Result of GENSCAN for
pF1KB9503
GENSCAN 1.0 Date run: 4-Nov-116 Time: 00:04:40 Sequence gi568815596r:241129604_241366869 : 237266 bp : 48.53% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.08 Intr - 3427 3271 157 2 1 47 110 125 0.445 9.67 1.07 Intr - 6436 6268 169 1 1 111 90 132 0.976 15.22 1.06 Intr - 7661 7401 261 2 0 50 81 316 0.969 24.78 1.05 Intr - 8484 8350 135 0 0 52 97 108 0.995 8.86 1.04 Intr - 9191 9051 141 2 0 97 76 139 0.979 14.15 1.03 Intr - 10551 10282 270 0 0 6 89 363 0.466 25.94 1.02 Intr - 11150 10918 233 0 2 94 53 121 0.774 6.69 1.01 Init - 12834 12750 85 0 1 85 77 45 0.812 4.09 1.00 Prom - 17290 17251 40 -8.56 2.00 Prom + 17517 17556 40 -7.56 2.01 Init + 19769 19801 33 1 0 98 70 48 0.304 2.07 2.02 Intr + 20195 20444 250 1 1 64 55 183 0.661 9.61 2.03 Intr + 23873 24001 129 0 0 14 76 182 0.832 10.27 2.04 Intr + 28204 28259 56 2 2 91 80 86 0.879 6.80 2.05 Intr + 28881 28946 66 2 0 83 100 70 0.938 6.80 2.06 Intr + 29610 29740 131 2 2 101 64 173 0.999 15.69 2.07 Intr + 30729 30891 163 0 1 90 77 157 0.963 14.78 2.08 Intr + 33682 33798 117 0 0 112 96 132 0.973 17.06 2.09 Intr + 36734 36838 105 1 0 127 64 257 0.994 27.61 2.10 Intr + 40178 40264 87 1 0 68 106 52 0.576 5.17 2.11 Intr + 53044 53213 170 0 2 96 23 278 0.224 20.84 2.12 Intr + 59813 59907 95 2 2 105 86 40 0.582 5.11 2.13 Intr + 60132 60360 229 1 1 78 61 59 0.828 -0.87 2.14 Intr + 60454 60568 115 1 1 59 77 117 0.880 8.15 2.15 Intr + 61591 61648 58 0 1 84 97 22 0.725 1.16 2.16 Intr + 66100 66242 143 2 2 67 98 101 0.759 9.07 2.17 Intr + 69713 69820 108 1 0 59 98 201 0.762 18.68 2.18 Intr + 70486 70622 137 0 2 20 103 217 0.837 15.77 2.19 Intr + 71695 71752 58 1 1 75 68 75 0.668 3.09 2.20 Intr + 72591 72701 111 2 0 86 60 169 0.980 14.48 2.21 Intr + 73730 73895 166 1 1 64 109 262 0.804 25.43 2.22 Intr + 75262 75352 91 2 1 99 94 94 0.989 10.15 2.23 Intr + 77971 78079 109 1 1 115 90 98 0.728 12.99 2.24 Intr + 79682 79825 144 1 0 61 83 340 0.996 31.28 2.25 Intr + 79895 80032 138 1 0 68 68 189 0.994 15.56 2.26 Intr + 80692 80790 99 0 0 113 80 167 0.993 18.71 2.27 Intr + 80865 80967 103 2 1 88 84 155 0.999 14.85 2.28 Intr + 82491 82602 112 1 1 74 77 228 0.995 19.74 2.29 Intr + 82969 83023 55 1 1 69 105 65 0.969 5.28 2.30 Intr + 85202 85299 98 1 2 63 86 163 0.999 12.41 2.31 Intr + 86490 86635 146 0 2 86 49 158 0.971 11.63 2.32 Intr + 87785 87901 117 0 0 -2 53 123 0.513 0.24 2.33 Intr + 88083 88288 206 1 2 73 64 509 0.975 45.92 2.34 Intr + 88636 88778 143 0 2 55 99 261 0.996 23.05 2.35 Intr + 93583 93750 168 1 0 87 65 182 0.699 14.86 2.36 Intr + 93944 94034 91 2 1 96 69 10 0.386 -0.10 2.37 Intr + 94059 94178 120 2 0 74 51 199 0.740 15.49 2.38 Term + 94747 94941 195 0 0 84 43 91 0.290 1.61 2.39 PlyA + 95556 95561 6 -0.45 3.33 PlyA - 96352 96347 6 1.05 3.32 Term - 100084 99998 87 1 0 92 39 15 