Result of GENSCAN for
pF1KE9650
GENSCAN 1.0 Date run: 6-Nov-116 Time: 06:53:45 Sequence gi568815578r:41304596_41633573 : 328978 bp : 43.88% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.05 PlyA - 42 37 6 1.05 1.04 Term - 7678 7459 220 0 1 89 42 72 0.063 -0.79 1.03 Intr - 13173 12914 260 0 2 24 99 103 0.286 1.26 1.02 Intr - 15190 15090 101 2 2 73 66 132 0.431 9.33 1.01 Init - 16469 16433 37 2 1 74 52 28 0.185 -2.03 1.00 Prom - 27151 27112 40 -0.26 2.00 Prom + 32556 32595 40 -4.56 2.01 Init + 33583 33729 147 0 0 38 19 156 0.664 3.79 2.02 Intr + 35522 35852 331 1 1 113 63 163 0.558 11.50 2.03 Intr + 41201 41400 200 0 2 48 89 449 0.789 40.07 2.04 Intr + 42957 43052 96 2 0 114 76 146 0.995 16.21 2.05 Intr + 44024 44292 269 1 2 126 61 47 0.832 2.13 2.06 Intr + 44494 44577 84 1 0 78 110 118 0.857 11.94 2.07 Intr + 45179 45299 121 2 1 65 113 9 0.760 1.60 2.08 Intr + 45598 45802 205 0 1 30 113 28 0.528 -1.73 2.09 Intr + 47226 47325 100 1 1 63 46 93 0.638 1.77 2.10 Intr + 47465 47625 161 2 2 85 77 84 0.957 6.63 2.11 Intr + 48011 48104 94 0 1 87 106 137 0.999 14.42 2.12 Intr + 48203 48272 70 2 1 113 90 76 0.780 9.48 2.13 Intr + 50050 50142 93 0 0 85 90 78 0.961 7.86 2.14 Intr + 50225 50268 44 1 2 65 84 73 0.991 1.64 2.15 Intr + 51301 51439 139 1 1 31 97 131 0.561 8.77 2.16 Intr + 52445 52593 149 1 2 81 61 371 0.999 32.73 2.17 Intr + 52766 52852 87 2 0 103 74 42 0.913 3.39 2.18 Intr + 53287 53439 153 1 0 83 91 138 0.950 12.79 2.19 Intr + 53642 53756 115 2 1 77 82 152 0.998 13.95 2.20 Intr + 53844 53947 104 2 2 113 66 161 0.970 15.37 2.21 Term + 54127 54271 145 1 1 126 46 189 0.999 15.88 2.22 PlyA + 55966 55971 6 1.05 3.06 PlyA - 56061 56056 6 -6.37 3.05 Term - 56615 56307 309 2 0 17 48 213 0.460 5.26 3.04 Intr - 58459 56697 1763 2 2 101 80 1773 0.966 165.12 3.03 Intr - 59266 59043 224 0 2 85 101 116 0.996 10.37 3.02 Intr - 60562 60440 123 0 0 68 113 84 0.910 8.60 3.01 Init - 62039 61873 167 2 2 87 82 285 0.998 24.91 3.00 Prom - 67056 67017 40 -6.86 4.04 PlyA - 67173 67168 6 -0.45 4.03 Term - 70340 70126 215 0 2 99 49 142 0.870 8.79 4.02 Intr - 70697 70595 103 2 1 69 94 44 0.851 2.85 4.01 Init - 71589 71317 273 0 0 66 37 126 0.595 2.27 4.00 Prom - 92849 92810 40 -4.76 5.40 PlyA - 97543 97538 6 1.05 5.39 Term - 100894 99998 897 1 0 112 42 491 0.898 39.28 5.38 Intr - 102748 102613 136 0 1 57 61 107 0.602 5.47 5.37 Intr - 107668 107532 137 1 2 98 94 105 0.923 11.47 5.36 Intr - 108920 108729 192 2 0 79 92 71 0.973 6.29 5.35 Intr - 111043 110591 453 1 0 118 60 225 0.917 16.16 5.34 Intr - 112199 111993 207 2 0 88 105 168 0.999 17.77 5.33 Intr - 112754 112603 152 0 2 75 75 169 0.975 14.18 5.32 Intr - 117484 115913 1572 2 0 114 87 802 0.954 71.71 5.31 Intr - 119105 118897 209 1 2 43 81 188 0.986 12.32 5.30 Intr - 120742 120583 160 2 1 85 83 162 0.928 14.45 5.29 Intr - 121558 121498 61 1 1 87 94 74 0.989 6.21 5.28 Intr - 132739 132679 61 0 1 44 113 77 0.906 4.54 5.27 Intr - 135534 135405 130 1 1 49 100 116 0.777 8.65 5.26 Intr - 141173 141070 104 1 2 112 66 143 0.997 14.32 5.25 Intr - 143376 143287 90 2 0 58 103 120 0.994 9.61 5.24 Intr - 146510 146351 160 0 1 110 89 96 0.991 10.95 5.23 Intr - 147430 147231 200 0 2 63 94 208 0.999 17.89 5.22 Intr - 148347 148145 203 0 2 82 55 280 0.996 22.18 5.21 Intr - 150141 150031 111 0 0 100 87 58 0.993 7.48 5.20 Intr - 151384 151205 180 1 0 41 87 277 0.986 22.96 5.19 Intr - 152833 152669 165 1 0 108 84 338 0.995 35.56 5.18 Intr - 154684 154545 140 2 2 80 92 -25 0.161 -2.72 5.17 Intr - 164670 164478 193 0 1 56 57 119 0.739 4.67 5.16 Intr - 168922 168727 196 0 1 73 91 221 0.953 20.32 5.15 Intr - 178924 178714 211 2 1 66 100 269 0.993 23.87 5.14 Intr - 180012 179757 256 0 1 69 101 310 0.943 27.42 5.13 Intr - 183213 183070 144 0 0 50 91 103 0.594 7.28 5.12 Intr - 184009 183833 177 1 0 90 85 132 0.992 