Result of GENSCAN for
pF1KB8635
GENSCAN 1.0 Date run: 5-Nov-116 Time: 21:44:27 Sequence gi568815583f:63497411_63701683 : 204273 bp : 40.15% 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 Intr + 2899 3101 203 2 2 56 64 102 0.065 2.68 1.02 Intr + 5696 5852 157 1 1 12 75 97 0.096 -0.54 1.03 Intr + 5993 6145 153 0 0 114 63 54 0.440 4.62 1.04 Intr + 7313 7420 108 0 0 6 101 84 0.205 0.84 1.05 Term + 7962 8083 122 1 2 120 52 36 0.707 0.86 1.06 PlyA + 9309 9314 6 1.05 2.11 PlyA - 9686 9681 6 1.05 2.10 Term - 15052 14820 233 2 2 -112 48 509 0.629 22.55 2.09 Intr - 22923 22803 121 0 1 36 37 84 0.003 -2.75 2.08 Intr - 27320 27215 106 1 1 -2 109 76 0.016 -0.00 2.07 Intr - 30702 30569 134 0 2 93 70 72 0.030 4.42 2.06 Intr - 33634 33521 114 1 0 56 86 62 0.056 2.52 2.05 Intr - 56347 56183 165 1 0 55 103 107 0.307 8.14 2.04 Intr - 56401 56376 26 2 2 83 84 0 0.063 -4.07 2.03 Intr - 59569 59484 86 0 2 24 38 170 0.237 4.14 2.02 Intr - 64315 64013 303 0 0 35 14 332 0.209 15.28 2.01 Init - 67068 67019 50 0 2 111 95 21 0.947 5.57 2.00 Prom - 67637 67598 40 -8.65 3.00 Prom + 67653 67692 40 -6.15 3.01 Init + 72888 72961 74 2 2 72 46 60 0.914 -0.82 3.02 Intr + 73023 73169 147 0 0 78 66 160 0.897 11.23 3.03 Intr + 76636 76742 107 1 2 31 82 87 0.782 1.34 3.04 Intr + 76913 76993 81 0 0 104 88 28 0.232 3.09 3.05 Intr + 90838 91013 176 2 2 76 113 16 0.310 1.64 3.06 Intr + 91534 91601 68 0 2 108 100 76 0.993 7.58 3.07 Term + 93251 93416 166 2 1 109 37 280 0.999 21.41 3.08 PlyA + 94013 94018 6 1.05 4.00 Prom + 95827 95866 40 -7.95 4.01 Init + 100001 100335 335 1 2 88 96 204 0.639 18.02 4.02 Intr + 102871 103081 211 1 1 15 102 144 0.375 6.49 4.03 Term + 103287 103796 510 2 0 87 45 203 0.320 9.29 4.04 PlyA + 105998 106003 6 1.05 5.06 PlyA - 106016 106011 6 1.05 5.05 Term - 111856 111671 186 1 0 107 47 297 0.751 24.01 5.04 Intr - 115146 114841 306 0 0 15 110 369 0.976 27.52 5.03 Intr - 118510 118358 153 1 0 119 94 116 0.969 14.65 5.02 Intr - 119272 119020 253 0 1 86 84 200 0.981 15.91 5.01 Init - 119959 119760 200 1 2 78 60 81 0.551 2.72 5.00 Prom - 120726 120687 40 -5.65 6.02 PlyA - 120843 120838 6 1.05 6.01 Sngl - 122023 121370 654 1 0 37 48 236 0.915 10.42 6.00 Prom - 122673 122634 40 -8.15 7.47 PlyA - 123460 123455 6 1.05 7.46 Term - 124626 124137 490 2 1 -7 42 416 0.878 20.64 7.45 Intr - 125481 125405 77 0 2 119 80 33 0.998 2.99 7.44 Intr - 126445 126315 131 2 2 34 76 148 0.823 7.69 7.43 Intr - 128744 128532 213 0 0 94 99 171 0.443 16.56 7.42 Intr - 129737 129633 105 0 0 19 103 66 0.267 0.47 7.41 Intr - 131405 131267 139 2 1 49 94 140 0.992 9.82 7.40 Intr - 133225 133056 170 2 2 100 99 114 0.999 12.44 7.39 Intr - 135401 135299 103 2 1 72 116 61 0.572 6.13 7.38 Intr - 136560 136438 123 0 0 88 82 101 0.998 9.36 7.37 Intr - 138732 138551 182 1 2 108 71 147 0.992 13.67 7.36 Intr - 140233 140095 139 1 1 79 93 77 0.876 6.42 7.35 Intr - 141126 141001 126 0 0 72 93 58 0.960 4.66 7.34 Intr - 141366 141193 174 0 0 107 84 64 0.964 7.11 7.33 Intr - 143035 142742 294 1 0 79 54 237 0.941 15.68 7.32 Intr - 144233 144060 174 2 0 58 88 183 0.997 14.51 7.31 Intr - 145648 145547 102 1 0 47 85 77 0.815 2.75 7.30 Intr - 146140 145994 147 1 0 12 90 114 0.541 3.51 7.29 Intr - 150789 150659 131 1 2 25 94 40 