Result of GENSCAN for
pF1KSDA0957
GENSCAN 1.0 Date run: 3-Nov-116 Time: 04:24:41 Sequence gi568815592f:89466977_89731001 : 264025 bp : 42.41% C+G : Isochore 1 ( 0 - 43 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Term + 14673 14874 202 0 1 4 53 283 0.520 12.28 1.02 PlyA + 15327 15332 6 1.05 2.03 PlyA - 15476 15471 6 1.05 2.02 Term - 22292 21952 341 0 2 57 43 179 0.562 4.01 2.01 Init - 25389 25329 61 0 1 78 76 46 0.314 3.86 2.00 Prom - 25890 25851 40 -7.25 3.08 PlyA - 26447 26442 6 1.05 3.07 Term - 27331 27275 57 1 0 100 41 66 0.616 -0.19 3.06 Intr - 29520 29411 110 1 2 124 70 52 0.676 6.08 3.05 Intr - 38273 38185 89 1 2 17 90 106 0.125 2.40 3.04 Intr - 42401 42169 233 2 2 14 43 129 0.154 -3.35 3.03 Intr - 43977 43873 105 0 0 91 84 97 0.613 9.09 3.02 Intr - 67019 66860 160 1 1 31 93 93 0.189 3.17 3.01 Init - 73776 73589 188 0 2 91 64 90 0.118 5.48 3.00 Prom - 76400 76361 40 -3.25 4.00 Prom + 88145 88184 40 -6.55 4.01 Init + 90183 90307 125 2 2 45 58 103 0.563 2.69 4.02 Intr + 90803 90992 190 2 1 67 101 74 0.662 5.27 4.03 Intr + 99420 99524 105 2 0 77 66 96 0.045 5.79 4.04 Intr + 99958 100120 163 0 1 -21 87 171 0.019 4.73 4.05 Intr + 100496 100592 97 0 1 39 91 97 0.026 3.25 4.06 Intr + 110175 110295 121 0 1 79 61 88 0.098 4.78 4.07 Intr + 124874 125269 396 1 0 39 44 231 0.014 7.65 4.08 Intr + 128940 129038 99 2 0 56 76 181 0.745 13.09 4.09 Intr + 136053 136151 99 2 0 111 113 177 0.999 21.89 4.10 Intr + 139031 139129 99 1 0 105 100 80 0.997 10.29 4.11 Intr + 146816 146973 158 1 2 84 62 124 0.553 7.29 4.12 Intr + 149510 149681 172 2 1 -20 101 173 0.286 6.82 4.13 Intr + 150140 150266 127 1 1 125 49 94 0.857 8.53 4.14 Intr + 150904 151181 278 2 2 60 65 206 0.453 11.81 4.15 Intr + 154946 155050 105 1 0 96 81 85 0.492 8.09 4.16 Intr + 156434 156568 135 1 0 86 77 75 0.919 6.04 4.17 Intr + 156896 157081 186 1 0 124 82 175 0.997 19.46 4.18 Intr + 157563 157715 153 2 0 91 55 143 0.541 10.65 4.19 Intr + 160607 160720 114 1 0 74 91 158 0.999 14.42 4.20 Intr + 162136 162374 239 0 2 53 58 161 0.620 5.09 4.21 Intr + 162863 163028 166 2 1 89 58 23 0.686 -1.56 4.22 Intr + 163129 163300 172 0 1 24 100 117 0.561 5.09 4.23 Term + 163457 164028 572 0 2 81 42 562 0.997 44.51 4.24 PlyA + 164033 164038 6 1.05 5.04 PlyA - 164635 164630 6 1.05 5.03 Term - 170377 170297 81 1 0 88 36 71 0.855 -1.39 5.02 Intr - 170906 170766 141 2 0 92 78 107 0.884 9.73 5.01 Init - 171740 171696 45 2 0 95 86 76 0.984 8.83 5.00 Prom - 175535 175496 40 -7.55 6.66 PlyA - 176944 176939 6 -0.45 6.65 Term - 177217 177029 189 1 0 74 42 194 0.945 9.87 6.64 Intr - 178181 178039 143 0 2 63 100 90 0.905 6.85 6.63 Intr - 179627 179564 64 2 1 28 99 89 0.873 1.37 6.62 Intr - 181170 181056 115 2 1 56 110 47 0.513 3.23 6.61 Intr - 181353 181280 74 0 2 65 82 47 0.752 -0.91 6.60 Intr - 183222 183048 175 2 1 29 110 229 0.996 18.22 6.59 Intr - 183871 183756 116 1 2 96 100 80 0.999 8.33 6.58 Intr - 185305 185216 90 1 0 94 107 113 0.999 13.07 6.57 Intr - 186179 186016 164 0 2 12 67 164 0.990 5.47 6.56 Intr - 187358 187188 171 0 0 41 92 320 0.997 26.69 6.55 Intr - 188992 188788 205 1 1 88 64 323 0.940 27.75 6.54 Intr - 191394 191233 162 0 0 46 43 207 0.463 11.25 6.53 Intr - 191941 191634 308 2 2 67 69 579 0.858 49.14 6.52 Intr - 194602 194455 148 1 1 52 100 264 0.967 22.89 6.51 Intr - 195263 195111 153 2 0 66 80 259 0.999 22.25 6.50 Intr - 195991 195816 176 2 2 73 76 307 0.984 26.74 6.49 Intr - 197652 197511 142 0 1 63 3 226 0.991 10.61 6.48 Intr - 201175 201038 138 1 0 100 98 220 0.890 23.94 6.47 Intr - 204051 203943 109 2 1 60 116 67 0.414 6.07 6.46 Intr - 205301 205253 49 0 1 51 89 77 0.593 0.92 6.45 Intr - 205726 205571 156 2 0 54 80 251 0.988 19.96 6.44 Intr - 206486 206260 227 1 2 95 94 86 0.988 6.61 6.43 Intr - 207613 207128 486 0 0 83 111 