GENSCAN 1.0 Date run: 6-Nov-116 Time: 09:59:02 Sequence gi568815592r:30643939_30844518 : 200580 bp : 48.71% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 1957 2036 80 0 2 106 111 22 0.320 4.65 1.02 Intr + 2531 2637 107 2 2 92 31 82 0.086 2.76 1.03 Intr + 5966 6021 56 0 2 79 107 25 0.183 2.20 1.04 Intr + 7056 7144 89 2 2 79 52 124 0.967 6.67 1.05 Intr + 7328 7528 201 2 0 109 111 128 0.999 15.60 1.06 Intr + 8710 8779 70 1 1 113 87 64 0.999 7.98 1.07 Term + 8864 8977 114 1 0 111 42 116 0.999 7.87 1.08 PlyA + 9141 9146 6 1.05 2.21 PlyA - 9220 9215 6 1.05 2.20 Term - 9432 9304 129 0 0 92 48 62 0.916 0.78 2.19 Intr - 10941 10768 174 0 0 91 94 180 0.989 19.04 2.18 Intr - 11398 11237 162 1 0 73 82 139 0.695 11.97 2.17 Intr - 11659 11497 163 0 1 125 43 224 0.938 21.58 2.16 Intr - 12327 12260 68 0 2 112 74 97 0.999 8.40 2.15 Intr - 12571 12453 119 2 2 83 113 146 0.999 16.78 2.14 Intr - 12821 12659 163 2 1 122 28 149 0.999 11.85 2.13 Intr - 13154 13014 141 2 0 75 82 74 0.984 6.05 2.12 Intr - 15686 15534 153 2 0 89 86 223 0.984 22.47 2.11 Intr - 15896 15786 111 2 0 137 40 97 0.505 10.38 2.10 Intr - 16304 16094 211 1 1 106 44 318 0.994 28.12 2.09 Intr - 18848 18689 160 0 1 101 70 154 0.396 13.95 2.08 Intr - 19083 18993 91 0 1 91 37 93 0.396 4.07 2.07 Intr - 21054 20863 192 0 0 110 77 212 0.984 21.99 2.06 Intr - 21336 21133 204 0 0 78 94 277 0.999 26.70 2.05 Intr - 21795 21541 255 0 0 82 94 472 0.999 44.84 2.04 Intr - 26528 26472 57 2 0 134 101 137 0.999 18.68 2.03 Intr - 27014 26852 163 1 1 45 63 347 0.999 27.88 2.02 Intr - 27336 27098 239 0 2 102 110 253 0.999 25.31 2.01 Init - 28903 28685 219 1 0 116 23 262 0.599 20.33 2.00 Prom - 29411 29372 40 -9.65 3.08 PlyA - 32472 32467 6 1.05 3.07 Term - 33350 33331 20 0 2 129 47 14 0.881 -0.12 3.06 Intr - 35451 35241 211 0 1 132 94 365 0.963 39.99 3.05 Intr - 42108 40470 1639 2 1 122 91 788 0.754 70.19 3.04 Intr - 45004 44727 278 1 2 111 42 140 0.950 8.01 3.03 Intr - 45514 45338 177 1 0 84 94 132 0.999 13.52 3.02 Intr - 46305 46109 197 1 2 72 80 97 0.993 6.43 3.01 Init - 47036 46904 133 2 1 102 88 232 0.942 22.90 3.00 Prom - 53208 53169 40 -4.46 4.14 PlyA - 54557 54552 6 1.05 4.13 Term - 56694 56527 168 0 0 112 54 50 0.962 1.88 4.12 Intr - 58725 58615 111 0 0 85 91 21 0.864 2.68 4.11 Intr - 58939 58814 126 1 0 81 78 135 0.998 12.68 4.10 Intr - 59348 59166 183 2 0 102 94 147 0.999 16.68 4.09 Intr - 59599 59480 120 1 0 78 69 91 0.992 6.89 4.08 Intr - 62160 59683 2478 0 0 146 78 451 0.491 37.25 4.07 Intr - 63516 63446 71 1 2 97 76 37 0.647 2.30 4.06 Intr - 64419 63628 792 1 0 166 115 84 0.545 10.34 4.05 Intr - 67788 67729 60 1 0 81 100 66 0.981 5.81 4.04 Intr - 69416 67936 1481 1 2 97 103 1025 0.994 94.28 4.03 Intr - 69779 69710 70 0 1 105 105 -10 0.998 0.64 4.02 Intr - 70245 69865 381 1 0 65 97 153 0.794 8.78 4.01 Init - 71273 71102 172 2 1 66 77 161 0.808 12.40 4.00 Prom - 71739 71700 40 -3.56 5.00 Prom + 71968 72007 40 -4.56 5.01 Init + 76569 76625 57 2 0 78 116 65 0.933 9.62 5.02 Intr + 78599 78707 109 1 1 76 110 246 0.999 25.46 5.03 Intr + 78980 79090 111 0 0 94 97 97 0.996 11.55 5.04 Term + 79402 80459 1058 2 2 96 48 1667 0.978 155.80 5.05 PlyA + 80620 80625 6 1.05 6.13 PlyA - 83797 83792 6 1.05 6.12 Term - 84207 84178 30 0 0 75 52 2 0.240 -6.85 6.11 Intr - 86248 86084 165 1 0 95 94 146 0.921 16.06 6.10 Intr - 86627 86490 138 2 0 70 41 178 0.989 11.96 6.09 Intr - 86789 86744 46 1 1 148 100 -11 0.984 4.51 6.08 Intr - 87162 86981 182 0 2 90 23 334 0.998 25.77 6.07 Intr - 96372 96220 153 0 0 97 71 249 0.999 24.37 6.06 Intr - 96653 96558 96 2 0 100 80 53 0.907 5.91 6.05 Intr - 96860 96741 120 2 0 73 98 119 0.999 12.09 6.04 Intr - 97395 97252 144 0 0 85 36 203 0.997 15.28 6.03 Intr - 97766 97676 91 1 1 152 72 101 0.999 14.90 6.02 Intr - 97929 97854 76 1 1 83 80 55 0.948 2.77 6.01 Init - 98221 98209 13 1 1 91 131 15 0.717 5.45 6.00 