GENSCAN 1.0 Date run: 4-Nov-116 Time: 09:54:43 Sequence gi568815581f:44249165_44452795 : 203631 bp : 50.08% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.24 PlyA - 75 70 6 -3.44 1.23 Term - 1374 1294 81 0 0 124 55 169 0.901 14.89 1.22 Intr - 2168 1995 174 2 0 77 56 253 0.992 21.14 1.21 Intr - 2424 2255 170 1 2 85 59 324 0.908 28.87 1.20 Intr - 4207 3954 254 0 2 100 92 365 0.997 35.18 1.19 Intr - 5498 5332 167 2 2 101 57 143 0.997 11.26 1.18 Intr - 6132 6043 90 0 0 102 60 170 0.999 15.79 1.17 Intr - 6682 6509 174 1 0 35 82 205 0.931 14.74 1.16 Intr - 8380 8186 195 1 0 80 81 411 0.999 39.21 1.15 Intr - 8643 8495 149 1 2 87 -7 204 0.980 10.75 1.14 Intr - 9016 8822 195 2 0 112 52 368 0.999 34.99 1.13 Intr - 9459 9249 211 0 1 122 50 249 0.999 22.99 1.12 Intr - 10180 9999 182 2 2 118 86 265 0.999 28.89 1.11 Intr - 10417 10333 85 1 1 114 86 52 0.999 6.99 1.10 Intr - 10768 10645 124 0 1 100 109 43 0.999 8.19 1.09 Intr - 11375 11240 136 0 1 113 49 139 0.931 12.13 1.08 Intr - 11651 11471 181 2 1 27 84 184 0.993 11.34 1.07 Intr - 12472 12411 62 2 2 61 100 50 0.994 1.95 1.06 Intr - 13562 13472 91 2 1 85 99 181 0.983 18.47 1.05 Intr - 13770 13688 83 1 2 91 94 58 0.467 6.06 1.04 Intr - 20159 20042 118 2 1 150 -3 18 0.050 -1.06 1.03 Intr - 24036 23983 54 0 0 127 96 -7 0.850 3.18 1.02 Intr - 25080 24908 173 1 2 53 113 27 0.536 1.36 1.01 Init - 32793 32724 70 0 1 83 57 52 0.225 2.81 1.00 Prom - 33949 33910 40 -6.46 2.00 Prom + 35043 35082 40 -2.56 2.01 Init + 59696 59775 80 1 2 110 80 154 0.968 17.33 2.02 Intr + 63416 63531 116 2 2 87 86 196 0.999 19.39 2.03 Intr + 63955 64088 134 2 2 72 100 191 0.595 19.06 2.04 Intr + 64173 64339 167 2 2 69 71 116 0.959 6.76 2.05 Intr + 65571 65660 90 0 0 121 75 251 0.999 26.21 2.06 Intr + 65765 65845 81 2 0 79 83 122 0.999 9.55 2.07 Intr + 65991 66156 166 0 1 73 91 465 0.999 45.26 2.08 Intr + 66288 66445 158 2 2 47 42 401 0.999 30.21 2.09 Intr + 67221 67358 138 0 0 121 99 144 0.999 18.38 2.10 Intr + 67455 67561 107 0 2 70 97 141 0.995 13.06 2.11 Term + 68932 69074 143 2 2 107 55 158 0.985 12.49 2.12 PlyA + 69487 69492 6 1.05 3.11 PlyA - 69953 69948 6 -0.45 3.10 Term - 70952 70837 116 0 2 135 48 176 0.999 17.03 3.09 Intr - 71112 71032 81 1 0 89 82 123 0.983 11.41 3.08 Intr - 71272 71191 82 1 1 70 78 34 0.995 -0.19 3.07 Intr - 71585 71458 128 0 2 73 113 102 0.798 11.60 3.06 Intr - 72067 71894 174 2 0 52 96 120 0.994 9.11 3.05 Intr - 72394 72270 125 0 2 88 52 165 0.999 13.13 3.04 Intr - 72603 72536 68 0 2 41 76 62 0.924 -2.00 3.03 Intr - 73364 73255 110 0 2 113 77 81 0.594 9.50 3.02 Intr - 74179 74120 60 2 0 77 101 124 0.991 11.31 3.01 Init - 74398 74314 85 1 1 81 52 82 0.979 3.08 3.00 Prom - 81650 81611 40 -5.76 4.00 Prom + 83812 83851 40 -5.66 4.01 Init + 100001 100138 138 1 0 65 105 147 0.941 12.24 4.02 Intr + 100262 100387 126 1 0 113 83 -10 0.565 1.88 4.03 Intr + 100979 101176 198 1 0 28 87 101 0.241 3.55 4.04 Intr + 101278 101413 136 0 1 -1 94 99 0.984 1.74 4.05 Intr + 101527 101636 110 2 2 