Result of GENSCAN for
pF1KE5817
GENSCAN 1.0 Date run: 8-Nov-116 Time: 06:53:58 Sequence gi568815584r:50805395_51044403 : 239009 bp : 42.33% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.11 Intr - 1424 1343 82 2 1 96 110 45 0.125 5.79 1.10 Intr - 16683 16480 204 0 0 88 86 264 0.946 24.67 1.09 Intr - 17942 17800 143 0 2 40 -11 221 0.491 6.55 1.08 Intr - 24748 24636 113 0 2 28 53 146 0.557 4.20 1.07 Intr - 25123 25070 54 0 0 114 102 3 0.594 1.48 1.06 Intr - 25745 25612 134 2 2 45 92 157 0.921 10.32 1.05 Intr - 26231 26064 168 2 0 22 100 114 0.796 5.22 1.04 Intr - 32085 32054 32 1 2 102 37 39 0.032 -2.87 1.03 Intr - 51616 51523 94 1 1 68 90 69 0.586 3.72 1.02 Intr - 52775 52704 72 2 0 148 61 47 0.829 6.68 1.01 Init - 56366 56256 111 2 0 81 54 80 0.375 4.16 1.00 Prom - 58764 58725 40 -7.45 2.00 Prom + 61136 61175 40 -8.45 2.01 Init + 66781 66884 104 0 2 77 101 94 0.660 7.82 2.02 Intr + 71051 71120 70 2 1 36 56 94 0.398 -0.73 2.03 Intr + 73305 73453 149 2 2 21 105 83 0.514 1.41 2.04 Intr + 75058 75177 120 1 0 99 82 133 0.990 12.49 2.05 Intr + 76202 76232 31 2 1 95 95 0 0.814 -1.39 2.06 Intr + 80220 80265 46 2 1 101 87 10 0.736 -0.74 2.07 Intr + 80372 80501 130 0 1 87 110 83 0.826 9.23 2.08 Term + 80531 80618 88 2 1 61 43 79 0.629 -3.15 2.09 PlyA + 81493 81498 6 1.05 3.00 Prom + 87909 87948 40 -1.75 3.01 Init + 88307 88364 58 1 1 42 119 15 0.964 1.52 3.02 Intr + 88495 88700 206 2 2 83 19 160 0.987 6.60 3.03 Intr + 96435 96517 83 2 2 59 106 96 0.939 6.02 3.04 Intr + 97995 98073 79 0 1 107 92 53 0.972 6.23 3.05 Intr + 98680 98793 114 0 0 108 56 49 0.507 3.42 3.06 Term + 98945 99046 102 1 0 73 38 66 0.490 -2.60 3.07 PlyA + 99551 99556 6 1.05 4.22 PlyA - 99848 99843 6 1.05 4.21 Term - 100162 99998 165 1 0 80 43 174 0.997 9.03 4.20 Intr - 102943 102877 67 0 1 12 101 90 0.856 0.69 4.19 Intr - 103561 103427 135 0 0 117 109 106 0.999 14.36 4.18 Intr - 104708 104501 208 0 1 79 90 262 0.860 22.71 4.17 Intr - 106477 106336 142 1 1 85 74 108 0.675 8.11 4.16 Intr - 106642 106584 59 2 2 107 106 36 0.990 4.98 4.15 Intr - 106909 106762 148 1 1 47 84 142 0.997 8.59 4.14 Intr - 107736 107635 102 0 0 14 99 192 0.987 12.35 4.13 Intr - 109421 109307 115 1 1 102 78 97 0.999 9.63 4.12 Intr - 110105 109942 164 2 2 43 39 212 0.999 9.65 4.11 Intr - 110577 110431 147 0 0 95 95 210 0.999 21.91 4.10 Intr - 111340 111248 93 1 0 103 47 120 0.985 8.64 4.09 Intr - 115229 115147 83 0 2 76 82 104 0.986 7.04 4.08 Intr - 115673 115562 112 2 1 92 74 98 0.902 7.83 4.07 Intr - 118706 118575 132 2 0 116 5 142 0.473 8.62 4.06 Intr - 126382 126279 104 2 2 48 89 168 0.697 11.87 4.05 Intr - 129791 129713 79 2 1 73 119 116 