370 0.788 30.00 6.42 Intr - 208603 208488 116 1 2 108 69 32 0.628 1.63 6.41 Intr - 209231 209126 106 1 1 93 70 31 0.845 1.10 6.40 Intr - 210720 210594 127 1 1 80 58 126 0.973 7.62 6.39 Intr - 211769 211623 147 0 0 139 87 145 0.999 18.79 6.38 Intr - 213775 213613 163 1 1 99 94 201 0.999 20.43 6.37 Intr - 216354 216156 199 2 1 41 80 183 0.976 11.23 6.36 Intr - 216928 216855 74 1 2 79 89 31 0.973 -0.41 6.35 Intr - 218009 217900 110 0 2 90 69 93 0.987 6.68 6.34 Intr - 220047 219926 122 2 2 124 90 136 0.999 16.62 6.33 Intr - 220462 220368 95 1 2 95 100 108 0.999 10.54 6.32 Intr - 221197 221102 96 1 0 65 99 69 0.964 4.99 6.31 Intr - 221832 221597 236 1 2 87 91 162 0.910 12.88 6.30 Intr - 223167 222894 274 0 1 63 47 147 0.946 4.29 6.29 Intr - 223858 223697 162 1 0 79 75 215 0.999 18.55 6.28 Intr - 226172 225467 706 1 1 64 99 666 0.833 55.83 6.27 Intr - 227207 227098 110 2 2 48 92 96 0.951 4.16 6.26 Intr - 229016 228629 388 1 1 117 64 259 0.859 20.27 6.25 Intr - 229471 229315 157 2 1 80 44 86 0.614 1.55 6.24 Intr - 232059 231939 121 0 1 111 72 29 0.655 2.75 6.23 Intr - 232751 232625 127 1 1 80 93 35 0.980 2.96 6.22 Intr - 233318 233087 232 0 1 77 92 156 0.992 10.81 6.21 Intr - 233880 233670 211 0 1 81 66 131 0.998 7.76 6.20 Intr - 234702 234582 121 2 1 90 81 70 0.999 6.08 6.19 Intr - 235085 234928 158 2 2 36 71 164 0.999 7.39 6.18 Intr - 239216 239083 134 0 2 63 94 97 0.980 7.24 6.17 Intr - 240500 240385 116 1 2 75 116 46 0.999 5.27 6.16 Intr - 241652 241520 133 0 1 66 108 157 0.999 14.28 6.15 Intr - 245280 245060 221 2 2 24 97 136 0.998 5.12 6.14 Intr - 245810 245599 212 2 2 82 86 117 0.989 7.69 6.13 Intr - 246320 246172 149 0 2 52 74 76 0.915 1.63 6.12 Intr - 247775 247567 209 1 2 81 66 168 0.932 11.70 6.11 Intr - 248793 248677 117 2 0 97 68 62 0.762 3.76 6.10 Intr - 249833 249674 160 0 1 45 71 194 0.949 11.52 6.09 Intr - 251651 251390 262 2 1 70 91 170 0.999 11.64 6.08 Intr - 251979 251791 189 0 0 42 91 100 0.833 4.56 6.07 Intr - 252249 252160 90 0 0 108 110 70 0.999 10.47 6.06 Intr - 256167 255979 189 0 0 62 113 181 0.998 16.86 6.05 Intr - 256643 256536 108 2 0 65 108 77 0.989 6.96 6.04 Intr - 258420 258223 198 0 0 58 110 82 0.907 6.03 6.03 Intr - 260979 260857 123 0 0 91 78 131 0.742 12.26 6.02 Intr - 262163 261955 209 0 2 75 115 140 0.986 13.27 6.01 Intr - 263947 263750 198 2 0 104 78 124 0.970 11.40 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 113704 113478 227 2 2 61 48 202 0.989 9.46 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_1|67_aa XNSDRGSGRNTAGCAACSSGTGGTAGSAGGTAAAAGGGTAAGGGTIGSADTVPLIALVLV VLVVLVI >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_1|204_bp nncaatagtgatcgtggtagtggcaggaatactgctggttgtgctgcttgcagtagtggt actggtggtacggctggcagtgctggtggtactgctgctgctgctggtggtggtactgct gctggtggtggtactattggcagtgctgatactgtaccactgatagcactggtactggtg gtactggtggtgctggtgatttga >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_2|133_aa MNYQMILYKQGITQTITKAPGRAVSCSSRFREGPKFSKAKLFKSPGSQHKELCLDFLPSP VALRPLQEQCPGHVQPALDPVPRGRQCATHETRYQSTHSPKKPPLELDFQTGGHGPFVGH ENKLIGHKQHFKE >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_2|402_bp atgaactaccaaatgatcctctacaaacaaggaattactcaaaccatcacaaaggcacca ggcagagctgtcagctgcagcagccggttcagggaaggaccaaagttctcaaaagcaaag ctcttcaagtccccaggcagccaacacaaagagctctgccttgatttcctgcccagccct gtggcactgagaccccttcaggagcaatgccctggacatgtacagcctgccttggacccg gtaccaagaggaaggcaatgtgcgacgcatgagacacgttatcagtcaacccacagtcct aagaaaccacctctggaattggattttcaaacgggaggtcatggcccatttgtgggtcat gaaaataagttaataggtcacaagcagcattttaaagaatga >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_3|313_aa MKQLQGNTGENLWDIGLGKNFLSNTPQAQATNTKKWTNGSYQVKKLLHSKGNNQQSKETT CRIRILKSPWEDSLKTYRYILDFRKSHLFIGPGTARSLKDANSKKAASPIGSHSVTGNAK QHQPSPSGSPLRPSVTTHLPNRYTLSTYYVQLGIPYSWVTDLAQCGLFIVCSLFFANKGW