Result of GENSCAN for
pF1KB0989
GENSCAN 1.0 Date run: 5-Nov-116 Time: 21:28:06 Sequence gi568815590r:41546452_41747355 : 200904 bp : 48.91% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.00 Prom + 9796 9835 40 -1.56 1.01 Init + 12888 12991 104 2 2 72 56 63 0.447 1.21 1.02 Intr + 21052 21175 124 1 1 57 78 141 0.885 10.59 1.03 Intr + 21263 21359 97 1 1 92 37 45 0.338 -0.62 1.04 Intr + 31564 31690 127 2 1 103 52 30 0.111 0.64 1.05 Intr + 50297 50427 131 2 2 77 65 60 0.003 2.94 1.06 Intr + 51841 51879 39 2 0 119 43 71 0.003 3.90 1.07 Intr + 52654 52853 200 2 2 45 115 115 0.003 8.97 1.08 Intr + 62965 63034 70 0 1 94 107 102 0.949 11.45 1.09 Intr + 63204 63504 301 1 1 89 94 362 0.677 32.69 1.10 Intr + 64285 64359 75 1 0 131 105 2 0.964 4.83 1.11 Intr + 65452 65541 90 1 0 88 94 112 0.999 10.91 1.12 Intr + 65729 65822 94 2 1 24 95 107 0.998 4.97 1.13 Intr + 66394 66509 116 0 2 74 80 107 0.995 7.75 1.14 Intr + 67935 67990 56 0 2 75 116 36 0.997 3.72 1.15 Intr + 68512 68597 86 2 2 61 70 66 0.771 1.64 1.16 Intr + 72233 72361 129 1 0 69 105 190 0.974 19.69 1.17 Intr + 72447 72526 80 2 2 94 103 76 0.999 8.05 1.18 Term + 74442 74550 109 0 1 89 52 213 0.986 15.78 1.19 PlyA + 75441 75446 6 1.05 2.04 PlyA - 78542 78537 6 1.05 2.03 Term - 81591 81560 32 1 2 64 50 95 0.401 1.32 2.02 Intr - 85734 85652 83 2 2 76 96 26 0.214 1.48 2.01 Init - 87027 86939 89 0 2 70 94 29 0.127 0.47 2.00 Prom - 88377 88338 40 -3.26 3.04 PlyA - 90142 90137 6 1.05 3.03 Term - 100243 99998 246 1 0 131 48 504 0.992 46.49 3.02 Intr - 101784 101615 170 1 2 94 115 244 0.939 27.37 3.01 Init - 104041 103660 382 1 1 88 79 443 0.985 40.43 3.00 Prom - 106163 106124 40 -6.56 4.16 PlyA - 106796 106791 6 1.05 4.15 Term - 107141 107014 128 0 2 124 50 46 0.632 2.84 4.14 Intr - 107967 107914 54 1 0 79 97 56 0.477 4.55 4.13 Intr - 109117 109000 118 1 1 53 2 62 0.452 -5.86 4.12 Intr - 109302 109181 122 1 2 129 56 69 0.830 8.01 4.11 Intr - 115113 114979 135 1 0 127 82 25 0.247 6.34 4.10 Intr - 115490 115394 97 2 1 136 55 192 0.220 20.28 4.09 Intr - 117291 117208 84 0 0 78 98 129 0.999 12.92 4.08 Intr - 118551 118354 198 0 0 6 86 323 0.442 23.45 4.07 Intr - 118927 118857 71 2 2 91 83 17 0.259 0.40 4.06 Intr - 120348 120229 120 1 0 52 55 91 0.519 2.67 4.05 Intr - 121477 121372 106 1 1 79 63 43 0.699 0.69 4.04 Intr - 122113 121816 298 0 1 75 94 297 0.961 25.88 4.03 Intr - 126461 125903 559 0 1 75 110 456 0.569 38.39 4.02 Intr - 128386 128274 113 0 2 101 32 34 0.421 -0.88 4.01 Init - 129781 129564 218 1 2 64 99 56 0.438 2.46 4.00 Prom - 130584 130545 40 -4.06 5.40 PlyA - 130698 130693 6 1.05 5.39 Term - 137995 137796 200 2 2 54 54 152 0.905 5.96 5.38 Intr - 138239 138093 147 0 0 105 101 181 0.995 21.31 5.37 Intr - 139832 139701 132 0 0 85 24 221 0.997 16.02 5.36 Intr - 141779 141705 75 0 0 118 109 23 0.992 6.89 5.35 Intr - 142138 142060 79 1 1 106 96 57 0.922 7.42 5.34 Intr - 143895 143776 120 0 0 13 105 157 0.997 10.59 5.33 Intr - 144148 144023 126 1 0 138 50 156 0.998 17.68 5.32 Intr - 146425 146197 229 0 1 57 77 383 0.784 31.97 5.31 Intr - 146750 146654 97 0 1 97 94 145 0.999 15.07 5.30 Intr - 147651 147447 205 0 1 106 77 222 0.993 21.67 5.29 Intr - 148352 148141 212 0 2 41 61 396 0.997 30.83 5.28 Intr - 148880 148726 155 1 2 74 97 299 0.992 29.12 5.27 Intr - 150136 149912 225 0 0 64 83 275 0.999 21.70 5.26 Intr - 150322 150225 98 1 2 66 96 170 0.988 14.41 5.25 Intr - 151670 151592 79 1 1 81 94 28 0.867 2.25 5.24 Intr - 153097 153001 97 2 1 103 39 142 0.840 9.87 5.23 Intr - 155171 155099 73 2 1 87 92 112 0.999 10.48 5.22 Intr - 155693 155601 93 2 0 115 68 155 0.999 16.36 5.21 Intr - 157688 157590 99 2 0 90 109 69 0.981 9.51 5.20 Intr - 158021 157923 99 2 0 107 87 148 0.975 16.91 5.19 Intr - 159790 159692 99 1 0 78 90 94 0.995 8.91 5.18 Intr - 162524 162327 198 2 0 96 102 289 0.999 30.65 5.17 Intr - 167803 167705 99 1 0 122 82 181 0.999 21.21 5.16 Intr - 168623 168525 99 2 0 81 87 188 0.983 18.31 5.15 Intr - 169398 169201 198 0 0 61 87 231 0.999 19.85 5.14 Intr - 170600 170502 99 2 0 74 113 93 0.999 10.71 5.13 Intr - 171251 171153 99 2 0 82 91 127 0.981 12.71 5.12 Intr - 171753 171655 99 0 0 69 75 193 0.943 16.41 5.11 Intr - 173407 173210 198 1 0 86 105 178 0.906 18.85 5.10 Intr - 176772 176674 99 0 0 83 93 106 0.999 10.91 5.09 Intr - 177182 177084 99 2 0 126 98 149 0.999 20.01 5.08 Intr - 178103 178005 99 2 0 88 91 174 0.993 18.01 5.07 Intr - 179495 179310 186 2 0 54 100 433 0.946 40.99 5.06 Intr - 180897 180799 99 0 0 121 100 88 0.977 13.61 5.05 Intr - 181555 181457 99 1 0 80 95 183 0.981 18.51 5.04 Intr - 185379 185299 81 0 0 44 62 81 0.542 0.93 5.03 Intr - 187618 187520 99 1 0 111 95 53 0.958 8.61 5.02 Intr - 197147 197070 78 2 0 100 31 63 0.339 1.55 5.01 Intr - 200286 200191 96 0 0 107 105 22 0.837 6.01 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 46785 46591 195 1 0 97 106 53 0.963 7.39 S.002 Init - 50149 50050 100 1 1 69 91 79 0.983 6.72 S.003 Init + 52689 