13.22 5.11 Intr - 185426 185183 244 1 1 103 99 238 0.998 23.90 5.10 Intr - 187224 187103 122 0 2 107 110 70 0.996 10.39 5.09 Intr - 189077 188943 135 2 0 79 48 131 0.994 8.96 5.08 Intr - 189349 189263 87 1 0 77 90 163 0.999 15.57 5.07 Intr - 191460 191368 93 0 0 68 95 15 0.497 0.36 5.06 Intr - 192906 192789 118 2 1 50 57 101 0.618 3.67 5.05 Intr - 193631 193573 59 2 2 109 40 27 0.456 -2.32 5.04 Intr - 194762 194700 63 2 0 98 73 124 0.974 10.81 5.03 Intr - 208400 208251 150 2 0 75 64 129 0.634 9.56 5.02 Intr - 210357 210210 148 2 1 78 92 154 0.990 15.04 5.01 Init - 228942 228455 488 0 2 37 98 482 0.565 38.83 5.00 Prom - 230746 230707 40 -8.26 6.00 Prom + 233185 233224 40 -3.96 6.01 Init + 239079 239134 56 2 2 88 60 36 0.642 1.56 6.02 Term + 242754 243330 577 0 1 61 48 542 0.797 41.44 6.03 PlyA + 243858 243863 6 1.05 7.00 Prom + 244576 244615 40 -2.46 7.01 Init + 244700 244832 133 1 1 78 75 45 0.274 2.50 7.02 Term + 254309 254409 101 0 2 96 47 72 0.319 2.19 7.03 PlyA + 255637 255642 6 1.05 8.03 PlyA - 256408 256403 6 1.05 8.02 Term - 263006 262852 155 0 2 79 41 96 0.405 2.08 8.01 Init - 271125 271059 67 0 1 48 65 62 0.159 1.13 8.00 Prom - 275217 275178 40 -3.46 9.00 Prom + 277351 277390 40 -1.06 9.01 Sngl + 284348 284935 588 1 0 43 43 240 0.550 11.19 9.02 PlyA + 285037 285042 6 1.05 10.00 Prom + 302569 302608 40 -1.06 10.01 Init + 303343 303357 15 0 0 92 70 7 0.287 -0.36 10.02 Term + 313390 313497 108 0 0 61 38 105 0.111 1.31 10.03 PlyA + 313719 313724 6 1.05 11.03 PlyA - 314594 314589 6 1.05 11.02 Term - 316738 316680 59 2 2 92 42 60 0.259 -0.35 11.01 Intr - 317895 317786 110 2 2 53 92 63 0.367 3.13 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): >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_1|205_aa MTVLEESTYHKLEILIEYLNMSTHVLDVEDGKNKVPTFRDIIDDIQPSRARPRGAVQGRA EPSASESGRAQPSGPESVGAAASPPLSSPRLRRRRRRRLCGACAGRPPGRGEGGPQRGKS GPVAGAATAAAARVLIGPFYKPLASYRVLIGAFYKPLASYRVPIGAFYNPGYRVLIGAYY NPPVRQRSSPSPHSTQEVQLALPPQ >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_1|618_bp atgactgttctggaggagagtacctaccacaagttggaaatacttattgagtacctgaac atgtcgacccatgttctagatgttgaagatgggaaaaacaaagttcccaccttcagagat attatagatgatattcagccgagtcgagcaaggccgaggggagccgtgcaaggccgagca gagccgagcgcctccgagagcggccgagcccagccgagcggcccggagtcggttggtgca gctgcgtccccgccgctcagcagtccgcggctccggcgtcgccgccgccgccgcctctgc ggggcctgcgccggccgcccgcccggccgcggggagggaggcccgcagcgcgggaagagc ggcccggtcgcgggcgccgccaccgccgccgctgccagggtgctgattggtccattttac aaacctctagctagctacagagtgctgattggtgcgttttacaaacctctagctagctac agggtgccgattggtgcgttttacaatcctggctacagagtgctgattggtgcatattac aatcctcctgtaagacaaagaagttctccaagtccccactcgacccaggaagtccagctg gctttaccccctcaatag >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_2|968_aa MKKQTAASDIGSSDEYTQAEEKMASTFNPRNGQTQVSMLLAPSEKALEMCLQTGRERGWA RRLITACPLLASVSIEPAAARPERPRDGMKVRAFMERLLFVRRGTDKRWSVRMYVTCSQS SNLNEEIYINQVVIQANMKLQLWAMRTDDARGLSSLGDTAPAMNYVGQLAETVFGTVKEL YRGLNPATLSGGIDVLVVKQVDGSFRCSPFHVRFGKLGVLRSREKVVDIELNGEPVDLHM KLGDSGEAFFVQELESDDEHVPPGLCTSPIPWGGLSGFPSDSQLGTASEPEGLVMAGTAS TGRRKRRRRRKPKQKEDAVATDSSPEELEAGAESELSLPEKLRPEPPGSVQLEEKSSLQP KDIYPYSDGEWPPQASLSAGELTSPKSDSELEVRTPEPSPLRAESHMQWAWGRLPKQTEA GADLQPDTEDPTLVGPPLHTPETEESKTQSSGDMGLPPASKSWSWATLEVPVPTGQPERV SRGKGSPKRSQHLGPSDIYLDDLPSLDSENAALYFPQSDSGLGARRWSEPSSQKSLRDPN PEHEPEPTLDTVDTIALSLCGGLADSRDISLEKFNQHSVSYQDLTKNPGLLDDPNLVVKI NGKHYNWAVAAPMILSLQAFQKNLPKSTMDKLEREKMPRKGGRWWFSWRRRDFLAEERSA QKEKTAAKEQQGEKTEVLSSDDDAPDSPVILEIPSLPPSTPPSTPTYKKSLRLSSDQIRR LNLQEGANDVVFSVTTQYQGTCRCKATIYLWKWDDKVVISDIDGTITKSDALGHILPQLG KDWTHQGITSLYHKIQLNGYKFLYCSARAIGMADLTKGYLQWVSEGGCSLPKGPILLSPS SLFSALHREVIEKKPEVFKVACLSDIQQLFLPHGQPFYAAFGNRPNDVFAYRQVGLPESR IFTVNPRGELIQELIKNHKSTYERLGEVVELLFPPVARGPSTDLANPEYSNFCYWREPLP AVDLDTLD >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_2|2907_bp