GENSCAN 1.0 Date run: 3-Nov-116 Time: 11:23:09 Sequence gi568815591f:128694442_128917856 : 223415 bp : 49.81% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 22420 22556 137 0 2 100 83 165 0.998 14.81 1.02 Intr + 24390 24642 253 0 1 74 115 154 0.832 14.14 1.03 Term + 28756 28890 135 0 0 72 35 90 0.410 0.12 1.04 PlyA + 30261 30266 6 1.05 2.00 Prom + 41221 41260 40 -5.36 2.01 Init + 44807 44991 185 1 2 52 115 320 0.990 27.69 2.02 Intr + 53862 53926 65 0 2 35 58 10 0.013 -8.94 2.03 Intr + 54132 54363 232 1 1 88 82 247 0.239 20.93 2.04 Intr + 59821 60018 198 1 0 65 0 240 0.626 11.37 2.05 Intr + 60088 60281 194 1 2 86 82 154 0.636 13.74 2.06 Intr + 64430 64596 167 0 2 84 94 230 0.997 22.88 2.07 Intr + 65351 65411 61 1 1 98 111 73 0.999 8.91 2.08 Intr + 73015 73214 200 2 2 81 115 183 0.942 19.37 2.09 Term + 74622 74726 105 2 0 91 49 136 0.989 8.41 2.10 PlyA + 75161 75166 6 -0.45 3.06 PlyA - 76383 76378 6 1.05 3.05 Term - 78218 78099 120 2 0 58 55 98 0.991 1.97 3.04 Intr - 79447 79208 240 1 0 76 103 335 0.997 31.55 3.03 Intr - 80222 80057 166 1 1 76 68 231 0.999 19.86 3.02 Intr - 80713 80545 169 2 1 95 97 283 0.861 28.90 3.01 Init - 81349 80998 352 1 1 54 84 395 0.544 33.02 3.00 Prom - 82261 82222 40 -6.96 4.00 Prom + 82793 82832 40 -2.36 4.01 Init + 97053 97110 58 2 1 99 71 106 0.999 9.47 4.02 Intr + 97879 97986 108 2 0 129 96 119 0.996 17.06 4.03 Intr + 99907 100161 255 2 0 71 96 412 0.979 37.72 4.04 Intr + 100253 100327 75 0 0 122 86 147 0.561 17.39 4.05 Intr + 106745 107068 324 0 0 92 86 295 0.939 25.45 4.06 Intr + 110209 110320 112 2 1 124 77 196 0.997 21.54 4.07 Intr + 110918 111083 166 2 1 50 97 138 0.994 10.86 4.08 Intr + 111320 111460 141 1 0 66 97 138 0.966 13.05 4.09 Intr + 111796 111954 159 0 0 85 87 186 0.831 18.38 4.10 Intr + 112247 112417 171 1 0 39 93 280 0.838 23.74 4.11 Intr + 112919 113104 186 1 0 66 86 317 0.994 29.19 4.12 Intr + 115009 115203 195 0 0 82 88 168 0.994 15.81 4.13 Intr + 115698 115925 228 2 0 83 86 230 0.834 20.37 4.14 Intr + 117359 117871 513 1 0 78 80 706 0.999 61.96 4.15 Intr + 118267 118488 222 0 0 104 76 323 0.989 31.02 4.16 Intr + 120197 120478 282 1 0 67 113 379 0.999 35.92 4.17 Intr + 121173 121490 318 2 0 61 86 465 0.884 39.75 4.18 Intr + 129984 130080 97 2 1 75 103 20 0.061 1.78 4.19 Intr + 132209 132271 63 0 0 108 59 30 0.043 0.79 4.20 Intr + 136186 136548 363 2 0 49 68 839 0.067 73.16 4.21 Intr + 140885 141133 249 0 0 126 117 588 0.979 62.91 4.22 Intr + 142719 142816 98 1 2 114 88 136 0.984 15.93 4.23 Intr + 142957 143107 151 0 1 118 84 335 0.973 35.84 4.24 Intr + 143196 143314 119 1 2 104 69 262 0.901 26.08 4.25 Intr + 143546 143623 78 1 0 85 65 89 0.973 6.05 4.26 Intr + 143826 143988 163 2 1 67 57 291 0.908 23.45 4.27 Intr + 144162 144362 201 1 0 69 116 290 0.999 29.16 4.28 Intr + 145582 145719 138 2 0 133 89 242 0.999 29.24 4.29 Intr + 146107 146233 127 2 1 91 109 225 0.999 24.64 4.30 Intr + 146393 146529 137 2 2 58 106 62 0.999 5.21 4.31 Intr + 146729 146922 194 0 2 86 70 379 0.999 35.11 4.32 Intr + 147013 147126 114 0 0 123 96 234 0.999 28.34 4.33 Intr + 147790 147933 144 0 0 65 73 356 0.995 32.28 4.34 Intr + 148134 148257 124 2 1 96 91 234 0.999 24.66 4.35 Intr + 148353 148513 161 1 2 99 82 411 0.999 41.31 4.36 Intr + 148788 148878 91 2 1 80 109 132 0.999 14.07 4.37 Intr + 148967 149136 170 0 2 81 85 292 0.999 27.87 4.38 Intr + 149355 149472 118 2 1 76 92 129 0.794 12.14 4.39 Intr + 149563 149825 263 2 2 68 100 287 0.820 25.11 4.40 Intr + 150217 150814 598 0 1 92 113 849 0.969 79.91 4.41 Intr + 151549 151722 174 2 0 84 72 345 0.999 32.41 4.42 Intr + 151860 152022 163 1 1 82 68 246 0.999 21.03 4.43 Intr + 152244 152464 221 0 2 108 69 297 0.980 27.75 4.44 Intr + 153256 153423 168 2 0 92 80 96 0.994 9.12 4.45 Intr + 153504 153627 124 1 1 78 94 237 0.988 22.94 4.46 Intr + 154120 154276 157 1 1 65 97 216 0.986 20.21 4.47 Intr + 154352 154541 190 1 1 109 94 421 0.999 43.96 4.48 Intr + 154740 154763 24 1 0 104 92 13 0.659 1.30 4.49 Intr + 154890 155137 248 1 2 59 119 453 0.992 42.68 4.50 Intr + 155535 155633 99 2 0 103 19 91 0.937 4.01 4.51 Intr + 155943 156042 100 2 1 124 84 138 0.965 16.68 4.52 Intr + 156362 156502 141 0 0 76 105 301 0.995 30.92 4.53 Intr + 156791 156919 129 0 0 121 100 208 0.990 25.97 4.54 Intr + 157014 157187 174 1 0 81 94 286 0.998 28.41 4.55 Intr + 158150 158311 162 0 0 77 85 315 0.992 30.05 4.56 Intr + 158387 158590 204 0 0 89 82 355 0.999 34.17 4.57 Intr + 159028 159180 153 2 0 86 95 308 0.884 31.34 4.58 Intr + 159274 159396 123 2 0 119 75 258 0.999 28.16 4.59 Intr + 159533 159775 243 0 0 91 84 367 0.988 34.07 4.60 Intr + 159972 160241 270 1 0 79 110 380 0.998 36.81 4.61 Intr + 160334 160471 138 0 0 92 80 180 0.999 18.04 4.62 Intr + 160758 160873 116 1 2 122 72 163 0.999 18.27 4.63 Intr + 162077 162209 133 1 1 99 77 189 0.996 19.12 4.64 Intr + 162304 162480 177 2 0 63 117 237 0.999 23.99 4.65 Intr + 162677 162895 219 0 0 113 105 408 0.991 43.27 4.66 Intr + 163567 163806 240 2 0 88 29 214 