 122941 158 2 2 74 64 190 0.987 14.01 4.37 Intr + 123096 123220 125 0 2 42 68 148 0.976 8.43 4.38 Intr + 123313 123448 136 2 1 120 86 175 0.999 20.13 4.39 Intr + 123955 124115 161 1 2 50 69 344 0.999 28.33 4.40 Intr + 124216 124349 134 2 2 126 86 163 0.992 20.26 4.41 Intr + 124425 124532 108 2 0 74 94 103 0.975 9.98 4.42 Intr + 124634 124729 96 1 0 95 65 110 0.980 9.61 4.43 Intr + 125129 125235 107 1 2 58 55 147 0.736 7.41 4.44 Intr + 125320 125460 141 1 0 74 66 233 0.998 19.17 4.45 Intr + 125628 125758 131 0 2 89 90 205 0.941 21.14 4.46 Intr + 125877 125986 110 1 2 36 81 147 0.989 8.80 4.47 Intr + 126085 126202 118 0 1 98 47 242 0.999 21.14 4.48 Intr + 126304 126401 98 2 2 101 116 165 0.999 20.33 4.49 Intr + 126472 126588 117 0 0 38 52 100 0.805 2.06 4.50 Intr + 127205 127294 90 1 0 86 111 92 0.998 11.49 4.51 Intr + 127380 127489 110 2 2 130 21 154 0.972 11.98 4.52 Intr + 127664 127836 173 2 2 69 56 108 0.998 5.29 4.53 Intr + 127955 128049 95 0 2 110 69 82 0.902 8.18 4.54 Intr + 128209 128325 117 0 0 93 85 50 0.978 5.86 4.55 Intr + 128422 128580 159 0 0 75 80 75 0.960 5.58 4.56 Intr + 128659 128807 149 0 2 110 87 156 0.999 16.73 4.57 Intr + 129128 129263 136 2 1 70 78 284 0.997 26.17 4.58 Intr + 129358 129414 57 0 0 67 37 82 0.252 0.08 4.59 Intr + 130639 130676 38 0 2 94 101 3 0.521 -0.74 4.60 Intr + 130870 130956 87 1 0 93 91 16 0.390 1.49 4.61 Intr + 132762 132904 143 0 2 82 84 82 0.990 7.20 4.62 Term + 132972 133147 176 1 2 103 52 130 0.714 8.82 4.63 PlyA + 136259 136264 6 1.05 5.16 PlyA - 136593 136588 6 1.05 5.15 Term - 137393 137232 162 2 0 65 42 196 0.991 10.64 5.14 Intr - 137878 137777 102 1 0 117 73 146 0.996 16.37 5.13 Intr - 139979 139899 81 2 0 113 94 80 0.994 10.93 5.12 Intr - 157916 157805 112 1 1 115 113 65 0.980 12.08 5.11 Intr - 162839 162700 140 2 2 75 116 56 0.960 6.36 5.10 Intr - 166760 166626 135 2 0 87 63 49 0.845 3.06 5.09 Intr - 177629 176960 670 1 1 100 93 414 0.993 34.81 5.08 Intr - 182485 182302 184 2 1 48 111 52 0.855 2.35 5.07 Intr - 187257 187209 49 0 1 119 58 49 0.645 3.25 5.06 Intr - 204521 203859 663 2 0 45 116 458 0.111 36.26 5.05 Intr - 206453 206334 120 2 0 52 78 41 0.083 0.19 5.04 Intr - 218220 218094 127 2 1 72 89 68 0.590 5.98 5.03 Intr - 221694 221597 98 0 2 36 106 28 0.692 -1.79 5.02 Intr - 223562 223485 78 2 0 68 106 20 0.637 1.55 5.01 Intr - 226259 226136 124 1 1 79 99 156 0.931 16.39 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 49756 49684 73 1 1 64 105 44 0.851 4.93 S.002 Term - 59251 59139 113 2 2 107 43 70 0.838 3.12 S.003 Init + 66761 66840 80 1 2 88 94 77 0.990 8.83 S.004 Init - 204479 203859 621 2 0 30 116 485 0.818 40.85 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595f:46879862_47109317|GENSCAN_predicted_peptide_1|592_aa MGTARIAPGLALLLCCPVLSSAYALVDADDVMTKEEQIFLLHRAQAQCEKRLKEVLQRPA QLTAIITTLVSPASIMESDKGWTSASTSGKPRKDKASGKLYPESEEDKEAPTGSRYRGRP