Result of GENSCAN for
pF1KB8141
GENSCAN 1.0 Date run: 4-Nov-116 Time: 09:57:30 Sequence gi568815581r:75678598_75879174 : 200577 bp : 53.59% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 14843 14885 43 1 1 130 92 34 0.691 6.30 1.02 Intr + 21186 21274 89 1 2 81 82 74 0.613 6.29 1.03 Intr + 22140 22187 48 2 0 72 67 45 0.520 0.16 1.04 Intr + 23883 23974 92 2 2 124 97 90 0.665 12.79 1.05 Intr + 24714 24774 61 0 1 60 100 176 0.288 15.23 1.06 Intr + 25211 25262 52 1 1 128 36 33 0.572 1.07 1.07 Intr + 26159 26217 59 0 2 86 106 94 0.729 10.09 1.08 Intr + 27411 27495 85 2 1 119 76 133 0.999 15.09 1.09 Term + 27743 27924 182 0 2 84 43 304 0.998 23.59 1.10 PlyA + 29051 29056 6 1.05 2.00 Prom + 33935 33974 40 -4.71 2.01 Init + 46107 46185 79 2 1 56 92 93 0.807 5.69 2.02 Intr + 48598 48680 83 2 2 88 78 154 0.816 14.25 2.03 Intr + 48807 48929 123 2 0 97 23 192 0.506 14.89 2.04 Intr + 49054 49258 205 0 1 80 55 375 0.988 32.70 2.05 Intr + 49780 49876 97 2 1 64 100 197 0.999 18.07 2.06 Intr + 50668 50839 172 1 1 105 64 303 0.960 30.06 2.07 Intr + 51644 51907 264 1 0 88 64 538 0.971 49.65 2.08 Intr + 52278 52367 90 2 0 91 54 159 0.914 13.49 2.09 Intr + 52649 53086 438 1 0 101 83 264 0.916 21.49 2.10 Intr + 53215 53376 162 0 0 74 47 281 0.970 23.29 2.11 Intr + 53566 53642 77 0 2 92 105 125 0.995 13.41 2.12 Intr + 54893 55095 203 2 2 55 89 351 0.991 31.35 2.13 Intr + 57454 57557 104 2 2 119 49 65 0.986 6.09 2.14 Intr + 57691 57789 99 0 0 114 77 174 0.999 19.71 2.15 Intr + 57968 58097 130 1 1 58 75 178 0.963 14.27 2.16 Intr + 58725 58847 123 1 0 29 84 290 0.990 23.76 2.17 Intr + 58941 59047 107 1 2 118 105 52 0.956 10.33 2.18 Intr + 61075 61108 34 0 1 118 64 -14 0.523 -2.52 2.19 Intr + 61283 61474 192 0 0 35 68 349 0.572 27.58 2.20 Intr + 61761 61864 104 1 2 90 83 203 0.725 20.39 2.21 Intr + 62196 62254 59 2 2 100 117 78 0.997 10.07 2.22 Intr + 62385 62408 24 0 0 110 87 47 0.950 4.42 2.23 Intr + 63744 63892 149 0 2 81 53 242 0.989 20.39 2.24 Intr + 63985 64164 180 2 0 89 98 445 0.999 45.96 2.25 Intr + 65116 65264 149 2 2 93 76 270 0.990 26.76 2.26 Intr + 70244 70448 205 1 1 136 96 257 0.992 30.60 2.27 Intr + 71514 71671 158 1 2 6 86 149 0.828 6.74 2.28 Intr + 72083 72263 181 1 1 79 100 347 0.999 34.96 2.29 Intr + 72377 72514 138 0 0 100 66 218 0.999 21.74 2.30 Intr + 73577 73759 183 0 0 105 81 392 0.985 40.48 2.31 Intr + 73849 73980 132 2 0 93 105 253 0.996 28.62 2.32 Intr + 75168 75377 210 1 0 77 46 356 0.732 29.71 2.33 Intr + 75979 76218 240 2 0 120 113 255 0.995 29.25 2.34 Intr + 76272 76400 129 1 0 120 38 14 0.628 0.77 2.35 Intr + 77104 77253 150 2 0 98 77 198 0.999 20.35 2.36 Intr + 77832 78020 189 1 0 102 109 212 0.990 24.78 2.37 Intr + 78107 78262 156 0 0 103 38 212 0.752 18.19 2.38 Intr + 78346 78510 165 2 0 54 80 296 0.998 25.85 2.39 Intr + 78603 78713 111 1 0 104 80 141 0.999 15.75 2.40 Term + 78819 78958 140 1 2 97 47 112 0.999 6.43 2.41 PlyA + 79199 79204 6 1.05 3.09 PlyA - 79365 79360 6 1.05 3.08 Term - 79530 79459 72 0 0 88 54 90 0.997 3.80 3.07 Intr - 79775 79613 163 1 1 95 80 197 0.998 20.09 3.06 Intr - 80002 79852 151 2 1 103 94 173 0.583 19.13 3.05 Intr - 84288 84107 182 2 2 90 76 284 0.817 27.43 3.04 Intr - 84552 84417 136 1 1 81 47 165 0.971 11.83 3.03 Intr - 84842 84723 120 0 0 133 81 54 0.992 10.17 3.02 Intr - 85489 85300 190 1 1 99 80 271 0.999 27.08 3.01 Init - 86629 86375 255 1 0 52 77 510 0.971 41.52 3.00 Prom - 87440 87401 40 -5.21 4.00 Prom + 89679 89718 40 -3.61 4.01 Init + 90213 90223 11 2 2 58 64 5 0.144 -4.92 4.02 Intr + 94618 94766 149 1 2 103 40 186 0.625 15.69 4.03 Intr + 95771 95847 77 0 2 83 46 52 0.930 0.23 4.04 Intr + 96704 96863 160 1 1 75 71 96 0.472 6.67 4.05 Term + 97875 98227 353 1 2 25 39 174 0.137 1.20 4.06 PlyA + 98734 98739 6 1.05 5.04 PlyA - 98880 98875 6 1.05 5.03 Term - 100126 99998 129 1 0 78 42 139 0.996 6.79 5.02 Intr - 100366 100213 154 0 1 115 110 252 0.997 30.69 5.01 Init - 100577 100450 128 2 2 71 96 172 0.999 15.89 5.00 Prom - 101215 101176 40 1.99 6.00 Prom + 105829 105868 40 -2.21 6.01 Init + 106284 106443 160 2 1 72 75 231 0.971 18.23 6.02 Intr + 113342 113468 127 0 1 46 61 78 0.003 1.14 6.03 Intr + 124778 124842 65 2 2 24 109 76 0.481 2.15 6.04 Intr + 129847 129877 31 2 1 142 79 -18 0.760 0.37 6.05 Intr + 131163 131372 210 0 0 102 72 370 0.999 35.35 6.06 Intr + 133515 133691 177 0 0 85 80 256 0.884 24.05 6.07 Intr + 133858 133988 131 1 2 150 87 104 0.999 17.34 6.08 Intr + 134481 134616 136 1 1 99 30 198 0.999 15.23 6.09 Intr + 135164 135281 118 2 1 102 64 179 0.985 17.87 6.10 Intr + 136572 136656 85 2 1 122 32 162 0.968 13.89 6.11 Intr + 138173 138276 104 0 2 118 50 94 0.421 8.99 6.12 Intr + 138729 138929 201 2 0 137 110 164 0.928 23.50 6.13 Intr + 140045 140219 175 1 1 130 61 114 0.991 12.93 6.14 Intr + 141087 141197 111 1 0 104 9 214 0.781 15.95 6.15 Intr + 141323 141511 189 0 0 103 86 79 0.911 9.28 6.16 Intr + 143880 144061 182 1 2 96 81 221 0.930 22.30 6.17 Intr + 144668 144925 258 1 0 82 82 440 0.877 40.99 6.18 Term + 145665 145820 156 2 0 122 46 86 0.956 6.05 6.19 PlyA + 147184 147189 6 1.05 7.39 PlyA - 148452 148447 6 1.05 7.38 Term - 149489 149368 122 0 2 135 42 156 0.999 14.64 7.37 Intr - 150386 150190 197 1 2 68 78 262 0.786 22.78 7.36 Intr - 151554 151431 124 1 1 78 68 138 0.999 10.95 7.35 Intr - 151885 151765 121 1 1 127 101 209 0.999 26.67 7.34 Intr - 152064 151981 84 0 0 60 94 187 0.982 17.01 7.33 Intr - 152572 152501 72 1 0 76 91 89 0.996 8.10 7.32 Intr - 152751 152646 106 2 1 51 92 85 0.768 5.92 7.31 Intr - 154448 154369 80 2 2 124 62 119 0.974 11.74 7.30 Intr - 155546 155478 69 2 0 111 95 107 0.908 13.57 7.29 Intr - 155934 155728 207 0 0 39 82 357 0.999 30.00 7.28 Intr - 156119 156021 99 2 0 82 91 77 0.996 8.21 7.27 Intr - 156466 156323 144 1 0 99 64 174 0.999 17.09 7.26 Intr - 156932 156812 121 1 1 69 59 184 0.981 14.60 7.25 Intr - 157180 157050 131 1 2 132 64 191 0.912 21.10 7.24 Intr - 157309 157258 52 0 1 88 105 75 0.999 8.60 7.23 Intr - 157512 157415 98 0 2 106 63 165 0.999 15.11 7.22 Intr - 157659 157603 57 0 0 114 94 56 0.994 8.37 7.21 Intr - 157832 157742 91 1 1 94 80 115 0.998 11.80 7.20 Intr - 158099 157975 125 2 2 52 82 129 0.679 8.59 7.19 Intr - 158321 158204 118 1 1 117 96 206 0.999 25.27 7.18 Intr - 161345 161242 104 2 2 126 69 57 0.998 7.07 7.17 Intr - 161732 161628 105 2 0 60 77 126 0.483 9.61 7.16 Intr - 161979 161910 70 2 1 83 94 84 0.999 8.18 7.15 Intr - 162233 162165 69 1 0 85 79 85 0.985 6.09 7.14 Intr - 162404 162360 45 1 0 119 89 89 0.575 10.11 7.13 Intr - 164016 163782 235 1 1 127 9 342 0.350 27.48 7.12 Intr - 164326 164260 67 1 1 115 77 49 0.979 5.47 7.11 Intr - 164476 164417 60 1 0 104 76 92 0.839 9.02 7.10 Intr - 164669 164562 108 2 0 29 83 178 0.994 12.38 7.09 Intr - 164922 164887 36 0 0 102 110 -11 0.727 1.44 7.08 Intr - 165830 165624 207 2 0 79 75 31 0.021 0.70 7.07 Intr - 168387 168311 77 1 2 76 93 153 0.920 14.33 7.06 Intr - 169012 168890 123 2 0 35 94 153 0.812 11.66 7.05 Intr - 169333 169199 135 2 0 73 105 117 0.971 12.95 7.04 Intr - 170065 169973 93 2 0 145 63 82 0.998 11.83 7.03 Intr - 171142 171007 136 1 1 135 92 156 0.992 21.35 7.02 Intr - 173079 172917 163 2 1 101 86 163 0.710 17.89 7.01 Init - 176700 176642 59 0 2 79 52 121 0.995 8.33 7.00 Prom - 181071 181032 40 -6.10 8.04 PlyA - 181704 181699 6 1.05 8.03 Term - 183492 183392 101 1 2 39 45 63 0.323 -4.31 8.02 Intr - 186196 185776 421 1 1 53 113 193 0.444 12.39 8.01 Init - 193766 193764 3 2 0 113 81 0 0.255 1.73 8.00 Prom - 193885 193846 40 -3.31 9.07 PlyA - 194762 194757 6 1.05 9.06 Term - 196526 195886 641 0 2 39 44 820 0.971 67.49 9.05 Intr - 196877 196803 75 0 0 112 84 39 0.983 5.88 9.04 Intr - 197553 197304 250 0 1 57 86 258 0.597 20.05 9.03 Intr - 197895 197665 231 0 0 101 72 327 0.766 30.90 9.02 Intr - 198216 198121 96 0 0 69 43 181 0.803 12.41 9.01 Intr - 199992 199277 716 1 2 56 64 852 0.475 71.40 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 106686 106795 110 1 2 62 39 85 0.927 -0.03 S.002 Init - 165740 165624 117 2 0 129 75 19 0.808 4.98 S.003 Term - 168190 168137 54 1 0 105 47 72 0.905 2.65 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_1|236_aa DNTEAEKRDPQELVASFSERVRNMSPDEIKIPPEPPGRCSNHLQNHVTLRARQPDNKLQP DKIQKLYERKIKEGMDMNYIIQRKKEFRNPSIYEKLIQFCAIDELGTNYPKDMFDPHGWS EDSYYEALAKAQKIEMDKLEKAKKERTKIEFVTGTKKGTTTNATSTTTTTASTAVADAQK RKSKWDSAIPVTTIAQPTILTTTATLPAVVTVTTSASGSKTTVISAVGTIVKKAKQ >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_1|711_bp gataatacagaagcagaaaagcgagacccccaggaactcgtggcctccttttctgaaaga gttcggaacatgtcgcctgatgaaatcaagatcccgccagaaccccctggcagatgttca