SSPSNQGSTKTFPTWFRKVNPTWMRPSGQADPSPLAASKTSGSSQERGSTSGWVASAEIA QMVHTGGQPLEKAEIQMPGHIPERAKGEKTDFLGLVPTVLPAYLCPHLCVYTLTSVTSDQ ELSAFSRNPVSLA >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_3|942_bp atgaaacaactacaaggaaacactggggaaaatctctgggacattggtctgggcaaaaat ttcttgagcaataccccgcaagcacaagcaactaacacaaagaaatggacaaatgggtca tatcaagttaaaaagcttctgcacagcaaaggaaacaatcaacaaagtaaagagacaacc tgcagaatacgtattctcaagtcaccttgggaagacagcctcaaaacatacaggtatata ctggatttcagaaaatcacatctttttattggaccaggtaccgccaggtcactgaaagat gccaactcaaagaaagcagcttccccaattggctcccactcagtcactggcaatgctaag caacaccagccatcaccatccggctctccactccgaccttcagtaaccactcacttaccc aacagatatacactgagcacctactatgtacagcttggaattccttattcatgggtcact gacttggcccagtgtggtcttttcattgtttgctctctgttctttgccaataaaggatgg tcctccccttcaaatcaagggagcaccaagacattccctacctggttcagaaaggtgaac cccacctggatgcgcccctctgggcaagccgaccctagcccacttgctgccagcaagaca tcaggaagcagccaggagagaggcagcacttcaggatgggtagcaagtgctgaaattgca cagatggtgcatacgggaggacagcccctggagaaggcagaaatacagatgccggggcac atccctgaaagggcaaagggagaaaagacagacttcctgggcctggtcccgacggtacta ccggcatatctctgcccacatctctgtgtttacacgttgacttcagtgacatctgatcaa gagttatctgccttcagcaggaatcctgttagtttagcatga >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_4|1356_aa MGDIQGRCLVGGWVFKYRASENVIEGKEVDSEESVSRQQRSISAAALDSYRSVNPTVNCT CKGSGSCSPYENLMPDDLSLSPVTPIWNYLVAGKQAQGSHQFYIMATDPLGKRHVSHGGR TKSNQGAFDDHTRYSSLPKAELVYRFPENLSFLIHEPARCGRCTFRAPSRSCVQRPNREC GSAHQQGRQGSGYQESHCPRLYDDGLDQMTATTSIGFDFMWVSEDGWSLFISTREPHLCT PQAEAQSHRFFFWVFDIPPLTLPVSDQRPEKEPRMCREHSPSSEKLLYHCSSAPEALRMS HLLADREPECCARPGALLENQGSHSLENGVLGEECPSKKRHRDWEPQFTFQKWKWTRGPG LAGGYLDPPAIALLVGRDPTLHPNLFDIGNISLVFAKAKHGRTPLHLAANKGHLPVVQIL LKAGCDLDVQDDGDQTALHRATVVGNTEIIAALIHEGCALDRQDKDGNTALHEASWHGFS QSAKLLIKAGANVLAKNKAGDTCLHVAARYNHLSIIRLLLTAFCSVHEKNQVSACILFMA ASTLPTRLPDRPGNEKLGAVGHEQMRFSRPSNQFQAGDTALHVAAALNHKKVAKILLEAG ADTTIVNNILEQAPAQVRFLLRGCPAVSAPLNGSAGPGGCNSCCVEVFLRELCQLGYVRV GPVALSHLSYSASPQAGQTPLETARYHNNPEVALLLTKAPQVGFTALSMVLIMRDYKVVG TPGCNLLKPLQTNLNMECNQAVEVLRFSRGRSLRKKRERLKEERRAQSVPRDEVAQSKGS VSAGDTPSSEQAVARKEEAREEFLSASPEPRAKDDRRRKSRPKVSAFSDPTPPADQQPGH QKNLHAHNHPKKRNRHRCSSPPPPHEFRAYQLYTLYRGKDGKVMQAPINGCRCEPLINKL ENQLEATVEEIKAELGSVQDKMNTKLGQMENKTQHQMRVLDKLMVERLSAERTECLNRLQ QHSDTEKHEGEKRQISLVDELKTWCMLKIQNLEQKLSGDSRACRAKSTPSTCESSTGNPH TESPFVQKEHDQQLLYSPALKGSTYARAVGNTGWPSLELWFHLCVNNMGKHPRKMFHART TLRACRGALGVENGASFPNWSLGQAVSTLASGNRTRAFSGRLRRAEGKASNFFGLNGTSV ANTESMKALTSQSDHQRRQSGREEQKGVDQLVVTAGPAAASDSSPPVVRPKEKALNSTAT QRLQQELSSSDCTGSRLRNVKVQTALLPMNEAARSDQQAGPCVNRGTQTKKSGKSGPTRH RAQQPAASSTCGQPPPATGSEQTGPHIRDTSQALELTQYFFEAVSTQMEKWYERKIEEAR SQANQKAQQDKATLKEHIKSLEEELAKLRTRVQKEN >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_4|4071_bp atgggggacatccaaggaagatgtctggtaggtggttgggtgtttaaatatagagcttca gagaacgtgattgagggtaaagaagtagactcagaggaatctgtatctaggcagcagagg agcatatcagcggcagcgttagattcttataggagtgtgaaccctactgtgaactgcaca tgtaagggatctgggtcatgttctccttatgaaaatctaatgcctgatgatctgtcactg tctcctgtcacccccatatggaactatctagttgcaggaaaacaagctcagggttcccac caattctacattatggccactgacccactggggaagcggcacgttagccatggtggacgc acaaaatccaaccagggggcctttgatgatcacacacggtacagttccctgccaaaggcg gaacttgtctaccgcttccctgaaaacctttctttcctaattcatgagccagcaagatgc ggtcgctgcactttcagagcgccttctcgtagctgcgtacaaaggccaaacagagaatgt ggttcagctcatcaacaagggcgccagggtagcggttaccaagagtctcattgtccccgt ctgtatgatgacggcctggaccagatgactgctacaacctctataggctttgatttcatg tgggtcagtgaagatgggtggtccctttttatcagtacgagggagccccatttgtgcaca cctcaagcagaagcccaaagccatcgtttcttcttttgggtctttgacatccctccactg acgcttcctgtcagtgaccaaaggccagaaaaggagccaagaatgtgcagggaacacagc ccctcctcagaaaagctcctgtaccattgtagctcagctcctgaagctctcaggatgtca cacctccttgctgacagggagcctgagtgctgtgcgaggccaggagcattgctggagaat cagggaagtcatagtttggagaatggtgttcttggtgaagaatgcccttccaagaagaga cacagagactgggaaccacagtttacgtttcaaaaatggaagtggacaagagggccagga