Result of GENSCAN for
pF1KE9602
GENSCAN 1.0 Date run: 6-Nov-116 Time: 06:30:17 Sequence gi568815579r:11047186_11255776 : 208591 bp : 52.41% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 1861 1922 62 0 2 92 87 89 0.913 7.88 1.02 Intr + 8854 8955 102 1 0 83 77 27 0.362 0.89 1.03 Intr + 11070 11178 109 0 1 71 86 339 0.989 32.79 1.04 Intr + 11603 11704 102 1 0 106 81 281 0.996 30.07 1.05 Intr + 12568 12700 133 0 1 77 82 325 0.992 31.52 1.06 Intr + 12860 13002 143 0 2 86 78 215 0.956 20.88 1.07 Term + 14599 14631 33 0 0 115 52 54 0.846 2.37 1.08 PlyA + 15066 15071 6 1.05 2.00 Prom + 24649 24688 40 -3.81 2.01 Init + 42364 42430 67 0 1 98 110 103 0.988 12.69 2.02 Intr + 53038 53160 123 2 0 100 68 138 0.989 14.06 2.03 Intr + 55479 55601 123 1 0 79 91 183 0.998 18.76 2.04 Intr + 58035 58415 381 1 0 59 56 583 0.916 47.65 2.05 Intr + 59380 59502 123 2 0 94 89 165 0.993 18.26 2.06 Intr + 60207 60329 123 1 0 103 101 151 0.999 18.96 2.07 Intr + 63467 63586 120 0 0 91 55 292 0.999 27.17 2.08 Intr + 64329 64454 126 1 0 127 80 216 0.782 25.86 2.09 Intr + 66093 66264 172 1 1 112 99 271 0.997 30.12 2.10 Intr + 66350 66577 228 2 0 112 65 313 0.895 28.91 2.11 Intr + 68909 69027 119 2 2 91 77 195 0.982 19.31 2.12 Intr + 69674 69813 140 0 2 77 48 179 0.868 13.49 2.13 Intr + 72907 73048 142 0 1 77 94 174 0.948 17.34 2.14 Intr + 73185 73337 153 1 0 118 64 160 0.981 17.16 2.15 Intr + 75989 76159 171 0 0 56 98 40 0.821 2.23 2.16 Intr + 80823 80900 78 1 0 123 111 53 0.991 11.12 2.17 Intr + 82328 82485 158 0 2 77 109 221 0.826 23.34 2.18 Intr + 91327 91427 101 0 2 115 81 -29 0.270 -1.49 2.19 Intr + 91512 91609 98 0 2 134 59 39 0.296 5.75 2.20 Intr + 95645 95692 48 0 0 97 56 59 0.812 2.74 2.21 Term + 95982 96103 122 1 2 124 46 44 0.408 2.74 2.22 PlyA + 96806 96811 6 -0.45 3.06 PlyA - 97748 97743 6 1.05 3.05 Term - 100104 99998 107 1 2 62 42 182 0.632 9.87 3.04 Intr - 100709 100657 53 1 2 114 39 7 0.459 -2.56 3.03 Intr - 100928 100828 101 2 2 15 36 148 0.406 1.71 3.02 Intr - 102053 101998 56 0 2 72 55 91 0.277 3.39 3.01 Init - 108591 108432 160 0 1 92 78 312 0.992 30.56 3.00 Prom - 113314 113275 40 -3.61 4.47 PlyA - 113467 113462 6 1.05 4.46 Term - 119799 119677 123 0 0 110 54 27 0.597 0.19 4.45 Intr - 122781 122692 90 0 0 46 109 112 0.795 9.79 4.44 Intr - 123063 122863 201 0 0 110 77 419 0.802 43.00 4.43 Intr - 125938 125796 143 2 2 54 80 294 0.501 25.78 4.42 Intr - 127507 127288 220 1 1 68 89 568 0.985 53.30 4.41 Intr - 128804 128717 88 1 1 104 72 80 0.979 8.47 4.40 Intr - 129632 129393 240 1 0 123 82 199 0.999 20.00 4.39 Intr - 131262 131160 103 1 1 126 80 106 0.998 13.33 4.38 Intr - 131535 131368 168 1 0 74 131 66 0.963 9.93 4.37 Intr - 132721 132539 183 2 0 21 55 118 0.289 2.08 4.36 Intr - 146857 145646 1212 2 0 69 115 1639 0.450 152.87 4.35 Intr - 147442 147406 37 1 1 118 115 1 0.505 4.12 4.34 Intr - 149557 149356 202 0 1 94 48 90 0.674 5.41 4.33 Intr - 153329 153123 207 1 0 66 51 303 0.678 23.12 4.32 Intr - 153637 153531 107 1 2 95 24 175 0.999 11.31 4.31 Intr - 153867 153679 189 0 0 89 50 302 0.880 26.80 4.30 Intr - 154940 154704 237 2 0 50 90 466 0.878 41.34 4.29 Intr - 155298 155209 90 0 0 50 98 143 0.902 12.19 4.28 Intr - 155530 155345 186 1 0 55 5 179 0.707 6.70 4.27 