0.329 -5.34 3.31 Intr - 100358 100230 129 2 0 139 77 160 0.956 20.89 3.30 Intr - 100666 100550 117 1 0 101 83 219 0.883 23.36 3.29 Intr - 101341 101156 186 1 0 97 105 298 0.703 32.29 3.28 Intr - 104360 104217 144 2 0 114 94 145 0.998 18.18 3.27 Intr - 105652 105518 135 1 0 74 88 218 0.999 21.16 3.26 Intr - 105991 105887 105 1 0 113 59 169 0.999 16.91 3.25 Intr - 107166 107012 155 1 2 112 87 116 0.991 13.69 3.24 Intr - 109184 109046 139 2 1 109 94 56 0.996 8.34 3.23 Intr - 110217 109999 219 0 0 77 70 393 0.990 34.90 3.22 Intr - 110519 110298 222 2 0 42 58 450 0.545 35.72 3.21 Intr - 113075 112857 219 2 0 111 105 312 0.997 33.70 3.20 Intr - 117280 117149 132 1 0 99 55 142 0.974 12.84 3.19 Intr - 118513 118400 114 1 0 89 58 45 0.792 2.24 3.18 Intr - 118745 118641 105 2 0 91 88 165 0.999 17.21 3.17 Intr - 120377 120238 140 0 2 70 115 226 0.999 23.68 3.16 Intr - 123432 123354 79 0 1 71 79 176 0.985 14.12 3.15 Intr - 123894 123790 105 0 0 45 87 184 0.998 14.41 3.14 Intr - 125555 125448 108 2 0 78 116 79 0.999 10.18 3.13 Intr - 125977 125771 207 1 0 80 88 140 0.971 12.47 3.12 Intr - 126796 126581 216 1 0 107 81 305 0.999 30.40 3.11 Intr - 127203 126997 207 0 0 88 94 241 0.999 23.97 3.10 Intr - 133323 133108 216 0 0 70 94 186 0.976 16.10 3.09 Intr - 135002 134845 158 0 2 20 75 156 0.644 7.23 3.08 Intr - 138938 138874 65 1 2 79 119 15 0.144 2.06 3.07 Intr - 144218 144141 78 1 0 92 82 39 0.045 2.37 3.06 Intr - 150414 150340 75 2 0 87 59 47 0.008 0.33 3.05 Intr - 159196 159149 48 0 0 109 81 26 0.001 1.80 3.04 Intr - 176060 175892 169 0 1 56 56 196 0.022 12.20 3.03 Intr - 186688 186318 371 0 2 10 22 240 0.081 4.35 3.02 Intr - 187024 186914 111 0 0 -5 75 138 0.429 2.69 3.01 Init - 187389 187331 59 0 2 76 97 17 0.419 2.18 3.00 Prom - 191501 191462 40 -4.46 4.00 Prom + 194392 194431 40 -5.56 4.01 Init + 194630 194638 9 1 0 52 116 0 0.301 -0.18 4.02 Intr + 196390 196510 121 0 1 35 103 97 0.436 5.97 4.03 Intr + 206372 206495 124 0 1 83 64 157 0.999 12.44 4.04 Intr + 207779 207913 135 2 0 77 106 67 0.985 7.08 4.05 Intr + 208070 208187 118 2 1 41 96 192 0.983 15.77 4.06 Intr + 213389 213490 102 1 0 85 116 132 0.999 16.07 4.07 Intr + 214149 214294 146 2 2 120 66 125 0.973 12.58 4.08 Intr + 216563 216646 84 2 0 99 39 75 0.811 2.64 4.09 Intr + 218531 218588 58 2 1 81 107 82 0.981 8.29 4.10 Term + 220470 220571 102 2 0 76 45 113 0.473 4.08 4.11 PlyA + 220977 220982 6 1.05 5.02 PlyA - 222157 222152 6 1.05 5.01 Sngl - 226937 226644 294 2 0 95 46 170 0.330 7.21 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 157 378 222 0 0 64 42 206 0.922 6.93 S.002 Term + 179182 179394 213 0 0 101 39 113 0.803 4.93 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:241129604_241366869|GENSCAN_predicted_peptide_1|484_aa MGQKSVGASYVQIPLVPPLSRHPKGLGHEDRWSSYCLSSLAAQNICTSKLHCPAAPEHTD