ctggctggtgggtacctggaccctccagccatagcccttctggttggaagagatccaact cttcacccaaatctgtttgacattggaaatatctcactggtctttgcgaaggcaaagcat ggccggactcccctgcatcttgctgccaataagggccatcttcctgtggtccagatcttg ctgaaggctggctgcgaccttgatgtccaggatgatggggaccagaccgccttgcaccgg gccacagtggtggggaacacggagatcatcgcggcgctcatccacgaagggtgtgccctg gacagacaagacaaggatgggaatacagccttgcatgaagcatcctggcatggtttcagc cagtcagccaagctgctcattaaagcaggagccaacgtgcttgccaagaacaaggcagga gacacctgtttgcacgttgctgcgcgctataatcacttgtccatcattaggctcctcctc actgctttctgttctgtccatgaaaagaaccaggtcagtgcatgtattctcttcatggct gccagcacccttcccacaaggctaccggacaggccaggtaatgaaaagctgggggctgta ggccatgagcagatgaggtttagcagaccttctaatcaattccaggctggagacacagca cttcacgttgctgctgccctaaatcacaagaaggtggccaaaatcttactggaagccgga gcagatacgaccattgttaacaatatcctagagcaggcaccagctcaggtgcgctttctt cttcgaggctgtcctgcggtctctgcccctctgaatggttcagcagggcctggagggtgc aacagctgctgtgtggaggtttttttgagggagctgtgccagctgggctatgtgcgtgtg ggacccgtggccctttctcacctgtcctactctgcctctcctcaggcaggccagactccg ctggagactgcccgctaccacaataacccggaagttgctcttctccttactaaagctccc caggtaggatttactgccctttccatggtactgattatgcgggactacaaagttgttggg actcctggttgcaatctactgaagcctcttcaaactaacttaaatatggaatgtaaccag gcagtggaggtcttgcgcttcagtcgtgggcgaagcctgaggaaaaagagagagaggctc aaggaagagaggagagcccagtctgtgccaagagatgaggtggcccaaagcaagggcagt gtctcagcaggagacacccccagcagtgaacaggctgtggccagaaaagaagaagccaga gaagagttcctgtcagcctccccagaacccagagcaaaggatgacaggaggagaaagtca aggcccaaggtgtcagcattttctgaccccaccccaccagccgaccaacagcctggacac cagaagaacctgcatgctcataatcaccctaaaaagaggaacaggcatcggtgttcatcc ccacccccaccccatgagttcagggcgtatcagctctacacattgtaccggggcaaggat gggaaagtgatgcaggcaccaataaatggttgtcgatgtgaacctctaatcaacaagctg gagaatcagttggaggctactgtggaggagataaaagcagagctgggatcggttcaggac aaaatgaatacaaagctggggcagatggagaataagacccagcaccaaatgcgtgttttg gacaagctgatggttgagcgactttctgcagagaggacggagtgcctgaaccgcctgcaa cagcactcagacacagagaagcatgagggggagaaacgacagatatccttggtggatgaa ttaaaaacctggtgcatgttaaagattcagaatctggagcagaagctttctggagattct agggcctgcagagctaaatccacaccatctacttgtgagtcctctacaggtaacccacac acagagagcccttttgtccaaaaggaacacgaccagcagctcttgtactctcctgcactg aaaggcagtacgtatgctagggctgtgggaaacactggatggccatctctggaactgtgg tttcatctttgtgtcaacaacatggggaaacatcccaggaaaatgtttcatgctaggact actcttagggcttgtcgtggagctctgggtgtggaaaatggggcctcctttccaaattgg agcttgggtcaagcagttagtacactggcatcaggaaacaggaccagagccttctcaggt agattgaggcgggctgaaggaaaagccagcaacttttttggcttaaatgggaccagtgtg gctaacacagaatccatgaaagctctgacaagccaaagtgatcatcagaggagacaaagt ggaagggaggaacagaaaggtgtggaccaattagtggtgactgcaggtccagcagcagct tccgacagctcccctccagtggttaggcccaaagagaaggccctcaactccactgctacc cagagactccagcaggagctgtcgtcttctgactgtacaggctcccgactgagaaacgtc aaggtccagacagccttgctacccatgaatgaggcagccagatctgatcagcaggctggg ccctgcgtcaacagaggcactcaaactaagaagtctgggaagagtgggccaacaaggcat cgtgcccagcaacccgcagccagcagcacctgtgggcagccgccaccagccacaggcagc gagcagactggccctcacattcgggacacctcccaagctctggagcttacccagtatttt tttgaggctgtttctacccagatggaaaagtggtatgaaaggaagattgaagaagcacga agccaagccaatcagaaagcccagcaagataaggctacattgaaggaacacattaaaagt ttagaagaggaacttgccaaactaaggactagggtgcagaaggaaaattag >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_5|88_aa MAASRLPPATLTLKQFVRRQQVLLLYRRILQTIRQVPNDSDRKYLKDWAREEFRRNKSAT EEDTIRMMITQGNMQLKELEKTLALAKS >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_5|267_bp atggctgcttcccgcttacccccagcgacgctaacgttaaagcagttcgtaagaaggcaa caagttcttctcctctacagaaggattttgcaaacaattcggcaagttccaaatgattct gatcgcaaatacctgaaagattgggcaagagaagaattcagaagaaacaaaagtgccacc gaagaggatacaatccggatgatgattactcaaggcaatatgcagctcaaggagttagaa aaaacacttgctttagcaaaatcttaa >gi568815592f:89466977_89731001|GENSCAN_predicted_peptide_6|3711_aa XVTSSGFGTALLARKECLKFLIKRLAKIVRLTEYQKNELKIYDRMKAKEFTGIDNLWGIH PFFIPRGPVLHRNNIADYALSAGTTAMNAQRLLRATKLKKPILLEGSPGVGKTSLVGALA