98 92 101 0.964 11.50 4.06 Intr + 101873 101999 127 1 1 63 81 98 0.958 6.85 4.07 Intr + 102199 102296 98 2 2 120 80 72 0.982 9.33 4.08 Intr + 102386 102631 246 1 0 117 61 71 0.873 4.96 4.09 Intr + 102851 103084 234 1 0 77 84 130 0.663 9.39 4.10 Intr + 103177 103407 231 0 0 101 82 329 0.923 31.57 4.11 Term + 103497 103634 138 2 0 70 55 44 0.907 -2.74 4.12 PlyA + 103919 103924 6 1.05 5.10 PlyA - 104069 104064 6 -3.44 5.09 Term - 106027 104569 1459 0 1 129 43 2263 0.985 216.08 5.08 Intr - 106677 106551 127 1 1 54 105 259 0.999 23.94 5.07 Intr - 106910 106794 117 0 0 97 99 162 0.999 18.64 5.06 Intr - 107188 107009 180 2 0 107 103 182 0.999 21.44 5.05 Intr - 107424 107266 159 1 0 117 96 91 0.999 12.76 5.04 Intr - 110507 110415 93 0 0 74 107 173 0.999 17.74 5.03 Intr - 110968 110741 228 2 0 114 76 274 0.998 26.64 5.02 Intr - 113583 113548 36 1 0 85 94 23 0.526 0.83 5.01 Init - 114550 114433 118 1 1 95 96 263 0.999 26.16 5.00 Prom - 115187 115148 40 -10.94 6.02 PlyA - 115398 115393 6 -0.45 6.01 Sngl - 116134 115850 285 1 0 86 41 244 0.989 15.04 6.00 Prom - 118938 118899 40 -5.36 7.36 PlyA - 119370 119365 6 1.05 7.35 Term - 123259 123200 60 1 0 116 45 138 0.998 10.10 7.34 Intr - 125306 125190 117 2 0 54 100 104 0.995 8.86 7.33 Intr - 125596 125495 102 1 0 42 109 58 0.883 3.67 7.32 Intr - 125947 125834 114 1 0 72 75 164 0.935 14.14 7.31 Intr - 126552 126427 126 0 0 135 41 67 0.965 7.58 7.30 Intr - 126821 126669 153 2 0 70 116 130 0.995 14.27 7.29 Intr - 127020 126891 130 2 1 65 72 107 0.568 7.50 7.28 Intr - 127224 127144 81 2 0 116 76 160 0.999 16.35 7.27 Intr - 127924 127845 80 1 2 102 69 56 0.999 3.45 7.26 Intr - 128626 128534 93 1 0 43 94 81 0.925 4.36 7.25 Intr - 129345 129198 148 2 1 136 64 280 0.999 30.64 7.24 Intr - 129546 129479 68 0 2 86 39 52 0.997 -2.20 7.23 Intr - 130650 130525 126 0 0 50 91 117 0.997 9.08 7.22 Intr - 130989 130838 152 1 2 76 27 202 0.999 12.78 7.21 Intr - 131137 131082 56 0 2 95 73 33 0.983 1.12 7.20 Intr - 131326 131222 105 0 0 44 81 64 0.597 0.63 7.19 Intr - 131481 131436 46 1 1 67 99 72 0.985 3.67 7.18 Intr - 131897 131715 183 0 0 103 49 140 0.365 11.36 7.17 Intr - 134540 134329 212 1 2 75 77 190 0.980 15.16 7.16 Intr - 134782 134730 53 1 2 111 68 69 0.994 4.91 7.15 Intr - 134974 134921 54 1 0 88 75 77 0.753 5.58 7.14 Intr - 135912 135728 185 1 2 103 49 171 0.807 14.21 7.13 Intr - 136059 136000 60 1 0 93 84 14 0.490 0.21 7.12 Intr - 136171 136118 54 2 0 152 13 87 0.828 6.55 7.11 Intr - 136552 136387 166 1 1 64 57 120 0.620 6.03 7.10 Intr - 136757 136648 110 0 2 130 34 115 0.795 10.30 7.09 Intr - 136967 136846 122 1 2 41 75 177 0.773 11.84 7.08 Intr - 140224 140122 103 2 1 76 83 179 0.037 15.43 7.07 Intr - 148576 148408 169 1 1 41 94 144 0.923 9.82 7.06 Intr - 152289 148701 3589 2 1 25 57 2245 0.806 202.50 7.05 Intr - 156887 156757 131 2 2 69 77 171 0.744 13.59 7.04 Intr - 157559 157491 69 2 0 100 93 43 0.907 5.38 7.03 Intr - 175328 175185 144 2 0 22 109 144 0.979 10.38 7.02 Intr - 185987 185901 