GENSCAN 1.0 Date run: 3-Nov-116 Time: 00:10:43 Sequence gi568815596r:241006569_241243032 : 236464 bp : 51.67% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 1446 1543 98 2 2 48 57 80 0.003 0.21 1.02 Intr + 3657 3844 188 0 2 87 44 84 0.010 3.75 1.03 Intr + 13767 13918 152 1 2 105 105 116 0.757 15.39 1.04 Intr + 23716 24003 288 0 0 107 76 497 0.991 48.38 1.05 Intr + 27167 27307 141 1 0 108 96 246 0.979 28.46 1.06 Intr + 27543 27683 141 2 0 116 56 70 0.976 7.66 1.07 Intr + 28000 28162 163 0 1 105 71 251 0.991 25.16 1.08 Intr + 30222 30347 126 1 0 89 92 211 0.998 22.76 1.09 Intr + 30672 30785 114 1 0 47 110 103 0.985 9.32 1.10 Intr + 33507 33620 114 1 0 57 92 50 0.417 3.22 1.11 Intr + 33732 33845 114 1 0 92 93 105 0.995 12.32 1.12 Intr + 41747 41872 126 0 0 106 32 195 0.990 16.86 1.13 Intr + 42094 42198 105 2 0 82 74 105 0.979 9.19 1.14 Intr + 42454 42567 114 2 0 71 74 144 0.994 12.22 1.15 Intr + 43249 43365 117 2 0 88 86 216 0.668 22.34 1.16 Intr + 44709 44750 42 1 0 57 92 47 0.615 0.70 1.17 Intr + 45176 45292 117 0 0 105 58 111 0.939 10.74 1.18 Intr + 45473 45589 117 0 0 119 82 161 0.993 19.54 1.19 Intr + 45787 45900 114 2 0 43 94 119 0.991 8.92 1.20 Intr + 46585 46737 153 2 0 32 38 302 0.438 20.16 1.21 Intr + 56223 56336 114 1 0 91 86 93 0.933 10.32 1.22 Intr + 57019 57132 114 2 0 91 91 83 0.978 9.82 1.23 Intr + 57444 57557 114 1 0 67 91 188 0.922 17.92 1.24 Intr + 58276 58389 114 2 0 93 98 180 0.998 20.42 1.25 Intr + 58731 59027 297 1 0 1 77 547 0.947 42.29 1.26 Intr + 60482 60670 189 0 0 45 17 127 0.654 1.38 1.27 Intr + 61196 61379 184 0 1 68 82 197 0.779 16.46 1.28 Intr + 62343 62455 113 0 2 119 86 78 0.999 11.23 1.29 Intr + 63352 63633 282 2 0 124 76 450 0.975 45.33 1.30 Intr + 65008 65152 145 2 1 104 88 129 0.989 14.35 1.31 Intr + 65228 65310 83 2 2 116 94 51 0.949 8.28 1.32 Intr + 65377 65513 137 2 2 89 52 87 0.731 6.00 1.33 Intr + 66592 66796 205 0 1 42 81 223 0.952 16.30 1.34 Intr + 67250 67351 102 0 0 26 55 90 0.304 0.15 1.35 Intr + 74231 74347 117 0 0 48 81 60 0.232 2.24 1.36 Intr + 75109 75225 117 2 0 112 123 66 0.536 13.44 1.37 Term + 80824 80948 125 2 2 51 41 116 0.529 2.05 1.38 PlyA + 82805 82810 6 1.05 2.00 Prom + 82826 82865 40 -1.81 2.01 Init + 86628 86739 112 2 1 47 77 85 0.761 3.66 2.02 Term + 88668 88870 203 1 2 62 32 150 0.909 4.67 2.03 PlyA + 88971 88976 6 1.05 3.23 PlyA - 89023 89018 6 1.05 3.22 Term - 89870 89430 441 2 0 68 37 706 0.859 59.14 3.21 Intr - 90859 90675 185 2 2 75 94 127 0.285 12.03 3.20 Intr - 93326 92828 499 2 1 116 82 146 0.015 9.95 3.19 Intr - 95684 95572 113 0 2 51 65 34 0.000 -2.00 3.18 Intr - 100931 100785 147 0 0 109 94 126 0.996 16.02 3.17 Intr - 101732 101599 134 1 2 105 105 187 0.914 22.90 3.16 Intr - 102966 102756 211 1 1 132 78 17 0.522 3.60 3.15 Intr - 105871 105655 217 1 1 66 50 328 0.762 25.40 3.14 Intr - 108609 108475 135 0 0 82 52 201 0.834 17.17 3.13 Intr - 108845 108720 126 2 0 123 59 84 0.926 10.38 3.12 Intr - 116331 116164 168 0 0 107 76 198 0.832 21.16 3.11 Intr - 117565 117381 185 2 2 100 31 94 0.754 4.93 3.10 Intr - 120883 119628 1256 0 2 78 27 688 0.023 49.76 3.09 Intr - 122841 122746 96 2 0 58 51 97 0.041 2.62 3.08 Intr - 126462 126306 157 1 1 47 110 125 0.801 10.18 3.07 Intr - 129471 129303 169 0 1 111 90 132 0.969 15.73 3.06 Intr - 130696 130436 261 1 0 50 81 316 0.969 25.32 3.05 Intr - 131519 131385 135 2 0 52 97 108 0.995 9.37 3.04 Intr - 132226 132086 141 1 0 97 76 139 0.979 14.66 3.03 Intr - 133586 133317 270 2 0 6 89 363 0.468 26.48 3.02 Intr - 134185 133953 233 2 2 94 53 121 0.772 7.22 3.01 Init - 135869 135785 85 2 1 85 77 45 0.806 4.04 3.00 Prom - 140325 140286 40 -5.81 4.00 Prom + 140552 140591 40 -4.81 4.01 Init + 142247 142260 14 1 2 75 39 37 0.228 -2.94 4.02 Intr + 142505 142679 175 2 1 58 62 101 0.347 4.96 4.03 Intr + 143230 143479 250 0 1 64 55 183 0.620 10.15 4.04 Intr + 146908 147036 129 2 0 14 76 182 0.834 10.77 4.05 Intr + 151239 151294 56 1 2 91 80 86 0.847 7.29 4.06 Intr + 151916 