0.997 13.02 4.67 Intr + 163895 164073 179 0 2 108 27 301 0.124 25.64 4.68 Intr + 168440 168703 264 1 0 44 60 296 0.102 20.11 4.69 Intr + 168914 168930 17 1 2 107 77 30 0.667 -1.86 4.70 Term + 170936 171137 202 2 1 119 50 419 0.930 38.06 4.71 PlyA + 171378 171383 6 -1.75 5.00 Prom + 171497 171536 40 -13.87 5.01 Init + 171969 172389 421 2 1 91 80 594 0.981 55.45 5.02 Term + 174225 174334 110 1 2 55 47 172 0.941 8.47 5.03 PlyA + 174371 174376 6 -3.24 6.51 PlyA - 174519 174514 6 -1.95 6.50 Term - 174637 174571 67 0 1 92 39 76 0.907 0.51 6.49 Intr - 174813 174722 92 0 2 40 94 97 0.789 4.29 6.48 Intr - 175340 175182 159 2 0 -32 65 198 0.211 5.68 6.47 Intr - 175779 175405 375 0 0 -34 64 288 0.198 9.41 6.46 Intr - 176291 176046 246 2 0 105 57 38 0.137 0.06 6.45 Intr - 180007 179855 153 1 0 110 117 86 0.803 13.97 6.44 Intr - 180169 180083 87 1 0 117 110 83 0.997 13.57 6.43 Intr - 182870 182761 110 0 2 103 38 124 0.138 8.90 6.42 Intr - 183349 183043 307 1 1 75 65 142 0.806 6.62 6.41 Intr - 184281 184117 165 0 0 70 109 135 0.264 13.96 6.40 Intr - 185182 185081 102 1 0 137 80 136 0.296 18.07 6.39 Intr - 185388 185277 112 2 1 93 101 233 0.919 25.48 6.38 Intr - 185644 185472 173 1 2 -5 69 211 0.996 8.64 6.37 Intr - 186087 185945 143 1 2 93 86 146 0.954 14.97 6.36 Intr - 186280 186178 103 1 1 44 91 41 0.774 -0.25 6.35 Intr - 186644 186556 89 0 2 104 58 110 0.849 9.29 6.34 Intr - 187257 187185 73 0 1 63 98 4 0.644 -2.12 6.33 Intr - 187575 187496 80 1 2 95 99 68 0.946 7.87 6.32 Intr - 189681 189561 121 0 1 71 117 4 0.462 1.67 6.31 Intr - 190422 190340 83 1 2 45 92 92 0.607 4.66 6.30 Intr - 190829 190656 174 0 0 82 44 95 0.943 4.41 6.29 Intr - 191941 191828 114 2 0 111 53 40 0.663 3.22 6.28 Intr - 192116 192023 94 2 1 67 64 38 0.769 -1.16 6.27 Intr - 192859 192774 86 2 2 81 94 82 0.986 7.64 6.26 Intr - 194598 194422 177 1 0 87 42 122 0.359 7.39 6.25 Intr - 196072 195902 171 2 0 92 77 93 0.877 8.51 6.24 Intr - 196655 196464 192 0 0 95 49 107 0.973 6.96 6.23 Intr - 196837 196744 94 1 1 77 91 73 0.998 6.04 6.22 Intr - 197092 197010 83 2 2 102 105 26 0.984 5.06 6.21 Intr - 197378 197205 174 0 0 56 77 138 0.948 9.41 6.20 Intr - 197832 197779 54 1 0 96 97 -5 0.493 0.15 6.19 Intr - 198166 198073 94 1 1 131 91 -12 0.995 2.94 6.18 Intr - 198353 198247 107 0 2 70 93 128 0.996 11.43 6.17 Intr - 198580 198428 153 2 0 28 105 79 0.913 3.64 6.16 Intr - 198878 198797 82 2 1 98 89 50 0.994 5.31 6.15 Intr - 199069 198950 120 1 0 105 96 57 0.681 8.89 6.14 Intr - 199614 199535 80 1 2 74 68 72 0.778 3.07 6.13 Intr - 199852 199759 94 1 1 94 101 35 0.667 4.94 6.12 Intr - 205516 205483 34 0 1 77 86 -4 0.167 -3.47 6.11 Intr - 208418 208336 83 2 2 72 105 60 0.564 4.54 6.10 Intr - 209697 209615 83 1 2 80 105 92 0.989 9.46 6.09 Intr - 211922 211838 85 2 1 80 76 -2 0.369 -2.81 6.08 Intr - 212736 212660 77 1 2 71 107 153 0.998 14.73 6.07 Intr - 213012 212823 190 0 1 102 98 4 0.557 1.96 6.06 Intr - 214127 213985 143 0 2 119 81 41 0.991 6.57 6.05 Intr - 216286 216160 127 1 1 84 113 101 0.280 12.45 6.04 Intr - 218405 218266 140 0 2 108 18 203 0.444 15.48 6.03 Intr - 218733 218494 240 1 0 88 29 213 0.983 12.92 6.02 Intr - 219622 219405 218 0 2 113 105 390 0.965 41.35 6.01 Intr - 222096 221990 107 0 2 59 131 36 0.204 4.01 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 163895 164082 188 0 2 108 41 309 0.815 25.85 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_1|174_aa MALGVTSSVPCLPLPNILLMASVKWHQGQNQTWNRPSIAPNIFLKRILPLRFVELQVCDH YQRILQLRTVTEKIYYLKLHPDHPETVFHFWIRLVQILQKGLSITTKDPRILVTHCLVPK NCSSPSGDSKLVQKKLQASQPSESLIQLMTKGESEALSQIFADLHQQNQLRYMT >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_1|525_bp atggccctgggggtgacctcctcggtaccctgcctgcccctccccaacatcctactcatg gccagtgtcaaatggcaccaggggcagaaccagacatggaacagaccatccatagccccc aacatcttcctgaagaggattctcccattgaggtttgtggagctccaggtatgtgaccac tatcaacgcatcctgcagttgaggacagtcactgagaagatttattacctaaagctccat cctgaccatcctgagactgtcttccacttctggatccgactggttcaaattctgcaaaag gggctgtccatcaccaccaaagaccctaggattcttgtcacgcactgcctggtacccaag aactgcagcagcccctcaggagattcgaagttagtacagaagaaactccaagcctcccag cccagcgagagtctcattcagctaatgaccaagggggagagtgaagccctgtctcagatt tttgccgacttacaccagcagaaccagttgaggtacatgacttaa >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_2|468_aa MATRGRYATAAGLLMIGREAAGEADEGGVRTRFRLGGACARELSRWVSGGHGILCCGGYE ERKQKVDILTISFLSAYNQMKETDLIIMDLRQFLMCLSLCTAFALSKPTEKKDRVHHEPQ LSDKVHNDAQSFDYDHDAFLGAEEAKTFDQLTPEESKERLGKIVSKIDGDKDGFVTVDEL KDWIKFAQKRWIYEDVERQWKGHDLNEDGLVSWEEYKNATYGYVLGRMIVDKIDADKDGF VTEGELKSWIKHAQKKYIYDNVENQWQEFDMNQDGLISWDEYRNVTYGTYLDDPDPDDGF NYKQMMVRDERRFKMADKDGDLIATKEEFTAFLHPEEYDYMKDIVVQETMEDIDKNADGF IDLEEYIGDMYSHDGNTDEPEWVKTEREQFVEFRDKNRDGKMDKEETKDWILPSDYDHAE AEARHLVYESDQNKDGKLTKEEIVDKYDLFVGSQATDFGEALVRHDEF >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_2|1407_bp atggctactcggggacgctatgcgacagcggcgggtttgctgatgattggtcgggaggcc gccggcgaggcggatgagggcggggtgcggacccgcttccggttgggcggtgcttgcgcg cgtgagctgagccggtgggtgagcggcggccacggcatcctgtgctgtgggggctacgag