aatcacttgcaaaatcacgtcaccctccgtgccagacaaccagacaacaagctccagcct gacaagatccagaagctttatgaacgaaagataaaggagggaatggatatgaactacatt atccaaaggaagaaagaatttcggaaccctagcatctacgagaagctgatccagttctgt gccattgacgagcttggcaccaactacccaaaggatatgtttgatccccatggctggtct gaggactcctactatgaggcattagccaaggcccagaaaattgagatggacaaattggaa aaggccaaaaaggagcgaacaaaaattgagtttgtgacgggcaccaaaaaaggcaccacg accaacgccacgtccaccaccactaccactgccagcacagctgttgcagatgctcagaag agaaagagcaagtgggattcggctatcccagtgacaacgatagcccagcccaccatcctc accaccacagccaccctgccagctgttgtcacggtcaccaccagcgccagcggctccaag accaccgtcatctctgctgtgggcaccattgtgaagaaggccaagcagtga >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_2|1977_aa MAGPRPSPWARLLLAALISVSLSGTLANRCKKAPVKSCTECVRVDKDCAYCTDEMFRDRR CNTQAELLAAGCQRESIVVMESSFQITEVPGVGTGETQIDTTLRRSQMSPQGLRVRLRPG EERHFELEVFEPLESPVDLYILMDFSNSMSDDLDNLKKMGQNLARVLSQLTSDYTIGFGK FVDKVSVPQTDMRPEKLKEPWPNSDPPFSFKNVISLTEDVDEFRNKLQGERISGNLDAPE GGFDAILQTAVCTRDIGWRPDSTHLLVFSTESAFHYEADGANVLAGIMSRNDERCHLDTT GTYTQYRTQDYPSVPTLVRLLAKHNIIPIFAVTNYSYSYYEKLHTYFPVSSLGVLQEDSS NIVELLEEAFNRIRSNLDIRALDSPRGLRTEVTSKMFQKTRTGSFHIRRGEVVRLCGGSG VGDRHSAPHRVESFKTAVKSVAPGVRQAWVQIPGPSRSDEPRLLLCLLVSSACKRRARRL AGAVNGLVSRSPEALATVIVAMIVTALGRREFPALREGIYQVQLRALEHVDGTHVCQLPE DQKGNIHLKPSFSDGLKMDAGIICDVCTCELQKEVRSARCSFNGDFVCGQCVCSEGWSGQ TCNCSTGSLSDIQPCLREGEDKPCSGRGECQCGHCVCYGEGRYEGQFCEYDNFQCPRTSG FLCNDRGRCSMGQCVCEPGWTGPSCDCPLSNATCIDSNGGICNGRGHCECGRCHCHQQSL YTDTICEINYSAIHPGLCEDLRSCVQCQAWGTGEKKGRTCEECNFKVKMVDELKRAEEVV VRCSFRDEDDDCTYSYTMEGDGAPGPNSTVLVHKKKDCPPGSFWWLIPLLLLLLPLLALL LLLCWKYCACCKACLALLPCCNRGHMVGFKEDHYMLRENLMASDHLDTPMLRSGNLKGRD VVRWKVTNNMQRPGFATHAASINPTELVPYGLSLRLARLCTENLLKPDTRECAQLRQEVE ENLNEVYRQISGVHKLQQTKFRQQPNAGKKQDHTIVDTVLMAPRSAKPALLKLTEKQVEQ RAFHDLKVAPGYYTLTADQDARGMVEFQEGVELVDVRVPLFIRPEDDDEKQLLVEAIDVP AGTATLGRRLVNITIIKEQARDVVSFEQPEFSVSRGDQVARIPVIRRVLDGGKSQVSYRT QDGTAQGNRDYIPVEGELLFQPGEAWKELQVKLLELQEVDSLLRGRQVRRFHVQLSNPKF GAHLGQPHSTTIIIRDPDELDRSFTSQMLSSQPPPHGDLGAPQNPNAKAAGSRKIHFNWL PPSGKPMGYRVKYWIQGDSESEAHLLDSKVPSVELTNLYPYCDYEMKVCAYGAQGEGPYS SLVSCRTHQEVPSEPGRLAFNVVSSTVTQLSWAEPAETNGEITAYEVCYGLVNDDNRPIG PMKKVLVDNPKNRMLLIENLRESQPYRYTVKARNGAGWGPEREAIINLATQPKRPMSIPI IPDIPIVDAQSGEDYDSFLMYSDDVLRSPSGSQRPSVSDDTGCGWKFEPLLGEELDLRRV TWRLPPELIPRLSASSGRSSDAEAPHGPPDDGGAGGKGGSLPRSATPGPPGEHLVNGRMD FAFPGSTNSLHRMTTTSAAAYGTHLSPHVPHRVLSTSSTLTRDYNSLTRSEHSHSTTLPR DYSTLTSVSSHAPGASGFCLLSPPPILQHTHTHAHMHAHTCTRMHTCTQTCMRTHSRLTA GVPDTPTRLVFSALGPTSLRVSWQEPRCERPLQGYSVEYQLLNGGELHRLNIPNPAQTSV VVEDLLPNHSYVFRVRAQSQEGWGREREGVITIESQVHPQSPLCPLPGSAFTLSTPSAPG PLVFTALSPDSLQLSWERPRRPNGDIVGYLVTCEMAQGGGPATAFRVDGDSPESRLTVPG LSENVPYKFKVQARTTEGFGPEREGIITIESQDGGPFPQLGSRAGLFQHPLQSEYSSITT THTSATEPFLVDGLTLGAQHLEAGGSLTRHVTQEFVSRTLTTSGTLSTHMDQQFFQT >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_2|5934_bp atggcagggccacgccccagcccatgggccaggctgctcctggcagccttgatcagcgtc agcctctctgggaccttggcaaaccgctgcaagaaggccccagtgaagagctgcacggag tgtgtccgtgtggataaggactgcgcctactgcacagacgagatgttcagggaccggcgc tgcaacacccaggcggagctgctggccgcgggctgccagcgggagagcatcgtggtcatg gagagcagcttccaaatcacagaggtgcctggtgtggggactggggagacccagattgac accaccctgcggcgcagccagatgtccccccaaggcctgcgggtccgtctgcggcccggt gaggagcggcattttgagctggaggtgtttgagccactggagagccccgtggacctgtac atcctcatggacttctccaactccatgtccgatgatctggacaacctcaagaagatgggg cagaacctggctcgggtcctgagccagctcaccagcgactacactattggatttggcaag tttgtggacaaagtcagcgtcccgcagacggacatgaggcctgagaagctgaaggagccc tggcccaacagtgacccccccttctccttcaagaacgtcatcagcctgacagaagatgtg gatgagttccggaataaactgcagggagagcggatctcaggcaacctggatgctcctgag ggcggcttcgatgccatcctgcagacagctgtgtgcacgagggacattggctggcgcccg gacagcacccacctgctggtcttctccaccgagtcagccttccactatgaggctgatggc gccaacgtgctggctggcatcatgagccgcaacgatgaacggtgccacctggacaccacg ggcacctacacccagtacaggacacaggactacccgtcggtgcccaccctggtgcgcctg ctcgccaagcacaacatcatccccatctttgctgtcaccaactactcctatagctactac gagaagcttcacacctatttccctgtctcctcactgggggtgctgcaggaggactcgtcc aacatcgtggagctgctggaggaggccttcaatcggatccgctccaacctggacatccgg gccctagacagcccccgaggccttcggacagaggtcacctccaagatgttccagaagacg aggactgggtcctttcacatccggcggggggaagtggtacgcctctgtgggggcagcggg gtgggggataggcacagcgccccacaccgagtggaatcgtttaaaacagcggtcaagagc gtggcccctggagtcaggcaggcctgggtgcagatccctgggcctagccgctcggatgag cctaggttgctcctctgcttgttggtttcctcggcatgcaagcgtcgagcccggaggctt gctggggcagtaaatgggttagtgtcacgaagcccagaggccctggccactgtcattgtc