GENSCAN 1.0 Date run: 4-Nov-116 Time: 04:38:15 Sequence gi568815595r:196903901_197129702 : 225802 bp : 44.22% 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 + 5197 5430 234 1 0 46 72 151 0.450 6.10 1.02 Term + 19425 19482 58 0 1 106 45 47 0.353 -0.64 1.03 PlyA + 19979 19984 6 1.05 2.00 Prom + 20724 20763 40 -4.06 2.01 Init + 25106 25108 3 1 0 108 81 0 0.680 1.30 2.02 Intr + 25733 25783 51 1 0 122 103 77 0.997 11.70 2.03 Term + 26913 27023 111 2 0 80 47 132 0.984 6.86 2.04 PlyA + 29590 29595 6 1.05 3.03 PlyA - 30145 30140 6 1.05 3.02 Term - 33182 33111 72 2 0 85 48 126 0.811 6.21 3.01 Init - 33717 33610 108 0 0 82 85 116 0.218 10.92 3.00 Prom - 35959 35920 40 -8.56 4.00 Prom + 38100 38139 40 -7.26 4.01 Init + 38817 39084 268 2 1 80 68 405 0.669 32.84 4.02 Term + 39438 39532 95 1 2 36 36 96 0.574 -2.81 4.03 PlyA + 39619 39624 6 1.05 5.03 PlyA - 39740 39735 6 -0.45 5.02 Term - 44785 43257 1529 2 2 102 48 1219 0.761 109.96 5.01 Init - 48038 47921 118 2 1 71 98 177 0.961 15.36 5.00 Prom - 52369 52330 40 -4.86 6.36 PlyA - 52955 52950 6 1.05 6.35 Term - 63066 62924 143 1 2 92 42 140 0.758 7.89 6.34 Intr - 63609 63477 133 0 1 -5 102 108 0.572 3.12 6.33 Intr - 63873 63757 117 0 0 36 59 81 0.227 0.66 6.32 Intr - 64827 64779 49 2 1 71 70 49 0.283 0.08 6.31 Intr - 65900 65619 282 1 0 100 80 141 0.754 11.03 6.30 Intr - 72924 72856 69 2 0 61 100 59 0.143 2.70 6.29 Intr - 73462 73198 265 2 1 38 25 129 0.017 -1.83 6.28 Intr - 75285 75156 130 0 1 92 105 -3 0.161 2.07 6.27 Intr - 81614 81518 97 1 1 67 93 64 0.123 4.81 6.26 Intr - 83162 82837 326 2 2 39 18 225 0.095 5.17 6.25 Intr - 83671 83290 382 0 1 32 -23 377 0.258 15.91 6.24 Intr - 98826 98682 145 1 1 54 45 86 0.423 0.24 6.23 Intr - 100280 100001 280 2 1 15 91 359 0.911 25.95 6.22 Intr - 102836 102649 188 0 2 100 99 273 0.996 29.01 6.21 Intr - 104824 104757 68 0 2 123 90 90 0.923 11.25 6.20 Intr - 105065 104909 157 0 1 101 80 346 0.957 34.17 6.19 Intr - 105912 105718 195 1 0 102 80 328 0.999 32.79 6.18 Intr - 106894 106798 97 1 1 108 86 151 0.946 16.48 6.17 Intr - 108625 108509 117 1 0 27 51 117 0.466 2.56 6.16 Intr - 111616 111465 152 2 2 111 75 240 0.661 24.88 6.15 Intr - 112469 112289 181 2 1 50 103 264 0.999 23.54 6.14 Intr - 113390 113203 188 0 2 84 80 305 0.999 28.71 6.13 Intr - 115901 115725 177 0 0 46 11 132 0.680 1.19 6.12 Intr - 117571 117504 68 0 2 101 101 58 0.996 6.95 6.11 Intr - 119213 119057 157 0 1 128 105 130 0.986 17.77 6.10 Intr - 120585 120403 183 1 0 124 100 324 0.999 36.96 6.09 Intr - 122859 122760 100 0 1 75 116 150 0.969 16.18 6.08 Intr - 124010 123856 155 0 2 79 101 191 0.959 19.29 6.07 Intr - 124560 124407 154 0 1 125 68 -5 0.826 0.85 6.06 Intr - 124886 124756 