gaaagaaaacagaaagtggacattttaactataagtttcttatcagcctacaatcagatg aaggaaactgatctaattatcatggacctgcgacagtttcttatgtgcctgtccctgtgc acagcctttgccttgagcaaacccacagaaaagaaggaccgtgtacatcatgagcctcag ctcagtgacaaggttcacaatgatgctcagagttttgattatgaccatgatgccttcttg ggtgctgaagaagcaaagacctttgatcagctgacaccagaagagagcaaggaaaggctt ggaaagattgtaagtaaaatagatggcgacaaggacgggtttgtcactgtggatgagctc aaagactggattaaatttgcacaaaagcgctggatttacgaggatgtagagcgacagtgg aaggggcatgacctcaatgaggacggcctcgtttcctgggaggagtataaaaatgccacc tacggctacgttttaggtagaatgattgtagataaaatagacgcggataaagatgggttt gtgacggagggggagctgaaatcctggattaagcacgcccagaagaaatacatatatgac aatgttgaaaaccaatggcaggagtttgatatgaatcaagacggcttaatctcctgggat gagtacagaaacgtgacttatggcacttacctggatgatccagatcctgatgatggattt aactataaacagatgatggttagagatgagcggaggtttaaaatggcagacaaggatgga gacctcattgccaccaaggaggagttcacagctttcctgcaccctgaggagtatgactac atgaaagatatagtagtacaggaaacaatggaagatatagataagaatgctgatggtttc attgatctagaagagtatattggtgacatgtacagccatgatgggaatactgatgagcca gaatgggtaaagacagagcgagagcagtttgttgagtttcgggataagaaccgtgatggg aagatggacaaggaagagaccaaagactggatccttccctcagactatgatcatgcagag gcagaagccaggcacctggtctatgaatcagaccaaaacaaggatggcaagcttaccaag gaggagatcgttgacaagtatgacttatttgttggcagccaggccacagattttggggag gccttagtacggcatgatgagttctga >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_3|348_aa MRKMSEEEFYLFKNISSVGPWDGPQYHIAPVWAFYLQAAFMGTVFLIGFPLNAMVLVATL RYKKLRQPLNYILVNVSFGGFLLCIFSVFPVFVASCNGYFVFGRHVCALEGFLGTVAGLV TGWSLAFLAFERYIVICKPFGNFRFSSKHALTVVLATWTIGIGVSIPPFFGWSRFIPEGL QCSCGPDWYTVGTKYRSESYTWFLFIFCFIVPLSLICFSYTQLLRALKAVAAQQQESATT QKAEREVSRMVVVMVGSFCVCYVPYAAFAMYMVNNRNHGLDLRLVTIPSFFSKSACIYNP IIYCFMNKQFQACIMKMVCGKAMTDESDTCSSQKTEVSTVSSTQVGPN >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_3|1047_bp atgagaaaaatgtcggaggaagagttttatctgttcaaaaatatctcttcagtggggccg tgggatgggcctcagtaccacattgcccctgtctgggccttctacctccaggcagctttc atgggcactgtcttccttatagggttcccactcaatgccatggtgctggtggccacactg cgctacaaaaagttgcggcagcccctcaactacattctggtcaacgtgtccttcggaggc ttcctcctctgcatcttctctgtcttccctgtcttcgtcgccagctgtaacggatacttc gtcttcggtcgccatgtttgtgctttggagggcttcctgggcactgtagcaggtctggtt acaggatggtcactggccttcctggcctttgagcgctacattgtcatctgtaagcccttc ggcaacttccgcttcagctccaagcatgcactgacggtggtcctggctacctggaccatt ggtattggcgtctccatcccacccttctttggctggagccggttcatccctgagggcctg cagtgttcctgtggccctgactggtacaccgtgggcaccaaataccgcagcgagtcctat acgtggttcctcttcatcttctgcttcattgtgcctctctccctcatctgcttctcctac actcagctgctgagggccctgaaagctgttgcagctcagcagcaggagtcagctacgacc cagaaggctgaacgggaggtgagccgcatggtggttgtgatggtaggatccttctgtgtc tgctacgtgccctacgcggccttcgccatgtacatggtcaacaaccgtaaccatgggctg gacttacggcttgtcaccattccttcattcttctccaagagtgcttgcatctacaatccc atcatctactgcttcatgaataagcagttccaagcttgcatcatgaagatggtgtgtggg aaggccatgacagatgaatccgacacatgcagctcccagaaaacagaagtttctactgtc tcgtctacccaagttggccccaactga >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_4|4141_aa MEAGAGAGAGAAGWSCPGPGPTVTTLGSYEASEGCERKKGQRWGSLERRGMQAMEGEVLL PALYEEEEEEEEEEEEVEEEEEQVQKGGSVGSLSVNKHRGLSLTETELEELRAQVLQLVA ELEETRELAGQHEDDSLELQGLLEDERLASAQQAEVFTKQIQQLQGELRSLREEISLLEH EKESELKEIEQELHLAQAEIQSLRQAAEDSATEHESDIASLQEDLCRMQNELEDMERIRG DYEMEIASLRAEMEMKSSEPSGSLGLSDYSGLQEELQELRERYHFLNEEYRALQESNSSL TGQLADLESERTQRATERWLQSQTLSMTSAESQTSEMDFLEPDPEMQLLRQQLRDAEEQM HGMKNKCQELCCELEELQHHRQVSEEEQRRLQRELKCAQNEVLRFQTSHSVTQNEELKSR LCTLQKKYDTSQDEQNELLKMQLQLQTELRQLKVMKSTLVENQSEKELLCRLQKLHLQHQ NVTCEKEKLLERQQQLQEELQCHEAELQHLRDTVASFKESNEKDTETHAQLQEMKQLYQA SKDELERQKHMYDQLEQDLLLCQLELKELKASHPIPEDKGKCANKCDTLLSRLTELQEKY KASQKEMGQLQMEQCELLEDQRRMQEEQGQLQEELHRLTLPLPKSGLLLKSQELLTKLED LCELQLLYQGMQEEQKKLIQNQDCVLKEQLEIHEELRRFKESHFQEVLENPDDSKLAKSS KCNRNKQSKLLMEQMQALQVMYDAGQAKQELLQQEQGRLLEERKRLQADLQLCLEEMQLL QVQSPSIKMSLESYGKSYGSMVPSNENCRKTYDTTVDDNESYYKSYTSTQTSSKSFLKSY DSSTSASEAYGKSYCTTSNSSITYKKSYGSTSSSDTCQKSFVSSCTDEEPAEPEDMERFE EMVVKVLIKLQAVQAMYQISQEEHSQLQEQMEKLLAKQKDLKEELDACEREFKECMECLE KPMAPQNDKNEIKELQTKLRELQLQYQASMDEQGRLLVVQEQLEGQLQCCQEELRQLREK RPSVVKEARGKNANKNMNKNANGVKMKKVTKPCSDTSESDLETRKSLEVVLYYKASQRKL DGLAKEEEKKEEMEEEKKQVKEEAKEQCGDELVAEPADPEEAKSTEDQEENEEDKEEEEK EEDSEEEEDDADSSLESPEENNPLRLSESKKYSETAIYPLYCRHQLTEEHGYGWWKGLIA KCYGQEVEQPPAATPVKDQLLLGQARASMMNNSGYSDAGLGLGDETDEMPSTEKDLAEDA PWKKIQQNTFTRWCNEHLKCVGKRLTDLQRDLSDGLRLIALLEVLSQKRMYRKFHPRPNF RQMKLENVSVALEFLEREHIKLVSIDSKAIVDGNLKLILGLIWTLILHYSISMPMWEDED DEDARKQTPKQRLLGWIQNKVPQLPITNFNRDWQDGKALGALVDNCAPGLCPDWEAWDPN QPVENAREAMQQADDWLGVPQVIAPEEIVDPNVDEHSVMTYLSQFPKAKLKPGAPVRSKQ LNPKKAIAYGPGIEPQGNTVLQPAHFTVQTVDAGVGEVLVYIEDPEGHTEEAKVVPNNDK DRTYAVSYVPKVAGLHKVTVLFAGQNIERSPFEVNVGMALGDANKVSARGPGLEPVGNVA NKPTYFDIYTAGAGTGDVAVVIVDPQGRRDTVEVALEDKGDSTFRCTYRPAMEGPHTVHV AFAGAPITRSPFPVHVSEACNPNACRASGRGLQPKGVRVKEVADFKVFTKGAGSGELKVT VKGPKGTEEPVKVREAGDGVFECEYYPVVPGKYVVTITWGGYAIPRSPFEVQVSPEAGVQ KVRAWGPGLETGQVGKSADFVVEAIGTEVGTLGFSIEGPSQAKIECDDKGDGSCDVRYWP TEPGEYAVHVICDDEDIRDSPFIAHILPAPPDCFPDKVKAFGPGLEPTGCIVDKPAEFTI DARAAGKGDLKLYAQDADGCPIDIKVIPNGDGTFRCSYVPTKPIKHTIIISWGGVNVPKS PFRVNVGEGSHPERVKVYGPGVEKTGLKANEPTYFTVDCSEAGQGDVSIGIKCAPGVVGP