atgaagaaacaaacagctgccagtgatataggctcatccgatgagtatacccaagcagag gaaaaaatggcctccaccttcaaccccagaaatgggcaaacacaagtgtccatgctgctt gcaccctcagagaaagccctggagatgtgcctgcagacagggagggagcgcggctgggcc agaaggctgatcaccgcctgccccctgctggccagtgtcagtattgagcccgctgccgct cgaccagaacgtcccagggatggaatgaaggtgcgggcatttatggagcgcctgctgttt gtcaggcgaggtactgataagcgctggagtgtaaggatgtacgtgacctgctctcagagt tcaaatttaaatgaagagatatacattaatcaagtagtcattcaagcaaatatgaaatta caactgtgggctatgcgaacagatgacgcgaggggcctgtccagtctgggagatacggca ccagccatgaactacgtggggcagctggcggagacggtgtttgggacggtgaaggagctg taccggggcctgaacccagccacactgagcggcggcattgacgtgctggtggtgaagcag gtggacggctcgttccggtgctcacccttccacgtgcgttttggcaagctgggcgtcctg cggtcgcgggagaaggtggtagacattgagctcaatggggagcctgtggacttgcacatg aagcttggggacagcggggaggccttctttgttcaggagctggagagcgatgatgaacat gtgcctcccggcctgtgcacctcacccatcccttgggggggtctgtctggcttcccctcg gactcccagctgggcactgccagtgagcctgagggcctcgtcatggcaggcacggcctcc actgggcggaggaagaggcgtcgcaggaggaaacccaagcagaaagaggatgcagtggca actgattctagtccagaggaactggaggcaggcgctgagagtgagctatccctgccggaa aagctgaggccagagcccccaggcagtgtccagttggaagagaagtcttcactgcagccc aaagacatctacccctactcggatggcgagtggcccccccaggccagcctctcagcaggt gagctaacatcccctaagagcgactcggagctggaggtgcggaccccggagcccagtccc ctaagagccgagtcccacatgcagtgggcctgggggaggctgcctaagcaaacagaggct ggtgccgaccttcagcctgacacagaggatcccactctagtgggtccccctctccacacc ccagagacagaggaaagcaagactcagagctctggggacatgggcctccctcctgcctcc aagtcatggagctgggccactctggaggttccagttcccaccgggcagccagagagggtc tccagggggaaaggctccccaaagagaagccagcacctgggccccagtgacatctacctg gatgacttgccctccctggactctgagaatgcagcgctttacttcccccaaagtgactct gggctgggggccagaagatggagtgaacccagcagtcagaagtccctgagggaccccaac cctgaacatgaacctgaacccactctggacacagtggatacaatagcactgtccctctgt ggtggactggctgacagccgggacatctccctagagaaattcaaccagcacagcgtctct taccaggacctcaccaaaaaccccggacttttggatgacccaaacctagtggtgaaaatc aatggaaagcattataactgggctgtggctgcccccatgatcctctccctgcaagccttc cagaaaaacttgcccaagagcaccatggacaagctggagagggagaagatgccccggaag ggtgggcgatggtggttttcctggcgacgcagggacttcctggccgaggagcgcagtgcc cagaaggagaagactgcagccaaggagcagcagggggagaagacagaagtcctgagcagt gatgacgatgccccagacagccctgtgatcctggagatcccctccttgccaccctccact ccaccctccactcctacctacaagaagtccctccgcctctcctccgatcagatccggcgc ctgaacctgcaagaaggtgccaatgatgtggtcttcagcgtgaccactcagtaccagggc acctgccgctgcaaggccaccatctacctgtggaaatgggacgacaaggtggtcatctct gacatcgacggcaccatcaccaagtcagatgctctgggccatatcctgccccagctgggg aaagactggacacaccagggcatcaccagtctctatcacaaaatccaactaaatgggtac aagttcctgtactgctcggcgcgggccattggcatggcggacctcaccaaggggtacctg cagtgggtgagcgaggggggctgtagcctccccaagggccccatccttctgtctcccagc agcctcttctctgccctccacagagaggtgatcgagaagaaaccagaggtgttcaaggtc gcctgcctgagtgacatccagcagctgtttctgccccacggacagcccttctatgctgcc tttgggaataggcccaatgatgtctttgcctaccggcaggtgggcctgcctgagtcacgc atcttcacagtcaacccccggggagagctcatccaggagctcataaagaaccacaaatcc acgtatgagcggcttggtgaagtggtcgagctcctcttcccacctgtggcccgtggcccc agcacagacctggccaaccctgaatacagtaacttctgctactggcgggagccactgcct gctgtggaccttgataccctggactga >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_3|861_aa MGRRRLLVWLCAVAALLSGAQARGTPLLARPAPPGASRYSLYTTGWRPRLRPGPHKALCA YVVHRNVTCILQEGAESYVKAEYRQCRWGPKCPGTVTYRTVLRPKYKVGYKTVTDLAWRC CPGFTGKRCPEHLTDHGAASPQLEPEPQIPSGQLDPGPRPPSYSRAAPSPHGRKGPGLFG ERLERLEGDVQRLAQTYGTLSGLVASHEDPNRMTGGPRAPAVPVGFGVIPEGLVGPGDRA RGPLTPPLDEILSKVTEVSNTLQTKVQLLDKVHGLALGHEAHLQRLREAPPSPLTSLALL EEYVDRRLHRLWGSLLDGFEQKLQGVQSECDLRVQEVRRQCEEGQAASRRLHQSLDGREL ALRQELSQLGSQLQGLSVSGRGSCCGQLALINARMDGLERALQAVTETQRGPGAPAGDEL TRLSAAMLEGGVDGLLEGLETLNGTEGGARGCCLRLDMGGWGVGGFGTMLEERVQSLEER LATLAGELSHDSASPGRSARPLVQTELAVLEQRLVSLETSCTPSTTSAILDSLVAEVKAW QSRSEALLRQVASHAALLQQLNGTVAEVQGQLAEGTGSSLQGEITLLKVNLNSVSKSLTG LSDSVSQYSDAFLAANTSLDERERKVEAEVQAIQEQVSSQGSRLQAGHRQVLNLRGELEQ LKAGVAKVASGLSRCQDTAQKLQHTVGHFDQRVAQVEGACRRLGLLAAGLDSLPTEPLRP REGLWSHVDQLNRTLAQHTQDIARLRDDLLDCQAQLAEQSPALSSSAFQPSLASPNGTKE