Intr - 156910 156896 15 1 0 139 105 0 0.889 3.02 4.26 Intr - 157146 157015 132 0 0 68 80 302 0.996 28.75 4.25 Intr - 161644 161501 144 1 0 88 77 238 0.977 23.69 4.24 Intr - 161918 161726 193 1 1 65 109 296 0.996 29.42 4.23 Intr - 164691 164591 101 0 2 81 94 225 0.958 21.81 4.22 Intr - 164966 164808 159 2 0 128 61 263 0.999 28.30 4.21 Intr - 166143 165991 153 0 0 36 94 358 0.988 31.98 4.20 Intr - 167224 167090 135 1 0 103 105 95 0.999 13.97 4.19 Intr - 167464 167368 97 0 1 101 91 140 0.999 16.11 4.18 Intr - 168397 168202 196 2 1 68 58 97 0.341 3.69 4.17 Intr - 168742 168616 127 1 1 72 83 170 0.790 15.66 4.16 Intr - 169911 169729 183 0 0 89 42 74 0.856 3.40 4.15 Intr - 170206 170046 161 2 2 75 113 153 0.895 16.72 4.14 Intr - 174835 174666 170 0 2 76 65 254 0.980 22.01 4.13 Intr - 175063 174924 140 1 2 67 84 120 0.999 9.27 4.12 Intr - 175720 175550 171 1 0 129 80 190 0.999 22.95 4.11 Intr - 175921 175808 114 1 0 39 91 206 0.915 17.15 4.10 Intr - 180292 180152 141 1 0 93 100 255 0.672 28.26 4.09 Intr - 181850 181755 96 2 0 101 81 106 0.951 11.91 4.08 Intr - 186181 186018 164 2 2 79 97 212 0.959 21.41 4.07 Intr - 188574 188413 162 1 0 96 101 170 0.999 19.56 4.06 Intr - 189392 189161 232 2 1 85 99 390 0.999 37.68 4.05 Intr - 189694 189608 87 1 0 128 96 112 0.999 16.66 4.04 Intr - 190594 190456 139 0 1 13 48 207 0.607 10.17 4.03 Intr - 190930 190860 71 1 2 71 55 83 0.566 1.77 4.02 Intr - 191119 191002 118 0 1 146 77 239 0.999 29.57 4.01 Init - 191237 191176 62 2 2 59 36 11 0.764 -7.64 4.00 Prom - 192170 192131 40 -6.01 5.00 Prom + 192400 192439 40 -8.29 5.01 Init + 192453 192812 360 2 0 64 53 412 0.509 30.40 5.02 Intr + 192950 193111 162 1 0 41 116 197 0.961 18.49 5.03 Term + 194260 194373 114 0 0 76 52 117 0.569 5.77 5.04 PlyA + 194734 194739 6 -1.95 6.15 PlyA - 195696 195691 6 1.05 6.14 Term - 195829 195720 110 2 2 3 39 113 0.509 -3.13 6.13 Intr - 195967 195874 94 1 1 13 78 128 0.609 4.34 6.12 Intr - 196200 196073 128 1 2 90 37 48 0.833 0.80 6.11 Intr - 196525 196372 154 1 1 37 77 328 0.999 26.76 6.10 Intr - 196697 196617 81 2 0 94 121 79 0.981 12.13 6.09 Intr - 198527 198378 150 2 0 67 46 236 0.965 18.17 6.08 Intr - 198693 198627 67 2 1 70 97 80 0.997 6.50 6.07 Intr - 200966 200881 86 2 2 100 89 64 0.999 6.82 6.06 Intr - 203901 203689 213 0 0 81 90 277 0.998 26.64 6.05 Intr - 203984 203958 27 2 0 123 42 48 0.848 2.50 6.04 Intr - 205063 204901 163 0 1 104 63 177 0.610 17.29 6.03 Intr - 205365 205297 69 2 0 105 113 76 0.997 10.59 6.02 Intr - 205773 205598 176 0 2 48 11 310 0.990 18.55 6.01 Intr - 206541 206454 88 2 1 115 98 68 0.988 10.97 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 149903 149668 236 2 2 102 52 150 0.983 8.40 S.002 Term - 152354 152312 43 1 1 144 52 12 0.937 0.12 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_1|227_aa MPAVLASAVQGLVVAPVGRATYRVDAAIMKREESSLLIKFRRVENRMCRLRRGKSSSGRQ LSEVFIQLPSRKELPEYYELIRKPVDFKKIKERIRNHKYRSLNDLEKDVMLLCQNAQTFN LEGSLIYEDSIVLQSVFTSVRQKIEKEDDSEGEESEEEEEGEEEGSESESRSVKVKIKLG RKEKAQDRLKGGRRRPSRGSRAKPVVSDDDSEEEQEEDRSGSGSEED >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_1|684_bp atgccggcagtgctggcttctgctgtccaggggcttgtggtggctccagtgggaagggcc acgtatagggtggatgctgccatcatgaagagagaggagagctctttgcttataaaattc