0.761 11.41 4.04 Intr - 132443 132342 102 2 0 78 88 75 0.371 5.95 4.03 Intr - 139048 138767 282 1 0 66 86 600 0.544 54.29 4.02 Intr - 139520 139313 208 1 1 39 36 160 0.402 4.06 4.01 Init - 145687 145626 62 1 2 50 97 33 0.142 1.17 4.00 Prom - 154095 154056 40 -3.55 5.04 PlyA - 154846 154841 6 1.05 5.03 Term - 156613 156270 344 2 2 62 44 243 0.925 10.99 5.02 Intr - 157607 157469 139 2 1 53 85 80 0.728 3.32 5.01 Init - 160122 160075 48 0 0 81 64 34 0.413 0.51 5.00 Prom - 160324 160285 40 -9.75 6.00 Prom + 162689 162728 40 -2.35 6.01 Init + 167414 167520 107 1 2 70 105 80 0.362 7.64 6.02 Intr + 167766 167814 49 0 1 112 89 9 0.715 1.16 6.03 Intr + 168224 168406 183 1 0 24 82 103 0.611 2.36 6.04 Intr + 168530 168714 185 1 2 91 2 89 0.229 -1.74 6.05 Intr + 170749 170829 81 1 0 57 81 96 0.394 3.63 6.06 Intr + 171677 171860 184 2 1 34 94 85 0.428 2.57 6.07 Term + 172207 172419 213 0 0 58 48 130 0.420 2.25 6.08 PlyA + 173455 173460 6 1.05 7.20 PlyA - 173480 173475 6 1.05 7.19 Term - 173939 173889 51 2 0 37 48 59 0.325 -6.75 7.18 Intr - 174155 173993 163 1 1 99 115 122 0.740 15.06 7.17 Intr - 176709 176406 304 1 1 127 80 369 0.985 34.72 7.16 Intr - 177076 176775 302 0 2 57 30 158 0.148 2.35 7.15 Intr - 187860 187832 29 0 2 99 99 -19 0.008 -3.70 7.14 Intr - 192115 191955 161 2 2 49 22 147 0.030 2.99 7.13 Intr - 192497 192351 147 0 0 72 38 132 0.823 5.89 7.12 Intr - 192794 192656 139 2 1 70 86 129 0.292 10.02 7.11 Intr - 195434 195289 146 0 2 62 60 171 0.348 10.78 7.10 Intr - 203839 203686 154 1 1 33 95 142 0.962 8.12 7.09 Intr - 205100 204990 111 2 0 104 110 80 0.996 11.46 7.08 Intr - 205693 205553 141 1 0 114 19 65 0.660 1.83 7.07 Intr - 217563 217441 123 0 0 58 113 208 0.740 20.16 7.06 Intr - 219966 219871 96 0 0 112 80 143 0.902 15.19 7.05 Intr - 220152 220055 98 1 2 24 0 93 0.067 -7.09 7.04 Intr - 225129 224929 201 1 0 87 51 175 0.183 12.04 7.03 Intr - 226007 225953 55 2 1 34 82 51 0.206 -3.27 7.02 Intr - 233201 233056 146 0 2 47 91 94 0.532 4.68 7.01 Init - 237322 237277 46 1 1 81 83 19 0.370 1.60 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_1|403_aa MPFTAFLWEYTGVGSKRICPHRPYVGTDFNQTCLIALKSDAVRPKHWPGKDSVQTGPLRE TVCAFARRIGEARRGQQCGGCCSHLTKKAGTGDANTAESKTGGGSESLLQPFCLLNTLSN VDGQSTPEGWEITPLKSRLLKAGALPLREDAAARVSAVRSSGWPRPSREPSALGAAVPLP PPSPECASGHGSRGGAGRLSPGTQALEAGCRLCGRSGETDRSLVIETLQRKLHGEIRGVS LGCLSSGELLGARKVEIFGVKGLVLRALLQMAEVTVPRVYVVFGIHCIMAKASSDVQVSG FHRKIQHVSTVGYGMDEVEQDQHEARLKELFDSFDTTGTGSLGQEELTDLCHMLSLEEVA PVLQQTLLQDNLLGRVHFDQFKEALILILSRTLSNEEHFQEPX >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_1|1209_bp atgcccttcacagctttcctttgggagtacactggggttggatctaaaagaatctgcccc