GENSCAN 1.0 Date run: 4-Nov-116 Time: 18:24:44 Sequence gi568815587r:47255230_47478353 : 223124 bp : 51.09% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 4654 4750 97 0 1 90 94 57 0.509 4.97 1.02 Intr + 5180 5446 267 0 0 23 65 356 0.607 24.84 1.03 Intr + 6012 6220 209 1 2 96 32 240 0.994 18.52 1.04 Intr + 6318 6789 472 2 1 64 94 359 0.601 27.34 1.05 Intr + 12684 12797 114 1 0 132 64 207 0.988 23.62 1.06 Intr + 13032 13126 95 1 2 78 84 83 0.970 7.08 1.07 Term + 13321 13467 147 0 0 108 42 139 0.993 9.51 1.08 PlyA + 13596 13601 6 -1.95 2.00 Prom + 16540 16579 40 -6.01 2.01 Init + 18686 18747 62 1 2 104 91 23 0.995 5.17 2.02 Intr + 19334 19930 597 2 0 106 87 615 0.976 55.47 2.03 Intr + 20670 20973 304 0 1 109 100 151 0.953 15.54 2.04 Intr + 21503 21634 132 1 0 40 109 120 0.986 10.65 2.05 Intr + 22936 23049 114 0 0 99 72 146 0.999 15.25 2.06 Intr + 23770 23850 81 0 0 81 96 68 0.959 7.23 2.07 Intr + 26346 26524 179 2 2 93 110 154 0.909 17.33 2.08 Intr + 27152 27387 236 2 2 84 79 220 0.979 18.56 2.09 Intr + 27584 27740 157 0 1 67 71 219 0.998 17.68 2.10 Intr + 28949 29052 104 2 2 59 100 53 0.961 3.92 2.11 Intr + 29146 29336 191 2 2 61 84 262 0.991 22.93 2.12 Intr + 29712 29965 254 2 2 70 89 232 0.997 18.27 2.13 Intr + 30222 30361 140 0 2 53 100 190 0.994 17.32 2.14 Intr + 31204 31305 102 2 0 62 88 91 0.825 7.15 2.15 Intr + 34162 34264 103 2 1 112 58 15 0.679 0.63 2.16 Intr + 34638 34824 187 0 1 -2 49 417 0.747 29.01 2.17 Intr + 34920 35070 151 2 1 62 97 145 0.980 13.05 2.18 Intr + 35381 35587 207 0 0 103 84 77 0.805 8.37 2.19 Intr + 38615 38754 140 0 2 29 72 111 0.215 4.29 2.20 Intr + 40267 40377 111 0 0 108 60 99 0.928 10.18 2.21 Intr + 40668 40826 159 2 0 157 52 165 0.981 20.50 2.22 Intr + 43115 43231 117 1 0 62 -7 122 0.261 1.27 2.23 Intr + 53362 53470 109 0 1 123 66 81 0.697 9.76 2.24 Intr + 54052 54172 121 2 1 58 80 70 0.760 3.26 2.25 Intr + 54278 54383 106 2 1 126 90 168 0.985 21.52 2.26 Intr + 56503 56613 111 0 0 64 107 189 0.936 19.48 2.27 Intr + 59991 60098 108 2 0 59 92 29 0.570 1.38 2.28 Intr + 68442 68606 165 2 0 91 107 224 0.996 25.27 2.29 Intr + 69036 69108 73 2 1 104 93 109 0.999 12.47 2.30 Intr + 69242 69348 107 0 2 102 96 130 0.973 15.63 2.31 Intr + 71509 71578 70 0 1 138 19 53 0.623 2.65 2.32 Intr + 73429 73507 79 2 1 69 74 104 0.884 6.20 2.33 Term + 73817 74006 190 2 1 111 55 55 0.381 1.74 2.34 PlyA + 74783 74788 6 1.05 3.37 PlyA - 76208 76203 6 1.05 3.36 Term - 76652 76642 11 0 2 95 47 0 0.689 -4.76 3.35 Intr - 77029 76843 187 1 1 74 78 211 0.737 18.48 3.34 Intr - 77473 77337 137 2 2 63 97 228 0.715 22.00 3.33 Intr - 77744 77585 160 2 1 105 53 275 0.877 25.77 3.32 Intr - 78104 77965 140 0 2 103 89 155 0.957 17.79 3.31 Intr - 78523 78328 196 1 1 91 70 364 0.981 34.41 3.30 Intr - 78781 78693 89 2 2 95 75 84 0.847 7.99 3.29 Intr - 79980 79813 168 1 0 108 66 165 0.873 16.73 3.28 Intr - 80782 80648 135 2 0 118 68 201 0.999 22.15 3.27 Intr - 82378 82162 217 1 1 -17 97 475 0.754 36.50 3.26 Intr - 82565 82405 161 0 2 63 36 174 0.463 9.92 3.25 Intr - 83450 83291 160 2 1 86 85 380 0.767 37.57 3.24 Intr - 84175 84095 81 1 0 95 113 88 0.970 12.33 3.23 Intr - 84561 84422 140 1 2 102 84 150 0.999 16.69 3.22 Intr - 85803 85774 30 1 0 121 110 1 0.948 4.19 3.21 Intr - 86015 85909 107 1 2 85 80 208 0.999 20.06 3.20 Intr - 86927 86762 166 0 1 90 101 299 0.999 30.93 3.19 Intr - 87515 87349 167 1 2 26 84 278 0.999 21.32 3.18 Intr - 87706 87601 106 2 1 65 101 129 0.999 11.67 3.17 Intr - 87916 87792 125 0 2 78 86 205 0.994 20.03 3.16 Intr - 88395 88263 133 1 1 -54 61 230 0.943 6.31 3.15 Intr - 91141 90978 164 0 2 -16 71 345 0.989 22.53 3.14 Intr - 92250 92197 54 2 0 84 105 42 0.932 4.08 3.13 Intr - 92676 92628 49 1 1 53 94 86 0.955 3.93 3.12 Intr - 93312 93195 118 0 1 106 89 204 0.977 22.84 3.11 Intr - 94693 94545 149 2 2 114 98 294 