GENSCAN 1.0 Date run: 5-Nov-116 Time: 20:48:07 Sequence gi568815581r:44220004_44423562 : 203559 bp : 51.66% 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 Term + 694 878 185 2 2 5 39 178 0.445 2.63 1.02 PlyA + 1088 1093 6 -0.45 2.28 PlyA - 1101 1096 6 -0.45 2.27 Term - 2013 1772 242 1 2 62 48 199 0.759 9.82 2.26 Intr - 9350 9225 126 0 0 91 47 183 0.984 15.66 2.25 Intr - 9581 9455 127 2 1 1 36 161 0.702 2.96 2.24 Intr - 29756 29699 58 1 1 107 87 13 0.035 2.48 2.23 Intr - 30535 30459 77 1 2 124 28 162 0.048 12.61 2.22 Intr - 31329 31156 174 0 0 77 56 253 0.989 21.65 2.21 Intr - 31585 31416 170 2 2 85 59 324 0.907 29.38 2.20 Intr - 33368 33115 254 1 2 100 92 365 0.987 35.71 2.19 Intr - 34659 34493 167 0 2 101 57 143 0.987 11.77 2.18 Intr - 35293 35204 90 1 0 102 60 170 0.999 16.29 2.17 Intr - 35843 35670 174 2 0 35 82 205 0.931 15.25 2.16 Intr - 37541 37347 195 2 0 80 81 411 0.999 39.73 2.15 Intr - 37804 37656 149 2 2 87 -7 204 0.980 11.26 2.14 Intr - 38177 37983 195 0 0 112 52 368 0.999 35.51 2.13 Intr - 38620 38410 211 1 1 122 50 249 0.999 23.51 2.12 Intr - 39341 39160 182 0 2 118 86 265 0.999 29.40 2.11 Intr - 39578 39494 85 2 1 114 86 52 0.999 7.49 2.10 Intr - 39929 39806 124 1 1 100 109 43 0.999 8.69 2.09 Intr - 40536 40401 136 1 1 113 49 139 0.930 12.63 2.08 Intr - 40812 40632 181 0 1 27 84 184 0.979 11.86 2.07 Intr - 41633 41572 62 0 2 61 100 50 0.984 2.44 2.06 Intr - 42723 42633 91 0 1 85 99 181 0.985 18.97 2.05 Intr - 42931 42849 83 2 2 91 94 58 0.471 6.55 2.04 Intr - 49320 49203 118 0 1 150 -3 18 0.013 -0.56 2.03 Intr - 53197 53144 54 1 0 127 96 -7 0.893 3.66 2.02 Intr - 54241 54069 173 2 2 53 113 27 0.593 1.88 2.01 Init - 61954 61885 70 1 1 83 57 52 0.295 2.76 2.00 Prom - 63110 63071 40 -3.71 3.00 Prom + 64204 64243 40 0.19 3.01 Init + 88857 88936 80 2 2 110 80 154 0.961 17.29 3.02 Intr + 92577 92692 116 0 2 87 86 196 0.999 19.89 3.03 Intr + 93116 93249 134 0 2 72 100 191 0.595 19.57 3.04 Intr + 93334 93500 167 0 2 69 71 116 0.960 7.27 3.05 Intr + 94732 94821 90 1 0 121 75 251 0.999 26.71 3.06 Intr + 94926 95006 81 0 0 79 83 122 0.999 10.05 3.07 Intr + 95152 95317 166 1 1 73 91 465 0.999 45.78 3.08 Intr + 95449 95606 158 0 2 47 42 401 0.999 30.72 3.09 Intr + 96382 96519 138 1 0 121 99 144 0.999 18.89 3.10 Intr + 96616 96722 107 1 2 70 97 141 0.995 13.56 3.11 Term + 98093 98235 143 0 2 107 55 158 0.979 12.80 3.12 PlyA + 98648 98653 6 1.05 4.11 PlyA - 99114 99109 6 -0.45 4.10 Term - 100113 99998 116 1 2 135 48 176 0.999 17.34 4.09 Intr - 100273 100193 81 2 0 89 82 123 0.983 11.91 4.08 Intr - 100433 100352 82 2 1 70 78 34 0.996 0.31 4.07 Intr - 100746 100619 128 1 2 73 113 102 0.799 12.10 4.06 Intr - 101228 101055 174 0 0 52 96 120 0.995 9.63 4.05 Intr - 101555 101431 125 1 2 88 52 165 0.999 13.63 4.04 Intr - 101764 101697 68 1 2 41 76 62 0.943 -1.50 4.03 Intr - 102525 102416 110 1 2 113 77 81 0.605 10.00 4.02 Intr - 103340 103281 60 0 0 77 101 124 0.989 11.80 4.01 Init - 103559 103475 85 2 1 81 52 82 0.994 3.04 4.00 Prom - 110811 110772 40 -3.01 5.00 Prom + 112973 113012 40 -2.91 5.01 Init + 117333 117380 48 2 0 52 86 23 0.644 -0.61 5.02 Term + 117526 117639 114 0 0 23 48 173 0.909 5.67 5.03 PlyA + 120132 120137 6 1.05 6.00 Prom + 126737 126776 40 -6.01 6.01 Init + 129162 129299 138 2 0 65 105 147 0.953 12.21 6.02 Intr + 129423 129548 126 2 0 113 83 -10 0.586 2.38 6.03 Intr + 129664 129748 85 0 1 102 61 -46 0.187 -6.01 6.04 Intr + 130225 130337 113 2 2 83 87 101 0.576 10.10 6.05 Intr + 130439 130574 136 1 1 -1 94 99 0.986 2.25 6.06 Intr + 130688 130797 110 0 2 98 92 101 0.965 12.00 6.07 Intr + 131034 131160 127 2 1 63 81 98 0.959 7.36 6.08 Intr + 131360 131457 98 0 2 120 80 72 0.982 9.83 6.09 Intr + 131547 131792 246 2 0 117 61 71 0.882 5.49 6.10 Intr + 132012 132245 234 2 0 77 84 130 0.665 9.92 6.11 Intr + 132338 132568 231 1 0 101 82 329 0.943 32.10 6.12 Term + 132658 132795 138 0 0 70 55 44 0.925 -2.43 6.13 PlyA + 133080 133085 6 1.05 7.10 PlyA - 133230 133225 6 -3.44 7.09 Term - 135188 133730 1459 1 1 129 43 2263 0.985 216.69 7.08 Intr - 135838 135712 127 2 1 54 105 259 0.999 24.44 7.07 Intr - 136071 135955 117 1 0 97 99 162 0.999 19.14 7.06 Intr - 136349 136170 180 0 0 107 103 182 0.999 21.96 7.05 Intr - 136585 136427 159 2 0 117 96 91 0.999 13.27 