PSEPRGSVSCCSLLRGLSSGWSSPLLPAPVCNPNKAIFTVDAKTTEEKAGFCMVVLGCSG QLVELLGMSASLLLFVIPQILVANDKACGLLGYSSQDLIGQKLTQFFLRSDSDVVEALSE EHMEADGHAAVVFGTVVDIISRSGEKIPVSVWMKRMRQERRLCCVVVLEPVERVSTWVAF QSDGTVTSCDSLFAHLHGYVSGEDVAGQHITDLIPSVQLPPSGQHIPKNLKIQRSVGRAR DGTTFPLSLKLKSQPSSEEATTGEAAPVSGYRASVWVFCTISGLITLLPDGTIHGINHSF ALTLFGYGKTELLGKNITFLIPGFYSYMDLAYNSSLQLPDLASCLDVGNESGCGERTLDP WQGQDPAEGGQDPRINVVLAGGHVVPRDEIRKLMESQDIFTGTQTELIAGGQLLSCLSPQ PAPG >gi568815596r:241129604_241366869|GENSCAN_predicted_CDS_1|1452_bp atggggcagaagtctgttggtgcctcctatgtccagattccgttggtgcctcctttgtcc aggcaccccaaaggactgggccatgaagacagatggagctcctattgtctatcatcactg gctgcccagaatatttgtacaagtaaactgcactgccctgctgcccctgagcacacggac ccgtccgaaccgcggggcagtgtgtcctgctgctccctgctgcggggactgtcctcaggg tggtcctcacctctgcttccggcccctgtgtgcaaccctaacaaggccatcttcacggtg gatgccaagaccacagaggaaaaggctggcttctgcatggtcgtcctgggctgttctggg cagctggtggagctgctggggatgtctgcatccttgctcctctttgtgattcctcagatc ctggttgctaacgacaaagcttgcgggctcctggggtacagcagccaggacctgattggc cagaagctcacgcagttctttctgaggtcagattctgatgtggtggaggccctcagcgag gagcacatggaggccgacggccacgctgcggtggtgtttggcacggtggtggacatcatc agccgtagtggggagaagattccagtgtctgtgtggatgaagaggatgcggcaggagcgc cgcctatgctgcgtggtggtcctggagcccgtggagagggtctcgacctgggtcgctttc cagagcgatggcaccgtcacgtcatgtgacagtctctttgctcatcttcacgggtacgtg tctggggaggacgtggctgggcagcatatcacagacctgatcccttctgtgcagctccct ccttctggccagcacatcccaaagaatctcaagattcagaggtctgttggaagagccagg gacggtaccaccttccctctgagcttaaagctgaaatcccaacccagcagcgaggaggcg accaccggtgaggcggcccctgtgagcggctaccgggcatctgtctgggtgttctgcacc atcagtggcctcatcaccctcctgccggatgggaccatccacggcatcaaccacagcttc gcgctgacactgtttggttacggaaagacggagctcctgggcaagaatatcactttcctg attcctggtttctacagctacatggaccttgcgtacaacagctcattacagctcccagac ctggccagctgcctggacgtcggcaatgagagtgggtgtggggagagaaccttggacccg tggcagggccaggacccagctgaggggggccaggatccaaggattaatgtcgtgcttgct ggtggccacgttgtgccccgagatgagatccggaagctgatggaaagccaagacatcttc accgggactcagactgagctgattgctggaggccagctcctttcctgcctctcacctcag cctgctccaggn >gi568815596r:241129604_241366869|GENSCAN_predicted_peptide_2|1553_aa MAEPGPLSRAQGRRRLQRPHWAGNDLQGEPSWRPGASQLASGPTSASAPHLPACSERQEK AAFRMGKIRAGTPGECCCSCRSAHCTDAASEARRVDRRVESEESGDEEGKKHSSGIVADL SEQSLKDGEERGEEDPEEEHELPVDMETINLDRDAEDVDLNHYRIGKIEGFEVLKKVKTL CLRQNLIKCIENLEELQSLRELDLYDNQIKKIENLEALTELEILDISFNLLRNIEGVDKL TRLKKLFLVNNKISKIENLSNLHQLQMLELGSNRIRAIENIDTLTNLESLFLGKNKITKL QNLDALTNLTVLSMQSNRLTKIEGLQNLVNLRELYLSHNGIEVIEGLENNNKLTMLDIAS NRIKKIENISHLTELQEFWMNDNLLESWSDLDELKGARSLETVYLERNPLQKDPQYRRKV MLALPSVRQIDATFVRATDVVLLAPFCQPKTRSHGTCPPTERDPRGEGSTEYPGRVDGIQ GWGTRALTGWTDRRLLCQACQTLPPRHWFLPGARGWLGGSPCAHGQESLPSQPSPILLRV ESVKSRMLRRRAQEEDSTVLIDVSPPEAEKRGSYGSTAHASEPGGQQAAACRAGSPAKPR IADFVLVWEEDLKLDRQQDSAARDRTDMHRTWRETFLDNLRAAGLCVDQQDVQDGNTTVH YALLSASWAVLCYYAEDLRLKLPLQELPNQASNWSAGLLAWLGIPNVLLEVVPDVPPEYY SCRFRVNKLPRFLGSDNQDTFFTSTKRHQILFEILAKTPYGHEKKNLLGIHQLLAEGVLS