CLPEWDHILCWPLGAPGEVVAVPCPDYIYDFNHKGHAYRRCDRNGSWELVPGHNRTWANY SECVKFLTNETREREVFDRLGMIYTVGYSVSLASLTVAVLILAYFRRLHCTRNYIHMHLF LSFMLRAVSIFVKDAVLYSGATLDEAERLTEEELRAIAQAPPPPATAAAGYAGCRVAVTF FLYFLATNYYWILVEGLYLHSLIFMAFFSEKKYLWGFTVFGWGLPAVFVAVWVSVRATLA NTGCWDLSSGNKKWIIQVPILASIVLNFILFINIVRVLATKLRETNAGRCDTRQQYRKLL KSTLVLMPLFGVHYIVFMATPYTEVSGTLWQVQMHYEMLFNSFQVQAEIKKSWSRWTLAL DFKRKARSGSSSYSYGPMVSHTSVTNVGPRVGLGLPLSPRLLPTATTNGHPQLPGHAKPG TPALETLETTPPAMAAPKDDGFLNGSCSGLDEEASGPERPPALLQEEWETVM >gi568815595f:46879862_47109317|GENSCAN_predicted_CDS_1|1779_bp atggggaccgcccggatcgcacccggcctggcgctcctgctctgctgccccgtgctcagc tccgcgtacgcgctggtggatgcagatgacgtcatgactaaagaggaacagatcttcctg ctgcaccgtgctcaggcccagtgcgaaaaacggctcaaggaggtcctgcagaggccagca cagctgacagccatcattaccaccctggtttctccagccagcataatggaatcagacaag ggatggacatctgcgtccacatcagggaagcccaggaaagataaggcatctgggaagctc taccctgagtctgaggaggacaaggaggcacccactggcagcaggtaccgagggcgcccc tgtctgccggaatgggaccacatcctgtgctggccgctgggggcaccaggtgaggtggtg gctgtgccctgtccggactacatttatgacttcaatcacaaaggccatgcctaccgacgc tgtgaccgcaatggcagctgggagctggtgcctgggcacaacaggacgtgggccaactac agcgagtgtgtcaaatttctcaccaatgagactcgtgaacgggaggtgtttgaccgcctg ggcatgatttacaccgtgggctactccgtgtccctggcgtccctcaccgtagctgtgctc atcctggcctactttaggcggctgcactgcacgcgcaactacatccacatgcacctgttc ctgtccttcatgctgcgcgccgtgagcatcttcgtcaaggacgctgtgctctactctggc gccacgcttgatgaggctgagcgcctcaccgaggaggagctgcgcgccatcgcccaggcg cccccgccgcctgccaccgccgctgccggctacgcgggctgcagggtggctgtgaccttc ttcctttacttcctggccaccaactactactggattctggtggaggggctgtacctgcac agcctcatcttcatggccttcttctcagagaagaagtacctgtggggcttcacagtcttc ggctggggtctgcccgctgtcttcgtggctgtgtgggtcagtgtcagagctaccctggcc aacaccgggtgctgggacttgagctccgggaacaaaaagtggatcatccaggtgcccatc ctggcctccattgtgctcaacttcatcctcttcatcaatatcgtccgggtgctcgccacc aagctgcgggagaccaacgccggccggtgtgacacacggcagcagtaccggaagctgctc aaatccacgctggtgctcatgcccctctttggcgtccactacattgtcttcatggccaca ccatacaccgaggtctcagggacgctctggcaagtccagatgcactatgagatgctcttc aactccttccaggtacaagctgagatcaagaaatcttggagccgctggacactggcactg gacttcaagcgaaaggcacgcagcgggagcagcagctatagctacggccccatggtgtcc cacacaagtgtgaccaatgtcggcccccgtgtgggactcggcctgcccctcagcccccgc ctactgcccactgccaccaccaacggccaccctcagctgcctggccatgccaagccaggg accccagccctggagaccctcgagaccacaccacctgccatggctgctcccaaggacgat gggttcctcaacggctcctgctcaggcctggacgaggaggcctctgggcctgagcggcca cctgccctgctacaggaagagtgggagacagtcatgtga >gi568815595f:46879862_47109317|GENSCAN_predicted_peptide_2|90_aa MECNSAIKQDQGLTPATAWMDLKGIMEPGEWAISVACFPRTHVMLGTVSGDAAVTDDGSA FEELTFQVVSRSVLGSKPLPSDQLKGLASP >gi568815595f:46879862_47109317|GENSCAN_predicted_CDS_2|273_bp atggaatgcaactcagcaataaaacaggaccaaggactgacacctgccacagcttggatg gatctcaagggcattatggagcctggggagtgggccattagtgtagcatgcttcccgagg acccatgtcatgctgggcactgtatccggggatgcagctgtgactgacgatggttctgcc ttcgaggagctgaccttccaggtggtctccagatctgtgctgggatccaagccccttccc tcagaccagttgaaaggccttgcttccccataa >gi568815595f:46879862_47109317|GENSCAN_predicted_peptide_3|268_aa