151981 66 1 0 83 100 70 0.941 7.29 4.07 Intr + 152645 152775 131 1 2 101 64 173 0.999 16.20 4.08 Intr + 153764 153926 163 2 1 90 77 157 0.954 15.29 4.09 Intr + 156717 156833 117 2 0 112 96 132 0.972 17.57 4.10 Intr + 159769 159873 105 0 0 127 64 257 0.994 28.11 4.11 Intr + 163213 163299 87 0 0 68 106 52 0.191 5.66 4.12 Intr + 174047 174154 108 1 0 57 107 6 0.105 0.38 4.13 Intr + 176079 176248 170 2 2 96 23 278 0.051 21.36 4.14 Intr + 182848 182942 95 1 2 105 86 40 0.459 5.61 4.15 Intr + 183167 183395 229 0 1 78 61 59 0.734 -0.34 4.16 Intr + 183489 183603 115 0 1 59 77 117 0.765 8.65 4.17 Intr + 184626 184683 58 2 1 84 97 22 0.607 1.65 4.18 Intr + 189135 189277 143 1 2 67 98 101 0.707 9.58 4.19 Intr + 192748 192855 108 0 0 59 98 201 0.368 19.18 4.20 Intr + 193521 193657 137 2 2 20 103 217 0.838 16.27 4.21 Intr + 194730 194787 58 0 1 75 68 75 0.589 3.58 4.22 Intr + 195626 195736 111 1 0 86 60 169 0.975 14.98 4.23 Intr + 196765 196930 166 0 1 64 109 262 0.804 25.95 4.24 Intr + 198297 198387 91 1 1 99 94 94 0.989 10.65 4.25 Intr + 201006 201114 109 0 1 115 90 98 0.728 13.49 4.26 Intr + 202717 202860 144 0 0 61 83 340 0.996 31.79 4.27 Intr + 202930 203067 138 0 0 68 68 189 0.995 16.07 4.28 Intr + 203727 203825 99 2 0 113 80 167 0.992 19.21 4.29 Intr + 203900 204002 103 1 1 88 84 155 0.999 15.35 4.30 Intr + 205526 205637 112 0 1 74 77 228 0.993 20.24 4.31 Intr + 206004 206058 55 0 1 69 105 65 0.944 5.77 4.32 Intr + 208237 208334 98 0 2 63 86 163 0.999 12.91 4.33 Intr + 209525 209670 146 2 2 86 49 158 0.970 12.14 4.34 Intr + 210820 210936 117 2 0 -2 53 123 0.589 0.74 4.35 Intr + 211118 211323 206 0 2 73 64 509 0.971 46.44 4.36 Intr + 211671 211813 143 2 2 55 99 261 0.996 23.56 4.37 Intr + 216618 216785 168 0 0 87 65 182 0.747 15.38 4.38 Intr + 216979 217069 91 1 1 96 69 10 0.456 0.40 4.39 Intr + 217094 217213 120 1 0 74 51 199 0.777 15.99 4.40 Term + 217782 217976 195 2 0 84 43 91 0.245 1.93 4.41 PlyA + 218591 218596 6 -0.45 5.14 PlyA - 219387 219382 6 1.05 5.13 Term - 223119 223033 87 0 0 92 39 15 0.335 -5.04 5.12 Intr - 223393 223265 129 1 0 139 77 160 0.957 21.40 5.11 Intr - 223701 223585 117 0 0 101 83 219 0.881 23.87 5.10 Intr - 224376 224191 186 0 0 97 105 298 0.703 32.80 5.09 Intr - 227395 227252 144 1 0 114 94 145 0.998 18.69 5.08 Intr - 228687 228553 135 0 0 74 88 218 0.999 21.67 5.07 Intr - 229026 228922 105 0 0 113 59 169 0.999 17.41 5.06 Intr - 230201 230047 155 0 2 112 87 116 0.990 14.20 5.05 Intr - 232219 232081 139 1 1 109 94 56 0.996 8.84 5.04 Intr - 233252 233034 219 2 0 77 70 393 0.987 35.43 5.03 Intr - 233554 233333 222 1 0 42 58 450 0.513 36.25 5.02 Intr - 236110 235892 219 1 0 111 105 312 0.996 34.23 5.01 Intr - 236272 236238 35 2 2 119 89 -10 0.573 0.63 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 4757 4448 310 2 1 35 42 181 0.811 5.68 S.002 Term + 176079 176255 177 2 0 96 47 271 0.925 21.80 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:241006569_241243032|GENSCAN_predicted_peptide_1|1731_aa KGIRSYTLPWVKAAVPPDSLSTARRWQLPSSDRPTLPCSEQPLGSGPGEQAVAYRHFQPE VTSWRLPRRFSSFLLSSKSEMPLEHVSVLPPEPAEELALGLDSHCPGDAIGLQLSRTILE PGPGIGGPVTRAPRRASGSRQALDRKVNNNGIISFLKEVSQFTPVAFPIAKDRCVVAAFW ADVDNRRAGDVYYREATDPAMLRRATEDVRHYFPELLDFNATWVFVATWYRVTFFGGSSS SPVNTFQTVLITDGKLSFTIFNYESIVWTTGTHASSGGNATGLGGIAAQSPLTAATATEM SSAPCALQSGLASDTRDHSRQETPGVEGMKQDNGHRAGFNAGDGQRYFSIPGSRTADMAE VETTTNVGVPGRWAFRIDDAQVRVGGCGHTTSVCLALRPCLNGGKCIDDCVTGNPSYTCS CLSGFTGRRCHLDVNECASQPCQNGGTCTHGINSFRCQCPAGFGGPTCETAQSPCDTKEC QHGGQCQVENGSAVCVCQAGYTGAACEMDVDDCSPDPCLNGGSCVDLVGNYTCLCAEPFK GLRCETGDHPVPDACLSAPCHNGGTCVDADQGYVCECPEGFMGLDCRERVPDDCECRNGG RCLGANTTLCQCPLGFFGLLCEFEITAMPCNMNTQCPDGGYCMEHGGSYLCVCHTDHNAS HSLPSPCDSDPCFNGGSCDAHDDSYTCECPRGFHGKHCEKGTVRTQGKCGNANAARPHLC SSGPCRNGGTCKEAGGEYHCSCPYRFTGRHCEIGKPDSCASGPCHNGGTCFHYIGKYKCD CPPGFSGRHCEIAPSPCFRSPCVNGGTCEDRDTDFFCHCQAGYMGRRCQAEVDCGPPEEV KHATLRFNGTRLGAVALYACDRGYSLSAPSRIRVCQPHGVWKIDECRSQPCLHGGSCQDR VAGYLCLCSTGYEGAHCELERDECRAHPCRNGGSCRNLPGAYVCRCPAGFVGVHCETEVD