Prom - 98503 98464 40 -12.59 7.03 PlyA - 99284 99279 6 1.05 7.02 Term - 100258 99998 261 1 0 155 36 399 0.999 36.93 7.01 Init - 100550 100341 210 2 0 97 45 337 0.886 27.09 7.00 Prom - 124263 124224 40 -2.16 8.03 PlyA - 124476 124471 6 1.05 8.02 Term - 125063 124980 84 2 0 66 46 72 0.101 -1.55 8.01 Init - 128104 128063 42 1 0 93 80 77 0.911 7.82 8.00 Prom - 128185 128146 40 -5.46 9.00 Prom + 129849 129888 40 -5.76 9.01 Init + 131493 131522 30 2 0 75 82 30 0.226 -0.11 9.02 Intr + 136547 136679 133 1 1 50 78 104 0.638 5.82 9.03 Term + 137642 137751 110 0 2 101 38 61 0.947 1.07 9.04 PlyA + 137785 137790 6 -0.45 10.07 PlyA - 138828 138823 6 1.05 10.06 Term - 144160 144044 117 1 0 3 54 124 0.563 -0.96 10.05 Intr - 145563 145473 91 2 1 71 96 56 0.888 4.70 10.04 Intr - 154834 154636 199 2 1 55 52 106 0.195 2.11 10.03 Intr - 163591 163414 178 1 1 42 81 100 0.250 4.19 10.02 Intr - 170502 170288 215 1 2 17 94 192 0.317 11.13 10.01 Init - 172474 172270 205 1 1 97 44 145 0.327 8.30 10.00 Prom - 174990 174951 40 -5.46 11.07 PlyA - 176971 176966 6 1.05 11.06 Term - 179563 179459 105 1 0 24 48 131 0.566 1.11 11.05 Intr - 185820 185746 75 0 0 42 100 41 0.333 0.41 11.04 Intr - 186714 186577 138 0 0 96 99 12 0.552 3.76 11.03 Intr - 191923 191842 82 0 1 54 81 18 0.366 -2.66 11.02 Intr - 200340 200280 61 1 1 117 77 9 0.066 0.49 11.01 Intr - 200416 200378 39 2 0 103 83 61 0.557 5.30 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): >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_1|238_aa GDSPRSGSPKLLLQPPWGGEFLIPQYRSASEEQALSQDGSGEKPMHTAPPQAPAPPAQSW TVGDPSMEEHLSVMYERLRQELPKLFLQSHDYSLYSLDVEFINEILNIRTKGRTWYILSL TLCRFLAWNYFAHLRLEVLQLTRHPENWTLQARWRLVGLPVHLLFLRFYKRDKDEHYRTY DAYSTFYLNSSGLICRHRLDKLMPSHSPPTPVKKLLVGALVALGLSEPEPDLNLCSKP >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_1|717_bp ggggactcccccaggtctggtagcccaaagctgctgctacagccgccatgggggggtgaa ttcctcatcccccaatacaggtctgccagtgaggagcaggccttgtcacaggatgggtct ggggagaagcccatgcacacagctcctccacaggccccggccccgccagcccagtcctgg acagtgggagatcctagtatggaggaacatctgtctgtcatgtatgagagactgagacaa gagcttcccaagctcttccttcagtcccacgactacagtctgtattccttggatgtggaa ttcatcaatgagatcctcaacatacgtaccaagggccggacatggtacattctttcactg accctctgccgtttcctggcctggaattattttgcacaccttcgtttggaggttttacag ctgacccgccaccctgagaactggaccctgcaagcccggtggcggcttgtggggctgccc gtccacttgctctttttgcggttctacaagcgtgacaaagacgagcattaccggacctat gatgcctactccactttctacctgaattccagtggcctcatttgtcgccatcgtctagat aaactgatgccttcacactcacctccaacgcctgtgaagaagctgctagtgggagccctg gtggccctggggctgtcagagccagaacctgacttaaacctgtgttccaagccctga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_2|1057_aa MATPAGLERWVQDELHSVLGLSERHVAQFLIGTAQRCTSAEEFVQRLRDTDTLDLSGPAR DFALRLWNKVSAGVPRKAVVEKPARAAEREARALLEKNRSYRLLEDSEESSEETVSRAGS SLQKKRKKRKHLRKKREEEEEEEASEKGKKKTGGSKQQTEKPESEDEWERTERERLQDLE ERDAFAERVRQRDKDRTRNVLERSDKKAYEEAQKRLKMAEEDRKAMVPELRKKSRREYLA KREREKLEDLEAELADEEFLFGDVELSRHERQELKYKRRVRDLAREYRAAGEQEKLEATN RYHMPKETRGQPARAVDLVEEESGAPGEEQRRWEEARLGAASLKFGARDAASQEPKYQLV LEEEETIEFVRATQLQGDEEPSAPPTSTQAQQKESIQAVRRSLPVFPFREELLAAIANHQ VLIIEGETGSGKTTQIPQYLFEEGYTNKGMKIACTQPRRVAAMSVAARVAREMGHTSPHL VANGSLDQVGYSIRFEDCTSERTVLRYMTDGMLLREFLSEPDLASYSVVMVDEAHERTLH TDILFGLIKDVARFRPELKVLVASATMDTARFSTFFDDAPVFRIPGRRFPVDIFYTKAPE ADYLEACVVSVLQIHVTQPPGDILVFLTGQVPDMEEIEAACEMLQDRCRRLGSKIRELLV LPIYANLPSDMQARIFQPTPPGARKVVVATNIAETSLTIEGIIYVLDPGFCKQKSYNPRT GMESLTVTPCSKASANQRAGRAGRVAAGKCFRLYTAWAYQHELEETTVPEIQRTSLGNVV LLLKSLGIHDLMHFDFLDPPPYETLLLALEQLYALGALNHLGELTTSGRKMAELPVDPML SKMILASEKYSCSEEILTVAAMLSVNNSIFYRPKDKVVHADNARVNFFLPGGDHLVLLNV YTQWAESGYSSQWCYENFVQFRSMRRARDVREQLEGLLERVEVGLSSCQGDYIRVRKAIT AGYFYHTARLTRSGYRTVKQQQTVFIHPNSSLFEQQPRWLLYHELVLTTKEFMRQVLEIE SSWLLEVAPHYYKAKELEDPHAKKMPKKIGKTREELG >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_2|3174_bp atggcgacgccggcgggtctggagcgctgggttcaggacgagctgcactcggtgttgggg ctgagcgagcggcacgtcgcccagtttctgatcggtaccgcacagcgctgcacctctgcc