AAFPLHDGPFKTPPEGPQAPRLNQRQVLFQHWARWGKWNKYQPLDHVRRYFGEKVALYFA WLGFYTGWLLPAAVVGTLVFLVGCFLVFSDIPTQELCGSKDSFEMCPLCLDCPFWLLSSA CALAQVREEAGRLFDHGGTVFFSLFMALWAVLLLEYWKRKSATLAYRWDCSDYEDTEERP RPQFAASAPMTAPNPITGEDEPYFPERSRARRMLAGSVVIVVMVAVVVMCLVSIILYRAI MAIVVSRSGNTLLAAWASRIASLTGSVVNLVFILILSKIYVSLAHVLTRWEMHRTQTKFE DAFTLKVFIFQFVNFYSSPVYIAFFKGRFVGYPGNYHTLFGVRNEECAAGGCLIELAQEL LVIMVGKQVINNMQEVLIPKLKGWWQKFRLRSKKRKAGASAGASQGPWEDDYELVPCEGL FDEYLEMGAGFCPNACPELVPELTEPEKARDQPEARSAGQDSRPEAVLQFGFVTIFVAAC PLAPLFALLNNWVEIRLDARKFVCEYRRPVAERAQDIGIWFHILAGLTHLAVISNAFLLA FSSDFLPRAYYRWTRAHDLRGFLNFTLARAPSSFAAAHNRTCRYRAFRDDDGHYSQTYWN LLAIRLAFVIVFEVAEAPAGSPIHGMRPRPCALPNSSTCCFLTPPTAGSRCRSPGLPGPV KATLGVWVGHVVFSVGRLLDLLVPDIPESVEIKVKREYYLAKQALAENEGGTVSSQGPLC FLLPDISPRGPCTQGTLSLGGLPRPLDTTVLLRQVGFVVLAAPGHIALSSYTW >gi568815596r:241129604_241366869|GENSCAN_predicted_CDS_2|4662_bp atggcggagcccggcccgctctcccgagcgcagggtagacgaaggctgcagcgtccgcac tgggctgggaacgacttgcaaggggagcccagctggcgccccggagccagccagctggct agcggccccaccagcgcaagtgccccgcacctgcccgcctgctccgagcgtcaagagaag gcggcatttcgcatgggtaaaatccgcgcggggacgccgggagaatgttgttgctcttgc cgttcggcccattgtacagacgcagccagcgaggctcgcagagttgacaggcgggtcgag tctgaagaatccggcgatgaagaagggaagaaacacagcagtggcatcgtggccgacctc agtgaacagagcctgaaggatggggaggagcggggggaggaggacccagaagaagaacat gagctgcctgtggacatggaaaccatcaacctggacagagatgcagaggatgttgatttg aatcactatcgcatagggaagattgaaggatttgaggtactgaagaaagtgaagactctc tgcctccgccaaaatttaattaaatgcattgagaatctggaggagctacagagtcttcga gagctggatctttacgacaaccagatcaagaagattgagaatctggaggcgctaacagag ctggagattctagatatttcttttaatctgctgagaaacatcgaaggggttgacaagttg acacgactgaaaaaactcttcttggtcaacaataaaatcagtaaaattgagaacttaagc aacttacatcaactacagatgctagagctgggatctaaccgcatccgggcaatcgaaaat atcgacaccttaaccaacctggagagtttgtttttggggaaaaacaaaattactaaactt cagaacctggatgcgctcaccaacctgacagtcctcagtatgcagagcaaccggctgacc aagatcgagggtctgcagaacctggtgaacctgcgggagctgtaccttagccacaatggc atcgaggtcatcgagggcctggagaacaataacaaactcacgatgttggacattgcatca aatagaatcaaaaagattgaaaatatcagccatctaacagagctgcaagagttctggatg aacgacaatctccttgagagctggagcgacctcgacgagctgaagggagccaggagcctg gagacagtgtacctggagcggaaccccttgcagaaggacccccagtaccggcggaaggtc atgctcgccctcccctccgtgcggcagatcgatgccacgttcgtcagggccacagatgtc gtgctcctggccccgttttgccagcccaagactaggagccacggcacctgtcctcccaca gagagagacccccggggcgaaggctccactgagtacccaggcagagtggacggcattcag ggctgggggacacgggcactcactggatggacagacagacgcctgctgtgccaggcctgc cagacgctcccgccccggcactggtttcttcctggagctcgtggctggctagggggttct ccatgtgctcatggccaggagagtctgccgagccagcccagccccattctactccgagtc gagtctgtaaagagcaggatgctgcggcgacgggcccaggaagaggacagcaccgtcctg atcgatgtgagcccccctgaggcagagaagaggggctcttacgggagcacagcccacgcc tcggagccaggtggacagcaagcggccgcctgcagagctgggagtcctgccaagccccgg atcgcagacttcgtcctcgtttgggaggaggacctgaagctagacaggcagcaggacagt gccgcccgggacagaacagacatgcacaggacctggcgggagacttttctggataatctt