87 2 0 28 63 127 0.772 4.37 7.01 Intr - 187381 187314 68 2 2 92 84 79 0.538 6.52 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 20159 19932 228 2 0 150 48 66 0.824 5.43 S.002 Term + 88365 88478 114 2 0 23 48 173 0.876 5.37 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_1|1072_aa MPGHKDEELDFRDLWELIQGRTTRVGRLAGEKEFTELGMQTMNLEGQSFGPASLERKGIS GQGNSAWKDPEAKRTENIQRKLSGDPAELPACISGRMLRDSAPGRLVVQIVNGLAVAGFV HLCVPVFEFLLLESELQAGTRGAGYAGGSDHRRQLDTQDHAMEELQDDYEDMMEENLEQE EYEDPDIPESQMEEPAAHDTEATATDYHTTSHPGTHKVYVELQELVMDEKNQELRWMEAA RWVQLEENLGENGAWGRPHLSHLTFWSLLELRRVFTKGTVLLDLQETSLAGVANQLLDRF IFEDQIRPQDREELLRALLLKHSHAGELEALGGVKPAVLTRSGDPSQPLLPQHSSLETQL FCEQGDGGTEGHSPSGILEKIPPDSEATLVLVGRADFLEQPVLGFVRLQEAAELEAVELP VPIRFLFVLLGPEAPHIDYTQLGRAAATLMSERVFRIDAYMAQSRGELLHSLEGFLDCSL VLPPTDAPSEQALLSLVPVQRELLRRRYQSSPAKPDSSFYKGLDLNGGPDDPLQQTGQLF GGLVRDIRRRYPYYLSDITDAFSPQVLAAVIFIYFAALSPAITFGGLLGEKTRNQMGVSE LLISTAVQGILFALLGAQPLLVVGFSGPLLVFEEAFFSFCETNGLEYIVGRVWIGFWLIL LVVLVVAFEGSFLVRFISRYTQEIFSFLISLIFIYETFSKLIKIFQDHPLQKTYNYNVLM VPKPQGPLPNTALLSLVLMAGTFFFAMMLRKFKNSSYFPGKLRRVIGDFGVPISILIMVL VDFFIQDTYTQKLSVPDGFKVSNSSARGWVIHPLGLRSEFPIWMMFASALPALLVFILIF LESQITTLIVSKPERKMVKGSGFHLDLLLVVGMGGVAALFGMPWLSATTVRSVTHANALT VMGKASTPGAAAQIQEVKEQRISGLLVAVLVGLSILMEPILSRIPLAVLFGIFLYMGVTS LSGIQLFDRILLLFKPPKYHPDVPYVKRVKTWRMHLFTGIQIICLAVLWVVKSTPASLAL PFVLILTVPLRRVLLPLIFRNVELQCLDADDAKATFDEEEGRDEYDEVAMPV >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_1|3219_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 ggtcgggatgaatacgacgaagtggccatgcctgtgtga >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_2|459_aa MALGLSSKKASSRNVAVERKNLITVCRFSVKTLLEKYTAEPIDDSSEEFVNFAAILEQIL SHRFKGPVSWFSSDGQRGFWDYIRLACSKVPNNCVSSIENMENISTARAKPRGEGPTPDA GHMSPSGAASKGEHDFQGRAWIRVALMEKRMSEYITTALRDTRTTRRFYDSGAIMLRDEA TILTGMLIGLSAIDFSFCLKGEVLDGKTPVVIDYTPYLKFTQSYDYLTDEEERHSAESST SEDNSPEHPYLPLVTDEDSWYSKWHKMEQKFRIVYAQKGYLEELVRLRESQLKDLEAENR RLQLQLEEAAAQNQREKRELEGVILELQEQLTGLIPSDHAPLAQGSKELTTPLVNQWPSL GTLNGAEGASNSKLYRRHSFMSTEPLSAEASLSSDSQRLGEGTRDEEPWGPIGKDPTPSM LGLCGSLASIPSCKSLASFKSNECLVSDSPEGSPALSPS >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_2|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 >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_3|342_aa MADQDPAGISPLQQMVASGTGAVVTSLFMTPLDVVKVRLQSQRPSMASGKCLLYCNGVLE PLYLCPNGARCATWFQDPTRFTGTMDAFVKIVRHEGTRTLWSGLPATLVMTVPATAIYFT AYDQLKAFLCGRALTSDLYAPMVAGALARLGTVTVISPLELMRTKLQAQHVSYRELGACV RTAVAQGGWRSLWLGWGPTALRDVPFSVHPPPQALYWFNYELVKSWLNGFRPKDQTSVGM SFVAGGISGTVAAVLTLPFDVVKTQRQVALGAMEAVRVNPLHVDSTWLLLRRIRAESGTK GLFAGFLPRIIKAAPSCAIMISTYEFGKSFFQRLNQDRLLGG >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_3|1029_bp atggctgaccaggaccctgcgggcatcagccccctccagcaaatggtggcctcaggcacc ggggctgtggttacctctctcttcatgacacccctggacgtggtgaaggttcgcctgcag tctcagcggccctccatggccagcgggaagtgcctcctgtattgcaatggtgtcctggag cctctgtacctgtgcccaaatggtgcccgctgtgccacctggtttcaagaccctacccgc ttcactggcaccatggatgccttcgtgaagatcgtgaggcacgagggcaccaggaccctc