gaggagttcgtgcagcgcctacgagacactgataccttggatctcagtgggccggcccgg gacttcgccctgagactctggaacaaggtgtcggcaggggtaccacgaaaggcagtggta gaaaagccagctcgggcagcagagcgagaggcccgggccctgctggagaagaaccgatct tataggttactggaagacagtgaagagagcagtgaggagactgtgagtagggctggaagc agcctccagaagaaacgtaaaaagcggaaacacctcaggaagaagcgtgaggaagaagag gaggaagaggcttctgagaaagggaagaagaaaacaggggggagtaaacagcagacagag aagccagagtcggaagatgagtgggaacggacagagcgtgaacgccttcaggacctggag gagcgtgatgcctttgctgagcgggttcgacagcgggacaaggatcggactcgaaatgtc ctggaacggtcagacaagaaggcttatgaagaggctcagaagcgcctcaagatggccgag gaagaccggaaggccatggtccctgagctgcggaagaaatctcgccgagagtacctggct aagcgggagcgagagaagcttgaggacctggaggcggagctggctgatgaggagttcctt tttggggacgtggagctgagccggcacgagcggcaggagctcaaatataagcggcgagtg cgggatctcgcccgggagtaccgggcagctggggagcaggagaagctggaggccaccaat cgctaccacatgcccaaggaaacccgaggacagccagcccgagctgtggatctagtggag gaggaatcaggagcccctggggaggagcagcggcgctgggaggaggcgcggcttggggca gcgtccctgaagtttggggcccgagatgctgcctctcaggagcccaagtatcaactggtg ctggaggaggaggagaccattgagtttgtccgggccactcagctccagggtgatgaggag ccgtcagctccacccacttcaactcaggcccagcagaaagagtccatccaggccgtccgc cgcagcctcccggtgttcccatttcgagaggagctcctggctgctattgcaaatcaccaa gtcctcatcattgaaggcgagacaggctcagggaagaccacccagatcccgcagtatctc tttgaggagggttatacaaacaagggtatgaagattgcctgcacccaaccccggagagtg gctgccatgagtgtggccgcccgagtggcccgggagatggggcacaccagcccacacttg gttgctaatggttcccttgaccaggttggctacagcatccgctttgaggactgcacatca gagcgaactgtcctccgctacatgacagatgggatgcttctccgggagttcctctctgag cctgacctggcgagttacagcgtggtgatggtggatgaggcacacgaaaggaccctacac acagacattctctttggattgatcaaggatgttgctcgcttccgacctgagctcaaggtc ctggtggcttcagccacaatggacactgcccgtttttccaccttctttgatgacgcccct gtgtttcgaatccccggacgcaggtttcctgtggacatcttctacaccaaggctccagag gctgactacttggaagcttgtgtagtatctgtgttgcagatccatgtgacccagccccct ggggatatcctggtgttcctgacaggacaggtgcctgacatggaggagattgaggctgcc tgtgagatgctccaggatcgctgccgccgcctgggctccaaaatccgggagctcctggtg ctgcccatttatgccaatctgccctctgacatgcaggcccgtatcttccagcccacacca cctggggcacgaaaggtggttgtggcaacgaacattgctgagacatcactcaccattgag ggcatcatttatgtgctggatccagggttctgtaagcagaagagctacaacccccgcaca ggcatggaatcgctcactgtcacaccctgcagcaaggcctcagccaatcagcgagctggc agggcaggtcgggtggctgcagggaagtgcttccgcctgtataccgcctgggcctatcag cacgagcttgaggaaaccacagtgcctgagatccagaggaccagcttgggcaatgtcgtg ttgctgctcaagagcttagggatccatgacctaatgcactttgatttcctggaccctcca ccatatgagacactgctgctggctttggagcagctgtatgctctgggagccctcaaccac cttggggagctcaccacgtctggtcgaaagatggcagagctgccggtggaccccatgctg tccaaaatgatcttagcctctgagaagtacagctgttcagaggagatcctgacagtggct gccatgctctctgtcaacaactccatcttctaccgaccaaaggacaaggtcgtccatgct gacaatgcccgtgtcaacttctttctccctggcggtgaccacctggttctgctaaatgtt tacacacagtgggctgagagtggttactcttcccagtggtgctatgagaactttgtacag ttcagatcgatgcgccgagcccgggatgtgcgggaacagctggaagggctcttggaacgt gtggaagttggtctcagttcctgccagggggactatatccgtgtacgcaaggccatcact gctggttacttttaccacacggcacggttgactcggagtggctaccgcacagtgaaacag cagcagacagtcttcattcatcccaactcctccctctttgagcaacagccacgctggctg ctctaccacgaacttgtcttgaccaccaaagagttcatgagacaggtactggagattgag agcagttggcttctggaggtggctccccattattataaggccaaggagctagaagatccc catgctaagaaaatgcccaaaaaaataggcaaaacacgagaagagctagggtaa >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_3|884_aa MAPALLLIPAALASFILAFGTGVEFVRFTSLRPLLGGIPESGGPDARQGWLAALQDRSIL APLAWDLGLLLLFVGQHSLMAAERVKAWTSRYFGVLQRSLYVACTALALQLVMRYWEPIP KGPVLWEARAEPWATWVPLLCFVLHVISWLLIFSILLVFDYAELMGLKQVYYHVLGLGEP LALKSPRALRLFSHLRHPVCVELLTVLWVVPTLGTDRLLLAFLLTLYLGLAHGLDQQDLR YLRAQLQRKLHLLSRPQDGEADAPYPHLKTTMATIPDWKLQLLARRRQEEASVRGREKAE RERLSQMPAWKRGLLERRRAKLGLSPGEPSPVLGTVEAGPPDPDESAVLLEAIGPVHQNR FIRQERQQQQQQQQRSEELLAERKPGPLEARERRPSPGEMRDQSPKGRESREERLSPRET RERRLGIGGAQELSLRPLEARDWRQSPGEVGDRSSRLSEAWKWRLSPGETPERSLRLAES REQSPRRKEVESRLSPGESAYQKLGLTEAHKWRPDSRESQEQSLVQLEATEWRLRSGEER QDYSEECGRKEEWPVPGVAPKETAELSETLTREAQGNSSAGVEAAEQRPVEDGERGMKPT EGWKWTLNSGKAREWTPRDIEAQTQKPEPPESAEKLLESPGVEAGEGEAEKEEAGAQGRP