0.999 33.46 3.10 Intr - 94940 94785 156 0 0 43 92 149 0.497 11.29 3.09 Intr - 95386 95273 114 2 0 87 100 55 0.994 7.52 3.08 Intr - 96276 96010 267 1 0 31 110 407 0.593 35.24 3.07 Intr - 98954 98906 49 2 1 83 95 58 0.965 4.74 3.06 Intr - 99843 99712 132 0 0 124 41 77 0.924 7.95 3.05 Intr - 100317 100046 272 1 2 131 -23 720 0.852 63.00 3.04 Intr - 103777 103615 163 1 1 121 75 159 0.906 17.96 3.03 Intr - 104811 104624 188 1 2 110 57 314 0.679 30.43 3.02 Intr - 120503 120404 100 2 1 40 101 142 0.452 10.88 3.01 Init - 126040 126038 3 1 0 87 77 0 0.064 -1.27 3.00 Prom - 126248 126209 40 -3.91 4.00 Prom + 126267 126306 40 -2.01 4.01 Init + 133874 134021 148 1 1 93 94 15 0.078 3.01 4.02 Intr + 139036 139278 243 2 0 58 69 142 0.232 7.30 4.03 Term + 145089 145168 80 1 2 90 44 43 0.406 -1.68 4.04 PlyA + 146099 146104 6 1.05 5.00 Prom + 147364 147403 40 -4.31 5.01 Init + 154896 155166 271 2 1 70 100 186 0.947 13.13 5.02 Intr + 156697 156810 114 2 0 102 119 139 0.999 19.32 5.03 Intr + 157117 157238 122 2 2 101 80 195 0.999 20.72 5.04 Intr + 158171 158278 108 1 0 126 87 135 0.999 18.18 5.05 Intr + 158368 158457 90 0 0 141 100 218 0.983 28.99 5.06 Intr + 159196 159246 51 0 0 96 83 37 0.912 3.59 5.07 Intr + 159548 159680 133 1 1 83 68 187 0.977 16.92 5.08 Intr + 159831 159930 100 1 1 71 89 151 0.973 13.17 5.09 Term + 160059 160134 76 0 1 117 32 149 0.999 9.81 5.10 PlyA + 161249 161254 6 1.05 6.21 PlyA - 161403 161398 6 1.05 6.20 Term - 163716 163606 111 0 0 76 49 214 0.999 15.16 6.19 Intr - 163968 163887 82 2 1 88 101 163 0.933 17.74 6.18 Intr - 165180 165035 146 0 2 107 99 188 0.999 21.39 6.17 Intr - 165498 165402 97 2 1 86 113 110 0.788 13.81 6.16 Intr - 167493 167345 149 0 2 120 91 299 0.998 32.94 6.15 Intr - 167744 167601 144 2 0 72 113 110 0.996 12.89 6.14 Intr - 168954 168817 138 0 0 63 78 250 0.997 22.67 6.13 Intr - 169262 169200 63 2 0 88 89 55 0.969 5.01 6.12 Intr - 169482 169378 105 0 0 57 99 146 0.999 13.51 6.11 Intr - 170017 169892 126 1 0 68 85 162 0.999 15.28 6.10 Intr - 170721 170638 84 0 0 25 86 186 0.980 12.61 6.09 Intr - 171053 170904 150 2 0 101 24 124 0.499 8.17 6.08 Intr - 182818 182752 67 0 1 80 -12 101 0.008 -1.30 6.07 Intr - 183702 183503 200 0 2 56 75 330 0.999 27.17 6.06 Intr - 185983 185930 54 1 0 80 77 104 0.776 8.16 6.05 Intr - 186504 186382 123 0 0 79 100 162 0.999 17.79 6.04 Intr - 186692 186594 99 2 0 68 78 147 0.997 12.51 6.03 Intr - 187585 187427 159 1 0 121 59 300 0.911 31.10 6.02 Intr - 192921 192583 339 0 0 70 86 660 0.903 60.22 6.01 Init - 193735 193544 192 1 0 83 98 384 0.999 37.84 6.00 Prom - 195920 195881 40 -6.80 7.00 Prom + 198426 198465 40 -4.51 7.01 Init + 198959 199033 75 1 0 51 116 73 0.953 7.44 7.02 Intr + 206944 206982 39 0 0 51 99 44 0.193 0.71 7.03 Intr + 212484 212534 51 2 0 116 111 -6 0.022 4.09 7.04 Term + 216013 216171 159 0 0 59 28 62 0.003 -4.45 7.05 PlyA + 216183 216188 6 1.05 8.06 PlyA - 216325 216320 6 1.05 8.05 Term - 217128 217001 128 1 2 43 53 217 0.956 12.45 8.04 Intr - 218002 217859 144 2 0 42 76 168 0.805 11.76 8.03 Intr - 220292 220107 186 0 0 61 113 188 0.860 18.78 8.02 Intr - 221727 221617 111 1 0 63 110 41 0.592 4.65 8.01 Intr - 222196 222068 129 2 0 72 115 52 0.961 7.47 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 182818 182746 73 0 1 80 41 97 0.949 1.87 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_1|466_aa MPHSAGGTAGVGLEAAEPTALLTRAEPPSEPTEIRPQKRKKGPAPKMLGNELCSVCGDKA SGFHYNVLSCEGCKGFFRRSVIKGAHYICHSGGHCPMDTYMRRKCQECRLRKCRQAGMRE ECVLSEEQIRLKKLKRQEEEQAHATSLPPRASSPPQILPQLSPEQLGMIEKLVAAQQQCN RRSFSDRLRVTPWPMAPDPHSREARQQRFAHFTELAIVSVQEIVDFAKQLPGFLQLSRED QIALLKTSAIEVAGEGQGMKGEAEWDYLWEGPPDIELGEPNLLGSRDEENRPPWKRPCSK TSPPSPRLRFAACVQVMLLETSRRYNPGSESITFLKDFSYNREDFAKAGLQVEFINPIFE FSRAMNELQLNDAEFALLIAISIFSADRPNVQDQLQVERLQHTYVEALHAYVSIHHPHDR LMFPRMLMKLVSLRTLSSVHSEQVFALRLQDKKLPPLLSEIWDVHE >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_1|1401_bp atgccccactctgctgggggtactgcaggggtggggctggaggctgcagagcccacagcc ctgctcaccagggcagagcccccttcagaacccacagagatccgtccacaaaagcggaaa aaggggccagcccccaaaatgctggggaacgagctatgcagcgtgtgtggggacaaggcc tcgggcttccactacaatgttctgagctgcgagggctgcaagggattcttccgccgcagc gtcatcaagggagcgcactacatctgccacagtggcggccactgccccatggacacctac atgcgtcgcaagtgccaggagtgtcggcttcgcaaatgccgtcaggctggcatgcgggag gagtgtgtcctgtcagaagaacagatccgcctgaagaaactgaagcggcaagaggaggaa caggctcatgccacatccttgccccccagggcttcctcacccccccaaatcctgccccag ctcagcccggaacaactgggcatgatcgagaagctcgtcgctgcccagcaacagtgtaac cggcgctccttttctgaccggcttcgagtcacgccttggcccatggcaccagatccccat agccgggaggcccgtcagcagcgctttgcccacttcactgagctggccatcgtctctgtg caggagatagttgactttgctaaacagctacccggcttcctgcagctcagccgggaggac cagattgccctgctgaagacctctgcgatcgaggtggctggagaagggcaagggatgaag ggagaagcagagtgggattatctgtgggaggggcctccagacatcgagctgggagagcca aatctgctgggaagcagggatgaggagaatcggcctccctggaagaggccatgctccaag accagccctcctagtccccgtttgaggtttgctgcttgtgtgcaggtgatgcttctggag acatctcggaggtacaaccctgggagtgagagtatcaccttcctcaaggatttcagttat aaccgggaagactttgccaaagcagggctgcaagtggaattcatcaaccccatcttcgag ttctccagggccatgaatgagctgcaactcaatgatgccgagtttgccttgctcattgct atcagcatcttctctgcagaccggcccaacgtgcaggaccagctccaggtagagaggctg cagcacacatatgtggaagccctgcatgcctacgtctccatccaccatccccatgaccga ctgatgttcccacggatgctaatgaaactggtgagcctccggaccctgagcagcgtccac tcagagcaagtgtttgcactgcgtctgcaggacaaaaagctcccaccgctgctctctgag atctgggatgtgcacgaatga >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_2|1688_aa MVQKKKFCPRLLDYLVIVGARHPSSDSVAQTPELLRRYPLEDHTEFPLPPDVVFFCQPEG CLSVRQRRMSLRDDTSFVFTLTDKDTGVTRYGICVNFYRSFQKRISKEKGEGGAGSRGKE GTHATCASEEGGTESSESGSSLQPLSADSTPDVNQSPRGKRRAKAGSRSRNSTLTSLCVL SHYPFFSTFRECLYTLKRLVDCCSERLLGKKLGIPRGVQRDTMWRIFTGSLLVEEKSSAL LHDLREIEAWIYRLLRSPVPVSGQKRVDIEVLPQELQPALTFALPDPSRFTLVDFPLHLP LELLGVDACLQVLTCILLEHKVVLQSRDYNALSMSVMAFVAMIYPLEYMFPVIPLLPTCM ASAEQLLLAPTPYIIGVPASFFLYKLDFKMPDDVWLVDLDSNRVIAPTNAEVLPILPEPE SLELKKHLKQALASMSLNTQPILNLEKFHEGQEIPLLLGRPSNDLQSTPSTEFNPLIYGN DVDSVDVATRVAMVRFFNSANVLQGFQMHTRTLRLFPRPVVAFQAGSFLASRPRQTPFAE KLARTQAVEYFGEWILNPTNYAFQRIHNNMFDPALIGDKPKWYAHQLQPIHYRVYDSNSQ LAEALSVPPERDSDSEPTDDSGSDSMDYDDSSSSYSSLGDFVSEMMKCDINGDTPNVDPL THAALGDASEVEIDELQNQKEAEEPGPDSENSQENPPLRSSSSTTASSSPSTVIHGANSE PADSTEMDDKAAVGVSKPLPSVPPSIGKSNVDRRQAEIGEGSVRRRIYDNPYFEPQYGFP PEEDEDEQGESYTPRFSQHVSGNRAQKLLRPNSLRLASDSDAESDSRASSPNSTVSNTST EGFGGIMSFASSLYRNHSTSFSLSNLTLPTKGAREKATPFPSLKGNRRALVDQKSSVIKH SPTVKREPPSPQGRSSNSSENQQFLKEVVHSVLDGQGVGWLNMKKVRRLLESEQLRVFVL SKLNRMVQSEDDARQDIIPDVEISRKVYKGMLDLLKCTVLSLEQSYAHAGLGGMASIFGL LEIAQTHYYSKEPDKRKRSPTESVNTPVGKDPGLAGRGDPKAMAQLRVPQLGPRAPSATG KGPKELDTRSLKEENFIASIAFVHGVTEVFPYSGPEVIKPVFDLGETEEKKSQISADSGV SLTSSSQRTDQDSVIGVSPAVMIRSSSQDSEVSTVVGEHHTGILVSNSSGETLGADSDLS SNAGDGPGGEGSVHLASSRGTLSDSEIETNSATSTIFPHNCEDSNHQFLINGSGSENRLQ QFGFKACVEAHYSKTPGKAHSLKPSIKEKLAGSPIRTSEDVSQRVYLYEGLLGKERSTLW DQMQFWEDAFLDAVMLEREGMGMDQGPQEMIDRYLSLGEHDRKRLEDDEDRLLATLLHNL ISYMLLMKVNKNDIRKKVRRLMGKSHIGLVYSQQINEVLDQLANLNGRDLSIWSSGSRHM KKQTFVVHAGTDTNGDIFFMEVCDDCVVLRSNIGTVYERWWYEKLINMTYCPKTKVLCLW RRNGSETQLNKFYTKKCRELYYCVKDSMERAAARQQSIKPGPELGGEFPVQDLKTGEGGL LQVTLEGINLKFMHNQVFIELNHIKKCNTVRGVFVLEEFVPEIKEVVSHKYKTPMVSVPL NPDGPRPTKSATPYYVSSRTWLQFIAVRKISEPRPGLSLADGEGLRSCPSPGHAPGPLLF PSARCCCD >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_2|5067_bp atggtgcaaaagaagaagttctgtcctcggttacttgactatctagtgatcgtaggggcc aggcacccgagcagtgatagcgtggcccagactcctgaattgctacggcgataccccttg gaggatcacactgagtttcccctgcccccagatgtagtgttcttctgccagcccgagggc tgcctgagcgtgcggcagcggcgcatgagccttcgggatgatacctcttttgtcttcacc ctcactgacaaggacactggagtcacgcgatatggcatctgtgttaacttctaccgctcc ttccaaaagcgaatctctaaggagaagggggaaggtggggcagggtcccgtgggaaggaa ggaacccatgccacctgtgcctcagaagagggtggcactgagagctcagagagtggctca