cataggccctatgtgggcactgactttaaccagacttgtttgattgctttgaaatctgat gctgtcaggcccaagcattggccaggaaaggactcagtacagacaggaccactcagagaa acagtctgtgcctttgcaagaaggattggtgaggccaggcgaggacagcagtgtggaggc tgttgtagtcacctaacgaagaaggcaggcactggagatgccaatacagctgagtcaaaa acgggtgggggttccgagtcacttctacagcccttctgcctcctgaacaccctttccaat gttgatggccaatcgacacccgagggctgggaaatcacccccttaaagtcccgcttgctg aaggcgggggcccttcctctgcgcgaagacgctgcggcccgagtgtccgcggtgcggagc tccgggtggccgcggccgagccgggagccgagcgcgctgggcgcggccgtcccgctgccg ccgccaagcccggagtgcgccagcggccatggttcccgcggcggcgccgggcgcctgagc cccgggacgcaagcgctggaggcgggctgccggctgtgcgggcgctccggagagaccgac agaagccttgtgattgagacgctgcagaggaaactgcatggggaaatccgaggtgttagc ctgggctgtctgagtagcggagagctgcttggagcccggaaagtggagatttttggagtc aaaggactggttctgagagccttgttgcagatggctgaggtcaccgtcccaagggtgtat gtcgtgtttggcatccattgcatcatggcgaaggcatcttcagatgtgcaggtttcaggc tttcatcggaaaatccagcacgtgagcactgtgggctatgggatggatgaggtggagcag gaccagcatgaggcccgactcaaggagctgtttgacagttttgacacgacgggcacaggg tccctggggcaggaggaactcaccgacctttgccacatgttgagcttggaggaggtggcc ccagtgctgcagcagacattacttcaggacaacctcttgggcagggtacattttgaccaa tttaaagaagcattaatactcatcttgtccagaactctgtcaaatgaagaacactttcaa gaaccagnn >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_2|245_aa MDAQDCQAAASPEPPGPPARSCVAAWWDMVDRNLRGLLRIQEQEGGKKKGRDPAERAKAW NLILEVDNDFYFPVKAPFLVDLKKPELKIPHTVNFYLRVEPGVMLGIWHTVPSCRGEDAK GKDCCWYEAALRDGNPIIVYLHGSAEHRAASHRLKLVKVLSDGGFHVLSVDYRGFGDSTG KPTEEGLTTDAICVYEWTKARSGITPVCLWGHSLGTGQVLEALVSYQRQQPVVEGAPSQK TGTLC >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_2|738_bp atggacgcgcaggactgccaggcggccgcatcgcccgagccgcccgggcccccagcccgt agctgcgtggccgcctggtgggacatggtcgaccgcaacctgcgagggctcctgagaata caggagcaggaaggaggaaagaagaaaggacgggaccctgctgagagggctaaggcatgg aatttgattcttgaagttgataatgatttttactttccagtcaaagccccatttcttgtg gatttaaagaaaccagagttaaagattcctcacacagtgaacttctacctgagagttgaa cctggggtgatgctagggatctggcacacagtccccagctgccggggggaagatgccaag gggaaggactgttgctggtatgaagcagcccttcgtgatgggaacccaattattgtttat cttcatggcagtgcagaacacagggcagcttcgcacagactgaagctggtaaaggtgctg agtgatggtggctttcatgtcttgtctgttgactacagaggatttggggactctacaggt aagcccacagaggagggactgactacggatgccatttgtgtctatgagtggaccaaggca agaagtggcatcactcccgtgtgtctctggggccactctctgggtacagggcaggtcctt gaggctttagtgtcctatcaaaggcagcagccagtagtggagggagcaccgagccagaag acagggactctttgctga >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_3|213_aa MTLGPQTDQPKKHLTNFKSETKETRFIRGPKTPALATDWEGSLPLVFNHCRDTSLIIHSR FKGVRPRRDACLGPSPLAASPAFLGKGQIYRNIPGFLRTLMDALRKDKIIFPNDENVKFL SSPLLILHGEDDRTVPLEYGKKLYEIARNAYRNKERVKMVIFPPGFQHNLLCKSPTLLIT RFPEQAVVMSLGGVEIFNEDLAQTPPVMYIVLM >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_3|642_bp