cgtgcggctgggctgtgtgtagaccagcaggacgtccaggacgggaacaccacagtgcac tacgccctcctcagcgcctcctgggctgtgctctgctactacgccgaagacctgcgcctg aagctgcccttgcaggagttacccaaccaggcctccaactggtcggccggcctgctggca tggctgggcatccccaacgtcctgctggaggttgtgccagacgtaccccccgagtactac tcctgccggttcagagtgaacaagctgccacgcttcctcgggagtgacaaccaggacacc ttcttcacaagcaccaagaggcaccaaattctgtttgagatcctggccaagaccccgtat ggccacgagaagaaaaacctgcttgggatccaccagctgctggcagagggtgtcctcagt gccgccttccccctgcatgacggccccttcaagacgcccccagagggcccgcaggctcca cgcctcaaccagcgccaagtccttttccagcactgggcgcgctggggcaagtggaacaag taccagcccctggaccacgtgcgcaggtacttcggggagaaggtggccctctacttcgcc tggctcgggttttacacaggctggctcctgccagcggcagtggtgggcacactggtgttc ctggtgggctgcttcctggtgttctcagacatacccacgcaggaactgtgtggcagcaag gacagcttcgagatgtgcccactttgcctcgactgccctttctggctgctctccagcgcc tgtgccctggcccaggtacgagaagaggccggccggctgttcgaccacggcggcaccgtg ttcttcagcttgttcatggcactgtgggccgtgctgctgctggagtactggaagcggaag agcgccacgctggcctaccgctgggactgctctgactacgaggacactgaggagaggcct cggccccagtttgccgcctcagcccccatgacagccccgaaccccatcacgggtgaggac gagccctacttccctgagaggagccgcgcgcgccgcatgctggccggctctgtggtgatc gtggtgatggtggccgtggtggtcatgtgcctcgtgtctatcatcctgtaccgtgccatc atggccatcgtggtgtccaggtcgggcaacacccttctcgcagcctgggcctctcgcatc gccagcctcacggggtctgtagtgaacctcgtcttcatcctcatcctctccaagatctat gtatccctggcccacgtcctgacacgatgggaaatgcaccgcacccagaccaagttcgag gacgccttcaccctcaaggtgttcatcttccagttcgtcaacttctactcctcacccgtc tacattgccttcttcaagggcaggtttgtgggatacccaggcaactaccacaccttgttt ggagtccgcaatgaggagtgcgcggctggaggctgcctgatcgagctggcacaggagctc ctggtcatcatggtgggcaagcaggtcatcaacaacatgcaggaggtcctcatcccgaag ctaaagggctggtggcagaagttccggcttcgctccaagaagaggaaggcgggagcttct gcaggggctagccaggggccctgggaggacgactatgagcttgtgccctgtgagggtctg tttgacgagtacctggaaatgggagcaggtttctgccccaacgcctgccctgagttagtt cctgagctcaccgagccggagaaggcccgtgaccagccagaagcacggagcgcagggcag gacagccggcctgaggccgtgctgcagttcggcttcgtcaccatcttcgtggccgcctgt ccgctcgcgccgctcttcgccctgctcaacaactgggtggagatccgcttggacgcgcgc aagttcgtctgcgagtaccggcgcccggtggccgagcgcgcccaggacatcggcatctgg ttccacatcctggcgggcctcacgcacctggcggtcatcagcaacgccttcctcctggcc ttctcgtccgacttcctgccgcgcgcctactaccggtggacccgcgcccacgacctgcgc ggcttcctcaacttcacgctggcgcgagccccgtcctccttcgccgccgcgcacaaccgc acgtgcaggtatcgggctttccgggatgacgatggacattattcccagacctactggaat cttcttgccatccgcctggccttcgtcattgtgtttgaggtagccgaggcacctgctggt tctcccatccatggcatgaggccccgaccctgtgctttgcctaattcgagcacgtgctgc tttctgactccacccacagctgggagcaggtgccggagccccggcctgcctggccctgtg aaggccactctgggcgtttgggtgggccatgtggttttctccgttggccgcctcctggac ctcctggtgcctgacatcccagagtctgtggagatcaaagtgaagcgggagtactacctg gctaagcaggcactggctgagaatgagggagggaccgtcagctcacaaggccctctttgt ttcctgctcccagacataagcccaaggggcccctgcacccaagggaccctgtccctcggt ggcctccccaggcccctggacacgacagttctcctcaggcaggtgggctttgtggtcctc gccgcccctggccacatcgccctctcctcttacacctggtga >gi568815596r:241129604_241366869|GENSCAN_predicted_peptide_3|1539_aa MCPALTAPIVHWTNTIWNIRFAPHPRANSAASNPIPYPLLPVRASLVQTFVASPRRRPST DDSAEEFPQGQQGVTGIPTPAPGPARVGATVAGTRTARDGGAHDKCRRAWARPPLPHTAP PAPQSQPTTAREYGTSGASPAAPREGRPTTCAGYTGETLTRQTAREQAPTDRAADPPSAR GHIWQCPETFVVVVTYNHLVVVARDAYILWYTGQPPQQKYSTQNVSSAEVEEPCCKGNTI TVGVGACVGFKPCLGDDPWSAAPPNPFSMAPLQRVPVSPHPAPTILNSTRGLAAGCADLT PFPGKSWQADRGGLRTDLLATDRFAVATLNSEEESDPPTYKDAFPPLPEKAACLESAQEP AGAWGNKIRPIKASVITQVFHVPLEERKYKDMNQFGEGEQAKICLEIMQRTGAHLELSLA KDQGLSIMVSGKLDAVMKARKDIVARLQTQASATVAIPKEHHRFVIGKNGEKLQDLELKT ATKIQIPRPDDPSNQIKITGTKEGIEKARHEVLLISAEQDKRAVERLEVEKAFHPFIAGP YNRLVGEIMQETGTRINIPPPSVNRTEIVFTGEKEQLAQAVARIKKIYEEKKKKTTTIAV EVKKSQHKYVIGPKGNSLQEILERTGVSVEIPPSDSISETVILRGEPEKLGQALTEVYAK ANSFTVSSVAAPSWLHRFIIGKKGQNLAKITQQMPKVHIEFTEGEDKITLEGPTEDVNVA QEQIEGMVKDLINRMDYVEINIDHKFHRHLIGKSGANINRIKDQYKVSVRIPPDSEKSNL IRIEGDPQGVQQAKRELLELASRMENERTKDLIIEQRFHRTIIGQKGERIREIRDKFPEV IINFPDPAQKSDIVQLRGPKNEVEKCTKYMQKMVADLIREESNTKIDLPAENSNSETIII TGKRANCEAARSRILSIQKDLANIAEVEVSIPAKLHNSLIGTKGRLIRSIMEECGGVHIH FPVEGSGSDTVVIRGPSSDVEKAKKQLLHLAEEKQTKSFTVDIRAKPEYHKFLIGKGGGK IRKVRDSTGARVIFPAAEDKDQDLITIIGKEDAVREAQKELEALIQNLDNVVEDSMLVDP KHHRHFVIRRGQVLREIAEEYGGVMVSFPRSGTQSDKVTLKGAKDCVEAAKKRIQEIIED LEAQVTLECAIPQKFHRSVMGPKGSRIQQITRDFSVQIKFPDREENAVHSTEPVVQENGD EAGEGREAKDCDPGSPRRCDIIIISGRKEKCEAAKEALEALVPVTIEVEVPFDLHRYVIG QKGSGIRKMMDEFEVNIHVPAPELQSDIIAITGLAANLDRAKAGLLERVKELQAEQEDRA LRSFKLSVTVDPKYHPKIIGRKGAVITQIRLEHDVNIQFPDKDDGNQPQDQITITGYEKN TEAARDAILRIVGELEQMVSEDVPLDHRVHARIIGARGKAIRKIMDEFKVDIRFPQSGAP DPNCVTVTGLPENVEEAIDHILNLEEEYLADVVDSEALQVYMKPPAHEEAKAPSRGFVVR DAPWTASSSEKAPDMSSSEEFPSFGAQVAPKTLPWGPKR >gi568815596r:241129604_241366869|GENSCAN_predicted_CDS_3|4620_bp atgtgccctgccctcacagcaccaatagtccactggacaaataccatctggaacatcagg tttgctcctcatccccgggccaactcggcggcctccaaccctataccctaccccctgctg cctgtccgtgcctcgctggtgcagaccttcgtcgcctctcctcgccgaaggcccagcacc gacgacagtgcagaggaattcccgcagggtcaacaaggggtcaccggaatccccactccc gcgcccgggcctgcccgtgtcggagccactgtcgccggcactaggaccgcccgggacggg ggagcccacgataagtgccgaagagcctgggctcggccgcccctcccccacaccgccccg ccggcaccccagagccagccgaccaccgcccgagagtatgggacgagcggcgcgtccccc gcagctcctcgggagggccggcccacaacttgtgcggggtacaccggcgagacactcacc cgccaaacagcccgagaacaggcgccgaccgaccgcgccgcggacccgcccagcgctcgc gggcacatctggcagtgtccagagacctttgtggttgtcgtgacctacaatcatctggtg gttgtggccagagatgcttacatcctgtggtacacagggcagcccccgcaacagaagtat tcgactcaaaatgtcagcagcgctgaggttgaggagccctgctgtaaagggaacaccatt acagttggggtgggggcctgcgtgggcttcaagccctgccttggagatgacccctggtcc gctgctcctcctaaccccttcagcatggctccactgcagcgggttcctgtcagcccccac ccagctcccaccatcctcaacagcacccgtggcctggctgcaggctgtgcggacctgacc ccattccctggcaaaagctggcaggctgacagaggcggcctcaggacggaccttctggct actgaccgttttgctgttgccactctaaattcagaagaggagagcgaccctccaacctac aaggatgccttccctccacttcctgagaaagctgcttgcctggaaagtgcccaggaaccc