LRALQNCCSVPSPLPPEDAGTGGLRQQEEEAVELQPPPPAPLSPPPPAPTAPQPPGDPLM SRLFYGVKAGPGVGAPRRSGHTFTVNPRRSVPPATPATPTSPATVDAAVPGAGKKRYPTA EEILVLGGYLRLSRSCLAKGSPERHHKQLKISFSETALETTYQYPSESSVLEELGPEPEV PSAPNPPAAQPDDEEDEEELLLLQPELQGGLRTKALIVDESCRR >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_3|2655_bp atggcccctgcactgctcctgatccctgctgccctcgcctctttcatcctggcctttggc accggagtggagttcgtgcgctttacctcccttcggccacttcttggagggatcccggag tctggtggtccggatgcccgccagggatggctggctgccctgcaggaccgcagcatcctt gcccccctggcatgggatctggggctcctgcttctatttgttgggcagcacagcctcatg gcagctgaaagagtgaaggcatggacatcccggtactttggggtccttcagaggtcactg tatgtggcctgcactgccctggccttgcagctggtgatgcggtactgggagcccataccc aaaggccctgtgttgtgggaggctcgggctgagccatgggccacctgggtgccgctcctc tgctttgtgctccatgtcatctcctggctcctcatctttagcatccttctcgtctttgac tatgctgagctcatgggcctcaaacaggtatactaccatgtgctggggctgggcgagcct ctggccctgaagtctccccgggctctcagactcttctcccacctgcgccacccagtgtgt gtggagctgctgacagtgctgtgggtggtgcctaccctgggcacggaccgtctcctcctt gctttcctccttaccctctacctgggcctggctcacgggcttgatcagcaagacctccgc tacctccgggcccagctacaaagaaaactccacctgctctctcggccccaggatggggag gcagatgctccctaccctcacctcaagacgaccatggccaccatcccagactggaagcta cagctgctagcccggcgccggcaggaggaggcgtccgttcgaggccgagagaaagcagaa cgggagcgcctgtcccagatgccagcctggaaacgagggctcctggagcgccgccgggcc aagcttgggctgtcccctggggagcctagccctgtgctagggactgtagaggctggacct ccagacccggatgagtctgcggtccttctggaggccatcgggccagtgcaccagaaccga ttcatccggcaggagcggcagcagcagcagcagcaacaacaacggagtgaagagctgcta gcagagagaaagcctgggcctctggaggcccgggagcggagacccagccctggggagatg cgggatcagagccccaagggaagagagtcaagagaagagagactaagtccgagggagacc agagagaggaggctggggatagggggagcccaagagttgagcctgaggcctctggaggct cgggactggaggcaaagcccaggagaggtgggagacaggagctcccgactgtcagaggca tggaaatggaggctgagtcctggagaaactccagagcggagtctgagactagcagagtct cgagagcaaagccccaggagaaaagaggtggaaagtagactgagcccaggggaatctgcc taccagaagttgggcctgacagaggcccataaatggagacctgactccagagagtctcag gaacagagtttggtacaactggaggcaacagagtggaggctgaggtcaggagaagaaaga caagactactcggaagaatgtgggagaaaagaagagtggccagttccaggggtagctcca aaagagactgcagagctgtccgagaccctgacaagggaggcccaaggcaacagttccgca ggagtggaggcagcagagcagaggcctgtggaagatggcgagaggggcatgaagccaaca gaagggtggaaatggaccctgaactccgggaaggctcgagaatggacacccagggacata gaggctcaaactcagaaaccagaacctccagagtcagcagagaagcttctggaatctccc ggtgtggaggctggagaaggggaggctgagaaggaggaggcgggggctcagggcaggcct ctgagagccctgcagaactgctgctctgtgccctcccccctcccaccagaggacgctggg actggaggcctgagacagcaggaagaggaagcagtggagctccagcccccaccaccagcc cctctgtctcccccacccccagccccaactgccccccaacctcctggggatcccctcatg agccgcctgttctatggggtgaaggcagggccaggggtgggggccccccgccgcagtgga cacaccttcaccgtcaacccccggcggtctgtgccccctgcgaccccagccaccccaacc tctccagccacagttgatgctgcagtcccgggggctgggaagaagcggtacccaactgcc gaggagatcttggttctggggggctacctccgtctcagccgcagctgccttgccaagggg tcccccgaaagacaccacaaacagcttaagatctccttcagcgagacagccctggagacc acgtaccaatacccctccgagagttcggtactggaggagctgggcccggagcctgaggtc cccagtgcccccaaccctccagcagcccaacccgacgacgaagaggatgaggaagagctg ctgctgctgcagccagagctccagggcgggctgcgcaccaaggccctgattgtggatgag tcctgccggcggtga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_4|2070_aa MRIIDNVYPSQIMEDTQAIDWDVEEEEETEQSSESLRCNVEPVGRLHIFSGAHGPEKDFP LHLGKNVVGRMPDCSVALPFPSISKQHAEIEILAWDKAPILRDCGSLNGTQILRPPKVLS PGVSHRLRDQELILFADLLCQYHRLDVSLPFVSRGPLTVEETPRVQGETQPQRLLLAEDS EEEVDFLSERRMVKKSRTTSSSVIVPESDEEGHSPVLGGLGPPFAFNLNSDTDVEEGQQP ATEEASSAARRGATVEAKQSEAEVVTEIQLEKDQPLVKERDNDTKVKRGAGNGVVPAGVI LERSQPPGEDSDTDVDDDSRPPGRPAEVHLERAQPFGFIDSDTDAEEERIPATPVVIPMK KRKIFHGVGTRGPGAPGLAHLQESQAGSDTDVEEGKAPQAVPLEKSQASMVINSDTDDEE EVSAALTLAHLKESQPAIWNRDAEEDMPQRVVLLQRSQTTTERDSDTDVEEEELPVENRE AVLKDHTKIRALVRAHSEKDQPPFGDSDDSVEADKSSPGIHLERSQASTTVDINTQVEKE VPPGSAIIHIKKHQVSVEGTNQTDVKAVGGPAKLLVVSLEEAWPLHGDCETDAEEGTSLT ASVVADVRKSQLPAEGDAGAEWAAAVLKQERAHEVGAQGGPPVAQVEQDLPISRENLTDL VVDTDTLGESTQPQREGAQVPTGREREQHVGGTKDSEDNYGDSEDLDLQATQCFLENQGL