Result of GENSCAN for
pF1KA1776
GENSCAN 1.0 Date run: 3-Nov-116 Time: 20:12:52 Sequence gi568815579r:7965922_8247480 : 281559 bp : 51.43% C+G : Isochore 3 (51 - 57 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.03 Intr - 1869 1644 226 1 1 58 94 208 0.865 15.97 1.02 Intr - 7957 7804 154 1 1 63 81 260 0.984 22.96 1.01 Init - 8112 8098 15 0 0 110 89 38 0.964 6.02 1.00 Prom - 9894 9855 40 -3.91 2.11 PlyA - 10196 10191 6 -0.45 2.10 Term - 11897 11858 40 1 1 123 54 12 0.382 -1.75 2.09 Intr - 13918 13742 177 0 0 95 81 6 0.231 0.15 2.08 Intr - 14338 14256 83 1 2 81 77 30 0.662 0.13 2.07 Intr - 15304 15162 143 2 2 91 98 179 0.583 19.78 2.06 Intr - 16048 16019 30 2 0 124 94 -21 0.613 0.69 2.05 Intr - 21447 21256 192 1 0 87 49 62 0.317 2.18 2.04 Intr - 25120 25046 75 2 0 89 49 64 0.498 2.58 2.03 Intr - 25910 25723 188 1 2 96 103 240 0.879 26.15 2.02 Intr - 27614 27440 175 0 1 26 23 88 0.133 -4.39 2.01 Init - 32500 32425 76 1 1 47 72 109 0.709 6.40 2.00 Prom - 33037 32998 40 -2.91 3.00 Prom + 33147 33186 40 -6.40 3.01 Init + 39578 39810 233 1 2 40 -26 304 0.023 9.92 3.02 Intr + 46226 46310 85 2 1 73 91 42 0.368 3.32 3.03 Term + 49621 49686 66 0 0 117 42 119 0.960 8.43 3.04 PlyA + 50081 50086 6 1.05 4.03 PlyA - 50906 50901 6 1.05 4.02 Term - 81067 80719 349 0 1 81 35 566 0.901 44.91 4.01 Init - 84978 84971 8 0 2 67 100 11 0.556 -0.15 4.00 Prom - 85899 85860 40 -8.38 5.00 Prom + 86802 86841 40 -2.31 5.01 Init + 87129 87201 73 2 1 75 79 195 0.765 16.48 5.02 Intr + 90231 90348 118 1 1 47 76 111 0.255 5.83 5.03 Intr + 90445 90578 134 1 2 108 86 125 0.916 15.10 5.04 Intr + 91883 91999 117 0 0 91 110 31 0.465 6.54 5.05 Term + 96297 96304 8 1 2 110 52 0 0.217 -3.09 5.06 PlyA + 96703 96708 6 1.05 6.64 PlyA - 96754 96749 6 -0.45 6.63 Term - 97772 97692 81 2 0 48 44 42 0.134 -6.21 6.62 Intr - 100339 100097 243 1 0 122 77 345 0.649 35.03 6.61 Intr - 105421 105332 90 1 0 87 75 27 0.729 1.99 6.60 Intr - 106277 106127 151 1 1 71 61 248 0.970 21.08 6.59 Intr - 107376 107142 235 1 1 147 76 227 0.999 24.68 6.58 Intr - 109269 109150 120 1 0 122 92 111 0.999 15.87 6.57 Intr - 109490 109362 129 0 0 116 87 109 0.999 14.77 6.56 Intr - 115198 115082 117 2 0 100 109 158 0.974 20.04 6.55 Intr - 115559 115437 123 0 0 97 59 135 0.996 12.56 6.54 Intr - 117451 117326 126 2 0 92 80 93 0.982 10.06 6.53 Intr - 119648 119442 207 0 0 98 90 137 0.999 14.47 6.52 Intr - 120404 120279 126 0 0 112 113 165 0.999 22.56 6.51 Intr - 121290 121156 135 1 0 81 80 152 0.996 14.75 6.50 Intr - 122026 121904 123 2 0 70 80 204 0.963 18.86 6.49 Intr - 122258 122076 183 0 0 102 21 197 0.617 14.68 6.48 Intr - 123749 123624 126 0 0 64 92 240 0.999 23.16 6.47 Intr - 124038 123973 66 1 0 134 105 40 0.999 9.67 6.46 Intr - 124330 124178 153 2 0 32 101 72 0.860 3.46 6.45 Intr - 125669 125544 126 0 0 111 111 134 0.974 19.16 6.44 Intr - 128644 128525 120 2 0 97 97 104 0.988 13.17 6.43 Intr - 129582 129454 129 1 0 96 92 134 0.827 15.77 6.42 Intr - 130159 130043 117 2 0 75 92 183 0.997 18.34 6.41 Intr - 130648 130523 