tccctgcagcctctcagtgctgactctacccctgatgtgaaccagtctcctcggggcaaa cgccgggccaaggcggggagccgctcccgcaacagtactctcacgtccctgtgcgtgctc agccactaccctttcttctccaccttccgagagtgtttgtatactctcaagcgcctggtg gactgctgtagtgagcgccttctgggcaagaaactgggcatccctcgaggcgtacaaagg gacaccatgtggcggatctttactggatcgctgctggtagaggagaagtcaagtgccctt ctgcatgaccttcgagagattgaggcctggatctatcgattgctgcgctccccagtaccc gtctctgggcagaagcgagtagacatcgaggtcctaccccaagagctccagccagctctg acctttgctcttccagacccatctcgattcaccctagtggatttcccactgcaccttccc ttggaacttctaggtgtggacgcctgtctccaggtgctaacctgcattctgttagagcac aaggtggtgctacagtcccgagactacaatgcactctccatgtctgtgatggcattcgtg gcaatgatctacccactggagtatatgtttcctgtcatcccgctgctacccacctgcatg gcatcagcagagcagctgctgttggctccaaccccgtacatcattggggttcctgccagc ttcttcctctacaaactggacttcaaaatgcctgatgatgtatggctagtggatctggac agcaatagggtgattgcccccaccaatgcagaagtgctgcctatcctgccagaaccagaa tcactagagctgaaaaagcatttaaagcaggccttggccagcatgagtctcaacacccag cccatcctcaatctggagaaatttcatgagggccaggagatcccccttctcttgggaagg ccttctaatgacctgcagtccacaccgtccactgaattcaacccactcatctatggcaat gatgtggattctgtggatgttgcaaccagggttgccatggtacggttcttcaattccgcc aacgtgctgcagggatttcagatgcacacgcgtaccctgcgcctctttcctcggcctgtg gtagcttttcaagctggctcctttctagcctcacgtccccggcagactccttttgccgag aaattggccaggactcaggctgtggagtactttggggaatggatccttaaccccaccaac tatgcctttcagcgaattcacaacaatatgtttgatccagccctgattggtgacaagcca aagtggtatgctcatcagctgcagcctatccactatcgcgtctatgacagcaattcccag ctggctgaggccctgagtgtaccaccagagcgggactctgactccgaacctactgatgat agtggcagtgatagtatggattatgacgattcaagctcttcttactcctcccttggtgac tttgtcagtgaaatgatgaaatgtgacattaatggtgatactcccaatgtggaccctctg acacatgcagcactgggggatgccagcgaggtggagattgacgagctgcagaatcagaag gaagcagaagagcctggcccagacagtgagaactctcaggaaaaccccccactgcgctcc agctctagcaccacagccagcagcagccccagcactgtcatccacggagccaactctgaa cctgctgactctacggagatggatgataaggcagcagtaggcgtctccaagcccctccct tccgtgcctcccagcattggcaaatcgaacgtggacagacgtcaggcagaaattggagag gggtcagtgcgccggcgaatctatgacaatccatacttcgagccccaatatggctttccc cctgaggaagatgaggatgagcagggggaaagttacactccccgattcagccaacatgtc agtggcaatcgggctcaaaagctgctgcggcccaacagcttgagactggcaagtgactca gatgcagagtcagactctcgggcaagctctcccaactccaccgtctccaacaccagcacc gagggcttcgggggcatcatgtcttttgccagcagcctctatcggaaccacagtaccagc ttcagtctttcaaacctcacactgcccaccaaaggtgcccgagagaaggccacgcccttc cccagtctgaaaggaaacaggagggcgttagtggatcagaagtcatctgtcattaaacac agcccaacagtgaaaagagaacctccatcaccccagggtcgatccagcaattctagtgag aaccagcagttcctgaaggaggtggtgcacagcgtgctggacggccagggagttggctgg ctcaacatgaaaaaggtgcgccggctgctggagagcgagcagctgcgagtctttgtcctg agcaagctgaaccgcatggtgcagtcagaggacgatgcccggcaggacatcatcccggat gtggagatcagtcggaaggtgtacaagggaatgttagacctcctcaagtgtacagtcctc agcttggagcagtcctatgcccacgcgggtctgggtggcatggccagcatctttgggctt ttggagattgcccagacccactactatagtaaagaaccagacaagcggaagagaagtcca acagaaagtgtaaataccccagttggcaaggatcctggcctagctgggcggggggaccca aaggctatggcacaactgagagttccacaactgggacctcgggcaccaagtgccacagga aagggtcctaaggaactggacaccagaagtttaaaggaagaaaattttatagcatctatt gcctttgtgcacggagtaacagaagtcttcccctactcagggcctgaagtaatcaaacct gtctttgaccttggtgagacagaggagaaaaagtcccagatcagcgcagacagtggtgtg agcctgacgtctagttcccagaggactgatcaagactctgtcatcggcgtgagtccagct gttatgatccgcagctcaagtcaggattctgaagttagcaccgtggtaggggaacaccac actggcatcttggtgagtaatagctctggagagacccttggagctgacagtgacttgagc agcaatgcaggtgatggaccaggtggcgagggcagtgttcacctggcaagctctcggggc actttgtctgatagtgaaattgagaccaactctgccacaagcaccatctttccgcataac tgtgaagatagcaaccatcagtttctcataaatggaagcggcagtgagaaccgtctacag cagtttggcttcaaggcctgtgtagaggcccattattccaaaacacctggtaaagcccac agcttgaagccaagcataaaggagaagctggcaggcagccccattcgtacttctgaagat gtgagccagcgagtctatctctatgagggactcctaggcaaagagcgttctactttatgg gaccaaatgcaattctgggaagatgccttcttagatgctgtgatgttggagagagaaggg atgggtatggaccagggtccccaggaaatgatcgacaggtacctgtcccttggagaacat gaccggaagcgcctggaagatgatgaagatcgcttgttggccacacttctgcacaacctc atctcctacatgctgctgatgaaggtaaataagaatgacatccgcaagaaggtgaggcgc