ATEGILHVAVPATKTHAQCCRNWTVPDSGQGKDVMLEGQGRLERVHIPLSANQCLDSQLQ GLSMAGRGSCCGKLALISVRM >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_3|2586_bp atgggccgccgccgcctgctcgtctggctgtgcgccgtcgcggcgctgctctcgggggcg caggccaggggcaccccgctcctggcgcggcctgcgccgcccggtgcctcccgctacagt ctctacacgacgggatggcgcccgcggctgcgcccggggccgcacaaggccctctgtgcc tatgtggtgcacaggaatgtgacctgcatcctacaggagggagcggagagctacgtaaag gctgaataccggcagtgtagatgggggcccaagtgccccgggacagtcacgtaccgcaca gtactcagacccaaatacaaggttggctacaagacagtgacagacctcgcctggcgttgc tgtcccggcttcactgggaaacgctgccctgagcacctcacggaccatggggctgcctca ccccagctggagcctgagcctcagattccttcagggcagctggacccaggccccaggccc ccttcctacagcagagcagcccccagccctcatggaaggaaaggcccagggctgtttggt gagcggctggaacgcctggagggtgatgtccagcgcctggctcaaacatatggtaccctc agtggcctggtggctagccacgaggatcccaacaggatgactggtggccccagggctcct gctgtccctgtgggctttggggtcatccctgaggggcttgtgggcccaggagacagagcc agagggccactaacacctcccttagacgagatcctaagcaaggtgacagaggtgagcaac actcttcagaccaaggtgcagcttctagacaaggtgcatgggctggcacttggccatgag gcccacctgcagcggctgcgggaagccccaccatccccgctcacctccctggccctgctg gaggagtacgtggaccgacggctgcaccgactctgggggagcctgctggatggctttgag cagaagctgcaaggcgtccagagtgagtgtgacctgcgggtgcaggaggtacggcggcaa tgtgaggagggtcaggccgccagccggaggctgcaccagagccttgatggccgggagctg gccctgcgccaggagctgtcacagctgggcagccagctgcagggcctgagcgtgtctggc aggggcagctgctgtgggcaactagccttgatcaatgcccgtatggatggccttgagagg gccctgcaggcagtcaccgagacccaaaggggccccggtgccccggccggggatgagctt acgaggctctctgctgccatgctcgagggaggtgtggacgggctgcttgagggtctggag acgctcaatgggacagagggtggagcaaggggatgctgtctgaggttggacatggggggg tggggagtgggcggctttgggaccatgctggaagagcgcgtgcagagcctcgaggagcgc ctagcaacattggctggggagctaagccatgacagcgcctctccgggcaggtcagctcgg ccccttgtacagacagagctggctgtgctagagcaacggttggtctcactggagacttcg tgcaccccgagcaccacctcagccatcctggacagcctcgtggcagaggtgaaggcctgg cagagccggagcgaggccctcctacgccaggtggccagccacgcagcactgctccagcag ctcaatggcactgtggccgaggtccagggacagctggcagaagggacgggcagctcactt caaggcgagatcactctgctcaaggtcaatctgaactcagtgagcaagtcgctcacaggc ctcagtgactctgtcagccagtactctgatgccttcttggctgccaacacgtccctggat gagcgggaacgcaaggtggaagccgaagtccaggccatccaggagcaggtcagcagccaa ggctccaggcttcaggctggccacaggcaggtcctgaacctgcgtggggagctggagcaa ctcaaggctggtgtggccaaggtggccagtgggctgagccgctgccaggacacagcccag aaacttcagcacacagtgggacactttgaccagcgggtggcacaagtggagggtgcgtgc aggaggctgggcctgctggccgcgggcctggacagcttgcccactgagccactgaggccc agagagggcctgtggagccatgtggaccagctgaatcgtacgctggcccagcacacgcag gacattgcccgcctccgggatgacctactggactgccaggcccagctggctgagcagagc ccagccttatccagcagcgccttccagccttccctggctagcccaaatggcactaaggag gccactgagggaatcctccacgtggctgtcccagccaccaaaacccatgcacagtgctgc agaaactggacagttccggacagcggtcaaggcaaggatgtcatgcttgaaggccagggt agacttgagagagttcacattccactgtcagcaaatcagtgtctggacagccagctgcag ggcctgagcatggctggcaggggcagctgctgtggcaaactggccttgatcagtgtccgt atgtaa >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_4|196_aa MVRREARDGGKDEKPTRDPKLEGWSVVRQPPGKCQARGTGKDGLGAAEGLWPQPAVPSDQ VPSSAIWEEGSQGQPVSDFPVALTGALDSSGELGLLANTSIARNVGALAAKTQPGEGLKG HMARAASLAWMPVPACLVPSPHGYRMTHLTPTVHSSGKLGQEMAPRIQDCQSGLELDSEI DNGSGTRKWSGVDSRG >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_4|591_bp atggtgagaagagaggctagggatgggggaaaggacgaaaaacccacgagggacccaaag ctggaagggtggtcagtggtgcggcagccgcctgggaagtgccaggcccgtggaacaggg aaggatggcctcggggcagcagaggggctgtggcctcagccagccgtgccttctgaccaa gtgccttcatcagctatctgggaggaggggtcacaaggacagccagtcagcgacttccct gtggctctaacaggagccctggacagcagtggggaactagggctgctggccaacaccagc atagccaggaatgtgggagccctggctgcaaagactcaacctggggaaggcctcaaaggt cacatggcaagggcagcatctcttgcctggatgccagtgccagcctgcctagtgccatct cctcatggctacagaatgacccatctaacacccacggtccattcatctggcaaacttggg caagagatggccccccgcatccaggactgccagtctggattggagctcgactcagaaata gacaatggcagtggcactaggaagtggtctggagtggattcaaggggctga >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_5|2867_aa