EGTLDEPWEVLATQPFCLRESEDSETQPFDTHLEAYGPCLSPPRAIPGDQHPESPVHTEP MGIQGRGRQTVDKVMGIPKETAERVGPERGPLERETEKLLPERQTDVTGEEELTKGKQDR EQKQLLARDTQRQESDKNGESASPERDRESLKVEIETSEEIQEKQVQKQTLPSKAFEREV ERPVANRECDPAELEEKVPKVILERDTQRGEPEGGSQDQKGQASSPTPEPGVGAGDLPGP TSAPVPSGSQSGGRGSPVSPRRHQKGLLNCKMPPAEKASRIRAAEKVSRGDQESPDACLP PTVPEAPAPPQKPLNSQSQKHLAPPPLLSPLLPSIKPTVRKTRQDGSQEAPEAPLSSELE PFHPKPKIRTRKSSRMTPFPATSAAPEPHPSTSTAQPVTPKPTSQATRSRTNRSSVKTPE PVVPTAPELQPSTSTDQPVTSEPTSQVTRGRKSRSSVKTPETVVPTALELQPSTSTDRPV TSEPTSQATRGRKNRSSVKTPEPVVPTAPELQPSTSTDQPVTSEPTYQATRGRKNRSSVK TPEPVVPTAPELRPSTSTDRPVTPKPTSRTTRSRTNMSSVKTPETVVPTAPELQISTSTD QPVTPKPTSRTTRSRTNMSSVKNPESTVPIAPELPPSTSTEQPVTPEPTSRATRGRKNRS SGKTPETLVPTAPKLEPSTSTDQPVTPEPTSQATRGRTNRSSVKTPETVVPTAPELQPST STDQPVTPEPTSQATRGRTDRSSVKTPETVVPTAPELQASASTDQPVTSEPTSRTTRGRK NRSSVKTPETVVPAAPELQPSTSTDQPVTPEPTSRATRGRTNRSSVKTPESIVPIAPELQ PSTSRNQLVTPEPTSRATRCRTNRSSVKTPEPVVPTAPEPHPTTSTDQPVTPKLTSRATR RKTNRSSVKTPKPVEPAASDLEPFTPTDQSVTPEAIAQGGQSKTLRSSTVRAMPVPTTPE FQSPVTTDQPISPEPITQPSCIKRQRAAGNPGSLAAPIDHKPCSAPLEPKSQASRNQRWG AVRAAESLTAIPEPASPQLLETPIHASQIQKVEPAGRSRFTPELQPKASQSRKRSLATMD SPPHQKQPQRGEVSQKTVIIKEEEEDTAEKPGKEEDVVTPKPGKRKRDQAEEEPNRIPSR SLRRTKLNQESTAPKVLFTGVVDARGERAVLALGGSLAGSAAEASHLVTDRIRRTVKFLC ALGRGIPILSLDWLHQSRKAGFFLPPDEYVVTDPEQEKNFGFSLQDALSRARERRLLEGY EIYVTPGVQPPPPQMGEIISCCGGTYLPSMPRSYKPQRVVITCPQDFPHCSIPLRVGLPL LSPEFLLTGVLKQEAKPEAFVLSPLEMSST >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_4|6213_bp atgaggataattgataatgtgtatccttcccagatcatggaggacacccaggctattgac tgggatgttgaagaagaggaggagacagagcaatccagtgaatccttgaggtgtaacgtg gagccagtagggcggctacatatctttagtggtgcccatggaccagaaaaagatttccca ctacacctcgggaagaatgtggtaggccgaatgcctgactgctctgtggccctgcccttt ccatctatctccaaacaacatgcagagattgaaatcttagcctgggacaaggcacctatc ctccgagactgtgggagccttaatggtactcaaatcctgagacctcctaaggttttgagc cctggggtgagtcaccgtctgagggaccaggaattgattctctttgctgacttgctctgc cagtaccatcgcctggatgtctctctgccctttgtctcccggggccctctgacagtagaa gagacacccagagtacagggagaaactcaaccccagaggcttctgttggctgaggactcg gaggaggaagtagattttctttctgaaaggcgtatggtaaaaaaatcaaggaccacatct tcctctgtgatagttccagagagtgatgaagaggggcattccccggtcctgggcggcctt gggccgccttttgccttcaatttgaacagtgacacagatgtggaagaaggtcagcaacca gccacagaggaggcctcctcagctgccagaagaggtgccactgtagaggcaaagcagtct gaagctgaagttgtaactgaaatccagcttgaaaaggatcagcctttagtgaaggagagg gacaatgatacaaaagtcaagaggggtgcagggaatggggtggttccagctggggtgatt ctggagaggagccaacctcctggagaggacagtgacacagatgtggatgatgacagcagg cctcctggaaggccagctgaggtccatttggaaagggctcagccttttggcttcatcgac agcgacactgatgcggaagaagagaggatcccagcaaccccagttgtcattcctatgaag aagaggaagatcttccatggagtaggtacaaggggtcctggagcaccaggcctggcccat ctgcaggagagccaggctggtagtgatacagatgtggaagaaggcaaggccccacaggct gtccctctggagaaaagccaagcttccatggttatcaacagcgatacagatgacgaggaa gaagtctcagcagcgctgactttggcacatctgaaagagagccagcctgctatatggaac agagatgcagaagaggacatgccccaacgtgtggtccttctgcagcgaagccaaaccacc actgagagagacagtgacacagacgtggaggaggaagagctcccagtggaaaatagagaa gctgtcctcaaggatcacacaaagattagagcccttgttagagcacattcagaaaaggac caacctccttttggggacagtgatgacagtgtggaagcagataagagctcacctgggatc cacctggagagaagccaagcctccaccacagtggacatcaacacacaagtggagaaggaa gtcccgccagggtcagccattatacatataaagaagcatcaggtgtctgtggaggggaca aatcaaacagatgtgaaagcagttgggggaccagcaaagctgcttgtggtatctctagag gaagcctggcctctgcatggggactgtgaaacagatgcagaggagggcacctccctaaca gcctcagtagttgcagatgtaagaaagagccagcttccagcagaaggggatgctggggca gagtgggctgcagctgttcttaagcaggagagagctcatgaggtgggggcccagggtggg ccacctgtggcacaagtggagcaggacctccctatctcaagagagaacctcacagatctg gtggtggacacagacactctaggggaatccacccagccacagagagagggagcccaggtc cccacaggaagggagagagaacaacatgtgggtgggaccaaggactctgaagacaactat ggtgattctgaagatctggacctacaagctacccagtgctttctggagaatcagggcctg gaaggtaccctagatgaaccatgggaggtcctggctacacagccattctgtctgagagag tctgaggactctgagacccagccttttgacacgcaccttgaggcctatggaccttgcctg tctccacctagggcaataccaggagaccaacatccagagagcccagttcacacagagcca atggggattcaaggcagagggaggcagactgtggataaagtcatgggtataccaaaagaa