126 2 0 80 72 83 0.990 7.06 6.40 Intr - 131085 130960 126 1 0 105 80 143 0.991 16.36 6.39 Intr - 131493 131368 126 1 0 65 45 250 0.821 19.56 6.38 Intr - 135051 134980 72 1 0 91 97 104 0.946 11.47 6.37 Intr - 136952 136803 150 0 0 78 72 138 0.807 11.85 6.36 Intr - 137766 137641 126 1 0 137 86 178 0.989 23.66 6.35 Intr - 140312 140187 126 0 0 66 84 172 0.947 15.76 6.34 Intr - 142317 142249 69 1 0 96 113 59 0.997 8.85 6.33 Intr - 143467 143306 162 2 0 107 81 72 0.950 8.86 6.32 Intr - 143832 143710 123 1 0 102 92 194 0.981 22.26 6.31 Intr - 145046 144924 123 0 0 7 64 196 0.996 10.16 6.30 Intr - 145262 145137 126 0 0 60 86 300 0.919 28.16 6.29 Intr - 145849 145727 123 2 0 71 100 201 0.999 20.66 6.28 Intr - 146178 146056 123 1 0 94 113 4 0.928 4.56 6.27 Intr - 149719 149594 126 2 0 120 93 104 0.985 15.26 6.26 Intr - 150878 150753 126 0 0 62 73 161 0.979 13.16 6.25 Intr - 151370 151248 123 0 0 116 96 91 0.989 13.76 6.24 Intr - 151668 151543 126 1 0 92 72 147 0.960 14.66 6.23 Intr - 153101 152976 126 0 0 49 110 183 0.068 17.76 6.22 Intr - 155465 155337 129 0 0 126 15 221 0.076 19.77 6.21 Intr - 157668 157543 126 1 0 64 96 128 0.999 12.36 6.20 Intr - 158087 157863 225 0 0 68 86 274 0.993 23.68 6.19 Intr - 160096 159971 126 2 0 109 92 174 0.980 21.06 6.18 Intr - 160684 160376 309 2 0 79 48 175 0.468 9.43 6.17 Intr - 160911 160792 120 1 0 65 71 138 0.659 10.77 6.16 Intr - 163232 163107 126 0 0 114 79 164 0.985 19.26 6.15 Intr - 163444 163319 126 2 0 126 99 209 0.951 26.96 6.14 Intr - 165367 165314 54 2 0 116 107 47 0.986 8.84 6.13 Intr - 165908 165633 276 0 0 58 105 519 0.999 48.63 6.12 Intr - 167185 166865 321 2 0 92 55 312 0.521 24.68 6.11 Intr - 170165 170040 126 0 0 133 92 214 0.999 27.46 6.10 Intr - 170388 170269 120 1 0 79 55 151 0.996 11.87 6.09 Intr - 170610 170467 144 1 0 68 85 301 0.906 28.56 6.08 Intr - 172402 172220 183 2 0 93 73 124 0.978 11.68 6.07 Intr - 172643 172491 153 0 0 100 81 88 0.980 9.86 6.06 Intr - 175921 175796 126 2 0 118 98 105 0.998 15.66 6.05 Intr - 176216 176019 198 0 0 94 63 86 0.978 6.54 6.04 Intr - 179051 178956 96 0 0 119 66 140 0.589 15.38 6.03 Intr - 180017 179922 96 0 0 101 75 12 0.715 1.68 6.02 Intr - 180294 180206 89 2 2 43 83 49 0.662 0.01 6.01 Init - 181559 181183 377 2 2 85 83 146 0.593 8.23 6.00 Prom - 193690 193651 40 -0.81 7.00 Prom + 225314 225353 40 -2.71 7.01 Init + 243124 243193 70 0 1 92 49 85 0.307 4.16 7.02 Term + 243574 243875 302 2 2 83 52 141 0.491 5.73 7.03 PlyA + 244799 244804 6 1.05 8.00 Prom + 245082 245121 40 -6.30 8.01 Sngl + 248961 249194 234 2 0 74 43 233 0.841 12.80 8.02 PlyA + 249558 249563 6 -0.45 9.03 PlyA - 251235 251230 6 1.05 9.02 Term - 252594 252586 9 0 0 110 41 0 0.559 -4.03 9.01 Init - 254167 254099 69 1 0 63 91 71 0.766 5.90 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 39578 39814 237 1 0 40 37 309 0.910 14.39 S.002 Init - 153171 152976 196 0 1 94 110 204 0.898 21.57 S.003 Term - 155465 155329 137 0 2 126 42 224 0.924 20.09 S.004 Init + 208167 208225 59 2 2 40 106 59 0.817 3.63 