MTVRQPKDPIYQPEFVEKGHLLLFYRPYRSGDGQVAATCPQDQRVWVVVPVPGTDQDKED GEPKTKHLREEEEEGEKHRLCWYCPIARSGSAQPQGSRLRGPGRKEGDGPEEVSSTFTWS RQRAWEMADCGRPVGKLFPALEAQDFSEGPLVKNRKRELRLRNYVPEDEDLKKRRVPQAK PVAVEEKVKEQLEAAKPEPVIEEVDLANLAPRKPDWDLKRDVAKKLEKLKKRTQRAIAEL IRERLKGQEDSLASAVDAATEQKTCDSD >gi568815595f:46879862_47109317|GENSCAN_predicted_CDS_3|807_bp atgactgttagacagcctaaggatcctatctaccagccagagtttgtggagaaaggtcac cttcttttgttctacaggccttacagatctggggatggtcaggtagcagccacatgtcct caggaccagagagtctgggtggttgttccagtccctggaactgaccaggacaaggaagat ggggagccaaagaccaagcatctcagagaagaggaggaagaaggcgagaagcacaggcta tgctggtactgccccatcgcccgcagtggttcagcccagccccaaggctccaggctcagg ggccctggcaggaaggaaggagatgggcctgaggaagtcagcagcacttttacctggtcc agacagagggcttgggagatggcagactgtgggaggcctgttgggaaattgtttcctgcc ttagaggcccaggacttttctgagggaccactggtcaagaaccgaaagagggaacttagg ctgcggaactatgtcccggaggatgaggacctgaagaagaggagggtgccccaggccaaa ccggttgcagtggaggagaaggtgaaggagcagctggaggccgccaagcccgagcccgtc atcgaggaggtggacctggccaacctcgctcctcggaagcctgactgggacctcaagaga gatgtggccaagaagctggagaaactaaaaaagcggactcagagggccattgccgagctg atccgtgaaaggctgaaaggccaggaagacagcctagcctctgcagtggatgctgccacc gaacaaaagacctgtgactccgactga >gi568815595f:46879862_47109317|GENSCAN_predicted_peptide_4|2966_aa MAASERLYELWLLYYAQKDLGYLQQWLKAFVGAFKKSISLSSLEPRRPEEAGAEVPLLPL DELHVLAEQLHQADLEQALLLLKLFIILCRNLENIEAGRGQVLVPRVLALLTKLVAELKG CPPPQGRGTQLENVALHALLLCEGLFDPYQTWRRQRSGEVISSKEKSKYKFPPAALPQEF SAFFQGTTWWWLHAGLGEPKTKQEFRDRDKRRHLGLERGPPISLHASPPIPETQEVSPPP VPWLLEDLVPRTAVAACSQPCNLGDITLPTPPYPESLQNADHLPPILLLRLIHLFCAVLA GGKENGQMAVSDGSVKGLLSVVRGWSRGPAPDPCLVPLALEALVGAVHVLHASRAPPRGP ELRALLESYFHVLNADWPAGLSSGPEEALVTLRVSMLDAIPMMLACEDRPVLQATFLSNN CFEHLTRLIQNSKLYLQSRAPPEGDSDLATRLLTEPDVQKVLDQDTDAIAVHVVRVLTCI MSDSPSAKEVFKERIGYPHLQEVLQSHGPPTHRLLQELLNMAVEGDHSMCPPPPIRNEQP VLVLAQWLPSLPTAELRLFLAQRLRWLCDSCPASRATCVQAGLVGCLLETLSTGLALEAR CQEQLLALLQALGRVSIRPMELRHLLRPRPGLDSEPGGAEAGKARHAGAVIRTLSGMARH QGPARALRYFDLTPSMAGIMVPPVQRWPGPGFTFHAWLCLHPMDTAPTPAPTRPLQRKQL YSFFTSSGSGFEAFFTAAGTLVVAVCTRKEYLTMSLPEVSFADSAWHCVAIVHVPGRRPF SQNLVHVYKDGHLVKTAPLRCPSLSEPFSSCCIGSAGYRTTTTTTGLPTPPVPATLAYTH PALTRSQSVPASTGLGWGSGLVAPLQEGSIDSTLAGTQDTRWGSPTSLEGELGAVAIFHE ALQATALRTLCTLGPNETAPFKPEGELHELSTRLLLHYSPQACKNNICLDLSPSHGLDGR LTGHRVETWDVKVCEHVWVDVVNCVGGMGALLPLLERVAAQPKEAEAGPAETHDLVGPEL TSGHNTQGLVLPLGKSSEERMERNAVAAFLLMLRNFLQGHMVNQESLVQCQGPAIIGALL RKVPSWAMDMNVLMSAQLLMEQVAAEGSGPLLYLLYQHLLFNFHLWTLSDFAVRLGHIQY MSSIVREHRQKLRKKYGVQFILDALRTHYSPQRERPLAADDLRTVQTSLLGLAREFLVRS LSADDVQVTQTMLSFLAATGDDGQAVGALDLLLALLHGSLVQESLAVFLLEPGNLEVLLA LLVRPGSLPLLPDRVCKILRRLQQNERLPERSRQRLRLRECGLQGLVACLPEGTVSPQLC QGLYKLFLGADCLNLSDLLAVVQLSLQADLSVRLDICRQLFHLIYGQPDVVRLLARQAGW QDVLTRLYVLEAATAGSPPPSSPESPTSPKPAPPKPPTESPAEPSDVFLPSEAPCPDPDG FYHALSPFCTPFDLGLERSSVGSGNTAGGGGSSGTLTPASQPGTPSPLDGPRPFPAAPGR HSSSLSNVLEDGSLPEPTISGDDTSNTSNPQLSSAVVFPEGSWNRQTSEEELCNLLTNVL FSVTWRGVEGSDEAAWRERGQVFSVLTQLGASATLVRPPDCIKRSLLEMMLESALTDIKE