ACDSSPCQHGGRCESGGGAYLCVCPESFFGYHCETVSDPCFSSPCGGRGYCLASNGSHSC TCKVGYTGEDCAKELFPPTALKMERVEESGVSISWNPPNGPAARQMLDGYAVTYVSSDGS YRRTDFVDRTRSSHQLQALAAGRAYNISVFSVKRNSNNKNDISRPAVLLARTRRSTCKAA PCEICPRKVSGVKTEPALPAAELGLQPAMVGGRDRCPQTGVLSCRELSAALWALPGPRPV EGFEVTNVTASTISVQWALHRIRHATVSGVRVSIRHPEALRDQATDVDRSVDRFTFRALL PGKRYTIQLTTLSGLRGEEHPTESLATAPTHVWTRPLPPANLTAARVTATSAHVVWDAPT PGSLLEAYVINVTTSQSTKSRYVPNGKLASYTVRDLLPGRRYQLSVIAVQSTELGPQHSE PAHLYIITSPRDGADRRWHQGGHHPRVLKNRPPPARLPELRLLNDHSAPETPTQPPRFSE LVDGRGRVSARFGGSPSKAATVRSRPVPYMMSPPPPPAQSPASDPHPDCAQGAGLVGRRQ HAPPWQEGQLGHPCSLRYRSTQKGGPRTIPGAKQLRRVVTAWLLLEPTASAQLENMEEAP KRVSLALQLPEHGSKDIGSYAGPELSPSPGLCLVRIEASTSLQGTKHLLSTCSTQAKEQG GAFTLPCLCGPVQGDHGVGEGKPVFTDHSPADVPGNCSENPCQNGGTCVPGADAHSCDCG PGFKGRRCELGIKESTEFTKTSASKRAVKAQASRRPQTGASGEQAHAVSCM >gi568815596r:241006569_241243032|GENSCAN_predicted_CDS_1|5196_bp aagggcattcgcagttacaccctgccgtgggtgaaggcggccgtaccacctgactcactg agcacagcccggaggtggcagctccccagctctgacaggcccaccctgccctgctcagag cagccccttggctcaggtccgggggagcaggctgttgcatatcggcactttcagcccgag gtcacctcctggaggctccccagacgcttcagctctttcctgctttcatccaagtcggaa atgccactggagcacgtctctgtgcttcctcctgagccagcagaggagttggcgctgggg ctggacagccactgcccaggggacgccattgggctccagcttagccggaccatccttgaa ccaggcccaggcatcgggggccccgtgactcgagcaccccgcagagccagtggctcacgt caggcactggaccggaaggtgaacaacaacgggatcatctccttcctgaaggaggtttct cagttcaccccagtggccttccccattgccaaggaccgctgcgtggtggcagccttctgg gcagatgtggacaaccggcgtgcaggcgacgtgtactaccgggaggccaccgacccagcc atgctgcgccgagccacggaggacgtcaggcactacttccccgagctcctggacttcaat gccacctgggtttttgttgccacctggtaccgagtgaccttctttggaggcagttcctca tcccctgtcaacacattccagactgtgctcatcacagacggcaagctctccttcaccatc ttcaactatgagtccatcgtgtggaccacaggcacacacgccagcagcgggggcaacgcc actggcctcgggggcatcgcagcccagtcccctttaacagctgcaacagcaacagaaatg tcctctgctccttgtgccctgcagtctggcctagccagtgacacaagggaccacagccgg caggaaaccccgggtgtggagggaatgaaacaggacaatggccacagggctggcttcaac gcaggcgatgggcagcgttacttcagtatccccggctcgcgcacagcagacatggccgag gtggagaccaccaccaacgtgggtgtgcccgggcgctgggcgttcagaatcgatgatgcc caggtgcgcgtggggggctgcggccatacaacgtccgtgtgcctggccctgcgcccctgc ctcaacggcggcaagtgcatcgacgactgcgtcacgggcaacccctcctacacctgctcc tgcctctcgggcttcacggggcggaggtgccacctggacgtgaacgaatgtgcctcccag ccctgtcagaatggtgggacctgtactcacggcatcaacagtttccgctgccagtgcccg gctggctttgggggacccacctgtgagacagcccaatccccctgtgacaccaaagagtgt caacatggtggccagtgccaggtggagaatggctctgcggtgtgtgtgtgccaggccgga tacaccggagcagcctgcgagatggatgtggacgactgcagccctgacccctgcctgaat ggaggctcttgtgttgacctagtggggaattacacctgcttgtgtgccgagcccttcaag ggacttcgctgtgagacaggagaccatccagtgccagacgcctgcctctcggccccttgc cacaatgggggcacctgtgtggatgcggaccagggctacgtgtgcgagtgccccgaaggc ttcatgggcctggactgcagggagagagtccccgatgactgtgagtgccgcaacggaggc agatgcctgggcgccaacaccaccctctgccagtgccccctgggattctttgggcttctc tgtgaatttgaaatcacagccatgccctgcaacatgaacacacagtgcccagatgggggc tactgcatggagcacggcgggagctacctctgcgtctgccacaccgaccacaatgccagc cactccctgccatcaccctgcgactcggacccctgcttcaacggaggctcctgcgatgcc catgacgactcctacacctgcgagtgcccgcgcgggttccacggcaagcactgcgagaaa ggaactgttaggacccagggaaaatgtggcaatgccaatgcagcccggccacacctgtgc agctcagggccctgccggaacgggggcacgtgcaaggaggcgggcggcgagtaccactgc agctgcccctaccgcttcactgggaggcactgtgagatcgggaagccagactcgtgtgcc tctggcccctgtcacaacggcggcacctgcttccactacattggcaaatacaagtgtgac tgtcccccaggcttctccgggcggcactgcgagatagccccctccccctgcttccggagc ccgtgtgtgaatgggggcacctgcgaggaccgggacacggatttcttctgccactgccaa gcagggtacatgggacgccggtgccaggcagaggtggactgcggccccccggaggaggtg aagcacgccacactgcgcttcaacggcacgcggctgggcgcggtggccctgtatgcatgt gaccgtggctacagcctgagcgcccccagccgcatccgggtctgccagccacacggtgtc tggaaaatcgatgagtgccggtctcagccgtgcctgcatgggggctcttgtcaggaccgc gttgctgggtacctgtgcctctgcagcacaggctatgagggcgcccactgtgagctggag agggatgagtgccgagctcacccgtgcagaaatggagggtcctgcaggaacctcccaggg gcctatgtctgccggtgccctgcaggcttcgttggagtccactgtgagacagaggtggac gcctgcgactccagcccctgccagcatggaggccggtgtgagagcggcggcggggcctac ctgtgcgtctgcccagagagcttcttcggctaccactgcgagacagtgagtgacccctgc