atgaccttaggtcctcagaccgaccagcccaagaaacatctcaccaatttcaaatccgag acaaaggagacacgttttatccgtggacccaaaactccggcgctggccacagactgggaa ggcagccttcccttggtgtttaatcattgcagggacacctctctgattattcactcacgt ttcaagggtgtcagaccacgcagggacgcctgccttggtccttcacccttagcggcaagt cccgcttttctggggaaggggcaaatttaccggaacattccaggatttttacgtacactt atggatgccctgagaaaagacaaaataatctttcctaatgatgaaaatgttaaattcctt tcttctcctcttctcatcttacatggagaggatgacaggacagtgcctttggagtatggg aaaaagctctatgaaattgcacgcaatgcatacaggaacaaagagagggtcaagatggtt atctttcctcctggcttccaacacaacctgctttgtaaaagccccacactgttaataacc agatttcctgagcaagcagtggtcatgagtctgggaggagtggaaatcttcaatgaagac ttggcccaaacaccacctgtgatgtatattgttctaatgtaa >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_4|902_aa MTGPESVRNIRLFQDKPNILRSRRLWRKPLQVRNPNSHNGITNKHRQNSSLPTTCFPTQT SSCLHTLEGRGGTNAASADFGNPEGSLRAQLSAQPAAQPAAPAMAKPLTDQEKRRQISIR GIVGVENVAELKKSFNRHLHFTLVKDRNVATTRDYYFALAHTVRDHLVGRWIRTQQHYYD KCPKRVYYLSLEFYMGRTLQNTMINLGLQNACDEAIYQLGLDIEELEEIEEDAGLGNGGL GRLAACFLDSMATLGLAAYGYGIRYEYGIFNQKIRDGWQVEEADDWLRYGNPWEKSRPEF MLPVHFYGKVEHTNTGTKWIDTQVVLALPYDTPVPGYMNNTVNTMRLWSARAPNDFNLRD FNVGDYIQAVLDRNLAENISRVLYPNDNVAIQLNDTHPALAIPELMRIFVDIEKLPWSKA WELTQKTFAYTNHTVLPEALERWPVDLVEKLLPRHLEIIYEINQKHLDRIVALFPKDVDR LRRMSLIEEEGSKRINMAHLCIVGSHAVNGVAKIHSDIVKTKVFKDFSELEPDKFQNKTN GITPRRWLLLCNPGLAELIAEKIGEDYVKDLSQLTKLHSFLGDDVFLRELAKVKQENKLK FSQFLETEYKVKINPSSMFDVQVKRIHEYKRQLLNCLHVITMYNRIKKDPKKLFVPRTVI IGGKAAPGYHMAKMIIKLITSVADVVNNDPMVGSKLKVIFLENYRVSLAEKVIPATDLSE QISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENLFIFGMRIDDVAALDKK GYEAKEYYEALPELKLVIDQIDNGFFSPKQPDLFKDIINMLFYHDRFKVFADYEAYVKCQ DKVSQLYMNPKAWNTMVLKNIAASGKFSSDRTIKEYAQNIWNVEPSDLKISLSNESNKVN GN >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_4|2709_bp atgacaggacctgaaagtgtcaggaacatccgcttgtttcaagacaagccaaatatactc agatcccggcgcttatggcggaagccactccaggtgagaaatcctaacagtcataatggc ataacaaataaacatcggcaaaacagcagtctgccaacgacgtgcttccctacacagacg tcctcctgtctccacactctagaggggagaggcggaacaaatgctgcctccgcagatttt ggaaatccggaagggagcctccgagcccagctctctgcgcagcccgccgcgcagcccgcc gccccagccatggcgaagcccctgacggaccaggagaagcggcggcagatcagcatccgc ggcatcgtgggcgtggagaacgtggcagagctgaagaagagtttcaaccggcacctgcac ttcacgctggtcaaggaccgcaacgtggccaccacccgcgactactacttcgcgctggcg cacacggtgcgcgaccacctggtggggcgctggatccgcacgcagcagcactactacgac aagtgccccaagagggtatattacctctctctggaattttacatgggccgaacattacag aacaccatgatcaacctcggtctgcaaaatgcctgtgatgaggccatttaccagcttgga ttggatatagaagagttagaagaaattgaagaagatgctggacttggcaatggtggtctt gggagacttgctgcctgcttcttggattccatggcaaccctgggacttgcagcctatgga tacggcattcggtatgaatatgggattttcaatcagaagatccgagatggatggcaggta gaagaagcagatgattggctcagatatggaaacccttgggagaagtcccgcccagaattc