7.04 Intr - 139668 139576 93 1 0 74 107 173 0.999 18.23 7.03 Intr - 140129 139902 228 0 0 114 76 274 0.998 27.17 7.02 Intr - 142744 142709 36 2 0 85 94 23 0.571 1.32 7.01 Init - 143711 143594 118 2 1 95 96 263 0.998 26.12 7.00 Prom - 144348 144309 40 -8.19 8.02 PlyA - 144559 144554 6 -0.45 8.01 Sngl - 145295 145011 285 2 0 86 41 244 0.991 15.35 8.00 Prom - 148099 148060 40 -2.61 9.02 PlyA - 148531 148526 6 1.05 9.01 Sngl - 149158 148547 612 1 0 19 42 277 0.545 11.74 9.00 Prom - 149901 149862 40 -9.93 10.34 PlyA - 150230 150225 6 1.05 10.33 Term - 152420 152361 60 2 0 116 45 138 0.999 10.40 10.32 Intr - 154467 154351 117 0 0 54 100 104 0.996 9.37 10.31 Intr - 154757 154656 102 2 0 42 109 58 0.902 4.17 10.30 Intr - 155108 154995 114 2 0 72 75 164 0.934 14.65 10.29 Intr - 155713 155588 126 1 0 135 41 67 0.967 8.08 10.28 Intr - 155982 155830 153 0 0 70 116 130 0.995 14.78 10.27 Intr - 156181 156052 130 0 1 65 72 107 0.567 8.00 10.26 Intr - 156385 156305 81 0 0 116 76 160 0.999 16.85 10.25 Intr - 157085 157006 80 2 2 102 69 56 0.999 3.94 10.24 Intr - 157787 157695 93 2 0 43 94 81 0.937 4.86 10.23 Intr - 158506 158359 148 0 1 136 64 280 0.999 31.15 10.22 Intr - 158707 158640 68 1 2 86 39 52 0.998 -1.70 10.21 Intr - 159811 159686 126 1 0 50 91 117 0.998 9.58 10.20 Intr - 160150 159999 152 2 2 76 27 202 0.999 13.29 10.19 Intr - 160298 160243 56 1 2 95 73 33 0.991 1.61 10.18 Intr - 160487 160383 105 1 0 44 81 64 0.680 1.13 10.17 Intr - 160642 160597 46 2 1 67 99 72 0.994 4.16 10.16 Intr - 161058 160876 183 1 0 103 49 140 0.340 11.88 10.15 Intr - 163701 163490 212 2 2 75 77 190 0.980 15.68 10.14 Intr - 163943 163891 53 2 2 111 68 69 0.996 5.39 10.13 Intr - 164135 164082 54 2 0 88 75 77 0.692 6.06 10.12 Intr - 165073 164889 185 2 2 103 49 171 0.744 14.73 10.11 Intr - 165220 165161 60 2 0 93 84 14 0.572 0.70 10.10 Intr - 165332 165279 54 0 0 152 13 87 0.839 7.04 10.09 Intr - 165713 165548 166 2 1 64 57 120 0.620 6.55 10.08 Intr - 165918 165809 110 1 2 130 34 115 0.795 10.80 10.07 Intr - 166128 166007 122 2 2 41 75 177 0.468 12.34 10.06 Intr - 169385 169283 103 0 1 76 83 179 0.017 15.93 10.05 Intr - 177737 177569 169 2 1 41 94 144 0.923 10.33 10.04 Intr - 181450 177862 3589 0 1 25 57 2245 0.613 203.78 10.03 Intr - 186048 185918 131 0 2 69 77 171 0.420 14.10 10.02 Intr - 186720 186652 69 0 0 100 93 43 0.928 5.87 10.01 Init - 194740 194738 3 1 0 86 101 0 0.642 1.03 10.00 Prom - 194821 194782 40 -2.91 11.03 PlyA - 194922 194917 6 1.05 11.02 Term - 197673 197657 17 1 2 133 42 24 0.374 0.98 11.01 Intr - 199308 199272 37 0 1 108 97 4 0.316 1.62 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 30535 30455 81 1 0 124 55 169 0.942 15.19 S.002 Term - 49320 49093 228 0 0 150 48 66 0.917 5.76 S.003 Term - 76227 76093 135 0 0 92 36 97 0.866 3.23 S.004 Init + 104489 104596 108 1 0 82 94 48 0.887 3.50 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_1|61_aa XTPLPRNPRLPGSLTERVDGSAGRGHLGARRAEQSSRSSAAADAGAASRQTKPEMAKRSD G >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_1|186_bp ncaacccctctcccccgaaatccgcggctcccgggctcacttaccgagcgtgtggatggg agcgcaggccgggggcacctgggagcacggcgggccgaacagtcgagccgcagctccgct gcagccgacgccggggcagcgagtcgccagacaaagcccgagatggcgaagcggagcgac ggctaa >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_2|1255_aa MPGHKDEELDFRDLWELIQGRTTRVGRLAGEKEFTELGMQTMNLEGQSFGPASLERKGIS GQGNSAWKDPEAKRTENIQRKLSGDPAELPACISGRMLRDSAPGRLVVQIVNGLAVAGFV HLCVPVFEFLLLESELQAGTRGAGYAGGSDHRRQLDTQDHAMEELQDDYEDMMEENLEQE EYEDPDIPESQMEEPAAHDTEATATDYHTTSHPGTHKVYVELQELVMDEKNQELRWMEAA RWVQLEENLGENGAWGRPHLSHLTFWSLLELRRVFTKGTVLLDLQETSLAGVANQLLDRF IFEDQIRPQDREELLRALLLKHSHAGELEALGGVKPAVLTRSGDPSQPLLPQHSSLETQL FCEQGDGGTEGHSPSGILEKIPPDSEATLVLVGRADFLEQPVLGFVRLQEAAELEAVELP VPIRFLFVLLGPEAPHIDYTQLGRAAATLMSERVFRIDAYMAQSRGELLHSLEGFLDCSL VLPPTDAPSEQALLSLVPVQRELLRRRYQSSPAKPDSSFYKGLDLNGGPDDPLQQTGQLF GGLVRDIRRRYPYYLSDITDAFSPQVLAAVIFIYFAALSPAITFGGLLGEKTRNQMGVSE LLISTAVQGILFALLGAQPLLVVGFSGPLLVFEEAFFSFCETNGLEYIVGRVWIGFWLIL LVVLVVAFEGSFLVRFISRYTQEIFSFLISLIFIYETFSKLIKIFQDHPLQKTYNYNVLM VPKPQGPLPNTALLSLVLMAGTFFFAMMLRKFKNSSYFPGKLRRVIGDFGVPISILIMVL VDFFIQDTYTQKLSVPDGFKVSNSSARGWVIHPLGLRSEFPIWMMFASALPALLVFILIF LESQITTLIVSKPERKMVKGSGFHLDLLLVVGMGGVAALFGMPWLSATTVRSVTHANALT VMGKASTPGAAAQIQEVKEQRISGLLVAVLVGLSILMEPILSRIPLAVLFGIFLYMGVTS