ttctccagcccctgtgggggccgtggctattgcctggccagcaacggctcccacagctgc acctgcaaagtgggctacacgggcgaggactgcgccaaagagctcttcccaccgacggcc ctcaagatggagagagtggaggagagtggggtctctatctcctggaacccgcccaatggt ccagccgccaggcagatgcttgatggctacgcggtcacctacgtctcctccgacggctcc taccgccgcacagactttgtggacaggacccgctcctcgcaccagctccaggccctggcg gccggcagggcctacaacatctccgtcttctcagtgaagcgaaacagtaacaacaagaat gacatcagcaggcctgccgtgctgctggcccgcacgcgaagaagcacctgcaaggccgcc ccatgtgagatctgccctcggaaggtatctggagtgaagacagagcccgccctgcccgct gcagagttggggctccagccagccatggtgggtggaagggaccgctgtccacagaccggg gtgctgagttgccgggagctgagcgctgccctctgggctctgcctggaccccgccctgtg gaaggcttcgaggtcaccaatgtgacggctagcaccatctcagtgcagtgggccctgcac aggatccgccatgccaccgtcagtggggtccgtgtgtccatccgccaccctgaggccctc agggaccaggccaccgatgtggacaggagtgtggacaggttcacctttagggccctgctg cctgggaagaggtacaccatccagctgaccaccctcagtgggctcaggggagaggagcac cccacagagagcctggccaccgcgccgacgcacgtgtggacccggcccctgcctccagca aacctgaccgccgcccgagtcactgccacctctgcccacgtggtctgggatgccccgact ccaggcagcttgctggaggcttatgtcatcaatgtgaccaccagccagagcaccaagagc cgctatgtccccaacgggaagctggcgtcctacacggtgcgcgacctgctgccgggacgg cggtaccagctctctgtgatagcagtgcagagcacggagctcgggccgcagcacagcgag cccgcccacctctacatcatcacctcccccagggatggcgctgacagacgctggcaccag ggaggacaccaccctcgggtgctcaagaacagaccgcccccggcgcgcctgccggagctg cgcctgctcaatgaccacagcgcccccgagacccccacccagccccccaggttctcggag cttgtggacggcagaggaagagtgagcgccaggttcggtggctcacccagcaaagcagcc accgtgagatcacgtcctgtcccctacatgatgagcccacccccaccgccagcgcagtct ccagccagtgacccccaccccgactgtgcacaaggcgcggggctcgtgggccgccggcag catgcacctccatggcaggaggggcagctcggacatccgtgctccctgagatatagaagc actcaaaagggtggccccaggaccatcccgggtgcaaagcagctgcgccgtgtggtcacc gcctggcttctcctagaacccacagcctcggcgcagctcgagaacatggaggaagccccc aagcgggtcagcctggccctccagctccctgaacacggcagcaaggacatcggaagttat gcaggacctgaactgtctcctagtccggggctctgcctcgtgaggatcgaggccagcacg tccctgcagggcaccaagcatctgctgagcacctgcagcacacaagcaaaggagcagggt ggagccttcacgctgccgtgcctgtgtggaccagtccagggtgaccacggggtaggtgag ggaaagcctgtcttcacagaccactctccagctgacgtccctggcaactgttcagaaaac ccctgtcagaacggaggcacttgtgtgccgggcgcagacgcccacagctgtgactgcggg ccagggttcaaaggcagacgctgcgagctcggtataaaagagtctaccgagttcaccaag acatctgcttcaaagagagctgtgaaagcacaagcctcaagaagaccccaaacaggtgcc tctggggagcaggcccatgccgtgtcctgcatgtag >gi568815596r:241006569_241243032|GENSCAN_predicted_peptide_2|104_aa MKGLELSEGSLGELRETTFTNAYCGLPAALGPVTVCPSLSRPAQSGTTDYRAGDTRLGSD HWPRADIKANFPKQEGPVLHKDKENCQHFAGLKKPCKINQYIMN >gi568815596r:241006569_241243032|GENSCAN_predicted_CDS_2|315_bp atgaagggtctcgagctcagcgaagggtcactgggtgaactgagagaaaccacgttcaca aacgcgtactgcggacttcctgccgccctgggacctgtcactgtttgtccatcactctcc aggccagcacagtctggcactacagactacagggccggagacaccaggcttggaagtgac cactggccaagagctgacataaaagccaacttccccaaacaggaagggcctgttcttcac aaagataaagaaaactgccagcattttgctggccttaagaagccatgcaaaattaaccag tacatcatgaattaa >gi568815596r:241006569_241243032|GENSCAN_predicted_peptide_3|1787_aa MGQKSVGASYVQIPLVPPLSRHPKGLGHEDRWSSYCLSSLAAQNICTSKLHCPAAPEHTD PSEPRGSVSCCSLLRGLSSGWSSPLLPAPVCNPNKAIFTVDAKTTEEKAGFCMVVLGCSG QLVELLGMSASLLLFVIPQILVANDKACGLLGYSSQDLIGQKLTQFFLRSDSDVVEALSE EHMEADGHAAVVFGTVVDIISRSGEKIPVSVWMKRMRQERRLCCVVVLEPVERVSTWVAF QSDGTVTSCDSLFAHLHGYVSGEDVAGQHITDLIPSVQLPPSGQHIPKNLKIQRSVGRAR DGTTFPLSLKLKSQPSSEEATTGEAAPVSGYRASVWVFCTISGLITLLPDGTIHGINHSF ALTLFGYGKTELLGKNITFLIPGFYSYMDLAYNSSLQLPDLASCLDVGNESGCGERTLDP WQGQDPAEGGQDPRINVVLAGGHVVPRDEIRKLMESQDIFTGTQTELIAGGQLLSCLSPQ PAPGKWSYDFSEIPKHIWPKGFDGRAVDPGDCGENGVDNVPEGSLPVHGEQALPKDQQIT ALGREEPVAIESPGQDLLGESRSEPVDVKPFASCEDSEAPVPAEDGGSDAGMCGLCQKAQ LERMGVSGPSGSDLWAGAAVAKPQAKGQLAGGSLLMHCPCYGSEWGLWWRSQDLAPSPSG MAGLSFGTPTLDEPWLGVENDREELQTCLIKEQLSQLSLAGALDVPHAELVPTECQAVTA PVSSCDLGGRDLCGGCTGSSSACYALATDLPGGLEAVEAQEVDVNSFSWNLKELFFSDQT DQTSSNCSCATSELRETPSSLAVGSDPDVGSLQEQGSCVLDDRELLLLTGTCVDLGQGRR FRESCVGHDPTEPLEVCLVSSEHYAASDRESPGHVPSTLDAGPEDTCPSAEEPRLNVQVT STPVIVMRGAAGLQREIQEGAYSGSCYHRDGLRLSIQFEVRRVELQGPTPLFCCWLVKDL LHSQRDSAARTRLFLASLPGSTHSTAAELTGPSLVEVLRARPWFEEPPKAVELEGLAACE GEYSQKYSTMSPLGSGAFGFVWTAVDKEKNKEVVVKFIKKEKVLEDCWIEDPKLGKVTLE