gctatgattgtgactgcgctgggaaggagggagtttccagccctgagggagggtatatac caggtgcagctgcgggcccttgagcacgtggatgggacgcacgtgtgccagctgccggag gaccagaagggcaacatccatctgaaaccttccttctccgacggcctcaagatggacgcg ggcatcatctgtgatgtgtgcacctgcgagctgcaaaaagaggtgcggtcagctcgctgc agcttcaacggagacttcgtgtgcggacagtgtgtgtgcagcgagggctggagtggccag acctgcaactgctccaccggctctctgagtgacattcagccctgcctgcgggagggcgag gacaagccgtgctccggccgtggggagtgccagtgcgggcactgtgtgtgctacggcgaa ggccgctacgagggtcagttctgcgagtatgacaacttccagtgtccccgcacttccggg ttcctctgcaatgaccgaggacgctgctccatgggccagtgtgtgtgtgagcctggttgg acaggcccaagctgtgactgtcccctcagcaatgccacctgcatcgacagcaatgggggc atctgtaatggacgtggccactgtgagtgtggccgctgccactgccaccagcagtcgctc tacacggacaccatctgcgagatcaactactcggcgatccacccgggcctctgcgaggac ctacgctcctgcgtgcagtgccaggcgtggggcaccggcgagaagaaggggcgcacgtgt gaggaatgcaacttcaaggtcaagatggtggacgagcttaagagagccgaggaggtggtg gtgcgctgctccttccgggacgaggatgacgactgcacctacagctacaccatggaaggt gacggcgcccctgggcccaacagcactgtcctggtgcacaagaagaaggactgccctccg ggctccttctggtggctcatccccctgctcctcctcctcctgccgctcctggccctgcta ctgctgctatgctggaagtactgtgcctgctgcaaggcctgcctggcacttctcccgtgc tgcaaccgaggtcacatggtgggctttaaggaagaccactacatgctgcgggagaacctg atggcctctgaccacttggacacgcccatgctgcgcagcgggaacctcaagggccgtgac gtggtccgctggaaggtcaccaacaacatgcagcggcctggctttgccactcatgccgcc agcatcaaccccacagagctggtgccctacgggctgtccttgcgcctggcccgcctttgc accgagaacctgctgaagcctgacactcgggagtgcgcccagctgcgccaggaggtggag gagaacctgaacgaggtctacaggcagatctccggtgtacacaagctccagcagaccaag ttccggcagcagcccaatgccgggaaaaagcaagaccacaccattgtggacacagtgctg atggcgccccgctcggccaagccggccctgctgaagcttacagagaagcaggtggaacag agggccttccacgacctcaaggtggcccccggctactacaccctcactgcagaccaggac gcccggggcatggtggagttccaggagggcgtggagctggtggacgtacgggtgcccctc tttatccggcctgaggatgacgacgagaagcagctgctggtggaggccatcgacgtgccc gcaggcactgccaccctcggccgccgcctggtaaacatcaccatcatcaaggagcaagcc agagacgtggtgtcctttgagcagcctgagttctcggtcagccgcggggaccaggtggcc cgcatccctgtcatccggcgtgtcctggacggcgggaagtcccaggtctcctaccgcaca caggatggcaccgcgcagggcaaccgggactacatccccgtggagggtgagctgctgttc cagcctggggaggcctggaaagagctgcaggtgaagctcctggagctgcaagaagttgac tccctcctgcggggccgccaggtccgccgtttccacgtccagctcagcaaccctaagttt ggggcccacctgggccagccccactccaccaccatcatcatcagggacccagatgaactg gaccggagcttcacgagtcagatgttgtcatcacagccaccccctcacggcgacctgggc gccccgcagaaccccaatgctaaggccgctgggtccaggaagatccatttcaactggctg cccccttctggcaagccaatggggtacagggtaaagtactggattcagggtgactccgaa tccgaagcccacctgctcgacagcaaggtgccctcagtggagctcaccaacctgtacccg tattgcgactatgagatgaaggtgtgcgcctacggggctcagggcgagggaccctacagc tccctggtgtcctgccgcacccaccaggaagtgcccagcgagccagggcgtctggccttc aatgtcgtctcctccacggtgacccagctgagctgggctgagccggctgagaccaacggt gagatcacagcctacgaggtctgctatggcctggtcaacgatgacaaccgacctattggg cccatgaagaaagtgctggttgacaaccctaagaaccggatgctgcttattgagaacctt cgggagtcccagccctaccgctacacggtgaaggcgcgcaacggggccggctgggggcct gagcgggaggccatcatcaacctggccacccagcccaagaggcccatgtccatccccatc atccctgacatccctatcgtggacgcccagagcggggaggactacgacagcttccttatg tacagcgatgacgttctacgctctccatcgggcagccagaggcccagcgtctccgatgac actggctgcggctggaagttcgagcccctgctgggggaggagctggacctgcggcgcgtc acgtggcggctgcccccggagctcatcccgcgcctgtcggccagcagcgggcgctcctcc gacgccgaggcgccccacgggcccccggacgacggcggcgcgggcgggaagggcggcagc ctgccccgcagtgcgacacccgggccccccggagagcacctggtgaatggccggatggac tttgccttcccgggcagcaccaactccctgcacaggatgaccacgaccagtgctgctgcc tatggcacccacctgagcccacacgtgccccaccgcgtgctaagcacatcctccaccctc acacgggactacaactcactgacccgctcagaacactcacactcgaccacactgcccagg gactactccaccctcacctccgtctcctcccacgctcctggagcctcgggcttctgtctg ctgtccccaccgcccattctccaacatacacacacgcatgcacacatgcacgcacacacg tgcacacgcatgcacacatgtacacagacatgcatgcgcacacactctcgcctgactgct ggtgtgcccgacacgcccacccgcctggtgttctctgccctggggcccacatctctcaga gtgagctggcaggagccgcggtgcgagcggccgctgcagggctacagtgtggagtaccag ctgctgaacggcggtgagctgcatcggctcaacatccccaaccctgcccagacctcggtg gtggtggaagacctcctgcccaaccactcctacgtgttccgcgtgcgggcccagagccag gaaggctggggccgagagcgtgagggtgtcatcaccattgaatcccaggtgcacccgcag agcccactgtgtcccctgccaggctccgccttcactttgagcactcccagtgccccaggc ccgctggtgttcactgccctgagcccagactcgctgcagctgagctgggagcggccacgg aggcccaatggggatatcgtcggctacctggtgacctgtgagatggcccaaggaggaggg ccagccaccgcattccgggtggatggagacagccccgagagccggctgaccgtgccgggc ctcagcgagaacgtgccctacaagttcaaggtgcaggccaggaccactgagggcttcggg ccagagcgcgagggcatcatcaccatagagtcccaggatggaggacccttcccgcagctg