LSGIQLFDRILLLFKPPKYHPDVPYVKRVKTWRMHLFTGIQIICLAVLWVVKSTPASLAL PFVLILTVPLRRVLLPLIFRNVELQCLDADDAKATFDEEEGRDEYDEVAMPVPYLETLFS GPRERRPGEDKPAGGDPEVRKQMPPPPPCPAGRELFNDPYINVQNLDKARQAEVVSMAEQ LQGEPWFHGKLSQREAEALLQLHGDFLVRESMTKAKDPSRKPTGILLFPLPRPSDRRRGS CCFLKNPRNSHPDTRHYDPGGELFARTPRILNPAKRDIEKLVLKPGRPLRSMEIG >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_2|3768_bp atgcctggccataaggatgaagaacttgactttagagacctctgggaacttattcaaggt cgcacaactagggttggaaggttggcgggagagaaggaattcacagagctgggaatgcaa acaatgaaccttgaaggtcaaagctttggtccagcaagtttggaaaggaaaggcatctca ggacaagggaacagtgcatggaaagatccagaagccaagagaacagagaacattcagaga aagctctcaggggaccctgcagaactcccagcgtgtatctctggaaggatgctcagggac tcagcccctggcaggcttgtggtgcagatagtgaatggtcttgcagtggcgggatttgtc cacctgtgtgtccctgtgtttgagtttcttctgcttgagtctgaacttcaggctgggacc cgcggtgcgggttatgctgggggctcagatcaccgtagacaactggacactcaggaccac gccatggaggagctgcaggatgattatgaagacatgatggaggagaatctggagcaggag gaatatgaagacccagacatccccgagtcccagatggaggagccggcagctcacgacacc gaggcaacagccacagactaccacaccacatcacacccgggtacccacaaggtctatgtg gagctgcaggagctggtgatggacgaaaagaaccaggagctgagatggatggaggcggcg cgctgggtgcaactggaggagaacctgggggagaatggggcctggggccgcccgcacctc tctcacctcaccttctggagcctcctagagctgcgtagagtcttcaccaagggtactgtc ctcctagacctgcaagagacctccctggctggagtggccaaccaactgctagacaggttt atctttgaagaccagatccggcctcaggaccgagaggagctgctccgggccctgctgctt aaacacagccacgctggagagctggaggccctggggggtgtgaagcctgcagtcctgaca cgctctggggatccttcacagcctctgctcccccaacactcctcactggagacacagctc ttctgtgagcagggagatgggggcacagaagggcactcaccatctggaattctggaaaag attcccccggattcagaggccacgttggtgctagtgggccgcgccgacttcctggagcag ccggtgctgggcttcgtgaggctgcaggaggcagcggagctggaggcggtggagctgccg gtgcctatacgcttcctctttgtgttgctgggacctgaggccccccacatcgattacacc cagcttggccgggctgctgccaccctcatgtcagagagggtgttccgcatagatgcctac atggctcagagccgaggggagctgctgcactccctagagggcttcctggactgcagccta gtgctgcctcccaccgatgccccctccgagcaggcactgctcagtctggtgcctgtgcag agggagctacttcgaaggcgctatcagtccagccctgccaagccagactccagcttctac aagggcctagacttaaatgggggcccagatgaccctctgcagcagacaggccagctcttc gggggcctggtgcgtgatatccggcgccgctacccctattacctgagtgacatcacagat gcattcagcccccaggtcctggctgccgtcatcttcatctactttgctgcactgtcaccc gccatcaccttcggcggcctcctgggagaaaagacccggaaccagatgggagtgtcggag ctgctgatctccactgcagtgcagggcattctcttcgccctgctgggggctcagcccctg cttgtggtcggcttctcaggacccctgctggtgtttgaggaagccttcttctcgttctgc gagaccaacggtctagagtacatcgtgggccgcgtgtggatcggcttctggctcatcctg ctggtggtgttggtggtggccttcgagggtagcttcctggtccgcttcatctcccgctat acccaggagatcttctccttcctcatttccctcatcttcatctatgagactttctccaag ctgatcaagatcttccaggaccacccactacagaagacttataactacaacgtgttgatg gtgcccaaacctcagggccccctgcccaacacagccctcctctcccttgtgctcatggcc ggtaccttcttctttgccatgatgctgcgcaagttcaagaacagctcctatttccctggc aagctgcgtcgggtcatcggggacttcggggtccccatctccatcctgatcatggtcctg gtggatttcttcattcaggatacctacacccagaaactctcggtgcctgatggcttcaag gtgtccaactcctcagcccggggctgggtcatccacccactgggcttgcgttccgagttt cccatctggatgatgtttgcctccgccctgcctgctctgctggtcttcatcctcatattc ctggagtctcagatcaccacgctgattgtcagcaaacctgagcgcaagatggtcaagggc tccggcttccacctggacctgctgctggtagtaggcatgggtggggtggccgccctcttt gggatgccctggctcagtgccaccaccgtgcgttccgtcacccatgccaacgccctcact gtcatgggcaaagccagcaccccaggggctgcagcccagatccaggaggtcaaagagcag cggatcagtggactcctggtcgctgtgcttgtgggcctgtccatcctcatggagcccatc ctgtcccgcatccccctggctgtactgtttggcatcttcctctacatgggggtcacgtcg ctcagcggcatccagctctttgaccgcatcttgcttctgttcaagccacccaagtatcac ccagatgtgccctacgtcaagcgggtgaagacctggcgcatgcacttattcacgggcatc cagatcatctgcctggcagtgctgtgggtggtgaagtccacgccggcctccctggccctg cccttcgtcctcatcctcactgtgccgctgcggcgcgtcctgctgccgctcatcttcagg aacgtggagcttcagtgtctggatgctgatgatgccaaggcaacctttgatgaggaggaa ggtcgggatgaatacgacgaagtggccatgcctgtcccctaccttgagaccctcttctct gggcccagagagaggcgtcctggtgaggacaagcctgctgggggagatccagaagtccgc aaacagatgccacctccaccaccctgtccagcaggcagagagctcttcaatgatccctat atcaacgtccagaacctagacaaggcccggcaagcagaagtggtttccatggctgagcag ctccaaggggagccctggttccacgggaagctgagccagcgagaggctgaggcattgctg cagctccatggcgacttcctggtgcgggagagcatgaccaaggccaaagatccctcgcgc aaacccactgggattttgctctttcccctaccccggcccagtgaccgacgccggggtagc tgctgcttcttgaaaaatccccgcaactcccaccccgacacccgtcactacgacccaggg ggagaactttttgctcggactcctcggatcctaaacccagcgaaacgggacattgagaag cttgtcctaaaacccggaaggcccttgcggagcatggagatcggataa >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_3|459_aa