Result of GENSCAN for
pF1KE2680
GENSCAN 1.0 Date run: 1-Mar-117 Time: 16:49:24 Sequence gi568815579r:14309037_14513220 : 204184 bp : 52.42% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.02 Intr - 10239 9963 277 0 1 66 81 163 0.245 11.03 1.01 Init - 24835 24722 114 1 0 93 84 96 0.917 8.19 1.00 Prom - 28306 28267 40 -3.11 2.00 Prom + 30864 30903 40 -2.51 2.01 Init + 40587 40988 402 2 0 97 50 213 0.464 15.13 2.02 Intr + 41874 42068 195 2 0 50 115 31 0.760 2.13 2.03 Term + 69078 69200 123 2 0 95 49 64 0.332 1.89 2.04 PlyA + 69727 69732 6 1.05 3.00 Prom + 70995 71034 40 -0.81 3.01 Init + 72488 72509 22 1 1 88 123 50 0.623 6.41 3.02 Intr + 79414 79464 51 2 0 130 84 12 0.951 4.37 3.03 Intr + 79666 79782 117 2 0 141 44 52 0.707 7.04 3.04 Intr + 81888 82043 156 1 0 99 116 209 0.771 25.29 3.05 Intr + 87306 87437 132 1 0 122 80 187 0.999 22.42 3.06 Intr + 88041 88187 147 1 0 97 25 120 0.993 7.32 3.07 Intr + 88622 88768 147 0 0 137 86 149 0.999 20.32 3.08 Intr + 88853 88899 47 0 2 121 109 11 0.999 5.12 3.09 Intr + 89026 89103 78 0 0 137 110 94 0.999 16.74 3.10 Intr + 92350 92527 178 0 1 67 94 154 0.999 13.91 3.11 Intr + 92617 92724 108 2 0 121 69 119 0.702 14.06 3.12 Intr + 93561 93826 266 1 2 46 15 230 0.723 9.27 3.13 Intr + 95347 95526 180 0 0 112 107 172 0.995 22.08 3.14 Intr + 96712 96903 192 0 0 56 94 319 0.999 29.51 3.15 Intr + 97295 97521 227 1 2 123 73 416 0.998 40.91 3.16 Intr + 97664 97730 67 2 1 113 111 64 0.747 10.60 3.17 Intr + 97833 97924 92 2 2 72 78 90 0.740 5.69 3.18 Intr + 98025 98193 169 0 1 94 81 384 0.999 38.76 3.19 Intr + 98872 98973 102 0 0 81 90 87 0.998 9.07 3.20 Term + 99056 99085 30 1 0 92 49 6 0.579 -4.76 3.21 PlyA + 99666 99671 6 -1.75 4.15 PlyA - 99803 99798 6 1.05 4.14 Term - 99916 99900 17 2 2 93 41 3 0.661 -5.22 4.13 Intr - 100148 100001 148 2 1 131 98 264 0.999 32.02 4.12 Intr - 100411 100267 145 0 1 95 88 333 0.966 34.79 4.11 Intr - 100609 100500 110 1 2 112 101 238 0.995 27.08 4.10 Intr - 100837 100706 132 1 0 107 59 343 0.881 34.65 4.09 Intr - 101298 101180 119 1 2 93 76 184 0.998 18.39 4.08 Intr - 102136 101953 184 1 1 77 92 307 0.998 29.88 4.07 Intr - 102562 102470 93 1 0 78 113 160 0.999 18.16 4.06 Intr - 103041 102919 123 0 0 25 43 133 0.905 3.79 4.05 Intr - 103642 103515 128 2 2 94 94 208 0.985 22.90 4.04 Intr - 104188 103977 212 0 2 101 71 329 0.645 31.58 4.03 Intr - 110366 110234 133 0 1 2 99 48 0.016 -2.49 4.02 Intr - 110721 110628 94 0 1 79 81 57 0.816 4.14 4.01 Init - 112983 112849 135 0 0 67 98 66 0.681 5.61 4.00 Prom - 113822 113783 40 -3.31 5.00 Prom + 115406 