tggagcggcctccccgccaccctggtgatgactgtgccagctaccgccatctacttcact gcctatgaccaactgaaggccttcctgtgtggtcgagccctgacctctgacctctacgca cccatggtggctggcgcgctggcccgcctgggcaccgtgactgtgatcagccccctggag cttatgcggacaaagctgcaggctcagcatgtgtcgtaccgggagctgggtgcctgtgtt cgaactgcagtggctcagggtggctggcgctcactgtggctgggctggggccccactgcc cttcgagatgtgcccttctcagtgcatcccccaccccaagccctgtactggttcaactat gagctggtgaagagctggctcaatgggttcaggccgaaggaccagacttctgtgggcatg agctttgtggctggtggcatctcagggacggtggctgcagtgctgactctaccctttgac gtggtaaagacccaacgccaggtcgctctgggagcgatggaggctgtgagagtgaacccc ctgcatgtggactccacctggctgctgctgcggaggatccgggccgagtcgggcaccaag ggactctttgcaggcttccttcctcggatcatcaaggctgccccctcctgtgccatcatg atcagcacctatgagttcggcaaaagcttcttccagaggctgaaccaggaccggcttctg ggcggctga >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_4|593_aa MWTLVSWVALTAGLVAGTRCPDGQFCPVACCLDPGGASYSCCRPLLDKWPTTLSRHLGGP CQVDAHCSAGHSCIFTVSGTSSCCPFPEALVPPAPCVMGESPSLSGLVVSWVILSTGNNS VGAIQCPDSQFECPDFSTCCVMVDGSWGCCPMPQASCCEDRVHCCPHGAFCDLVHTRCIT PTGTHPLAKKLPAQRTNRAVALSSSVMCPDARSRCPDGSTCCELPSGKYGCCPMPNATCC SDHLHCCPQDTVCDLIQSKCLSKENATTDLLTKLPAHTVGDVKCDMEVSCPDGYTCCRLQ SGAWGCCPFTQAVCCEDHIHCCPAGFTCDTQKGTCEQGPHQVPWMEKAPAHLSLPDPQAL KRDVPCDNVSSCPSSDTCCQLTSGEWGCCPIPEAVCCSDHQHCCPQGYTCVAEGQCQRGS EIVAGLEKMPARRASLSHPRDIGCDQHTSCPVGQTCCPSLGGSWACCQLPHAVCCEDRQH CCPAGYTCNVKARSCEKEVVSAQPATFLARSPHVGVKDVECGEGHFCHDNQTCCRDNRQG WACCPYRQGVCCADRRHCCPAGFRCAARGTKCLRREAPRWDAPLRDPALRQLL >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_4|1782_bp atgtggaccctggtgagctgggtggccttaacagcagggctggtggctggaacgcggtgc ccagatggtcagttctgccctgtggcctgctgcctggaccccggaggagccagctacagc tgctgccgtccccttctggacaaatggcccacaacactgagcaggcatctgggtggcccc tgccaggttgatgcccactgctctgccggccactcctgcatctttaccgtctcagggact tccagttgctgccccttcccagaggccctggtgccaccagctccttgtgtgatgggggag tcaccttccctgagtgggctggtagtatcctgggtcatcttgtccacaggtaacaactcc gtgggtgccatccagtgccctgatagtcagttcgaatgcccggacttctccacgtgctgt gttatggtcgatggctcctgggggtgctgccccatgccccaggcttcctgctgtgaagac agggtgcactgctgtccgcacggtgccttctgcgacctggttcacacccgctgcatcaca cccacgggcacccaccccctggcaaagaagctccctgcccagaggactaacagggcagtg gccttgtccagctcggtcatgtgtccggacgcacggtcccggtgccctgatggttctacc tgctgtgagctgcccagtgggaagtatggctgctgcccaatgcccaacgccacctgctgc tccgatcacctgcactgctgcccccaagacactgtgtgtgacctgatccagagtaagtgc ctctccaaggagaacgctaccacggacctcctcactaagctgcctgcgcacacagtgggg gatgtgaaatgtgacatggaggtgagctgcccagatggctatacctgctgccgtctacag tcgggggcctggggctgctgcccttttacccaggctgtgtgctgtgaggaccacatacac tgctgtcccgcggggtttacgtgtgacacgcagaagggtacctgtgaacaggggccccac caggtgccctggatggagaaggccccagctcacctcagcctgccagacccacaagccttg aagagagatgtcccctgtgataatgtcagcagctgtccctcctccgatacctgctgccaa ctcacgtctggggagtggggctgctgtccaatcccagaggctgtctgctgctcggaccac cagcactgctgcccccagggctacacgtgtgtagctgaggggcagtgtcagcgaggaagc gagatcgtggctggactggagaagatgcctgcccgccgggcttccttatcccaccccaga gacatcggctgtgaccagcacaccagctgcccggtggggcagacctgctgcccgagcctg ggtgggagctgggcctgctgccagttgccccatgctgtgtgctgcgaggatcgccagcac tgctgcccggctggctacacctgcaacgtgaaggctcgatcctgcgagaaggaagtggtc