MSDASVNFDYKSPSPFDCSTDQEEKIEDVASHCLPQKDLYTAEEEAATLFPRKMTSHNGM EDSGGGGTGVKKKRKKKEPGDQEGAAKGSKDREPKPKRKREPKEPKEPRKAKEPKKAKEH KEPKQKDGAKKARKPREASGTKEAKEKRSCTDSAARTKSRKASKEQGPTPVEKKKKGKRK SETTVESLELDQGLTNPSLRSPEESTESTDSQKRRSGRQVKRRKYNEDLDFKVVDDDGET IAVLGAGRTSALSASTLAWQAEEPPEDDANIIEKILASKTVQEVHPGEPPFDLELFYVKY RNFSYLHCKWATMEELEKDPRIAQKIKRFRNKQAQMKHIFTEDSVRDFAKPEGSCKRTVM VGMGHRWRADCTMPDEDLFNPDYVEVDRILEVAHTKDAETGEEVTHYLVKWCSLPYEEST WELEEDVDPAKVKEFESLQVLPEIKHVERPASDSWQKLEKSREYKNSNQLREYQLEGMNW LLFNWYNRKNCILADEMGLGKTIQSITFLSEIFLRGIHGPFLIIAPLSTITNWEREFRTW TEMNAIVYHGSQISRQMIQQYEMVYRDAQGNPLSGVFKFHVVITTFEMILADCPELKKIH WSCVIIDEAHRLKNRNCKLLEGLKLMALEHKVLLTGTPLQNSVEELFSLLNFLEPSQFPS ETAFLEEFGDLKTEEQVKKLQSILKPMMLRRLKDDVEKNLAPKQETIIEVELTNIQKKYY RAILEKNFSFLTKGANQHNMPNLINTMMELRKCCNHPYLINGAEEKILEDFRKTHSPDAP DFQLQAMIQAAGKLVLIDKLLPKLIAGGHKVLIFSQMVRCLDILEDYLIQRRYTYERIDG RVRGNLRQAAIDRFCKPDSDRFVFLLCTRAGGLGINLTAADTCIIFDSDWNPQNDLQVPE GRIQKVWEQMSWPRAQPQDNAAAACLQDFGSQLGVQSEETGPFHNRQKQDSGNSHTAPRG RVLTGLLSVWAALVLSIGILVSFSAMRLGEECGQGMGGGFHIQGFWHWAQARCHRIGQSK AVKVYRLITRNSYEREMFDKASLKLGLDKAVLQDINRKGGTNGVQQLSKMEVEDLLRKGA YGALMDEEDEGSKFCEEDIDQILQRRTHTITIQSEGKGSTFAKASFVASGNRTDISLDDP NFWQKWAKIAELDTEAKNEKESLVIDRPRVRKQTKHYNSFEEDELMEFSELDSDSDERPT RSRRLNDKARRYLRAECFRVEKNLLIFGWGRWKDILTHGRFKWHLNEKDMEMICRALLVY CVKHYKGDEKIKSFIWELITPTKDGQAQTLQNHSGLSAPVPRGRKGKKTKNQLLIPELKD ADWLATCNPEVVLHDDGYKKHLKQHCNKVLLRVRMLYYLKAEILGEAAEKAFEGSPAREL DVPLPDIDYMEIPVDWWDAEADKSLLIGVFKHGYERYNAMRADPALCFLEKVGMPDEKSL SAEQGVTDGTSDIPERGNTDKEDNAEDKVDGLQKQTESSSDGGDGVFSEKKDDSRAARLR RLVTVYQRCNRKELCRPEILGPGNQGYWVQEEMFRRTSEMDLINKEAQKRWTRREQADFY RTVSSFGVVYDQEKKTFDWTQFRIISRLDKKSDESLEQYFYSFVAMCRNVCRLPTWKDGG PPDTTIYVEPITEERAARTLYRIELLRKVREQVLKCPQLHERLQLCRPSLYLPVWWECGK HDRDLLIGTAKHGLNRTDCYIMNDPQLSFLDAYRNYAQHKRSGTQAPGNLCCLYQTNSKL YESLTYSQMSRTSESLENEPENLVRVESRDDHLSLPDVTCENFISKVQDVISINHDESLL PESLESMMYGKKVLSQEPSSFQESPSTNTESRKDVITISISKDGNCQSGGPEAEIASGPT FMGSLEAGGVAQANIKNGKHLLMSISKEGELCCSEAGQRPENIGQLEAKCLASPSLNPGN ESGFVDMCSLSVCDSKRNLSSDQQLIDLLENKSLESKLILSQNHSDEEEEEEENEEENLA MAVGMGERPEVLHLTEPTTNISREKNQGFQDETKKGSLEVANQTPGLQRAFPAPAACQCH CKHMERWMHGLENDEFEIEKPKAYIPDLFKSKTNTIAMEGEPTAIPSQPFKVKHELLKEP WKESAEGQNVFPTYPLEGSELKSEDMDFENKDDYDRDGNCHSQDYPGKYSEEESKSSTSG ITGDIGDELQEARAPTIAQLLQEKTLYSFSEWPKDRVIINRLDNICHVVLKGKWPSSQQY EPSGTLPTPVLTSSAGSRTSLSEPEAAEHSFSNGAALAAQIHKESFLAPVFTKDEQKHRR PYEFEVERDAKARGLEQFSATHGHTPIILNGWHGESAMDLSCSSEGSPGATSPFPVSAST PKIGAISSLQGALGMDLSGILQAGLIHPVTGQIVNGSLRRDDAATRRRRGRRKHVEGGMD LIFLKEQTLQAGILEVHEDPGQATLSTTHPEGPGPATSAPEPATAASSQAEKSIPSKSLL DWLRQQADYSLEVPGFGANFSDKPKQRRPRCKEPGKLDVSSLSGEERVPAIPKEPGLRVR KKATVYPSESNSQIPASDSHRQGGCGLVEPQLLLVTSPPPTLQTLVEGKGFLPENKFNHT LAEPILRDTGPRRRGRRPRSELLKAPSIVADSPSGMGPLFMNGLIAGMDLVGLQNMRNMP GIPLTGLVGFPAGFATMPTGEEVKSTLSMLPMMLPGMAAVPQMFGVGGLLSPPMATTCTS TAPASLSSTTKSGTAVTEKTAEDKPSSHDVKTDTLAEDKPGPGPFSDQSEPAITTSSPVA FNPFLIPGVSPGLIYPSMFLSPGMGMALPAMQQARHSEIVGLESQKRKKKKTKGDNPNSH PEPAPSCEREPSGDENCAEPSAPLPAEREHGAQAGEGALKDSNNDTN >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_5|8604_bp atgtctgatgcctctgtcaattttgactacaaatctccatccccatttgactgcagcact gatcaagaagagaaaattgaagatgttgctagtcactgtctgcctcagaaggacctgtat actgctgaagaggaagctgctaccctttttcctaggaaaatgacatcccataatgggatg gaggacagtggaggaggaggtactggagtgaagaagaaacggaagaaaaaggagccagga gaccaagagggtgcagcaaagggaagcaaggacagagagcccaagccaaagaggaaacga gaaccgaaagagccaaaggaacccagaaaggccaaggagccgaagaaggccaaggagcac aaggagccgaagcaaaaagatggggcaaagaaggcacggaagccccgggaggcctcgggc accaaggaggccaaagagaagaggagctgcactgactctgcagccaggacgaagtccagg aaggccagcaaggagcaaggaccaaccccagtggagaaaaagaagaaaggaaaaaggaaa agtgaaactacagtggagagtttagagctggatcagggcctgacgaacccatctctgcgg agtcctgaggagtccactgagtctacagacagccagaaacgacgctcgggaaggcaagta aagcgcagaaaatacaatgaggacctggacttcaaagtggtggatgatgatggggaaaca attgctgttcttggagctggtcgaacatctgcactctcagcctctacactggcctggcag gcggaggagcctccagaagatgatgcaaacatcattgagaagatcctggcatctaagact