0.544 -2.21 7.28 Intr - 152515 152315 201 2 0 76 54 70 0.341 0.74 7.27 Intr - 153970 153843 128 0 2 70 95 90 0.984 7.30 7.26 Intr - 155131 155004 128 1 2 83 68 74 0.995 3.46 7.25 Intr - 156965 156709 257 0 2 54 89 177 0.502 10.64 7.24 Intr - 158545 158332 214 1 1 82 115 249 0.995 24.37 7.23 Intr - 158948 158678 271 1 1 60 115 135 0.931 10.02 7.22 Intr - 161308 161134 175 2 1 33 111 145 0.637 9.38 7.21 Intr - 162526 162326 201 2 0 50 65 298 0.972 22.04 7.20 Intr - 163615 163563 53 0 2 77 63 54 0.947 -0.57 7.19 Intr - 164611 164343 269 1 2 55 77 278 0.984 18.81 7.18 Intr - 165794 165595 200 0 2 -8 69 244 0.812 11.05 7.17 Intr - 167184 167060 125 2 2 50 91 173 0.998 13.11 7.16 Intr - 168740 168509 232 0 1 79 62 198 0.983 12.21 7.15 Intr - 169062 168946 117 1 0 83 91 119 0.980 11.22 7.14 Intr - 172288 172128 161 0 2 56 96 78 0.890 4.11 7.13 Intr - 175284 175086 199 1 1 109 80 222 0.999 20.99 7.12 Intr - 177683 176932 752 1 2 52 95 897 0.748 76.97 7.11 Intr - 180955 180435 521 1 2 78 80 355 0.890 24.52 7.10 Intr - 182750 182667 84 2 0 41 90 59 0.585 0.50 7.09 Intr - 183366 183127 240 0 0 60 71 125 0.951 4.82 7.08 Intr - 189125 188949 177 2 0 53 102 230 0.942 20.09 7.07 Intr - 192289 192179 111 1 0 43 91 74 0.872 2.86 7.06 Intr - 193237 193131 107 2 2 89 7 142 0.982 5.21 7.05 Intr - 196747 196554 194 0 2 79 80 141 0.955 10.61 7.04 Intr - 197139 196902 238 1 1 81 106 154 0.955 12.25 7.03 Intr - 197484 197364 121 0 1 38 111 101 0.988 6.55 7.02 Intr - 198929 198714 216 2 0 36 96 104 0.880 3.78 7.01 Intr - 201586 201318 269 2 2 83 100 225 0.941 19.53 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 20406 20361 46 0 1 69 110 28 0.890 4.00 S.002 Init + 30579 30730 152 2 2 61 75 126 0.883 8.16 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_1|247_aa XAENPQMKKKKQNTYSQDRLKCEQKITAPCEKCAWVSDGGLPGRGYVLHGEGVGADQVEG DQTGEDTEAEACSNSKYHLEKDRSLRTQKYFWGKDEQRCPRWVDTIRQRSMRKRPTCGVG GLPHQSSPSSCSPSGPEAPSPGFTRSPNLEAIFVIAPDVLKCPSEIAGSIQAALLVAMEC PHLSSSVCIAPDSAKFPNGSPSSWCCSGSGTSKPREALGARAAEVGVFHPSGMVKFENRL RAEKLGG >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_1|744_bp ngtgctgaaaatcctcagatgaaaaaaaaaaaacaaaacacctattcccaagacagactg aaatgtgaacagaaaataacagcaccatgtgagaagtgtgcttgggtgagtgacggaggg cttcccggaagaggctatgtgcttcatggggaaggagtaggagcagaccaagtagaaggg gaccagacaggggaggacacggaggccgaggcttgctctaacagcaaataccacttggaa aaggacagatctttgaggacccagaaatacttctggggaaaggatgagcagaggtgcccc cggtgggtggataccattaggcagaggtctatgcggaagaggccgacttgtggcgtggga ggattgccacatcagtcttccccctcctcctgctcgccttctggccccgaggctccttcg ccgggttttacaaggagccccaacttggaagcaatatttgtaatagccccggacgtcctc aagtgccccagtgagatcgcaggctcgatccaggctgccctcctcgtggccatggagtgt ccacacctgagctccagcgtctgcattgctccggactcagccaagttccccaacggctcc ccgtcgtcctggtgctgcagcggctcgggcacctcgaaaccccgagaggcgctgggagct cgggcggcggaggtcggggtctttcatccgtcagggatggtgaagtttgaaaacaggctg cgggctgagaagctcggaggctga >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_2|445_aa MGIKENSIKLVNGPCSRVCLPLPKLNSQTLAFSGSLAVRAQVHSLGFAHPKQELVTQRRR DGTKSSLVAGGAKSTIRSAGQQHGCVRQHPSPAVLATGTLLLRWAPEAVVALQDSSVGEE EHSSNADGKKVLTDGLTGVTATIDSTGLLLTFPSSSQLGVINHKIITAITARKILINVCK ELEETTVMKSLKGLAVAKMITWLCRQLLLVCIRIFTFSMRAILEGTEGIFYSTGSNFVTC ARKPHDRKLRLQNLPLSLFSPQPQALQDGRRAPLHGGDEEALSSPELEPFSRRDQHAERS