KASGNTLVRINLSEQTDITDLFGADLPVEGGKGGEFAWRDGPLLAALKAGHWVVLDELNL ASQSVLEGLNACFDHRGEIYVPELGMSFQVQHEKTKIFGCQNPFRQGGGRKGLPRSFLNR FTQVFVDPLTVIDMEFIASTLFPAIEKNIVKKMVAFNNQIDHEVTVEKKWGQKGGPWEFN LRDLFRWCQLMLVDQSPGCYDPGQHVFLVYGERMRTEEDKKKVIAVFKDVFGSNSNPYMG TRLFRITPYDVQSFQPLESIMKCVQMSWMVILVGPASVGKTSLVQLLAHLTGHTLKIMAM NSAMDTTELLGGFEQVDLIRPWRRLLEKVEGTVRALLRDSLLISADDAEVVLRAWSHFLL TYKPKCLGEGGKAITMEIVNKLEAVLLLMQRLNNKINSYCKAEFAKLVEEFRSFGVKLTQ LASGHSHGTFEWVDSMLVQALKSGDWLLMDNVNFCNPSVLDRLNALLEPGGVLTISERGM IDGSTPTITPNPNFRLFLSMDPVHGDISRAMRNRGLEIYISGEGDASTPDNLDLKVLLHS LGLVGNSVCDILLALHTETRSTVVGSPTSSVSTLIQTAILIVQYLQRGLSLDRAFSEACW EVYVCSQHSPANRKLVQALLEKHVSSLRAHETWGDSILGMGLWPDSVPSALFATEDSHLS TVRRDGQILVYCLNRMSMKTSSWTRSQPFTLQDLEKIMQSPSPENLKFNAVEVNTYWIDE PDVLVMAVKLLIERATNQDWMLRVKWLYHLAKNIPQGLDEFVIPLDPRWNMQALDMIRNL MDFDPQTDQPDQLFALLESAANKTIIYLDREKRVFTEANLVSVGSKKLRESVLRMSFEFH QDPESYHTLPHEIVVNLAAFFELCDALVLLWVQSSQGMVSDASANEILGSLRWRDRFWTV ADTVKVDAPGLALLALHWHWVLKHLVHQIPRLLMNYEDKYYKEVQTVSEHIQNCLGSQTG GFAGIKKLQKFLGRPFPFKDKLVVECFSQLKVLNKVLAIREQMSALGESGWQEDINRLQV VASQWTLKKSLLQAWGLILRANILEDVSLDELKNFVHAQCLELKAKGLSLGFLEKKHDEA SSLSHPDLTSVIHLTRSVQLWPAMEYLAMLWRYKVTADFMAQACLRRCSKNQQPQINEEI SHLISFCLYHTPVTPQELRDLWSLLHHQKVSPEEITSLWSELFNSMFMSFWSSTVTTNPE YWLMWNPLPGEWVERTQQLQDISSMLWTNMAISSVAEFRYSLALEADCKVPVFSPQHGAE TQRTDSQLQGQVLFRHLAGLAELLPESRRQEYMQNCEQLLLGSSQAFQHVGQTLGDMAGQ EVLPKELLCQLLTSLHHFVGEGESKRSLPEPAQRGSLWVSLGLLQIQTWLPQARFDPAVK REYKLNYVKEELHQLQCEWKTRNLSSQLQTGRDLEDEVVVSYSHPHVRLLRQRMDRLDNL TCHLLKKQAFRPQLPAYESLVQEIHHYVTSIAKAPAVQDLLTRLLQALHIDGPRSAQVAQ SLLKEEASWQQSHHQFRKRLSEEYTFYPDAVSPLQASILQLQHGMRLVASELHTSLHSSM VGADRLGTLATALLAFPSVGPTFPTYYAHADTLCSVKSEEVLRGLGKLILKRSGGKELEG KGQKACPTREQLLMNALLYLRSHVLCKGELDQRALQLFRHVCQEIISEWDEQERIAQEKA EQESGLYRYRSRNSRTALSEEEEEEREFRKQFPLHEKDFADILVQPTLEENKGTSDGQEE EAGTNPALLSQNSMQAVMLIHQQLCLNFARSLWYQQTLPPHEAKHYLSLFLSCYQTGASL VTHFYPLMGVELNDRLLGSQLLACTLSHNTLFGEAPSDLMVKPDGPYDFYQHPNVPEARQ CQPVLQGFSEAVSHLLQDWPEHPALEQLLVVMDRIRSFPLSSPISKFLNGLEILLAKAQD WEENASRALSLRKHLDLISQMIIRWRKLELNCWSMSLDNTMKRHTEKSTKHWFSIYQMLE KHMQEQTEEQEDSLCSVLWNLYHYYKQFFDRVQAKIVELRSPLEKELKEFVKISKWNDVS FWSIKQSVEKTHRTLFKFMKKFEAVLSEPCRSSLVESDKEEQPDFLPRPTDGAASELSSI QNLNRALRETLLAQPAAGQATIPEWCQGAAPSGLEGELLRRLPKLRKRMRKMCLTFMKES PLPRLVEGLDQFTGEVISSVSELQSLKVEPSAEKEKQRSEAKHILMQKQRALSDLFKHLA KIGLSYRKGLAWARSKNPQEMLHLHPLDLQSALSIVSSTQEADSRLLTEISSSWDGCQKY FYRSLARHARLNAALATPAKEMGMGNVERCRGFSAHLMKMLVRQRRSLTTLSEQWIILRN LLSCVQEIHSRLMGPQAYPVAFPPQDGVQQWTERLQHLAMQCQILLEQLSWLLQCCPSVG PAPGHGNVQVLGQPPGPCLEGPELSKGQLCGVVLDLIPSNLSYPSPIPGSQLPSGCRMRK QDHLWQQSTTRLTEMLKTIKTVKADVDKIRQQSCETLFHSWKDFEVCSSALSCLSQVSVH LQGLESLFILPGMEVEQRDSQMALVESLEYVRGEISKAMADFTTWKTHLLTSDSQGGNQM LDEGFVEDFSEQMEIAIRAILCAIQNLEERKNEKAEENTDQASPQEDYENNFCHLRAVGE AEIVRYSDLVLFFLTMSLATHRSTAKLLSVLAQVFTELAQKGFCLPKEFMEDSAGEGATE FHDYEGGGIGEGEGMKDVSDQIGNEEQVEDTFQKGQEKDKEDPDSKSDIKGEDNAIEMSE DFDGKMHDGELEEQEEDDEKSDSEGGDLDKHMGDLNGEEADKLDERLWGDDDEEEDEEEE DNKTEETGPGMDEEDSELVAKDDNLDSGNSNKDKSQQDKKEEKEEAEADDGGQGEDKINE QIDERDYDENEVDPYHGNQEKVPEPEALDLPDDLNLDSEDKNGGEDTDNEEGEEENPLEI KEKPEEAGHEAEERGETETDQNESQSPQEPEEGPSEDDKAEGEEEMDTGADDQDGDAAQH PEEHSEEQQQSVEEKDKEADEEGGENGPADQGFQPQEEEEREDSDTEEQVPEALERKEHA SCGQTGVENMQNTQAMELAGAAPEKEQGKESFKRKPGQADNERSMGDHNERVHKRLRTVD TDSHAEQGPAQQPQAQVEDADAFEHIKQGSDAYDAQTYDVASKEQQQSAKDSGKDQEEEE IEDTLMDTEEQEEFKAADVEQLKPEEIKSGTTAPLGFDEMEVEIQTVKTEEDQDPRTDKA HKETENEKPERSRESTIHTAHQFLMDTIFQPFLKDVNELRQELERQLEMWQPRESGNPEE EKVAAEMWQSYLILTAPLSQRLCEELRLILEPTQAAKLKGDYRTGKRLNIRKVIPYIASQ FRKDKIWLRRTKPSKRQYQICLAIDDSSSMVDNHTKQLAFESLAVIGNALTLLEVGQIAV CSFGESVKLLHPFHEQFSDYSGSQILRLCKFQQKKTKIAQFLESVANMFAAAQQLSQNIS SETAQLLLVVSDGRGLFLEGKERVLAAVQAARNANIFVIFVVLDNPSSRDSILDIKVPIF KGPGEMPEIRSYMEEFPFPYYIILRDVNALPETLSDALRQWFELVTASDHP >gi568815592f:89466977_89731001|GENSCAN_predicted_CDS_6|11136_bp ngggtaacttcctctgggtttggtacagcccttttggcacgaaaagaatgtctgaaattt