52853 165 2 0 74 115 134 0.875 13.99 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590r:41546452_41747355|GENSCAN_predicted_peptide_1|675_aa MSHCTWPKQETLKKIKQWTAQSKDLDIHPPTDERLGFLRGTVSAGGDKRAVQMRTPWMPG APSNKSPVLECRVPAESVLSGLSGTVIKGKTTAGCRVRRPAHQNEARLLPPSPPEGDSAG RPTRDRSTRHPPLPRPPPCRPARARRERAGRQGTKKCNRTSRGQEHLRHQVVEGKGFIQL GASVDSRLQKPSSPTLAACKQLFAKNPGRQVLAWPGSSTMFLLLPFDSLIVNLLGISLTV LFTLLLVFIIVPAIFGVSFGIRKLYMKSLLKIFAWATLRMERGAKEKNHQLYKPYTNGII AKDPTSLEEEIKEIRRSGSSKALDNTPEFELSDIFYFCRKGMETIMDDEVTKRFSAEELE SWNLLSRTNYNFQYISLRLTVLWGLGVLIRYCFLLPLRIALAFTGISLLVVGTTVVGYLP NGRFKEFMSKHVHLMCYRICVRALTAIITYHDRENRPRNGGICVANHTSPIDVIILASDG YYAMVGQVHGGLMGVIQRAMVKACPHVWFERSEVKDRHLVAKRLTEHVQDKSKLPILIFP EGTCINNTSVMMFKKGSFEIGATVYPVAIKYDPQFGDAFWNSSKYGMVTYLLRMMTSWAI VCSVWYLPPMTREADEDAVQFANRVKSAIARQGGLVDLLWDGGLKREKVKDTFKEEQQKL YSKMIVGNHKDRSRS >gi568815590r:41546452_41747355|GENSCAN_predicted_CDS_1|2028_bp atgagccactgcacgtggccgaagcaagagactctgaagaagataaaacagtggacagcc cagtcaaaagatttagacatccatccccccaccgacgagagactgggcttcctgcggggc accgtgagcgcaggtggggacaagcgggccgtgcagatgcgcaccccctggatgcctggg gctccttccaacaagagccctgtgttggaatgccgggtccccgccgagagcgtgctcagc ggcctttcggggacagtaatcaaaggcaaaactacagctgggtgccgggttcgccgtcct gctcatcagaatgaagccaggctcttgccccctagtccgccagagggcgactccgcgggt cgcccaacccgcgaccggtccacgcggcacccgcctctccctaggcccccgccctgccgg cccgcgcgcgcccgacgggagcgtgcggggcgtcagggaaccaagaaatgcaacaggact agccgcggacaagaacacctcagacaccaagttgtagaaggaaagggctttattcagctg ggagcatcagtggactcacgtcttcaaaaaccgagctccccgactttggcagcatgtaag cagctgtttgccaagaacccagggaggcaggtgctggcctggcctggatcttccaccatg ttcctgttgctgccttttgatagcctgattgtcaaccttctgggcatctccctgactgtc ctcttcaccctccttctcgttttcatcatagtgccagccatttttggagtctcctttggt atccgcaaactctacatgaaaagtctgttaaaaatctttgcgtgggctaccttgagaatg gagcgaggagccaaggagaagaaccaccagctttacaagccctacaccaacggaatcatt gcaaaggatcccacttcactagaagaagagatcaaagagattcgtcgaagtggtagtagt aaggctctggacaacactccagagttcgagctctctgacattttctacttttgccggaaa ggaatggagaccattatggatgatgaggtgacaaagagattctcagcagaagaactggag tcctggaacctgctgagcagaaccaattataacttccagtacatcagccttcggctcacg gtcctgtgggggttaggagtgctgattcggtactgctttctgctgccgctcaggatagca ctggctttcacagggattagccttctggtggtgggcacaactgtggtgggatacttgcca aatgggaggtttaaggagttcatgagtaaacatgttcacttaatgtgttaccggatctgc gtgcgagcgctgacagccatcatcacctaccatgacagggaaaacagaccaagaaatggt ggcatctgtgtggccaatcatacctcaccgatcgatgtgatcatcttggccagcgatggc tattatgccatggtgggtcaagtgcacgggggactcatgggtgtgattcagagagccatg