MALGLSSKKASSRNVAVERKNLITVCRFSVKTLLEKYTAEPIDDSSEEFVNFAAILEQIL SHRFKGPVSWFSSDGQRGFWDYIRLACSKVPNNCVSSIENMENISTARAKPRGEGPTPDA GHMSPSGAASKGEHDFQGRAWIRVALMEKRMSEYITTALRDTRTTRRFYDSGAIMLRDEA TILTGMLIGLSAIDFSFCLKGEVLDGKTPVVIDYTPYLKFTQSYDYLTDEEERHSAESST SEDNSPEHPYLPLVTDEDSWYSKWHKMEQKFRIVYAQKGYLEELVRLRESQLKDLEAENR RLQLQLEEAAAQNQREKRELEGVILELQEQLTGLIPSDHAPLAQGSKELTTPLVNQWPSL GTLNGAEGASNSKLYRRHSFMSTEPLSAEASLSSDSQRLGEGTRDEEPWGPIGKDPTPSM LGLCGSLASIPSCKSLASFKSNECLVSDSPEGSPALSPS >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_3|1380_bp atggctctggggctgtcctccaagaaagcgtcctctcgcaacgtggctgtggagcgtaag aacctgatcaccgtgtgcaggttctctgtgaaaacgctgctggagaagtacacagcggag cccatcgatgactcatcggaggagtttgtcaattttgcagccattttagagcagatcctc agccaccgcttcaaaggtccagtgagctggttcagctcagacgggcagcggggcttttgg gactatatccggctggcctgcagcaaagtgcccaacaactgtgtgagcagcatcgagaac atggagaacatcagcacagcccgggccaagcccaggggagaagggcccacacctgatgct ggacacatgagtccctctggggcagcaagtaaaggtgaacatgatttccagggccgggca tggatccgggtggcactgatggagaagcgcatgtcagaatacatcaccacggctctgcgt gacacccggaccaccagacggttctatgactctggagccatcatgctgcgggatgaagcc accatcctcaccggaatgctgatcggactgagcgccatcgacttcagcttctgtctaaag ggggaagtcctggacgggaagacccccgtggtcatcgattacacgccctacctaaagttc acgcagagctacgactacctgacggacgaggaggagcggcacagcgccgagagcagcacg agcgaggacaactcgcccgagcacccgtacctcccgctcgtcaccgatgaggacagctgg tacagcaagtggcacaagatggagcagaagttccgcatcgtctacgcgcagaagggctac ctggaggagctggtgcgtctgcgcgagtcgcagctgaaggacctggaggcggagaaccgg cggcttcagctgcagctggaggaggcggcggcgcagaaccagcgcgagaaacgggagctg gaaggcgtgatcctggagctgcaggagcagctgacaggtctgatccccagtgaccacgcc cctctggcccagggttccaaggagctcactacacccctggtcaatcaatggccctcactg ggaacgcttaatggggccgagggcgccagcaactccaagctctaccggagacacagcttc atgagcacggagccgctgtcagctgaagccagtctgagctcggactcccagcgcctggga gagggcacgcgggacgaggagccctggggtcccatcgggaaggaccccacgccctccatg ctgggcctctgcggctccctggcctccattcccagctgcaagtccctggcgagcttcaaa tccaacgagtgcctggtgagcgacagtcccgagggcagcccagcactgagccccagctga >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_4|342_aa MADQDPAGISPLQQMVASGTGAVVTSLFMTPLDVVKVRLQSQRPSMASGKCLLYCNGVLE PLYLCPNGARCATWFQDPTRFTGTMDAFVKIVRHEGTRTLWSGLPATLVMTVPATAIYFT AYDQLKAFLCGRALTSDLYAPMVAGALARLGTVTVISPLELMRTKLQAQHVSYRELGACV RTAVAQGGWRSLWLGWGPTALRDVPFSVHPPPQALYWFNYELVKSWLNGFRPKDQTSVGM SFVAGGISGTVAAVLTLPFDVVKTQRQVALGAMEAVRVNPLHVDSTWLLLRRIRAESGTK GLFAGFLPRIIKAAPSCAIMISTYEFGKSFFQRLNQDRLLGG >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_4|1029_bp atggctgaccaggaccctgcgggcatcagccccctccagcaaatggtggcctcaggcacc ggggctgtggttacctctctcttcatgacacccctggacgtggtgaaggttcgcctgcag tctcagcggccctccatggccagcgggaagtgcctcctgtattgcaatggtgtcctggag cctctgtacctgtgcccaaatggtgcccgctgtgccacctggtttcaagaccctacccgc ttcactggcaccatggatgccttcgtgaagatcgtgaggcacgagggcaccaggaccctc tggagcggcctccccgccaccctggtgatgactgtgccagctaccgccatctacttcact gcctatgaccaactgaaggccttcctgtgtggtcgagccctgacctctgacctctacgca cccatggtggctggcgcgctggcccgcctgggcaccgtgactgtgatcagccccctggag cttatgcggacaaagctgcaggctcagcatgtgtcgtaccgggagctgggtgcctgtgtt cgaactgcagtggctcagggtggctggcgctcactgtggctgggctggggccccactgcc cttcgagatgtgcccttctcagtgcatcccccaccccaagccctgtactggttcaactat gagctggtgaagagctggctcaatgggttcaggccgaaggaccagacttctgtgggcatg agctttgtggctggtggcatctcagggacggtggctgcagtgctgactctaccctttgac gtggtaaagacccaacgccaggtcgctctgggagcgatggaggctgtgagagtgaacccc ctgcatgtggactccacctggctgctgctgcggaggatccgggccgagtcgggcaccaag ggactctttgcaggcttccttcctcggatcatcaaggctgccccctcctgtgccatcatg atcagcacctatgagttcggcaaaagcttcttccagaggctgaaccaggaccggcttctg ggcggctga >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_5|53_aa MAGGTDIYCIQDKGGRIKDFKAFTISSTTIYYELQRGIQEYGRNMKVDKERDH >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_5|162_bp atggctgggggcactgacatctattgcatacaagacaaggggggcaggatcaaagacttt aaggctttcactatttcttctaccactatctactacgaacttcaaagaggaatccaggag tatgggaggaacatgaaagtggacaaggagcgtgaccactga >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_6|593_aa MWTLVSWVALTAGLVAGTRCPDGQFCPVACCLDPGGASYSCCRPLLDKWPTTLSRHLGGP CQVDAHCSAGHSCIFTVSGTSSCCPFPEAVACGDGHHCCPRGFHCSADGRSCFQRSGNNS VGAIQCPDSQFECPDFSTCCVMVDGSWGCCPMPQASCCEDRVHCCPHGAFCDLVHTRCIT PTGTHPLAKKLPAQRTNRAVALSSSVMCPDARSRCPDGSTCCELPSGKYGCCPMPNATCC SDHLHCCPQDTVCDLIQSKCLSKENATTDLLTKLPAHTVGDVKCDMEVSCPDGYTCCRLQ SGAWGCCPFTQAVCCEDHIHCCPAGFTCDTQKGTCEQGPHQVPWMEKAPAHLSLPDPQAL