atgctgcctgtgcacttctatggaaaagtagaacacaccaacaccgggaccaagtggatt gacactcaagtggtcctggctctgccatatgacacccccgtgcccggctacatgaataac actgtcaacaccatgcgcctctggtctgctcgggcaccaaatgactttaacctcagagac tttaatgttggagactacattcaggctgtgctggaccgaaacctggccgagaacatctcc cgggtcctctatcccaatgacaatgtggccatccagctgaatgacactcaccctgcactc gcgatccctgagctgatgaggatttttgtggatattgaaaaactgccctggtccaaggca tgggagctcacccagaagaccttcgcctacaccaaccacacagtgctcccggaagccctg gagcgctggcccgtggacctggtggagaagctgctccctcgacatttggaaatcatttat gagataaatcagaagcatttagatagaattgtggccttgtttcctaaagatgtggaccgt ctgagaaggatgtctctgatagaagaggaaggaagcaaaaggatcaacatggcccatctc tgcattgtcggttcccatgctgtgaatggcgtggctaaaatccactcagacatcgtgaag actaaagtattcaaggacttcagtgagctagaacctgacaagtttcagaataaaaccaat gggatcactccaaggcgctggctcctactctgcaacccaggacttgcagagctcatagca gagaaaattggagaagactatgtgaaagacctgagccagctgacgaagctccacagcttc ctgggtgatgatgtcttcctccgggaactcgccaaggtgaagcaggagaataagctgaag ttttctcagttcctggagacggagtacaaagtgaagatcaacccatcctccatgtttgat gtccaggtgaagaggatacatgagtacaagcgacagctcttgaactgtctgcatgtgatc acgatgtacaaccgcattaagaaagaccctaagaagttattcgtgccaaggacagttatc attggtggtaaagctgccccaggatatcacatggccaaaatgatcataaagctgatcact tcagtggcagatgtggtgaacaatgaccctatggttggaagcaagttgaaagtcatcttc ttggagaactacagagtatctcttgctgaaaaagtcattccagccacagatctgtcagag cagatttccactgcaggcaccgaagcctcggggacaggcaatatgaagttcatgctaaat ggggccctaactatcgggaccatggatggggccaatgtggaaatggcagaagaagctggg gaagagaacctgttcatctttggcatgaggatagatgatgtggctgctttggacaagaaa gggtacgaggcaaaagaatactatgaggcacttccagagctgaagctggtcattgatcaa attgacaatggctttttttctcccaagcagcctgacctcttcaaagatatcatcaacatg ctattttatcatgacaggtttaaagtctttgcagactacgaagcctatgtcaagtgtcaa gataaagtgagtcagctgtacatgaatccaaaggcctggaacacaatggtactcaaaaac atagctgcctcggggaaattctccagtgaccgaacaattaaagaatatgcccaaaacatc tggaacgtggaaccttcagatctaaagatttctctatccaatgaatctaacaaagtcaat ggaaattga >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_5|176_aa MGQLRKMGTRAALGIKEYSIRSVESFRYCSLPHASRAILSSISFLFPQLNLPVFNVQAIA DQVPKKHLDQCQHKGDWTAKQNCVQREFVEINRLHPLGQRSMVTWEGEKRELGSLQYQQP AQKCRPAQNNTQAAMRISVAAKRAPCLLFSYPVKTVPLRDTMAGGSGYTVPAASEG >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_5|531_bp atggggcagctcagaaagatgggaacgagggcagctctggggatcaaggaatacagtatc cgaagtgtggaaagcttccgatactgcagcttaccccatgcctccagagccatcctcagc tcaatctcttttctgtttcctcaattaaatctcccagtcttcaatgttcaggccattgct gatcaagtgcctaaaaagcatttagatcaatgtcagcataaaggagactggactgcaaaa cagaactgtgtgcaaagggaatttgttgaaataaacaggctgcaccctctgggacagaga agcatggtcacctgggaaggagagaaaagggagcttgggtcactccagtatcagcagcca gctcagaaatgtagacctgcacaaaataatacccaggcagctatgagaatatctgttgca