tctgcccagcctgccaccttcctggcccgtagccctcacgtgggtgtgaaggacgtggag tgtggggaaggacacttctgccatgataaccagacctgctgccgagacaaccgacagggc tgggcctgctgtccctaccgccagggcgtctgttgtgctgatcggcgccactgctgtcct gctggcttccgctgcgcagccaggggtaccaagtgtttgcgcagggaggccccgcgctgg gacgcccctttgagggacccagccttgagacagctgctgtga >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_5|838_aa MPPASGPSVLARLLPLLGLLLGSASRAPGKSPPEPPSPQVEETLPSDSPGAEILIKVQVY VSGELVPLARASVDVFGNRTLLAAGTTDSEGVATLPLSYRLGTWVLVTAARPGFLTNSVP WRVDKLPLYASVSLYLLPERPATLILYEDLVHILLGSPGARSQPLVQFQRRAARLPVSST YSQLWASLTPASTQQEMRAFPAFLGTEASSSGNGSWLELMPLTAVSVHLLTGNGTEVPLS GPIHLSLPVPSETRALTVGTSIPAWRFDPKSGLWVRNGTGVIRKEGRQLYWTFVSPQLGY WVAAMASPTAGLVTITSGIQDIGTYHTIFLLTILAALALLVLILLCLLIYYCRRRCLKPR QQHRKLQLSGPSDGNKRDQATSMSQLHLICGGPLEPAPSGDPEAPPPGPLHSAFSSSRDL ASSRDDFFRTKPRSASRPAAEPSGARGGESAGLKGARSAEGPGGLEPGLEEHRRGPSGAA AFLHEPPSPPPPFDHYLGHKGAAEGKTPDFLLSQSVDQLARPPSLGQAGQLIFCGSIDHL KDNVYRNVMPTLVIPAHYVRLGGEAGAAGVGDEPAPPEGTAPGPARAFPQPDPQRPQMPG HSGPGGEGGGGGGEGWGAGRAAPVSGSVTIPVLFNESTMAQLNGELQALTEKKLLELGVK PHPRAWFVSLDGRSNSQVRHSYIDLQAGGGARSTDASLDSGVDVHEARPARRRPAREERE RAPPAAPPPPPAPPRLALSEDTEPSSSESRTGLCSPEDNSLTPLLDEVAAPEGRAATVPR GRGRSRGDSSRSSASELRRDSLTSPEDELGAEVGDEAGDKKSPWQRREERPLMVFNVK >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_5|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 >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_6|94_aa MDKPRSGIRNKTIPLTDNTVIEKHLGKFGVVCLEDLSHEIAVPGKHFQEVSWLLRPFYLS VARHATKNTVGFLKEMGTPGYQGERISQLIRQLN >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_6|285_bp atggacaagccaaggtcaggaataaggaataagaccattcctctgacagacaacacagtg attgagaagcacctggggaagtttggtgtcgtttgcttggaagacctcagtcatgaaatt gccgtcccagggaagcatttccaggaggtctcatggttgttacgccctttctacctctca gtggcccgtcatgctaccaaaaatacagtgggcttcctcaaggagatgggcacacctggc tatcagggtgaacgcatcagtcagctcatccgccagctgaactag >gi568815581f:44249165_44452795|GENSCAN_predicted_peptide_7|2438_aa XRTDPIPIVVKYDVMGMGRMEMELDYAEDATERRRVLEVEKEDTEELRQKYKDYVDKEKA IAKALEDLRANFYCELCDKQYQKHQEFDNHINSYDHAHKQGHEGMQSLTYYFQQADQIKV VRLRLKDLKQREFARNVSSRSRKDEKKQEKALRRLHELAEQRKQAECAPGSGPMFKPTTV AVDEEGGEDDKDESATNSGTGATASCGLGSEFSTDKGGPFTAVQITNTTGLAQAPGLASQ GISFGIKNNLGTPLQKLGVSFSFAKKAPVKLESIASVFKDHAEEGTSEDGTKPDEKSSDQ GLQKVGDSDGSSNLDGKKEDEDPQDGGSLASTLSKLKRMKREEGAGATEPEYYHYIPPAH CKVKPNFPFLLFMRASEQMDGDNTTHPKNAPESKKGSSPKPKSCIKAAASQGAEKTVSEV SEQPKETSMTEPSEPGSKAEAKKALGGDVSDQSLESHSQKVSETQMCESNSSKETSLATP AGKESQEGPKHPTGPFFPVLSKDESTALQWPSELLIFTKAEPSISYSCNPLYFDFKLSRN KDARTKGTEKPKDIGSSSKDHLQGLDPGEPNKSKEVGGEKIVRSSGGRMDAPASGSACSG LNKQEPGGSHGSETEDTGRSLPSKKERSGKSHRHKKKKKHKKSSKHKRKHKADTEEKSSK AESGEKSKKRKKRKRKKNKSSAPADSERGPKPEPPGSGSPAPPRRRRRAQDDSQRRSLPA EEGSSGKKDEGGGGSSSQDHGGRKHKGELPPSSCQRRAGTKRSSRSSHRSQPSSGDEDSD DASSHRLHQKSPSQYSEEEEEEDSGSEHSRSRSRSGRRHSSHRSSRRSYSSSSDASSDQS CYSRQRSYSDDSYSDYSDRSRRHSKRSHDSDDSDYASSKHRSKRHKYSSSDDDYSLSCSQ SRSRSRSHTRERSRSRGRSRSSSCSRSRSKRRSRSTTAHSWQRSRSYSRDRSRSTRSPSQ RSGSRKRSWGHESPEERHSGRRDFIRSKIYRSQSPHYFRSGRGEGPGKKDDGRGDDSKAT