APVGVLASLTQQALWLLRLLQDFLCAEGHGNQELWSEKLFEGVCSLLDRLGAWPHLANGT ADLREMAQIGLRLVLGYILLEDPQLHAQAYVRLHMLLQTAVPARREEACYVLSKLEAALG RVLNTSSLESATDEAGSPLAAAAAAAAAERCSWLVPLVRTLLDRAYEPLGLQWGLPSLPP TNGSPTFFEDFQAFCATPEWRHFIDKQVQPTMSQFEMDTYAKSHDLMSGFWNACYDMLMS SGQRRQWERAQSRRAFQELVLEPAQRRARLEGLRYTAVLKQQATQHSMALLHWGALWRQL ASPCGAWALRDTPIPRWKLSSAETYSRMRLKLVPNHHFDPHLEASALRDNLGEVPLTPTE EASLPLAVTKEAKVSTPPELLQEDQLGEDELAELETPMEAAELDEQREKLVLSAECQLVT VVAVVPGLLEVTTQNVYFYDGSTERVETEEGIGYDFRRPLAQLREVHLRRFNLRRSALEL FFIDQANYFLNFPCKVRNQVYSWLLRLRPPSQGYLSSRSPQEMLRASGLTQKWVQREISN FEYLMQLNTIAGRTYNDLSQYPVDYVSPTLDLSNPAVFRDLSKPIGVVNPKHAQLVREKY ESFEDPAGTIDKFHYGTHYSNAAGVMHYLIRVEPFTSLHVQLQSGRFDCSDRQFHSVAAA WQARLESPADVKELIPEFFYFPDFLENQNGFDLGCLQLTNEKVGDVVLPPWASSPEDFIQ QHRQALESEYVSAHLHEWIDLIFGYKQRGPAAEEALNVFYYCTYEGAVDLDHVTDERERK ALEGIISNFGQTPCQLLKEPHPTRLSAEEAAHRLARLDTNSPSIFQHLDELKAFFAEVVS DGVPLVLALVPHRQPHSFITQGSPDLLVTVSASGLLGTHSWLPYDRNISNYFSFSKDPTM GSHKTQRLLSGPWVPGSGVSGQALAVAPDGKLLFSGGHWDGSLRVTALPRGKLLSQLSCH LDVVTCLALDTCGIYLISGSRDTTCMVWRLLHQGGLSVGLAPKPVQVLYGHGAAVSCVAI STELDMAVSGSEDGTVIIHTVRRGQFVAALRPLGATFPGPIFHLALGSEGQIVVQSSAWE RPGAQVTYSLHLYSVNGKLRASLPLAEQPTALTVTEDFVLLGTAQCALHILQLNTLLPAA PPLPMKVAIRSVAVTKERSHVLVGLEDGKLIVVVAGQPSEVRSSQFARKLWRSSRRISQA HPLSRILQGPLMQALLSLDEELLFPKPQEVGPSRFSPIGSSWRSHKQRQQLAKARTAELG GLNKDQMHGDSSVFLDSPSSLEPCAPSQGPHPELGCRLHLDLPRQHQEKVERLLEVSREP DKGWRGLADHLGYQAEAVEIMAQGQV >gi568815595f:46879862_47109317|GENSCAN_predicted_CDS_4|8901_bp atggccgcctcggagcggctgtacgagttgtggctgctctactacgcgcagaaggacctg ggttacctgcagcagtggctgaaggcctttgtaggtgccttcaagaagagcatctcactg tcctctctggagccacgaaggccagaggaggcaggtgcagaggtcccgctgctaccactg gatgagctgcatgtgctggccgaacagctgcaccaggctgacctggagcaagccctcctg ctgctcaagctcttcatcattctctgcaggaacctggagaacatagaggcaggccggggc caagtgctagtgccccgagtgctggcactgttgaccaagttggtggcggagctgaaagga tgcccaccaccccagggccgaggcacgcagttggagaatgtggccctacatgctctgctt ctctgcgagggcctctttgacccttaccaaacctggcggcgccagcgcagtggggaagtc atcagctccaaggagaagagcaaatacaagttccctcctgctgctttgccccaggaattc agcgccttcttccaaggaaccacttggtggtggctgcatgcaggactgggagaaccaaag accaagcaagagtttagggacagagacaagagaagacatcttgggctggagcgagggcct cccatcagcctccacgcatctccacccatcccggagacacaggaggtatctccacctcct gttccctggctgctggaggatctggtgcccaggacagctgtggctgcctgttcacagccc tgcaaccttggtgacattaccctgcccacacccccctacccagagagcctacagaatgca gaccacttgcctcccatactgctgttacgtctcatccacctcttctgcgccgtcctcgct ggaggaaaggagaacgggcagatggctgtaagtgatggctctgtgaagggcctgctgagt gtggtgcggggctggagccgtgggccagccccggacccgtgcctagtgccactggctcta gaggcactggtaggtgcagtccatgtcttgcatgccagccgcgcacctcctcgtggccca gagcttcgtgccctgcttgagagctacttccatgtccttaatgctgactggccagctggt ctgagctcaggccccgaagaggcccttgtcaccctccgggtcagcatgctcgacgccatc cccatgatgctggcatgtgaagaccggccagtgctgcaagccaccttcctcagcaacaat tgctttgaacacctcactcggctcattcagaacagcaagctgtacctgcagtcccgggcg ccccccgagggggacagtgacctggctacccggttactgactgagcccgatgtccaaaag gtcctggaccaagacacagacgccattgcagtccatgtagtcagagtgctgacctgcatc