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_1|132_aa MRLQAVSYARPSSEVIKDANLYISGLPRTMTQKDVEDMFSRFGRIINSRVLVDQTTGLSR GVAFIRFDKRSEAEEAITSFNGHKPPGSSEPITVKFAANPNQNKNVALLSQLYHSPARRF GGPVHHQAQRFS >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_1|396_bp atgcggctgcaggcggtgtcgtatgctcgcccgagctcagaggtgatcaaagacgccaac ttgtacatcagcgggctcccgcggaccatgacccagaaggacgtagaagacatgttctct cggtttgggcggatcatcaactcgcgggtcctcgtggatcagactacaggtttgtccaga ggggttgcgtttatccggtttgacaaacggtcggaggcagaagaggcaattaccagtttc aatggtcataaacccccaggttcctctgagcccatcacagtgaagtttgcagccaacccc aaccagaacaaaaacgtggcactcctctcgcagctgtaccactcgccagcgcgacggttc ggaggccccgttcaccaccaggcgcagagattcagn >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_2|392_aa MPDREHHRVTAEPQWVVTTDREYQRGKTSATEKDISKPANCEDQVPLTGRETLTSFQLTH CVFGNKQVQRTIAYLPPQQQGVQGFLKNTMSNGYEDHMAEDCRGDIGRTNLIVNYLPQNM TQDELRSLFSSIGEVESAKLIRDKVAVGLLSLCVPIRNVEIVASTSWWSLPLAPYVPRGI RRSQPSTLMDDLSCRSHQAAAPFTASVLLYISGRVKAHTAAQGFNHIPEEGVSQEAGSGW SQAWKDGWLTNVFMFSCTGHSLGYGFVNYVTAKDAERAINTLNGLRLQSKTIKAGPCNWA SCSSHCTHPPSVPAFTRYPQTLPHDLGYSVAKPWLSSSSPRPAPCRMDVVCSGLPEGRRA TPASSCPVQVLRGTFPGGGWQGLLEPCAHPGL >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_2|1179_bp atgcctgaccgtgagcatcatcgtgtgaccgccgagcctcaatgggtggtgaccactgac agggaataccagaggggaaagacttcagcaactgagaaagacatttcaaagcctgcaaac tgtgaagaccaagttcctctgactggtagagaaaccctcacctctttccagctcactcac tgtgtctttgggaataaacaggtgcagaggaccattgcctacctgccccctcagcagcag ggtgtccagggatttttgaaaaatacaatgtctaatggttatgaagaccacatggccgaa gactgcaggggtgacatcgggagaacgaatttgatcgtcaactacctccctcagaacatg acccaggatgagttacgaagcctgttcagcagcattggtgaagttgaatctgcaaaactt attcgggataaagtagcagtgggacttctaagcctttgtgtccccatccggaatgtggag attgtggcttctacatcctggtggtccctacctctggccccatatgtccctcgggggatc agaaggagtcagccctctaccctcatggatgacctgtcatgccggagccaccaggctgca gccccattcacggcttctgtcttgctgtatatctctggtcgggttaaagcccacaccgct gcccaaggctttaaccacatcccggaggagggggtgtcccaagaggcggggtcgggctgg tctcaggcttggaaagacggttggcttaccaatgtcttcatgttctcttgcacaggacac agcttgggctatggctttgtgaactacgtgaccgcgaaggatgcagagagagcgatcaac acgctgaacggcttgaggctccagtcaaaaaccattaaggcaggcccctgcaactgggct tcctgcagcagccactgcacccacccgccctcagtgcccgccttcacaagatacccacag acactgccccatgatcttggttactcagtggccaaaccctggctcagcagcagctctccc agacctgccccatgccgcatggacgtggtgtgcagtgggctccctgagggcaggcgcgcc actcctgcctcctcgtgtccagtgcaggtcctcagaggcaccttccccggtgggggctgg cagggcctcctggagccttgtgctcatcctgggctctga >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_3|127_aa MRAGGPGAAPGRAGGGGGAALTAPLGLGSGGGGGGDGDGGSGSSSARTTRSGPRPGHAPP AREPIGRRPPRRAAHWPALFLAMTDSQISLVFDDLDSFEECRSGILPTPSEDDEDEDRYD PLPLNER >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_3|384_bp atgcgggcgggcgggcccggggctgctccggggcgggcgggaggcggcggcggcgcggcg ctaacggctccgctcggcctcggtagcggtggcggcggtggcggcgacggcgacggcggc agcggctcctcctcagcgcgcacgacccgctccggcccgcggcccggacacgcccccccc gcgcgcgagcccattggccgacgtccgccacggcgcgctgctcattggccggcgctcttc ttggctatgacagattctcagatttccctagtttttgatgatcttgacagttttgaggag tgccggtcaggtattttgcctactccgagtgaagatgatgaagatgaagaccgttatgat