131 0 2 92 57 45 0.827 2.21 6.05 Intr - 125948 125754 195 0 0 9 93 148 0.001 6.79 6.04 Intr - 127012 126874 139 1 1 13 59 109 0.002 0.54 6.03 Intr - 128986 128568 419 2 2 48 47 444 0.087 30.04 6.02 Intr - 129167 129077 91 2 1 52 77 81 0.994 2.97 6.01 Init - 129827 129228 600 2 0 30 47 565 0.974 41.89 6.00 Prom - 129981 129942 40 -16.06 7.00 Prom + 130025 130064 40 -16.75 7.01 Sngl + 130176 131195 1020 2 0 71 38 742 0.679 64.56 7.02 PlyA + 131242 131247 6 1.05 8.15 PlyA - 131972 131967 6 1.05 8.14 Term - 132859 132710 150 1 0 89 40 85 0.115 1.71 8.13 Intr - 135172 135075 98 2 2 88 52 37 0.029 -0.17 8.12 Intr - 147768 147677 92 2 2 84 47 67 0.476 1.84 8.11 Intr - 156098 155989 110 2 2 107 103 7 0.831 3.18 8.10 Intr - 161548 161376 173 2 2 76 121 193 0.999 21.06 8.09 Intr - 161909 161808 102 0 0 62 99 46 0.898 3.25 8.08 Intr - 162854 162804 51 0 0 90 76 77 0.977 5.58 8.07 Intr - 165360 165319 42 1 0 74 103 30 0.708 1.31 8.06 Intr - 172785 172686 100 0 1 102 103 128 0.844 15.38 8.05 Intr - 177217 177151 67 0 1 45 84 51 0.887 -0.69 8.04 Intr - 181856 181680 177 1 0 68 85 81 0.848 4.83 8.03 Intr - 187126 187012 115 2 1 90 99 51 0.886 5.91 8.02 Intr - 201105 201003 103 0 1 74 85 64 0.473 4.45 8.01 Init - 205941 205936 6 0 0 101 55 0 0.225 -1.13 8.00 Prom - 215737 215698 40 -1.26 9.02 PlyA - 216693 216688 6 1.05 9.01 Sngl - 225398 225093 306 2 0 44 46 239 0.893 11.17 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 38603 38526 78 2 0 58 76 180 0.881 14.86 S.002 Init - 125802 125754 49 0 1 102 93 133 0.995 14.31 S.003 Sngl - 126576 126154 423 0 0 97 49 297 0.965 21.00 S.004 Term - 128986 128439 548 2 2 48 48 433 0.899 29.74 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_1|97_aa XNIQITIREYYKDLYTNKLENLEETDKFLDTYTFPRLNQEEVECLNRPITNSEIEAVINS LPTTKSPGPDGFTAKFYQRSKVSKWKLLVFGGLDSLW >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_1|294_bp nnaaatatacaaattactatcagagaatactataaagacctctacacaaataaactagaa aatctagaagaaacggataaattcctggacacatacaccttcccaagactaaatcaggaa gaagtggaatgtctgaatagaccaataacaaattctgaaattgaggcagtaattaatagc ctaccaaccacaaaaagcccaggaccagatggattcacagccaaattctaccagaggtca aaggtcagcaaatggaagctgctggtttttggtggtttggatagcctgtggtga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_2|54_aa MCIPQQKNDSDCGVFVLQYCKCLALEQPFQFSQEDMPRVRKRIYKELCECRLMD >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_2|165_bp atgtgtattccacaacagaaaaacgacagtgactgtggagtctttgtgctccagtactgc aagtgcctcgccttagagcagcctttccagttttcacaagaagacatgccccgagtgcgg aagaggatttacaaggagctatgtgagtgccggctcatggactga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_3|59_aa MRYINGTRLDDRIIRTDWDAGFKEGRQYGRGRSGGQVRDEYRQDYDAGRGGYGKLAQNQ >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_3|180_bp atgcggtacataaatgggacgcgtctggatgaccgaatcattcgcacagactgggacgca ggctttaaggagggcaggcaatacggccgtgggcgatctgggggccaggttcgggatgag tatcggcaggactacgatgctgggagaggaggctatggaaaactggcacagaaccagtga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_4|120_aa MVLRRLLAALLHSPQLVERLSESRPIRRAAQLTAFALLQAQLRGQDAARRLQDLAAGPVG SLCRRAERFRDAFTQELRRGLRGRSGPPPDAAQSDWYSRTVNSRDDMDEKTTLQLPNSFD >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_4|363_bp atggtgctgcggcggctgctggccgccctgctgcacagcccgcagctggtggaacgtctg tcagagtcgcggcctatccgacgtgcggcgcagctcacggccttcgcactgctgcaggcc cagctgcggggccaggacgcggcccgccgcctgcaggacctcgcggctgggcccgtgggc tccctgtgccgccgcgctgagcgatttagagacgccttcacccaggagctacgccgcggc ctccgaggccgctcggggccaccaccagatgctgctcaatctgactggtatagcaggaca gttaattccagggacgatatggatgaaaagacaaccctacagctgccaaattcctttgat taa >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_5|548_aa MAVRVLWGGLSLLRVLWCLLPQTGYVHPDEFFQSPEVMAEDILGVQAARPWEFYPSSSCR SVLFPLLISGSTFWLLRLWEELGPWPGLVSGYALLVGPRLLLTALSFALDGAVYHLAPPM GADRWNALALLSGSYVTLVFYTRTFSNTIEGLLFTWLLVLVSSHVTWGPTRKEPAPGPRW RSWLLGGIVAAGFFNRPTFLAFAVVPLYLWGTRGATNPGLKSLTREALVLLPGAALTAAV FVATDSWYFSSPATSRNLVLTPVNFLHYNLNPQNLARHGTHARLTHLAVNGFLLFGVLHA QALQAAWQRLQVGLQASAQMGLLRALGARSLLSSPRSYLLLLYFMPLALLSAFSHQEARF LIPLLVPLVLLCSPQTQPVPWKGTVVLFNALGALLFGCLHQGGLVPGLEYLEQVVHAPVL PSTPTHYTLLFTHTYMPPRHLLHLPGLGAPVEVVDMGGTEDWALCQTLKSFTRQPACQVA GGPWLCRLFVVTPGTTRRAVEKCSFPFKNETLLFPHLTLEDPPALSSLLSGAWRDHLSLH IVELGEET >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_5|1647_bp atggcagtcagggtgctttggggtggtctcagcctgctccgagtgctgtggtgtctcctt ccgcagacgggctatgtgcacccagatgagttcttccagtcccctgaggtgatggcagag gacatcctgggcgttcaggccgcgcggccctgggagttttaccccagcagctcctgccgc tcggtgctcttccccctgctgatctctggttccaccttctggctgctcaggctctgggag gagctggggccgtggcctggcctggtgagcggctatgcgctgctggtggggcctcgactc ctcctcactgccctttcctttgctctggacggggccgtgtaccacctggccccgccgatg ggggcggatcgctggaacgccctggccctgctgtctggttcctacgtcaccctggtcttc tacacaaggaccttctccaacaccattgagggactcctcttcacgtggctgctggtgctg gtatcctcccatgtaacgtggggccctacacgcaaggagccggcgccgggtccacggtgg cgcagctggcttcttggaggcattgtggctgctggcttcttcaaccggcccacctttctg gcctttgctgtggtccccctctacctctggggcactcgtggagccacaaaccctggtttg aagtctctgacccgggaggccctggtgctgctccctggggcagccctcacagcagcggtg tttgtggccacggacagctggtatttctccagccccgctacatccaggaaccttgtcctg acacctgtcaacttcttgcactacaacctgaatccccaaaacctggcgagacatggcacg cacgcgcggctcactcacctggcagtcaacggcttcctgctcttcggggtgctgcatgcc caggccctgcaggctgcgtggcaacggctgcaagtcggcctccaggcctctgcacaaatg ggcctcctgagggcactgggtgcccggagcctgctgtccagccccaggtcctatctcctt ctcctctacttcatgcctctggccctgctatctgcctttagccaccaggaggctcggttc ctgattcccctcctggtccccctggtcctgctttgtagtccacagacgcagcctgtgcct