PNHVQGDWGDYDTTGGQRDTKEHRGTRQNCANEYTLIVDNGNQFLLLEKGVTNMERGKTR LVVLNEIVEERRKKKKEERRKKKKEERRRRKKEEKERRKKKEEEEEEEEEEEEEEEEEEE EEEEEEEEEEEEEEGKSVLRSAVTG >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_2|1338_bp atggggatcaaggaaaacagtatcaaattagttaacgggccttgttcaagagtttgcctc ccacttccgaagctaaacagccagacactcgccttctcaggctcccttgcagtcagagca caggtacacagcctgggctttgcccatccgaagcaggagttagtgacacaaagaagaagg gatggcaccaaatcctctctggtagcagggggggcaaagagcaccatccggagtgcaggg cagcagcatggctgtgtccgccagcacccatctccagcagtgctggcaacaggaactctg ctgctgcgctgggcaccagaggcagtggtggccttacaggacagttctgtgggggaagag gagcacagcagtaacgctgatgggaagaaggtgctgacagatggactcactggggtcacg gcaacaatcgacagtacaggcctattacttacttttccaagttcttcccagcttggtgtc attaaccacaaaatcatcacagcgataactgcaaggaaaatattaatcaatgtgtgtaaa gagcttgaggaaaccacagtaatgaaatcactaaaaggtctggctgttgccaagatgatc acatggctctgcaggcagttactgctggtgtgcattcgcatatttacattcagtatgagg gccatccttgaaggcactgaaggcattttttactcaactgggtctaattttgttacatgt gcacgtaaaccacatgacagaaagctacggcttcagaatcttcctctgtccctgttctca cctcagcctcaagctcttcaagatggcaggagggctcctttgcatggaggagatgaagaa gctctatcctctcctgagctagagccattctccagaagagaccaacatgctgagagaagc ccaaaccatgtgcagggagactggggagattatgacaccactgggggacagagagacacc aaggagcacagaggtaccagacagaattgtgcaaatgagtacacactcattgtagataat gggaaccagttcttactgttggagaaaggtgttacaaatatggaaaggggcaagactagg cttgtggtgttgaatgaaattgtagaagaaagaagaaagaaaaagaaggaagaaagaaga aagaaaaagaaagaagaaagaagaagaaggaagaaagaagaaaaagaaagaagaaagaag aaagaagaagaagaggaagaggaggaagaggaggaagaggaagaagaggaagaagaagaa gaggaggaagaagaagaggaagaagaggaagaagaagaagaggggaaatctgttttaaga tctgcagttactggctag >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_3|272_aa MKVRKPGCACEHGAAVLFHALASCWGYQQQDAHEFMRYLLDHLHLELQGGFNGVSRSAIL QENSTLSASNKCCINGASTVVTAIFGGILQNEVNCLICGTESRKFDPFLDLSLDIPSQFR SKRSKNQENGPVCSLRVHCLYKRHLVLMLPKSICLDCLRSFTDLEELDETELYMCHKCKK KQKSTKKFWIQKLPKPENSGPESCLYDLAAVVVHHGSGVGSGHYTAYATHEGRWFHFNDS TVTLTDEETVVKAKAYILFYVEHQAKAGSDKL >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_3|819_bp atgaaggtgaggaagcctggctgtgcttgtgagcacggggctgccgtccttttccacgcc ttggcctcttgctggggctatcaacagcaggacgcccatgaattcatgcgctaccttttg gaccacctacacttggaacttcagggcggtttcaacggtgtttcccgctcagcaattctg caggagaattctactctgtctgcaagtaacaagtgttgcataaatggagcatctactgtt gtcacggctatattcggaggcattctccaaaatgaggttaactgcctcatatgtgggaca gaatctagaaagtttgatccattcctagacctttcattagatattccaagtcagttcaga agtaagcgctctaagaatcaagaaaatggaccagtttgttcgttacgagtacattgcctc tacaaaaggcatcttgttttaatgctgccaaaatcaatttgtttagattgtcttcgcagt tttaccgacttagaagaacttgatgagacagagttatatatgtgccataaatgcaaaaag aaacaaaagtccacaaaaaagttttggattcaaaaactacccaagcctgagaacagtggc ccggagagctgcctgtatgacctcgccgctgtggtggtgcaccatggttccggggttggt tctggacattacacagcatacgcaactcacgaaggccgctggttccacttcaatgacagt actgtaacactgactgacgaggagactgtggtgaaggcgaaggcctacatccttttctac gtggaacaccaggccaaagctggatcggataaactttaa >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_4|351_aa MHITQLNRECLLHLFSFLDKDSRKSLARTCSQLHDVFEDPALWSLLHFRSLTELQKDNFL LGPALRSLSICWHSSRVQVCSIEDWLKSAFQRSICSRHESLVNDFLLRVCDRGLSLKLDW SNRQAPLPCKAAHPERNKESRVVAPGTGIPSVHSRPRTLLGRGRGFPLGAPKATSQEPTQ MKVPQPGVRHALGLRPRYRRLPGAPAALLPTPARTAPGELRARHQPHVGCRGGGRARAAD IARGLLPQRERGRPAPPARRVPAPGPAGRAQRRHAARPAPAPARARRGPRQAAAALDAAP PLPPGKERSPRPSWLRTQLFHLQTTTAYSEPHFPRLHSGDKKAYLTLRFYT >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_4|1056_bp atgcacataacccagctcaaccgggagtgcctgctgcacctcttctccttcctagacaag gacagcaggaagagccttgccaggacctgctcccagctccacgacgtgtttgaggacccc gcactctggtccctgctgcacttccgttccctcactgaactccagaaggacaacttcctc ctgggcccggcactccgcagcctctccatctgctggcactccagccgcgtgcaggtgtgc agcattgaggactggctcaagagtgccttccagagaagcatctgcagccggcacgagagc ctggtcaatgatttcctcctccgggtgtgcgacaggggcctcagcttgaagctagactgg agcaatcgccaagcaccgctcccctgcaaggcagcacatccagagcgaaacaaagagtca agggttgtggctcctggaaccggcattccctctgtccacagccgccccaggactctgctg ggccggggtcggggcttcccactaggggctcccaaggctacgagccaagaacccacgcag atgaaggtgccccaacctggcgtccgtcacgctctcgggctgcggccacgttaccgacga ctgcctggcgcgcctgctgcgctgctgcccacgcctgcgcgcactgcgcctggagaactg cgcgcgcgtcaccaaccgcacgttggctgccgtggcggcggacgggcgcgcgctgcagac attgcacgtggacttctgccgcaacgtgagcgcggccggcctgcgccgcctgcgcgccgc gtgcccgcgcctggccctgcgggcagagcacagcgccgccatgctgcccgaccagccccc gcgcccgcgcgcgcccgccgcggccctcggcaagctgctgcagcgctagacgccgccccg ccgctgcccccggggaaggagcgcagccccagaccgtcctggcttcgaacccagctcttc caccttcagaccaccaccgcatattctgagcctcattttccccgtctgcacagtggggat aagaaagcctacctcacgttacgattttatacatag >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_5|365_aa MEYYAAIKNDEFMSCRDMNEAGNHHSQQTIARTKNQTLRVLTHRWELNNENTWTQEGEHH TLGPVVGFLFNPSACLDEHLMQFKFLGILMGVAIRTKKPLDLHLAPLVWKQLCCVPLTLE DLEEVDLLYVQTLNSILHIEDSGITEESFHEMIPLDSFVGQSADGKMVPIIPGGNSIPLT FSNRKEYVERAIEYRLHEMDRQVAAVREGMSWIVPVPLLSLLTAKQLEQMVCGMPEISVE VLKKVVRYREVDEQHQLVQWFWHTLEEFSNEERVLFMRFVSGRSRLPANTADISQRFQIM KVDRPYDSLPTSQTCFFQLRLPPYSSQLVMAERLRYAINNCRSIDMDNYMLSRNVDNAEG SDTDY >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_5|1098_bp atggaatactatgcagccataaaaaatgatgagttcatgtcatgtagggacatgaatgaa gctggaaaccatcattctcagcaaactattgcaaggacaaaaaaccaaacacttcgtgtt ctcactcataggtgggaattgaacaatgagaacacatggacacaggaaggggaacatcac acactggggcctgttgtggggttcctttttaacccttctgcctgcctcgatgaacactta atgcagtttaagtttttaggaattttaatgggggttgccattcgcacaaagaagcctctg gacctccacttggcccctctggtgtggaagcagctgtgctgtgtcccactcaccctagag gacctggaggaggtggatctgctctacgtgcagactctcaacagcattcttcacattgaa gacagtgggattaccgaggagagtttccatgagatgattcctcttgattcttttgttggc cagagtgctgatggcaaaatggttcctataatccctggtggaaatagtatcccactcaca ttttccaacaggaaggaatatgtggagagggccattgaatatcgacttcatgagatggac agacaggtggctgcagtccgagaagggatgtcctggattgttcctgtgccgctgctgtcc ctcctcacagcaaaacaactggagcagatggtgtgtgggatgcccgagatctctgtggaa gtcttgaagaaagtggtgcggtaccgtgaggtggatgagcagcatcagctggtgcagtgg ttctggcacacgctggaagagttctccaatgaggagcgggtgcttttcatgaggtttgtg tcaggaagatctcgactaccagccaacactgctgacatttctcagagatttcaaatcatg aaggttgataggccttacgacagtctgcctacctcacagacctgcttcttccagctgagg ctgcccccgtactccagccagctggtcatggccgagcgcctgcgctatgccatcaacaac tgccgctcaatcgacatggacaactacatgctctcgagaaacgtggacaacgccgagggc tccgacactgactactga >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_6|217_aa MNIDAKILNKILANRIQQHIKKLIHHDQVGFIPGMQGWFNIRKSINIIQHINRTKDKDHM IISIGAEKAFDKIQQRFMLKTLNKLGIDGTYLKIVRAIYDKPTANIILNGQKLEAFPLKT GTREGCPLSPLLFNIVLEVLARAIRQEKEIKGIQLGKEEVKLSLFADDMIVYLENPIISS QNLLKLIGNFSKVSGYKINVQKSQTFLYTNNRQRAKS >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_6|654_bp atgaacattgatgcaaaaatcctcaataaaatactggcaaaccgaatccagcaacacatc aaaaagcttatccaccatgatcaagtgggcttcatccctgggatgcaaggctggttcaac