115445 40 -3.71 5.01 Init + 124617 124701 85 2 1 85 43 138 0.341 7.93 5.02 Intr + 125554 125618 65 2 2 111 77 35 0.356 3.63 5.03 Intr + 132107 132407 301 1 1 135 101 552 0.998 58.05 5.04 Intr + 134434 134585 152 2 2 103 100 234 0.998 26.49 5.05 Intr + 137390 137525 136 1 1 98 113 258 0.989 29.95 5.06 Intr + 141282 141427 146 1 2 87 78 357 0.955 35.11 5.07 Intr + 141860 142073 214 1 1 88 94 307 0.989 30.11 5.08 Intr + 142793 142987 195 0 0 111 81 116 0.968 13.11 5.09 Intr + 148995 149104 110 1 2 126 84 86 0.989 12.50 5.10 Intr + 149196 149339 144 2 0 126 65 157 0.892 18.19 5.11 Intr + 154631 154706 76 1 1 105 100 95 0.919 11.98 5.12 Intr + 154792 154933 142 2 1 94 74 208 0.999 19.92 5.13 Intr + 155024 155117 94 2 1 91 81 103 0.970 10.37 5.14 Intr + 158529 158605 77 2 2 117 61 39 0.987 2.91 5.15 Intr + 158682 158757 76 0 1 90 100 58 0.991 7.21 5.16 Intr + 158840 158931 92 1 2 97 59 197 0.999 16.99 5.17 Intr + 160305 160481 177 0 0 102 58 263 0.998 24.25 5.18 Intr + 160716 160778 63 0 0 115 89 71 0.967 8.22 5.19 Intr + 160876 160952 77 1 2 84 72 163 0.960 13.95 5.20 Intr + 161127 161269 143 1 2 123 78 219 0.992 24.98 5.21 Intr + 161539 161646 108 0 0 95 72 357 0.991 35.78 5.22 Intr + 161735 161815 81 1 0 54 76 93 0.970 5.03 5.23 Term + 162545 162748 204 1 0 146 41 409 0.999 39.69 5.24 PlyA + 162798 162803 6 -5.41 6.03 PlyA - 163449 163444 6 1.05 6.02 Term - 163790 163524 267 2 0 117 47 293 0.986 23.93 6.01 Init - 165284 164343 942 2 0 70 81 1543 0.843 143.60 6.00 Prom - 166848 166809 40 -1.51 7.09 PlyA - 168984 168979 6 -3.74 7.08 Term - 169531 169380 152 2 2 74 48 293 0.982 22.28 7.07 Intr - 169729 169648 82 1 1 84 92 169 0.999 16.61 7.06 Intr - 170488 170376 113 2 2 129 105 134 0.999 19.80 7.05 Intr - 171449 171191 259 2 1 113 43 525 0.587 48.07 7.04 Intr - 171742 171557 186 1 0 55 46 398 0.609 32.70 7.03 Intr - 173783 173527 257 0 2 101 28 382 0.326 31.20 7.02 Intr - 187325 187001 325 2 1 87 109 175 0.297 15.40 7.01 Init - 189716 189714 3 2 0 92 81 0 0.340 -0.37 7.00 Prom - 189837 189798 40 0.99 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 180352 180576 225 0 0 78 48 123 0.834 2.74 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_1|131_aa MVQPPKRSRLGLPLQPPGQGESQWLKLLGMEEERHPGRKFLSPELISAHLTHLSPEIGFA ACSGSVFAAVGTMHMGSDSKVTLSFREPRGHCLLSVHLTVTPRPLGGLLRLVPAQRGTPN PSQGLSTAKEX >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_1|393_bp atggtccagcctccaaagcgcagccgcctgggtcttcccctccagcctccgggacaaggg gaatctcagtggctgaaacttctggggatggaggaggagcggcatccggggaggaaattt ctcagcccggagctcatttctgcccacttaactcatctttcacctgaaattggctttgct