gtgaaggcctgcccacacgtctggtttgagcgctcggaagtgaaggatcgccacctggtg gctaagagactgactgaacatgtgcaagataaaagcaagctgcctatcctcatcttccca gaaggaacctgcatcaataatacatcggtgatgatgttcaaaaagggaagttttgaaatt ggagccacagtttaccctgttgctatcaagtatgaccctcaatttggcgatgccttctgg aacagcagcaaatacgggatggtgacgtacctgctgcgaatgatgaccagctgggccatt gtctgcagcgtgtggtacctgcctcccatgactagagaggcagatgaagatgctgtccag tttgcgaatagggtgaaatctgccattgccaggcagggaggacttgtggacctgctgtgg gatgggggcctgaagagggagaaggtgaaggacacgttcaaggaggagcagcagaagctg tacagcaagatgatcgtggggaaccacaaggacaggagccgctcctga >gi568815590r:41546452_41747355|GENSCAN_predicted_peptide_2|67_aa MALPESWCFCSVEACCIWLLVAWPGLPPTSYMELLQERGPDPDPKRGLLDLSQERIQGSN LMEYEKA >gi568815590r:41546452_41747355|GENSCAN_predicted_CDS_2|204_bp atggctctgcctgagagctggtgcttctgttcggtggaggcctgctgcatctggctgctt gtggcatggcctggtctgcctcccaccagttacatggaactgttacaggaaaggggtccc gatccagaccccaagagagggctcttggatctctcacaagaaagaattcagggaagtaac ctcatggagtacgagaaagcctga >gi568815590r:41546452_41747355|GENSCAN_predicted_peptide_3|265_aa MESNLQGTFLLNNTPLAQFPEMKAPVCQYSVQNSFYKLSPPGLGPQLAAGTPHGITDILS RPVAAPNNSLLSGYPHVAGFGGLSSQGVYYSPQVGNFSKAGNEYPTRTRNCWADTGQDWR GGRQCSNTPDPLSDSIHKKKHTRPTFTGHQIFALEKTFEQTKYLAGPERARLAYSLGMTE SQVKVWFQNRRTKWRKKSALEPSSSTPRAPGGAGAGAGGDRAPSENEDDEYNKPLDPDSD DEKIRLLLRKHRAAFSVLSLGAHSV >gi568815590r:41546452_41747355|GENSCAN_predicted_CDS_3|798_bp atggagtccaacctgcaggggacgttcctgctgaacaacacgccgctggctcagtttccg gagatgaaggccccggtgtgccagtactctgtgcagaactccttctacaagctcagcccc ccagggctgggcccccagctggccgccggaaccccccacgggatcacggacatcctgagc aggcccgtggctgcgccgaacaacagcctcctctccggctacccccacgtggcaggcttt ggggggctcagctcgcagggggtctactacagcccccaggtagggaatttttccaaggct gggaacgagtacccgacccggacccggaactgctgggcggacacgggccaagactggcga ggcgggcggcagtgcagcaacaccccagaccccctgagtgacagcatacacaagaagaag cacacccggcccaccttcacggggcaccagatctttgccctggagaaaacctttgagcag accaagtacttggctggccccgagagggcacggctggcatactcactgggcatgaccgag tcgcaggtcaaggtgtggttccagaaccgcaggaccaagtggcggaagaagagcgccctg gagccctcgtcctccacgccccgggccccgggcggcgcgggtgcaggcgcaggcggggac cgcgcaccctcggagaacgaggacgacgagtacaacaagccgctggaccccgactcggac gacgagaagatccgcctgctgctgcgcaagcaccgcgccgccttctcggtgctcagcctg ggagcgcacagcgtctga >gi568815590r:41546452_41747355|GENSCAN_predicted_peptide_4|806_aa MGELELSYTTGGNAKWYNHLIISDKVKHIPTVQSSHSIPSYLPKRKESIMSIQTSIFTCN SHKLEAAQMSIGSLARAKRGFPQSLPLCSPSPNHPTFTGSSSPLIWDLEPSYSSLQDELL SPASLGCALSSPLRADQYWNEVAVLDAIPLAATEHDTMLEMSDMQVWSAGLTPSLVTAED SSLECSKAEDSDATGHEWKLEGALSEEPRGPELGSLELVEDDTVDSDATNGLIDLLEQEE