tggaagggcactgtggtcctcttcaacgccctcggtgccctcctcttcggctgcctgcat caggggggcctggtgcctggcctggagtacctggagcaggtggtccatgcccctgtgctc ccaagcacacccacccactacacactcctcttcactcacacctacatgcccccccggcac ctcctacacctcccaggcctgggggcaccagtggaggtggtggacatgggggggactgag gactgggccctgtgccaaaccctgaaaagcttcaccagacaaccagcctgccaagtggct ggtgggccatggctctgccgcctctttgtggtaacccctggcaccaccaggcgtgccgtg gagaagtgcagcttccccttcaagaatgaaacacttttatttccccatctgaccctggag gatccaccagccctgtcctccttgctgagtggggcttggagggaccacctcagtcttcac attgtggagctgggggaagaaacctga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_6|2109_aa MLTPQPVGKSVTSSDITLLQMLTPQPVGKSVTSSDITLLQVLTPKPVSKRVTSSDITLLQ VLTRQPVSKSVTSSDITLLQVLTPKPVSKSVTSSDITLLQVLTPQPVSKSVTSCDITLLQ VLTSQPVSKSVTSCDITLLQMLTPQPISKSVTSSDITLLQVLTPQQVSKRVTSSDITLLQ MLTPQPVSKSVTSSDITLQQVLTPQPVSKSVKSSDITRLQVLTPQPVSKRGAHTQPISKS VTSSDITLLQVLMSQPVSKSVTSSDITLLQVLTPQPVSKSVKSSDITRLQVLTPQPISKS VTSSDITLLQVLTPQQVSKRVTSSDITLLQVLTPQPVSKSVKSSDITRLQVLTPQPVSKS VTSSDITLLQFIPRIPNHMGSAAFARLRQWFSTFAVPRNKNRLWAPPPELSIQWVGGAWI PPGNSRPHLRSSGQREGEQGGSPAAADLLGPGPSPSPAPASPDGAMRGPSGALWLLLALR TGLWQCWLGQGEWQRSSGLKVIGPKGLQHPFLWAPSLGALGDSDPGLALCPPRVALQPAS SQTLPEGTGLLEGSPPTAPSPHSPVPVHEEGPGTLLVLGGMEVRWCATSDPEQHKCGNMS EAFREAGIQPSLLCVRGTSADHCVQLIAAQEADAITLDGGAIYEAGKEHGLKPVVGEVYD QEVGTSYYAVAVVRRSSHVTIDTLKGVKSCHTGINRTVGWNVPVGYLVESGRLSVMGCDV LKAVSDYFGGSCVPGAGETSYSESLCRLCRGDSSGEGVCDKSPLERYYDYSGAFRCLAEG AGDVAFVKHSTVLENTDESPSRRQTWTRSEEEEGECPAHEEARRTMRSSAGQAWKWAPVH RPQDESDKGEFGKRAKRKTLPSWGQALLSQDFELLCRDGSRADVTEWRQCHLARVPAHAV VVRADTDGGLIFRLLNEGQRLFSHEGSSFQMFSSEAYGQKDLLFKDSTSELVPIATQTYE AWLGHEYLHAMKGLLCDPNRLPPYLRWCVLSTPEIQKCGDMAVAFRRQRLKPEIQCVSAK SPQHCMERIQAREPHRLEGHKEETGQEYRVTRLTTMTIAQADTPRMPHTAEQVDAVTLSG EDIYTAGKTYGLVPAAGEHYAPEDSSNSYYVVAVVRRDSSHAFTLDELRGKRSCHAGFGS PAGWDVPVGALIQRGFIRPKDCDVLTAVSEFFNASCVPVNNPKNYPSSLCALCVGDEQGR NKCVGNSQERYYGYRGAFRCLVENAGDVAFVRHTTVFDNTNGHNSEPWAAELRSEDYELL CPNGARAEVSQFAACNLAQIPPHAVMVRPDTNIFTVYGLLDKAQQFAASGTGRVTLPEPS EEQVVCLRCFQDLFGDDHNKNGFKMFDSSNYHGQDLLFKDATVRAVPVGEKTTYRGWLGL DYVAALEGMSSQQCSGAAPSRASRVHGPPPESPQALASPTPVGCPPPAPTPEPGGSSRPP PEGSRREIFTVSGALDVLQMKKEDVLKFLAAGTQLGGSNLDFQVEQYVYKRKSDGIYIIN LTRTWKKLLLAARAIVAIENAAAVSVISSRNTGQRVVLKFAAATGATPIAGPFTPGTFTN QIQAAFWEPRLLVGARSVGLMWWMLAREALCMRGSISREHPWEVMPDLYFYRDPEEIEKE QAAAENTVTKEEFQGEWTAPAPEFTATQPEVADWPDGVQVPSVPIQQLPTEDWSTQPATE DWEKLLPAGHMTPTVTRTGLSADRKDCNHVCNWKLGWALGPRSPVASPGGLRGHRLSLAS QIPGSLGCAENPKGFQGGLLIWALGSGLPMNAESEGSHNGQSLQMSHELTPWDYRHHRGL RGSGLYQVSYPQDLELCGFPEITGHTTDAEAEAPGEESADLGLHIYVLVPFGCSVVLTNG DNEDKEEESPLGPLARRRLRNAEGQHGHARPLEPAPRRRVTVSGPRRPRRADPGRLHSGS EAAAARMPGFHEALPARQARRSHGHGRRRGNRRARPARRRRPRTPPALKAQPGGRAGESR RINTGPFRQPKEEGGQHQIFPCFKVEHPAGLTAALRVKGPGFSRSLKACSKCQIQTKGPN