ctaatgggaaagtcgcacattgggcttgtgtacagccagcaaatcaatgaggtgcttgat cagctggcgaacctgaatggacgcgatctctctatctggtccagtggcagccggcacatg aagaagcagacatttgtggtacatgcagggacagatacaaacggagatatctttttcatg gaggtgtgcgatgactgtgtggtgttgcgtagtaacatcggaacagtgtatgagcgctgg tggtacgagaagctcatcaacatgacctactgtcccaagacgaaggtgttgtgcttgtgg cgtagaaatggctctgagacccagctcaacaagttctatactaaaaagtgtcgggagctg tactactgtgtgaaggacagcatggagcgcgctgccgcccgacagcaaagcatcaaaccc ggacctgaattgggtggcgagttccctgtgcaggacctgaagactggtgagggtggcctg ctgcaggtgaccctggaagggatcaacctcaaattcatgcacaatcaggttttcatagag ctgaatcacattaaaaagtgcaatacagttcgaggcgtctttgtcctggaggaatttgtt cctgaaattaaagaagtggtgagccacaagtacaagacaccaatggtgagtgtgccgctc aaccctgatgggccacggcccacgaaatctgctactccgtattatgtctcttctcgtacg tggctgcagttcatagcagtgaggaagatctcagaaccccgccccggcctgtctctagct gatggagaggggctacgcagctgccccagcccagggcacgcccctggccccttgctgttc ccaagtgcacgatgctgctgtgactga >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_3|1597_aa MQPSEDLVPYDTDLYQRQTHEYYPYLSSDGESHSDHYWDFHPHHVHSEFESFAENNFTEL QSVQPPQLQQLYRHMELEQMHVLDTPMVPPHPSLGHQVSYLPRMCLQYPSLSPAQPSSDE EEGERQSPPLEVSDGEADGLEPGPGLLPGETGSKKKIRLYQFLLDLLRSGDMKDSIWWVD KDKGTFQFSSKHKEALAHRWGIQKGNRKKMTYQKMARALRNYGKTGEVKKVKKKLTYQFS GEAPSTSRFASLQDSTPAPGRQLGVRPHRGNLAEDDPGYCLGSLKSLLATAGEKQTKLSG EAFSAFSKKPRSVEVAAGSPAVFEAETERAGVKVRWQRGGSDISASNKYGLATEGTRHTL TVREVGPADQGSYAVIAGSSKVKFDLKVIEAEKAEPMLAPAPAPAEATGAPGEAPAPAAE LGESAPSPKAWVTEQDSISNKQKKPLLTGSSSAALNGPTPGAPDDPIGLFVMRPQDGEVT VGGSITFSARVAGASLLKPPVVKWFKGKWVDLSSKVGQHLQLHDSYDRASKVYLFELHIT DAQPAFTGSYRCEVSTKDKFDCSNFNLTVHEAMGTGDLDLLSAFRRTDSHEDTGILDFSS LLKKRDSKLEAPAEEDVWEILRQAPPSEYERIAFQYGVTDLRGMLKRLKGMRRDEKKSTA FQKKLEPAYQVSKGHKIRLTVELADHDAEVKWLKNGQEIQMSGRYIFESIGAKRTLTISQ CSLADDAAYQCVVGGEKCSTELFVKEPPVLITRPLEDQLVMVGQRVEFECEVSEEGAQVK WLKDGVELTREETFKYRFKKDGQRHHLIINEAMLEDAGHYALCTSGGQALAELIVQEKKL EVYQSIADLMVGAKDQAVFKCEVSDENVRGVWLKNGKELVPDSRIKVSHIGRVHKLTIDD VTPADEADYSFVPEGFACNLSAKLHFMEVKIDFVPRQEPPKIHLDCPGRIPDTIVVVAGN KLRLDVPISGDPAPTVIWQKAITQGNKAPARPAPDAPEDTGDSDEWVFDKKLLCETEGRV RVETTKDRSIFTVEGAEKEDEGVYTVTVKNPVGEDQVNLTVKVIDVPDAPAAPKISNVGE DSCTVQWEPPAYDGGQPILGECKGTGWRCEGAKQIRGKTRAATSPEPGYILERKKKKSYR WMRLNFDLIQELSHEARRMIEGVVYEMRVYAVNAIGMSRPSPASQPFMPIGPPSEPTHLA VEDVSDTTVSLKWRPPERVGAGGLDGYSVEYCPEGCSEWVAALQGLTEHTSILVKDLPTG ARLLFRVRAHNMAGPGAPVTTTEPVTVQEILQRPRLQLPRHLRQTIQKKVGEPVNLLIPF QGKPRPQVTWTKEGQPLAGEEVSIRNSPTDTILFIRAARRVHSGTYQVTVRIENMEDKAT LVLQVVDKPSPPQDLRVTDAWGLNVALEWKPPQDVGNTELWGYTVQKADKKTMEWFTVLE HYRRTHCVVPELIIGNGYYFRVFSQNMVGFSDRAATTKEPVFIPRPGITYEPPNYKALDF SEAPSFTQPLVNRSVIAGYTAMLCCAVRGSPKPKISWFKNGLDLGEDARFRMFSKQGVLT LEIRKPCPFDGGIYVCRATNLQGEARCECRLEVRVPQ >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_3|4794_bp atgcagccatcagaagacctggtgccctatgacacggatctataccaacgccaaacgcac gagtattacccctatctcagcagtgatggggagagccatagcgaccattactgggacttc cacccccaccacgtgcacagcgagttcgagagcttcgccgagaacaacttcacggagctc cagagcgtgcagcccccgcagctgcagcagctctaccgccacatggagctggagcagatg cacgtcctcgatacccccatggtgccaccccatcccagtcttggccaccaggtctcctac ctgccccggatgtgcctccagtacccatccctgtccccagcccagcccagctcagatgag gaggagggcgagcggcagagccccccactggaggtgtctgacggcgaggcggatggcctg gagcccgggcctgggctcctgcctggggagacaggcagcaagaagaagatccgcctgtac cagttcctgttggacctgctccgcagcggcgacatgaaggacagcatctggtgggtggac aaggacaagggcaccttccagttctcgtccaagcacaaggaggcgctggcgcaccgctgg ggcatccagaagggcaaccgcaagaagatgacctaccagaagatggcgcgcgcgctgcgc aactacggcaagacgggcgaggtcaagaaggtgaagaagaagctcacctaccagttcagc ggcgaagccccctccacatcccgcttcgcctccctccaggactccaccccggctcccgga cgccagctgggcgtcagaccccaccggggcaaccttgcagaggacgacccggggtactgc cttgggagtctcaagtccctcctagccacagcaggggagaaacagaccaagctgagcgga gaagccttctcagcttttagcaagaagccacggtcagtggaagtggccgcaggcagccct gccgtgttcgaggccgagacagagcgggcaggagtgaaggtgcgctggcagcgcggaggc agtgacatcagcgccagcaacaagtacggcctggccacagagggcacacggcatacgctg acagtgcgggaagtgggccctgccgaccagggatcttacgcagtcattgctggctcctcc