GQRSEEKLPGSKRQDDATGAGQDSENEVSLVSGHQRGQARITHSPTVSQVTERSQDRLQD WDADGSIVSYLQDAAQGSWQEEVTQGPHSFQGTSTMTEGLEPGGSQEYEKVLVSVSEHTW TEQPEAESSQADRDRRQQGQEEQVQEAKNTFTQVVQKGLGTEHWALGLLSSYGDLGDVPK ALSSQHLRVLTACTCKASMPSLELETPIRGPGRLLPVPISQAPRADKDALEVLRTWAPAG FLLARLDSSGSWFGELLVTLVLLSFFLVSCQNVMHIVRGSLCFVLKHIHQELDKELGESE GLSDDEETISTRVVRRRVFLKGNEFQNIPGEQVTEEQFTDEQGNIVTKKIIRKVVRQIDL SSADAAQEHEEVTVEGPLEDPSGAEREWPTAGPDRGQEGGADSEAGQPEKGETVTPSRSP WSSLSGGSHLDTQPLNPTHSAMHTGGELDLRATAAVHTFLWADGMTSASILPLAMTADLS EPGHKSSKKRGERGIENKRRRACERKTPVASWRGEPGGSPDRMAGRCCSQPSSPLSAPAD PAAPDSALAPLLRLAWLHAPAASRSR >gi568815590r:41546452_41747355|GENSCAN_predicted_CDS_4|2421_bp atgggggaactggaactctcatacaccactggtgggaatgcaaaatggtacaaccacttg atcatttctgacaaagttaaacatatacctactgtacaatcaagtcattccattcctagc tatttacccaagagaaaagaaagcattatgtccatacagactagcatctttacttgtaat agccacaaactggaagcagcccaaatgtccattggcagtttggccagagctaaaaggggt ttccctcagtctctgccgctgtgcagcccttctcccaaccaccccaccttcacgggctca tcctccccgctcatttgggacctggaaccaagttactcctcactgcaggacgagctgctg tcccctgcctccctgggctgtgcactttcctctccgctacgtgcagaccagtactggaat gaggtggccgtcctagacgccatccccttggcggccacggagcatgacaccatgctggag atgtctgacatgcaggtgtggtctgcgggcctcacgccttctctggtcactgctgaggac tcctctctggagtgtagcaaggctgaggactctgatgccacaggtcacgagtggaagttg gagggggcactctcagaggaaccgcggggccccgagttgggctctctggaacttgtggag gacgacacagtggattcagatgccacaaatggccttatcgatttgcttgaacaggaggaa ggtcagaggtcagaagagaagctgccaggttctaagaggcaggatgacgcgacaggtgca gggcaggactcagagaatgaagtgtctcttgtttcaggccatcagagggggcaagcccga atcacacattcccccaccgtgagtcaggtgacggagaggagtcaggacagactgcaggac tgggatgcagacggctcgattgtctcatacctgcaagatgctgcacaaggttcctggcaa gaggaggtcacgcaaggtccacactcattccagggaacaagtaccatgactgaagggcta gagcccggtggatctcaggagtacgagaaggtcctggtgtctgtaagtgagcacacgtgg acagaacagcccgaggctgagagctcccaggccgacagggaccggaggcagcaaggccaa gaagagcaggtgcaggaggccaagaacaccttcacccaagtggtgcagaaagggctagga accgagcactgggcgttgggcttactctcctcctatggtgacctgggtgacgtgcccaag gcgctctcttcccagcacctcagggtcctcactgcatgcacgtgcaaggccagcatgccc agcctggaactggagacgccgatcagagggcctggcaggctgctgccggtgcccatctca caggccccgagggctgataaggatgcccttgaagtgctcaggacatgggcacctgccggc ttccttctagcccggttggacagctccggcagctggtttggggagctgttggtcacgctg gtgctgctgagcttcttcctggtcagctgtcagaacgtgatgcacattgtcagggggtcc ctgtgctttgtgctaaagcacatccaccaggagctggacaaggagctgggggagagcgag ggcctcagtgacgacgaggagaccatctccaccagggtggtccggcggcgggtcttcctg aaggggaatgagtttcagaatattccaggggagcaggtgacagaggagcaattcacggat gagcagggcaacattgtcaccaagaagatcattcgcaaggtggttcgacagatagacttg