LGPAAFSHKRQPSSFARKFTCEVQSPRLWALSLHPKAFRSRALPTTDPQEATGDAGFGPV LDPHPDRSL >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_6|6330_bp atgctcacaccccaaccagttggcaagagtgtaacatcctctgacatcacactactgcag atgctcacaccccaaccagttggcaagagtgtaacatcctctgacatcacactactgcag gtgctcacacccaaaccagtcagcaagagagtaacatcctctgacatcacactactgcag gtgctcacacgccaacccgtcagcaagagtgtaacatcctctgacatcacactactgcag gtgctcacacccaaaccagtcagcaagagtgtaacatcctctgacatcacactactgcag gtgctcacaccccaaccagtcagcaagagtgtaacatcctgtgacatcacactactgcag gtgctaacgtcccaaccagtcagcaagagcgtaacatcctgtgacatcacactactgcag atgctcacaccccaacccatcagcaagagtgtaacatcctctgacatcacactactgcag gtgctcacaccccaacaagtcagcaagagggtaacatcctctgacatcacactactgcag atgctgacaccccaacccgtcagcaagagtgtaacatcctctgacatcacactacagcag gtgctcacaccccaaccagtcagcaagagtgtaaaatcttctgacatcacacgactgcag gtgctcacaccccaaccagtcagcaagagaggtgctcacacccaacccatcagcaagagt gtaacatcctctgacatcacactactgcaggtgctcatgtcccaaccagtcagcaagagt gtaacatcctctgacatcacactactgcaggtgctgacaccccaaccagtcagcaagagt gtaaaatcttctgacatcacacgactgcaggtgctcacaccccaacccatcagcaagagt gtaacatcctctgacatcacactacttcaggtgctcacaccccaacaagtcagcaagagg gtaacatcctctgacatcacactactgcaggtgctcacaccacaaccagtcagcaagagt gtaaaatcttctgacatcacacgactgcaggtgctgacaccccaaccagtcagcaagagc gtaacatcctctgacatcacactactgcagttcattccccgcatccccaaccacatgggg agtgccgcttttgcccgcctgcgacagtggttctcaacatttgctgtgccccgaaataaa aacagattgtgggccccgcccccagagctgtcgatccagtgggtcggaggggcgtggatt ccgcccgggaactcgcggccgcacttaaggagctcgggccagcgcgagggggagcaggga ggaagcccggctgctgcggacctcctcggacccggacccagccccagcccggccccagcc agccccgacggcgccatgcggggtccgagcggggctctgtggctgctcctggctctgcgc accggcctctggcagtgctggctggggcagggtgaatggcagaggagctcaggcctgaaa gtcatcggccccaaggggctccagcaccccttcctctgggcccctagcctgggagctctc ggggactctgacccgggcctggcactgtgcccaccgagggtggctttgcagccagcatca tcgcagacactccccgaggggacagggctcctggagggcagcccacccacagccccctca cctcactctcccgtcccagttcatgaggaaggcccagggacactgctggtgctcggtggc atggaggtgcggtggtgcgccacctcggacccagagcagcacaagtgcggcaacatgagc gaggccttccgggaagcgggcatccagccctccctcctctgcgtccggggcacctccgcc gaccactgcgtccagctcatcgcggcccaggaggctgacgccatcactctggatggagga gccatctatgaggcgggaaaggagcacggcctgaagccggtggtgggcgaagtgtacgat caagaggtcggtacctcctattacgccgtggctgtggtcaggaggagctcccatgtgacc attgacaccctgaaaggcgtgaagtcctgccacacgggcatcaatcgcacagtgggctgg aacgtgcccgtgggctacctggtggagagcggccgcctctcggtgatgggctgcgatgta ctcaaagctgtcagcgactattttgggggcagctgcgtcccgggggcaggagagaccagt tactctgagtccctctgtcgcctctgcaggggtgacagctctggggaaggggtgtgtgac aagagccccctggagagatactacgactacagcggggccttccggtgcctggcggaaggg gcaggggacgtggcttttgtgaagcacagcacggtactggagaacacggatgaaagtcca tcacgaaggcaaacatggaccagatctgaggaggaagaaggcgagtgccctgcacacgag gaagcacgtaggacgatgcgctctagtgctgggcaagcctggaaatgggctcccgttcac