gcctgctccgggagtgtctttgctgctgttggaacgatgcacatgggtagtgactcgaag gtcaccctgtcctttcgggagccccgtggtcactgcctgctctccgtccacctcaccgta acaccacggccactggggggcctccttcggctggtgcctgctcaacggggaacccccaac cccagccagggcttatccactgcgaaggaagnn >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_2|239_aa MPSLEPGFPVEGAASAKALWQKGARVLNSGKGGHSSQSREMKKQVGCDVKAYFGDKSDLS LPLRSHLLKARGEKKAHTELKALQHHQLHPSRRPPTDMVSPTERSPGPCTVPLPTPPLSQ DFASDHIDPNYAVKEGHDGLGGVRRIGNHQSPLREHTCRACRKQERDSEERGSQPAQGRK TSWKRWPWVGLKDPKSTSQNKSHEVVQKLQNRSAGLRLQDKEKVEKHRQTPRQGPDQRG >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_2|720_bp atgccgagtctggagccaggatttccagtagaaggcgcagccagcgcaaaggccctgtgg cagaaaggagctcgggtgttgaacagtgggaaaggaggtcacagtagccagagccgagag atgaagaaacaggtgggctgcgatgtcaaggcctattttggagacaaatctgatctctca ctccccctgaggagtcacctcctaaaagcccgaggggagaagaaggctcacactgagcta aaagccctccaacaccaccagctgcacccttctcgtcgcccacccacagatatggtgtcg cccacagaaagaagccctggcccatgcactgtccccctacccaccccaccactctcccag gactttgcctctgaccatattgaccccaattatgcagttaaggaggggcacgatgggctg ggtggggtccggaggatcggaaaccaccagtctcccctcagagaacacacttgccgggcc tgccgcaagcaagagcgggattcagaggagagaggttcccagccagctcaaggcaggaag acttcctggaagaggtggccatgggttggtcttaaggaccccaagtcaacctcccagaac aaaagtcatgaggttgtccagaagctgcaaaataggtcagcaggactgagacttcaggac aaagagaaagtggagaaacataggcagacgccccggcagggaccagatcagcgaggctga >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_3|835_aa MGGRVFLAFCVWLTLPGAETQDSRGCARWCPQNSSCVNATACRCNPGFSSFSEIITTPTE TCDDINECATPSKVSCGKFSDCWNTEGSYDCVCSPGYEPVSGAKTFKNESENTCQDVDEC QQNPRLCKSYGTCVNTLGSYTCQCLPGFKFIPEDPKVCTDVNECTSGQNPCHSSTHCLNN VGSYQCRCRPGWQPIPGSPNGPNNTVCEDVDECSSGQHQCDSSTVCFNTVGSYSCRCRPG WKPRHGIPNNQKDTVCEDMTFSTWTPPPGVHSQTLSRFFDKVQDLGRDSKTSSAEVTIQN VIKLVDELMEAPGDVEALAPPVRHLIATQLLSNLEDIMRILAKSLPKGPFTYISPSNTEL TLMIQERGDKNVTMGQSSARMKLNWAVAAGAEDPGPAVAGILSIQNMTTLLANASLNLHS KKQAELEEIYESSIRGVQLRRLSAVNSIFLSHNNTKELNSPILFAFSHLESSDGEAGRDP PAKDVMPGPRQELLCAFWKSDSDRGGHWATEGCQVLGSKNGSTTCQCSHLSSFAILMAHY DVEDWKLTLITRVGLALSLFCLLLCILTFLLVRPIQGSRTTIHLHLCICLFVGSTIFLAG IENEGGQVGLRCRLVAGLLHYCFLAAFCWMSLEGLELYFLVVRVFQGQGLSTRWLCLIGY GVPLLIVGVSAAIYSKGYGRPRYCWLDFEQGFLWSFLGPVTFIILCNAVIFVTTVWKLTQ KFSEINPDMKKLKKARALTITAIAQLFLLGCTWVFGLFIFDDRSLVLTYVFTILNCLQGA FLYLLHCLLNKKVREEYRKWACLVAGGSKYSEFTSTTSGTGHNQTRALRASESGI >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_3|2508_bp atgggaggccgcgtctttctcgcattctgtgtctggctgactctgccgggagctgaaacc caggactccaggggctgtgcccggtggtgccctcagaactcctcgtgtgtcaatgccacc gcctgtcgctgcaatccagggttcagctctttttctgagatcatcaccaccccgacggag acttgtgacgacatcaacgagtgtgcaacaccgtcgaaagtgtcatgcggaaaattctcg