gctggagcctgggggaacaagatccgacccatcaaggcttctgtcatcactcaggtgttc catgtacccctggaggagagaaaatacaaggatatgaaccagtttggagaaggtgaacaa gcaaaaatctgccttgagatcatgcagagaactggtgctcacttggagctgtctttggcc aaagaccaaggcctctccatcatggtgtcaggaaagctggatgctgtcatgaaagctcgg aaggacattgttgctagactgcagactcaggcctcagcaactgttgccattcccaaagaa caccatcgctttgttattggcaaaaatggagagaaactgcaagacttggagctaaaaact gcaaccaaaatccagatcccacgcccagatgaccccagcaatcagatcaagatcactggc accaaagagggcatcgagaaagctcgccatgaagtcttactcatctctgccgagcaggac aaacgtgctgtggagaggctagaagtagaaaaggcattccaccccttcatcgctgggccg tataatagactggttggcgagatcatgcaggagacaggcacgcgcatcaacatcccccca cccagcgtgaaccggacagagattgtcttcactggagagaaggaacagttggctcaggct gtggctcgcatcaagaagatttatgaggagaagaaaaagaagactacaaccattgcagtg gaagtgaagaaatcccaacacaagtatgtcattgggcccaagggcaattcattgcaggag atccttgagagaactggagtttccgttgagatcccaccctcagacagcatctctgagact gtaatacttcgaggcgaacctgaaaagttaggtcaggcgttgactgaagtctatgccaag gccaatagcttcaccgtctcctctgtcgccgccccttcctggcttcaccgtttcatcatt ggcaagaaagggcagaacctggccaaaatcactcagcagatgccaaaggttcacatcgag ttcacagagggcgaagacaagatcaccctggagggccctacagaggatgtcaatgtggcc caggaacagatagaaggcatggtcaaagatttgattaaccggatggactatgtggagatc aacatcgaccacaagttccacaggcacctcattgggaagagcggtgccaacataaacaga atcaaagaccagtacaaggtgtccgtgcgcatccctcctgacagtgagaagagcaatttg atccgcatcgagggggacccacagggcgtgcagcaggccaagcgagagctgctggagctt gcatctcgcatggaaaatgagcgtaccaaggatctaatcattgagcaaagatttcatcgc acaatcattgggcagaagggtgaacggatccgtgaaattcgtgacaaattcccagaggtc atcattaactttccagacccagcacaaaaaagtgacattgtccagctcagaggacctaag aatgaggtggaaaaatgcacaaaatacatgcagaagatggtggcagatctgattcgtgaa gaaagcaacaccaaaatcgaccttccagcagagaatagcaattcagagaccattatcatc acaggcaagcgagccaactgcgaagctgcccggagcaggattctgtctattcagaaagac ctggccaacatagccgaggtagaggtctccatccctgccaagctgcacaactccctcatt ggcaccaagggccgtctgatccgctccatcatggaggagtgcggcggggtccacattcac tttcccgtggaaggttcaggaagcgacaccgttgttatcaggggcccttcctcggatgtg gagaaggccaagaagcagctcctgcatctggcggaggagaagcaaaccaagagtttcact gttgacatccgcgccaagccagaataccacaaattcctcatcggcaaggggggcggcaaa attcgcaaggtgcgcgacagcactggagcacgtgtcatcttccctgcggctgaggacaag gaccaggacctgatcaccatcattggaaaggaggacgccgtccgagaggcacagaaggag ctggaggccttgatccaaaacctggataatgtggtggaagactccatgctggtggacccc aagcaccaccgccacttcgtcatccgcagaggccaggtcttgcgggagattgctgaagag tatggcggggtgatggtcagcttcccacgctctggcacacagagcgacaaagtcaccctc aagggcgccaaggactgtgtggaggcagccaagaaacgcattcaggagatcattgaggac ctggaagctcaggtgacattagaatgtgctataccccagaaattccatcgatctgtcatg ggccccaaaggttccagaatccagcagattactcgggatttcagtgttcaaattaaattc ccagacagagaggagaacgcagttcacagtacagagccagttgtccaggagaatggggac gaagctggggaggggagagaggctaaagattgtgaccccggctctccaaggaggtgtgac atcatcatcatctctggccggaaagaaaagtgtgaggctgccaaggaagctctggaggca ttggttcctgtcaccattgaagtagaggtgccctttgaccttcaccgttacgttattggg cagaaaggaagtgggatccgcaagatgatggatgagtttgaggtgaacatacatgtcccg