GPPSQNSNIGTGRGSEGDCSPEDKNSVTAKLLLEKIQSRKVERKPSVSEEVQATPNKAGP KLKDPPQGYFGPKLPPSLGNKPVLPLIGKLPATRKPNKKCEESGLERGEEQEQSETEEGP PGSSDALFGHQFPSEETTGPLLDPPPEESKSGEATADHPVAPLGTPAHSDCYPGDPTISH NYLPDPSDGDTLESLDSSSQPGPVESSLLPIAPDLEHFPSYAPPSGDPSIESTDGAEDAS LAPLESQPITFTPEEMEKYSKLQQAAQQHIQQQLLAKQVKAFPASAALAPATPALQPIHI QQPATASATSITTVQHAILQHHAAAAAAAIGIHPHPHPQPLAQPSILGPSPFTLSHMLPS TPPYLLHGLLQQLPLHFTFTHYFTPSSQVRTCNIPPAMAPWALNLDPVQLTFYAGPNGSQ FGFSLDFHKDSHGRVAIVVGAPRTLGPSQEETGGVFLCPWRAEGGQCPSLLFDLRDETRN VGSQTLQTFKARQGLGASVVSWSDVIVVGPAACAPWQHWNVLEKTEEAEKTPVGSCFLAQ PESGRRAEYSPCRGNTLSRIYVENDFSWDKRYCEAGFSSVVTQARLPFQAGELVLGAPGG YYFLGLLAQAPVADIFSSYRPGILLWHVSSQSLSFDSSNPEYFDGYWGNTAIPDFQHPEG HRPPQTVEILDSYYQRLHRLRGEQMASYFGHSVAVTDVNGDGRHDLLVGAPLYMESRADR KLAEVGRVYLFLQPRGPHALGAPSLLLTGTQLYGRFGSAIAPLGDLDRDGYNDIAVAAPY GGPSGRGQVLVFLGQSEGLRSRPSQVLDSPFPTGSAFGFSLRGAVDIDDNGYPDLIVGAY GANQVAVYRAQPVVKASVQLLVQDSLNPAVKSCVLPQTKTPVSCFNIQMCVGATGHNIPQ KLSLNAELQLDRQKPRQGRRVLLLGSQQAGTTLNLDLGGKHSPICHTTMAFLRDEADFRD KLSPIVLSLNVSLPPTEAGMAPAVVLHGDTHVQEQTRIVLDCGEDDVCVPQLQLTASVTG SPLLVGADNVLELQMDAANEGEGAYEAELAVHLPQGAHYMRALSNVEGFERLICNQKKEN ETRVVLCELGNPMKKNAQIGIAMLVSVGNLEEAGESVSFQLQIRSKNSQNPNSKIVLLDV PVRAEAQVELRGNSFPASLVVAAEEGEREQNSLDSWGPKVEHTYEVLGSLASLAGLHNNG PGTVNGLHLSIHLPGQSQPSDLLYILDIQPQGGLQCFPQPPVNPLKVDWGLPIPSPSPIH PAHHKRDRRQIFLPEPEQPSRLQDPVLVSCDSAPCTVVQCDLQEMARGQRAMVTVLAFLW LPSLYQRPLDQFVLQSHAWFNVSSLPYAVPPLSLPRGEAQVWTQLLRALEERAIPIWWVL VGVLGGLLLLTILVLAMWKVGFFKRNRPPLEEDDEEGE >gi568815581f:44249165_44452795|GENSCAN_predicted_CDS_7|7317_bp nggagaacagatcccattccaatcgttgtcaagtatgatgtcatgggcatgggtcgcatg gaaatggagcttgattatgctgaagatgctaccgaacggcgccgtgtcctagaagtagaa aaagaagacacagaagagctgagacaaaagtacaaggattatgttgacaaagagaaggca attgccaaagccttggaagacctcagagccaacttttattgtgaactgtgtgataagcaa tatcagaaacatcaggaatttgataaccatatcaactcctatgatcatgcacacaagcag ggccatgaaggaatgcaaagcctcacatactactttcagcaggctgaccagataaaagtg gtcagactgagattaaaagatctgaagcagagagagtttgctcgaaatgtctcttcaaga tcccgcaaggatgagaaaaaacaggaaaaagcccttcggcggctccatgagttggcagag caaagaaaacaagctgaatgtgcacctggaagtggtcccatgttcaaaccaaccacagtg gctgtagatgaagaaggtggagaagatgataaagatgaatcagctacaaatagtggcaca ggtgccactgcttcttgtggcctgggatctgaattctccacagataaaggaggccctttc actgcagtacaaatcactaataccactggactggcccaggctcctgggttagcctcccaa ggcatcagctttggcattaagaataatctggggaccccattgcaaaaattgggagtgtca ttttcttttgccaaaaaggctcctgtcaaactcgaatcaatagcatcagttttcaaggac catgcggaggaagggacctctgaagatggaacaaaacccgatgagaagagttctgaccaa ggactgcagaaggtaggagactctgatgggagcagtaatcttgatggtaaaaaagaggat gaagaccctcaggatggagggtcccttgcctcaacattatccaaattaaaaaggatgaaa cgagaagaaggagctggggctacagagcctgagtattaccactacatccccccagcacac tgcaaagtaaaacctaattttccctttctactttttatgagagccagtgaacaaatggat ggtgataatactacacacccaaagaatgccccagagagtaaaaaaggcagttctcccaag cctaaaagctgcatcaaggcggcagcaagccaaggagcagaaaagacagttagtgaagtc tctgagcagccgaaggaaaccagcatgaccgagccctcagaaccaggaagcaaagctgag gcaaagaaggccttaggaggggatgtaagtgatcagagtttagaaagtcatagtcagaag gtttcagagacccaaatgtgtgagtccaactcttctaaagaaacctctctggccacccca