ccacttccacttaatgaaagatga >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_4|118_aa MAGCIVVAQQPEEEKEEEEEEEEEEEEEEEEEEKEEEKEEEKEDGEEKEEGEEEEGEKEE GEEKEEGEEKGGEEKEEWEEKEEEGEEEDGEEEEKEEEGRRVFPGCLASPWPDVREFG >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_4|357_bp atggccggatgcatagtggttgcccagcaaccggaggaggagaaggaggaggaggaggag gaagaggaggaggaagaggaggaggaggaggaggaggagaaggaggaggagaaggaggag gagaaggaggatggggaggagaaggaggagggggaagaggaggagggggagaaggaggag ggggaggagaaggaggagggggaggagaaggggggggaggagaaggaggagtgggaagag aaggaggaggagggggaggaggaggatggggaggaggaggagaaggaggaggaaggaaga agggtttttccaggatgtcttgcaagcccttggcctgatgttcgagaatttggttaa >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_5|149_aa MNLWLLACLVAGFLGAWAPAVHTQGVFEDCCLAYHYPIGWAVLRRAWTYRIQEVSGSCNL PAAIFYLPKRHRKVCGNPKSREVQRAMKLLDARNKVFAKLHHNTQTFQGPHAVKKLSSGN SKLSSSKFSNPISSSKRNVSLLISANSGL >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_5|450_bp atgaacctgtggctcctggcctgcctggtggccggcttcctgggagcctgggcccccgct gtccacacccaaggtgtctttgaggactgctgcctggcctaccactaccccattgggtgg gctgtgctccggcgcgcctggacttaccggatccaggaggtgagcgggagctgcaatctg cctgctgcgatattctacctccccaagagacacaggaaggtgtgtgggaaccccaaaagc agggaggtgcagagagccatgaagctcctggatgctcgaaataaggtttttgcaaagctc caccacaacacgcagaccttccaaggccctcatgctgtaaagaagttgagttctggaaac tccaagttatcatcgtccaagtttagcaatcccatcagcagcagtaagaggaatgtctcc ctcctgatatcagctaattcaggactgtga >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_6|2999_aa MTLEGLYLARGPLARLLLAWSALLCMAGGQGRWDGALEAAGPGRVRRRGSPGILQGCVVP GMLGDPFGVDWAVLGPAEYPGGCPHGQGLTRPISLSPKAECVRLPVPCLLLSRLEDIPWQ EPVCRTRACGEGFCSQPNLCTCADGTLAPSCGVSRGSGCSVSCMNGGTCRGASCLCQKGY TGTVCGQPICDRGCHNGGRCIGPNRCACVYGFMGPQCERDYRTGPCFGQVGPEGCQHQLT GLVCTKALCCATVGRAWGLPCELCPAQPHPCRRGFIPNIHTGACQDVDECQAVPGLCQGG SCVNMVGSFHCRCPVGHRLSDSSAACEDYRAGACFSVLFGGRCAGDLAGHYTRRQCCCDR GRCWAAGPVPELCPPRGSNEFQQLCAQRLPLLPGHPGLFPGLLGFGSNGMGPPLGPARLN PHGSDARGIPSLGPGNSNIGTATLNQTIDICRHFTNLCLNGRCLPTPSSYRCECNVGYTQ DVRGECIDVDECTSSPCHHGDCVNIPGTYHCRCYPGFQATPTRQACVDVDECIVSGGLCH LGRCVNTEGSFQCVCNAGFELSPDGKNCVDHNECATSTMCVNGVCLNEDGSFSCLCKPGF LLAPGGHYCMGEPGARLASGGEKGDGEAEGRRGRGEGPDGDGTSMREGEEKGQGEKEEEE GKGEKRRRRKGRKEEADIDECQTPGICVNGHCTNTEGSFRCQCLGGLAVGTDGRVCVDTH VRSTCYGAIEKGSCARPFPGTVTKSECCCANPDHGFGEPCQLCPAKDSAEFQALCSSGLG ITTDGRDINECALDPEVCANGVCENLRGSYRCVCNLGYEAGASGKDCTDVDECALNSLLC DNGWCQNSPGSYSCSCPPGFHFWQDTEICKDVDECLSSPCVSGVCRNLAGSYTCKCGPGS RLDPSGTFCLDSTKGTCWLKIQESRCEVNLQGASLRSECCATLGAAWGSPCERCEIGSIL LEASQAPMGKALHGAGPPLGWHEKMTPLFTLVLPVADPACARGFARMTGVTCDDVNECES FPGVCPNGRCVNTAGSFRCECPEGLMLDASGRLCVDVRLEPCFLRWDEDECGVTLPGKYR MDVCCCSIGAVWGVECEACPDPESLEFASLCPRGLGFASRDFLSGRPFYKDVNECKVFPG LCTHGTCRNTVGSFHCACAGGFALDAQERNCTDIDECRISPDLCGQGTCVNTPGSFECEC FPGYESGFMLMKNCMDVDECARDPLLCRGGTCTNTDGSYKCQCPPGHELTAKGTACEDID ECSLSDGLCPHGQCVNVIGAFQCSCHAGFQSTPDRQGCVDINECRVQNGGCDVHCINTEG SYRCSCGQGYSLMPDGRACADVDECEENPRVCDQGHCTNMPGGHRCLCYDGFMATPDMRT CVDVDECDLNPHICLHGDCENTKGSFVCHCQLGYMVRKGATGCSDVDECEVGGHNCDSHA SCLNIPGSFSCRCLPGWVGDGFECHDLDECVSQEHRCSPRGDCLNVPGSYRCTCRQGFAG