aggccccaggacgagtctgacaaaggagaatttggaaaacgggcaaagaggaagacgctt ccctcctggggccaggccctgctgtcacaggacttcgagctgctgtgccgggatggtagc cgggccgatgtcaccgagtggaggcagtgccatctggcccgggtgcctgctcacgccgtg gtggtccgggccgacacagatgggggcctcatcttccggctgctcaacgaaggccagcgt ctgttcagccacgagggcagcagcttccagatgttcagctctgaggcctatggccagaag gatctactcttcaaagactctacctcggagcttgtgcccatcgccacacagacctatgag gcgtggctgggccatgagtacctgcacgccatgaagggtctgctctgtgaccccaaccgg ctgcccccctacctgcgctggtgtgtgctctccactcccgagatccagaagtgtggagac atggccgtggccttccgccggcagcggctcaagccagagatccagtgcgtgtcagccaag tccccccaacactgcatggagcggatccaggccagggaaccacatcgactggaaggccac aaagaggagaccgggcaagaatacagggtgaccaggcttacgacgatgaccatcgcgcaa gctgacactccccgtatgccccacacagctgagcaggtcgacgctgtgaccctgagtggc gaggacatttacacggcggggaagacgtacggcctggttcccgcagccggggagcactat gccccggaagacagcagcaactcgtactacgtggtggccgtggtgagacgggacagctcc cacgccttcaccttggatgagcttcggggcaagcgctcctgccacgccggtttcggcagc cctgcaggctgggatgtccccgtgggtgcccttattcagagaggcttcatccggcccaag gactgtgacgtcctcacagcagtgagcgagttcttcaatgccagctgcgtgcccgtgaac aaccccaagaactacccctcctcgctgtgtgcactgtgcgtgggggacgagcagggccgc aacaagtgtgtgggcaacagccaggagcggtattacggctaccgcggcgccttcaggtgc ctggtggagaatgcgggtgacgttgccttcgtcaggcacacaaccgtctttgacaacaca aacggccacaattccgagccctgggctgctgagctcaggtcagaggactatgaactgctg tgccccaacggggcccgagccgaggtgtcccagtttgcagcctgcaacctggcacagata ccaccccacgccgtgatggtccggcccgacaccaacatcttcaccgtgtatggactgctg gacaaggcccagcaatttgcagctagcggcactgggcgggtgaccctgcctgagcccagt gaggagcaggtcgtctgcctgcggtgcttccaggacctgtttggagacgaccacaataag aacgggttcaaaatgttcgactcctccaactatcatggccaagacctgcttttcaaggat gccaccgtccgggcggtgcctgtcggagagaaaaccacctaccgcggctggctggggctg gactacgtggcggcgctggaagggatgtcgtctcagcagtgctcgggcgcagctccatcc cgggccagccgcgtccacgggccccctcccgagtctcctcaggctctcgcctcccctacc cccgtgggatgcccaccgcccgcacccacgcccgagcctggcggcagcagccgccccccg cctgaagggagccggagggaaattttcacagtgtccggagcccttgatgtcctgcaaatg aagaaagaggatgtccttaagttccttgcagcaggaacccagttaggtggcagcaatctt gacttccaggtggaacagtatgtctataaaaggaaaagtgatggcatctacatcataaat ctgacgaggacctggaagaagcttctgctggcagctcgtgccattgttgccattgaaaac gctgctgctgtcagtgttatatcctccaggaatactggccagagggtcgtgctgaagttt gctgctgccaccggagccactccaatcgctggccccttcactcctggaaccttcactaac cagatccaggcagccttctgggagccacggcttcttgtgggagctcgctcagtgggtttg atgtggtggatgctggctcgggaagctctgtgcatgcgtggcagcatttcccgtgaacac ccctgggaggtcatgcctgatctctacttctacagagatcctgaagagattgaaaaagag caggctgctgctgaaaacactgtgaccaaggaggaatttcagggtgaatggactgctcca gctcctgagttcactgctactcagcctgaggttgcagactggcctgacggcgtgcaggtg ccctctgtgcctattcagcagctccctactgaagactggagcactcagcctgccacggaa gactgggagaagctgctgcctgctggccacatgacacctacggtcacacgcacaggcctt tctgctgataggaaagattgtaatcacgtctgtaactggaagctcggatgggcccttggc