ctaatcaagaggcttgccaagatagtacgacttacagaatatcagaaaaatgagttgaag atttatgacagaatgaaggccaaagaattcactggaatagataacctttggggaattcat ccattttttataccaaggggacctgtcctacacaggaataatattgcagactatgcactc agtgcagggaccactgctatgaatgcacagaggctcttaagagctaccaaactgaagaag cccattctcctggagggttcccctggtgttggcaagacaagtttggtgggagcattagca aaggcttcaggaaatacccttgttagaatcaacttatcagagcaaacggacatcacagac ctgtttggagcagatctacctgttgaaggtggcaagggaggagagtttgcctggcgtgat ggccccttactggcagctttgaaggcaggccattgggtggtgttggatgagcttaacctg gcttctcagtctgtattggaaggactcaatgcttgttttgaccaccgaggagaaatctat gtgcctgagttaggaatgagctttcaagtgcagcatgaaaagacgaagatttttgggtgt cagaatccctttagacaaggaggtgggaggaaaggcttgcccaggtctttccttaacaga ttcactcaggtcttcgttgatccccttacagtaattgacatggagttcattgccagtact ttgtttccagccattgagaaaaatattgttaagaaaatggttgctttcaataaccaaatt gatcatgaagtgactgttgagaagaaatgggggcaaaaaggaggaccctgggaattcaac ctccgggaccttttccgctggtgtcagttgatgctggttgaccagtcccctgggtgttat gatcctggtcagcatgtgtttttggtctatggtgaaagaatgagaaccgaagaggacaaa aaaaaggtcattgctgtattcaaggatgtgtttggttcaaattccaacccatacatggga accagactatttcgtatcactccctatgatgttcagtcattccaacccctggagtcaatc atgaagtgtgtgcagatgagctggatggtcatcctggtcgggccagcctctgtgggcaag accagcctggtccagcttctggcacaccttactggccacacattaaagatcatggctatg aacagtgcaatggatactactgagctgctgggtggatttgagcaggttgatcttatacga ccttggaggaggctgctagagaaggtggagggaactgtaagggcactgttaagggatagc ctccttatcagtgctgatgatgcagaagtagtgctgcgagcctggagtcattttcttctg acatataagcctaagtgtcttggagaaggtggtaaagctatcacgatggagattgtcaac aaactagaagcagtgttattgcttatgcagcgactcaacaataaaatcaactcatactgc aaggcagagtttgccaaacttgttgaagagttccgaagctttggtgtgaagcttacgcag ttggccagtggccatagccatggcacatttgaatgggttgacagcatgttggttcaggcc ctgaagtctggagactggcttctgatggacaatgttaacttctgcaacccatcagtgttg gatcgtttgaatgctttgcttgaacccggaggtgtcctcactattagtgagagaggaatg atagatggatccactcccacgataacaccaaatcccaatttcagacttttcctctcgatg gatcctgttcatggagatatatcccgagctatgaggaatcgtggacttgaaatctacatt tcaggggaaggggatgcaagcaccccagacaacctggatttgaaagttctgctgcacagc cttggattggtggggaacagtgtatgtgacatcctcttggctttacacacagagacccgg agcactgttgtaggttctccaacatcttctgtatcaactctaatccagacagccatacta attgtccagtacctgcagcgagggctgagtttagacagagccttttctgaagcatgctgg gaagtatatgtctgttcccagcattcaccagcaaaccggaagcttgtacaggctttactg gagaaacatgtttcttctttgcgagcacatgaaacctggggagactccattcttggcatg ggactgtggccagattctgtgccctcagctctctttgctactgaagattcacacctgtct acagtccgaagagatggacagatcttagtatattgtctcaacaggatgagcatgaaaacc agcagctggacaaggagtcagccttttaccttgcaagacttagagaaaattatgcagtcc cccagccctgagaacctgaaattcaatgcagtcgaagtgaatacttactggatcgatgaa ccagatgttttggtcatggctgttaaattgctcatagaaagagcaaccaatcaggattgg atgctcagagttaaatggctttatcatttagccaagaatataccgcaggggcttgatgaa tttgtgatccctctggatccccgatggaatatgcaggctctggacatgattagaaatttg atggactttgacccacaaacggaccagcctgaccagctctttgcccttttagaatcagct gcaaacaagacaatcatatatcttgaccgggaaaaacgggtttttactgaagcaaatttg gtttctgttggtagcaaaaagctaagagagagtgttttgagaatgtcctttgaattccat caagatccagaaagctatcacactctgccccatgaaattgtggtcaatcttgctgctttt tttgaactttgtgatgcactagtcctgctctgggtacagtcctcccagggaatggtgtct gatgccagtgccaatgagatcttaggttctctgcggtggcgggaccggttctggactgtg gccgacacagtaaaagtagatgccccaggtctggcccttcttgccctccattggcactgg gttttaaaacatctggtccaccagatcccccgacttctgatgaattatgaagacaaatat tacaaagaagttcagactgtctcagaacatattcagaattgtctggggagccagactggt ggcttcgctggtataaagaagttgcagaagttcctgggacgaccgtttccttttaaggac aagctggtggtggagtgtttttcacaactgaaggtccttaacaaagtccttgccatcagg gagcagatgtctgcccttggggagagtggatggcaggaagacattaaccgtctccaagtg gttgcttctcagtggacattaaagaaaagtctcctgcaagcctggggactgatcctcaga gcaaatattttggaagatgtcagcctagatgaattgaagaattttgtgcatgctcagtgt ttagaactgaaagccaaaggactctcacttggttttctggagaaaaagcatgatgaagct tcctccctgtcccatccagacttgacctccgtaatccacctcaccaggagtgttcagttg tggcctgcaatggagtacctggctatgctttggcggtacaaagtgacagctgattttatg