atacgaaaatcaataaacataatccagcatataaacagaaccaaagataaagaccacatg attatctcaataggtgcagaaaaggcctttgacaaaattcaacaacgcttcatgctaaaa actctcaataaattaggtattgatgggacatatctcaaaatagtaagagctatctatgat aaacccacagccaatatcatactgaatgggcaaaaactggaagcattccctttgaaaact ggcacaagagagggatgccctctctcaccactcctattcaacatagtgttggaagttctg gccagggcaatcaggcaggagaaggaaataaagggcattcagttaggaaaagaggaagtc aaattgtccctgtttgcagatgacatgattgtatatctagaaaaccccatcatctcatcc caaaatctccttaagctgataggcaacttcagcaaagtatcaggatacaaaatcaatgtg caaaaatcacaaacattcttatacaccaataacagacagagagccaaatcatga >gi568815583f:63497411_63701683|GENSCAN_predicted_peptide_7|2993_aa XPMHSQLESLSDSWARLKHSRDWLCNSSYSFESDFDLTKSLGVHTLIENVVSFVSGDVGN APGFKEPEESMSTSPQASIIAMEQQQLRAELRLEALHQILVLLSGMEEKGSISLAGSRLS SGFQSSTLLTSVRLQFLAGCFGLGTVGHTGGKGESGRLHHYQDGIRAAKRNIQIEIQVAV HKIYQQLSATLERALQANKHHIEAQQRLLLVTVFALSVHYQPVDVSLAISTGLLNVLSQL CGTDTMLGQPLQLLPKTGVSQLSTALKVASTRLLQILAITTGTYADKLSPKVVQSLLDLL CSQLKNLLSQTGVLHMASFGEGEQEDGEEEEKKVDSSGETEKKDFRGIPLVGNLRTRLLA LHVLEAVLPACESGVEDDQMAQIVERLFSLLSDCMWETPIAQAKHAIQIKEKEQEIKLQK QGELEEEDENLPIQEVSFDPEKAQCCLVENGQILTHGSGGKGYGLASTGVTSGCYQWKFY IVKENRGNEGTCVGVSRWPVHDFNHRTTSDMWLYRAYSGNLYHNGEQTLTLSSFTQGDFI TCVLDMEARTISFGKNGEEPKLAFEDVDAAELYPCVMFYSSNPGEKVKICDMQMRGTPRD LLPGDPICSPVAAVLAEATIQLIRILHRTDRWTYCINKKMMERLHKIKICIKESGQKLKK SRSVQSREENEMREEKESKEEEKGKHTRHGLADLSELQLRTLCIEVWPVLAVIGGVDAGL RVGGRCVHKQTGRHATLLGVVKEGSTSAKVQWDEAEITISDTPLYNLEPCEPLPFDVARF RGLTASVLLDLTYLTGVHEDMGKQSTKRHEKKHRHESEEKGDVEQKPESESALDMRTGLT SDDVKSQSTTSSKSENEIASFSLDPTLPSVESQHQITEGKRKNHEHMSKNHDVAQSEIRA VQLSYLYLGAMKSLSALLGCSKYAELLLIPKVLAENGHNSDCASSPVVHEDVEMRAALQF LMRHMVKRAVMRSPIKRALGLADLERAQAMIYKLVVHGLLEDQFGGKIKQEIDQQAEESD PAQQAQTPVTTSPSASSTTSFMSSSLEDTTTATTPVTDTETVPASESPGVMPLSLLRQMF SSYPTTTVLPTRRAQTPPISSLPTSPSDEVGRRQSLTSPDSQSARPANRTALSDPSSRLS TSPPPPAIAVPLLEMGFSLRQIAKAMEATGARGEADAQNITVLAMWMIEHPGHEDEEEPQ SGSTADSRPGAAVLGSGGKSNDPCYLQSPGDIPSADAAEMEEGFSESPDNLDHTENAASG SGPSARGRSAVTRRHKFDLAARTLLARAAGLYRSVQAHRNQSRREGISLQQDPGALYDFN LDEELEIDLDDEAMEAMFGQDLTSDNDILGMWIPEHVCESEDREEVVVCELCECSVVSFN QHMKRNHPGCGRSANRQGYRSNGSYVDGWFGGECGSGNPYYLLCGTCREKYLAMKTKSKS TSSERYKGQAPDLIGKQDSVYEEDWDMLDVDEDEKLTGEEEFELLAGPLGLNDRRIVPEP VQFPDSDPLGASVAMVTATNSMEETLMQIGCHGSVEKSSSGRITLGEQAAALANPHDRVV ALRRVTAAAQVLLARTMVMRALSLLSVSGSSCSLAAGLESLGLTDIRTLVRLMCLAAAGR AGLSTSPSAMASTSERSRGGHSKANKPISCLAYLSTAVGCLASNAPSAAKLLVQLCTQNL ISAATGVNLTTVDDSIQRKFLPSFLRGIAEENKLVTSPNFVVTQALVALLADKGAKLRPN YDKSEVEKKGLIAQLYAHPSYDPSAVGPLELANALAACCLSSRLSSQHRQWAAQQLVRTL AAHDRDNQTTLQTLADMGGDLRKCSFIKLEAHQNRVMTCVWCNKKGLLATSGNDGTIRVW NVTKKQYSLQQTCVFNRLEGDAEESLGSPSDPSFSPVSWSISGKYLAGALEKMVNIWQVN GGKGLVDIQPHWVSALAWPEEGPATAWSGESPELLLVGRMDGSLGLIEVVDVSTMHRREL EHCYRKDVSVTCIAWFSEDRPFAVGYFDGKLLLGTKEPLEKGGIVLIDAHKDGYRKSSGA KCVYQLRGHITPVRTVAFSSDGLALVSGGLGGLMNIWSLRDGSVLQTVVIGSGAIQTTVW IPEVGVAACSNRSKDVLVVNCTAEWAAANHVLATCRTALKQQGVLGLNMAPCMRAFLERL PMMLQEQYAYEKPHVVCGDQLVHSPYMQCLASLAVGLHLDQLLCNPPVPPHHQNCLPDPA SWNPNEWAWLECFSTTIKAAEALTNGAQFPESFTVPDLEPVPEDELVFLMDNSKWINGMD EQIMSWATSRPEVSKDEDNCMMVLSQCFDSKCLCVCALVSPIQAGTHLDWHLGGKCDVYL WGAGRHGQLAEAGRNVMVPAAAPSFSQAQQVICGQNCTFVIQANGTVLACGEGSYGRLGQ GNSDDLHVLTVISALQGFVVTQLVTSCGSDGHSMALTESGEVFSWGDGDYGKLGHGNSDR QRRPRQIEALQGEEVVQVACGLNHTLAVSADGSMVWAFGDGDYGKLGLGNSTAKSSPQKI