IAILSRVEHANIIKVLDIFENQGFFQLVMEKHGSGLDLFAFIDRHPRLDEPLASYIFRQL VSAVGYLRLKDIIHRDIKDENIVIAEDFTIKLIDFGSAAYLERGKLFYTFCGTIEYCAPE VLMGNPYVCGCAPLLRVQPGALSVPLFSLLWFLLAPLSNSGSENRLLLPRPLLGTDPQLR TWRRMALASAGAGLWVLVTWLCYRGPELEMWSLGVTLYTLVFEENPFCELEETVEAAIHP PYLVSKELMSLVSGLLQPVPERRTTLEKLVTDPWVTQPVNLADYTWEEVFRVNKPGKLEL GARASPGRRRAGSDAEEPRPPSVSRPGRGALPEVLDWHRLIPLTWACMARQTPHLGEQRR TTASLLRKLTTASNGGVIEELSCVRSNNYVQEPECRRNLVQCLLEKQGTPVVQGSLELER VMSSLLDMGFSNAHINELLSVRRGASLQQLLDIISEFILLGLNPEPVCVVLKKSPQLLKL PIMQMRKRSSYLQKLGLGEGKLKRVLYCCPEIFTMRQQDINDTVRLLKEKCLFTVQQVTK ILHSCPSVLREDLGQLEYKFQYAYFRMGIKHPDIVKSEYLQYSLTKIKQRHIYLERLGRY QTPDKKGQTQIPNPLLKDILRVSEAEFLARTACTSVEEFQVFKKLLAREEEESESSTSDD KRASLDEDEDDDDEEDNDEDDNDEDDDDEDDDEAEDNDEDEDDDEEE >gi568815596r:241006569_241243032|GENSCAN_predicted_CDS_3|5364_bp atggggcagaagtctgttggtgcctcctatgtccagattccgttggtgcctcctttgtcc aggcaccccaaaggactgggccatgaagacagatggagctcctattgtctatcatcactg gctgcccagaatatttgtacaagtaaactgcactgccctgctgcccctgagcacacggac ccgtccgaaccgcggggcagtgtgtcctgctgctccctgctgcggggactgtcctcaggg tggtcctcacctctgcttccggcccctgtgtgcaaccctaacaaggccatcttcacggtg gatgccaagaccacagaggaaaaggctggcttctgcatggtcgtcctgggctgttctggg cagctggtggagctgctggggatgtctgcatccttgctcctctttgtgattcctcagatc ctggttgctaacgacaaagcttgcgggctcctggggtacagcagccaggacctgattggc cagaagctcacgcagttctttctgaggtcagattctgatgtggtggaggccctcagcgag gagcacatggaggccgacggccacgctgcggtggtgtttggcacggtggtggacatcatc agccgtagtggggagaagattccagtgtctgtgtggatgaagaggatgcggcaggagcgc cgcctatgctgcgtggtggtcctggagcccgtggagagggtctcgacctgggtcgctttc cagagcgatggcaccgtcacgtcatgtgacagtctctttgctcatcttcacgggtacgtg tctggggaggacgtggctgggcagcatatcacagacctgatcccttctgtgcagctccct ccttctggccagcacatcccaaagaatctcaagattcagaggtctgttggaagagccagg gacggtaccaccttccctctgagcttaaagctgaaatcccaacccagcagcgaggaggcg accaccggtgaggcggcccctgtgagcggctaccgggcatctgtctgggtgttctgcacc atcagtggcctcatcaccctcctgccggatgggaccatccacggcatcaaccacagcttc gcgctgacactgtttggttacggaaagacggagctcctgggcaagaatatcactttcctg attcctggtttctacagctacatggaccttgcgtacaacagctcattacagctcccagac ctggccagctgcctggacgtcggcaatgagagtgggtgtggggagagaaccttggacccg tggcagggccaggacccagctgaggggggccaggatccaaggattaatgtcgtgcttgct ggtggccacgttgtgccccgagatgagatccggaagctgatggaaagccaagacatcttc accgggactcagactgagctgattgctggaggccagctcctttcctgcctctcacctcag cctgctccaggcaagtggtcatatgacttttctgaaatccccaaacacatctggcccaag ggttttgatggaagggccgtggacccaggtgactgtggagagaacggggtggacaatgtc ccagaaggaagcctgccagtgcacggtgaacaggcgctgcccaaggaccagcaaatcact gccttggggagagaggaacctgtggcaatagagagccccggacaggatcttctgggagaa agcaggtctgaaccagtggatgtgaagccatttgcttcctgcgaagattctgaagctcca gtcccagctgaggatgggggcagtgatgctggcatgtgtggcctgtgtcagaaggcccag ctagagcggatgggagtcagtggtcccagcggttcagacctttgggctggggctgccgtg gccaagccccaggccaagggtcagctggcggggggcagcctcctgatgcactgcccttgc tatgggagtgaatggggcttgtggtggcgaagccaggacttggcccccagcccctctggg atggcaggcctctcgtttgggacacctactctagatgagccgtggctgggagtggaaaac gaccgagaagagctgcagacctgcttgattaaggagcagctgtcccagttgagccttgca ggagccctggatgtcccccacgccgaactcgttccgacagagtgccaggctgtcaccgct cctgtgtcgtcctgcgatctgggaggcagagacctgtgcggtggctgcacgggcagctcc tcagcctgctatgccttggccacggacctccctgggggcctggaagcagtggaggcccag gaggttgatgtgaattcgttttcctggaacctcaaggaactctttttcagtgaccagaca gaccaaacgtcatcaaattgttcctgtgctacgtctgaactcagagagacaccctcttcc ttggcagtgggctccgatccagatgtaggcagtctccaggaacaggggtcgtgtgtcctg gatgacagggagctgttactactgaccggcacctgtgttgaccttggccaaggccgacgg ttccgggagagctgtgtgggacatgatccaacagaaccgcttgaggtttgtttggtgtcc tctgagcattatgcagcaagcgacagagaaagcccaggacacgttccttccacgttggat gctggccctgaggacacgtgcccatcagcagaggagccaaggctgaacgtccaggtcacc tccacgcccgtgatcgtgatgcgcggggctgctggcctgcagcgggagatccaggagggt gcctactccgggagctgctaccatcgagatggcttacggctgagtatacagtttgaggtg aggcgggtggagctccagggccccacacctctgttctgctgctggctggtgaaagacctc ctccacagccaacgcgactcagccgccaggacccgcctgttccttgccagcctgcccggc tccacccactctaccgctgctgagctcaccggacccagcctggtggaagtgctcagagcc agaccctggtttgaggagccccccaaggctgtggaactggaggggttggcggcctgtgag ggcgagtactcccaaaagtacagtaccatgagcccgctgggcagtggggccttcggcttc