gactgctggaacacagaggggagctacgactgcgtgtgcagcccgggatatgagcctgtt tctggggcaaaaacattcaagaatgagagcgagaacacctgtcaagatgtggacgaatgt cagcagaacccaaggctctgtaaaagctacggcacctgcgtcaacacccttggcagctat acctgccagtgcctgcctggcttcaagttcatacctgaggatccgaaggtctgcacagat gtgaatgaatgcacctccggacaaaacccgtgccacagctccacccactgcctcaacaac gtgggcagctatcagtgccgctgccgcccgggctggcaaccgattccggggtcccccaat ggcccaaacaataccgtctgtgaagatgtggacgagtgcagctccgggcagcatcagtgt gacagctccaccgtctgcttcaacaccgtgggttcatacagctgccgctgccgcccaggc tggaagcccagacacggaatcccgaataaccaaaaggacactgtctgtgaagatatgact ttctccacctggaccccgccccctggagtccacagccagacgctttcccgattcttcgac aaagtccaggacctgggcagagactccaagacaagctcagccgaggtcaccatccagaat gtcatcaaattggtggatgaactgatggaagctcctggagacgtagaggccctggcgcca cctgtccggcacctcatagccacccagctgctctcaaaccttgaagatatcatgaggatc ctggccaagagcctgcctaaaggccccttcacctacatttccccttcgaacacagagctg accctgatgatccaggagcggggggacaagaacgtcactatgggtcagagcagcgcacgc atgaagctgaattgggctgtggcagctggagccgaggatccaggccccgccgtggcgggc atcctctccatccagaacatgacgacattgctggccaatgcctccttgaacctgcattcc aagaagcaagccgaactggaggagatatatgaaagcagcatccgtggtgtccaactcaga cgcctctctgccgtcaactccatctttctgagccacaacaacaccaaggaactcaactcc cccatccttttcgccttctcccaccttgagtcctccgatggggaggcgggaagagaccct cctgccaaggacgtgatgcctgggccacggcaggagctgctctgtgccttctggaagagt gacagcgacaggggagggcactgggccaccgagggctgccaggtgctgggcagcaagaac ggcagcaccacctgccaatgcagccacctgagcagctttgcgatccttatggctcattat gacgtggaggactggaagctgaccctgatcaccagggtgggactggcgctgtcactcttc tgcctgctgctgtgcatcctcactttcctgctggtgcggcccatccagggctcgcgcacc accatacacctgcacctctgcatctgcctcttcgtgggctccaccatcttcctggccggc atcgagaacgaaggcggccaggtggggctgcgctgccgcctggtggccgggctgctgcac tactgtttcctggccgccttctgctggatgagcctcgaaggcctggagctctactttctt gtggtgcgcgtgttccaaggccagggcctgagtacgcgctggctctgcctgatcggctat ggcgtgcccctgctcatcgtgggcgtctcggctgccatctacagcaagggctacggccgc cccagatactgctggttggactttgagcagggcttcctctggagcttcttgggacctgtg accttcatcattttgtgcaatgctgtcattttcgtgactaccgtctggaagctcactcag aagttttctgaaatcaatccagacatgaagaaattaaagaaggcgagggcgctgaccatc acggccatcgcgcagctcttcctgttgggctgcacctgggtctttggcctgttcatcttc gacgatcggagcttggtgctgacctatgtgtttaccatcctcaactgcctgcagggcgcc ttcctctacctgctgcactgcctgctcaacaagaaggttcgggaagaataccggaagtgg gcctgcctagttgctggggggagcaagtactcagaattcacctccaccacgtctggcact ggccacaatcagacccgggccctcagggcatcagagtccggcatatga >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_4|590_aa MRFGGDKHPNCIKLHDVHTMTRLPMETFLNMSVSLCDPMTVILVKSLHCGGPPGRRLIAT GTVLVSAPSADATLRKGSGPVSRAAARRKRQEAQQLVSERPAENRSWKCLLAARGEERGA SIMAEQDVENDLLDYDEEEEPQAPQESTPAPPKKDIKGSYVSIHSSGFRDFLLKPELLRA