gcagggaaagaaagccaagaaggacccaaacatcctactggtcccttcttcccagttttg agcaaagatgaaagcactgccctccagtggccatcagaactattaattttcaccaaggca gaaccctccatttcatacagttgtaaccctttatattttgactttaaactttcaaggaac aaagatgccagaactaaaggaacagaaaaaccaaaggatataggaagctcctcaaaggac catctccaaggcctagatcctggtgagccaaataaaagcaaggaagtgggcggagagaaa atagtacgttcctcaggaggcagaatggacgcacctgcttcagggtctgcctgtagcggc ctgaacaagcaggagcctgggggtagccatgggtctgagacagaagacacagggagaagc cttcccagcaagaaagaacgatctgggaagtcccaccggcacaaaaagaaaaagaagcac aaaaaatccagcaaacacaaacgtaaacacaaggctgacacagaagagaaaagctctaag gcagagtcaggggagaaatctaagaagcgcaagaaacgaaaacgaaagaagaataagtca tcagccccagcagattctgaacgaggacccaaaccagaaccccctgggagtggcagtccc gcaccaccaagaagaaggcggagagctcaagatgactcccagcggagatccctcccagct gaagaggggagcagtggcaaaaaggatgaaggtgggggtggtagcagctcccaagaccat ggtgggaggaaacacaaaggtgaacttccaccttcatcctgccagcgaagagcaggcacc aaacggagcagccggtctagccatcggagccaacccagtagtggagatgaggatagtgat gatgcttcctcacaccggctgcaccagaagtctccatcccagtacagtgaggaagaagaa gaggaagattcaggcagtgagcattcccgcagccgctcaaggtctggccggcgccattcc tcgcatcgttcctcccggcgttcttactcaagtagctcagatgcctcttcagaccagagc tgctatagtagacagcgcagttactctgatgacagctacagtgactacagtgacagatca cgaaggcactccaagcgctcccatgactcagatgactcagactatgccagctccaaacac cgatcaaaacggcacaaatattcatcttctgatgatgactatagcctcagttgcagccag tcccgaagccgatctcggagtcataccagagagcgctcaagatcccggggccgcagccgc agcagcagttgtagtcgtagtcgaagcaagcggagaagccgtagcaccacagcccacagc tggcaacggagccggagctatagccgggaccgcagccgcagcaccaggagcccttcccag agatcaggctccaggaagagatcatggggtcacgagagccctgaggagaggcattctggg cgtcgggacttcattcgttctaagatctaccgctcccagtccccccactatttccgatca ggccggggagaaggtcctgggaagaaagatgatggcagaggagatgacagtaaagcaaca ggtccaccttcccagaacagcaacattggcacaggaagagggtcagaaggtgactgcagt cctgaagacaagaactctgtcactgccaaactgctactggagaagatccagtcaaggaaa gtggagaggaaacctagtgtgagtgaggaggtgcaggccacccctaataaagctgggccc aagctcaaggaccccccacaaggttactttgggcccaagctccccccatctcttggcaat aagcctgtccttccactgatagggaagctcccagctacccgaaagcccaataagaagtgt gaagagtctggcttggaaaggggggaagagcaagaacagtcagagacagaagaggggccc ccagggagtagtgatgccctatttgggcatcagttcccttcagaggaaacaactggcccc ttattagacccacccccagaagagtcaaagtctggagaagctactgctgatcaccctgtg gctccactaggcaccccagcacattctgactgctaccctggggacccaaccatctcccat aactacctccccgaccccagtgatggggacaccctggagtccctggatagcagcagtcag ccaggccctgtggagtccagcttgctgcctatagcaccagaccttgagcatttccccagt tatgcacctcccagtggggatcctagtattgagtcaacagatggggctgaggatgcttca ctggcccccctggaaagccagcccatcaccttcacccctgaggagatggagaagtacagc aagctccagcaggctgctcagcaacacatccagcagcagcttctggccaagcaagtaaag gcctttccagcctcagctgccctggccccagccacaccagccctgcaacccatccacatt cagcagccagctacagcctctgccacctccatcacaactgttcagcatgccatcctacaa catcatgctgccgcagctgctgccgccatcggcattcaccctcacccccatccccaacca cttgcccagccatccatcctgggcccttcacctttcaccctgtcccacatgctgccctct accccaccctacttgctccacggcctgctgcagcagctgccactgcacttcaccttcacc cactacttcaccccatcttctcaggtcaggacctgcaacatccccccagccatggcaccc tgggccttgaacctggacccagtgcagctcaccttctatgcaggccccaatggcagccag tttggattttcactggacttccacaaggacagccatgggagagtggccatcgtggtgggc