ggcagccgtgccgggctcttccagcacccgctgcaaagcgagtacagcagcatcaccacc acccacaccagcgccaccgagcccttcctagtggatgggctgaccctgggggcccagcac ctggaggcaggcggctccctcacccggcatgtgacccaggagtttgtgagccggacactg accaccagcggaacccttagcacccacatggaccaacagttcttccaaacttga >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_3|422_aa MCAPPRGAPPEHPAPTGLCRSSCAELQARVMAALRQPQVAELLAEARRAFREEFGAEPEL AVSAPGRVNLIGEHTDYNQGLVLPMALELMTVLVGSPRKDGLVSLLTTSEGADEPQRLQF PLPTAQRSLEPGTPRWANYVKGVIQYYPAAPLPGFSAVVVSSVPLGGGLSSSASLEVATY TFLQQLCPDSGTIAARAQVCQQAEHSFAGMPCGIMDQFISLMGQKGHALLIDCRSLETSL VPLSDPKLAVLITNSNVRHSLASSEYPVRRRQCEEVARALGKESLREVQLEELEAARDLV SKEGFRRARHVVGEIRRTAQAAAALRRGDYRAFGRLMVESHRSLRDDYEVSCPELDQLVE AALAVPGVYGSRMTGGGFGGCTVTLLEASAAPHAMRHIQEHYGGTATFYLSQAADGAKVL CL >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_3|1269_bp atgtgcgcacccccgcgcggggccccgcccgagcatcccgcgccgacggggctgtgccgg agcagctgtgcagagctgcaggcgcgcgtcatggctgctttgagacagccccaggtcgcg gagctgctggccgaggcccggcgagccttccgggaggagttcggggccgagcccgagctg gccgtgtcagcgccgggccgcgtcaacctcatcggggaacacacggactacaaccagggc ctggtgctgcctatggctctggagctcatgacggtgctggtgggcagcccccgcaaggat gggctggtgtctctcctcaccacctctgagggtgccgatgagccccagcggctgcagttt ccactgcccacagcccagcgctcgctggagcctgggactcctcggtgggccaactatgtc aagggagtgattcagtactacccagctgcccccctccctggcttcagtgcagtggtggtc agctcagtgcccctggggggtggcctgtccagctcagcatccttggaagtggccacgtac accttcctccagcagctctgtccagactcgggcacaatagctgcccgcgcccaggtgtgt cagcaggccgagcacagcttcgcagggatgccctgtggcatcatggaccagttcatctca cttatgggacagaaaggccacgcgctgctcattgactgcaggtccttggagaccagcctg gtgccactctcggaccccaagctggccgtgctcatcaccaactctaatgtccgccactcc ctggcctccagcgagtaccctgtgcggcggcgccaatgtgaagaagtggcccgggcgctg ggcaaggaaagcctccgggaggtacaactggaagagctagaggctgccagggacctggtg agcaaagagggcttccggcgggcccggcacgtggtgggggagattcggcgcacggcccag gcagcggccgccctgagacgtggcgactacagagcctttggccgcctcatggtggagagc caccgctcactcagagacgactatgaggtgagctgcccagagctggaccagctggtggag gctgcgcttgctgtgcctggggtttatggcagccgcatgacgggcggtggcttcggtggc tgcacggtgacactgctggaggcctccgctgctccccacgccatgcggcacatccaggag cactacggcgggactgccaccttctacctctctcaagcagccgatggagccaaggtgctg tgcttgtga >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_4|249_aa MGPRLTTTLLLAKEHVQTYKMQLTAQGRGCLILRLTLAGKLLALQLPRPQTAGDLLTKGS GREKASHPAQEEGILSLLRARTSGPGAKSIQGPDRTLAPRNSETQATPLVLKPLACVLKK VAGRPLVHDEVAGHRIPASAATSAFLLCLCSFTLTEGYPIQEAAYNQKLSSPSGLSAQAK CGNASHCFGRLQAAQYNLRAFYASLQTGEGSLVSPTWVVTGSKQKLTHHRSQVCVLCFQT RYSIARSNI >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_4|750_bp atggggcccaggttgacaaccaccctgctgctggccaaggagcatgtccagacctacaag atgcagctgacagctcagggccgaggctgtctcatcttgcgcctcacactggctggaaag ctgctggcactgcagctgcccaggcctcagaccgctggtgacctgctgacaaagggatca gggagggaaaaggccagccacccggcccaagaagagggcatccttagtcttctgagggcc aggaccagtggaccaggtgctaaaagtatccaaggtcctgacaggactctggctcccaga aattctgaaacccaagccactccacttgtcctgaagcccttagcctgtgtcctcaagaag gtggctggaagaccacttgttcatgatgaagttgcagggcataggatacctgcatcagct gcaacttctgcttttctcctttgcctctgctcctttacccttaccgagggatatcccata caggaagccgcctacaaccaaaagctatcttcgccttctgggttgagtgctcaagccaag tgtggaaatgcaagtcactgcttcggcagattgcaagctgcccaatataatctaagagcc ttctatgccagcctgcagactggagaaggttcactagtgtcacccacttgggttgtcaca ggtagtaagcagaagctaactcatcaccgtagccaggtttgtgtactttgtttccagaca cgctacagcatagcacgttccaacatctga >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_5|136_aa MARTKQTARKSTGGKAPRKQLATKAARKSAPSTGGVKKPHRYRPGTVALREIRRYQKSTE LLIRKLPFQRLVREIAQDFKTDLRFQSAAIGALQEASEAYLVGLFEDTNLCAIHAKRVTI MPKDIQLARRIRGERA >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_5|411_bp atggcccgaaccaagcagactgctcgtaagtccaccggtgggaaagccccccgcaaacag ctggccacgaaagccgccaggaaaagcgctccctctaccggcggggtgaagaagcctcat cgctacaggcccgggaccgtggcgcttcgagagattcgtcgttatcagaagtcgaccgag ctgctcatccggaagctgcccttccagaggttggtgagggagatcgcgcaggatttcaaa accgacctgaggtttcagagcgcagccatcggtgcgctgcaggaggctagcgaagcgtac ctggtgggtctgttcgaagataccaacctgtgtgccatccacgctaagagagtcaccatc atgcccaaagacatccagttggctcgccggatacggggagagagagcttaa >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_6|871_aa MSKGPGPGGSAASSAPPAATAQVLQAQPEKPQHYTYVEPPPPRRARTPDVSGQPPQISAQ KQDTLVDLHVLPLFNTLMPEGEVSFLCVLEAMSTLSLVTEPDIIKKKADFMWFFLAVVPF LFHAHPRRYLKEFRTEQCPLFVQHKCTQHRPYTCFHWHFVNQRRRRSIRRRDGTFNYSPD VYCTKYDEATGLCPEGDECPFLHRTTGDTERRYHLRYYKTGICIHETDSKGNCTKNGLHC