IVDCGFEHPSEVQHECIPQAILGMDVLCQAKSGMGKTAVFVLATLQQIEPVNGQSGQVHI FGLHIGARALVISEHILKDEGAVEGCGVVQCLMARVTVLVMCHTRELAFQISKEYERFSK YMPSVKVSVFFGGLSIKKDEEVLKKNCPHVVVGTPGRILALVRNRSFSLKNVKHFVLDEC DKMLEQLDMRRDVQEIFRLTPHEKQCMMFSATLSKDIRPVCRKFMQDPMEVFVDDETKLT LHGLQQYYVKLKDSEKNRKLFDLLDVLEFNQVIIFVKSVQRCMALAQLLVEQNFPAIAIH RGMAQEERLSRYQQFKDFQRRILVATNLFGRGMDIERVNIVFNYDMPEDSDTYLHRVARA GRFGTKGLAITFVSDENDAKILNDVQDRFEVNVAELPEEIDISTYIEQSR >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_4|1773_bp atgagatttggaggggacaaacatccaaactgtatcaaactccatgatgttcatacaatg acaagattgcctatggagacattcctcaacatgtccgtgtcattatgtgaccccatgact gtaattcttgtaaagagcctacactgtggaggacccccaggccgcagattgatagcaact gggacagttctggtttcagcgcccagcgcagacgccactcttcgaaaaggcagcggccca gtcagcagagcagcagcccgacgcaagaggcaggaagcgcagcaactcgtgtctgagcgc ccggcggaaaaccgaagttggaagtgtctcttagcagcgcgcggagaagaacggggagcc agcatcatggcagaacaggatgtggaaaacgatcttttggattacgatgaagaggaagag ccccaggctcctcaagagagcacaccagctccccctaagaaagacatcaagggatcctac gtttccatccacagctctggcttccgggactttctgctgaagccggagctcctgcgggcc atcgtggactgtggctttgagcatccttctgaggtccagcatgagtgcattccccaggcc atcctgggcatggacgtcctgtgccaggccaagtccgggatgggcaagacagcggtcttc gtgctggccaccctacagcagattgagcctgtcaacggacagtcaggccaggtgcacatc tttgggcttcatattggcgcccgtgccctcgttatctcagagcacatcctgaaggatgaa ggtgctgtggagggctgtggtgtggtccagtgtctgatggcacgggtgacggtcctggtc atgtgccacacgagggagctggccttccagatcagcaaggaatatgagcgcttttccaag tacatgcccagcgtcaaggtgtctgtgttcttcggtggtctctccatcaagaaggatgaa gaagtgttgaagaagaactgtccccatgtcgtggtggggaccccgggccgcatcctggcg ctcgtgcggaataggagcttcagcctaaagaatgtgaagcactttgtgctggacgagtgt gacaagatgctggagcagctggacatgcggcgggatgtgcaggagatcttccgcctgaca ccacacgagaagcagtgcatgatgttcagcgccaccctgagcaaggacatccggcctgtg tgcaggaagttcatgcaggatcccatggaggtgtttgtggacgacgagaccaagctcacg ctgcacggcctgcagcagtactacgtcaaactcaaagacagtgagaagaaccgcaagctc tttgatctcttggatgtgctggagtttaaccaggtgataatcttcgtcaagtcagtgcag cgctgcatggccctggcccagctcctcgtggagcagaacttcccggccatcgccatccac cggggcatggcccaggaggagcgcctgtcacgctatcagcagttcaaggatttccagcgg cggatcctggtggccaccaatctgtttggccgggggatggacatcgagcgagtcaacatc gtctttaactacgacatgcctgaggactcggacacctacctgcaccgggtggcccgggcg ggtcgctttggcaccaaaggcctagccatcacttttgtgtctgacgagaatgatgccaaa atcctcaatgacgtccaggaccggtttgaagttaatgtggcagaacttccagaggaaatc gacatctccacatacatcgagcagagccggtaa >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_5|985_aa MARAGASGAPGAPSLGRDCGASEAPFSAVLLMACRPCRGAGRIWCCRSHKSEPRSWSLLE QLGLAGADLAAPGVQQQLELERERLRREIRKELKLKEGAENLRRATTDLGRSLGPVELLL RGSSRRLDLLHQQLQELHAHVVLPDPAATHDGPQSPGAGGPTCSATNLSRVAGLEKQLAI