DGFFCEDRDECAENVDLCDNGQCLNAPGGYRCECEMGFDPTEDHRACQDVDECAQGNLCA FGSCENLPGMFRCICNGGYELDRGGGNCTDINECADPVNCINGVCINTPGSYLCSCPQDF ELNPSGVGCVDTRAGNCFLETHDRGDSGISCSAEIGVGVTRASCCCSLGRAWGNPCELCP MANTTEYRTLCPGGEGFQPNRITVILEDIDECQELPGLCQGGDCVNTFGSFQCECPPGYH LSEHTRICEDIDECSTHSGICGPGTCYNTLGNYTCVCPAEYLQVNGGNNCMDMRKSVCFR HYNGTCQNELAFNVTRKMCCCSYNIGQAWNRPCEACPTPISPDYQILCGNQAPGFLTDIH TGKPLDIDECGEIPAICANGICINQIGSFRCECPAGFNYNSILLACEDVDECGSRESPCQ QNADCINIPGSYRCKCTRGYKLSPGGACVGRNECREIPNVCSHGDCMDTEGSYMCLCHRG FQASADQTLCMDIDECDRQPCGNGTCKNIIGSYNCLCFPGFVVTHNGDCVDFDECTTLVG QVCRFGHCLNTAGSFHCLCQDGFELTADGKNCVDTNECLSLAGTCLPGTCQNLEGSFRCI CPPGFQVQSDHCIDIDECSEEPNLCLFGTCTNSPGSFQCLCPPGFVLSDNGHRCFDTRQS FCFTRFEAGKCSVPKAFNTTKTRCCCSKRPGEGWGDPCELCPQEGSAAFQELCPFGHGAV PGPDDSREDVNECAENPGVCTNGVCVNTDGSFRCECPFGYSLDFTGINCVDTDECSVGHP CGQGTCTNVIGGFECACADGFEPGLMMTCEGTTLLAQDLGRVTEMPGGGSGDIDECSLNP LLCAFRCHNTEGSYLCTCPAGYTLREDGAMCRDVDECADGQQDCHARGMECKNLIGTFAC VCPPGMRPLPGSGEGCTDDNECHAQPDLCVNGRCVNTAGSFRCDCDEGFQPSPTLTECHD IRQGPCFAEVLQTMCRSLSSSSEAVTRAECCCGGGRGWGPRCELCPLPGTSAYRKLCPHG SGYTAEGRDVDECRMLAHLCAHGECINSLGSFRCHCQAGYTPDATATTCLDMDECSQVPK PCTFLCKNTKGSFLCSCPRGYLLEEDGRTCKDLDECTSRQHNCQFLCVNTVGAFTCRCPP GFTQHHQACFDNDECSAQPGPCGAHGHCHNTPGSFRCECHQGFTLVSSGHGCEDVNECDG PHRCQHGCQNQLGGYRCSCPQGFTQHSQWAQCVDENECALSPPTCGSASCRNTLGGFRCV CPSGFDFDQALGGCQEVDECAGRRGPCSYSCANTPGGFLCGCPQGYFRAGQGHCVSGLGF SPGPQDTPDKEELLSSEACYECKINGLSPRDRPRRSAHRDHQESQGSSTHHSVAVGQAYG SIPPSLSGHPIKVNLATLDSEALLTLGLNLSHLGRAERILELRPALEGLEGRIRYVIVRG NEQGFFRMHHLRGVSSLQLGRRRPGPGTYRLEVCLWSPTKRYEAGSIITPIFQGGKIEA >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_6|9000_bp atgactctggagggtctgtatttggcaaggggccccctggcccggctcctgctggcctgg tcggccctgttgtgcatggcaggtggccaaggccgctgggacggggccttggaggctgca ggtcctggacgtgtgcggaggcggggcagcccaggcatcttgcaggggtgcgtggtacct gggatgctgggagaccccttcggtgtggattgggctgtcctggggccagcggaatacccg gggggatgtccacacgggcaggggctcaccagacccatctcgctgtccccgaaggccgaa tgtgtgcggctcccggttccatgcctactgctgtccaggctggaggacattccctggcag gagccagtgtgtcgtacgcgcgcctgcggtgaaggcttctgctcccagcccaacctgtgc acctgtgcggatgggacgctggctcccagctgcggggtgagccgagggtcagggtgcagt gtgagctgtatgaatgggggcacctgccggggggcgtcctgtctgtgtcagaagggctac acaggcaccgtgtgtgggcagcccatctgtgaccgcggctgccacaatgggggtcgctgc attgggcccaaccgctgcgcctgtgtgtatggcttcatgggacctcaatgtgagagagat taccggacgggaccctgctttggccaagtaggccccgaggggtgccagcatcagctgacg ggcctcgtgtgcaccaaggcactttgctgtgccactgtgggccgtgcctggggccttcca tgtgaactttgccctgcacagccacacccctgccgccgcggcttcatccccaatatccac acgggggcctgccaagatgtggatgagtgccaggctgtgccaggcctgtgccagggaggc agctgcgtcaacatggtgggctccttccattgccgctgtccagttggacaccggctcagt gacagcagcgccgcatgtgaagactaccgggccggcgcctgcttctcagtgcttttcggg ggccgctgtgctggagacctcgccggccactacactcgcaggcagtgctgctgtgacagg ggcaggtgctgggcagctggcccggtccctgagctgtgtcctcctcggggctccaatgaa ttccagcaactgtgcgcccagcggctgccgctgctacccggccaccctggcctcttccct ggcctcctgggcttcggatccaatggcatgggtccccctcttgggccagcgcgactcaac ccccatggctctgatgcgcgtgggatccccagcctgggccctggcaactctaatattggc actgctaccctgaaccagaccattgacatctgccgacacttcaccaacctgtgtctgaat ggccgctgcctgcccacgccttccagctaccgctgcgagtgtaacgtgggctacacccag