cgtagagtggagaacaggatgtgccggcttaggagagggaagagcagcagtggacgtcag ctcagcgaggtcttcatccagctgccctcgcgaaaggagctgcccgagtactacgagctc atccgcaagcccgtggacttcaagaagataaaggagcgcattcgcaaccacaagtaccgc agcctcaacgacctagagaaggacgtcatgctcctgtgccagaacgcacagaccttcaac ctggagggctccctgatctatgaagactccatcgtcttgcagtcggtcttcaccagcgtg cggcagaaaatcgagaaggaggatgacagtgaaggcgaggagagtgaggaggaggaagag ggcgaggaggaaggctccgaatccgaatctcggtccgtcaaagtgaagatcaagcttggc cggaaggagaaggcacaggaccggctgaagggcggccggcggcggccgagccgagggtcc cgagccaagccggtcgtgagtgacgatgacagtgaggaggaacaagaggaggaccgctca ggaagtggcagcgaagaagactga >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_2|971_aa MGPWGWKLRWTVALLLAAAGTAVGDRCERNEFQCQDGKCISYKWVCDGSAECQDGSDESQ ETCLSVTCKSGDFSCGGRVNRCIPQFWRCDGQVDCDNGSDEQGCPPKTCSQDEFRCHDGK CISRQFVCDSDRDCLDGSDEASCPVLTCGPASFQCNSSTCIPQLWACDNDPDCEDGSDEW PQRCRGLYVFQGDSSPCSAFEFHCLSGECIHSSWRCDGGPDCKDKSDEENCAVATCRPDE FQCSDGNCIHGSRQCDREYDCKDMSDEVGCVNVTLCEGPNKFKCHSGECITLDKVCNMAR DCRDWSDEPIKECGTNECLDNNGGCSHVCNDLKIGYECLCPDGFQLVAQRRCEDIDECQD PDTCSQLCVNLEGGYKCQCEEGFQLDPHTKACKAVGSIAYLFFTNRHEVRKMTLDRSEYT SLIPNLRNVVALDTEVASNRIYWSDLSQRMICSTQLDRAHGVSSYDTVISRDIQAPDGLA VDWIHSNIYWTDSVLGTVSVADTKGVKRKTLFRENGSKPRAIVVDPVHGFMYWTDWGTPA KIKKGGLNGVDIYSLVTENIQWPNGITLDLLSGRLYWVDSKLHSISSIDVNGGNRKTILE DEKRLAHPFSLAVFEDKVFWTDIINEAIFSANRLTGSDVNLLAENLLSPEDMVLFHNLTQ PRGVNWCERTTLSNGGCQYLCLPAPQINPHSPKFTCACPDGMLLARDMRSCLTEAEAAVA TQETSTVRLKVSSTAVRTQHTTTRPVPDTSRLPGATPGLTTVEIVTMSHQALGDVAGRGN EKKPSSVRALSIVLPIVLLVFLCLGVFLLWKNWRLKNINSINFDNPVYQKTTEDEVHICH NQDGYSYPSGWGQPAAWGTPPLQAGGPVLSPQAQQLWPGQGGRPFPFQQPEASQTTAVCS ESAWSLWAEPRLPEGEGTLDLPGGDEDGDVAGHSELQFAGREGDVPNPPIPGRSAVRGLG PLHSRRPQLPQ >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_2|2916_bp atggggccctggggctggaaattgcgctggaccgtcgccttgctcctcgccgcggcgggg actgcagtgggcgacagatgcgaaagaaacgagttccagtgccaagacgggaaatgcatc tcctacaagtgggtctgcgatggcagcgctgagtgccaggatggctctgatgagtcccag gagacgtgcttgtctgtcacctgcaaatccggggacttcagctgtgggggccgtgtcaac cgctgcattcctcagttctggaggtgcgatggccaagtggactgcgacaacggctcagac gagcaaggctgtccccccaagacgtgctcccaggacgagtttcgctgccacgatgggaag tgcatctctcggcagttcgtctgtgactcagaccgggactgcttggacggctcagacgag gcctcctgcccggtgctcacctgtggtcccgccagcttccagtgcaacagctccacctgc atcccccagctgtgggcctgcgacaacgaccccgactgcgaagatggctcggatgagtgg ccgcagcgctgtaggggtctttacgtgttccaaggggacagtagcccctgctcggccttc gagttccactgcctaagtggcgagtgcatccactccagctggcgctgtgatggtggcccc gactgcaaggacaaatctgacgaggaaaactgcgctgtggccacctgtcgccctgacgaa ttccagtgctctgatggaaactgcatccatggcagccggcagtgtgaccgggaatatgac tgcaaggacatgagcgatgaagttggctgcgttaatgtgacactctgcgagggacccaac aagttcaagtgtcacagcggcgaatgcatcaccctggacaaagtctgcaacatggctaga gactgccgggactggtcagatgaacccatcaaagagtgcgggaccaacgaatgcttggac aacaacggcggctgttcccacgtctgcaatgaccttaagatcggctacgagtgcctgtgc cccgacggcttccagctggtggcccagcgaagatgcgaagatatcgatgagtgtcaggat cccgacacctgcagccagctctgcgtgaacctggagggtggctacaagtgccagtgtgag gaaggcttccagctggacccccacacgaaggcctgcaaggctgtgggctccatcgcctac ctcttcttcaccaaccggcacgaggtcaggaagatgacgctggaccggagcgagtacacc agcctcatccccaacctgaggaacgtggtcgctctggacacggaggtggccagcaataga atctactggtctgacctgtcccagagaatgatctgcagcacccagcttgacagagcccac ggcgtctcttcctatgacaccgtcatcagcagagacatccaggcccccgacgggctggct gtggactggatccacagcaacatctactggaccgactctgtcctgggcactgtctctgtt