ELKVKQGAENMIQTYSNGSTKDRKLLLTAQQMLQDSKTKIDIIRMQLRRALQAGQLENQA APDDTQGSPDLGAVELRIEELRHHFRVEHAVAEGAKNVLRLLSAAKAPDRKAVSEAQEKL TESNQKLGLLREALERRLGELPADHPKGRLLREELAAASSAAFSTRLAGPFPATHYSTLC KPAPLTGTLEVRVVGCRDLPETIPWNPTPSMGGPGTPDSRPPFLSRPARGLYSRSGSLSG RSSLKAEAENTSEVSTVLKLDNTVVGQTSWKPCGPNAWDQSFTLELERARELELAVFWRD QRGLCALKFLKLEDFLDNERHEVQLDMEPQGCLVAEVTFRNPVIERIPRLRRQKKIFSKQ QGKAFQRARQMNIDVATWVRLLRRLIPNATGTGTFSPGASPGSEARTTGDISVEKLNLGT DSDSSPQKSSRDPPSSPSSLSSPIQESTAPELPSETQETPGPALCSPLRKSPLTLEDFKF LAVLGRGHFGKVLLSEFRPSGELFAIKALKKGDIVARDEVESLMCEKRILAAVTSAGHPF LVNLFGCFQTPEHVCFVMEYSAGGDLMLHIHSDVFSEPRAIFYSACVVLGLQFLHEHKIV YRDLKLDNLLLDTEGYVKIADFGLCKEGMGYGDRTSTFCGTPEFLAPEVLTDTSYTRAVD WWGLGVLLYEMLVGESPFPGDDEEEVFDSIVNDEVRYPRFLSAEAIGIMRRLLRRNPERR LGSSERDAEDVKKQPFFRTLGWEALLARRLPPPFVPTLSGRTDVSNFDEEFTGEAPTLSP PRDARPLTAAEQAAFLDFDFVAGGC >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_5|2958_bp atggcaagggcgggggcctccggagcgcccggcgccccctccctgggccgggactgtgga gccagcgaggcccccttctcggcagtcctgctgatggcctgccggccttgccgaggagct gggcgtatctggtgttgccgatcacacaagagtgagcctcgcagctggtccctgctagag cagctgggcctggccggggcagacctggcggcccccggggtacagcagcagctggagctg gagcgggagcggctgcggcgggaaatccgcaaggagctgaagctgaaggagggtgctgag aacctgcggcgggccaccactgacctgggccgcagcctgggccccgtagagctgctgctg cggggctcctcgcgccgcctcgacctgctgcaccagcagctgcaggagctgcacgcccac gtggtgcttcccgacccggcggccacccacgatggcccccagtcccctggtgcgggtggc cccacctgctcggccaccaacctgagccgcgtggcgggcctggagaagcagttggccatt gagctgaaggtgaagcagggggcggagaacatgatccagacctacagcaatggcagcacc aaggaccggaagctgctgctgacagcccagcagatgttgcaggacagtaagaccaagatt gacatcatccgcatgcaactccgccgggcgctgcaggccggccagctggagaaccaggca gccccggatgacacccaagggagtcctgacctgggggctgtggagctgcgcatcgaagag ctgcggcaccacttccgagtggagcacgcggtggccgagggtgccaagaacgtactgcgc ctgctcagcgctgccaaggccccggaccgcaaggcagtcagcgaggcccaggagaaatta acagaatccaaccagaagctggggctgctgcgggaggctctggagcggagacttggggag ctgcccgccgaccaccccaaggggcggctgctgcgagaagagctcgctgcggcctcctcc gctgccttcagcacccgcctggccgggccctttcccgccacgcactacagcaccctgtgc aagcccgcgccgctcacagggaccctggaggtacgagtggtgggctgcagagacctccca gagaccatcccgtggaaccctaccccctcaatggggggacctgggaccccagacagccgc ccccccttcctgagccgcccagcccggggcctttacagccgaagcggaagcctcagtggc cggagcagcctcaaagcagaagccgagaacaccagtgaagtcagcactgtgcttaagctg gataacacagtggtggggcagacgtcttggaagccatgtggccccaatgcctgggaccag agcttcactctggagctggaaagggcacgggaactggagttggctgtgttctggcgggac cagcggggcctgtgtgccctcaaattcctgaagttggaggatttcttggacaatgagagg catgaggtgcagctggacatggaaccccagggctgcctggtggctgaggtcaccttccgc aaccctgtcattgagaggattcctcggctccgacggcagaagaaaattttctccaagcag