gcacctgagctgcagtctgacatcatcgccatcacgggcctcgctgcaaatttggaccgg gccaaggctggactgctggagcgtgtgaaggagctacaggccgagcaggaggaccgggct ttaaggagttttaagctgagtgtcactgtagaccccaaataccatcccaagattatcggg agaaagggggcagtaattacccaaatccggttggagcatgacgtgaacatccagtttcct gataaggacgatgggaaccagccccaggaccaaattaccatcacagggtacgaaaagaac acagaagctgccagggatgctatactgagaattgtgggtgaacttgagcagatggtttct gaggacgtcccgctggaccaccgcgttcacgcccgcatcattggtgcccgcggcaaagcc attcgcaaaatcatggacgaattcaaggtggacattcgcttcccacagagcggagcccca gaccccaactgcgtcactgtgacggggctcccagagaatgtggaggaagccatcgaccac atcctcaatctggaggaggaatacctagctgacgtggtggacagtgaggcgctgcaggta tacatgaaacccccagcacacgaagaggccaaggcaccttccagaggctttgtggtgcgg gacgcaccctggaccgccagcagcagtgagaaggctcctgacatgagcagctctgaggaa tttcccagctttggggctcaggtggctcccaagaccctcccttggggccccaaacgataa >gi568815596r:241129604_241366869|GENSCAN_predicted_peptide_4|332_aa MSKQQPTQFINPETPGYVGFANLPNQVHRKSVKKGFEFTLMVVEKIERTVQIEASTVEIE ERGVKLRLTVVDTPGYGDAINCRDCFKTIISYIDEQFERYLHDESGLNRRHIIDNRVHCC FYFISPFGHGLKPLDVAFMKAIHNKVNIVPVIAKADTLTLKERERLKKRILDEIEEHNIK IYHLPDAESDEDEDFKEQTRLLKASIPFSVVGSNQLIEAKGKKVRGRLYPWGVVEVENPE HNDFLKLRTMLITHMQDLQEVTQDLHYENFRSERLKRGGRKVENEDMNKDQILLEKEAEL RRMQEMIARMQAQMQMQMQGGDGDGGALGHHV >gi568815596r:241129604_241366869|GENSCAN_predicted_CDS_4|999_bp atgtctaagcaacagccaactcagtttataaatccagaaacacctggctatgttggattt gcaaacctccccaatcaagttcaccgaaaatcagtgaaaaaaggttttgagttcacactg atggtggtcgaaaaaattgaaagaactgtccagattgaggcttcaactgttgaaattgaa gagcgaggggtcaagctacgcctgacagtggtagatacccctggctatggtgacgctatc aactgcagagattgttttaagacaattatctcctatattgatgagcaatttgagaggtac ctgcatgacgagagcggcttgaacaggcggcacatcattgataatagggtgcattgttgc ttttactttatttcaccttttggacatggacttaagcccttagatgtggcgtttatgaag gcaatacacaacaaggtgaatattgtgcctgtcattgcaaaagctgacactctcaccctg aaggaacgggagcggctgaagaaaaggattctggatgaaattgaagaacataacatcaaa atctatcacttacctgatgcagaatcagatgaagatgaagattttaaagagcagactaga cttctcaaggctagcatcccattctctgtggttggatccaatcagttgattgaagccaaa ggaaagaaggtcagaggccgcctctacccctggggtgttgtggaagtggagaacccagag cacaatgactttctgaagctgagaaccatgctcatcacccacatgcaggatctccaggag gtgacccaggaccttcattatgaaaacttccgttctgagagactcaagagaggcggcagg aaagtggagaatgaggacatgaataaagaccagatcttgctggaaaaagaagctgagctc cgccgcatgcaagagatgattgcaaggatgcaggcgcagatgcagatgcagatgcagggc ggggatggcgatggcggggctctcgggcaccacgtgtaa >gi568815596r:241129604_241366869|GENSCAN_predicted_peptide_5|97_aa MAFRGRAGPSLVDRGLSAPPAWASRLGPRASPPTRRGPPLPHAPRPLHVLTLGLSLARRV LTGLARPPQSQAAAARLASASPAPNCPPAAPAQRAPP >gi568815596r:241129604_241366869|GENSCAN_predicted_CDS_5|294_bp atggccttcagaggccgggcgggaccatctctggtggaccgcggcctcagcgcccccccc gcctgggcctctcgcctcgggcctcgggcttcgccgcccacccggagaggcccacccctg ccccacgcgcccaggccgcttcacgtcctcaccctcggcctctcgctcgcccgccgcgtc ctcaccggcctcgcccggcctccgcagtcgcaagcagcagccgccagactcgcgtcggcg tcgcctgctcccaactgcccgccggcagcccccgcgcagcgcgccccgccctga