DVLCGIGIKKVACGTQFSVALTKDGHVYTFGQDRLIGLPEGRARNHNRPQQIPVLAGVII EDVAVGAEHTLALASNGDVYAWGSNSEGQLGLGHTNHVREPTLVTGLQGKNVRQISAGRC HSAAWTAPPVPPRAPESRMSRAAYALTISGTQWLQRDFTSTLGQKLSSVTGVSVPLQLGL PDTVPPQYGALREVSIHTVRARLRLLYHFSDLMYSSWRLLNLSPNNQVTDWRGKQPGTDW LARQVVKLNASDLRLPSRAWKVKLVGEGADDAGGVFDDTITEMCQELETGIVDLLIPSPN ATAEVGYNRDSSSPATEQSWTENDFDELREEGFRRSNYPELKEEVRTHGKEVKNLEKKLD EWLTRITNAEKSLKDLMELKTVARKLRDECTSLSNRFDQLEERVSVMEDQMNEMKREEKF REKRIKRNEQSLQEIWDYVKRPNLHLIGVPESGRMEPSWKTLCRIVSRRTSPV >gi568815583f:63497411_63701683|GENSCAN_predicted_CDS_7|8982_bp ngtcctatgcacagtcaattggaatccctgagtgactcttgggctcgcctgaaacatagc agagactggttatgcaactcctcctattcctttgagtcagattttgatcttaccaagtct ttgggagttcacactttgattgaaaatgttgtaagctttgtgagtggagatgtggggaat gccccaggttttaaagagccagaggaaagtatgtctacaagtccccaggcctccatcatt gcaatggaacagcagcagttaagggcagaacttcgtttagaggcacttcatcagatcctc gttctattgtctgggatggaagaaaaaggtagcatctcactggcaggaagcagattgagt tcaggcttccagtcctccacactactcacgtctgtgaggctgcagttcctagcagggtgt tttggtttaggcactgttggacacacaggaggcaagggagagagtggccgattgcatcac tatcaggatgggatcagagcagctaagagaaatattcagattgaaatccaggtagctgtg cataaaatttatcaacagttgtctgctaccctggaaagagccctgcaagcaaacaagcat cacattgaagcccagcaacgtctgcttctggttacagtttttgccctaagtgttcattat caaccagtagatgtttctttggcaatttccactggtctgctaaacgtattgtcacagttg tgtggtacagacaccatgctaggacagcccctgcagttgttgccaaagacgggtgtttcc cagcttagcacagctttgaaagtggccagtacaaggttgctccagattctagccatcact actgggacctatgctgataaactgagtcccaaagtagttcaatccttgttggatctactc tgtagtcagttgaagaatttattgtcccaaactggtgtactacatatggcctctttcgga gaaggggagcaagaagacggtgaagaagaagaaaaaaaagttgactccagtggagaaact gagaagaaagatttcagaggtatccctctggttggtaacttaagaacaaggctccttgca cttcatgtccttgaagctgtgctgccagcttgtgaatctggtgtagaagatgatcaaatg gcccagattgttgagcgcttattttcccttctctctgattgtatgtgggagacacccatt gctcaggccaaacatgctattcagataaaggaaaaagaacaagaaataaaactacagaag cagggcgagttggaagaagaagatgagaatcttcctatccaagaagtatcctttgacccg gagaaagctcagtgttgcctagtggagaatggacagattttaactcacggcagtggaggg aaaggatatggattggcatctacaggagtaacttctgggtgctatcagtggaagttttat attgtgaaggaaaacagaggtaatgaaggcacgtgtgttggagtttctcgctggccagta catgactttaatcaccgcactacctcggatatgtggctctatagggcctacagtggtaac ctctatcacaatggagaacagactctcacattgtccagctttactcaaggagatttcatt acctgtgtgttagacatggaagccaggaccatttcttttgggaaaaatggagaggaaccc aaattagcttttgaagatgtggatgcagcagagttgtacccatgtgtgatgttctatagt agcaatccaggggaaaaggtgaaaatttgtgatatgcagatgcgtggcacaccccgagac ttacttccaggagaccctatttgtagtccagtagcagcagtgctggctgaggccactatt cagctcatccgtatccttcaccgaacagaccgttggacttactgcattaacaaaaaaatg atggaaaggcttcacaaaattaagatatgtattaaagagtcaggtcagaagctaaagaaa agccgctcggttcagagccgagaggaaaatgaaatgagagaggagaaggagagcaaagag gaagagaaaggtaaacatactaggcatggcctcgctgacctctcagagctgcagctgagg actctttgcatagaggtgtggcccgtgctggctgtgataggaggagttgatgctggtctt agagttggaggtcggtgtgttcacaagcaaactgggcgccatgccacgctgctgggagtg gtcaaagagggcagcacgtctgccaaggtccaatgggatgaagcagaaattactatcagt gatactccattgtataatctggaaccctgtgaaccattgccgtttgatgtggcgcgattc cgaggcctgacggcttctgtgctgctggacctaacatatctcactggcgttcatgaagac atgggcaaacagagcaccaaacgacatgaaaagaaacaccgacatgaatccgaggagaaa ggggatgttgagcagaaacctgagagtgaatccgctttagatatgcgaacaggcctaaca tctgatgacgtcaaaagtcagagtaccacaagctccaaatcagaaaatgaaatcgcttca ttttctttagatccaacactgccaagtgtggaatcccaacatcaaataacagaagggaaa