acagcagagagggtgggccctgagagagggccattggagagagaaactgagaaactgcta ccagaaagacagacagatgtgacaggagaggaagaattaaccaaggggaaacaggacaga gaacaaaaacagttgttagctagagacacccagagacaagaatctgacaaaaatggggaa agtgcaagtcctgaaagagatagggagagtttgaaggtagaaattgagacatctgaggaa atacaagagaaacaagtacagaagcagacccttccaagcaaagcatttgagagagaagta gagagaccagtagcaaacagagagtgcgatccagccgagttagaagagaaggtgcccaaa gtgatcctggagagagatacacagagaggggagccagagggagggagccaggaccagaaa gggcaggcctccagcccaacaccagagcctggggtgggggcgggggaccttccgggacct acctcagcccccgtaccttctgggagccagtcaggtggaaggggatccccagtgagcccc aggaggcatcagaaaggcctcctgaattgcaagatgccacctgctgagaaggcttccagg atcagagctgctgagaaggtttccaggggcgatcaggaatctccagatgcttgtctgcct cctacagtacctgaagccccagccccaccccaaaagccccttaactctcagagccagaaa catcttgcacctccgccccttctttctccccttttaccttctatcaagccaaccgttcgt aagaccaggcaagatgggagtcaggaagctccagaggctcccttgtcctcagagctggag cctttccacccaaagcctaaaattagaactcggaagtcctccagaatgacaccctttcca gctacctctgctgcccctgagccccacccttccacctccacagcccagccagtcactccc aagcccacatctcaggccactaggagcaggacaaataggtcctctgtcaagacccctgaa ccagttgtccccacagcccctgagctccagccttccacctccacagaccagcctgtcacc tctgagcccacatctcaggttactaggggaagaaaaagtagatcctctgtcaagacccct gaaacagttgtgcccacagcccttgagctccagccttccacctccaccgaccgacctgtc acctctgaacccacctctcaggctactaggggaagaaaaaatagatcctctgtcaagacc cctgaaccagttgtccccacagcccctgagctccagccttccacctccacagaccagcct gtcacttctgagcccacatatcaggctactaggggaagaaaaaatagatcctctgtcaag acccctgaaccagttgtgcccacagcccctgagctccggccttccacctccacagaccga cctgtcacccccaagcccacatctcggaccactaggagcaggacaaatatgtcctctgtc aagacccctgaaacagttgtccccacagcccctgagctccagatttccacctccacagac caacctgtcacccctaagcccacatctcggaccactaggagcaggacaaatatgtcctct gtgaagaaccctgaatcaactgtccctatagcccctgagctcccaccttccacctccaca gagcagcctgtcacccctgagcccacatctcgggctactaggggaagaaaaaatagatcc tctggcaagacccctgaaacacttgtccccacagcccctaagctcgagccttccacttcc acagaccaacctgtcactcctgagcccacatctcaggccaccaggggcaggacaaatagg tcctctgtgaagacccctgaaacagttgtccccacagcccctgagctccagccttccacc tccacagaccagcctgttacccctgagcctacgtctcaggctactaggggaagaacagat agatcctctgtcaagactcctgaaacagttgtccccacagcccctgagctacaggcttcc gcctccacagaccagcctgtcacctctgagcccacatctcggaccactaggggaagaaaa aatcggtcctctgtcaagacccctgaaacagttgtgcccgcagcccctgagctccagcct tccacctccacagaccaacctgtcacccctgagcccacatctcgggccactaggggcagg acaaataggtcctctgtcaagacccctgaatcaattgtccctatagcccctgagcttcag ccttccacctccagaaaccagcttgtcacccctgagcccacatctcgggccactaggtgc aggacaaataggtcctctgtcaagacccctgagccagttgtccccacagcccctgagccc catcctaccacctccacagaccagcctgtcacccccaagctcacatctagggccactagg agaaagacaaataggtcctctgtcaagactcccaaaccagttgaaccagcagcctctgat cttgagccttttacccccacagaccagtccgtcacccctgaggccatagctcagggtggt cagagcaaaacactgaggtcttccacagtaagagctatgccggttcctaccacccctgaa ttccaatctcctgtcaccacagaccagcctatttcccctgagcctattactcaacccagt tgcatcaagaggcagagagccgctgggaaccctggctccctcgcagctcccattgaccat aagccttgctctgcacccttggaacctaaatcccaggcctcaaggaaccaaagatgggga gcagtgagagcagctgaatcccttacagccattcctgagcctgcctctccccagcttctt gagacaccaattcatgcctcccagatccaaaaggtggaaccagcaggtagatctaggttc accccggagctccagcctaaggcctctcaaagccgcaagaggtctttagctaccatggat tcaccaccacatcaaaaacagccccaaagaggggaagtctcccagaagacagtgattatc aaggaagaggaagaagatactgcagagaagccagggaaggaagaggatgtcgtgactcca aaaccaggcaagagaaagagagaccaggcagaggaggagcccaacagaataccaagccgc agcctccgacggaccaaacttaaccaagaatcaacagcccccaaagtgctcttcacagga gtggtggatgctcggggagagcgggctgtgctggcactggggggaagtctggctggttca gcggcagaggcttcccacctggtcactgatcgcatccgccggacagtcaagttcctgtgt gccctggggcggggaatccccattctgtccctggactggctgcatcagtcccgcaaggct ggtttcttcttacccccggatgaatatgtggtgaccgaccctgagcaagagaagaacttt ggctttagccttcaagacgcactgagcagggctcgggagcgaaggctgctagagggctat gagatctatgtgacccctggagtccagccaccaccacctcagatgggagagattattagc tgctgtggaggcacatacctacccagcatgcctcggtcctataagcctcagagagttgtg atcacatgccctcaggacttccctcattgctccattccactacgggttgggctgcccctc ctctcgcctgagttcctgctgactggagtgctgaagcaggaagccaagccagaggccttt