gcggataccaagggcgtgaagaggaaaacgttattcagggagaacggctccaagccaagg gccatcgtggtggatcctgttcatggcttcatgtactggactgactggggaactcccgcc aagatcaagaaagggggcctgaatggtgtggacatctactcgctggtgactgaaaacatt cagtggcccaatggcatcaccctagatctcctcagtggccgcctctactgggttgactcc aaacttcactccatctcaagcatcgatgtcaacgggggcaaccggaagaccatcttggag gatgaaaagaggctggcccaccccttctccttggccgtctttgaggacaaagtattttgg acagatatcatcaacgaagccattttcagtgccaaccgcctcacaggttccgatgtcaac ttgttggctgaaaacctactgtccccagaggatatggttctcttccacaacctcacccag ccaagaggagtgaactggtgtgagaggaccaccctgagcaatggcggctgccagtatctg tgcctccctgccccgcagatcaacccccactcgcccaagtttacctgcgcctgcccggac ggcatgctgctggccagggacatgaggagctgcctcacagaggctgaggctgcagtggcc acccaggagacatccaccgtcaggctaaaggtcagctccacagccgtaaggacacagcac acaaccacccgacctgttcccgacacctcccggctgcctggggccacccctgggctcacc acggtggagatagtgacaatgtctcaccaagctctgggcgacgttgctggcagaggaaat gagaagaagcccagtagcgtgagggctctgtccattgtcctccccatcgtgctcctcgtc ttcctttgcctgggggtcttccttctatggaagaactggcggcttaagaacatcaacagc atcaactttgacaaccccgtctatcagaagaccacagaggatgaggtccacatttgccac aaccaggacggctacagctacccctcgggctgggggcagcctgcagcttggggaacgcca cccctgcaggctggtggtcctgtcctgtctccgcaggctcaacagctctggccaggacag ggtggaaggccgttccccttccagcagcccgaggcatcccagaccacagctgtctgcagt gagtcagcctggagcctctgggctgagccgcggctgccagagggagaggggaccctggac ctgcctgggggggacgaggatggggatgtggctgggcactcagagctgcagtttgcagga cgagagggagacgtgcccaatccccccatcccaggacgctcagccgtgcgtgggctgggc ccactccactcccggcgcccacagttgccccagtga >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_3|158_aa MAAFRDIEEVSQGLLSLLGANRAEAQQRRLLGRHEQVVERLLETQDGAEKQLREILTMEK EVAQSLLNAKEQLTRELEELKEIEADLERQEKEVDEDTTVTIPSAVYVAQLYHQVSKIEW DYEFHHGPSVAQPIHLDSTQLSRKFISDYLWSLVDTEW >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_3|477_bp atggccgccttccgcgacatagaggaggtgagccaggggctgctcagcctgctgggcgcc aaccgcgcggaggcgcagcagcgacggctgctggggcgccacgagcaggtggtggagcgg ctgctggaaacgcaagacggtgccgagaagcagctgcgagagatcctcaccatggagaag gaagtggcccagagccttctcaatgcgaaggagcagctcaccagagagctggaagagctc aaggagattgaggcggatctggagcgacaggagaaggaggtcgacgaggacacgacagtc acaatcccctcggccgtgtacgtggctcaactttaccaccaagttagtaaaattgagtgg gattatgagttccatcatggccccagtgtggcccagcccatccacctggacagcacccag ctctccaggaaattcatcagcgactacctctggagtctggtggacaccgagtggtag >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_4|2562_aa MTYSSWTVCAPSQPCPITPALNLLYVYPHSLNFSSRQGSVRNLAVRVQYMTGEDPSQALP VIFGKSSCSEFTREAFTPVVYHNKSPEFYEEFKLHLPACVTENHHLLFTFYHVSCQPRPG TALETPVGFTVALPGMRWVDGHKGVFSVELTAVSSVHPQDPYLDKFFTLVHVLEEGAFPF RLKDTVLSEGNVEQELRASLAALRLASPEPLVAFSHHVLDKLVRLVIRPPIISGQIVNLG RGAFEAMAHVVSLVHRSLEAAQDARGHCPQLAAYVHYAFRLPGTEPSLPDGAPPVTVQAA TLARGSGRPASLYLARSKSISSSNPDLAVAPGSVDDEVSRILASKLLHEELALQWVVSSS AVREAILQHAWFFFQLMVKSMALHLLLGQRLDTPRKLRFPGRFLDDITALVGSVGLEVIT RVHKDVELAEHLNASLAFFLSDLLSLVDRGFVFSLVRAHYKQVATRLQSSPNPAALLTLR MEFTRILCSHEHYVTLNLPCCPLSPPASPSPSVSSTTSQSSTFSSQAPDPKVTSMFELSG PFRQQHFLAGLLLTELALALEPEAEGAFLLHKKAISAVHSLLCGHDTDPRYAEATVKARV AELYLPLLSIARDTLPRLHDFAEGPGQRSRLASMLDSDTEGEGDIAGTINPSVAMAIAGG PLAPGSRASISQGPPTASRAGCALSAESSRTLLACVLWVLKNTEPALLQRWATDLTLPQL GRLLDLLYLCLAAFEYKGKKAFERINSLTFKKSLDMKARLEEAILGTIGARQEMVRRSRV PSWVSPPEYLHACAFLLMFTCALCFYASVIVHPRVSERSPFGNPENVRWRKSVTHWKQTS DRVDKTKDEMEHEALVEGNLATEASLVVLDTLEIIVQTVMLSEARESVLGAVLKVVLYSL