gcacaagcttgtctcagaagatgcagcaaaaatcaacaaccccagataaatgaggagata agtcacctcatctcattttgtctttatcacacacctgttacacctcaagagcttcgagat ctgtggtccttgctgcatcatcagaaggtgtctcctgaagaaattacatctttgtggtcc gagttatttaattccatgtttatgtctttctggagcagtactgtgaccacaaatccagag tactggctaatgtggaaccctttgcctggagagtgggttgagagaactcagcagctccag gacatcagttcgatgctttggactaacatggctatctcttcagtagcagaattcaggtat tccctcgccctggaagcagactgtaaagttcctgtcttttctccacagcatggagcagag acccaacgcacggattcccaactccaggggcaggtgctgttccggcacctggcaggccta gcagagctgctcccagagtcccggcggcaggagtacatgcagaactgtgagcagctgctg cttgggagcagccaggccttccagcatgtgggccagacacttggggacatggctggtcag gaggtgctgcccaaggaactgctctgccagttgctcacctccctgcaccactttgttggt gaaggggagagtaagaggagcctgcctgagccagcccagcgtgggagcctctgggtgagc ctcggcttgctccagattcagacatggcttccccaggcacgctttgaccctgcggtgaag agggagtacaagctcaattacgtcaaggaagagttacaccaactgcagtgtgaatggaag acccggaacctgtcatcccagctgcagactggaagagacctggaagatgaagtcgttgtc agctactctcatcctcacgtcaggctgcttcgccaaaggatggatcggctggataattta acctgtcacctgttgaagaaacaggcctttagaccccagctgcctgcctacgagtccctg gttcaggagatccaccactacgtcaccagcatcgccaaggcccctgctgttcaggatctg ctcacacggcttctgcaggccctccacatagatgggccacggtctgcccaagtagcccag agccttctaaaggaggaggcctcttggcagcagtcacaccaccagttccggaagcggctg tcagaggagtacaccttctatccagatgccgtgagcccactgcaggcatccatattgcag ttacaacatggcatgaggctggtggcctctgagctccacacctcactccacagcagtatg gttggtgcagacaggctggggaccctggccacagccttgctggctttcccatcggtgggc cccaccttcccgacttactatgctcatgcagacactttgtgctcggtgaagtctgaggag gttctacgaggccttgggaagctaatcctcaagcgctcaggaggaaaggagctggaaggc aagggccagaaagcctgtcccactcgggagcagctgctgatgaatgctctcctttacctg cgctcccacgtgttatgcaagggagagttggaccagagggccctgcagctcttcagacat gtgtgtcaggaaatcatcagtgagtgggatgagcaggaacgcatagcccaagagaaggct gagcaggaaagcggcctgtatagatacaggagcaggaactctaggacagccctgagtgaa gaggaggaggaagaacgggagttcagaaaacagttccccctgcatgaaaaggactttgca gatattttggtgcagccaacgttggaggagaacaaaggaacttcagatgggcaagaagag gaagcaggcacaaacccagctctcctctcccagaattcaatgcaggcagtaatgctgata caccagcaattgtgtctcaactttgctcgatccctctggtatcaacagactctgccgcca catgaagcaaagcattacctcagcctgtttctgtcttgctatcagactggggcatcgctt gtgacacacttctaccccctgatgggagttgaactgaatgaccgactcttgggcagccaa cttttggcctgtaccctctcccataacactctttttggggaggcaccctcagacctgatg gtgaaacctgatgggccctatgacttctaccagcatcccaatgttccagaagcacggcag tgtcaacctgtgcttcaaggtttctcagaggctgtcagtcacttgctacaggactggcca gaacacccagcgcttgaacagctcctggttgtaatggacagaattcgtagtttcccactt tccagtcccatctcaaagttcctgaatggcttagagatccttctggcaaaggcacaggat tgggaggaaaatgcaagtcgagctttgtctttgcggaaacatcttgatttgatcagtcag atgatcattcggtggcgtaaactggagctgaactgctggtccatgagtttggataatact atgaagcgccacaccgagaaatccaccaagcactggttctccatctatcagatgcttgag aagcacatgcaggaacaaacagaagaacaggaagattcactttgcagtgttctatggaat ttgtaccattattacaagcaattctttgaccgggtccaggccaaaattgtggaacttcgt tcccccctagaaaaagaacttaaagaatttgttaagatttccaagtggaatgatgtcagc ttctggtccattaagcaatctgtagaaaagacacacaggacactctttaaattcatgaag aaatttgaagcagtcctgagtgaaccctgccggtcatccctggtggagagtgacaaggaa gaacagcctgactttttgcccaggccaacagatggagctgcaagtgaactgtcttccatt cagaatctgaacagggcactgagggagaccctgttagcccaaccagcagctgggcaggcc acaattccagagtggtgtcagggcgctgctccttccggcttggaaggggagcttctgcgt cgcttgccaaagctcaggaaacgcatgaggaagatgtgcctgacgttcatgaaggagagc cccctgcctcgccttgtggagggccttgatcagttcacaggtgaagtgatttcctctgtg agtgagctgcagagcttaaaggtggaaccctctgcagagaaggagaagcagcggtcagaa gccaagcacattctcatgcaaaaacagcgagctttgtcagacctctttaaacaccttgca aaaattggtttgtcgtatcgcaaaggtcttgcttgggcccgttcaaaaaaccctcaagag atgcttcatcttcacccattagatctccagagcgcattgtccatcgtcagcagcactcag gaggctgattctaggctgcttacagaaatctcgtcttcatgggatggatgccagaagtat ttttatcgctctcttgcacggcatgccaggcttaacgcagcactagcaactcctgccaag gaaatgggcatgggcaacgtggagaggtgcagagggttctcagcacatttgatgaagatg ctcgtccgacagcggcgctccctgaccacgctcagtgagcagtggatcatcctcaggaac ctcctcagctgtgtgcaagagattcacagcaggctgatggggccccaggcctaccccgtg