gtcctctcccctttggagatgtcatccacctga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_5|444_aa MREIVHIQAGQCGNQIGAKFWEVISDEHGIDPTGTYHGDSDLQLDRISVYYNEATGGKYV PRAILVDLEPGTMDSVRSGPFGQIFRPDNFVFGQSGAGNNWAKGHYTEGAELVDSVLDVV RKEAESCDCLQGFQLTHSLGGGTGSGMGTLLISKIREEYPDRIMNTFSVVPSPKVSDTVV EPYNATLSVHQLVENTDETYCIDNEALYDICFRTLKLTTPTYGDLNHLVSATMSGVTTCL RFPGQLNADLRKLAVNMVPFPRLHFFMPGFAPLTSRGSQQYRALTVPELTQQVFDAKNMM AACDPRHGRYLTVAAVFRGRMSMKEVDEQMLNVQNKNSSYFVEWIPNNVKTAVCDIPPRG LKMAVTFIGNSTAIQELFKRISEQFTAMFRRKAFLHWYTGEGMDEMEFTEAESNMNDLVS EYQQYQDATAEEEEDFGEEAEEEA >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_5|1335_bp atgagggaaatcgtgcacatccaggctggtcagtgtggcaaccagatcggtgccaagttc tgggaggtgatcagtgatgaacatggcatcgaccccaccggcacctaccacggggacagc gacctgcagctggaccgcatctctgtgtactacaatgaagccacaggtggcaaatatgtt cctcgtgccatcctggtggatctagaacctgggaccatggactctgttcgctcaggtcct tttggccagatctttagaccagacaactttgtatttggtcagtctggggcaggtaacaac tgggccaaaggccactacacagagggcgccgagctggttgattctgtcctggatgtggta cggaaggaggcagagagctgtgactgcctgcagggcttccagctgacccactcactgggc gggggcacaggctctggaatgggcactctccttatcagcaagatccgagaagaataccct gatcgcatcatgaataccttcagtgtggtgccttcacccaaagtgtctgacaccgtggtc gagccctacaatgccaccctctccgtccatcagttggtagagaatactgatgagacctat tgcattgacaacgaggccctctatgatatctgcttccgcactctgaagctgaccacacca acctacggggatctgaaccaccttgtctcagccaccatgagtggtgtcaccacctgcctc cgtttccctggccagctcaatgctgacctccgcaagttggcagtcaacatggtccccttc ccacgtctccatttctttatgcctggctttgcccctctcaccagccgtggaagccagcag tatcgagctctcacagtgccggaactcacccagcaggtcttcgatgccaagaacatgatg gctgcctgtgacccccgccacggccgatacctcaccgtggctgctgtcttccgtggtcgg atgtccatgaaggaggtcgatgagcagatgcttaacgtgcagaacaagaacagcagctac tttgtggaatggatccccaacaatgtcaagacagccgtctgtgacatcccacctcgtggc ctcaagatggcagtcaccttcattggcaatagcacagccatccaggagctcttcaagcgc atctcggagcagttcactgccatgttccgccggaaggccttcctccactggtacacaggc gagggcatggacgagatggagttcaccgaggctgagagcaacatgaacgacctcgtctct gagtatcagcagtaccaggatgccaccgcagaagaggaggaggatttcggtgaggaggcc gaagaggaggcctaa >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_6|417_aa MVVSGFCRSPPVMVAGGRVFVLPCIQQIQRISLNTLTLNVKSEKVYTRHGVPISVTGIAQ VKIQGQNKEMLAAACQMFLGKTEAEIAHIALETLEGHQRAIMAHMTVEEIYKDRQKFSEQ VFKVASSDLVNMGISVVSYTLKDIHDDQDYLHSLGKARTAQVQKDARIGEAEAKRDAGIR EAKAKQEKVSAQYLSEIEMAKAQRDYELKKAAYDIEVNTRRAQADLAYQLQVAKTKQQIE EQRVQVQVVERAQQVAVQEQEIARREKELEARVRKPAEAERYKLERLAEAEKSQLIMQAE AEAASVRMRGEAEAFAIGARARAEAEQMAKKAEAFQLYQEAAQLDMLLEKLPQVAEEISG PLTSANKITLVSSGSGTMGAAKVTGEVLDILTRLPESVERLTGVSISQVNHKPLRTA >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_6|1254_bp atggtggtctccgggttctgccgaagccccccagtcatggtggctggagggcgtgtcttt gtcctgccctgcatccaacagatccagaggatctctctcaacacactgaccctcaatgtc aagagtgaaaaggtttacactcgccatggggtccccatctcagtcactggcattgcccag gtaaaaatccaggggcagaacaaggagatgttggcggccgcctgtcagatgttcctgggg aagacggaggctgagattgcccacattgccctggagacgttagagggccaccagagggcc atcatggcccacatgactgtggaggagatctataaggacaggcagaaattctcagaacag gttttcaaagtggcctcctcagacctggtcaacatgggcatcagtgtggttagctacact ctgaaggacattcacgatgaccaggactatttgcactctttggggaaggctcgaacagct caagtccaaaaagatgcacggattggagaagcagaggccaagagagatgctgggatccgg gaagctaaagccaagcaggaaaaggtgtctgctcagtacctgagtgagatcgagatggcc aaggcacagagagattacgaactgaagaaggccgcctatgacatcgaggtcaacacccgc cgagcacaggctgacctggcctatcagcttcaggtggccaagactaagcagcagattgag gagcagcgggtgcaggtgcaggtggtggagcgggcccagcaggtggcagtgcaggagcag gagatcgcccggcgggagaaggagctggaggcccgggtgcggaagccagcggaagcggag cgctacaagctggagcgcctagccgaggcagagaagtcccaactaattatgcaggcggag gcagaagccgcgtctgtgcggatgcgtggggaagctgaggcctttgccataggggcccga gcccgagccgaggctgagcagatggccaagaaggcagaagccttccagctgtaccaagag gctgctcagctggacatgctgctagagaagctgccccaggtggcagaggagatcagtggt cccttgacttcagccaataagatcacactggtgtccagcggcagtgggaccatgggggca gccaaagtgactggggaagtactggacattctaactcgcctgccagagagtgtggaaaga ctcacaggcgtgagcatctcccaggtgaatcacaagcctttgagaacagcctga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_7|156_aa