GSAQSALFLQHGLATQRALVSKFPELLFEEDTELCADLCLRLLRHCGSRISTIRTHASAS LYLLMRQNFEIGHNFARVKMQVTMSLSSLVGTTQNFSEEHLRRSLKTILTYAEEDMGLRD STFAEQVQDLMFNLHMILTDTVKMKEHQEDPEMLIDLMYRIARGYQGSPDLRLTWLQNMA GKHAELGNHAEAAQCMVHAAALVAEYLALLEDHRHLPVGCVSFQNISSNVLEESAISDDI LSPDEEGFCSGKHFTELGLVGLLEQAAGYFTMGGLYEAVNEVYKNLIPILEAHRDYKKLA AVHGKLQEAFTKIMHQSSGWEPQRVFGTYFRVGFYGAHFGDLDEQEFVYKEPSITKLAEI SHRLEARPCGWGWNGAWGCLGAGEFYTERFGDDVVEIIKDSNPVDKSKLDSQKAYIQITY VEPYFDTYELKDRVTYFDRNYGLRTFLFCTPFTPDGRAHGELPEQHKRKTLLSTDHAFPY IKTRIRVCHREETVLTPVEVAIEDMQKKTRELAFATEQDPPDAKMLQMVLQGSVGPTVNQ ARLVEGGCKPHGGLQGPLEVAQVFLAEIPEDPKLFRHHNKLRLCFKDFCKNPVCESLSIS HPLALRCEDALRKNKALIGPDQKEYHRELERNYCRLREALQPLLTQRLPQLMAPTPPGLR GPMAREGSQPQTSISPTTPPRLLSLPLTRDVLVLIEGGEMTEYPQTSVSVSGKRVEISDV ESEGGGLTPNSRRRGSLSPGTPGPASPPAFPAKDPDPPYSVETPYGYRLDLDFLKYVDDI EKGHTLRRVAVQRRPRLSSLPRGPGSWWTSTESLCSNASGDSRHSAYSYCGRGFYPQYGA LETRGGFNPRVERTLLDARRRLEDQAATPTGLGSLTPSAAGSTASLVGVGLPPPTPRSSG LSTPVPPSAGHLAHVREQMAGALRKLRQLEEQVKLIPVLQVKLSVLQEEKRQLTVQLKSQ KFLGHPTAGRGRSELCLDLPDPPEDPVALETRSVGTWVRERDLGMPDGEAALAAKVAVLE TQLKKALQELQAAQARQADPQPQAWPPPDSPVRVDTVRVVEGPREVEVVASTAAGAPAQR AQSLEPYGTGLRALAMPGRPESPPVFRSQEVVETMCPVPAAATSNVHMVKKISITERSCD GAAASVKGVKPCLTKQPYVAQGDLSGFQDIGGYTKRKLDFYSTLLAGSPGPQHPGSHLCP QTNLGLPEVPAESSSSPPGSEVASLTQPEKSTGRVPTQEPTHREPTRQAASQESEEAGGT GGPPAGVRSIMKRKEEVADPTAHRRSLQFVGVNGGYESSSEDSSTAENISDNDSTENEAP EPRERVPSVAEAPQLRPAGTAAAKTSRQECQLSRESQHIPTAEGASGSNTEEEIRMELSP DLISACLALEKYLDNPNALTERELKVAYTTVLQEWLRLACRSDAHPELVRRHLVTFRAMS ARLLDYVVNIADSNGNTALHYSVSHANFPVVQQLLDSGVCKVDKQNRAGYSPIMLTALAT LKTQDDIETVLQLFRLGNINAKASQAGQTALMLAVSHGRVDVVKALLACEADVNVQDDDG STALMCACEHGHKEIAGLLLAVPSCDISLTDRDGSTALMVALDAGQSEIASMLYSRMNIK CSPHWPYCHTPLHLSQGLCTCCFRCLECSSLLAGSLMPFTVS >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_4|7689_bp atgacctactcttcctggactgtctgtgctcccagccagccttgtcccatcaccccagcc ttgaacctgctgtacgtgtacccgcacagcctcaacttcagcagccgccagggctccgtg cgcaaccttgctgtgcgagtgcagtacatgacaggcgaggaccccagccaggctctgccg gtcatctttggcaagtccagctgcagtgaatttacccgcgaggccttcacaccggtggtc taccataacaagtcccccgagttctacgaggagttcaagctgcatcttccagcctgcgtg acagagaaccatcacctgctgttcaccttctaccatgtcagctgccagccccggccgggc actgccctggagacacccgtgggctttactgtggcgcttccgggcatgcgctgggtggac ggtcacaagggcgtgttcagtgtggagctcacagccgtgtcctctgtgcacccccaggac ccctacctggacaaattcttcaccctggtgcacgtcctggaggagggagccttcccattc cggctcaaggacactgtgctgagcgagggcaacgtggagcaggagctgcgggccagtctt gcagcactgcgcctggccagccccgaaccccttgtggccttctcccaccacgtgctggac aagctcgtgcgtctggtcatcaggcccccgatcatcagtggccagattgtgaacctgggc cgtggagcctttgaagcaatggcccatgtagtcagccttgttcaccggagcctggaggca gcccaggatgcccgcggtcactgcccacagctggctgcctacgtccactacgcctttcgc cttcctggcactgagcccagcctcccggatggggcccctccagtgacagtgcaggctgcc acactggcccgtggctctggtcgccccgcaagcctctacctggcgcgttccaagagcatc agcagcagcaaccctgacctcgccgtggcccctggctctgtggatgacgaggtttcccgc atcctggccagcaagctgcttcacgaggagctggctctgcagtgggtggtcagcagcagt gccgtacgcgaggccatcctccagcacgcctggttcttcttccagctcatggtgaagagt atggcgctgcacctgctgcttggccagcgactagacacaccccgcaagctgcgcttcccc ggacgcttcctggacgacatcactgccttggtgggctctgtgggcctggaggtcatcacc cgtgtccacaaggatgtggagctggccgagcacctcaacgccagcctggctttcttcctc agtgaccttctgtccctggtggaccggggctttgtcttcagcctggtccgggcccactac aagcaggtggccacgcggctccagtcgtcccctaatccagcagccctgctgaccctgcgc