gccccgcggaccctgggccccagccaggaggagacgggcggcgtgttcctgtgcccctgg agggccgagggcggccagtgcccctcgctgctctttgacctccgtgatgagacccgaaat gtaggctcccaaactttacaaaccttcaaggcccgccaaggactgggggcgtcggtcgtc agctggagcgacgtcattgtggtgggccccgcggcctgcgccccctggcagcactggaac gtcctagaaaagactgaggaggctgagaagacgcccgtaggtagctgctttttggctcag ccagagagcggccgccgcgccgagtactccccctgtcgcgggaacaccctgagccgcatt tacgtggaaaatgattttagctgggacaagcgttactgtgaagcgggcttcagctccgtg gtcactcaggcgagacttcccttccaggccggagagctggtgcttggggctcctggcggc tattatttcttaggtctcctggcccaggctccagttgcggatattttctcgagttaccgc ccaggcatccttttgtggcacgtgtcctcccagagcctctcctttgactccagcaaccca gagtacttcgacggctactggggtaacaccgccattccagacttccagcaccccgagggt caccgcccaccgcagacggtggaaattttggattcctactaccagaggctgcatcggctg cgcggagagcagatggcgtcgtattttgggcattcagtggctgtcactgacgtcaacggg gatgggaggcatgatctgctggtgggcgctccactgtatatggagagccgggcagaccga aaactggccgaagtggggcgtgtgtatttgttcctgcagccgcgaggcccccacgcgctg ggtgcccccagcctcctgctgactggcacacagctctatgggcgattcggctctgccatc gcacccctgggcgacctcgaccgggatggctacaatgacattgcagtggctgccccctac gggggtcccagtggccggggccaagtgctggtgttcctgggtcagagtgaggggctgagg tcacgtccctcccaggtcctggacagccccttccccacaggctctgcctttggcttctcc cttcgaggtgccgtagacatcgatgacaacggatacccagacctgatcgtgggagcttac ggggccaaccaggtggctgtgtacagagctcagccagtggtgaaggcctctgtccagcta ctggtgcaagattcactgaatcctgctgtgaagagctgtgtcctacctcagaccaagaca cccgtgagctgcttcaacatccagatgtgtgttggagccactgggcacaacattcctcag aagctatccctaaatgccgagctgcagctggaccggcagaagccccgccagggccggcgg gtgctgctgctgggctctcaacaggcaggcaccaccctgaacctggatctgggcggaaag cacagccccatctgccacaccaccatggccttccttcgagatgaggcagacttccgggac aagctgagccccattgtgctcagcctcaatgtgtccctaccgcccacggaggctggaatg gcccctgctgtcgtgctgcatggagacacccatgtgcaggagcagacacgaatcgtcctg gactgtggggaagatgacgtatgtgtgccccagcttcagctcactgccagcgtgacgggc tccccgctcctagttggggcagataatgtcctggagctgcagatggacgcagccaacgag ggcgagggggcctatgaagcagagctggccgtgcacctgccccagggcgcccactacatg cgggccctaagcaatgtcgagggctttgagagactcatctgtaatcagaagaaggagaat gagaccagggtggtgctgtgtgagctgggcaaccccatgaagaagaacgcccagatagga atcgcgatgttggtgagcgtggggaatctggaagaggctggggagtctgtgtccttccag ctgcagatacggagcaagaacagccagaatccaaacagcaagattgtgctgctggacgtg ccggtccgggcagaggcccaagtggagctgcgagggaactcctttccagcctccctggtg gtggcagcagaagaaggtgagagggagcagaacagcttggacagctggggacccaaagtg gagcacacctatgaggtattggggagcctcgcgtccctggctgggctccacaacaatggc cctgggactgtgaatggtcttcacctcagcatccaccttccgggacagtcccagccctcc gacctgctctacatcctggatatacagccccaggggggccttcagtgcttcccacagcct cctgtcaaccctctcaaggtggactgggggctgcccatccccagcccctcccccattcac ccggcccatcacaagcgggatcgcagacagatcttcctgccagagcccgagcagccctcg aggcttcaggatccagttctcgtaagctgcgactcggcgccctgtactgtggtgcagtgt gacctgcaggagatggcgcgcgggcagcgggccatggtcacggtgctggccttcctgtgg ctgcccagcctctaccagaggcctctggatcagtttgtgctgcagtcgcacgcatggttc aacgtgtcctccctcccctatgcggtgcccccgctcagcctgccccgaggggaagctcag gtgtggacacagctgctccgggccttggaggagagggccattccaatctggtgggtgctg gtgggtgtgctgggtggcctgctgctgctcaccatcctggtcctggccatgtggaaggtc ggcttcttcaagcggaaccggccacccctggaagaagatgatgaagagggggagtga