gtccaggaggttcacccaggagaacctccgttcgacttggagctgttctacgttaagtat agaaatttttcctacttacattgtaaatgggccacaatggaagagctcgaaaaggatcct cgcatcgcacagaagatcaagcgatttaggaataaacaagcccagatgaagcacattttt acggaggattcagtgagggactttgcaaaacctgagggcagctgcaagaggactgtcatg gtgggaatggggcataggtggagagcggactgcacaatgcctgatgaagacttgttcaat ccagactatgtagaagttgatcgcatcttggaggtggcccacaccaaggatgcagaaaca ggggaggaggtaacacattacctggtgaagtggtgctcactaccatatgaagaaagcacg tgggagctagaggaagatgtagatcctgcaaaagttaaagaatttgaatctcttcaagtt ctccctgaaattaagcatgtggagcggcctgcttcagactcctggcagaaacttgagaag tctcgcgagtataagaacagtaaccagctccgggagtaccagctggaagggatgaactgg cttctttttaactggtataacagaaaaaactgtattttggctgatgagatgggcctaggg aaaaccatccagtccatcacattcctttcagaaatatttctgagaggaatccacggccct tttctcattatcgcccctctctccaccatcactaactgggagcgggagttccggacatgg acagagatgaatgccattgtgtaccacggcagccagatcagcaggcagatgatccagcag tatgaaatggtgtacagagacgcccagggaaaccccctttcaggagtcttcaagttccac gtcgtcatcacaacatttgaaatgatcctagcagactgcccagagttgaagaagattcac tggagctgtgtgataattgatgaagcccacagactgaagaataggaactgcaaacttctg gagggtctaaagcttatggccctggaacataaagtgcttctcactggaacacccttgcag aactctgtggaggagctcttcagtttgttaaattttctggagccatcacagtttccttca gagaccgctttcttggaggaatttggagatctgaaaacagaggagcaggtaaagaaactg cagtctatcctaaaaccaatgatgcttcggcggctgaaagatgatgtggaaaagaacctt gctcccaaacaagagacgatcattgaggtggaactgaccaatatccagaaaaagtactac cgtgccatcctcgagaagaacttttccttcctgaccaagggggcaaatcagcacaacatg cccaatctcatcaacaccatgatggagctgaggaagtgctgtaaccatccctacctgatc aatggagcagaggagaaaattctagaagatttccgaaaaacccacagccctgatgcccct gactttcagctgcaggccatgattcaggcagcaggaaagcttgtgttgattgataaacta ctccctaagctgattgcaggtggccacaaagtactcatcttctcccagatggtgcgctgc ctcgacatcctagaagattacctcatccagagaagatacacctatgagcgaattgatggg cgagtacggggaaacctgcgccaggcagccatcgaccggttctgtaagccagattcagac cgctttgtctttcttctgtgcaccagagcgggaggcctggggatcaatctcacagctgct gatacctgcatcatatttgattctgactggaacccacaaaatgacttgcaggtccctgaa ggcagaattcagaaagtgtgggagcagatgtcctggccaagagcacagccacaagataat gcagctgctgcatgtctgcaggattttggaagtcagttgggagtccagagtgaggagaca ggccctttccacaatcgccagaagcaggactcaggaaactcccacactgctccgagggga agagtacttactgggcttcttagtgtttgggccgctttagtactaagtataggaattctg gtgtcattttcagccatgaggttaggggaagaatgtgggcagggcatgggtgggggcttc catatccagggattctggcactgggctcaggcccgatgtcaccgcataggccagagcaaa gctgtgaaggtgtatcgcctcatcactcgaaattcctacgagcgcgagatgtttgacaag gccagcctaaagctggggctggacaaggctgttcttcaggacatcaaccgaaagggcggc accaatggggtacagcagctctcaaaaatggaggtggaggacctactccggaaaggtgct tatggagccttaatggatgaagaagatgaaggctccaagttctgtgaagaagacatagac cagattctgcagaggcgaacgcacaccatcaccatccagtctgaggggaaagggtccact tttgccaaggctagctttgtggcttcaggaaacagaacagatatttccttagatgatcct aacttttggcagaaatgggctaaaatagctgaactagacactgaagcaaagaatgaaaag gaaagcttagtgatcgaccgacctcgcgtgagaaagcagaccaaacactacaactcgttt gaggaagacgagctcatggagttttcagagttagacagcgactcagacgaaaggcccacg agatccaggcgcctcaatgacaaagccaggcgctacctccgagcggagtgcttccgggta gagaagaacctgctcatctttggctggggccggtggaaggacatcctgactcatggccga ttcaagtggcatctgaacgagaaggacatggagatgatttgccgtgccctcctggtgtac tgtgtcaagcattataagggggacgagaagatcaagagtttcatttgggaactgatcaca cctaccaaagatgggcaagcccagaccctccagaaccactcaggcttatctgccccagtc cccagagggaggaaggggaagaagacgaagaaccagttgctaatcccagagctaaaggat gcagattggctagccacctgcaaccccgaggtggtcttgcatgatgatggctataagaaa cacctcaaacagcactgcaacaaagtacttttgcgagtccggatgctgtactacctaaaa gctgaaatactgggagaagcagctgagaaagcatttgaaggatctcctgccagggagctg gatgtacctctgcctgacatcgactacatggagatcccagtggactggtgggatgctgaa gccgataagtcacttctcattggcgtgttcaagcatggttatgaaaggtacaatgccatg cgagcagacccagcactttgcttcctggagaaagttgggatgcccgatgagaagtccctt tctgcagaacagggtgttacagatgggacctcagacattcctgaaagaggcaacacagat aaagaagacaatgctgaggacaaagtagatggcctccagaaacaaacggagagttccagt gatggaggtgatggcgtttttagcgaaaagaaggatgacagccgggcagctcgtctcaga cgtctggtcactgtttaccagcgctgcaaccgcaaggaactgtgccggcctgaaattctg