AEADIDFDIIKNDNDTFTVKYTPPGAGRYTIMVLFANQEIPASPFHIKVDPSHDASKVKA EGPGLNRTGVEVGKPTHFTVLTKGAGKAKLDVQFAGTAKGEVVRDFEIIDNHDYSYTVKY TAVQQGNMAVTVTYGGDPVPKSPFVVNVAPPLDLSKIKVQGLNSKVAVGQEQAFSVNTRG AGGQGQLDVRMTSPSRRPIPCKLEPGGGAEAQAVRYMPPEEGPYKVDITYDGHPVPGSPF AVEGVLPPDPSKVCAYGPGLKGGLVGTPAPFSIDTKGAGTGGLGLTVEGPCEAKIECQDN GDGSCAVSYLPTEPGEYTINILFAEAHIPGSPFKATIRPVFDPSKVRASGPGLERGKVGE AATFTVDCSEAGEAELTIEILSDAGVKAEVLIHNNADGTYHITYSPAFPGTYTITIKYGG HPVPKFPTRVHVQPAVDTSGVKVSGPGVEPHGVLREVTTEFTVDARSLTATGGNHVTARV LNPSGAKTDTYVTDNGDGTYRVQYTAYEEGVHLVEVLYDEVAVPKSPFRVGVTEGCDPTR VRAFGPGLEGGLVNKANRFTVETSYSLILTHWSYEADGGMLSLRGAGTGGLGLAIEGPSE AKMSCKDNKDGSCTVEYIPFTPGDYDVNITFGGRPIPGSPFRVPVKDVVDPGKVKCSGPG LGAGVRARVPQTFTVDCSQAGRAPLQVAVLGPTGVAEPVEVRDNGDGTHTVHYTPATDGP YTVAVKYADQEVPRSPFKIKVLPAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEG LLTVQILDPEGKPKKANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYSPFRIHALP TGDASKCLVTVSIGGHGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDV DVVENHDGTFDIYYTAPEPGKYVITIRFGGEHIPNSPFHVLACDPLPHEEEPSEVPQLRQ PYAPPRPGARPTHWATEEPVVPVEPMESMLRPFNLVIPFAVQKGELTGEVRMPSGKTARP NITDNKDGTITVRYAPTEKGLHQMGIKYDGNHIPGSPLQFYVDAINSRHVSAYGPGLSHG MVNKPATFTIVTKDAGEGGLSLAVEGPSKAEITCKDNKDGTCTVSYLPTAPGDYSIIVRF DDKHIPGSPFTAKITGDDSMRTSQLNVGTSTDVSLKITESDLSQLTASIRAPSGNEEPCL LKRLPNRHIGISFTPKEVGEHVVSVRKSGKHVTNSPFKILVGPSEIGDASKVRVWGKGLS EGHTFQVAEFIVDTRNAGYGGLGLSIEGPSKVDINCEDMEDGTCKVTYCPTEPGTYIINI KFADKHVPGSPFTVKVTGEGRMKESITRRRQAPSIATIGSTCDLNLKIPGNWFQMVSAQE RLTRTFTRSSHTYTRTERTEISKTRGGETKREVRVEESTQVGGDPFPAVFGDFLGRERLG SFGSITRQQEGEASSQDMTAQVTSPSGKVEAAEIVEGEDSAYSVRFVPQEMGPHTVAVKY RGQHVPGSPFQFTVGPLGEGGAHKVRAGGTGLERGVAGVPAEFSIWTREAGAGGLSIAVE GPSKAEIAFEDRKDGSCGVSYVVQEPGDYEVSIKFNDEHIPDSPFVVPVASLSDDARRLT VTSLQETGLKVNQPASFAVQLNGARGVIDARVHTPSGAVEECYVSELDSDKHTIRFIPHE NGVHSIDVKFNGAHIPGSPFKIRVGEQSQAGDPGLVSAYGPGLEGGTTGVSSEFIVNTLN AGSGALSVTIDGPSKVQLDCRECPEGHVVTYTPMAPGNYLIAIKYGGPQHIVGSPFKAKV TGPRLSGGHSLHETSTVLVETVTKSSSSRGSSYSSIPKFSSDASKVVTRGPGLSQAFVGQ KNSFTVDCSKAGRWRGEGVSRGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKG DYILIVKWGDESVPGSPFKVKGELCPAAGMAGRGKLIAVIGDEDTVTGFLLGGIGELNKN RHPNFLVVEKDTTINEIEDTFRYGTARGLNGPFCCSVECGARLEAARTGRLTIVPQFLNR DDIGIILINQYIAEMVRHALDAHQQSIPAVLEIPSKEHPYDAAKDSILRRARGMFTAEDL R >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_4|12426_bp atggaggcgggcgccggagccggcgcgggagccgcgggctggagctgcccgggcccagga cccacagtgaccactctaggctcctatgaggcttccgagggctgtgagaggaagaagggc caacgctgggggtccctggaacgacgggggatgcaagctatggagggggaggtgttactc ccagctctctatgaggaggaagaggaagaggaagaggaggaagaagaggtggaagaagaa gaagaacaagtgcagaaaggtggcagtgttggctctctgtcagtcaacaagcaccgggga ctgagcctcacggagacagagctggaggagctgcgggctcaggtgctgcagctggtggca gaactggaggagacccgggaactggcagggcagcatgaggatgactccttggagctacag gggctcctggaggatgaacggctagccagcgcccagcaggcagaggtgttcaccaagcag atccagcagctccaaggtgagctgcgttctctacgggaggagatttccctgttagagcat gagaaagaaagcgaacttaaggaaatagaacaggaattgcatttggcccaggctgagatc cagagtctgcggcaagcagcagaggattccgcaactgaacatgagagtgacatagcatcc ctgcaggaggatctctgccggatgcagaatgaacttgaagacatggaacgcattcgggga gattatgagatggagatcgcctccctccgtgcagaaatggaaatgaagagctctgaacca tccggtagtttaggtctctcagattactctgggttacaagaagaactgcaggagctgcgg gaacgctaccatttcctgaatgaggaataccgggccctgcaggagagcaacagcagcctc acggggcagcttgcagatctggagagtgagaggacacagagagcaacagagagatggctg cagtcccaaacactgagtatgacgtcagcagagtctcagacttcagaaatggatttctta gagcctgatcctgaaatgcagttgttacggcagcagctacgggatgctgaagagcagatg catggcatgaagaacaagtgtcaggaattgtgttgtgagttggaagagctacagcatcat cgccaggtcagtgaggaggagcagaggcggctgcagagggagctcaagtgtgctcagaat gaggtgcttcggtttcagacctcccacagtgtcacccagaatgaggagctgaagtccaga ctctgtaccctgcagaaaaaatatgatactagccaggatgagcagaacgagctcttgaag atgcagctgcaacttcagactgagctccggcagctcaaagtcatgaaatccacacttgta gaaaaccagagtgagaaggagttactgtgccggctgcagaagctgcacctccagcaccag aacgtcacatgtgagaaggaaaagctgctggaacggcagcagcagctgcaggaggagctg cagtgccatgaggcagagctgcagcacctcagggatacggtggcctccttcaaagagagc aatgagaaggacacagagacgcacgctcagcttcaggagatgaagcagctgtaccaggcc agcaaggacgagctggagcggcagaagcacatgtatgaccagctggagcaggacctcctg ctctgccagctggagctgaaagagctcaaggcctcccaccccattccggaggacaaagga aagtgtgctaataagtgtgacacactgctgtccagactgacagaattgcaggaaaagtac aaggccagccagaaggagatggggcagctgcagatggagcagtgtgagctcctggaggat cagaggaggatgcaggaggagcagggccagctgcaggaagagctgcacaggctcacactg ccactgccaaagagtggcctcttactcaagagtcaggagctactcaccaagttagaagac ctgtgtgagctgcagctgctctaccaaggcatgcaggaggaacagaagaagctgatacag aaccaagactgtgtattaaaagaacaattagagatccacgaagagctgcgacgtttcaaa gagtctcatttccaggaagtgttggagaatcccgatgattccaaattggctaagtcctcc aaatgtaatcgaaacaagcaatccaagctgctcatggagcagatgcaggccctgcaggtg atgtatgacgccggtcaggcgaagcaggagctcttgcagcaagagcaagggaggctccta gaggagcggaagaggctgcaggcagacttgcagctctgcctggaagaaatgcagctgctt caagtccagtccccttctataaaaatgagccttgagtcctacgggaagagctatggtagc atggtccccagcaatgagaactgtcgcaagacttatgataccactgtggatgacaatgag agctattacaagagttacaccagcacccagaccagcagcaagagctttctcaagagctat gacagcagcaccagtgccagtgaggcctatgggaagagttactgcactaccagcaacagc agcattacctataagaagagttacggcagcaccagtagctctgacacctgccagaagagt