gacgtgcgcggcgagtgcattgatgtagacgaatgcaccagcagcccctgccaccacggt gactgcgtcaacatccccggcacctaccactgccggtgctacccgggcttccaggccacg cccaccaggcaggcatgcgtggatgtggacgagtgcattgtcagtggtggcctttgtcac ctgggccgctgtgtcaacacagagggcagcttccagtgtgtctgcaatgcaggcttcgag ctcagccctgacggcaagaactgtgtggaccacaacgagtgtgccaccagcaccatgtgc gtcaacggcgtgtgtctcaacgaggatggcagcttctcctgcctctgcaaacccggcttc ctgctggcgcctggcggccactactgcatgggtgagcctggagccagactggccagcgga ggggagaagggagatggggaagcagagggacggcgaggaagaggagagggaccggacggg gatgggacgagcatgagagaaggagaagagaaggggcagggagaaaaagaggaggaggag ggaaaaggggagaagcgaagaagaagaaaaggaagaaaagaagaggcagacattgacgag tgccagacgcccggcatctgcgtgaacggccactgtaccaacaccgagggctccttccgc tgccagtgcctgggggggctggcggtaggcacggatggccgcgtgtgcgtggacacccac gtgcgcagcacctgctatggggccatcgagaagggctcctgtgcccgccccttccctggc actgtcaccaagtccgagtgctgctgtgccaatccggaccacggttttggggagccctgc cagctttgtcctgccaaagactccgctgagttccaggcactgtgcagcagtgggcttggc attaccacggatggtcgagacatcaacgagtgtgctctggatcctgaggtttgtgccaat ggcgtgtgcgagaaccttcggggcagctaccgctgtgtctgcaacctgggttatgaggca ggtgcctcaggcaaggactgcacagacgtggatgagtgtgccctcaacagcctcctgtgt gacaacgggtggtgccagaatagccctggcagctacagctgctcctgcccccccggcttc cacttctggcaggacacggagatctgcaaagatgtcgacgaatgcctgtccagcccgtgt gtgagtggcgtctgtcggaacctggccggctcctacacctgcaaatgtggccctggcagc cggctggacccctctggtaccttctgtctagacagcaccaagggcacctgctggctgaag atccaggagagccgctgtgaggtgaaccttcagggagccagcctgcggtctgagtgctgc gccaccctcggggcagcctgggggagcccctgcgaacgctgcgagatcggtagtatcctc cttgaggcctcccaggcacccatgggaaaagccctccatggggcgggtccccccttgggc tggcatgagaaaatgactcctctcttcactcttgttctcccagttgcagaccctgcctgt gcccggggctttgcccggatgacgggtgtcacctgcgatgatgtgaacgagtgtgagtcc ttcccgggagtctgtcccaacgggcgttgcgtcaacactgctgggtctttccgctgtgag tgtccagagggcctgatgctggacgcctcaggccggctgtgcgtggatgtgagattggaa ccatgtttcctgcgatgggatgaggatgagtgtggggtcaccctgcctggcaagtaccgg atggacgtctgctgctgctccatcggggccgtgtggggagtcgagtgcgaggcctgcccg gatcccgagtctctggagttcgccagcctgtgcccgcgggggctgggcttcgccagccgg gacttcctgtctggccgaccattctataaagatgtgaatgaatgcaaggtgttccctggc ctctgcacgcacggtacctgcagaaacacggtgggcagcttccactgcgcctgtgcgggg ggcttcgccctggatgcccaggaacggaactgcacagatatcgacgagtgtcgcatctct cctgacctctgcggccagggcacctgtgtcaacacgccgggcagctttgagtgcgagtgt tttcccggctacgagagtggcttcatgctgatgaagaactgcatggacgtggacgagtgt gcaagggacccgctgctctgccggggaggcacttgcaccaacacggatgggagctacaag tgccagtgtccccctgggcatgagctgacggccaagggcactgcctgtgaggacatcgat gagtgctccctgagtgatggcctgtgtccccatggccagtgtgtcaatgtcatcggtgcc ttccagtgctcctgccatgccggcttccagagcacacctgaccgccagggctgcgtggac atcaacgaatgccgggtccagaatggtgggtgtgacgtgcactgtattaacactgagggc agctaccggtgcagctgtgggcagggctactcgctgatgcccgacggaagggcatgtgca gacgtggacgagtgtgaagagaacccccgcgtttgtgaccaaggccactgcaccaacatg ccagggggtcaccgctgcctgtgctatgatggcttcatggccacgccagacatgaggaca tgtgttgatgtggatgagtgtgacctgaaccctcacatctgcctccatggggactgcgag aacacgaagggttcctttgtctgccactgtcagctgggctacatggtcaggaagggggcc acaggctgctctgatgtggatgaatgcgaggttggaggacacaactgtgacagtcacgcc tcctgtctcaacatcccggggagtttcagctgtaggtgcctgccaggctgggtgggggat