KRDVPCDNVSSCPSSDTCCQLTSGEWGCCPIPEAVCCSDHQHCCPQGYTCVAEGQCQRGS EIVAGLEKMPARRASLSHPRDIGCDQHTSCPVGQTCCPSLGGSWACCQLPHAVCCEDRQH CCPAGYTCNVKARSCEKEVVSAQPATFLARSPHVGVKDVECGEGHFCHDNQTCCRDNRQG WACCPYRQGVCCADRRHCCPAGFRCAARGTKCLRREAPRWDAPLRDPALRQLL >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_6|1782_bp atgtggaccctggtgagctgggtggccttaacagcagggctggtggctggaacgcggtgc ccagatggtcagttctgccctgtggcctgctgcctggaccccggaggagccagctacagc tgctgccgtccccttctggacaaatggcccacaacactgagcaggcatctgggtggcccc tgccaggttgatgcccactgctctgccggccactcctgcatctttaccgtctcagggact tccagttgctgccccttcccagaggccgtggcatgcggggatggccatcactgctgccca cggggcttccactgcagtgcagacgggcgatcctgcttccaaagatcaggtaacaactcc gtgggtgccatccagtgccctgatagtcagttcgaatgcccggacttctccacgtgctgt gttatggtcgatggctcctgggggtgctgccccatgccccaggcttcctgctgtgaagac agggtgcactgctgtccgcacggtgccttctgcgacctggttcacacccgctgcatcaca cccacgggcacccaccccctggcaaagaagctccctgcccagaggactaacagggcagtg gccttgtccagctcggtcatgtgtccggacgcacggtcccggtgccctgatggttctacc tgctgtgagctgcccagtgggaagtatggctgctgcccaatgcccaacgccacctgctgc tccgatcacctgcactgctgcccccaagacactgtgtgtgacctgatccagagtaagtgc ctctccaaggagaacgctaccacggacctcctcactaagctgcctgcgcacacagtgggg gatgtgaaatgtgacatggaggtgagctgcccagatggctatacctgctgccgtctacag tcgggggcctggggctgctgcccttttacccaggctgtgtgctgtgaggaccacatacac tgctgtcccgcggggtttacgtgtgacacgcagaagggtacctgtgaacaggggccccac caggtgccctggatggagaaggccccagctcacctcagcctgccagacccacaagccttg aagagagatgtcccctgtgataatgtcagcagctgtccctcctccgatacctgctgccaa ctcacgtctggggagtggggctgctgtccaatcccagaggctgtctgctgctcggaccac cagcactgctgcccccagggctacacgtgtgtagctgaggggcagtgtcagcgaggaagc gagatcgtggctggactggagaagatgcctgcccgccgggcttccttatcccaccccaga gacatcggctgtgaccagcacaccagctgcccggtggggcagacctgctgcccgagcctg ggtgggagctgggcctgctgccagttgccccatgctgtgtgctgcgaggatcgccagcac tgctgcccggctggctacacctgcaacgtgaaggctcgatcctgcgagaaggaagtggtc tctgcccagcctgccaccttcctggcccgtagccctcacgtgggtgtgaaggacgtggag tgtggggaaggacacttctgccatgataaccagacctgctgccgagacaaccgacagggc tgggcctgctgtccctaccgccagggcgtctgttgtgctgatcggcgccactgctgtcct gctggcttccgctgcgcagccaggggtaccaagtgtttgcgcagggaggccccgcgctgg gacgcccctttgagggacccagccttgagacagctgctgtga >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_7|838_aa MPPASGPSVLARLLPLLGLLLGSASRAPGKSPPEPPSPQVEETLPSDSPGAEILIKVQVY VSGELVPLARASVDVFGNRTLLAAGTTDSEGVATLPLSYRLGTWVLVTAARPGFLTNSVP WRVDKLPLYASVSLYLLPERPATLILYEDLVHILLGSPGARSQPLVQFQRRAARLPVSST YSQLWASLTPASTQQEMRAFPAFLGTEASSSGNGSWLELMPLTAVSVHLLTGNGTEVPLS GPIHLSLPVPSETRALTVGTSIPAWRFDPKSGLWVRNGTGVIRKEGRQLYWTFVSPQLGY WVAAMASPTAGLVTITSGIQDIGTYHTIFLLTILAALALLVLILLCLLIYYCRRRCLKPR QQHRKLQLSGPSDGNKRDQATSMSQLHLICGGPLEPAPSGDPEAPPPGPLHSAFSSSRDL ASSRDDFFRTKPRSASRPAAEPSGARGGESAGLKGARSAEGPGGLEPGLEEHRRGPSGAA AFLHEPPSPPPPFDHYLGHKGAAEGKTPDFLLSQSVDQLARPPSLGQAGQLIFCGSIDHL KDNVYRNVMPTLVIPAHYVRLGGEAGAAGVGDEPAPPEGTAPGPARAFPQPDPQRPQMPG HSGPGGEGGGGGGEGWGAGRAAPVSGSVTIPVLFNESTMAQLNGELQALTEKKLLELGVK PHPRAWFVSLDGRSNSQVRHSYIDLQAGGGARSTDASLDSGVDVHEARPARRRPAREERE RAPPAAPPPPPAPPRLALSEDTEPSSSESRTGLCSPEDNSLTPLLDEVAAPEGRAATVPR GRGRSRGDSSRSSASELRRDSLTSPEDELGAEVGDEAGDKKSPWQRREERPLMVFNVK >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_7|2517_bp atgccgccggcgagtggccccagcgtcctcgcgcggctgttgccgctgctggggctgctg ctcggcagcgcctcccgggctcccggcaagtcgccgccggagccccccagcccgcaggtg gaggagacccttcccagcgactcaccgggcgcagagatcctgatcaaggtgcaggtgtat gtgagcggggagctggtgcccctggcccgggcctcagtggatgtgtttgggaaccggact ctgctggcagctggcaccacagactcagagggtgtggccaccctgcccctcagttatcgc ttgggcacctgggtgctggtcactgctgcccgccctggcttcctcaccaactctgtgccc tggcgtgttgacaagctgcccttgtatgcgtctgtcagcctctacctgctccctgagcgg ccggccacgctcatcctctatgaggacctggtgcacattctcctaggctctcccggtgcc cgctcccagcccttggtgcagttccagcgccgggctgcccgcctgcctgtcagctccacc tacagccagctctgggcgtcacttacgcctgccagcacccagcaggaaatgcgggctttc cctgccttcctgggcactgaggcctccagctcaggcaatggctcctggctggagctgatg cccctgactgctgtgagcgtgcacctgctgacaggtaatgggacagaggtgccgctctca ggccccattcacctgtccctgcccgtgccctccgagactcgtgccctcaccgtgggcacc agcattccagcctggagatttgaccccaagagtgggctgtgggtgcgcaatggcactggt gtaatccggaaggaaggccggcagctctactggaccttcgtctccccccagctggggtac tgggtggccgccatggcctcccccacggctgggctggtcaccatcacgtcgggcatccag gacatcggcacctaccacaccatcttcttgctcaccatcctggcagccctggccctgctg gtgcttatcctgctgtgtctgctcatctactactgccggaggcgctgcctgaagccgagg caacagcaccgcaagctgcagctctcggggccctctgacggtaacaaacgagaccaggcc