agaaaaaatcatgaacacatgtccaaaaaccatgatgtagcccagtcagaaatcagagca gtccagctgtcctatctttacctcggtgctatgaagtcacttagtgcccttcttggctgt agtaaatatgctgagctgttgctgataccaaaagttctggctgaaaatggccacaactca gactgtgcaagttctccagttgttcatgaagacgtggagatgcgagcagccctgcagttc ttgatgcgacacatggtgaagcgagcagtcatgcggtcacccataaagagagcattggga ttagctgatctggaacgagcgcaagccatgatctataaattagtggttcatgggcttttg gaagaccagtttgggggcaaaattaagcaagagattgatcaacaagctgaagaaagtgac cctgcccagcaggcacagacaccagttactactagcccatcagcctcaagcacgacctcc tttatgagcagctctctggaggacaccacaactgccaccactccagtcactgacacagaa acagtgcctgcatccgagtccccgggagtgatgcctcttagtcttctcaggcaaatgttc tctagttacccaactaccactgtacttcccacacgtcgggcacagactcctccaatatct tcgttaccaacctctccttctgatgaagtaggaaggaggcaaagtttaacttctcctgat tcccagtcagcaaggccagctaaccgcacagccttgtcagacccaagcagtagactttca acttctcctcctcctccagcaattgcagttcccttgctggaaatggggttctctcttcgg cagattgccaaagccatggaagctacaggtgctaggggagaggctgatgcccagaatatc actgtccttgccatgtggatgatagagcaccctgggcatgaggatgaagaggagccccag tcgggcagcacagcagactctaggcctggagcagccgttctaggcagtggcgggaagtca aatgatccctgttatttgcagtcacctggagacataccatcagctgatgctgctgaaatg gaggaaggttttagtgaaagccctgataatttggatcatacagagaatgcagcttctgga agtggaccatcagctagaggtcgctcagcggtaacaagaagacacaagtttgacttagct gctcgcacactgctagcaagagcagcgggattataccgctctgtgcaggcccacaggaat caaagtcggagagaaggaatatctttgcagcaagacccaggggcgttgtatgactttaat ttagatgaggaattggaaattgatcttgatgatgaggcgatggaagctatgtttggacaa gacctgaccagtgacaatgatattctgggaatgtggatcccagagcatgtttgtgagtct gaagacagggaagaagtggtggtgtgtgaactgtgtgaatgcagcgtcgtcagcttcaat cagcacatgaagagaaaccatccaggctgtgggcgcagtgcaaaccgccagggctatcgc agcaatggttcctatgtggatggctggtttggcggtgaatgtgggagtggaaatccgtac tacctgttatgtggcacctgcagggagaagtacttagccatgaagaccaaatctaagtca acaagttctgaaaggtacaagggacaagctccagatctaattggcaagcaagacagtgtg tatgaagaagactgggacatgttggatgttgatgaagatgaaaagctaactggtgaagaa gaatttgaattacttgctggaccgcttggtttaaatgaccggcgcattgtaccagaacca gttcagttccctgacagcgatccactgggagcatcagtagcaatggtcacagccaccaac agtatggaagagactctgatgcaaataggttgccatggctccgtagaaaagagctcctct gggagaataacgttaggagagcaggcagctgccctagcaaaccctcatgaccgtgtggtg gctttaaggagagtgactgctgctgctcaggttcttctggccagaaccatggtcatgaga gcgctgtctcttctctcagtcagtggttccagttgtagcctggctgctggtcttgagtct ctggggctaacagatatccgaacgctagttcgattaatgtgcttggcagcagcagggaga gctggcctctccaccagcccttctgccatggctagcacctcagaacgatcacgaggtggg catagcaaggctaacaagcctatctcttgcctggcctatttgagcacagcagtgggatgt ctggcatcaaatgctcctagtgctgccaaactgcttgtacagttgtgtacacagaacttg atttctgctgcaacaggtgtaaatctaaccacagttgatgactcaattcagcgaaagttt ctacccagctttctccgaggaattgctgaagagaacaagcttgtgacctccccaaacttt gttgtaacacaggcccttgtggcattgctagcagacaaaggggccaaactaagacctaac tatgataagtcagaagttgaaaagaaaggtttaattgcccaattgtatgcccatccttcc tatgatccttctgctgtaggccctctggagttggctaatgccctggcagcctgctgcctc tcctccaggctgtcctcacagcatcggcaatgggcagctcagcaactcgtgcgcactctt gctgcacacgaccgtgacaaccaaactactctgcagacacttgctgatatgggaggagat cttagaaaatgctcctttatcaaattggaggctcatcagaacagagtaatgacatgtgtt tggtgtaataaaaaaggtcttttggctacaagtggcaatgatggcaccatccgcgtatgg aatgttaccaagaagcaatattcactgcaacagacctgtgtgttcaacagattggaaggg gatgctgaggaaagcctgggatcacccagtgatccaagtttctcaccagtttcctggagt atcagtggcaaatatctagcaggcgctttggaaaagatggtgaatatctggcaagttaat ggaggaaaaggattagtagatattcagcctcattgggtatctgccctggcttggccagaa