caagggaaggcgttccagcgtgctaggcagatgaacatcgatgtcgccacgtgggtgcgg ctgctccggaggctcatccccaatgccacgggcacaggcacctttagccctggggcttct ccaggatccgaggcccggaccacgggtgacatatcggtggagaagctgaacctcggcact gactcggacagctcacctcagaagagctcgcgggatcctccttccagcccatcgagcctg agctcccccatccaggaatccactgctcccgagctgccttcggagacccaggagacccca ggccccgccctgtgcagccctctgaggaagtcacctctgaccctcgaagatttcaagttc ctggcggtgctgggccggggtcattttgggaaggtgctcctctccgaattccggcccagt ggggagctgttcgccatcaaggctctgaagaaaggggacattgtggcccgagacgaggtg gagagcctgatgtgtgagaagcggatattggcggcagtgaccagtgcgggacaccccttc ctggtgaacctcttcggctgtttccagacaccggagcacgtgtgcttcgtgatggagtac tcggccggtggggacctgatgctgcacatccacagcgacgtgttctctgagccccgtgcc atcttttattccgcctgcgtggtgctgggcctacagtttcttcacgaacacaagatcgtc tacagggacctgaagttggacaatttgctcctggacaccgagggctacgtcaagatcgca gactttggcctctgcaaggaggggatgggctatggggaccggaccagcacattctgtggg accccggagttcctggcccctgaggtgctgacggacacgtcgtacacgcgagctgtggac tggtggggactgggtgtgctgctctacgagatgctggttggcgagtccccattcccaggg gatgatgaggaggaggtcttcgacagcatcgtcaacgacgaggttcgctacccccgcttc ctgtcggccgaagccatcggcatcatgagaaggctgcttcggaggaacccagagcggagg ctgggatctagcgagagagatgcagaagatgtgaagaaacagcccttcttcaggactctg ggctgggaagccctgttggcccggcgcctgccaccgccctttgtgcccacgctgtccggc cgcaccgacgtcagcaacttcgacgaggagttcaccggggaggcccccacactgagcccg ccccgcgacgcgcggcccctcacagccgcggagcaggcagccttcctggacttcgacttc gtggccgggggctgctag >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_6|402_aa MSPCGPLNLSLAGEATTCAAPWVPNTSAVPPSGASPALPIFSMTLGAVSNLLALALLAQA AGRLRRRRSAATFLLFVASLLATDLAGHVIPGALVLRLYTAGRAPAGGACHFLGGCMVFF GLCPLLLGCGMAVERCVGVTRPLLHAARVSVARARLALAAVAAVALAVALLPLARVGRYE LQYPGTWCFIGLGPPGGWRQALLAGLFASLGLVALLAALVCNTLSGLALLRARWRRRSRR PPPASGPDSRRRWGAHGPRSASASSASSIASASTFFGGSRSSGSARRARAHDVEMVGQLV GIMVVSCICWSPMLVLVALAVGGWSSTSLQRPLFLAVRLASWNQILDPWVYILLRQAVLR QLLRLLPPRAGAKGGPAGLGLTPSAWEASSLRSSRHSGLSHF >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_6|1209_bp atgagcccttgcgggcccctcaacctgagcctggcgggcgaggcgaccacatgcgcggcg ccctgggtccccaacacgtcggccgtgccgccgtcgggcgcttcgcccgcgctgcccatc ttctccatgacgctgggcgccgtgtccaacctgctggcgctggcgctgctggcgcaggcc gcgggccgcctgcgacgccgccgctcggccgccaccttcctgctgttcgtggccagcctg ctggccaccgacctggcgggccacgtgatcccgggcgcgctggtgctgcgtctgtacact gcggggcgcgctccggccggcggggcctgccacttcctgggcggctgcatggtcttcttc ggcctgtgcccgctgctgctgggctgtggcatggccgtggagcgctgcgtgggcgtcacg cggccgctgctccacgccgcgcgggtctcggtcgcccgcgcgcgcctggcgctggccgcg gtggccgcggtggccttggccgtggcgctgctgccgctggcgcgcgtgggccgctatgag ctgcagtacccgggcacgtggtgcttcatcggcctgggtcccccgggcggctggcgccag gcactgcttgctggcctcttcgccagcctcggcctggtcgcgctcctcgccgcgctggtg