atgagtgactccccctcggccaaggaggtgtttaaggagcgcatcggctaccctcacctg caggaggttctgcagagccatggtccccccacccatcggctgttgcaagagctgctcaac atggctgtggagggtgaccacagcatgtgcccacctccaccaatccgcaacgagcagccg gtactggtgctggcgcagtggctgccgtcattgcccaccgctgagctgcggctcttccta gcgcaacgcctcaggtggctctgtgacagctgccctgccagccgtgccacctgtgtgcag gcaggcctggtgggctgcctgttggagacactcagcacagggctagccctggaggcccgc tgccaagagcagctgctggcactgctacaagcactgggccgtgtatcaataaggcccatg gagctgcgtcacctgctgcgcccccggccaggattggactcggaaccaggcggagctgag gctggaaaggcccgacacgcaggtgctgtcatccgcacattatcaggcatggccaggcac cagggtcctgcacgtgctctgcgctactttgacctcacgcccagcatggcgggcatcatg gtaccccctgtacagcgatggccagggcctggcttcacctttcatgcctggctctgtctg caccctatggatacagcacctacccctgcccccacccgaccactccagcgaaagcagctg tacagcttctttaccagcagcggctcagggtttgaggccttcttcacggcggccgggacc ctggtggtggctgtgtgcacacggaaggagtatttgaccatgagtttgcccgaagtgtcc tttgccgactctgcctggcactgcgtggctatcgtccatgtgcctgggcgccggcccttc agccagaacctggtccatgtctacaaagacggccatctggtcaagacagcaccccttcgc tgcccctccctcagtgagcctttctcctcctgctgtatcggctccgctggataccgcaca acgaccaccaccacagggctgcccacaccaccagtccccgccaccctggcctacactcac cccgccctcacccgctcccagtcagtcccagcctccacagggcttggctgggggtccggg ctggtggcccccctgcaggagggcagcatcgactctaccctcgcaggcacccaggacact cggtggggcagccccacatccctggagggtgagctgggggctgtggccatctttcacgaa gccctgcaggcgacggctctgaggaccctgtgcaccctggggcccaatgagacggcaccc ttcaagcctgagggggagctgcatgagctcagcaccaggctgctcctccattactcacct caggcttgtaagaacaacatctgcctggacctgtcccccagtcatgggcttgatgggcgc ctgacgggccacagagtggagacctgggatgtgaaggtctgtgagcacgtgtgggtggat gtggtgaactgcgttgggggtatgggtgccctgctgcccctgctggagcgagtagctgca cagcccaaagaggctgaagcaggtccagctgaaacgcatgacctcgtgggtcctgaactg acctctggtcacaacacccagggcctggttctcccattgggtaaatcttcagaggaacgg atggagaggaacgcagtggctgcttttctgctgatgctgcggaacttccttcagggtcac atggtgaaccaagagagcctggtgcagtgccaggggcctgccatcatcggggccctcctg cgaaaggtcccaagctgggccatggacatgaacgtgctcatgtccgcccagctgctgatg gagcaggtggcagctgagggcagcgggcccctcctgtacctactctaccagcatttgctc ttcaactttcacctctggaccctcagtgacttcgccgtgcgcctcggtcacatccagtac atgtccagcatagttcgggagcacagacagaagctgcggaagaagtacggcgtccagttt atcttggatgctctgcgcacccactacagcccgcagcgggagcgccccctggctgctgac gacctacgcaccgtgcagacctccctcctgggcctggcgagggagttcctggtgcggagt ctctcagcagatgacgtgcaggtcacgcagaccatgctgagctttttggcggccacaggc gatgacggtcaggcggtgggtgcgctggacctgctgctggccctgctgcacggttccctg gtgcaggagtccttggctgtctttctgttggagccagggaacctcgaagtgctactggcc ctgctagtgcggccagggtcactgcccctgctgcccgatcgagtctgcaagatcctgcgc agactgcagcagaatgagcggctacctgagcggagccgccagcgcctccggctgcgggag tgtggtctccagggtctggttgcctgcttgcctgaggggactgtttccccccagctctgc cagggcctctacaagctgttcctgggggcagattgcctgaacctctcagatctgctggct gtggtacagctgtccctccaggctgacctcagcgttcgcctagacatctgtcgccagctt ttccacctcatctacggacagccagatgtagtgcggcttctggcccgacaggctggctgg caagatgtgctgacccggctatatgtcctggaggctgccacagccggcagcccccctccg tcttccccagagtcacctacctcccccaagccagccccacccaagccacccactgagtca cctgctgagccttcagatgtcttcctgccctcagaggccccctgccctgaccctgatggc