gagggtccggctacagcctggtcaggagagtctccagaattgttgttggtgggacggatg gatggatctctgggactgattgaagttgttgatgtgtccaccatgcaccgtcgagaattg gagcattgctatcgaaaggatgtgtctgttacttgcattgcatggttcagtgaagacaga ccatttgcagtgggatattttgatggaaaactgttactgggaacaaaggaaccacttgag aaaggaggcattgttctaattgatgcacataaggatggatataggaaatcatcaggagcc aagtgtgtttatcagctgcggggacacatcactcctgttcggactgttgcctttagttct gatgggttggccctggtgtctggtggactaggtgggctcatgaacatttggtctttaagg gatggctctgtcttgcaaactgttgtgataggctctggagctattcagaccacagtatgg attccagaagttggagtagctgcttgctcaaatagatcaaaggatgttttggtcgtgaat tgtacagcagaatgggcagctgccaatcatgttttggcaacctgtaggacagcattgaaa cagcagggtgttctgggattgaacatggctccctgcatgagagcatttttggagcggctc cccatgatgcttcaggagcagtatgcctatgaaaagcctcatgtggtttgtggtgaccaa cttgttcatagcccctatatgcaatgcttggcttcccttgctgtgggacttcatctggat cagctgttgtgtaaccctccagtgccaccacaccaccagaactgtctccctgaccctgca tcctggaatccaaatgaatgggcctggttagaatgtttctcaaccactataaaagctgcc gaagccctgaccaatggagcccagtttccagaatcttttaccgttccagatctagaacct gttccagaggatgaacttgtatttctaatggataacagtaaatggattaacggcatggat gaacaaattatgtcttgggcaacttccagacctgaggtcagtaaagatgaagataactgt atgatggttctcagtcaatgttttgattctaaatgcttgtgtgtttgtgccctggtgtct cccatacaggctggcacacacttggactggcacctgggaggtaaatgtgatgtctactta tggggtgctggtaggcatggacagctggcagaagctggaagaaatgtaatggtacctgca gcagctccctcattctcacaggcccaacaggtcatttgtggtcagaattgtacctttgtc atccaggccaatggcacagtgttggcttgtggggaaggaagttatggcagattaggacaa ggaaattcagatgaccttcatgtgctgacagttatttcagccttacaaggctttgtggtg acccagctggtgacttcctgtggttctgatgggcactctatggccctaactgaaagtggt gaggtctttagctggggagatggtgactatggtaaacttggccatgggaacagcgacagg cagcggcggcccaggcagatcgaggccttacaaggagaagaagtggtgcaggtggcctgt ggattaaaccacactttggcagtgtcagcagatggttccatggtgtgggcttttggagat ggagactatggaaaactaggcttaggaaattccactgcaaaatcttcacctcagaaaatt gacgtcctttgtggaattggaataaaaaaggttgcttgtggaactcagttttctgttgct ttgaccaaagatggtcatgtgtatacctttggtcaagatcgcctgataggcttgccagag gggcgtgctcgcaatcacaatcgaccgcaacaaatccctgtcctggctggagtaatcata gaagatgtggcagttggagctgaacacacacttgctttggcatcaaatggagatgtgtat gcctgggggagcaattcagaagggcagctcggcttaggccataccaaccatgttcgagaa ccaaccctggtaacaggtctgcaagggaaaaatgttcggcagatctcggctggccgctgc cacagtgctgcatggacagcaccacctgtcccaccaagagcaccagaatctagaatgagc agagctgcctacgcactgacaatttcaggtactcagtggcttcagagggatttcacttcc actttagggcagaagctatccagtgtgacaggtgtgtcagtacctctgcagctgggcctg cctgacacagtgcccccccagtatggggcgctgagagaagtcagcattcacacggtgcgg gccaggctccggctgctctaccacttctctgacctcatgtactcatcctggagactgctg aaccttagccccaacaaccaggtaacagactggcgtggtaagcagccaggcacagactgg cttgcgagacaagtagttaagctgaatgcttcagacctccgcctgccttcccgagcgtgg aaggttaagctggttggagaaggggctgatgatgctggaggagtgtttgatgacaccatc acagagatgtgccaggaacttgaaactggtattgttgaccttcttataccctctcccaat gccaccgcagaagtgggttacaatagggacagctcctcaccagcaacggaacaaagctgg acggagaatgactttgacgagttgagagaagaaggcttcagacgatcaaactaccctgag ctaaaggaggaagttcgaacccatggcaaagaagttaaaaaccttgaaaaaaaattagac gaatggctaactagaataaccaatgcagagaagtccttaaaggacctgatggagctgaaa accgtggcacgaaaactacgtgatgaatgcacaagcctcagtaaccgattcgatcaactg gaagaaagggtatcagtgatggaagatcaaatgaatgaaatgaagcgagaagagaagttt agagaaaaaagaataaaaagaaacgaacaaagcctccaagaaatatgggactatgtgaaa agaccaaatctacatctgattggtgtacctgaaagtgggagaatggaaccaagttggaaa acactctgcaggatagtatccaggagaacttccccagtctaa