tttgtcagcagctgcactgacgaggaacctgctgagcctgaagacatggagcgctttgag gaaatggttgtgaaagtgctgatcaagctgcaggcggtgcaggccatgtaccagataagc caggaggaacacagccagctgcaagagcagatggaaaagttactggccaagcagaaagac ctgaaggaagagctggatgcctgtgaaagggagttcaaggagtgcatggaatgccttgaa aagcccatggccccccagaacgacaagaatgagatcaaagaactgcagaccaagctgcgg gagctgcagctgcaataccaggctagcatggatgagcaggggcggcttctggtagtgcag gagcagctggaggggcagctgcagtgctgccaggaggagctccgccagctcagggagaag aggccttctgttgtcaaagaagcccgggggaagaatgctaataagaacatgaacaagaat gccaatggggttaaaatgaaaaaggtgaccaagccatgctcggatacttctgagagcgac cttgagaccagaaagagtctggaggtagtgctgtactacaaggccagccagaggaaatta gatggactagcaaaagaggaggaaaagaaagaggagatggaggaggaaaaaaagcaagtg aaagaggaagcaaaggagcagtgtggggatgagctagttgctgagccagcagatcctgag gaagctaaatccacagaagatcaggaggaaaatgaagaggacaaagaggaagaggagaag gaagaagacagtgaagaggaggaggatgacgccgactcttcccttgaaagtcccgaagaa aataaccccctcagactttccgagagcaaaaagtatagtgagactgctatttacccactt tactgccgccaccagttgactgaagaacatgggtatgggtggtggaaaggacttatagcc aaatgctatggccaagaggtagagcagccacccgctgccactcctgtcaaggaccagctg cttttggggcaggcccgcgccagcatgatgaacaacagcggctactcagacgccggcctc ggcctgggcgatgagacagacgagatgccgtccacggagaaggacctggcggaggacgcg ccgtggaagaagatccagcagaacacattcacgcgctggtgcaatgagcacctcaagtgc gtgggcaagcgcctgaccgacctgcagcgcgacctcagcgacgggctccggctcatcgcg ctgctcgaggtgctcagccagaagcgcatgtaccgcaagttccatccgcgccccaacttc cgccaaatgaagctggagaacgtgtccgtggccctcgagttcctcgagcgcgagcacatc aagctcgtgtccatagacagcaaggccatcgtggatgggaacctgaagctgatcctgggc ctgatctggacgctgatcctgcactactccatctccatgcccatgtgggaggatgaagat gatgaggatgcccgcaaacagacgcccaagcagcggctgcttggctggatccagaacaag gtgccccagctgcccatcaccaacttcaaccgtgactggcaggacggcaaagctctgggc gccctggtggacaactgcgcccccggtctctgccccgactgggaggcctgggaccccaac cagcccgtggagaacgcccgggaggccatgcagcaggccgacgactggcttggggtgccc caggtcattgcccctgaggagattgtggaccccaacgtggatgagcattctgttatgacc tacctgtcccagttccccaaggccaagctcaaacctggtgcccctgttcgatccaagcag ctgaaccccaagaaagccatcgcctatgggcctggcatcgagccacagggcaacaccgtg ctgcagcctgcccacttcaccgtgcagacggtggacgcgggcgtgggcgaggtgctggtc tacatcgaggaccctgaaggccacaccgaggaggctaaggtggttcccaacaatgacaag gatcgcacctatgctgtctcctatgtgcccaaggtcgctgggttacacaaggtgaccgtg ctctttgctggccagaacattgaacgcagtccctttgaggtgaacgtgggcatggccctg ggagatgccaacaaggtgtcagcccgtggccctggcctggaacctgtgggcaatgtggcc aacaaacccacctactttgacatctacactgcgggggccggcactggcgatgttgctgtg gtgatcgtggacccacagggccggcgggacacagtggaggtggccctggaggacaagggt gacagcacgttccgctgcacatacagacctgccatggaggggccacataccgtgcatgtg gcctttgcgggtgcccccatcacccgcagtcccttccctgtccatgtgtcggaagcctgt aaccccaacgcctgccgcgcctctgggcgaggcctgcagcccaagggtgttcgcgtgaaa gaggtggctgacttcaaggtgtttaccaagggtgccggcagcggggagctcaaggtcacg gtcaaggggccaaagggcacagaggagccagtgaaggtgcgggaggctggggatggtgtg ttcgagtgcgagtactacccggtggtgcctgggaagtatgtggtgaccatcacgtggggc ggctacgccatccctcgcagcccctttgaggtacaggtgagcccagaggcaggagtgcaa aaggtccgggcctggggtcctggtttggagactggccaggtgggcaagtcagccgatttt gtggtggaagccattggcaccgaggtggggacactgggcttctccatcgaggggccctca caagccaagatcgaatgtgacgacaagggggatggctcctgcgatgtgcggtactggccc acggagcctggggagtacgctgtgcacgtcatctgtgacgatgaggacatccgagactca cccttcattgcccacatcctgcccgccccacctgactgcttcccagataaggtgaaggcc tttgggcctggcctggagcctaccggctgcatcgtggacaagcccgctgagttcaccatt gatgctcgtgcagctggcaagggagacctgaagctctatgcccaggacgccgacggctgt cccatcgacatcaaggtgatccccaacggcgacggcaccttccgctgctcctacgtgccc accaagcccattaagcacaccatcatcatctcctggggaggcgtaaacgtgcccaagagc cccttccgggtgaacgtgggcgagggcagccaccccgagcgggtaaaggtgtacggcccc ggagtggagaagacaggcctcaaggccaatgagcccacctacttcacggtggactgcagc gaggcggggcaaggcgacgtgagcatcggcatcaagtgcgccccaggcgtggtgggccct gcagaggctgacattgacttcgacatcatcaagaatgacaacgacaccttcaccgtcaag tacacgccaccaggggcgggccgctacaccatcatggtgctgtttgccaaccaggagatc cccgccagccccttccacatcaaggtggacccatcccacgatgccagcaaagtcaaggcc gagggccctgggctgaatcgcacaggtgtggaagtcgggaagcccacccacttcacggtg ctgaccaagggagccggcaaggccaagctggatgtgcagtttgcagggacagccaagggc gaggttgtgcgggactttgagatcatagacaaccatgactactcctacactgtcaagtac accgctgtccagcagggcaacatggcagtgacagtgacttatggcggggaccctgtcccc aagagcccctttgtggtgaatgtggcacccccgctggacctcagcaaaatcaaagttcag ggccttaatagcaaggtggctgtgggacaggaacaagcattctctgtgaacacacgaggg gctggcggtcagggccaactggatgtgcggatgacttcgccctctcgccggcccatcccc tgcaagctggagccaggcggtggagcggaagcccaggctgtgcgctacatgcccccggag gaggggccctacaaggtggatatcacctacgatggtcacccggtgcctggcagcccgttt gctgtggagggtgtcctgccccctgatccctccaaggtctgtgcttatggcccgggtctc aagggtggactggtaggcacccccgcgccattctccatcgacaccaagggggctggcaca ggtggcctggggctgaccgtagagggcccctgcgaggccaagatcgagtgccaggacaat ggtgatggctcatgtgctgtcagctacctgcccacggagcctggcgagtacaccatcaac atcctgtttgctgaggcccacatccctggctcgcccttcaaagccaccattcggcctgtg tttgacccgagcaaggtgcgggccagtggaccgggcctggagcgcggcaaggtcggtgag gcagccaccttcactgtggactgctcagaggcaggcgaggcggagctgaccattgagatc ctgtcggatgccggggtcaaggccgaggtgctgatccacaacaacgcggatggcacctac cacatcacctacagccctgccttccctggcacctacaccattaccatcaagtatggcggg catcccgtgcccaaattccccacccgtgtccatgtgcagcctgcggtcgataccagtggc gtcaaggtctcagggcctggtgttgagccacacggtgtcctgcgggaggtgaccactgag