gccaagagggcaccctgccttctcttttcatatccagtgaagactgtccctctccgtgac accatggctggaggaagtggatacaccgtgcctgctgcatctgagggctga >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_6|333_aa MGPTEEEEKSNMVVEMMAPAAHLEPLLQRLWLQGARVEQSCGQAWALSETPQPDVDTTSC RKELPTLGLLSAGVCTDIKVTCLWRELPTSGLLRAVLSLNEAPLCLAHPPVVQVMRRREE LWPFWEPIPRGSWSQGCDTLFGALWFLVSPSFRVPPHTLQPDACSCSGSCVQYIWRGIIA ASANKNADIISTKKGSVMSGSRIVGHGSGSRHDSGGEVEREKGRAVGVKTAEDQLFSPPS PTPANSAPHHGWLSSLLWLSQAEDSGEIVFLITEDTGLGFQIEEPTGHTTVTTAKSMDRG QIRRDSTSLITCPLVIVIRANISFWGRIDDCQL >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_6|1002_bp atgggaccaacagaggaggaagaaaaaagtaacatggtagtggaaatgatggcaccagcg gcccatctggagccactgctgcaaagactctggctgcagggggcaagggtggagcaaagt tgtggtcaagcctgggcgctgtcggaaaccccccagccagacgtcgacactaccagctgc aggaaggagttacccactctgggtctcctctctgctggggtctgcacagacatcaaggtg acctgtctgtggagggagctacccacttcaggtctcctgagagctgttctgtcactcaat gaagctcctctctgccttgctcaccctccagttgtgcaggtgatgagaaggagagaagag ctgtggcccttctgggagcccatacctaggggctcctggagccagggctgtgacaccctc tttggggctctgtggttcctggtatctccaagcttccgggtgccaccacatacccttcag ccagatgcatgttcctgtagtggaagctgtgtgcagtacatctggcgtggtatcatagca gcatcagcaaataagaatgctgacatcatttctaccaagaagggctctgtgatgagtggc agcagaattgttggacatggaagcggaagcaggcatgacagcggaggagaggttgaaagg gaaaagggcagagctgtgggtgtaaagactgcagaggaccagcttttctctcctccttct cccactcctgccaactctgcaccccaccacggctggctgagctccttgctgtggctctcg caggcggaggattccggggagattgtgttccttataactgaagacacaggccttggtttt cagatagaggagcctactggccacaccacagtgaccactgccaaatccatggatagagga cagattcgcagagacagcacttcccttattacttgtccactagttattgtaattagggca aacatttctttctggggtcgcatagatgattgccagttgtga >gi568815584r:50805395_51044403|GENSCAN_predicted_peptide_7|870_aa MTLEGCSSPKEEDVQLGQILYILCGRFAFPLRLSSLQLKRRPGDAYSEQVYKISGEAIRP PPKVVFNGTTSNSFGSLEFSQTGPATLLQIIACSLRQPFAGLRDKLASADQLVLEDSCPS DYSELGLGYIQDLPAPEKPEKGSILAGTKGETTQEHREFRHQNLPVQMPAKRSNLRQEES EESQLSQALNGLSDRAKEAKEFLVQLRNMVQQIQENSVEFEACLVAQCDALIDALNRRKA QLLARVNKEHEHKLKLFISSLPLPSSTLAFQVPHHPRKEKDAEQLTVGLWGGAGRERNWV QMVVRDQISHCTVKLRQTTGLMEYCLEVIKENDPSGFLQISDALIRRVHLTEDQWGKGTL TPRMTTDFDLSLDNSPLLQSIHQLDFVQVKVPATPILQLEECCTHNNSATLSWKQPPLST VPADGYILELDDGNGGQFREVYVGKETMCTVDGLHFNSTYNARVKAFNKTGVSPYSKTLV LQTSEESLWYVDVIKPKIPHRQFQWLGPAASFDNNLNKLQLKKLKNEGLNVPLVYCLRFI PKAEAVSTRIETSCGHQTGRDQQLRITRHFHLCQSLQSWLGYREPPYKKFPPAPSHPRGY TGILAHPLSLYVSGALFCQSPGEGTCTFQNRCHFTPGSPGWECSLSQVTPAESVVCPPSA SGAESTNSQDVPLSALALDASFLHGSMKTLHNAPHPPRMAWFAFDPGSAHSDIILSNDNL TVTCSSYDDRVVLGKTGFSKGIHYWELTVDRYDNHPDPAFGVARMDVMKDVMLGKDDKAW AMYVDNNRSWFMHNNSHTNRTEGGITKGATIGVLLDLNRKNLTFFINDEQQGPIAFDNVE GLFFPAVSLNRNVQAAQGRSIQPKRGKLTA >gi568815584r:50805395_51044403|GENSCAN_predicted_CDS_7|2613_bp atgaccttagagggatgctcttcccccaaggaagaagatgttcaactgggccagattctt