aaggtcaagttcgacctcaaggtcatagaggcagagaaggcagagcccatgctggcccct gcccctgcccctgctgaggccactggagcccctggagaagccccggccccagccgctgag ctgggagaaagtgccccaagtcccaaagcctgggtgacagagcaagactccatctcaaac aaacagaaaaagcctttgctcacagggtcaagctcagcagctctcaatggtcctacccct ggagcccccgatgaccccattggcctcttcgtgatgcggccacaggatggcgaggtgacc gtgggtggcagcatcaccttctcagcccgcgtggccggcgccagcctcctgaagccgcct gtggtcaagtggttcaagggcaaatgggtggacctgagcagcaaggtgggccagcacctg cagctgcacgacagctacgaccgcgccagcaaggtctatctgttcgagctgcacatcacc gatgcccagcctgccttcactggcagctaccgctgtgaggtgtccaccaaggacaaattt gactgctccaacttcaatctcactgtccacgaggccatgggcaccggagacctggacctc ctatcagccttccgccgcactgatagccatgaggacactgggattctggacttcagctca ctgctgaaaaagagggactcgaagctggaggcaccagcagaggaggacgtgtgggagatc ctacggcaggcacccccatctgagtacgagcgcatcgccttccagtacggcgtcactgac ctgcgcggcatgctaaagaggctcaagggcatgaggcgcgatgagaagaagagcacagcc tttcagaagaagctggagccggcctaccaggtgagcaaaggccacaagatccggctgacc gtggaactggctgaccatgacgctgaggtcaaatggctcaagaatggccaggagatccag atgagcggcaggtacatctttgagtccatcggtgccaagcgtaccctgaccatcagccag tgctcattggcggacgacgcagcctaccagtgcgtggtgggtggcgagaagtgtagcacg gagctctttgtgaaagagccccctgtgctcatcacgcgccccttggaggaccagctggtg atggtggggcagcgggtggagtttgagtgtgaagtatcggaggagggggcgcaagtcaaa tggctgaaggacggggtggagctgacccgggaggagaccttcaaataccggttcaagaag gacgggcagagacaccacctgatcatcaacgaggccatgctggaggacgcggggcactat gcactgtgcactagcgggggccaggcgctggctgagctcattgtgcaggaaaagaagctg gaggtgtaccagagcatcgcagacctgatggtgggcgcaaaggaccaggcggtgttcaaa tgtgaggtctcagatgagaatgttcggggtgtgtggctgaagaatgggaaggagctggtg cccgacagccgcataaaggtgtcccacatcgggcgggtccacaaactgaccattgacgac gtcacacctgccgacgaggctgactacagctttgtgcccgagggcttcgcctgcaacctg tcagccaagctccacttcatggaggtcaagattgacttcgtacccaggcaggaacctccc aagatccacctggactgcccaggccgcataccagacaccattgtggttgtagctggaaat aagctacgtctggacgtccctatctctggggaccctgctcccactgtgatctggcagaag gctatcacgcaggggaataaggccccagccaggccagccccagatgccccagaggacaca ggtgacagcgatgagtgggtgtttgacaagaagctgctgtgtgagaccgagggccgggtc cgcgtggagaccaccaaggaccgcagcatcttcacggtcgagggggcagagaaggaagat gagggcgtctacacggtcacagtgaagaaccctgtgggcgaggaccaggtcaacctcaca gtcaaggtcatcgacgtgccagacgcacctgcggcccccaagatcagcaacgtgggagag gactcctgcacagtacagtgggagccgcctgcctacgatggcgggcagcccatcctgggt gagtgcaagggcaccggatggaggtgtgagggcgccaaacagatccgagggaagaccaga gctgccacctcccctgagccaggctacatcctggagcgcaagaagaagaagagctaccgg tggatgcggctgaacttcgacctgattcaggagctgagtcatgaagcgcggcgcatgatc gagggcgtggtgtacgagatgcgcgtctacgcggtcaacgccatcggcatgtccaggccc agccctgcctcccagcccttcatgcctatcggtccccccagcgaacccacccacctggca gtagaggacgtctctgacaccacggtctccctcaagtggcggcccccagagcgcgtggga gcaggaggcctggatggctacagcgtggagtactgcccagagggctgctcagagtgggtg gctgccctgcaggggctgacagagcacacatcgatactggtgaaggacctgcccacgggg gcccggctgcttttccgagtgcgggcacacaatatggcagggcctggagcccctgttacc accacggagccggtgacagtgcaggagatcctgcaacggccacggcttcagctgcccagg cacctgcgccagaccattcagaagaaggtcggggagcctgtgaaccttctcatccctttc cagggcaagccccggcctcaggtgacctggaccaaagaggggcagcccctggcaggcgag gaggtgagcatccgcaacagccccacagacaccatcctgttcatccgggccgctcgccgc gtgcattcaggcacttaccaggtgacggtgcgcattgagaacatggaggacaaggccacg ctggtgctgcaggttgttgacaagccaagtcctccccaggatctccgggtgactgacgcc tggggtcttaatgtggctctggagtggaagccaccccaggatgtcggcaacacggagctc tgggggtacacagtgcagaaagccgacaagaagaccatggagtggttcaccgtcttggag cattaccgccgcacccactgcgtggtgccagagctcatcattggcaatggctactacttc cgcgtcttcagccagaatatggttggctttagtgacagagcggccaccaccaaggagccc gtctttatccccagaccaggcatcacctatgagccacccaactataaggccctggacttc tccgaggccccaagcttcacccagcccctggtgaaccgctcggtcatcgcgggctacact gctatgctctgctgtgctgtccggggtagccccaagcccaagatttcctggttcaagaat ggcctggacctgggagaagacgcccgcttccgcatgttcagcaagcagggagtgttgact ctggagattagaaagccctgcccctttgacgggggcatctatgtctgcagggccaccaac ttacagggcgaggcacggtgtgagtgccgcctggaggtgcgagtgcctcagtga >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_4|156_aa MAVLQCLWVVTGKHWRVPVLGTNSPLPHVTVRGRPCQCHSADDGSAVPGDSISTLSAKHG PAPPTSKPCSSVEPPPASPVPLSAKVYTRFHLQGPSLSAVPKALALGNAKPNECENRDGN GRGVLDHGCRGERPSCPAAAQSSGEGAQPPQVGSRK >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_4|471_bp atggcagtgctccagtgcttgtgggtggtgacaggcaagcactggagggtgcccgtgctg ggcactaactcacccctccctcacgtaaccgtacgaggcaggccttgtcagtgccattct gcagatgacggaagtgcagttcccggagattccatcagcaccctgtctgcaaaacatggg cctgctcctcccacctccaagccttgctccagtgtggaacccccaccggcctcgcctgtt cccctctctgccaaggtctacaccaggttccacctccaaggccccagcctcagtgctgtc cccaaagctttggctcttgggaatgcaaagcccaacgaatgtgagaaccgggatgggaat gggcgaggggttttagaccatggatgccgaggggagcgcccgagctgcccggctgcggcc cagtcgagcggagagggggcccagcccccccaggtgggcagccggaagtga >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_5|354_aa MAGPRLLFLTALALELLERAGGSQPALRSRGTATACRLDNKESESWGALLSGERLDTWIC SLLGSLMVGLSGVFPLLVIPLEMGTMLRSEAGAWRLKQLLSFALGGLLGNVFLHLLPEAW AYTCSASPGGEGQSLQQQQQLGLWVIAGILTFLALEKMFLDSKEEGTSQAPNKDPTAAAA ALNGGHCLAQPAAEPGLGAVVRSIKVSGYLNLLANTIDNFTHGLAVAASFLVSKKIGLLT TMAILLHEIPHEVGDFAILLRAGFDRWSAAKLQLSTALGGLLGAGFAICTQSPKGVEETA AWVLPFTSGGFLYIALVNVLPDLLEEEDPWRSLQQLLLLCAGIVVMVLFSLFVD >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_5|1065_bp atggcgggcccaaggctcctcttcctcactgcccttgccctggagctcttggaaagggct gggggttcccagccggccctccggagccgggggactgcgacggcctgtcgcctggacaac aaggaaagcgagtcctggggggctctgctgagcggagagcggctggacacctggatctgc tccctcctgggttccctcatggtggggctcagtggggtcttcccgttgcttgtcattccc ctagagatggggaccatgctgcgctcagaagctggggcctggcgcctgaagcagctgctc agcttcgccctggggggactcttgggcaatgtgtttctgcatctgctgcccgaagcctgg gcctacacgtgcagcgccagccctggtggtgaggggcagagcctgcagcagcagcaacag ctggggctgtgggtcattgctggcatcctgaccttcctggcgttggagaagatgttcctg gacagcaaggaggaggggaccagccaggcccccaacaaagaccccactgctgctgccgcc gcgctcaatggaggccactgtctggcccagccggctgcagagcccggcctcggtgccgtg gtccggagcatcaaagtcagcggctacctcaacctgctggccaacaccatcgataacttc acccacgggctggctgtggctgccagcttccttgtgagcaagaagatcgggctcctgaca accatggccatcctcctgcatgagatcccccatgaggtgggcgactttgccatcctgctc cgggccggctttgaccgatggagcgcagccaagctgcaactctcaacagcgctggggggc ctactgggcgctggcttcgccatctgtacccagtcccccaagggagtagaggagacggca gcctgggtcctgcccttcacctctggcggctttctctacatcgccttggtgaacgtgctc cctgacctcttggaagaagaggacccgtggcgctccctgcagcagctgcttctgctctgt gcgggcatcgtggtaatggtgctgttctcgctcttcgtggattaa >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_6|875_aa MGQDQTKQQIEKGLQLYQSNQTEKALQVWTKVLEKSSDLMGRFRVLGCLVTAHSEMGRYK EMLKFAVVQIDTARELEDADFLLESYLNLARSNEKLCEFHKTISYCKTCLGLPGTRAGAQ LGGQVSLSMGNAFLGLSVFQKALESFEKALRYAHNNDDAMLECRVCCSLGSFYAQVKDYE KALFFPCKAAELVNNYGKGWSLKYRAMSQYHMAVAYRLLGRLGSAMECCEESMKIALQHG DRPLQALCLLCFADIHRSRGDLETAFPRYDSAMSIMTEIGNRLGQVQALLGVAKCWVARK ALDKALDAIERAQDLAEEVGNKLSQLKLHCLSESIYRSKGLQRELRAHVVRFHECVEETE LYCGLCGESIGEKNSRLQALPCSHIFHLRCLQNNGTRSCPNCRRSSMKPGFEMNLLPNIE SPVTRQEKMATVWDEAEVGTGRAGGPGTGARRETPLTRGKEQDGIGEEVLKMSTEEIIQR TRLLDSEIKIMKSEVLRVTHELQAMKDKIKENSEKIKVNKTLPYLVSNVIELLDVDPNDQ EEDGANIDLDSQRKGKCAVIKTSTRQTYFLPVIGLVDAEKLKPGDLVGVNKDSYLILETL PTEYDSRVKAMEVDERPTEQYSDIGGLDKQIQELVEAIVLPMNHKEKFENLGIQPPKGVL MYGPPGTGKTLLARACAAQTKATFLKLAGPQLVQMFIGDGAKLVRDAFALAKEKAPSIIF IDELDAIGTKRFDSEKAGDREVQRTMLELLNQLDGFQPNTQVKVIAATNRVDILDPALLR SGRLDRKIEFPMPNEEARARIMQIHSRKMNVSPDVNYEELARCTDDFNGAQCKAVCVEAG MIALRRGATELTHEDYMEGILEVQAKKKANLQYYA >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_6|2628_bp atggggcaggaccagaccaagcagcagatcgagaaggggctccagctgtaccagtccaac cagacagagaaggcattgcaggtgtggacaaaggtgctggagaagagctcggacctcatg gggcgcttccgcgtgctgggctgcctggtcacagcccactcggagatgggccgctacaag gagatgctgaagttcgctgtggtccagatcgacacggcccgggagctggaggatgccgac ttcctcctggagagctacctgaacctggcacgcagcaacgagaagctgtgcgagtttcac aagaccatctcctactgcaagacctgccttgggctgcctggtaccagggcaggtgcccag ctcggaggccaggtcagcctgagcatgggcaatgccttcctgggcctcagcgtcttccag aaggccctggagagcttcgagaaggccctgcgctatgcccacaacaatgatgacgccatg