ttcactgtggatgcaagatccctaacagccacaggcggcaaccacgtgacggctcgtgtg ctcaacccctcgggggccaagacagacacctatgtgacagacaatggggacggcacctac cgagtgcagtacaccgcctacgaggagggcgtgcatctggtggaggtcctgtatgatgag gtcgctgtgcccaagagccccttccgagtgggcgtgaccgagggctgtgatcccacccgc gtccgagccttcgggccaggcctggagggtggcttggtcaacaaggccaaccgattcact gtggagaccagctactccctcatcctcactcactggtcttatgaagctgatggggggatg ttatctctcaggggagcgggcaccgggggccttggcctagccatcgagggtccctcggaa gccaagatgtcctgcaaggacaacaaggatggtagctgcaccgtggagtacatccccttc actcctggagactatgacgtcaacatcaccttcggggggcggcccatcccagggagcccg ttccgcgtgccagtgaaggatgtggtggaccctgggaaggtgaagtgctcagggccaggg ctgggggctggtgtcagggcccgggttcctcagaccttcacagtggattgcagtcaagct ggccgggcgcccctgcaggtggctgtgctgggccccacaggtgtggccgagcctgtggag gtgcgggacaatggagatggcacccacactgtccactacaccccagccactgacgggccc tacacggtagccgtcaagtatgctgaccaggaggtgccacgcagccccttcaagatcaag gtcctcccagctcatgatgccagcaaggtgcgggccagcggcccaggcctcaacgcctct ggcatccctgccagcctgcctgtggagttcaccatcgacgcacgggacgcgggcgagggg ttgctcactgtccagatcttggaccccgagggtaagcccaagaaggccaacatccgggac aatggggatggcacgtacactgtgtcctacctgccggacatgagtggccggtacaccatc accatcaagtatggcggtgatgagatcccctactcgcccttccgcatccatgctctgccc actggggatgccagcaagtgcctcgtcacagtgtccattggaggccatggcctgggtgcc tgcctgggccctcgaatccagattgggcaggagacggtgatcacggtggatgccaaggca gccggtgaggggaaggtgacatgcacggtgtccacgccggatggggcagagctcgatgtg gatgtggttgagaaccatgacggtacctttgacatctactacacagcgcccgagccgggc aagtacgtcatcaccatccgcttcgggggtgagcacatccccaacagccccttccacgtg ctggcgtgtgaccccctgccgcacgaggaggagccctctgaagtgccacagctgcgccag ccctacgctcctccccggcccggcgcccgccccacacactgggccacagaggagccagtg gtgcctgtggagccaatggagtccatgctgaggcccttcaacctggtcatccccttcgcg gtgcagaaaggggagctcacaggagaggtgcggatgccctcggggaagacggcacggccc aacatcaccgacaacaaggacggcaccatcacggtgaggtatgcacccactgagaaaggc ctgcaccagatggggatcaagtatgacggcaaccacatccctgggagccccttacagttc tatgtggatgccatcaacagccgccatgtcagtgcctatgggccaggcctgagccatggc atggtcaacaagccagccaccttcactattgtcaccaaagatgctggagaagggggtctg tcactggccgtggagggcccatccaaggcagagatcacctgtaaggacaacaaggatggc acctgcaccgtgtcctatctgccgactgcgcctggagactacagcatcatcgtgcgcttc gatgacaagcacatcccggggagccccttcacagccaagatcacaggtgatgactccatg aggacctcacagctgaatgtgggcacctccacggacgtgtcactgaagatcaccgagagt gatctgagccagctgaccgccagcatccgtgccccctcgggcaacgaggagccctgcctg ctgaagcgcctgcccaaccggcacattgggatctccttcacccccaaggaggtcggggag cacgtggtgagcgtgcgcaagagtggcaagcatgtcaccaacagccccttcaagatcctg gtggggccatctgagatcggggacgccagcaaggtgcgggtctggggcaaggggctttcc gagggacacacattccaggtggcagagttcatcgtggacactcgcaatgcaggttatggg ggcttggggctgagtattgaaggcccaagcaaggtggacatcaactgtgaggacatggag gacgggacatgcaaagtcacctactgccccaccgagcccggcacctacatcatcaacatc aagtttgctgacaagcacgtgcctggaagccccttcactgtgaaggtgaccggcgagggc cgcatgaaggagagcatcacccggcggagacaggcaccttccatcgccaccatcggcagc acctgtgacctcaacctcaagatcccaggaaactggttccagatggtgtctgcccaggag cgcctgacacgcaccttcacacgcagcagccacacctacacccgcacggagcgcacggag atcagcaagacgcggggcggggagacaaagcgcgaggtgcgggtggaggagtccacccag gtcggcggggaccccttccctgctgtgtttggggacttcctgggccgggagcgcctggga tccttcggcagcatcacccggcagcaggagggtgaggccagctctcaggacatgactgca caggtgaccagcccatcgggcaaggtggaagccgcagagatcgtcgagggcgaggacagc gcctacagcgtgcgctttgtgccccaggaaatggggccccatacggtcgctgtcaagtac cgtggccagcacgtgcccggcagcccctttcagttcactgtggggccgctgggtgaaggt ggtgcccacaaggtgcgggccggaggcacagggctggagcgaggtgtggccggcgtgcca gccgagttcagcatctggacccgggaggctggcgctgggggcctgtccattgctgtggag ggtcctagcaaagcggagattgcatttgaggatcgcaaagatggctcctgcggcgtctcc tatgtcgtccaggaaccaggtgactatgaggtctccatcaagttcaatgatgagcacatc ccagacagcccctttgtggtgcctgtggcctccctctcggatgacgctcgccgtctcact gtcaccagcctccaggagacggggctcaaggtgaaccagccagcgtcctttgccgtgcag ctgaacggtgcccggggcgtgattgatgcccgggtgcacacaccctcgggggctgtggag gagtgctacgtctctgagctggacagtgacaagcacaccatccgcttcatcccccacgag aatggcgtccactccatcgatgtcaagttcaacggtgcccacatccctggaagtcccttc aagatccgcgttggggagcagagccaggctggggacccaggcttggtgtcagcctacggt cctgggctcgagggaggcactaccggtgtgtcatcagagttcatcgtgaacaccctgaat gccggctcgggggccttgtctgtcaccattgatggcccctccaaggtgcagctggactgt cgggagtgtcctgagggccatgtggtcacttatactcccatggcccctggcaactacctc attgccatcaagtacggtggcccccagcacatcgtgggcagccccttcaaggccaaggtc actggtccgaggctgtccggaggccacagccttcacgaaacatccacggttctggtggag actgtgaccaagtcctcctcaagccggggctccagctacagctccatccccaagttctcc tcagatgccagcaaggtggtgactcggggccctgggctgtcccaggccttcgtgggccag aagaactccttcaccgtggactgcagcaaagcaggcaggtggcggggggagggcgtctcc cggggcaccaacatgatgatggtgggcgtgcacggccccaagaccccctgtgaggaggtg tacgtgaagcacatggggaaccgggtgtacaatgtcacctacactgtcaaggagaaaggg gactacatcctcattgtcaagtggggtgacgaaagtgtccctggaagccccttcaaagtc aagggtgagctctgcccggctgcagggatggcggggaggggtaagctcatcgcagtgatc ggagacgaggacacggtgactggtttcctgctgggcggcataggggagcttaacaagaac cgccatcccaatttcctggtggtggagaaggatacaaccatcaatgagatcgaagacact ttccggtacggtaccgcgcgaggcctgaacgggcccttctgctgctcggtggagtgcggg gcgaggctggaggctgcccggacggggaggctcaccatcgtcccgcaatttctaaaccgg gatgacattggcatcatcctcatcaaccagtacatcgcagagatggtgcggcatgccctg gacgcccaccagcagtccatccccgctgtcctggagatcccctccaaggagcacccatat