gccttcccccctcaggatggcgtgcagcagtggacagagcgcctgcagcacctggccatg cagtgccagatcctgcttgagcagctctcctggctcctccagtgctgccccagtgtaggg ccagctccaggccatggcaatgtccaggtactggggcagcctcctggcccctgcctggaa ggaccagaacttagcaagggacaactttgtggagtagtgctggacctaattccttccaat ctgagctacccatctccaatacctggaagtcagctgccctctggttgccggatgcggaaa caggatcacctttggcaacagtcaactacgagattaacagagatgctaaaaaccattaaa acagtgaaagctgacgtcgacaaaattagacagcagtcttgtgagactctctttcattct tggaaagattttgaagtttgctcttctgcgctgagttgcttgtcccaggtgtcagttcat ttgcagggcctagagtccttgttcattcttccagggatggaggttgagcaaagagactca caaatggcactagttgaaagtctggaatatgtaagaggagaaattagtaaagccatggct gactttactacctggaagacccatctgcttacttcagatagccaaggaggaaatcaaatg ttggacgaaggatttgtggaagatttttcagagcaaatggaaattgccatccgagccatc ctctgtgccatccagaacttagaagaaagaaagaatgaaaaagcagaggagaacactgac caagcaagcccacaagaagattatgaaaataatttctgccatctccgagctgttggagag gctgaaatcgtacgctactcagacctcgtcctcttcttcctgaccatgtctttagcaact caccgtagtactgcaaagctgctctctgtgcttgcccaggtctttacagagcttgcccag aagggattttgcttgcccaaagaatttatggaagattcagctggagagggagcaactgag ttccatgactatgagggaggtggaattggagaaggcgagggcatgaaggatgtgagtgac cagatcggaaatgaagaacaggtggaagatacatttcagaagggtcaagaaaaagacaaa gaggatcctgattcaaaatctgatattaagggcgaggataatgccattgagatgtcggaa gattttgatgggaaaatgcatgatggggagcttgaagaacaagaagaggatgatgagaaa tcagatagtgagggcggagacctggataaacacatgggcgatctcaatggtgaggaagct gacaaactagatgagaggctttggggtgatgatgatgaggaggaagatgaggaggaagaa gacaataaaactgaagaaacaggaccaggaatggatgaggaagattctgaacttgttgct aaagatgacaacttggatagtggcaattcaaacaaagataaaagccagcaagataagaag gaagaaaaggaagaagcagaagctgatgatggtggacaaggtgaagacaaaattaatgaa caaatagatgagagggactatgatgaaaatgaggtggacccttaccatggcaatcaggaa aaggtgccagaacccgaggctttggaccttccagatgacttgaacctcgacagtgaagac aagaatggtggtgaggacaccgacaatgaagaaggagaagaagagaatcctttggagata aaagaaaaaccagaagaagcaggtcatgaagctgaggaaagaggagagaccgagaccgac cagaacgaaagtcagagtccacaggagcctgaggaaggccccagtgaagatgacaaggca gaaggggaagaggaaatggacacaggagctgatgaccaagatggagatgctgctcagcat cctgaagaacactctgaggagcagcagcagtctgtggaggaaaaagacaaggaagccgat gaagaaggtggagagaatggccctgctgaccaaggtttccagccccaggaggaagaagaa cgggaggactctgatacagaggagcaggtgccagaggctttggagaggaaggagcatgcc tcctgtgggcagactggtgtggagaacatgcagaacacacaggccatggagctggctggg gccgcacctgagaaggagcaggggaaagagagttttaagaggaaacctgggcaggctgac aatgaacgttccatgggtgatcacaatgagcgtgtgcacaagaggctgaggactgtggat acggacagccatgccgagcaggggccagctcagcagccccaggcccaggtggaggatgca gatgcattcgagcacattaaacaaggcagtgacgcatacgatgcacagacctatgatgtg gccagcaaagaacagcaacagtctgcaaaagactctggcaaagatcaggaagaggaggag atagaggacacccttatggacacagaggagcaggaggagttcaaagcagcagacgtggag cagctgaagccagaggaaatcaagtcgggcaccacagcacccttgggctttgatgagatg gaagtggagatccaaactgttaaaacagaggaagaccaagaccccagaacagacaaagcc cataaggagacagaaaatgagaaaccagaaagaagccgagagtctaccattcatacagct catcaattcctcatggacacgatcttccagccctttttaaaagatgtcaatgagctaaga caggagctggagagacagctggaaatgtggcagccacgtgaatctggaaacccagaggag gagaaggttgcagctgagatgtggcagagttacctgatcttaacagcgcctctttcacaa cggttatgtgaagagcttcgtctcatattagagcctacccaggcagccaagctgaaagga gactatcgaactgggaaacgactaaacatacggaaagtcattccatacattgctagtcaa tttcggaaagacaagatttggcttcgaaggaccaagcccagtaaacgccagtatcagatt tgtttggctatcgatgactcttctagtatggtagacaatcataccaagcagcttgcattt gaatctttggctgtgattggaaatgctctaaccctcctggaagtgggtcagattgcagtg tgtagttttggagaatctgtaaagctgttacacccatttcatgagcagttcagtgattac tctgggtcccagattctacgtctctgcaaattccaacaaaagaaaaccaagattgctcag tttctagagtctgttgccaacatgtttgcagctgctcagcagctctcgcagaacatcagt tcagaaactgcacaactcctcctggtagtctctgatgggcgaggccttttccttgagggc aaagaaagagtcctggcagcagttcaggctgcccggaatgcaaatatctttgtcatcttt gttgtattggacaatcccagttcacgggattctatcttggacattaaagtaccgatattt aaaggacctggagagatgcctgaaatccgatcctacatggaagagttcccattcccatac tatatcattcttcgagatgtaaacgcacttcctgagacactcagcgatgccctcagacag tggtttgagttggtgacagcctctgaccacccatag