ctcgagtgccgcgtgtgctgcagcctgggcagcttctatgcccaggtcaaggactacgag aaagccctgttcttcccctgcaaggcggcagagcttgtcaacaactatggcaaaggctgg agcctgaagtaccgggccatgagccagtaccacatggccgtggcctatcgcctgctgggc cgcctgggcagtgccatggagtgttgtgaggagtctatgaagatcgcgctgcagcacggg gaccggccactgcaggcgctctgcctgctctgcttcgctgacatccaccggagccgtggg gacctggagacagccttccccaggtacgactccgccatgagcatcatgaccgagatcgga aaccgcctggggcaggtgcaggcgctgctgggtgtggccaagtgctgggtggccaggaag gcgctggacaaggctctggatgccatcgagagagcccaggatctggccgaggaggtgggg aacaagctgagccagctcaagctgcactgtctgagcgagagcatttaccgcagcaaaggg ctgcagcgggaactgcgggcgcacgttgtgaggttccacgagtgcgtggaggagacggag ctctactgcggcctgtgcggcgagtccataggcgagaagaacagccggctgcaggcccta ccttgctcccacatcttccacctcaggtgcctgcagaacaacgggacccggagctgtccc aactgccgccgctcatccatgaagcctggctttgaaatgaatctgctgccgaatattgag agtccagtgactcggcaggagaagatggcgaccgtgtgggatgaggccgaggtgggcacc gggcgagctggcggtccgggaaccggggcccgcagggagacgccattgacaagagggaag gagcaagatggaattggggaggaggtgctcaagatgtccacggaggagatcatccagcgc acacggctgctggacagtgagatcaagatcatgaagagtgaagtgttgagagtcacccat gagctccaagccatgaaggacaagataaaagagaacagtgagaaaatcaaagtgaacaag accctgccgtaccttgtctccaacgtcatcgagctcctggatgttgatcctaatgaccaa gaggaggatggtgccaatattgacctggactcccagaggaagggcaagtgtgctgtgatc aaaacctctacacgacagacgtacttccttcctgtgattgggttggtggatgctgaaaag ctaaagccaggagacctggtgggtgtgaacaaagactcctatctgatcctggagacgctg cccacagagtatgactcgcgggtgaaggccatggaggtagacgagaggcccacggagcaa tacagtgacattgggggtttggacaagcagatccaggagctggtggaggccattgtcttg ccaatgaaccacaaggagaagtttgagaacttggggatccaacctccaaaaggggtgctg atgtatgggcccccagggacggggaagaccctcctggcccgggcctgtgccgcacagact aaggccaccttcctaaagctggctggcccccagctggtgcagatgttcattggagatggt gccaagctagtccgggatgcctttgccctggccaaggagaaagcgccctctatcatcttc attgatgagttggatgccatcggcaccaagcgctttgacagtgagaaggctggggaccgg gaggtgcagaggacaatgctggagcttctgaaccagctggatggcttccagcccaacacc caagttaaggtaattgcagccacaaacagggtggacatcctggaccccgccctcctccgc tcgggccgccttgaccgcaagatagagttcccgatgcccaatgaggaggcccgggccaga atcatgcagatccactcccgaaagatgaatgtcagtcctgacgtgaactacgaggagctg gcccgctgcacagatgacttcaatggggcccagtgcaaggctgtgtgtgtggaggcgggc atgatcgcactgcgcaggggtgccacggagctcacccacgaggactacatggaaggcatc ctggaggtgcaggccaagaagaaagccaacctacaatactacgcctag >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_7|107_aa MLLYGNDCGLLVFVLLVTNGTAPGKPGGFFLIRDRAAQAPFPPSLSKAASLPEAPQELQA LLGFAFMRKWWLGMEVTFLAVVNCKEGNQAMYSIEAFKETRWKWAMV >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_7|324_bp atgctcctctatggcaacgactgtggtttacttgtctttgtactactagtaactaacggc acggcccctggcaagcctggtggctttttcctcatcagggaccgagctgctcaggccccc ttcccaccctctctgagcaaagcagccagcctcccggaagccccgcaagaactgcaagcc cttcttggatttgccttcatgagaaaatggtggcttgggatggaggtgacattccttgct gtggtgaactgcaaagaaggaaaccaggcaatgtattccatagaggcctttaaagagacc cgttggaaatgggccatggtctaa >gi568815587r:47255230_47478353|GENSCAN_predicted_peptide_8|232_aa XLNAMQLQNLAALAAAASAAQNTPSGTNALTTSSSPLSVLTSSGSSPSSSSSNSVNPIAS LGALQTLAGATAGLNVGSLAGMAALNGGLGSSGLSNGTGSTMEALTQAYSGIQQYAAAAL PTLYNQNLLTQQSIGAAGSQKEGPEGANLFIYHLPQEFGDQDLLQMFMPFGNVVSAKVFI DKQTNLSKCFGFVSYDNPVSAQAAIQSMNGFQIGMKRLKVQLKRSKNDSKPY >gi568815587r:47255230_47478353|GENSCAN_predicted_CDS_8|699_bp nggttgaatgcaatgcagttacagaatttggctgcactagctgctgcagctagtgcagct cagaacacaccaagtggtaccaatgctctcactacatccagcagtcccctcagcgtgctc actagttcagggtcctcacctagctctagcagcagtaattctgtcaaccccatagcctca cttggagccctgcagacattagctggagcaacggctggcctcaatgttggctctttggca ggaatggctgctttaaatggtggcctgggcagcagtggcctttccaatggcaccgggagc accatggaggccctcactcaggcctactcgggtatccagcaatatgctgctgctgcgctc cccactctgtacaaccagaatcttctgacacagcagagtattggtgctgctggaagccag aaggaaggtccagagggagccaacctgttcatctaccacctgccccaggagtttggtgat caggacctgctgcagatgtttatgccctttgggaatgtcgtgtctgccaaggttttcata gacaagcagacaaacctgagcaagtgttttggttttgtaagttacgacaatcctgtttcg gcccaagctgccatccagtccatgaacggctttcagattggcatgaagcggcttaaagtg cagctcaaacgttcgaagaatgacagcaagccctactga