atggaattcacccgcatcctgtgcagccacgagcactacgtgaccctcaacctcccctgc tgccccctgtcacctccagcctcgccctccccctctgtgtcctccaccacctcccagagc tccaccttctccagccaagccccggaccccaaggtgaccagcatgttcgaactgagtgga ccattccggcagcagcacttcctagctgggctcctgctgacggagctggcactggccctc gaacctgaggctgaaggggcattcctgttgcacaagaaggccatcagtgctgtgcacagc ctgctatgtggccatgacactgacccccgctacgccgaggccactgtgaaggctcgtgtg gccgagctgtacctgccactgctatcgattgcacgggataccttgccacggctgcatgac tttgctgagggcccaggtcagcggtcaagactggcctcaatgcttgactcagacacagaa ggcgaaggggacattgcgggtaccatcaacccctctgtggccatggccattgctggtggc cccctagcccctggctcccgggccagcatctcccaggggccaccaacggcttctcgcgca ggctgtgccctctctgctgagtcaagccggaccttgctggcgtgtgtgctgtgggtgctg aaaaacaccgagccggcgctcctgcagcgctgggccactgacctgacactcccccagctg ggacgtctgttggatttgctgtacctttgcctagctgcctttgagtacaaggggaaaaag gcctttgaacgcatcaacagcctcacattcaaaaaatctctggatatgaaggcgcggcta gaggaagccattctgggtaccatcggagctcgacaagaaatggttcggcgaagtcgtgtg ccctcatgggtcagcccacctgaatatcttcatgcctgtgcatttctcctgatgttcacg tgtgccctgtgtttttacgcatctgtgatcgtgcacccacgcgtctcagagaggagcccg tttgggaatccggagaatgtgcgctggcggaagagcgtcacacactggaagcaaacctca gaccgcgtggacaagaccaaggatgaaatggaacacgaggccttggtggaagggaacctg gcaaccgaggcaagcctagtggttctggacacactggagatcatcgtgcagacggtgatg ctttcagaagcccgggagagcgtcttgggggcagtgctgaaggttgtgctgtacagcctg ggcagtgcccagagtgccctcttcttgcagcatggcctggccacccagagggcccttgtg tccaagttcccggagctgctgttcgaggaggacacggagctgtgtgccgacctgtgcctg aggctcctacgacactgtggcagccgcatcagcaccatccgcacgcacgccagcgcctcg ctgtacctgctcatgcgacagaacttcgagatcggccacaactttgcccgtgtgaagatg caggtcaccatgtctctctcgtccctggtggggacgacgcagaacttcagtgaagagcac ctgcgacgttcactcaaaaccatcctcacctatgctgaggaggacatggggctgcgggac agcaccttcgcagagcaggtccaggacctgatgttcaacctgcacatgatcctgacggac acggtgaagatgaaggaacaccaggaggaccctgagatgctcatcgacctcatgtacaga attgcccggggctaccagggctcaccggaccttcggctgacctggttgcagaacatggcc gggaagcacgcggagctgggcaaccacgccgaggccgcccagtgcatggtgcacgcggcc gccctcgtggctgagtacctcgccctgctcgaggaccaccgccacctgcccgtgggctgc gtttccttccagaacatctcatccaacgtgctagaggagtccgccatctccgacgacatc ctgtcgcccgacgaggagggcttctgctccgggaagcacttcactgagctggggctggta gggttgctggaacaggcagccggctacttcaccatgggcgggctctacgaggcggtgaat gaggtctacaagaacctcatccccatcctggaagcccaccgtgactacaagaagctggcc gcggtgcacggcaaactgcaggaggccttcaccaagatcatgcaccagagttccggctgg gagccccagcgcgtgttcgggacgtatttccgcgtgggcttctacggcgcccacttcggt gacctggatgagcaggagtttgtgtacaaggagccatcgatcacgaagctggcagagatc tcacaccggctggaggcacgtccttgtggttgggggtggaacggggcatggggctgcctt ggggctggagagttctacacggagagatttggcgacgacgtcgttgagattatcaaagac tctaaccctgtggacaagtccaagcttgactcacaaaaggcctacatccagatcacgtat gtggaaccgtactttgatacctacgagctcaaggaccgggtgacctactttgaccgcaac tatgggcttcgcacattcctgttctgcacgccgttcacgccggatgggcgcgcacacggg gagctgcccgagcaacacaagcgtaagacgctgctcagcaccgaccacgccttcccctac atcaagactcgcatccgtgtgtgccaccgggaggagacggtgctgacgccagtggaggtg gccatcgaggacatgcagaagaagacacgggagctggcctttgccaccgagcaggaccca ccagatgctaagatgctacagatggtgcttcagggctctgtagggcccaccgtgaaccag gcacggctggtggaagggggatgcaagccgcacgggggactccagggtcccctggaggtg gcccaggtgtttttagcagagatcccggaagaccccaagctcttccggcatcacaacaaa ttgcggctctgcttcaaggacttctgcaagaatcccgtgtgcgagtctctgagcatctcc caccctctggccctcagatgtgaggatgcgctgcggaaaaataaggccctgattgggccg gaccagaaggagtaccaccgtgagctggagcgcaactactgccgcctgcgggaggctctg