ggaccaggtaaccaaggatattgggttcaggaagagatgttcaggagaacctcagaaatg gacctcatcaacaaggaagcccaaaagaggtggactaggagagaacaagcagacttctat agaacagtgtcttcctttggtgttgtttacgatcaagaaaagaaaacctttgactggaca cagttccgcatcatttcccgtttggacaagaagtcggatgagagcctggaacagtatttt tatagttttgtggccatgtgccggaatgtctgtcgtctacccacatggaaagatggcggt cccccagataccaccatctacgttgaacccatcactgaggaacgtgctgcaagaactctg taccgcattgaactgttacggaaagtccgagagcaagtgctcaagtgccctcagctgcat gaacgcctccagctgtgcaggcccagcctctacctcccagtctggtgggagtgtgggaag catgatcgagacctgctcatcggcactgccaaacatgggctgaaccgcactgactgttac atcatgaacgacccccagctgtccttcctggatgcctatagaaactatgcccagcataaa agatctggcacccaggcaccaggaaatctctgttgcctttaccagaccaactccaagtta tatgaatctcttacatattctcaaatgagtaggacttcagagtcccttgaaaatgaacct gaaaatctagtgagagtagaaagcagagatgatcatctcagcctgcctgatgtgacatgt gaaaactttatttctaaagttcaggatgtcatttccatcaaccatgatgaaagtctgctg cctgagtccttagagagcatgatgtatggtaagaaggtgctcagccaagaaccaagctct tttcaggagagcccaagtaccaatactgaatctagaaaagatgttattaccatctcaata agcaaagatgggaactgccagtctggtggccctgaggcagaaatagcttctggccctact tttatgggtagcttagaagcaggaggagtagctcaagcaaacatcaaaaatggaaaacat ttgttgatgtctatttcaaaggaaggggagctctgctgcagtgaggcaggacagagacct gaaaacattggccagctggaagccaagtgtttagcttccccttccttgaatccaggaaat gaaagtgggtttgtagatatgtgcagtcttagtgtctgtgactccaaaagaaacctgtca tcagatcagcaattaattgatttattggaaaacaaaagcttagaaagtaaattgattttg agtcagaaccacagtgatgaggaggaagaagaggaggaaaacgaggaggaaaacttagcc atggcagtaggcatgggggaaaggccagaggtattgcatctcacggagcccactactaac atctcaagggaaaagaaccaaggcttccaagatgaaaccaagaaaggaagcttagaggtg gcaaaccagactcctgggctacagagggctttccccgctccagcagcctgtcagtgccac tgcaaacacatggagaggtggatgcatggcctcgagaatgatgaatttgaaatcgagaaa cccaaggcttatatcccagatctgttcaaaagtaaaaccaatactatcgccatggagggt gaacccactgctattccatcacagccgtttaaagtgaagcatgagcttttaaaagaacct tggaaagaaagtgcagaggggcaaaacgttttccccacatatcctcttgaaggaagtgag ctcaaatcagaagacatggattttgagaataaagatgattatgatagagacggaaactgc catagtcaagattatccagggaagtactctgaagaggagagcaagagctcaacatcgggc atcacaggagacattggggatgagctacaggaggctcgagctcccactattgctcagctg ctacaggagaaaactctctattccttctctgagtggccaaaggaccgcgtgataattaac cgcctagataatatctgccacgtggtgttaaaggggaagtggccctctagccagcagtat gagccctcaggcacactgcccaccccggtattaaccagcagtgctggttctcgaaccagc ctctcagagccggaagcagcagaacacagcttcagcaacggcgcagcattggcggcccag atccacaaggagagcttcttagctccagtattcacaaaggatgaacaaaagcacaggcgt ccctatgagtttgaggtggagagggatgcaaaggctcggggcctggagcagttctctgcc acccacgggcacacccctatcatcctcaatggctggcatggggagtcagctatggacctc tcctgctcatcagaggggtccccaggagccacatcccctttcccagtgagcgccagcacc cctaagattggggctatcagttcacttcagggagcccttggcatggacttgtctgggatt ctgcaagctggcctgatccatcctgtgactggacagattgtcaatggaagcctcagaaga gatgatgcagccacgaggaggcggagagggaggcggaaacatgttgaaggagggatggac ctcatctttttgaaggagcagacacttcaggcgggaatcttggaagtccatgaagaccca gggcaggccaccttgagcaccacacaccctgaggggccagggcctgccacctcggctcct gagccagctacggcagccagcagccaagccgagaaatccattcccagcaagagtctgctt gactggctaaggcagcaggctgactactccttagaagttcctggctttggggcaaatttt tcagacaaaccaaagcagaggaggccacgctgtaaagaacctggaaaattagatgtcagc tccctgagcggggaagagagagttcctgccatccccaaggagccaggactgagggtaagg aagaaggccacagtgtaccccagtgagagcaacagccagatccctgcctctgattcccac agacaaggaggctgtgggctggtggagcctcagctgctgcttgtcacatccccacccccc actctgcagactctagtggaagggaaggggtttcttccagaaaacaagttcaatcacact ctggctgagcctattcttcgagatacgggcccccgcaggagggggaggcggcctcggagc gaactcctgaaggctccttccattgtggcagactctccctctggaatggggccactgttc atgaatggactgattgctgggatggacctggtaggacttcagaacatgagaaatatgcca ggcatccccctcaccgggctggtggggtttccagctggctttgccacgatgccaacaggt gaagaggtcaaaagtaccctgagcatgctgcccatgatgctgccaggcatggctgctgtg ccccagatgtttggtgttgggggactcctcagtccacccatggcaaccacctgcacttcc actgctccggcgtctctatcaagcacaacgaaaagtggtacggcagtgactgaaaagact gcggaagacaagccgagtagccatgatgtgaaaacagacactttagctgaggacaagcct ggtccaggtccattttctgatcagtctgaacctgcaataactactagtagtcctgtggct