gtgtggactgctgtggacaaggaaaaaaacaaggaggtggtggtgaagtttattaagaag gagaaggtcttggaggattgttggattgaggatcccaaacttgggaaagttactttagag atcgcaattctatccagggtggagcacgccaatatcatcaaggtattggatatatttgaa aaccaagggttcttccagcttgtgatggagaagcacggctccggcctagacctcttcgct ttcatcgaccgccaccccaggctggatgagcccctggcgagctacatcttccgacaacta gtgtcagcagtgggatacctgcgcttgaaggacatcatccaccgtgacatcaaggatgag aacatcgtgatcgccgaggacttcacaatcaagctgatagactttggctcggccgcctac ttggaaaggggaaaattattttatactttttgtgggaccatcgagtactgtgcaccggaa gttctcatggggaatccgtacgtatgcggctgcgcccctcttctccgagtccagcccggg gctctgtccgtgccactcttctcactgctgtggtttctcttggctcccttgtctaattct ggttctgagaacaggctgctgcttcccagacctcttctggggacagacccccagctgcgg acctggagacgcatggccttggccagtgcaggggcagggctgtgggtgctggtgacctgg ctctgctacagagggccggagctggagatgtggtctctgggagtcactctgtacacgctg gtctttgaggagaaccccttctgtgagctggaggagaccgtggaggctgccatacacccg ccatacctggtgtccaaagaactcatgagccttgtgtctgggctgctgcagccagtccct gagagacgcaccaccttggagaagctggtgacagacccgtgggtaacacagcctgtgaat cttgctgactatacatgggaagaggtgtttcgagtaaacaagccaggtaagctcgagctg ggcgcgcgggcttctccgggtcgcaggcgggcgggcagcgacgcagaggaaccgcggccg ccgagtgtttcacggccaggtcgtggagccctcccggaggtccttgattggcaccgcctg atccccctcacctgggcctgtatggctaggcagactcctcatcttggagaacagagaagg acgacagcttctttgttgcgcaaactgactacagcctccaatggaggggtcattgaggag ttatcttgtgttagatccaataactatgtgcaggaaccagagtgcaggaggaatcttgtt cagtgcctccttgagaagcaggggactcctgtggtacaagggtccttggagctagagagg gtcatgagttccctcctggacatgggtttcagcaatgcccatattaatgaattgctcagt gtacggcgaggtgccagtcttcaacagttgctggacatcatttcagaatttattctcttg ggtctgaatccagagcctgtgtgtgtggtcttgaagaaaagtccccagttattgaaactg cctattatgcaaatgaggaagcgctccagttacctgcaaaagcttgggcttggagaaggg aaattaaagagggtgctttactgttgccctgaaattttcaccatgcgccagcaggacatt aacgacactgtcaggcttctcaaggagaagtgccttttcacggtacagcaagtcaccaag attttgcacagttgcccctctgttcttcgagaggacctgggtcaactggaatacaagttt cagtatgcatacttcaggatgggaattaagcatccagacattgtaaagagtgagtacttg cagtattcactaaccaagattaagcagagacacatttacctggagcgcctgggacggtac caaacccctgataagaaggggcagacacagatccctaacccattgctcaaggacattctc agagtttcagaagctgagtttttggccaggacagcctgtacttctgttgaggagtttcaa gtttttaagaagctcctggctcgggaggaggaggagtctgagagcagcacatctgatgac aaaagggcaagtctggatgaggatgaggatgacgatgatgaggaggacaatgatgaggat gacaatgatgaggatgacgatgatgaggacgacgacgaggcggaggacaatgatgaggat gaggacgacgacgaggaggaatag >gi568815596r:241006569_241243032|GENSCAN_predicted_peptide_4|1641_aa MDIEWAGCGEESAGSRGDPRRGASAPTGQATLKGTPKTLGARGPGPTAATPPRFGHGEDA GSAGRRRLQRPHWAGNDLQGEPSWRPGASQLASGPTSASAPHLPACSERQEKAAFRMGKI RAGTPGECCCSCRSAHCTDAASEARRVDRRVESEESGDEEGKKHSSGIVADLSEQSLKDG EERGEEDPEEEHELPVDMETINLDRDAEDVDLNHYRIGKIEGFEVLKKVKTLCLRQNLIK CIENLEELQSLRELDLYDNQIKKIENLEALTELEILDISFNLLRNIEGVDKLTRLKKLFL VNNKISKIENLSNLHQLQMLELGSNRIRAIENIDTLTNLESLFLGKNKITKLQNLDALTN LTVLSMQSNRLTKIEGLQNLVNLRELYLSHNGIEVIEGLENNNKLTMLDIASNRIKKIEN ISHLTELQEFWAWQVDGFPCNSSVAGSALATQPAGRCECSNRVAFKKMNDNLLESWSDLD ELKGARSLETVYLERNPLQKDPQYRRKVMLALPSVRQIDATFVRATDVVLLAPFCQPKTR SHGTCPPTERDPRGEGSTEYPGRVDGIQGWGTRALTGWTDRRLLCQACQTLPPRHWFLPG ARGWLGGSPCAHGQESLPSQPSPILLRVESVKSRMLRRRAQEEDSTVLIDVSPPEAEKRG SYGSTAHASEPGGQQAAACRAGSPAKPRIADFVLVWEEDLKLDRQQDSAARDRTDMHRTW RETFLDNLRAAGLCVDQQDVQDGNTTVHYALLSASWAVLCYYAEDLRLKLPLQELPNQAS NWSAGLLAWLGIPNVLLEVVPDVPPEYYSCRFRVNKLPRFLGSDNQDTFFTSTKRHQILF EILAKTPYGHEKKNLLGIHQLLAEGVLSAAFPLHDGPFKTPPEGPQAPRLNQRQVLFQHW ARWGKWNKYQPLDHVRRYFGEKVALYFAWLGFYTGWLLPAAVVGTLVFLVGCFLVFSDIP TQELCGSKDSFEMCPLCLDCPFWLLSSACALAQVREEAGRLFDHGGTVFFSLFMALWAVL LLEYWKRKSATLAYRWDCSDYEDTEERPRPQFAASAPMTAPNPITGEDEPYFPERSRARR MLAGSVVIVVMVAVVVMCLVSIILYRAIMAIVVSRSGNTLLAAWASRIASLTGSVVNLVF ILILSKIYVSLAHVLTRWEMHRTQTKFEDAFTLKVFIFQFVNFYSSPVYIAFFKGRFVGY PGNYHTLFGVRNEECAAGGCLIELAQELLVIMVGKQVINNMQEVLIPKLKGWWQKFRLRS KKRKAGASAGASQGPWEDDYELVPCEGLFDEYLEMGAGFCPNACPELVPELTEPEKARDQ PEARSAGQDSRPEAVLQFGFVTIFVAACPLAPLFALLNNWVEIRLDARKFVCEYRRPVAE RAQDIGIWFHILAGLTHLAVISNAFLLAFSSDFLPRAYYRWTRAHDLRGFLNFTLARAPS SFAAAHNRTCRYRAFRDDDGHYSQTYWNLLAIRLAFVIVFEVAEAPAGSPIHGMRPRPCA LPNSSTCCFLTPPTAGSRCRSPGLPGPVKATLGVWVGHVVFSVGRLLDLLVPDIPESVEI