cagcccctgcttacccagcgcctgccccagctgatggcacccaccccacccggcctcagg ggtcccatggcgagagaagggtctcagccacagacatccatctcccccaccacaccccct cgtctcctttctcttccccttactcgggacgtgctggtcctcatcgagggcggtgagatg actgagtaccctcagacctcagtctccgtatctgggaaacgggtagagatatctgatgtg gagtctgagggtggtggcttgactcctaactcccggcgccgtggttctctttccccaggg acccctggcccagcctccccacctgccttccctgccaaggaccccgatccaccctactcc gtggagaccccctatggctaccgcctggacctggacttcctcaagtacgtggatgacatc gagaagggccacacgctgcgacgcgtggcagtgcagcgccgcccccgcctgagctcgctg ccccgtggccctggctcctggtggacgtccactgagtcgctgtgctccaatgccagtggg gacagccgccactcagcctattcctactgcggccgtggcttctaccctcagtatggtgct ctggagacccgcggtggcttcaatccgcgggtggagcgcacgctgctggatgcccgtcgc cgtctcgaggaccaggcggccacacccaccggcctgggctccctgacccccagtgcggcc ggctcgacagcctccctggtgggcgtggggttgccacccccgacaccacggagttcagga ctgtccacaccggtgcctcccagtgccgggcacctggcccacgtgcgggagcagatggcg ggtgccctgcggaagctgcggcagctggaggagcaggtgaagctgatccctgtgctccag gtgaagctctcggtgctccaggaggaaaagcggcagctcacagtacaacttaagagccag aagttcctgggccaccccacagcgggccggggtcgcagcgagctctgcctggacctcccc gatcccccagaggacccagtggcactggagacccggagtgtgggcacctgggttcgagaa cgggacttgggcatgcctgatggggaggctgccctcgccgccaaggtcgctgtgctggag acccagctcaagaaggcgctgcaggagctgcaggcagctcaggcccggcaggctgacccc cagccccaggcctggccaccgccggacagcccggtccgcgtggatacagtccgggtggta gaagggccacgggaggtggaggtggtggccagcacagccgctggcgcccccgcacagcgg gcccagagcctggagccttacggcacagggctgagggccctggcaatgcctggtaggcct gagagcccacctgtgttccgcagccaggaggtggtggagacaatgtgcccagtgcccgct gcagctaccagcaacgtccatatggtgaagaagattagcatcacagagcgaagctgcgat ggagcagcagcttcagtgaagggagtgaaaccctgtcttacaaagcagccatatgtggcc cagggggacctgagtggattccaagacattggtggctacacaaaaaggaaactggacttt tattccacgctgttggctggcagtccaggacctcagcatccaggaagtcacctttgtcct cagaccaacctgggcctcccagaagttcctgccgaatcgtcttcgtcacccccggggtcc gaggtagcctcccttacacagcctgagaagagcacaggccgagtgcccacccaggagccc acccacagggagcccaccaggcaagcagcctcccaagagtccgaggaggccgggggcacc ggcgggcccccggcaggcgtgcgatctatcatgaaacggaaagaggaggttgcagacccc acggcccaccggaggagcctccagttcgtgggggtcaacggcgggtatgagtcgtcatcc gaggactccagcacagcagagaacatctcagacaacgacagcacagagaacgaggcccca gagccgagggagagggttccgagtgtggccgaagccccccagctcaggcctgcagggacg gcagcggccaagaccagccggcaggagtgtcagctgtctcgagaatctcagcacataccc actgctgagggggcatcaggatcaaacacggaggaggagatcaggatggagctaagccct gacctcatctcagcctgcttggccctggaaaagtacctggacaatcccaacgccctcaca gagcgggagctgaaagtggcctacaccacagtgctgcaggagtggctgcgcctggcctgc cgcagcgacgcacaccccgagctggtgcggcggcacctggtcacgttccgggccatgtct gcgcggctgctggactacgtggtcaacatcgccgacagcaacggcaacacagccctgcac tactccgtgtctcatgccaacttccccgtggtgcagcagctgctcgacagcggtgtctgc aaggtggacaaacagaaccgtgctggctacagccctattatgctcaccgccctggccacc ctgaagacccaggacgacatcgagactgtccttcagctcttccggcttggcaacatcaat gccaaagccagccaggcaggacagacggccctgatgctggccgtcagccacgggcgggtg gacgttgtcaaagccctgctggcctgtgaggcagatgtcaacgtgcaagatgatgacggc tccacggccctcatgtgcgcctgtgagcacggccacaaggagatcgcggggctgctgctg gccgtgcccagctgtgacatctcactcacagatcgcgatgggagcacagctctgatggtg gccttggacgcagggcagagtgagattgcgtccatgctgtattcccgcatgaacatcaag tgctcgccacactggccttattgccacacccctctgcacttatcccagggcctttgcacg tgctgtttccgctgcctggaatgctcttccctgctcgctggctccttgatgccgttcaca gtcagctga >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_5|211_aa