gacgccgccaaggactccatcctgcgcagggccaggggcatgttcactgccgaagacctg cgctag >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_5|176_aa MSRQLNIDALRQNFWKEEYLREKMLRCEWYRKYGSMVKAKQKAKAAARLPLKLPTLHPKA PLSPPPAPKSAPSKVPSPVPEAPFQSEMYPVPPITRALLYEGISHDFQGRYRYLNTRKLD MPETRYLFPITTSFTYGWQLGPPVKQELVSCKMCRIESFFRKNGAFALLDPRDLAL >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_5|531_bp atgtcacggcagctcaacatagacgcgttacggcagaacttctggaaggaggaatatctg agggaaaagatgttgcgctgtgaatggtaccgcaagtatgggtcgatggtgaaggccaag cagaaggctaaggctgcagcccgcctgcccctcaaactgcccaccctgcaccccaaagcc ccactctcacccccacccgcccccaagtcagccccttccaaggtgcccagccctgtccca gaggcgccttttcagtcggaaatgtacccggtaccacctatcacccgagccctgctgtat gaaggcatctcccacgacttccaggggcggtaccgctacctcaacactcgaaaactggac atgccagagacgcgatacctcttccccatcaccaccagcttcacgtatggctggcagctg ggccccccagtgaagcaagaactggtctcctgcaagatgtgccgcattgagtcattcttc cgcaagaacggggccttcgcactgcttgatccccgagacctggccctctga >gi568815591f:128694442_128917856|GENSCAN_predicted_peptide_6|2169_aa TAEEAQWSSRPPRYLSGVSLQALGLAQCSLQVSSHRCVIRDHVNALNACSGTLSVTIDGP TKVQLDCWECPEGHVVTDTPMAPGNYLIAIKYGGPQHIVGSPFKAKVTGPRLSGGHSLHE TSTVLVETVTKSSSSRGSSYNSIPKFSSDASKVVTRGPGLSQAFVGQKNSFTVDCSKAGR WRGEGVSRGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKGTTSLSSSGRLLSR DDRRRAERGGASMAGVGAAALSLLLHLGALALAAGAEGGAVPREPPGQQTTAHSSVLAGN SQEQWHPLREWLGRLEAAVMELREQNKDLQTRVRQLESCECHPASPQCWGLGRAWPEGAR WEPDACTACVCQDGAAHCGPQAHLPHCRGCSQNGQTYGNGETFSPDACTTCRCLEGTITC NQKPCPRGPCPEPGACCPHCKPGCDYEGQLYEEGVTFLSSSNPCLQCTCLAAQKVALTGN MAKSGQHLGTPAESAGAWSETLYRDCVGKEGHIQCRQRECASLCPYPARPLPGTCCPVCD GCFLNGREHRSGEPVGSGDPCSHCRCAPYTPTPLSSHPGCEYQGHQYQSQETFRLQERGL CVRCSCQAGEVSCEEQECPVTPCALPASGRQLCPACELDGEEFAEGVQWEPDGRPCTACV CQDGVPKCGAVLCPPAPCQHPTQPPGACCPSCDSCTYHSQVYANGQNFTDADSPCHACHC QDGTVTCSLVDCPPTTCARPQSGPGQCCPRCPVTTAPRPTTLGPPPPYPPDCILEEEVFV DGESFSHPRDPCQECRCQEGHAHCQPRPCPRAPCAHPLPGTCCPNDCSGCAFGGKEYPSG ADFPHPSDPCRLCRCLSGNVQCLARRCVPLPCPEPVLLPGECCPQCPAAPAPAGCPRPGA AHARHQEYFSPPGDPCRRCLCLDGSVSCQRLPCPPAPCAHPRQGPCCPSCDGCLYQGKEF ASGERFPSPTAACHLCLCWEGSVSCEPKACAPALCPFPARGDCCPDCDGCEYLGESYLSN QEFPDPREPCNLCTCLGGFVTCGRRPCEPPGCSHPLIPSGHCCPTCQGCRYHGVTTASGE TLPDPLDPTCSLCTCQAGQVSCVRLQCPPLPCKLQVTERGSCCPRCRASSSPTSLPQQLA LAYTLATFSFSYLSLSGTAQTIPLPGCLAHGEEHPEGSRWVPPDSACSSCVCHEGVVTCA RIQCISSCAQPRQGPHDCCPQCSDCEHEGRKYEPGESFQPGADPCEVCICEPQPEGPPSL RCHRRQCPSLVGCPPSQLLPPGPQHCCPTCAEALSNCSEGLLGSELAPPDPCYTCQCQAC PELSCPLSERHTPPGSCCPVCRECVVEAEGRRVADGESWRDPSNACIACTCHRGHVECHL EECQALSCPHGWAKVPQADSCCERCQAPTQSCVHQGREVASGERWTVDTCTSCSCMAGTV RCQSQRCSPLSCGPDKAPALSPGSCCPRCLPRPASCMAFGDPHYRTFDGRLLHFQGSCSY VLAKDCHSGDFSVHVTNDDRGRSGVAWTQEVAVLLGDMAVRLLQDGAVTVDGHPVALPFL QEPLLYVELRGHTVILHAQPGLQVLWDGQSQVEVSVPGSYQGRTCGLCGNFNGFAQDDLQ GPEGLLLPSEAAFGNSWQVSEGLWPGRPCSAGREVDPCRAAGYRARREANARCGVLKSSP FSRCHAVVPPEPFFAACVYDLCACGPGSSADACLCDALEAYASHCRQAGVTPTWRGPTLC VVGCPLERGFVFDECGPPCPRTCFNQHIPLGELAAHCVQEGRGYPPGLELPPVLLQMEWS RRAQEQLLWDLELLTGVELGLFWPPQAQFFGPRGQAQQAWSQCCQPGGSTGGDPEQPDLA QREERSEAEPETQKRKLTPGTPGPGDLPSQNLPSQDALEGLGSDPHLGQERAELQRPPRM DTPESERRTLRIRKRRPLSPSEGLLRVPESTDSKACGQGEPKPPEKDYHADAEHDQRRAT KVGTGGGKAGGRPGGGVGCAYPPEAPGPAAAPRSRSRSRDASDPARRGIRAAGAPRGSPG PPGLERDPHGLQGPGVGPAPGEQEALKAAWPAPLSTAKAPAGLSAAQQVTALQRLLELHS AARRQRRRRDREQQRLREDAAGRRRALREQLEQMHRERTERLRALGARNTQNFLELLCSP GAEDPVPAK >gi568815591f:128694442_128917856|GENSCAN_predicted_CDS_6|6510_bp actgccgaagaagcccagtggtcgtctaggccaccgcgctatctgtctggcgtctcctta caggccctgggcctggcccaatgctccctccaggtcagtagtcaccggtgtgtcatcaga gatcatgtgaacgccctgaacgcctgctcggggaccttgtctgtcaccattgatggcccc accaaggtgcagctggactgttgggagtgtcctgagggccacgtggtcactgacactccc atggcccctggcaactacctcattgccatcaagtacggtggcccccagcacatcgtgggc agccccttcaaggccaaggtcactggtccgaggctgtccggaggccacagccttcacgaa acatccacggttctggtggagactgtgaccaagtcctcctcaagccggggctccagctac aactccatccccaagttctcctcagatgccagcaaggtggtgactcggggccctgggctg tcccaggccttcgtgggccagaagaactccttcaccgtggactgcagcaaagcaggcagg tggcggggggagggcgtctcccggggcaccaacatgatgatggtgggcgtgcacggcccc aagaccccctgtgaggaggtgtacgtgaagcacatggggaaccgggtgtacaatgtcacc tacactgtcaaggagaaagggactacatccttatcgtcaagtgggcgcctgctgagccgc gacgacagacggcgagccgagcgaggcggagctagcatggccggggtcggggccgctgcg ctgtcccttctcctgcacctcggggccctggcgctggccgcgggcgcggaaggtggggct gtccccagggagccccctgggcagcagacaactgcccattcctcagtccttgctgggaac tcccaggagcagtggcaccccctgcgagagtggctggggcgactggaggctgcagtgatg gagctcagagaacagaataaggacctgcagacgagggtgaggcagctggagtcctgtgag tgccaccctgcatctccccagtgctgggggctggggcgtgcctggcccgagggggcacgc tgggagcctgacgcctgcacagcctgcgtctgccaggatggggccgctcactgtggcccc caagcacacctgccccattgcaggggctgcagccaaaatggccagacctacggcaacggg gagaccttctccccagatgcctgcaccacctgccgctgtctggaaggtaccatcacttgc aaccagaagccatgcccaagaggaccctgccctgagccaggagcatgctgcccgcactgt aagccaggctgtgattatgaggggcagctttatgaggagggggtcaccttcctgtccagc tccaacccttgtctacagtgcacctgcctggctgcacagaaggtggctctcactgggaac atggccaagagtggacaacacctggggacccctgccgaatctgccggtgcctggtcagaa accctgtacagagactgtgtaggcaaggagggtcacatccagtgccgccagcgagaatgt gccagcctgtgtccatacccagcccggcccctcccaggcacctgctgccctgtgtgtgat