tttaacccatttctcatcccaggagtatctcctggactcatttacccatccatgttcctc tcccctggtatgggcatggctctgccagccatgcagcaggccagacactcggaaatagta ggtctggagagccagaagaggaagaagaagaagacaaagggggacaaccccaactcccac ccagagcctgctcccagctgtgaaagggagcccagcggtgatgagaactgtgccgaaccc agtgcccctttgcccgcagagagagaacatggggcacaggctggggagggggcactcaaa gactccaacaacgacaccaattag >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_6|210_aa MRVILNMDLAATKDLQPPSSKEAKVQLLSVVLNRIHLTQAASTMLLKFDPNEIRVVYLRC TGGEVDAMSALAPRIRPLGLSPKKVDDDIAKATSDWKGLRITVKLTIQNRQAQIEVVPSA SALIIKALKEPPIDRKKQKNIKHSGIITFDEIVNTARQMQHQSLARELSGTIKELLGTDY CPVCVCNVDGHHPHDIMDGINSVVVECPTS >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_6|633_bp atgagggtcattttaaacatggacttggcagctaccaaagatctacaaccaccatcctca aaggaggccaaggtgcaacttctttcagtcgtcctgaatcggattcatctgacacaagct gcctccaccatgctgctgaagtttgaccccaatgagattagagtcgtatacctgaggtgc accgggggtgaagtcgatgccatgtctgcactggctcccaggataagacccctgggtctg tctcccaaaaaggttgatgatgacattgccaaggcaactagtgactggaagggtctaagg attacagtgaaactgacgattcagaacagacaggcccagattgaggtggtaccttctgcc tctgccctaatcatcaaagccctcaaggaaccaccaatagacagaaagaaacagaaaaac attaaacacagtggaattatcacttttgatgagattgtcaacactgctcgacagatgcag caccaatctttagccagagaactctctggaactattaaagagctcctggggactgactac tgcccagtctgtgtctgcaatgttgatggccaccaccctcatgacatcatggatggcatc aacagtgttgtggtggaatgcccaactagttaa >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_7|77_aa MEYYAAIKNDEFMSFVGTWMKLETIILSKLSQGQKTKHCMFSLTGTYYSLILYYSNTLLN VQTLGKSYTFQWNNDFK >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_7|234_bp atggaatactatgcagccataaaaaatgatgagttcatgtcctttgtagggacatggatg aagctggaaaccatcattctcagcaaactatcacaaggacaaaaaaccaaacactgcatg ttctcactcacaggtacttattactccctgatattatattacagtaataccttacttaat gtccagactcttggaaaaagctacacctttcagtggaacaacgactttaagtga >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_8|73_aa MIGFGVVEIQDEYYVGHISTILVPEPQATMDVHTDTYLGIRRVYMTTAREAAAQETGKTT TTFAGTTQPRSHA >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_8|222_bp atgattggatttggtgtagtggaaattcaagatgaatattatgttggacatattagcaca attctggtacctgaaccacaagccaccatggacgtgcacactgatacctacttggggatc aggagagtgtacatgacaacagcaagggaagcagcagcacaggagacaggcaagaccacc actacctttgctggaactacacaaccaaggagccatgcttaa >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_9|195_aa MNIDAKILNKILANRIQQHIKKLIHHDQVGFIPGMQGWFNIRKSINVIWHINRTKDKNHM IISIDAEKVFDKIQQPFMLKTLNKLGIDGTYLKILRAIYDKPTANIILNGQKLEAFPLKT GTRQGCPLSPLLFNIVLEVLARAIRQEKEIKGIQLGKEEVKPSLFADDVIVYLENPIISV QNLLKLISNFSKVAG >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_9|588_bp atgaacatcgatgcaaaaatcctcaataaaatactggcaaaccgaatccagcagcacatc aaaaagcttatccaccatgatcaagtgggcttcatccctgggatgcaaggctggttcaac atacgcaaatcaataaacgtaatctggcatataaacagaaccaaagacaaaaaccacatg attatctcaatagatgcagaaaaggtcttcgacaaaattcaacagcccttcatgctaaaa actctcaacaaattaggtattgatgggacatatctcaaaatactaagagctatttatgac aaacccacagccaatatcatactgaatgggcaaaaactggaagcattccctttgaaaact ggcacaagacagggatgccctctctcaccactcctattcaacatagtgttggaagttctg gccagggcaatcaggcaggagaaagaaataaagggtattcaattaggaaaagaggaagtc aaaccgtccctgtttgcagatgacgtgattgtatatttagaaaaccccatcatctcagtc caaaatctccttaagctgataagcaacttcagcaaagtcgcaggatag >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_10|40_aa MPNFKARGRGLPGPPPLRAARSGALPRTAARPERKREREQ >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_10|123_bp atgcccaatttcaaggcccgcggccggggtctgcccggacccccgcccctgcgcgcggcc cgcagcggcgcactcccaaggacggccgcccggcccgagcgaaagcgggagcgggagcag tag >gi568815578r:41304596_41633573|GENSCAN_predicted_peptide_11|56_aa XNAYYVPRIAIVLELQAQSLPWSDTESHEVRQVLYQTESGSVSGDAGEDTAMNGYS >gi568815578r:41304596_41633573|GENSCAN_predicted_CDS_11|171_bp nnaaatgcctactatgtgccacgcattgcaattgtgcttgagttacaagcacagtccctg ccctggagtgacacggaatcacatgaagttagacaagtactgtatcagacagaatcaggc tctgtttctggagacgcaggcgaagacactgccatgaatgggtatagctaa