tccagcgccgatgccgcccaggagcacgaggaggtgactgtagaggggcccctggaggat cccagtggagctgagagggagtggcctacagccggacctgatagagggcaggaagggggc gcagatagtgaagcgggccagcctgaaaagggggaaacagtgaccccgagccgctctcct tggagtagcctctcgggaggatcacacctcgacacccaacccctgaaccccacacactct gccatgcacacaggaggagagctggacctgagggccaccgcagcggtgcacacattcctc tgggctgacggcatgacctctgcttcaatcctgcctcttgcaatgacagctgatctgtcg gaaccaggacacaaaagcagcaagaagcggggagagagagggatagaaaacaagcgcagg agagcctgcgaacgcaaaacccctgtggcctcttggagaggcgagccagggggctccccg gaccgcatggccggtcgctgctgcagccaacccagtagcccccttagcgcccccgcggac cccgcagctccagactccgctttggcacctctgctccggctggcatggctgcacgctccg gctgctagtaggagccgttag >gi568815590r:41546452_41747355|GENSCAN_predicted_peptide_5|1620_aa GPSASAVDLLLRCRISQSTGLLRVLYNQNRKKTPDTLLPMPCRAPPCSLPSKADISSWNG LNGLHLASKEGHVKMVVELLHKEIILETTTKGCGNTRLQRFDCFRISSPGCDFASEHLKG NTALHIAALAGQDEVVRELVNYGANVNAQSQKGFTPLYMAAQENHLEVVKFLLENGANQN VATEDGFTPLAVALQQGHENVVAHLINYGTKGKVRLPALHIAARNDDTRTAAVLLQNDPN PDVLSKTGFTPLHIAAHYENLNVAQLLLNRGASVNFTPQNGITPLHIASRRGNVIMVRLL LDRGAQIETKTKDELTPLHCAARNGHVRISEILLDHGAPIQAKTKNGLSPIHMAAQGDHL DCVRLLLQYDAEIDDITLDHLTPLHVAAHCGHHRVAKVLLDKGAKPNSRALNGFTPLHIA CKKNHVRVMELLLKTGASIDAVTESGLTPLHVASFMGHLPIVKNLLQRGASPNVSNVKVE TPLHMAARAGHTEVAKYLLQNKAKVNAKAKDDQTPLHCAARIGHTNMVKLLLENNANPNL ATTAGHTPLHIAAREGHVETVLALLEKEASQACMTKKGFTPLHVAAKYGKVRVAELLLER DAHPNAAGKNGLTPLHVAVHHNNLDIVKLLLPRGGSPHSPAWNGYTPLHIAAKQNQVEVA RSLLQYGGSANAESVQGVTPLHLAAQEGHAEMVALLLSKQANGNLGNKSGLTPLHLVAQE GHVPVADVLIKHGVMVDATTRMGYTPLHVASHYGNIKLVKFLLQHQADVNAKTKLGYSPL HQAAQQGHTDIVTLLLKNGASPNEVSSDGTTPLAIAKRLGYISVTDVLKVVTDETSFVLV SDKHRMSFPETVDEILDVSEDEGEELISFKAERRDSRDVDEEKELLDFVPKLDQVVESPA IPRIPCAMPETVVIRSEEQEQASKEYDEDSLIPSSPATETSDNISPVASPVHTGFLVSFM VDARGGSMRGSRHNGLRVVIPPRTCAAPTRITCRLVKPQKLSTPPPLAEEEGLASRIIAL GPTGAQFLSPVIVEIPHFASHGRGDRELVVLRSENGSVWKEHRSRYGESYLDQILNGMDE ELGSLEELEKKRVCRIITTDFPLYFVIMSRLCQDYDTIGPEGGSLKSKLVPLVQATFPEN AVTKRVKLALQAQPVPDELVTKLLGNQATFSPIVTVEPRRRKFHRPIGLRIPLPPSWTDN PRDSGEGDTTSLRLLCSVIGGTDQAQWEDITGTTKLVYANECANFTTNVSARFWLSDCPR TAEAVNFATLLYKELTAVPYMAKFVIFAKMNDPREGRLRCYCMTDDKVDKTLEQHENFVE VARSRDIEVLEGMSLFAELSGNLVPVKKAAQQRSFHFQSFRENRLAMPVKVRDSSREPGG SLSFLRKAMKYEDTQHILCHLNITMPPCAKGSGAEDRRRTPTPLALRYSILSESTPGSLS GTEQAEMKMAVISEHLGLSWAELARELQFSVEDINRIRVENPNSLLEQSVALLNLWVIRE GQNANMENLYTALQSIDRGEIVNMLEGSGRQSRNLKPDRRHTDRDYSLSPSQMNARSASH WWEVWFVSNKFLLSGEAEAKEREMAAPVQVGIASALAFAALQNGPQALAISNCVPTGRGV >gi568815590r:41546452_41747355|GENSCAN_predicted_CDS_5|4863_bp ggcccatcagcctctgcagttgatttgctgctgagatgcaggatttctcagagcacaggg