KVKREYYLAKQALAENEGGTVSSQGPLCFLLPDISPRGPCTQGTLSLGGLPRPLDTTVLL RQVGFVVLAAPGHIALSSYTW >gi568815596r:241006569_241243032|GENSCAN_predicted_CDS_4|4926_bp atggacatcgaatgggccggctgcggtgaagagagcgcagggtcccgaggcgacccgagg cgcggggcctcggcgcccaccgggcaggctacactgaagggcaccccgaagacgctgggg gcgcggggcccagggccaacggccgcaaccccgccgcgatttgggcacggagaggacgcg ggctcggcgggtagacgaaggctgcagcgtccgcactgggctgggaacgacttgcaaggg gagcccagctggcgccccggagccagccagctggctagcggccccaccagcgcaagtgcc ccgcacctgcccgcctgctccgagcgtcaagagaaggcggcatttcgcatgggtaaaatc cgcgcggggacgccgggagaatgttgttgctcttgccgttcggcccattgtacagacgca gccagcgaggctcgcagagttgacaggcgggtcgagtctgaagaatccggcgatgaagaa gggaagaaacacagcagtggcatcgtggccgacctcagtgaacagagcctgaaggatggg gaggagcggggggaggaggacccagaagaagaacatgagctgcctgtggacatggaaacc atcaacctggacagagatgcagaggatgttgatttgaatcactatcgcatagggaagatt gaaggatttgaggtactgaagaaagtgaagactctctgcctccgccaaaatttaattaaa tgcattgagaatctggaggagctacagagtcttcgagagctggatctttacgacaaccag atcaagaagattgagaatctggaggcgctaacagagctggagattctagatatttctttt aatctgctgagaaacatcgaaggggttgacaagttgacacgactgaaaaaactcttcttg gtcaacaataaaatcagtaaaattgagaacttaagcaacttacatcaactacagatgcta gagctgggatctaaccgcatccgggcaatcgaaaatatcgacaccttaaccaacctggag agtttgtttttggggaaaaacaaaattactaaacttcagaacctggatgcgctcaccaac ctgacagtcctcagtatgcagagcaaccggctgaccaagatcgagggtctgcagaacctg gtgaacctgcgggagctgtaccttagccacaatggcatcgaggtcatcgagggcctggag aacaataacaaactcacgatgttggacattgcatcaaatagaatcaaaaagattgaaaat atcagccatctaacagagctgcaagagttctgggcctggcaggtggatggcttcccctgt aattctagtgttgcaggctctgcactggccacacaaccagcggggcggtgcgagtgtagt aacagagtagcatttaagaagatgaacgacaatctccttgagagctggagcgacctcgac gagctgaagggagccaggagcctggagacagtgtacctggagcggaaccccttgcagaag gacccccagtaccggcggaaggtcatgctcgccctcccctccgtgcggcagatcgatgcc acgttcgtcagggccacagatgtcgtgctcctggccccgttttgccagcccaagactagg agccacggcacctgtcctcccacagagagagacccccggggcgaaggctccactgagtac ccaggcagagtggacggcattcagggctgggggacacgggcactcactggatggacagac agacgcctgctgtgccaggcctgccagacgctcccgccccggcactggtttcttcctgga gctcgtggctggctagggggttctccatgtgctcatggccaggagagtctgccgagccag cccagccccattctactccgagtcgagtctgtaaagagcaggatgctgcggcgacgggcc caggaagaggacagcaccgtcctgatcgatgtgagcccccctgaggcagagaagaggggc tcttacgggagcacagcccacgcctcggagccaggtggacagcaagcggccgcctgcaga gctgggagtcctgccaagccccggatcgcagacttcgtcctcgtttgggaggaggacctg aagctagacaggcagcaggacagtgccgcccgggacagaacagacatgcacaggacctgg cgggagacttttctggataatcttcgtgcggctgggctgtgtgtagaccagcaggacgtc caggacgggaacaccacagtgcactacgccctcctcagcgcctcctgggctgtgctctgc tactacgccgaagacctgcgcctgaagctgcccttgcaggagttacccaaccaggcctcc aactggtcggccggcctgctggcatggctgggcatccccaacgtcctgctggaggttgtg ccagacgtaccccccgagtactactcctgccggttcagagtgaacaagctgccacgcttc ctcgggagtgacaaccaggacaccttcttcacaagcaccaagaggcaccaaattctgttt gagatcctggccaagaccccgtatggccacgagaagaaaaacctgcttgggatccaccag ctgctggcagagggtgtcctcagtgccgccttccccctgcatgacggccccttcaagacg cccccagagggcccgcaggctccacgcctcaaccagcgccaagtccttttccagcactgg gcgcgctggggcaagtggaacaagtaccagcccctggaccacgtgcgcaggtacttcggg gagaaggtggccctctacttcgcctggctcgggttttacacaggctggctcctgccagcg gcagtggtgggcacactggtgttcctggtgggctgcttcctggtgttctcagacataccc acgcaggaactgtgtggcagcaaggacagcttcgagatgtgcccactttgcctcgactgc cctttctggctgctctccagcgcctgtgccctggcccaggtacgagaagaggccggccgg ctgttcgaccacggcggcaccgtgttcttcagcttgttcatggcactgtgggccgtgctg ctgctggagtactggaagcggaagagcgccacgctggcctaccgctgggactgctctgac tacgaggacactgaggagaggcctcggccccagtttgccgcctcagcccccatgacagcc ccgaaccccatcacgggtgaggacgagccctacttccctgagaggagccgcgcgcgccgc atgctggccggctctgtggtgatcgtggtgatggtggccgtggtggtcatgtgcctcgtg tctatcatcctgtaccgtgccatcatggccatcgtggtgtccaggtcgggcaacaccctt ctcgcagcctgggcctctcgcatcgccagcctcacggggtctgtagtgaacctcgtcttc atcctcatcctctccaagatctatgtatccctggcccacgtcctgacacgatgggaaatg caccgcacccagaccaagttcgaggacgccttcaccctcaaggtgttcatcttccagttc gtcaacttctactcctcacccgtctacattgccttcttcaagggcaggtttgtgggatac ccaggcaactaccacaccttgtttggagtccgcaatgaggagtgcgcggctggaggctgc ctgatcgagctggcacaggagctcctggtcatcatggtgggcaagcaggtcatcaacaac