AFAHGPHDLRSPVYDIRELQAMEALQNGQTTVEGSIEGQSAGAASHAMIEKILSEEPRWQ ETAYVLGNYKTEPCKKPPRLCRQGYACPYYHNSKDRRRSPRKHKYRSSPCPNVKHGDEWG DPGKCENGDACQYCHTRTEQQFHPEIYKSTKCNDMQQSGSCPRGPFCAFAHVEQPPLSDD LQPSSAVSSPTQPGPVLYMPSAAGDSVPLLCRNSSLGSPSNLCGSPPGSIRKPPNLEGIV FPGESGLAPGSYKKAPGFEREDQVGAEYLKNFKCQDMLGILPAGSPLTSSISSSITSSLA ATPPSPVGTSSVPGMNANALPFYPTSDTVESVIESALDDLDLNEFGVAALEKTFDNSTVP HPGSITIGTGCGSLLQSSAPVNIPGSLGSSASFHSASPSPPVSLSSHFLQQPQGHLSQSE NTFLGTSASHGSLGLNGMNSSIWEHFASGSFSPGTSPAFLSGPGAAELARLRQELDEANS TIKQWEESWKQAKQACDAWKKEAEEAGERASAAGAECELAREQRDALEVQVKKLQEELER LHAGPEPQALPAFSDLEALSLSTLYSLQKQLRAHLEQVDKAVFHMQSVKCLKCQEQKRAV LPCQHAALCELCAEGSECPICQPGRAHTLQS >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_6|2616_bp atgtcgaagggccccgggcccggcggctccgcagcttcctcggcgcccccggccgctacc gctcaggtgctgcaggcacagcccgagaaaccgcagcactacacgtacgtagagcccccc cccccccgccgcgcgcgcacgcctgacgtcagcggccagccaccccagataagtgcacaa aagcaagataccctcgtggacctacacgtcctcccgcttttcaacaccctgatgcctgaa ggtgaggtctctttcctgtgtgtcttagaagccatgagcacgcttagcctggtgacagag ccagacatcatcaaaaagaaggccgatttcatgtggtttttcctggctgtcgttcccttc ctattccacgcacatccacgaaggtacctgaaagaattccgcacagagcagtgcccactc tttgtgcaacacaaatgcacgcagcatcggccctacacctgcttccactggcacttcgtg aaccagcggcgccgccggtccatccgccgtcgggacggcaccttcaattacagccctgac gtctactgcaccaagtacgacgaggctacaggcctctgcccggagggcgacgagtgccca ttcctgcacagaaccacaggggacactgagcgcaggtaccaccttcgttactacaaaact ggaatctgcatccacgagacagactcgaaaggcaactgcaccaaaaacggcctgcactgc gcttttgcccacgggccccatgacctccgctcccctgtctacgacatcagggagcttcag gccatggaggccttgcagaatggccagaccacggtagaggggagcatagagggccagtcg gctggggctgcgagccatgccatgatagaaaagatcctcagcgaggagcctcggtggcaa gagactgcttatgtgctggggaactataagacggagccttgcaagaagcccccgcggctg tgccgccaaggctatgcctgtccctactaccacaacagcaaggaccggcggcggagcccc cggaagcacaaatacaggtcgtctccatgtccaaacgtcaagcacggggatgagtgggga gaccctggcaagtgtgagaacggagacgcctgccagtactgccacacccgcaccgagcag cagttccaccccgagatctacaagtccaccaagtgcaacgacatgcagcagtcgggcagc tgtccccgaggacccttctgcgcctttgcccacgtagaacagccacccctgagtgacgac ctgcagccttcctcagctgtgtccagccccacccagccaggtcctgtcctgtacatgcca tctgccgccggagactcggtgcctctcctctgtagaaacagcagcctaggcagcccgtct aacctctgcggctccccaccgggctccatcaggaagcccccaaacctggagggcatcgtc ttccctggggagtctggcctggcccctggcagctataagaaggctcccggcttcgagagg gaagaccaggtgggagccgagtacctgaaaaatttcaaatgccaggacatgctgggcatc ctccccgcaggcagccccctgacctcaagcatctcttctagtatcacctccagcctggca gctaccccccctagcccagtgggcaccagcagcgtccccggcatgaatgcaaacgctctg cccttctaccccaccagcgacacggtagagtcagtcatagagtctgctttggatgacctg gacctgaatgagtttggcgtggccgccctggagaagactttcgataacagcacagtgccc cacccaggaagcatcaccatcggtactgggtgcggcagcttgctgcagagctctgcaccc gtgaacatccccggctccttgggcagctctgcctccttccactcagcatccccgtcccct cccgtcagcctctcctcgcatttcctgcagcagccccagggccacctgagtcagtcggaa aacacatttttgggaacctcagcatcacatggatctttgggtctgaacgggatgaacagc agcatctgggagcattttgcctctggaagcttctccccgggcacttcccccgctttccta tcagggccaggggctgccgagctggcccgacttcggcaagagctggatgaagccaacagc accatcaagcagtgggaggagtcctggaagcaggccaagcaggcttgtgatgcctggaag aaagaggcggaggaggctggtgagcgggccagtgcggcgggcgccgagtgcgagctggcc cgggagcagcgggatgcactggaggtgcaggtgaagaagctccaggaggagctggagcgg ctacacgcggggcctgagccccaggccctgcccgccttctccgacctggaggcgctctca ctctccaccctctactccctccagaaacaactgcgggcccacctggaacaagtggacaag gccgtgttccacatgcagtcggtgaaatgccttaagtgtcaggaacagaagcgggcagtg ctgccgtgccaacacgctgcgctgtgtgagctctgcgctgagggcagcgagtgccccatc tgccagcctggccgggcccacaccctccagtcgtga >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_7|1369_aa MALNKNHSEGGGVIVNNTESILMSYDHVELTFNDMKNVPEAFKGTKKGTVYLTPYRVSCT AGQLVERLVAVGGDVIFLSKGKDAMQSFMMPFYLMKDCEIKQPVFGANYIKGTVKAEAGG GWEGSASYKLTFTAGGAIEFGQRMLQVASQASRGEVPSGAYGYSYMPSGAYVYPPPVANG MYPCPPGYPYPPPPPEFYPGPPMMDGAMGYVQPPPPPYPGPMEPPVSGPDVPSTPAAEAK AAEAAASAYYNPGNPHNVYMPTRVAAPGSLHNPVASLSSPSTSGQGRAEKATMATLLSHP QQRPPFLRQAIKIRRRRVRDLQDPPPQMAPEIQPPSHHFSPEQRALLYEDALYTVLHRLG HPEPNHVTEASELLRYLQEAFHVEPEEHQQTLQRVRELEKPIFCLKATVKQAKGILGKDV SGFSDPYCLLGIEQGVGVPGGSPGSRHRQKAVVRHTIPEEETHRTQVITQTLNPVWDETF ILYVAVLQPPLYPGLSWVAGEFEDITNASFHLDMWDLDTVESVRQKLGELTDLHGLRRIF KEARKDKGQDDFLGNVVLRLQDLRCREDQWYPLEPRTETYPDRGQCHLQFQLIHKRAGST SWDGSLSPQAATVLFLHATQKDLSDFHQSMAQWLAYSRLYQSLEFPSSCLLHPITSIEYQ WIQGRLKAEQQEELAASFSSLLTYGLSLIRRFRSVFPLSVSDSPARLQSLLRVLVQMCKM KAFGELCPNTAPLPQLVTEALQTGTTEWFHLKQQHHQPMVQGIPEAGKALLGLVQDVIGD