ttttaccatgctctctccccattctgcacgccctttgacctgggcctggaacggtctagt gtaggatcaggcaacactgctggtggtggcggcagcagtgggactcttactccagccagc cagcccggcactccttcgccactggatgggccgcggccctttcctgctgctcctggccgc cacagctccagtctctccaatgtgctggaggacggcagcctcccggagcccaccattagc ggggatgatacctcgaacaccagcaacccacagctctcatctgcagttgtgttcccagag ggctcctggaacaggcaaacctctgaggaagagttgtgcaatctgctcaccaacgtgctg ttctcggtgacgtggcgtggcgtggaaggcagcgatgaggctgcctggcgggagcgtggc caggttttctcagtgctcacccagctgggggcctcagccacacttgtgcgcccaccagac tgcatcaagcgcagcctcctggagatgatgctggagtcagccctgaccgacatcaaagag gcccccgtgggggtcctggccagcctcacccagcaagcgctttggctgctgcgtctgctg caggacttcctgtgtgctgaaggccatggtaaccaggaactgtggagtgagaagctcttt gaaggtgtatgcagcctacttgatcgcctgggagcctggccccacctggccaacggcaca gctgatctccgtgagatggcgcagattggcctacggcttgtacttggctacatcctgctg gaagacccacagctgcatgcccaggcctacgtgagattgcacatgctgctacagactgca gtgccagcccgccgcgaggaggcctgctatgtgctctccaagctggaggctgcactgggg cgggtgctgaacacctcttccttggagtcagccactgatgaggcagggtccccacttgca gctgcagcagctgcagcagctgcagagcgctgctcctggctggtgccactggtgcgcacg ctgctagaccgtgcctatgagccgctggggctgcagtggggactgccctccctgccaccc accaatggcagccccaccttctttgaagacttccaggctttttgtgccacacccgaatgg cgccacttcatcgacaaacaggtacagccaaccatgtcccagttcgaaatggacacgtat gctaagagccacgaccttatgtcaggtttctggaatgcctgctatgacatgcttatgagc agtgggcagcggcgccagtgggagcgcgcccagagtcgtcgggccttccaggagctggtg ctggaacctgcgcagaggcgggcgcgcctggaggggctacgctacacggcagtgctgaag cagcaggcaacgcagcactccatggccctgctgcactggggggcgctgtggcgccagctc gccagcccatgtggggcctgggcgctgagggacactcccatcccccgctggaaactgtcc agcgccgagacatattcacgcatgcgtctgaagctggtgcccaaccatcacttcgaccct cacctggaagccagcgctctccgagacaatctgggtgaggttcccctgacacccaccgag gaggcctcactgcctctggcagtgaccaaagaggccaaagtgagcaccccacccgagttg ctgcaggaggaccagctcggcgaggacgagctggctgagctggagaccccgatggaggca gcagaactggatgagcagcgtgagaagctggtgctgtcggccgagtgccagctggtgacg gtagtggccgtggtcccagggctgctggaggtcaccacacagaatgtatacttctacgat ggcagcactgagcgcgtggaaaccgaggagggcatcggctatgatttccggcgcccactg gcccagctgcgtgaggtccacctgcggcgtttcaacctgcgccgttcagcacttgagctc ttctttatcgatcaggccaactacttcctcaacttcccatgcaaggtacggaaccaggtg tactcgtggctcctgcgcctacggcccccctctcaaggctacctaagcagccgctccccc caggagatgctgcgtgcctcaggccttacccagaaatgggtacagcgtgagatatccaac ttcgagtacttgatgcaactcaacaccattgcggggcggacctacaatgacctgtctcag taccctgtggactacgtgtccccaaccctggacctcagcaacccagccgtcttccgggac ctgtctaagcccatcggtgtggtgaaccccaagcatgcccagctcgtgagggagaagtat gaaagctttgaggacccagcagggaccattgacaagttccactatggcacccactactcc aatgcagcaggcgtgatgcactacctcatccgcgtggagcccttcacctccctgcacgtc cagctgcaaagtggccgctttgactgctccgaccggcagttccactcggtggcggcagcc tggcaggcacgcctggagagccctgccgatgtgaaggagctcatcccggaattcttctac tttcctgacttcctggagaaccagaacggttttgacctgggctgtctccagctgaccaac gagaaggtaggcgatgtggtgctacccccgtgggccagctctcctgaggacttcatccag cagcaccgccaggctctggagtcggagtatgtgtctgcacacctacacgagtggatcgac ctcatctttggctacaagcagcgggggccagccgccgaggaggccctcaatgtcttctat