cccaggtctccagtggcaagtccgggcgggctccggggccatagactcagcctggcctcc cagatcccgggcagcttgggctgcgcagagaatccaaaaggcttccaaggagggctccta atatgggctctgggcagcggactccccatgaatgcagagtcagaagggagccacaatggc cagtctctgcagatgtcccatgagctgacaccatgggactatcggcaccatcgtggcctg agagggtcggggctatatcaggtgtcttacccccaagaccttgagctgtgtggcttccca gagatcacgggtcatacgacagatgcggaagccgaggcacctggagaggaatcagctgac ttggggttacacatctatgtcttggtaccctttgggtgctcagtcgtgcttaccaatggt gacaatgaggacaaggaagaggaaagcccgctagggccgctcgcccgtcgccgcctgcgg aacgcggaggggcagcacggccacgcccggccactcgaacctgctccccggcgccgcgtg accgtgtcaggtccccgtcggcctcgccgtgccgaccccgggcgcctccacagtggctcg gaggccgctgctgcccggatgcccgggttccacgaggctctcccagcccgacaagcccgc cgatcccacgggcacgggcggaggagagggaaccgccgcgcccgccccgcgcgccgtcgc cgaccccggacgccgccagcgctgaaggcgcagcccggaggccgcgcgggtgagtcgcga aggataaacacgggccctttcaggcaaccgaaggaagaaggcggccagcatcagatcttc ccgtgcttcaaggtggagcaccctgcagggcttactgcagcgctcagggtcaaagggccc ggcttttcccgaagtcttaaagcctgctccaaatgccagattcagacaaaggggccgaac cttgggcccgccgccttctcccataagcggcaacccagcagctttgccaggaagtttaca tgtgaagtccaatctccacgactctgggccctgtcgcttcatcctaaagccttccgctca cgagccctcccgacgaccgacccccaggaggctactggagatgcaggatttggacccgtg ctggacccgcacccggacagatccctctga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_7|339_aa MSTCSSVMSEDVTLLLAGWGVSTCSGVMSEDVTLLLTGWDVSTCSSVMSEDVTLLLTGWG VSTCSSVMSEDVTLLLTGWGVSTCSSVMSEDVTLLLAGWGVSTCSGVMSEDVTLLLTGWD VSTCSSVMSEDVTLLLTGWGVSTCSSVMSEDVTLLLTGYCVSTCCSVMSEDVTLLLTGWG VSICSSVMSEDVTLLLTCWGVSTCSSVMSEDVTLLLTGYCVSTCSSVMSEDVTLLLTGYF VSTCSSVMSEDVTLLLTGYCVSTCSSVMSEDVTLLLTGCGVSTCSSVMSEDVMLLLTGYC VSTCSSVMSEDVTLLPTGWDVSTCSSVISKGVTLADCLI >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_7|1020_bp atgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgctggctggttggggt gtgagcacctgcagtggtgtgatgtcagaggatgttactctcctgctgacgggatgggat gtgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgctgactggttggggt gtgagcacctgcagtagtgtgatgtcagaggatgttactctcttgctgactggttggggt gtgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgctggctggttggggt gtgagcacctgcagtggtgtgatgtcagaggatgttactctcctgctgacgggatgggat gtgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgctgactggttggggt gtgagcacctgcagtagtgtgatgtcagaggatgttactctcttgctgactggttactgt gtgagcacctgctgtagtgtgatgtcagaggatgttacactcttgctgacgggttggggt gtcagcatctgcagtagtgtgatgtcagaggatgttaccctcttgctgacttgttggggt gtgagcacctgcagtagtgtgatgtcagaggatgttacactcttgctgactggttactgt gtgagcacctgcagtagtgtgatgtcagaggatgttacactcttgctgactggttacttt gtgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgctgactggttactgt gtgagcacctgcagtagtgtgatgtcagaggatgttacactcttgctgacgggttgtggt gtgagcacctgcagtagtgtgatgtcagaggatgttatgctgttgctgactggttactgt