atgcaggaggtcctcatcccgaagctaaagggctggtggcagaagttccggcttcgctcc aagaagaggaaggcgggagcttctgcaggggctagccaggggccctgggaggacgactat gagcttgtgccctgtgagggtctgtttgacgagtacctggaaatgggagcaggtttctgc cccaacgcctgccctgagttagttcctgagctcaccgagccggagaaggcccgtgaccag ccagaagcacggagcgcagggcaggacagccggcctgaggccgtgctgcagttcggcttc gtcaccatcttcgtggccgcctgtccgctcgcgccgctcttcgccctgctcaacaactgg gtggagatccgcttggacgcgcgcaagttcgtctgcgagtaccggcgcccggtggccgag cgcgcccaggacatcggcatctggttccacatcctggcgggcctcacgcacctggcggtc atcagcaacgccttcctcctggccttctcgtccgacttcctgccgcgcgcctactaccgg tggacccgcgcccacgacctgcgcggcttcctcaacttcacgctggcgcgagccccgtcc tccttcgccgccgcgcacaaccgcacgtgcaggtatcgggctttccgggatgacgatgga cattattcccagacctactggaatcttcttgccatccgcctggccttcgtcattgtgttt gaggtagccgaggcacctgctggttctcccatccatggcatgaggccccgaccctgtgct ttgcctaattcgagcacgtgctgctttctgactccacccacagctgggagcaggtgccgg agccccggcctgcctggccctgtgaaggccactctgggcgtttgggtgggccatgtggtt ttctccgttggccgcctcctggacctcctggtgcctgacatcccagagtctgtggagatc aaagtgaagcgggagtactacctggctaagcaggcactggctgagaatgagggagggacc gtcagctcacaaggccctctttgtttcctgctcccagacataagcccaaggggcccctgc acccaagggaccctgtccctcggtggcctccccaggcccctggacacgacagttctcctc aggcaggtgggctttgtggtcctcgccgcccctggccacatcgccctctcctcttacacc tggtga >gi568815596r:241006569_241243032|GENSCAN_predicted_peptide_5|630_aa XQKWLGEVWSVLANIAEVEVSIPAKLHNSLIGTKGRLIRSIMEECGGVHIHFPVEGSGSD TVVIRGPSSDVEKAKKQLLHLAEEKQTKSFTVDIRAKPEYHKFLIGKGGGKIRKVRDSTG ARVIFPAAEDKDQDLITIIGKEDAVREAQKELEALIQNLDNVVEDSMLVDPKHHRHFVIR RGQVLREIAEEYGGVMVSFPRSGTQSDKVTLKGAKDCVEAAKKRIQEIIEDLEAQVTLEC AIPQKFHRSVMGPKGSRIQQITRDFSVQIKFPDREENAVHSTEPVVQENGDEAGEGREAK DCDPGSPRRCDIIIISGRKEKCEAAKEALEALVPVTIEVEVPFDLHRYVIGQKGSGIRKM MDEFEVNIHVPAPELQSDIIAITGLAANLDRAKAGLLERVKELQAEQEDRALRSFKLSVT VDPKYHPKIIGRKGAVITQIRLEHDVNIQFPDKDDGNQPQDQITITGYEKNTEAARDAIL RIVGELEQMVSEDVPLDHRVHARIIGARGKAIRKIMDEFKVDIRFPQSGAPDPNCVTVTG LPENVEEAIDHILNLEEEYLADVVDSEALQVYMKPPAHEEAKAPSRGFVVRDAPWTASSS EKAPDMSSSEEFPSFGAQVAPKTLPWGPKR >gi568815596r:241006569_241243032|GENSCAN_predicted_CDS_5|1893_bp ngtcaaaaatggcttggagaagtttggtcagtgcttgccaacatagccgaggtagaggtc tccatccctgccaagctgcacaactccctcattggcaccaagggccgtctgatccgctcc atcatggaggagtgcggcggggtccacattcactttcccgtggaaggttcaggaagcgac accgttgttatcaggggcccttcctcggatgtggagaaggccaagaagcagctcctgcat ctggcggaggagaagcaaaccaagagtttcactgttgacatccgcgccaagccagaatac cacaaattcctcatcggcaaggggggcggcaaaattcgcaaggtgcgcgacagcactgga gcacgtgtcatcttccctgcggctgaggacaaggaccaggacctgatcaccatcattgga aaggaggacgccgtccgagaggcacagaaggagctggaggccttgatccaaaacctggat aatgtggtggaagactccatgctggtggaccccaagcaccaccgccacttcgtcatccgc agaggccaggtcttgcgggagattgctgaagagtatggcggggtgatggtcagcttccca cgctctggcacacagagcgacaaagtcaccctcaagggcgccaaggactgtgtggaggca gccaagaaacgcattcaggagatcattgaggacctggaagctcaggtgacattagaatgt gctataccccagaaattccatcgatctgtcatgggccccaaaggttccagaatccagcag attactcgggatttcagtgttcaaattaaattcccagacagagaggagaacgcagttcac agtacagagccagttgtccaggagaatggggacgaagctggggaggggagagaggctaaa gattgtgaccccggctctccaaggaggtgtgacatcatcatcatctctggccggaaagaa aagtgtgaggctgccaaggaagctctggaggcattggttcctgtcaccattgaagtagag gtgccctttgaccttcaccgttacgttattgggcagaaaggaagtgggatccgcaagatg atggatgagtttgaggtgaacatacatgtcccggcacctgagctgcagtctgacatcatc gccatcacgggcctcgctgcaaatttggaccgggccaaggctggactgctggagcgtgtg aaggagctacaggccgagcaggaggaccgggctttaaggagttttaagctgagtgtcact gtagaccccaaataccatcccaagattatcgggagaaagggggcagtaattacccaaatc cggttggagcatgacgtgaacatccagtttcctgataaggacgatgggaaccagccccag gaccaaattaccatcacagggtacgaaaagaacacagaagctgccagggatgctatactg agaattgtgggtgaacttgagcagatggtttctgaggacgtcccgctggaccaccgcgtt cacgcccgcatcattggtgcccgcggcaaagccattcgcaaaatcatggacgaattcaag gtggacattcgcttcccacagagcggagccccagaccccaactgcgtcactgtgacgggg ctcccagagaatgtggaggaagccatcgaccacatcctcaatctggaggaggaataccta gctgacgtggtggacagtgaggcgctgcaggtatacatgaaacccccagcacacgaagag gccaaggcaccttccagaggctttgtggtgcgggacgcaccctggaccgccagcagcagt gagaaggctcctgacatgagcagctctgaggaatttcccagctttggggctcaggtggct cccaagaccctcccttggggccccaaacgataa