ctgctgcgagttctgtacaatcaaaatagaaagaagaccccagacacgctgctgcccatg ccctgcagggcacctccctgttcactgccctctaaggccgacatctccagctggaatggg ttgaatggcttgcatctggcttctaaggaaggccatgtgaaaatggtggttgaacttctg cacaaagaaatcattctagaaacgacaaccaagggctgcggaaacacgaggcttcagcgc ttcgactgtttccgaatctcctccccaggttgtgattttgcaagtgaacacttgaagggg aacacggccctgcacatcgctgctctagccgggcaggatgaggtggtccgggagcttgtc aactatggagccaacgtcaacgcccagtcacagaaaggttttacacccctgtacatggca gcacaagagaaccacttggaagtggttaagtttttactggaaaatggagctaaccagaat gtagccacagaagacggcttcacgcctctggcggtagccctgcagcagggccatgagaac gtcgtcgcgcacctcatcaactacggcaccaaggggaaggtgcgcctcccggccctgcac atcgcggcccgcaacgacgacacgcgcacggctgcggtgctgctgcagaacgaccccaac ccggacgtgctttccaagacgggattcacgcccctgcacattgcggctcactacgagaac ctcaacgtggcccagttgctcctcaacagaggagccagcgtcaatttcacaccacagaac ggcatcacgccactgcacatcgcctcccgcaggggcaacgtgatcatggtgcggctgctg ctggatcggggagcccagatagaaaccaagaccaaggacgaattgacacctctccactgt gcagctcgaaatgggcacgtgcgaatctcagagatcctgctggaccacggggcaccaatc caagccaaaaccaagaacggcctgtccccaattcacatggcggctcagggagaccacctc gactgtgtccggctcctgttgcaatacgacgcagagatagacgacatcaccctggaccac ctgaccccactccacgtggctgcccactgtggacaccacagggtggctaaggtccttctg gataaaggggccaaacccaactccagagccctgaatggctttacccccttacacatcgcc tgcaaaaagaaccacgtccgtgtcatggagctgctgctgaagacgggagcctcgatcgac gcggtcaccgagtctggcctgacacctctccacgtggcctccttcatggggcaccttccc atcgtgaagaacctcctgcagcggggggcgtcgcccaacgtctccaacgtgaaagtggag accccgctacacatggcagccagagccgggcacacggaagtggccaaatatttactccag aacaaagccaaagtcaatgccaaggccaaggatgaccagaccccacttcactgtgcagct cgcatcggccacacaaacatggtgaagctcctgctggaaaataacgccaaccccaacctg gccaccaccgccgggcacacccccctgcacattgcagcccgtgagggccatgtggaaaca gtcctggcccttctggaaaaggaagcatcccaggcctgcatgaccaagaaaggatttacc cctctgcacgtggcggccaagtacgggaaggtgcgggtggcagagctgctgctggagcgg gacgcacacccgaatgctgccggaaaaaatggcctgacccccctgcacgtggccgtccat cacaacaacctggacatcgtcaagctgctgcttccccggggcggctccccgcacagccct gcctggaatggctacacccctttgcacatcgctgccaagcagaaccaggtggaggtggcc cgtagtctgctgcagtatgggggctcagcaaacgccgagtcggtgcaaggtgtgacgccc cttcacctggccgcccaggagggccacgcagagatggtggctctgctgctctcgaaacaa gccaatggcaacctggggaacaagagcggactcactcccctccatctggtagcacaagaa ggccacgttccagtggcagatgtgctgatcaaacacggcgtcatggtggacgccaccacc cggatgggctacactcccctccatgtggccagtcactatggaaacatcaagctggtgaag tttctgctgcagcaccaggcagatgtcaatgccaagaccaagctaggatacagccccctg caccaggcagcccagcagggacacacagacatcgtgactctgcttctgaaaaacggtgct tccccaaacgaggtcagctcggatggaaccacacctctggccatagccaagcgcttgggc