LHQCQRTWDKIFHNTLKIHLFSMAFRELQWLVAKRVQDHTTVVGDVVSPEMGESLFQLYI SLKELCQLRMSSSERDGVLALDNFHRWFQPAIPSWLQKTYNEALARVQRAVQMDELVPLG ELTKHSTSAVDLSTCFAQISHTARQLDWPDPEEAFMITVKFVEDTCRLALVYCSLIKARA RELSSGQKDQGQAANMLCVVVNDMEQLRLVIGKLPAQLAWEALEQRVGAVLEQGQLQNTL HAQLQSALAGLGHEIRTGVRTLAEQLEVGIAKHIQKLVGVRESVLPEDAILPLMKFLEVE LCYMNTNLVQENFSSLLTLLWTHTLTVLVEAAASQRSSSLASNRLKIALQNLEICFHAEG CGLPPKALHTATFQALQRDLELQAASSRELIRKYFCSRIQQQAETTSEELGAVTVKASYR ASEQKLRVELLSASSLLPLDSNGSSDPFVQLTLEPRHEFPELAARETQKHKKDLHPLFDE TFEFLVPAEPCRKAGACLLLTVLDYDTLGADDLEGEAFLPLREVPGLSGSEEPGEVPQTR LPLTYPAPNGDPILQLLEGRKGDREAQVFVRLRRHRAKQASQHALRPAP >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_7|4110_bp atggcgctcaacaagaatcactcggagggcggcggagtgatcgtcaataacaccgagagc atcctaatgtcctatgatcacgtggaactcacattcaatgacatgaagaacgtgccagaa gccttcaaagggaccaagaaaggcactgtctaccttaccccttaccgggtgagttgcaca gcagggcagttggttgagaggcttgttgctgttggaggtgacgtcatctttctgtccaag ggcaaggatgccatgcagtccttcatgatgccattttatctcatgaaagactgtgagatc aagcagcccgtatttggtgcaaactacatcaagggaacagtgaaggcggaagcgggaggt ggctgggaaggctctgcttcctacaagttgactttcacggcagggggcgccattgagttc ggacagcggatgctccaggtggcatctcaagcctccagaggtgaagtccccagtggagcc tatggctactcttacatgcccagcggggcctatgtctatcccccgccagtcgccaatgga atgtacccctgccctcctggctacccctatccaccgcccccacctgagttctatccagga ccccccatgatggacggggccatgggatacgtgcagcccccaccaccgccctaccctggg cccatggaacctccggtcagcggccccgatgtcccctccactcctgcagccgaagccaag gccgcagaagcagccgccagcgcctattacaacccaggcaatcctcacaacgtctacatg cccacgagggtggcagccccaggctctttgcataatcctgtggcttcgctgtcttcaccc agcaccagcggacagggaagggcagagaaggccaccatggcgacactcctctcccatccg cagcagcgccctcccttcttgcgccaggccatcaagataaggcgccgcagagtcagagat ctacaggatcccccgccccaaatggccccggagatccagcctccatcccaccacttctcc cccgagcagcgggccctgctctacgaggacgcactctacactgtcttgcaccgcctgggt catcctgagcccaaccatgtgacggaggcctctgagctgctgcgatacctgcaggaggcc ttccacgtggagcccgaggagcaccagcagacactgcagcgggtcagggagcttgagaag ccaatattttgtctgaaggcaacagtgaaacaggccaagggcattctgggcaaagatgtc agtgggttcagcgacccctactgcctgctgggcattgagcagggggtaggtgtgccaggg ggcagccccgggtcccggcatcggcagaaggctgtggtgaggcacaccatccccgaggag gagacccaccgcacgcaggtcatcacccagacactcaaccccgtctgggacgagaccttc atcctgtacgtggccgtgctccagcccccactctatccaggtctttcctgggtagcaggg gagtttgaggacatcaccaatgcgagctttcatctggacatgtgggacctggacactgtg gagtctgtccgacagaagcttggggagctcacggatctgcatgggcttcgcaggatcttt aaagaggcccggaaggacaaaggccaggacgactttctggggaacgtggttctgaggctg caggacctgcgctgccgagaggaccagtggtaccccctggaaccccgcactgagacctac ccagaccgaggccagtgccacctccagttccaactcatccataagcgggcgggaagcacc tcctgggacgggtcgctgagtccccaggctgccaccgtcctctttctgcacgccacacag aaggacctatccgacttccaccagtccatggcgcagtggctggcctacagccgcctctac cagagcctggagttccccagcagctgcctcctgcaccccatcaccagcatcgagtaccag tggatccagggtcggctcaaggcagaacagcaggaggagctggccgcctcattcagctcc ctgctgacctacggcctctccctcatccggaggttccgctctgtcttccccctctctgtc tcggactccccagcccggctgcagtctcttctcagggtcctggtacagatgtgcaagatg aaggcctttggagaactgtgccccaacaccgccccattgccccagctggtgactgaggcc ctgcagactggcaccactgaatggttccacctgaagcagcagcaccatcaacccatggtg cagggcatcccggaggcaggcaaggccttgctgggcctggtacaggatgtcattggcgac ctgcaccagtgccagcgcacatgggacaagatcttccacaataccctcaagatccacctc ttctccatggctttccgggagctgcagtggctggtggccaagcgggtgcaggaccacacg acggttgtgggtgatgtagtgtccccagagatgggcgagagtctgttccagctctacatc agcctcaaggagctctgccagctgcgcatgagctcctcagagagggatggagtcctggcc ctggataatttccaccgctggttccagccggccatcccctcctggctgcagaagacgtac aacgaggccctggcgcgggtgcagcgcgctgtgcagatggatgagctggtgcccctgggt gaactgaccaagcacagcacatcagcggtggatctatccacctgctttgcccagatcagc cacactgcccggcagctggactggccagacccagaggaggccttcatgattaccgtcaag tttgtggaggacacctgtcgcctggccctggtgtactgcagccttataaaggcccgggcc cgcgagctctcttcaggccagaaggaccaaggccaggcagccaacatgctgtgtgtggtg gtgaatgacatggagcagctgcggctggtgatcggcaagttgcccgcccagctggcatgg gaggccctggagcagcgggtaggggccgtgctggagcaggggcagctgcagaacacgctg catgcccagctgcagagcgcgctggccgggctgggccatgagatccgcactggcgtccgc accctggccgagcagttggaggtgggcatcgccaagcacatccagaaactggtgggcgtc agggagtctgtcctgcctgaggatgccattctgcccctgatgaagttcctggaggtggag ctttgctacatgaacaccaacttggtgcaggagaacttcagcagcctcctgaccctgctc tggacccacacactcacagtgctggtggaggcggccgcctcccagcgcagctcatccctg gcttccaacaggctgaagattgccctgcagaacctggagatctgcttccacgctgagggc tgtggcctgccacccaaggccctgcacactgccaccttccaggctctgcagagggacctg gagctgcaggcggcctccagccgggaactcatccggaagtacttctgcagccgaatccag