acctcgatgtcccagctccacctcatctgtgggggacccctggaacccgccccgtcgggg gaccccgaggctccgcctccaggccccctccactcggccttctccagctcccgggacttg gcctcctcccgggatgacttcttccgcaccaagccgcgctctgccagccgcccggccgcc gagccttcgggtgcccgcgggggcgagagcgccgggctcaagggcgctcgctcggccgag ggccccggcgggctggagcccggcctagaggagcaccggcgggggccctcgggggctgcg gccttcctgcacgagccgccctcgccgccgccgcccttcgaccactacctgggccacaag ggggcggccgagggcaagacccccgacttcctgctgtcgcagtcggtggaccagctggcg cggccgccgtcgctgggccaggcggggcagctcatcttctgcggctccatcgaccacctc aaggacaacgtctaccgcaacgtcatgcccaccctggtgatccccgcgcactacgtgcgc ctcggcggcgaggcgggcgccgccggcgtgggcgacgagccggccccgccggagggcacg gcacccggcccggcgcgcgcttttccccagcccgacccccagcgcccgcagatgccgggc cactcgggcccggggggcgagggcggcgggggcggcggcgagggctggggggccgggcgc gcggcgcccgtcagtggctcagtcaccatccctgtgctattcaacgagtccaccatggcg cagctcaacggggagctgcaggccctgaccgagaagaagctgctggaactgggcgtgaag ccgcacccgcgcgcctggttcgtgtccctcgacgggcgctccaactcgcaagtgcgccac tcttacatcgacctgcaggcgggcggcggggcacgcagcaccgacgccagcctggactcg ggcgtagatgtccacgaggcgcggcccgcgcgccgccggcccgcgagggaggagcgggag cgcgccccgcctgccgcgccgccgccgccgcccgcgcccccgcgcctggcgctcagcgag gacacggagcccagcagcagcgagagccgcacgggcctctgctctccggaggacaactcg ctgacgccgctgctggacgaggtggcggcgcccgagggccgggcggccacggtaccccgg gggcggggccgcagccgcggggacagctcccgcagcagcgccagcgagctgcggcgcgac tcgctcaccagcccggaggacgagctgggggcggaggtgggcgacgaggcgggagacaag aagagcccgtggcagcggcgggaggagcggccgctgatggtgttcaacgtcaagtag >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_8|94_aa MDKPRSGIRNKTIPLTDNTVIEKHLGKFGVVCLEDLSHEIAVPGKHFQEVSWLLRPFYLS VARHATKNTVGFLKEMGTPGYQGERISQLIRQLN >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_8|285_bp atggacaagccaaggtcaggaataaggaataagaccattcctctgacagacaacacagtg attgagaagcacctggggaagtttggtgtcgtttgcttggaagacctcagtcatgaaatt gccgtcccagggaagcatttccaggaggtctcatggttgttacgccctttctacctctca gtggcccgtcatgctaccaaaaatacagtgggcttcctcaaggagatgggcacacctggc tatcagggtgaacgcatcagtcagctcatccgccagctgaactag >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_9|203_aa MGLGAVEQGAPLIREARAAQEPMEWVGGSRMAGCRSPALPCRKAAKAQWWAGTAGGPSTP SAAAGPGAKPLIARGRQGRLAAPSAGPAKPTPTRNSSWPASSERSPGSRLGLSLHTSLQA KGAGSGLGQPRKGLPQCSGGLKGFSSAAKVGAQAEESPRASEGCEDCQHSVTSHYHMPGT IPVLRCSSEQSNVPALLELTFQR >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_9|612_bp atgggactgggcgccgtggagcagggggcgccgctcatccgggaggctcgggccgcacag gagcccatggagtgggtgggaggctcacgcatggcgggctgcaggtccccagccctgccc tgcaggaaggcagctaaggcccagtggtgggctggcactgctgggggacccagtacgccc tctgcagccgctggcccgggtgctaagcccctcattgcccggggccggcagggccggctg gctgctccgagtgcggggcccgccaagcccacgcccacccggaactccagctggcccgca agcagcgagcgcagcccgggttcccgcttgggcctctccctccacacctccctgcaagct aagggagctggctccggtcttggccagcccagaaaggggctcccacagtgcagcggtggg ctgaagggcttctcaagtgccgccaaagtgggagcccaggcagaggagtccccgagagcg agcgagggctgtgaggactgccagcacagtgtcacctctcactaccacatgcctggcact attccagtgctgagatgcagcagtgaacaaagcaacgtccctgccctcctggaacttaca ttccagaggtaa >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_10|2339_aa MGHEGMQSLTYYFQQADQIKVVRLRLKDLKQREFARNVSSRSRKDEKKQEKALRRLHELA EQRKQAECAPGSGPMFKPTTVAVDEEGGEDDKDESATNSGTGATASCGLGSEFSTDKGGP FTAVQITNTTGLAQAPGLASQGISFGIKNNLGTPLQKLGVSFSFAKKAPVKLESIASVFK DHAEEGTSEDGTKPDEKSSDQGLQKVGDSDGSSNLDGKKEDEDPQDGGSLASTLSKLKRM KREEGAGATEPEYYHYIPPAHCKVKPNFPFLLFMRASEQMDGDNTTHPKNAPESKKGSSP KPKSCIKAAASQGAEKTVSEVSEQPKETSMTEPSEPGSKAEAKKALGGDVSDQSLESHSQ KVSETQMCESNSSKETSLATPAGKESQEGPKHPTGPFFPVLSKDESTALQWPSELLIFTK AEPSISYSCNPLYFDFKLSRNKDARTKGTEKPKDIGSSSKDHLQGLDPGEPNKSKEVGGE KIVRSSGGRMDAPASGSACSGLNKQEPGGSHGSETEDTGRSLPSKKERSGKSHRHKKKKK HKKSSKHKRKHKADTEEKSSKAESGEKSKKRKKRKRKKNKSSAPADSERGPKPEPPGSGS PAPPRRRRRAQDDSQRRSLPAEEGSSGKKDEGGGGSSSQDHGGRKHKGELPPSSCQRRAG TKRSSRSSHRSQPSSGDEDSDDASSHRLHQKSPSQYSEEEEEEDSGSEHSRSRSRSGRRH SSHRSSRRSYSSSSDASSDQSCYSRQRSYSDDSYSDYSDRSRRHSKRSHDSDDSDYASSK HRSKRHKYSSSDDDYSLSCSQSRSRSRSHTRERSRSRGRSRSSSCSRSRSKRRSRSTTAH SWQRSRSYSRDRSRSTRSPSQRSGSRKRSWGHESPEERHSGRRDFIRSKIYRSQSPHYFR SGRGEGPGKKDDGRGDDSKATGPPSQNSNIGTGRGSEGDCSPEDKNSVTAKLLLEKIQSR KVERKPSVSEEVQATPNKAGPKLKDPPQGYFGPKLPPSLGNKPVLPLIGKLPATRKPNKK CEESGLERGEEQEQSETEEGPPGSSDALFGHQFPSEETTGPLLDPPPEESKSGEATADHP VAPLGTPAHSDCYPGDPTISHNYLPDPSDGDTLESLDSSSQPGPVESSLLPIAPDLEHFP SYAPPSGDPSIESTDGAEDASLAPLESQPITFTPEEMEKYSKLQQAAQQHIQQQLLAKQV KAFPASAALAPATPALQPIHIQQPATASATSITTVQHAILQHHAAAAAAAIGIHPHPHPQ PLAQPSILGPSPFTLSHMLPSTPPYLLHGLLQQLPLHFTFTHYFTPSSQVRTCNIPPAMA PWALNLDPVQLTFYAGPNGSQFGFSLDFHKDSHGRVAIVVGAPRTLGPSQEETGGVFLCP WRAEGGQCPSLLFDLRDETRNVGSQTLQTFKARQGLGASVVSWSDVIVVGPAACAPWQHW NVLEKTEEAEKTPVGSCFLAQPESGRRAEYSPCRGNTLSRIYVENDFSWDKRYCEAGFSS VVTQARLPFQAGELVLGAPGGYYFLGLLAQAPVADIFSSYRPGILLWHVSSQSLSFDSSN PEYFDGYWGNTAIPDFQHPEGHRPPQTVEILDSYYQRLHRLRGEQMASYFGHSVAVTDVN GDGRHDLLVGAPLYMESRADRKLAEVGRVYLFLQPRGPHALGAPSLLLTGTQLYGRFGSA IAPLGDLDRDGYNDIAVAAPYGGPSGRGQVLVFLGQSEGLRSRPSQVLDSPFPTGSAFGF SLRGAVDIDDNGYPDLIVGAYGANQVAVYRAQPVVKASVQLLVQDSLNPAVKSCVLPQTK TPVSCFNIQMCVGATGHNIPQKLSLNAELQLDRQKPRQGRRVLLLGSQQAGTTLNLDLGG KHSPICHTTMAFLRDEADFRDKLSPIVLSLNVSLPPTEAGMAPAVVLHGDTHVQEQTRIV LDCGEDDVCVPQLQLTASVTGSPLLVGADNVLELQMDAANEGEGAYEAELAVHLPQGAHY MRALSNVEGFERLICNQKKENETRVVLCELGNPMKKNAQIGIAMLVSVGNLEEAGESVSF QLQIRSKNSQNPNSKIVLLDVPVRAEAQVELRGNSFPASLVVAAEEGEREQNSLDSWGPK VEHTYEVLGSLASLAGLHNNGPGTVNGLHLSIHLPGQSQPSDLLYILDIQPQGGLQCFPQ PPVNPLKVDWGLPIPSPSPIHPAHHKRDRRQIFLPEPEQPSRLQDPVLVSCDSAPCTVVQ CDLQEMARGQRAMVTVLAFLWLPSLYQRPLDQFVLQSHAWFNVSSLPYAVPPLSLPRGEA QVWTQLLRALEERAIPIWWVLVGVLGGLLLLTILVLAMWKVGFFKRNRPPLEEDDEEGE >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_10|7020_bp atgggccatgaaggaatgcaaagcctcacatactactttcagcaggctgaccagataaaa gtggtcagactgagattaaaagatctgaagcagagagagtttgctcgaaatgtctcttca agatcccgcaaggatgagaaaaaacaggaaaaagcccttcggcggctccatgagttggca gagcaaagaaaacaagctgaatgtgcacctggaagtggtcccatgttcaaaccaaccaca gtggctgtagatgaagaaggtggagaagatgataaagatgaatcagctacaaatagtggc acaggtgccactgcttcttgtggcctgggatctgaattctccacagataaaggaggccct ttcactgcagtacaaatcactaataccactggactggcccaggctcctgggttagcctcc caaggcatcagctttggcattaagaataatctggggaccccattgcaaaaattgggagtg tcattttcttttgccaaaaaggctcctgtcaaactcgaatcaatagcatcagttttcaag gaccatgcggaggaagggacctctgaagatggaacaaaacccgatgagaagagttctgac caaggactgcagaaggtaggagactctgatgggagcagtaatcttgatggtaaaaaagag gatgaagaccctcaggatggagggtcccttgcctcaacattatccaaattaaaaaggatg aaacgagaagaaggagctggggctacagagcctgagtattaccactacatccccccagca cactgcaaagtaaaacctaattttccctttctactttttatgagagccagtgaacaaatg gatggtgataatactacacacccaaagaatgccccagagagtaaaaaaggcagttctccc aagcctaaaagctgcatcaaggcggcagcaagccaaggagcagaaaagacagttagtgaa gtctctgagcagccgaaggaaaccagcatgaccgagccctcagaaccaggaagcaaagct gaggcaaagaaggccttaggaggggatgtaagtgatcagagtttagaaagtcatagtcag aaggtttcagagacccaaatgtgtgagtccaactcttctaaagaaacctctctggccacc ccagcagggaaagaaagccaagaaggacccaaacatcctactggtcccttcttcccagtt ttgagcaaagatgaaagcactgccctccagtggccatcagaactattaattttcaccaag gcagaaccctccatttcatacagttgtaaccctttatattttgactttaaactttcaagg aacaaagatgccagaactaaaggaacagaaaaaccaaaggatataggaagctcctcaaag gaccatctccaaggcctagatcctggtgagccaaataaaagcaaggaagtgggcggagag aaaatagtacgttcctcaggaggcagaatggacgcacctgcttcagggtctgcctgtagc ggcctgaacaagcaggagcctgggggtagccatgggtctgagacagaagacacagggaga agccttcccagcaagaaagaacgatctgggaagtcccaccggcacaaaaagaaaaagaag cacaaaaaatccagcaaacacaaacgtaaacacaaggctgacacagaagagaaaagctct aaggcagagtcaggggagaaatctaagaagcgcaagaaacgaaaacgaaagaagaataag tcatcagccccagcagattctgaacgaggacccaaaccagaaccccctgggagtggcagt cccgcaccaccaagaagaaggcggagagctcaagatgactcccagcggagatccctccca gctgaagaggggagcagtggcaaaaaggatgaaggtgggggtggtagcagctcccaagac catggtgggaggaaacacaaaggtgaacttccaccttcatcctgccagcgaagagcaggc accaaacggagcagccggtctagccatcggagccaacccagtagtggagatgaggatagt gatgatgcttcctcacaccggctgcaccagaagtctccatcccagtacagtgaggaagaa gaagaggaagattcaggcagtgagcattcccgcagccgctcaaggtctggccggcgccat tcctcgcatcgttcctcccggcgttcttactcaagtagctcagatgcctcttcagaccag agctgctatagtagacagcgcagttactctgatgacagctacagtgactacagtgacaga tcacgaaggcactccaagcgctcccatgactcagatgactcagactatgccagctccaaa caccgatcaaaacggcacaaatattcatcttctgatgatgactatagcctcagttgcagc cagtcccgaagccgatctcggagtcataccagagagcgctcaagatcccggggccgcagc cgcagcagcagttgtagtcgtagtcgaagcaagcggagaagccgtagcaccacagcccac agctggcaacggagccggagctatagccgggaccgcagccgcagcaccaggagcccttcc cagagatcaggctccaggaagagatcatggggtcacgagagccctgaggagaggcattct gggcgtcgggacttcattcgttctaagatctaccgctcccagtccccccactatttccga tcaggccggggagaaggtcctgggaagaaagatgatggcagaggagatgacagtaaagca acaggtccaccttcccagaacagcaacattggcacaggaagagggtcagaaggtgactgc agtcctgaagacaagaactctgtcactgccaaactgctactggagaagatccagtcaagg aaagtggagaggaaacctagtgtgagtgaggaggtgcaggccacccctaataaagctggg cccaagctcaaggaccccccacaaggttactttgggcccaagctccccccatctcttggc aataagcctgtccttccactgatagggaagctcccagctacccgaaagcccaataagaag