ggcttcgaatgtcacgacctggatgaatgcgtctcccaggagcaccggtgcagcccaaga ggtgactgtctcaatgtccctggctcctaccgctgcacctgccgccagggctttgccggg gatggcttcttctgcgaagacagggatgaatgtgccgagaacgtggacctctgtgacaac gggcagtgcctcaatgcgcccggcgggtaccgctgtgaatgtgagatgggctttgacccc accgaggaccaccgggcctgccaggatgtggacgagtgtgcgcaagggaacctctgtgca tttgggagctgtgagaacctgcctggaatgttccgctgcatctgcaatggtggctacgaa ctggaccgagggggtggcaactgcacagacatcaacgagtgtgcagacccagtaaactgc atcaacggcgtgtgcattaacacccccggcagctacctctgcagctgcccccaggatttt gagctgaaccccagcggagtgggctgcgtggacactcgggccgggaactgtttcctggag acgcatgaccgaggggacagtggcatttcctgcagtgccgagatcggagttggtgtcacc cgagcttcctgctgttgctccctgggccgggcttggggcaatccctgtgagctgtgccct atggccaacaccactgagtacagaaccctgtgcccgggtggtgagggcttccagcctaac cgcatcactgtcattctggaagacatcgacgagtgccaagagctgccagggctgtgtcag gggggtgactgcgtcaacacgtttggcagtttccagtgtgagtgcccacctggctaccac ctcagtgagcacacccgcatctgtgaggatattgacgaatgctccacacactccggcatc tgtggccctggcacctgctacaacaccctggggaactacacctgtgtctgccctgcagag tacctccaagtcaatggtggcaacaactgcatggatatgaggaagagtgtctgcttccgg cactataacggcacatgtcaaaatgagctggccttcaacgtgacccggaaaatgtgttgc tgctcctacaacattggccaggcctggaatagaccctgtgaggcctgccccactcccatc agtcctgactaccagatcctgtgtggaaatcaggccccgggattcctcactgacatccac acggggaagccccttgacattgatgagtgtggggagatccccgccatctgtgccaatggc atctgcataaaccagatcgggagtttccgctgcgagtgccccgcaggcttcaactacaac agcatcctgctggcttgtgaagatgtcgatgagtgtggcagcagggagagtccctgccag cagaatgctgactgcatcaacatccccggtagctaccgctgcaagtgcacccgagggtac aaactgtcgccaggcggggcttgtgtgggacggaatgagtgtcgggagatcccgaatgtc tgtagccatggtgactgcatggacacagaaggcagctacatgtgtctgtgtcaccgtgga ttccaggcctctgcagaccagaccctgtgcatggacattgacgagtgtgaccggcagcct tgtggaaatgggacctgcaagaacatcattggctcctacaactgcctctgcttccctggc tttgtggtgacacacaatggggattgtgtggattttgatgagtgtactaccctggtgggg caggtgtgccgatttggccattgcctcaacacagctggttccttccactgcctctgccag gatggctttgagctcacagctgatgggaagaactgtgtggacaccaatgagtgcctcagc cttgcaggaacctgcctacccggcacttgccagaacctcgagggctccttccgctgcatc tgtccccctggcttccaggtgcagagtgaccactgcattgatatcgacgagtgctcagag gagcccaacctctgcctctttggcacctgtaccaacagccctgggagcttccagtgcctc tgcccacctggctttgtcctctctgacaatgggcaccgttgctttgacacacggcagagt ttctgcttcacccgttttgaggctgggaagtgctcggtgcccaaagctttcaacaccacc aagacccgctgctgctgcagtaagaggcctggggagggctggggagacccctgcgaactg tgtccccaggagggcagcgctgcctttcaggagctctgcccctttggccacggggcagtc ccaggcccggatgactcccgagaagacgtgaatgagtgtgcagagaaccctggcgtctgc actaacggcgtctgtgtcaacaccgatggatccttccgctgtgagtgtccctttggctac agcctggacttcactggcatcaactgtgtggacacagacgagtgctctgtcggccacccc tgtgggcaagggacatgcaccaatgtcatcggaggcttcgaatgtgcctgtgctgacggc tttgagcctggcctcatgatgacctgcgagggtacaactctgcttgcccaggacctgggc cgtgtgacggagatgcctgggggagggagtggagacatcgacgaatgctccctgaacccg ctgctctgtgccttccgctgccacaataccgagggctcctacctgtgcacctgtccagcc ggctacaccctgcgggaggatggggccatgtgtcgagatgtggacgagtgtgcagatggt cagcaggactgccacgcccggggcatggagtgcaagaacctcatcggtaccttcgcgtgc gtctgtcccccaggcatgcggcccctgcctggctctggggagggctgcacagatgacaat gaatgccacgctcagcctgacctctgtgtcaacggccgctgtgtcaacaccgcgggcagc