tactgcacctatgagggggctgtagacctggaccatgtgacagatgagcgggaacggaag gctctggagggcattatcagcaactttgggcagactccctgtcagctgctgaaggagcca catccaactcggctctcagctgaggaagcagcccatcgccttgcacgcctggacactaac tcacctagcatcttccagcacctggacgaactcaaggcattcttcgcagaggttgtcagt gatggtgtacccctggtgctagccctggtcccccaccggcagccccactccttcatcacc cagggttccccagacctgttggtgactgtgagtgccagtgggctgctgggcacccacagc tggttgccctatgaccgcaacataagcaactacttcagcttcagcaaagaccccaccatg ggcagccacaagacgcagcgactgctgagtggcccgtgggtgccaggcagtggtgtgagt ggacaagcactggcagtggccccggatggaaagctgctattcagcggtggccactgggat ggcagcctgcgggtgactgcactaccccgtggcaagctgttgagccagctcagctgccac cttgatgtagtaacctgccttgcactggacacctgtggcatctacctcatctcaggctcc cgggacaccacgtgcatggtgtggcggctcctgcatcagggtggtctgtcagtaggcctg gcaccaaagcctgtgcaggtcctgtatgggcatggggctgcagtgagctgtgtggccatc agcactgaacttgacatggctgtgtctggatctgaggatggaactgtgatcatacacact gtacgccgcggacagtttgtagcggcactacggcctctgggtgccacattccctggacct attttccacctggcattggggtccgaaggccagattgtggtacagagctcagcgtgggaa cgtcctggggcccaggtcacctactccttgcacctgtattcagtcaatgggaagttgcgg gcttcactgcccctggcagagcagcctacagccctgacggtgacagaggactttgtgttg ctgggcaccgcccagtgcgccctgcacatcctccaactaaacacactgctcccggccgcg cctcccttgcccatgaaggtggccatccgcagcgtggccgtgaccaaggagcgcagccac gtgctggtgggcctggaggatggcaagctcatcgtggtggtcgcggggcagccctctgag gtgcgcagcagccagttcgcgcggaagctgtggcggtcctcgcggcgcatctcccaggcc catccactatccaggatcctgcagggccccttaatgcaagctctccttagtctagacgag gagcttctcttccccaaacctcaggaagtgggtcccagcagattcagccctataggatcc agctggcgctcacataaacaaagacagcagctggccaaagctcgaactgcagagctggga ggtctcaacaaggaccagatgcatggggatagcagtgtcttcctggactctcctagcagt ctggagccctgtgcccccagccagggaccacatcctgagcttgggtgccgacttcacctt gatctccctcggcagcaccaggagaaagtggagcggctgttagaggtgtcacgtgaacct gacaagggctggcggggactggcagaccatctgggctaccaagctgaggctgtagaaatc atggcccaaggccaggtgtga >gi568815595f:46879862_47109317|GENSCAN_predicted_peptide_5|948_aa XNTFVLEYCGEVLDHKEFKARVKEYARNKNIHYYFMALKNDEIIDATQKGNCSRFMNHSC EPNCETQKWTVNGQLRVGFFTTKLVPSGSELTFDYQFQRYGKEAQKCFCGSANCRGYLGG ENRVSIRAAGGKMKKERSRKKDSNTHSQSCLKSFLERHGLSLLWIWMAELGDGRESNQKL QEEIIKTLEHLPIPTKNMLEESKVLPIIQRWSQTKTAVPPLSEGDGYSSENTSRAHTPLN TPDPSTKLSTEADTDTPKKLMFRRLKIISENSMDSAISDATSELEGKDGKEDLDQLENVP VEEEEELQSQQLLPQQLPECKVDSETNIEASKLPTSEPEADAEIEPKESNGTKLEEPINE ETPSQDEEEGVSDVESERSQEQPDKTVDISDLATKLLDSWKDLKEVYRIPKKSQTEKENT TTERGRDAVGFRDQTPAPKTPNRSRERDPDKQTQNKEKRKRRSSLSPPSSAYERGTKRPD DRYDTPTSKKKVRIKDRNKLSTEERRKLFEQEVAQREAQKQQQQMQNLGMTSPLPYDSLG YNAPHHPFAGYPPGYPMQAYVDPSNPNAGKVLLPTPSMDPVCSPAPYDHAQPLVGHSTEP LSAPPPVPVVPHVAAPVEVSSSQYVAQSDGVVHQDSSVAVLPVPAPGPVQGQNYSVWDSN QQSVSVQQQYSPAQSQATIYYQGQTCPTVYGVTSPYSQTTPPIVQSYAQPSLQYIQGQQI FTAHPQGVVVQPAAAVTTIVAPGQPQPLQPSEMVVTNNLLDLPPPSPPKPKTIVLPPNWK TARDPEGKIYYYHVITRQTQWDPPTWESPGDDASLEHEAEMDLGTPTYDENPMKASKKPK TAEADTSSELAKKSKEVFRKEMSQFIVQCLNPYRKPDCKVGRITTTEDFKHLARKLTHGV MNKELKYCKNPEDLECNENVKHKTKEYIKKYMQKFGAVYKPKEDTELE >gi568815595f:46879862_47109317|GENSCAN_predicted_CDS_5|2847_bp