tatattctttgtggtcgttttgcctttcctctaaggctttcctctctccaacttaaaagg agaccaggagatgcatattctgagcaggtttacaaaatatcaggtgaagcaatccgacca ccgccaaaggtggtattcaatggaacaacatcgaattcttttggcagccttgaattttct cagacaggcccagctactcttttgcaaatcatagcctgttcactgcgccagccctttgct gggcttagagataaattggcatctgcagaccagctggtcttggaggattcctgtccatct gactatagtgaactggggttggggtatatccaggatcttccagcaccagagaaaccggag aagggatccattcttgcaggcactaaaggagaaactactcaggagcacagggagtttcga caccagaatctacctgtacaaatgccagcaaaaaggtccaacctcagacaagaggaatct gaggagagccagctctcccaggcgctgaacggactgtcagacagggccaaagaagccaag gagtttctggtacagctgcgcaacatggtccagcagatccaggagaacagtgtggagttt gaagcctgtctggtggcccaatgtgatgccctcatcgatgccctcaacagaagaaaagcc cagctgctggcccgcgtcaacaaggagcatgagcacaagctgaagcttttcattagctca ttacctctcccaagctccaccttggccttccaggtcccccaccatccacgcaaggaaaaa gatgcagaacaattgaccgtggggctgtggggaggggcaggaagggaaaggaactgggtt cagatggtggttcgagatcagatctctcactgcacagtgaaattgcgccagaccacaggt ctcatggagtactgcttggaggtgattaaggaaaatgatcctagtggttttttgcagatt tctgacgccctcataagaagagtgcacctgactgaggatcagtggggtaaaggcacactc actccaaggatgaccacggactttgacttgagtctggacaacagccctctgctgcaatcc atccaccagctggatttcgtgcaagtgaaagtcccagcaacccctatcctacagctggag gaatgttgtacccacaacaacagcgctacgttgtcctggaaacagccacctctgtccacg gtgcccgccgatggatacattctggagctggatgatggcaacggtggtcaattccgggag gtgtatgtggggaaggagacaatgtgcactgtggatggtcttcacttcaacagcacatac aacgctcgggtcaaggccttcaacaaaacaggagtcagcccgtacagcaagaccctggtc ctccaaacgtctgaggagagcctatggtatgtggatgtgatcaaaccaaagattccacat cggcagttccaatggcttgggccggcggcttcctttgataacaatctaaataagctgcag ttgaagaagctgaaaaatgaaggcctgaatgtgcccctggtgtactgcctccgtttcata cccaaagcggaggccgtcagcaccaggattgagacttcctgtgggcaccaaacaggaaga gaccagcaacttcgcattacccgccattttcatctttgccagtcccttcagtcttggcta ggctaccgagagccaccatacaagaaatttcctccagctccctcccatcccaggggttac acaggcatcttagcgcatcccctctccctttatgtctctggtgcactgttctgccagtca ccaggtgaagggacttgcaccttccaaaatcgatgccacttcactcccggatcacctggt tgggagtgcagtctgagccaggtaacccctgctgaatcggtcgtgtgtcctccgtctgct tctggtgcagagagtaccaactcccaggacgtgcccctgtctgccctggccctggacgcc tccttcctgcatggcagcatgaaaacgctacacaacgctcctcacccgcccaggatggcc tggtttgctttcgaccctggctcggcgcactcggacatcatcctctccaatgacaacctg acagtgacctgtagtagctatgatgaccgggtggtgctagggaagactggcttctccaag ggcatccactactgggagctcacggtagatcgctatgacaaccaccctgatcctgccttt ggtgtggctcgcatggacgtgatgaaggatgtgatgttaggaaaagacgacaaagcttgg gcaatgtatgtggacaataaccggagctggttcatgcacaacaactcgcacaccaacaga actgagggagggatcacaaaaggggccacaattggggtcctcctcgacttaaatagaaaa aacttgacattttttatcaacgatgaacaacaaggtcccatagcatttgataacgtggag ggcctcttcttccctgcggtcagcctgaacaggaacgtgcaggctgcccagggccgttca atccaaccgaagagagggaagctgacagcgtaa