gtgagcacctgcagtagtgtgatgtcagaggatgttacgctcttgccgactggttgggac gttagcacctgcagtagtgtgatatcaaagggtgttacacttgctgactgcttaatctga >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_8|461_aa MEVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRFEAKIHDLREQMMNSSISSG SGSLRTSQKRSLYVRALFDYDKTKDSGLPSQGLNFKFGDILHVINASDDEWWQARQVTPD GESDEVGVIPSKRRVEKKERARLKTVKFNSKTRDKGQSFNDKRKKNLFSRKFPFYKNKDQ SEQETSDADQHVTSNASDSESSYRGQEEYVLSYEPVNQQEVNYTRPVIILGPMKDRINDD LISEFPDKFGSCVPHTTRPKRDYEVDGRDYHFVTSREQMEKDIQEHKFIEAGQYNNHLYG TSVQSVREVAEKGKHCILDVSGNAIKRLQIAQLYPISIFIKPKSMENIMEMNKRLTEEQA RKTFERAMKLEQEFTEHFTDLQEQEAASRKGVLMLKAMMGPAPPPRPHFISARSTRADES TQLYSRTCRPLWCGKVVTAVAFKGLKTAFFQVSAVASSANW >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_8|1386_bp atggaggtaaacagtgttgacctcagagctgctagtcatgagcaggcagcagctgcattg aaaaatgctggccaggctgtcacaattgttgcacaatatcgacctgaagaatacagtcgt tttgaagctaaaatacatgatttacgggagcagatgatgaatagtagtattagttcaggg tcaggttctcttcgaactagccagaagcgatccctctatgtcagagccctttttgattat gacaagactaaagacagtgggcttcccagtcagggactgaacttcaaatttggagatatc ctccatgttattaatgcttctgatgatgaatggtggcaagccaggcaggttacaccagat ggtgagagcgatgaggtcggagtgattcccagtaaacgcagagttgagaagaaagaacga gcccgattaaaaacagtgaaattcaattctaaaacgagagataaagggcagtcattcaat gacaagcgtaaaaagaacctcttttcccgaaaattccccttctacaagaacaaggaccag agtgagcaggaaacaagtgatgctgaccagcatgtaacttctaatgccagcgatagtgaa agtagttaccgtggtcaagaagaatacgtcttatcttatgaaccagtgaatcaacaagaa gttaattatactcgaccagtgatcatattgggacctatgaaagacaggataaatgatgac ttgatctcagaatttcctgacaaatttggatcctgtgttcctcatacaactagaccaaaa cgagattatgaggtagatggaagagattatcattttgtgacttcaagagagcagatggaa aaagatatccaggaacataaattcattgaagctggccagtataacaatcatctatatgga acaagtgttcagtctgtacgagaagtagcagaaaagggcaaacactgtatccttgatgtg tctggaaatgccataaagagattacagattgcacagctttaccctatctccatttttatt aaacccaaatccatggaaaatatcatggaaatgaataagcgtctaacagaagaacaagcc agaaaaacatttgagagagccatgaaactggaacaggagtttactgaacatttcacagac ctacaggaacaagaggcagcaagcagaaaaggggttctgatgctgaaagccatgatgggc ccggccccacccccacgcccccacttcatcagtgcccgaagtaccagggcagatgagagt acgcagctctactccagaacctgccggccgctgtggtgtggtaaagtcgtcactgctgtg gcttttaagggtctgaagacagccttctttcaggtgtcggcagtggcttcatctgcaaat tggtag >gi568815595r:196903901_197129702|GENSCAN_predicted_peptide_9|101_aa MKVQGKAASAAVGAAASYPEDLAMILNGSGYTKQQFFNVDETAFYWKKTPFRTFTAREDK SVPDFKASKYKLTFLLVANAAGDFQLKPMPIYQSRKSKELC >gi568815595r:196903901_197129702|GENSCAN_predicted_CDS_9|306_bp atgaaagtgcaaggtaaagcagcaagtgctgctgtaggagctgcagcaagttatccagaa gatctggctatgatacttaatggaagtggctacaccaaacaacaatttttcaatgtagat gaaacagccttctactggaaaaagacaccttttaggactttcacagctagagaggataag tcagtgcctgacttcaaagcttcaaagtacaagctgactttcttgttagttgctaatgca gctggtgattttcagttgaagccaatgcccatttaccagtccagaaaatccaaggaatta tgctaa