tgtgaagagtctggcttggaaaggggggaagagcaagaacagtcagagacagaagagggg cccccagggagtagtgatgccctatttgggcatcagttcccttcagaggaaacaactggc cccttattagacccacccccagaagagtcaaagtctggagaagctactgctgatcaccct gtggctccactaggcaccccagcacattctgactgctaccctggggacccaaccatctcc cataactacctccccgaccccagtgatggggacaccctggagtccctggatagcagcagt cagccaggccctgtggagtccagcttgctgcctatagcaccagaccttgagcatttcccc agttatgcacctcccagtggggatcctagtattgagtcaacagatggggctgaggatgct tcactggcccccctggaaagccagcccatcaccttcacccctgaggagatggagaagtac agcaagctccagcaggctgctcagcaacacatccagcagcagcttctggccaagcaagta aaggcctttccagcctcagctgccctggccccagccacaccagccctgcaacccatccac attcagcagccagctacagcctctgccacctccatcacaactgttcagcatgccatccta caacatcatgctgccgcagctgctgccgccatcggcattcaccctcacccccatccccaa ccacttgcccagccatccatcctgggcccttcacctttcaccctgtcccacatgctgccc tctaccccaccctacttgctccacggcctgctgcagcagctgccactgcacttcaccttc acccactacttcaccccatcttctcaggtcaggacctgcaacatccccccagccatggca ccctgggccttgaacctggacccagtgcagctcaccttctatgcaggccccaatggcagc cagtttggattttcactggacttccacaaggacagccatgggagagtggccatcgtggtg ggcgccccgcggaccctgggccccagccaggaggagacgggcggcgtgttcctgtgcccc tggagggccgagggcggccagtgcccctcgctgctctttgacctccgtgatgagacccga aatgtaggctcccaaactttacaaaccttcaaggcccgccaaggactgggggcgtcggtc gtcagctggagcgacgtcattgtggtgggccccgcggcctgcgccccctggcagcactgg aacgtcctagaaaagactgaggaggctgagaagacgcccgtaggtagctgctttttggct cagccagagagcggccgccgcgccgagtactccccctgtcgcgggaacaccctgagccgc atttacgtggaaaatgattttagctgggacaagcgttactgtgaagcgggcttcagctcc gtggtcactcaggcgagacttcccttccaggccggagagctggtgcttggggctcctggc ggctattatttcttaggtctcctggcccaggctccagttgcggatattttctcgagttac cgcccaggcatccttttgtggcacgtgtcctcccagagcctctcctttgactccagcaac ccagagtacttcgacggctactggggtaacaccgccattccagacttccagcaccccgag ggtcaccgcccaccgcagacggtggaaattttggattcctactaccagaggctgcatcgg ctgcgcggagagcagatggcgtcgtattttgggcattcagtggctgtcactgacgtcaac ggggatgggaggcatgatctgctggtgggcgctccactgtatatggagagccgggcagac cgaaaactggccgaagtggggcgtgtgtatttgttcctgcagccgcgaggcccccacgcg ctgggtgcccccagcctcctgctgactggcacacagctctatgggcgattcggctctgcc atcgcacccctgggcgacctcgaccgggatggctacaatgacattgcagtggctgccccc tacgggggtcccagtggccggggccaagtgctggtgttcctgggtcagagtgaggggctg aggtcacgtccctcccaggtcctggacagccccttccccacaggctctgcctttggcttc tcccttcgaggtgccgtagacatcgatgacaacggatacccagacctgatcgtgggagct tacggggccaaccaggtggctgtgtacagagctcagccagtggtgaaggcctctgtccag ctactggtgcaagattcactgaatcctgctgtgaagagctgtgtcctacctcagaccaag acacccgtgagctgcttcaacatccagatgtgtgttggagccactgggcacaacattcct cagaagctatccctaaatgccgagctgcagctggaccggcagaagccccgccagggccgg cgggtgctgctgctgggctctcaacaggcaggcaccaccctgaacctggatctgggcgga aagcacagccccatctgccacaccaccatggccttccttcgagatgaggcagacttccgg gacaagctgagccccattgtgctcagcctcaatgtgtccctaccgcccacggaggctgga atggcccctgctgtcgtgctgcatggagacacccatgtgcaggagcagacacgaatcgtc ctggactgtggggaagatgacgtatgtgtgccccagcttcagctcactgccagcgtgacg ggctccccgctcctagttggggcagataatgtcctggagctgcagatggacgcagccaac gagggcgagggggcctatgaagcagagctggccgtgcacctgccccagggcgcccactac atgcgggccctaagcaatgtcgagggctttgagagactcatctgtaatcagaagaaggag aatgagaccagggtggtgctgtgtgagctgggcaaccccatgaagaagaacgcccagata ggaatcgcgatgttggtgagcgtggggaatctggaagaggctggggagtctgtgtccttc cagctgcagatacggagcaagaacagccagaatccaaacagcaagattgtgctgctggac gtgccggtccgggcagaggcccaagtggagctgcgagggaactcctttccagcctccctg gtggtggcagcagaagaaggtgagagggagcagaacagcttggacagctggggacccaaa gtggagcacacctatgaggtattggggagcctcgcgtccctggctgggctccacaacaat ggccctgggactgtgaatggtcttcacctcagcatccaccttccgggacagtcccagccc tccgacctgctctacatcctggatatacagccccaggggggccttcagtgcttcccacag cctcctgtcaaccctctcaaggtggactgggggctgcccatccccagcccctcccccatt cacccggcccatcacaagcgggatcgcagacagatcttcctgccagagcccgagcagccc tcgaggcttcaggatccagttctcgtaagctgcgactcggcgccctgtactgtggtgcag tgtgacctgcaggagatggcgcgcgggcagcgggccatggtcacggtgctggccttcctg tggctgcccagcctctaccagaggcctctggatcagtttgtgctgcagtcgcacgcatgg ttcaacgtgtcctccctcccctatgcggtgcccccgctcagcctgccccgaggggaagct caggtgtggacacagctgctccgggccttggaggagagggccattccaatctggtgggtg ctggtgggtgtgctgggtggcctgctgctgctcaccatcctggtcctggccatgtggaag gtcggcttcttcaagcggaaccggccacccctggaagaagatgatgaagagggggagtga >gi568815581r:44220004_44423562|GENSCAN_predicted_peptide_11|17_aa EGTQDYYESEIIGSRGF >gi568815581r:44220004_44423562|GENSCAN_predicted_CDS_11|54_bp gaaggcacacaggattattatgaatctgagataataggttcccgtggcttctga