ttccggtgcgactgtgatgagggattccagcccagccccacccttaccgagtgccacgac atccggcaggggccctgctttgccgaggtgctgcagaccatgtgccggtctctgtccagc agcagtgaggctgtcaccagggccgagtgctgctgtgggggtggccggggctgggggccc cgctgcgagctctgtcccctgcccggcacctctgcctacaggaagctgtgcccccatggc tcaggctacactgctgagggccgagatgtagatgaatgccgtatgcttgctcacctgtgt gctcatggggagtgcatcaacagccttggctccttccgctgccactgtcaggccgggtac acaccggatgctactgctactacctgcctggatatggatgagtgcagccaggtccccaag ccatgtaccttcctctgcaaaaacacgaagggcagtttcctgtgcagctgtccccgaggc tacctgctggaggaggatggcaggacctgcaaagacctggacgaatgcacctcccggcag cacaactgtcagttcctctgtgtcaacactgtgggcgccttcacctgccgctgtccgccc ggcttcacccagcaccaccaggcctgcttcgacaatgatgagtgctcagcccagcctggc ccatgtggtgcccacgggcactgccacaacaccccgggcagcttccgctgtgaatgccac caaggcttcaccctggtcagctcaggccatggctgtgaagatgtgaatgaatgtgatggg ccccaccgctgccagcatggctgtcagaaccagctagggggctaccgctgcagctgcccc cagggtttcacccagcactcccagtgggcccagtgtgtggatgagaatgagtgtgccctg tcgccccccacctgcgggagcgcctcctgtcgcaacactcttggtggcttccgctgcgtc tgcccctctggctttgactttgatcaggccctcgggggctgccaggaggtggatgagtgc gccggacggcgtggcccctgtagctacagctgtgccaacacgcctggtggcttcctgtgc ggctgtcctcaaggctacttccgggctgggcaagggcactgtgtctccggcctgggcttc agccccggaccccaggacaccccggacaaagaggagctgctctcgtctgaagcctgctac gaatgcaagatcaatggcctctcccctcgggaccggccacgacgcagtgcccacagggac caccaggaatctcagggatcttcaacacaccactcagtagccgtagggcaggcctatggc tccatccctccttccctctcgggccaccccatcaaggtgaacctggccacccttgactcc gaggccctgctgaccttgggcctgaacctctcacacctgggccgggccgagcgcatcctg gagctccggccggccctggagggtctagagggccggatccgctacgtcatcgtccgcgga aacgagcaaggtttctttcgcatgcatcacctccgtggcgtcagctccctgcagctgggg cggaggcggccggggcctggaacctaccggctggaggtgtgtctttggtctccaacaaag cgctatgaggcaggcagtattatcacccccattttccaggggggcaaaattgaggcttag >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_7|123_aa MGGAGTGAGARMGGRGRGRGWGAGKRAPRAANTAPNATLTAVPGPASAAMAAPARPPLAA GLQPPSPRRGLSPSGLPIMAVSPSYPRSPTRAGAQRVPEDAAVKRAGASRGDPGLVTRGN PDV >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_7|372_bp atgggcggagcgggaacgggggcgggggcgagaatgggggggcggggacgggggcgggga tggggtgcgggtaagcgagcaccccgcgccgcgaacaccgccccgaacgccaccctcacg gcggtccccggccccgcctccgcggccatggcggccccagcccggcccccactcgcagct gggctccagcccccatcaccccgccggggactgtccccctcggggcttcccatcatggcc gtctccccgagctatccgcgctcccccacgagggccggggcgcaacgggtgcccgaggac gcggctgtgaaacgggctggagcgagtaggggcgatcctggcctcgtgacgcgggggaat ccggatgtgtga >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_8|77_aa MKGSGEEVGGEEEEEREEDEGEEREEGEEEKKEEEGEEREEEEEKKEEEGEDEEEEATAA ASGQAARAGWRSQDVLR >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_8|234_bp atgaagggcagtggggaggaggtgggaggggaggaggaagaggaaagggaggaagacgag ggggaggagagggaggagggggaggaggagaaaaaggaagaggagggggaggagagggag gaggaggaggagaaaaaggaagaggagggggaggacgaggaggaagaagcaacggcagca gccagtgggcaagcagccagagctggatggaggagccaggacgttctcagatag >gi568815579r:7965922_8247480|GENSCAN_predicted_peptide_9|25_aa MASSEREENNRVRAAAVELQGPQPP >gi568815579r:7965922_8247480|GENSCAN_predicted_CDS_9|78_bp atggcatcatccgagagggaggaaaacaacagggtgagggcagcagccgtggagctccag ggtccccagccaccctga