tgcaacacgctcagcggcctggccctgctacgcgcccgctggcgacgccgctcccgacgg cctcccccggcctcaggccccgacagccggcgtcgctggggggcgcacggaccccgctcg gcctccgcctcgtccgcctcgtccatcgcttcggcctccaccttctttggcggctctcgg agcagcggctcggcacgcagagctcgcgcccacgacgtggagatggtgggccagcttgtc ggtatcatggtggtgtcgtgcatctgctggagcccaatgctggtgttggtggcgctggcc gtcggcggctggagctctacctccctgcagcggccactgttcctggccgtgcgccttgcc tcctggaaccagatcctggacccttgggtgtacatcctactgcgccaggccgtgctgcgc caactgcttcgcctcttgcccccgagggccggagccaagggcggccccgcggggctgggc ctaacaccgagcgcctgggaggccagctcgctgcgcagctcccggcacagcggcctcagc cacttctaa >gi568815579r:14309037_14513220|GENSCAN_predicted_peptide_7|458_aa MPSGGTASRGLGGAERSTASRRGEESGRAGRGGGIPLECFRRVHPKRKTRIGCEHREAAA DWPAAGVGPAPQAPLRERPGLEFAEGRAGCARGGGGSGGGGGGGGGGGAALRPRLVFHTQ LAHGSPTGRIEGFTNVKELYGKIAEAFRLPTAEVSTGEPGTRVPDGGPEVWACILFMSWG SDAEAADAEPGPHSVVMFCTLNTHKVDMDKLLGGQIGLEDFIFAHVKGQRKEVEVFKSED ALGLTITDNGAGYAFIKRIKEGSVIDHIHLISVGDMIEAINGQSLLGCRHYEVARLLKEL PRGRTFTLKLTEPRKAFGEEPPPGPPQWRCSHGRRRWCRERPADMISQRSAGGRPGSGPQ LGTGRGTLRLRSRGPATVEDLPSAFEEKAIEKVDDLLESYMGIRDTELAATMVELGKDKR NPDELAEALDERLGDFAFPDEFVFDVWGAIGDAKVGRY >gi568815579r:14309037_14513220|GENSCAN_predicted_CDS_7|1377_bp atgccctccggtggtacagccagccgcggcttaggcggggcggaacggtccactgcttcg cggcgaggggaggagtcgggaagagccgggcgaggcggagggatccctctggaatgtttc cgtcgggtccacccgaagcggaagacgcggattggctgcgagcaccgagaggcagccgct gattggccggccgcgggcgtcggccccgccccccaggcgccgctgcgggagaggcccggt ctggagtttgcggagggccgagccgggtgcgcacggggaggcggaggcagcggcggcggc ggcggcggcggcggcggcggcggagcagccctgcggccccgcctcgtgttccacacccag ctggcccatggcagtcccactggccgcatcgagggcttcaccaacgtcaaggagctgtat ggcaagatcgccgaggccttccgcctgccaactgccgaggtatccactggggagccgggc accagggtccctgatggtggaccagaggtctgggcctgcatcctgttcatgagctggggc tcagatgctgaagctgcagatgctgagcctgggccccactcagtggtgatgttctgcacc ctgaacacccacaaagtggacatggacaagctcctggggggccagatcgggctggaggac ttcatcttcgcccacgtgaaggggcagcgcaaggaggtggaggtgttcaagtcggaggat gcactcgggctcaccatcacggacaacggggctggctacgccttcatcaagcgcatcaag gagggcagcgtgatcgaccacatccacctcatcagcgtgggcgacatgatcgaggccatt aacgggcagagcctgctgggctgccggcactacgaggtggcccggctgctcaaggagctg ccccgaggccgtaccttcacgctgaagctcacggagcctcgcaaggccttcggtgaggag ccgccccctggacctccccagtggcgctgctcgcatgggcgcaggcggtggtgccgggag cggccagcagacatgatcagccagcgttcagcgggtggccgccctggctctggcccacaa ctgggcactggccgagggaccctgcggctccgatcccggggccccgccacggtggaggat ctgccctctgcctttgaagagaaggccattgagaaggtggatgacctgctggagagttac atgggtatcagggacacggagctggcggccaccatggtggagctgggaaaggacaaaagg aacccggatgagctggccgaggccctggacgaacggctgggtgactttgccttccctgac gagttcgtctttgacgtctggggcgccattggggacgccaaggtcggccgctactag