ggctgtttcctaaacgggcgggagcaccgcagcggggagcctgtgggctcaggggacccc tgctcgcactgccgctgtgctccctatacccccacgcccctgtcatcccatccaggctgt gagtaccagggacaccagtatcagagccaggagaccttcagactccaagagcggggcctc tgtgtccgctgctcctgccaggctggcgaggtctcctgtgaggagcaggagtgcccagtc accccctgtgccctgcctgcctctggccgccagctctgcccagcctgtgagctggatgga gaggagtttgctgagggagtccagtgggagcctgatggtcggccctgcaccgcctgcgtc tgtcaagatggggtacccaagtgcggggctgtgctctgccccccagccccctgccagcac cccacccagccccctggtgcctgctgccccagctgtgacagctgcacctaccacagccaa gtgtatgccaatgggcagaacttcacggatgcagacagcccttgccatgcctgccactgt caggatggaactgtgacatgctccttggttgactgccctcccacgacctgtgccaggccc cagagtggaccaggccagtgttgccccaggtgcccagtaactactgccccccgccccacc acgctagggcccccacccccctaccccccagactgcatcctggaggaagaggtgtttgtg gacggcgagagcttctcccacccccgagacccctgccaggagtgccgatgccaggaaggc catgcccactgccagcctcgcccctgccccagggccccctgtgcccacccgctgcctggg acctgctgcccgaacgactgcagcggctgtgcctttggcgggaaagagtaccccagcgga gcggacttcccccacccctctgacccctgccgtctgtgtcgctgtctgagcggcaacgtg cagtgcctggcccgccgctgcgtgccgctgccctgtccagagcctgtcctgctgccggga gagtgctgcccgcagtgcccagccgccccagcccccgccggctgcccacggcccggcgcg gcccacgcccgccaccaggagtacttctccccgcccggcgatccctgccgccgctgcctc tgcctcgacggctccgtgtcctgccagcggctgccctgcccgcccgcgccctgcgcgcac ccgcgccaggggccttgctgcccctcctgcgacggctgcctgtaccaggggaaggagttt gccagcggggagcgcttcccatcgcccactgctgcctgccacctctgcctttgctgggag ggcagcgtgagctgcgagcccaaggcatgtgcccctgcactgtgccccttccctgccagg ggcgactgctgccctgactgtgatggctgtgagtacctgggggagtcctacctgagtaac caggagttcccagacccccgagaaccctgcaacctgtgtacctgtcttggaggcttcgtg acctgcggccgccggccctgtgagcctccgggctgcagccacccactcatcccctctggg cactgctgcccgacctgccagggatgccgctaccatggcgtcactactgcctccggagag acccttcctgacccacttgaccctacctgctccctctgcacctgccaggctggccaggtc agctgtgtgcggctgcagtgcccaccccttccctgcaagctccaggtcaccgagcggggg agctgctgccctcgctgcagagccagctcttctcccacctccctgccccaacaactggcc cttgcatacacccttgccaccttcagcttctcctacctctccctgtccgggactgcccag accatccctcttccaggctgcctggctcatggggaagagcaccccgaaggcagtagatgg gtgccccccgacagtgcctgctcctcctgtgtgtgtcacgagggcgtcgtcacctgtgca cgcatccagtgcatcagctcttgcgcccagccccgccaagggccccatgactgctgtcct caatgctctgactgtgagcatgagggccggaagtacgagcctggggagagcttccagcct ggggcagacccctgtgaagtgtgcatctgcgagccacagcctgaggggcctcccagcctt cgctgtcaccggcggcagtgtcccagcctggtgggctgcccccccagccagctcctgccc cctgggccccagcactgctgtcccacctgtgccgaggccttgagtaactgttcagagggc ctgctgggatctgagctagccccaccagacccctgctacacgtgccagtgccaggcttgt cctgagctcagctgtcccctctcagagcgccacactccccctgggagctgctgccccgta tgccgggaatgtgtggtggaggccgagggccggagagtggcagatggagagagctggcgg gaccccagcaatgcgtgcatcgcctgcacctgccatcggggccatgtggagtgccacctc gaggagtgccaggccctctcctgcccccatggctgggcgaaggtgccccaggctgacagc tgctgtgagcgatgccaagctcccacccagtcctgcgtgcaccagggccgtgaggtggcc tctggagagcgctggactgtggacacctgcaccagctgctcctgcatggcgggcaccgtg cgttgccagagccagcgctgctcaccgctctcgtgtggccccgacaaggcccctgccctg agtcctggcagctgctgcccccgctgcctgcctcggcccgcttcctgcatggccttcgga gacccccattaccgcaccttcgacggccgcctgctgcacttccagggcagttgcagctat gtgctggccaaggactgccacagcggggacttcagtgtgcacgtgaccaatgatgaccgg ggccggagcggtgtggcctggacccaggaggtggcggtgctgctgggagacatggccgtg cggctgctgcaggacggggcagtcacggtggatgggcacccggtggccttgcccttcctg caggagccgctgctgtatgtggagctgcgaggacacactgtgatcctgcacgcccagccc gggctccaggtgctgtgggatgggcagtcccaggtggaggtgagcgtacctggctcctac cagggccggacttgtgggctctgtgggaacttcaatggctttgcccaggacgatctgcag ggccctgaggggctgctcctgccctcggaggctgcgtttgggaatagctggcaggtctca gaggggctgtggcctggccggccctgttctgcaggccgagaggtggatccgtgccgggca gcaggttaccgtgccaggcgtgaggccaatgcccggtgtggggtgctgaagtcctcccca ttcagtcgctgccatgctgtggtgccaccggagcccttctttgccgcctgtgtgtatgac ctgtgtgcctgtggccctggctcctccgctgatgcctgcctctgtgatgccctggaagcc tacgccagtcactgtcgccaggcaggagtgacacctacctggcgaggccccacgctgtgt gtggtaggctgccccctggagcgtggcttcgtgtttgatgagtgcggcccaccctgtccc cgcacctgcttcaatcagcatatccccctgggggagctggcagcccactgcgtgcaagag ggccgcgggtatcccccagggctggagctgccccctgtactgctgcagatggagtggagc cggcgggcccaggagcagctcctgtgggacttggaactgctgactggtgtggagctgggc ctcttctggccaccccaggcccagtttttcggtccgaggggccaggcccagcaagcatgg agccagtgctgtcagccaggtggtagcacaggtggggaccctgagcagccggacctggcc cagagggaagagaggagtgaggcagagcctgagacccagaaaagaaagctcactcccggg acccctgggccgggggacctgccctcccaaaacctgccttcccaagatgcccttgaaggg ctgggctcggacccgcacctgggccaggagagagcagaacttcaaagaccaccaaggatg gacacccctgagtctgagaggaggaccctcaggatcagaaagcggagacccctcagccca tccgagggactcctgcgggtccctgaaagcacagactccaaagcctgtgggcagggagag cccaaacctccggagaaggactaccacgctgacgcagagcatgatcaaaggcgagccaca aaggtcggcaccggcggtggcaaagctgggggccgcccgggagggggcgtgggctgcgct tacccgcccgaagcccccggcccggcggcggctcccaggtcgcggagccggagccgagat gccagcgaccctgcgcgccgaggtatccgggcagcaggggctcctcggggctctccgggg cccccaggcctggagcgcgatccgcacgggctgcagggccctggagtgggccccgcaccg ggggagcaggaggccttgaaggccgcgtggccggcgcccctcagcaccgccaaggcgcct gcgggcttaagcgcggcgcagcaggtgacggctctgcagcggctgctggagctgcacagc gcggccaggcggcagcgccgccggcgggaccgtgagcagcagcggctccgggaggacgcg gctgggcggcggcgcgccctgcgggagcagctggagcaaatgcatcgggagaggacggag cggctgcgggccctcggggccaggaacacccagaacttcctggaactactgtgttcccct ggtgctgaggatcccgtgcctgcgaagtag