MPVPALCLLWALAMVTRPASAAPMGGPELAQHEELTLLFHGTLQLGQALNGVYRTTEGRL TKARNSLGLYGRTIELLGQEVSRGRDAAQELRASLLETQVGTVAATLWGGQESKEEFVSR MEEDILQLQAEATAEVLGEVAQAQKVLRDSVQRLEVQLRSAWLGPAYREFEVLKAHADKQ SHILWALTGHVQRQRREMVAQQHRLRQIQER >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_5|636_bp atgccagtgcctgctctgtgcctgctctgggccctggcaatggtgacccggcctgcctca gcggcccccatgggcggcccagaactggcacagcatgaggagctgaccctgctcttccat gggaccctgcagctgggccaggccctcaacggtgtgtacaggaccacggagggacggctg acaaaggccaggaacagcctgggtctctatggccgcacaatagaactcctggggcaggag gtcagccggggccgggatgcagcccaggaacttcgggcaagcctgttggagactcaggtg ggcaccgtagctgcgacactgtggggtggccaggagtccaaagaggagttcgtgtctagg atggaggaggatattctgcagctgcaggcagaggccacagctgaggtgctgggggaggtg gcccaggcacagaaggtgctacgggacagcgtgcagcggctagaagtccagctgaggagc gcctggctgggccctgcctaccgagaatttgaggtcttaaaggctcacgctgacaagcag agccacatcctatgggccctcacaggccacgtgcagcggcagaggcgggagatggtggca cagcagcatcggctgcgacagatccaggagaggtga >gi568815579r:11047186_11255776|GENSCAN_predicted_peptide_6|535_aa XTVAAEVRKQVSRERSGSPHSSRRCSSSLGVPLTEVVEPLDFEDVLLSRPPDAEPGPLRD LVEFPADDLELLLQPRECRTTEPGIPKDEKLDAQVRAAVEMYIEDWVIVHRRYQYLSAAY SPVTTDTQRERQKGLPRQVFEQDASGDERSGPEDSVRKPLAGVTEGNEYEDTLTRNDSRR GSGSPEDTPRSSGASSIFDLRNLAADSLLPSLLERAAPEDVDRRNETLRRQHRPPALLTL YPAPDEDEAVERCSRPEPPREHFGQRILVKCLSLKFEIEIEPIFGILALYDVREKKKISE NFYFDLNSDSMKGLLRAHGTHPAISTLARSAIFSVTYPSPDIFLVIKLEKVLQQGDISEC CEPYMVLKEVDTAKNKEKLEKLRLAAEQFCTRLGRYRMPFAWTAVHLANIVSSAGQLDRD SDSEGERRPAWTDRRRRGPQDRASSGDDACSFSGFRPATLTVTNFFKQEAERLSDEDLFK FLADMRRPSSLLRRLRPVTATQQTYTESTYCARGIRDPTMTMMDKSLTSGAGYSF >gi568815579r:11047186_11255776|GENSCAN_predicted_CDS_6|1608_bp nngacggtggccgcagaggtgcggaagcaggtgtcccgggaacgcagtggctccccccac tccagcaggcgctgcagcagctccctgggggtcccactgactgaagttgtcgagcccctg gactttgaggatgtacttctgagccggccaccagatgctgagcccgggcccctcagggac ctggtagaattcccagctgatgacttggagctgctgctgcagccccgggaatgccggacc acggagcccgggatccccaaggatgaaaaactggatgcccaggtgagggccgcggtggag atgtatattgaggactgggtcattgtccacagaaggtatcagtacctgagtgcagcatac agccccgtcaccacagacacacagcgggagcgacagaagggcctcccccgccaggtcttt gagcaggatgcttctggagacgagaggtccggccctgaggactcggtgaggaagcccctg gctggggtcactgaagggaatgagtatgaggacactctcaccagaaatgactcccggcgt ggctcgggctccccggaagacacccctcgaagcagtggtgcctctagcatcttcgacctg aggaacctggcagctgactcattgctgccctctctgctagagcgggcggccccagaagat gtggaccggcgcaatgaaacccttcgacggcagcaccggcccccggccctgctcaccctc tacccggcacctgacgaggatgaagccgtggaacgctgtagccgcccagagccaccccgc gagcactttggacaaaggatcttggtcaagtgtctgtcgctcaagttcgagattgaaatt gagcccatctttgggatcttggctctgtatgatgtgcgggagaaaaagaagatctcggag aacttctacttcgacctgaactcggactccatgaaggggctgcttcgggctcatggcacc caccctgccatctccaccctggcccgctctgccatcttctctgtgacctacccctcacct gacatcttcctggtcatcaagttggagaaggtgcttcagcaaggggacatcagtgagtgc tgtgagccttacatggtgttgaaagaagtggacacagccaagaacaaagagaagctagag aagctgcgcctggcggccgagcagttctgcacccgcctgggccgctaccgcatgcccttc gcctggacggccgtgcacttggccaacatcgtgagcagcgctgggcagctggaccgggac tctgactcggagggcgagcgccggccagcctggacagaccgccgccgtcgggggccccag gaccgggcgagtagtggggacgacgcctgcagcttctctggcttccgtccagccacgcta actgtcacaaacttctttaagcaggaggctgagcgactcagtgacgaggacctcttcaag ttcctggctgacatgaggcgcccgtcgtccctgctgcggcgactacgtcctgtgactgcc actcaacaaacctacactgagagcacctactgtgccaggggcatcagagacccaacgatg accatgatggacaaatccctgacctcaggggctggctacagcttctaa