MTILQAPTPAPSTIPGPRRGSGPEIFTFDPLPEPAAAPAGRPSASRGHRKRSRRVLYPRV VSIAEVGIRGVRRQLPVEEPNPAKRLLFLLLTIVFCQILMAEEGVPAPLPPEDAPNAASL APTPVSAVLEPFNLTSEPSDYALDLSTFLQQHPAAF >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_7|471_bp atgaccatcctgcaggccccgaccccggccccctccaccatcccgggaccccggcggggc tccggtcctgagatcttcaccttcgaccctctcccggagcccgcagcggcccctgccggg cgccccagcgcctctcgcgggcaccgaaagcgcagccgcagggttctctaccctcgagtg gtgagtatcgccgaagtgggcattcgcggggtccggcgccagctgccagtcgaggaaccg aacccagccaaaaggcttctctttctgctgctcaccatcgtcttctgccagatcctgatg gctgaagagggtgtgccggcgcccctgcctccagaggacgcccctaacgccgcatccctg gcgcccacccctgtgtccgccgtcctcgagccctttaatctgacttcggagccctcggac tacgctctggacctcagcactttcctccagcaacacccggccgccttctaa >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_8|41_aa MAATYNEVKRTLGQPGHRDEEQLHPSLLPSPKAEFRNRTWS >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_8|126_bp atggcggccacctacaacgaagtaaagaggactctgggccagccagggcacagagatgag gagcaacttcatcccagtcttctacccagccccaaagctgaattccgcaacaggacctgg tcctga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_9|90_aa MVSTCQLLAQMLSFEGPELGKGKERESLYGEGEFPVWATKMFQGSNGYLGWRLRGSASPR KPLTEAEFCIGILLQAYEIFYTDDLIPALQ >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_9|273_bp atggtcagcacttgccagctgcttgcccagatgctgtccttcgagggtcccgagttggga aagggaaaggagagagagtccctgtatggagagggagagttccctgtatgggccaccaaa atgtttcaggggagcaacggctatctgggctggcggctcaggggatctgcttctcccagg aagcctctcacagaggcagaattttgcattggcatcctgcttcaagcttatgaaatcttc tatacagatgacctcattccagccttgcaataa >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_10|334_aa MPEPPTPSVGSCAAQASPTSAAPCSRAPSPIDRPRAKECERMAQDWQAAPPAAPVLDPLG EASWAPESVMWPPLDSRQSEEVSVSKRHMDATDKIKFPWLKEKRTIEFGEAAGYVCHRRY KDMEPHEKMGEAAKKVHWVQGSCAARASPTSTTPCSTTPSPIDHPRAEECKHTAQDWQAA PPAAPVWGPLGEASWAPESGPRNKNQSSSNKHLWQSIISLQLKSDLLKEMLGSQTGNGNV QDVLRYLVKSETQKAIKVSLDCVRKRYYRSSLSLQLKLCDCWGQALFSSALTLDPKEVVV RDLEELSNYKTTLEGSGIFDSVARVREESEAEGT >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_10|1005_bp atgcctgagcctcccaccccctccgtgggctcctgtgcggcccaagcctccccgacgagc gccgccccctgctccagggcccccagtcccatcgaccgcccaagggctaaggagtgtgag cgcatggcccaggactggcaggcagctccacctgcagccccggtgctggatccactgggt gaagccagctgggctcctgagtctgtcatgtggccacccctggattcaaggcagtctgag gaggtgagtgtttcaaagaggcacatggatgccacagacaaaatcaagtttccatggttg aaggagaagaggacgatagagtttggggaggcagcaggctacgtctgccacagaagatat aaagatatggagccacacgagaagatgggggaggctgccaaaaaagtccactgggtacag ggctcctgtgcggcccgagcctccccgacgagcaccaccccctgctccacgacgcccagt cccatcgaccacccaagggctgaggagtgcaagcacacggcacaggactggcaggcagct ccacctgcagccccagtgtggggtccactaggtgaagccagctgggctcctgagtctggc cctagaaacaagaaccaatccagcagcaacaagcatctctggcagtctatcatttccctt caactgaaatcagatcttcttaaagaaatgcttggctctcagactgggaacggaaatgta caagatgtgcttcgatatctggtcaaatcagaaactcaaaaagctatcaaagtctctttg gactgtgtcagaaagagatactatcggtcttccctcagtctgcagctgaaactctgtgac tgctgggggcaggccctgttctcttcagctctcactctggaccccaaggaggttgtggtc cgagatttagaagaactttccaactataaaactaccctagaaggaagtggaatctttgac tctgtggctcgagtgagggaggagtcagaagcagaagggacatga >gi568815592r:30643939_30844518|GENSCAN_predicted_peptide_11|166_aa XMEPIQNPAVLLQAHQIPYIPGRELSQSPTAPEWITGVSHYTQLNEYVFLTVLETRKSKI QEAFAHPGPRRFCVASPREEVGKKKKEVGKASRGDPASTWVLCQGRELAPETGSLPIETS ETGDQQFPNKIPPGQESKTPSPKKKKEKEEKKKKGKRKKKKKEKEK >gi568815592r:30643939_30844518|GENSCAN_predicted_CDS_11|501_bp nagatggagcccatccagaacccagctgtgctgctgcaagcacaccaaattccctacatt ccagggagggagttatctcagtctccaactgccccagagtggattacaggtgtgagccac tacacccagctgaatgaatatgtatttctcacagttctggagactaggaagtccaagatc caggaagcgtttgcacatcctggccccagaagattttgcgtagcctcaccaagagaagaa gttggaaagaaaaaaaaagaagttggcaaggcatccagaggagaccccgccagcacctgg gttctctgccaggggagagagctggcaccagagacaggcagtctcccaatagaaacatct gaaactggtgatcagcagtttcccaataagatcccacctgggcaagagagcaagactcca tctccaaaaaaaaagaaggagaaggaggagaagaagaagaaggggaagaggaagaagaag aagaaggagaaggagaagtga