nngaacacctttgtcctagaatattgtggagaggtactcgatcataaagagtttaaagct cgagtgaaggagtatgcacgaaacaaaaacatccattactatttcatggccctgaagaat gatgagataatagatgccactcaaaaaggaaattgctctcgtttcatgaatcacagctgt gaaccaaattgtgaaacccaaaaatggactgtgaacggacaactgagggttgggtttttt accaccaaactggttccttcaggctcagagttaacgtttgactatcagttccagagatat ggaaaagaagcccagaaatgtttctgcggatcagccaattgccggggttacctgggagga gaaaacagagtcagcatcagagcagcaggagggaaaatgaagaaggaacgatctcgtaag aaggattcaaacacacactcacagtcctgcctgaagtcctttctggaacgtcatgggctg tctttgttgtggatctggatggcagagctaggtgacggccgggaaagtaaccagaagctt caggaagagattataaagactttggaacacttgcccattcctactaaaaatatgttggag gaaagcaaagtacttccaattattcaacgctggtctcagactaagactgctgtccctccg ttgagtgaaggagatgggtattctagtgagaatacatcgcgtgctcatacaccactcaac acacctgatccttccaccaagctgagcacagaagctgacacagacactcccaagaaacta atgtttcgcagactgaaaattataagtgaaaatagcatggacagtgcaatctctgatgca accagtgagctagaaggcaaggatggcaaagaggatcttgatcaattagaaaatgtccct gtagaggaagaggaagaattgcagtcacaacagctactcccacaacagctgcctgaatgc aaagttgatagtgaaaccaacatagaagctagtaagctacctacatctgaaccagaagct gacgctgaaatagagcccaaagagagcaacggcacaaaactagaagaacctattaatgaa gaaacaccatcccaagatgaagaggagggtgtgtctgatgtggagagtgaaaggagccaa gaacagccagataaaacagtggatataagtgatttggccaccaaactcctggacagttgg aaagacctaaaggaggtatatcgaattccaaagaaaagtcaaactgaaaaggaaaacaca acaactgaacgaggaagggatgctgttggcttcagagatcaaacacctgccccgaagact cctaataggtcaagagagagagacccagacaagcaaactcaaaataaagagaaaaggaaa cgaagaagctccctctcaccaccctcttctgcctatgagcggggaacaaaaaggccagat gacagatatgatacaccaacttctaaaaagaaagtacgaattaaagaccgcaataaactt tctacagaggaacgccggaagttgtttgagcaagaggtggctcaacgggaggctcagaaa caacagcaacagatgcagaacctgggaatgacatcaccactgccctatgactctcttggt tataatgccccgcatcatccctttgctggttacccaccaggttatcccatgcaggcctat gtggatcccagcaaccctaatgctggaaaggtgctcctgcccacacccagcatggaccca gtgtgttctcctgctccttatgatcatgctcagcccttggtgggacattctacagaaccc ctttctgcccctccaccagtaccagtggtgccacatgtggcagctcctgtggaagtttcc agttcccagtatgtggcccagagtgatggtgtagtacaccaagactccagcgttgctgtc ttgccagtgccggcccccggcccagttcagggacagaattatagtgtttgggattcaaac caacagtctgtcagtgtacagcagcagtactctcctgcacagtctcaagcaaccatatat tatcaaggacagacatgtccaacagtctatggtgtgacatcaccttattcacagacaact ccaccaattgtacagagttatgcccagccaagtcttcagtatatccaggggcaacagatt ttcacagctcatccacaaggagtggtggtacagccagccgcagcagtgactacaatagtt gcaccagggcagcctcagcccttgcagccatctgaaatggttgtgacaaataatctcttg gatctgccgcccccctctcctcccaaaccaaaaaccattgtcttacctcccaactggaag acagctcgagatccagaagggaagatttattactaccatgtgatcacaaggcagactcag tgggatcctcctacttgggaaagcccaggagatgatgccagccttgagcatgaagctgag atggacctgggaactccaacatatgatgaaaaccccatgaaggcctcgaaaaagcccaag acagcagaagcagacacctccagtgaactagcaaagaaaagcaaagaagtattcagaaaa gagatgtcccagttcatcgtccagtgcctgaacccttaccggaaacctgactgcaaagtg ggaagaattaccacaactgaagactttaaacatctggctcgcaagctgactcacggtgtt atgaataaggagctgaagtactgtaagaatcctgaggacctggagtgcaatgagaatgtg aaacacaaaaccaaggagtacattaagaagtacatgcagaagtttggggctgtttacaaa cccaaagaggacactgaattagagtga