tacatttctgtcaccgacgtgctcaaggtcgtcacggatgaaaccagtttcgtgttagtc agtgataagcatcgaatgagtttccctgagacagttgatgagatcctggatgtctcggaa gatgaaggggaagaactcatcagcttcaaggctgagaggcgggattccagggatgttgat gaagagaaggagctgctggattttgtgccgaagctagaccaagtggtggaatctccagcc atccccaggattccctgtgccatgcctgagacagtggtgatcaggtcagaagagcaggag caggcatctaaagagtatgatgaggactccctcatccccagcagcccggccaccgagacc tcagacaacatcagcccggtggccagcccggtgcatacagggtttctggtgagcttcatg gttgacgcccggggtggttccatgagaggaagtcgccacaacggcctgcgagtggtgatc ccgccacggacgtgcgcagcgcccacccgcatcacctgccgcctggtcaagccccagaag ctcagcacgccgcccccactggccgaggaggagggcctggccagcaggatcatagcactg gggcccacgggggcacagttcctgagccctgtaatcgtggagatcccgcactttgcctcc catggccgtggagaccgcgagctcgtggttctgaggagcgaaaacggctccgtgtggaag gagcacaggagccgctatggagagagctacctggatcagatcctcaacgggatggacgaa gagctggggagcctggaggagctagagaagaagagggtgtgccgaatcatcaccaccgac ttcccgctgtacttcgtgatcatgtcacggctctgccaggactacgacaccatcggtccc gaagggggctccctgaagagcaagctggtgcccctggtacaggcaacgttcccggagaat gccgtcaccaagagagtgaagctggctctgcaggcccagcctgtcccggatgagcttgtc actaagctcctgggcaaccaggccacattcagccccattgtcaccgtggagccccggcgc cggaagttccaccgccccattgggcttcggatcccactacctccttcctggaccgacaac ccgagggacagcggggagggagacaccaccagcctgcgcctgctttgcagcgtcattgga ggaacagaccaagcccagtgggaagacataacaggaaccaccaaacttgtatatgccaac gagtgcgccaacttcaccaccaatgtctctgccaggttttggctgtcggactgtcctcgg actgctgaggctgtgaactttgccaccctgctgtacaaagagctcactgcagtgccctac atggccaaattcgtcatctttgccaagatgaatgacccccgagaggggcgcctgcgctgc tactgcatgacagatgataaagtggacaagaccctggagcagcatgagaacttcgtggag gtggcccggagcagggacatagaggtgttggaaggaatgtccctgtttgcagaactctct gggaacctggtgcctgtgaagaaagctgcccagcagcggagcttccacttccagtcattt cgggagaaccgtctggccatgcctgtaaaggtgagggacagcagtcgagagccgggaggg tccctgtcgtttctgcgcaaggcgatgaagtacgaggacacccagcacattctctgccac ctgaacatcaccatgcccccctgcgccaagggaagtggagccgaagataggagaaggacc ccgacgcccctggccctgcgatacagcattctcagtgagtccacaccaggttctctcagt gggacagagcaggcagagatgaagatggctgttatctcagagcacctcggtctcagctgg gcagagttggcccgggagctgcagttcagtgtggaagacatcaacaggatccgagtggaa aatcccaactccctgttggagcagagtgtggccttgctgaacctctgggtcatccgtgaa ggccaaaacgcaaacatggagaatctgtacacagccctgcagagcattgaccgtggcgag atcgtgaacatgctggagggttccggccgacagagccgcaacttgaagccagacaggcgg cacaccgaccgcgactactcgctgtcaccctcccagatgaatgcccgctctgcctcccat tggtgggaggtctggtttgtcagcaacaagttcctcctttccggggaagcagaggcgaag gagagagagatggctgctcctgtgcaggtgggcatcgcctccgccttagcctttgcagcc ctgcagaatggcccccaggcccttgccatcagcaactgcgtccccacagggcgtggtgta tga