cagcaggcagaaaccacctctgaggagctgggggctgtgacagtcaaggcctcctaccgc gcctctgagcagaagctgcgtgtggagctgctcagcgcctccagcctgctgcccctggac tccaatggctccagcgacccctttgtccagctgaccttggagcccaggcatgagttccct gagctggccgcccgggagacccagaagcacaagaaggaccttcacccattgtttgatgag acctttgaattcctggtgcctgctgagccgtgccgcaaggctggggcatgcctcctgctc accgtgctggactacgacacgctgggggccgacgacctggaaggcgaggccttcctgccg ctgcgtgaggtgcccgggctgagtggctctgaggagcctggtgaggtgcctcagacccgc ctgcccctcacgtaccccgcacccaacggggacccaatcctgcagctgctggagggccgg aagggtgaccgagaagcccaggtctttgtgaggctgcggcggcaccgggccaagcaggcc tcccagcatgccttgcggccggcaccgtag >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_8|174_aa MRGVPPAKAPQYWDADIFRGHTAPFWLSVVLEAQKRKCTRGVYKHSNSRNCSEQALQLCL GKLNLTEPGGPSGNFRVGPISIATRNSPRHALALLLMRERAICVLEIPTAKKDSSKIAHF HVTKHHQRLTGHLPLRSRATNVSPSYKGTSHAGFRAHPNDLILTNDVFNNPISK >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_8|525_bp atgaggggggtccctccagccaaggctcctcagtactgggatgcggacatcttcagaggt cacaccgcccctttctggctttctgtggttttggaggctcagaagcggaaatgcactcga ggtgtgtataaacactctaacagcaggaattgctcagaacaggccttgcagctgtgtctg gggaaactgaacttgacagagccaggaggtcccagcgggaacttcagggtggggcccatc tctatagcaaccagaaacagccccagacacgctctggccctgcttctgatgagggagcgg gcaatttgtgttcttgaaatacccacggccaaaaaggactcatccaaaatagcccacttc cacgtcaccaaacatcaccaacgcctcacagggcatctgccactccgcagcagagcaacc aacgtttctccttcttacaagggcaccagtcacgctggatttagggcccaccctaatgat ctcatcttaactaatgatgtcttcaacaaccctatttccaaataa >gi568815581r:75678598_75879174|GENSCAN_predicted_peptide_9|669_aa XRSTIGGALGGRGVMDGSGPFSCPICLEPLREPVTLPCGHNFCLACLGALWPHRGASGAG GPGGAARCPLCQEPFPDGLQLRKNHTLSELLQLRQGSGPGSGPGPAPALAPEPSAPSALP SVPEPSAPCAPEPWPAGEEPVRCDACPEGAALPAALSCLSCLASFCPAHLGPHERSPALR GHRLVPPLRRLEESLCPRHLRPLERYCRAERVCLCEACAAQEHRGHELVPLEQERALQEA EQSKVLSAVEDRMDELGAGIAQSRRTVALIKSAAVAERERVSRLFADAAAALQGFQTQVL GFIEEGEAAMLGRSQGDLRRQEEQRSRLSRARQNLSQVPEADSVSFLQQGGAMASSTLMG ICLAQELLALRLALEDGCGPGPGPPRELSFTKSSQAVRAVRDMLAVACVNQWEQLRGPGG NEDGPQKLDSEADAEPQDLESTNLLESEAPRDYFLKFAYIVDLDSDTADKFLQLFGTKGV KRVLCPINYPLSPTRFTHCEQVLGEGALDRGTYYWEVEIIEGWVSMGVMAEDFSPQEPYD RGRLGRNAHSCCLQWNGRSFSVWFHGLEAPLPHPFSPTVGVCLEYADRALAFYAVRDGKM SLLRRLKASRPRRGGIPASPIDPFQSRLDSHFAGLFTHRLKPAFFLESVDAHLQIGPLKK SCISVLKRR >gi568815581r:75678598_75879174|GENSCAN_predicted_CDS_9|2010_bp ngccggagcacaatcggcggcgccctgggcggccgcggagtcatggacggcagtggaccc ttcagctgccccatctgcctagagccactccgggagccggtgacgctgccctgcggccac aacttctgtctcgcctgcctgggcgcgctctggccgcatcgtggcgcgagtggagccggc ggacccggaggcgcggcccgctgcccgctgtgccaggagcccttccccgacggccttcag ctccgcaagaaccacacgctgtccgagctgctgcagctccgccagggctcgggccccggg tccggccccggcccggcccctgccctggccccggagccctcggcacccagcgcgctgccc agtgtcccggagccgtcggccccctgcgctcccgagccgtggcccgcgggcgaagagcca gtgcgctgcgacgcgtgccccgagggcgcggccctgcccgccgcgctgtcctgcctctcc tgcctcgcctccttttgccccgcgcacctgggcccgcacgagcgcagccccgccctccgc ggacaccgcctggtgccgccgctgcgccggctagaggagagcctgtgcccgcgccaccta cggccgctcgagcgctactgccgcgcggagcgcgtgtgtctgtgcgaggcctgcgccgca caggagcaccgcggccacgagctggtgccgctggagcaggagcgcgcgcttcaggaggct gagcagtccaaagtcctgagcgccgtggaggaccgcatggacgagctgggtgctggcatt gcacagtccaggcgcacagtggccctcatcaagagtgcagccgtagcagagcgggagagg gtgagccggctgtttgcagatgctgcggccgccctgcagggcttccagacccaggtgctg ggcttcatcgaggagggggaagctgccatgctaggccgctcccagggtgacctgcggcga caggaggaacagcgcagccgcctgagccgagcccgccagaatctcagccaggtccctgaa gctgactcagtcagcttcctgcagcaaggaggagccatggccagcagcactttaatgggc atttgtctggcacaggagctgctggcactaaggctggccctggaggatgggtgtggccct gggcctggacccccgagggagctcagcttcaccaaatcatcccaagctgtccgtgcagtg agagacatgctggccgtggcctgcgtcaaccagtgggagcagctgagggggccgggtggc aacgaggatgggccacagaagctggactcggaagctgatgctgagccccaagacctcgag agtacgaacctcttggagagtgaagctcccagggactatttcctcaagtttgcctatatt gtggatttggacagcgacacagcagacaagttcctgcagctgtttggaaccaaaggtgtc aagagggtgctgtgtcctatcaactaccccttgtcgcccacccgcttcacccattgtgag caggtgctgggcgagggtgccctggaccgaggcacctactactgggaggtggagattatc gagggctgggtcagcatgggggtcatggccgaagacttctccccacaagagccctacgac cgcggccggctgggccgcaacgcccactcctgctgcctgcagtggaatggacgcagcttc tccgtctggtttcatgggctggaggctcccctgccccaccccttctcgcccacggttggg gtctgcctggaatacgctgaccgtgccttggccttctatgctgtacgggacggcaagatg agcctcctgcggaggctgaaggcctcccggccccgccggggtggcatcccggcctccccc attgaccccttccagagccgcctggacagtcactttgcggggctcttcacccacagactc aagcctgccttcttcctggagagtgtggacgcccacttgcagatcgggcccctcaagaag tcctgcatatccgtgctgaagaggaggtga