Result of GENSCAN for
pF1KB3598
GENSCAN 1.0 Date run: 2-Nov-116 Time: 22:49:04 Sequence gi568815596r:188934073_189279604 : 345532 bp : 35.01% C+G : Isochore 1 ( 0 - 43 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 + 96 170 75 1 0 75 116 66 0.432 6.67 1.02 Term + 4296 4420 125 1 2 56 48 109 0.898 1.27 1.03 PlyA + 4990 4995 6 1.05 2.00 Prom + 5766 5805 40 -5.75 2.01 Init + 9512 9777 266 1 2 79 55 186 0.051 10.93 2.02 Term + 15410 15512 103 2 1 53 38 124 0.033 0.67 2.03 PlyA + 16225 16230 6 1.05 3.00 Prom + 29466 29505 40 -5.85 3.01 Init + 40421 40496 76 1 1 72 113 42 0.815 4.76 3.02 Intr + 50688 50890 203 1 2 74 68 117 0.987 6.38 3.03 Intr + 51125 51175 51 1 0 72 100 62 0.941 3.99 3.04 Intr + 51593 51706 114 1 0 113 75 99 0.999 10.82 3.05 Intr + 52987 53067 81 0 0 99 49 139 0.995 10.02 3.06 Intr + 54518 54571 54 1 0 60 89 52 0.627 0.76 3.07 Intr + 55324 55377 54 0 0 100 95 44 0.957 4.56 3.08 Intr + 56024 56077 54 1 0 96 81 27 0.674 1.06 3.09 Intr + 56932 56985 54 0 0 77 94 81 0.983 5.86 3.10 Intr + 58112 58156 45 1 0 74 100 98 0.979 7.29 3.11 Intr + 58815 58868 54 2 0 65 92 65 0.876 2.86 3.12 Intr + 59289 59387 99 2 0 0 95 113 0.853 2.59 3.13 Intr + 59966 60010 45 1 0 72 103 31 0.616 0.69 3.14 Intr + 60162 60260 99 2 0 70 92 122 0.999 10.19 3.15 Intr + 60469 60522 54 0 0 70 96 52 0.826 2.46 3.16 Intr + 60652 60759 108 0 0 123 83 151 0.999 17.66 3.17 Intr + 60974 61027 54 1 0 95 71 65 0.929 3.76 3.18 Intr + 61620 61718 99 2 0 52 54 153 0.992 7.69 3.19 Intr + 62053 62106 54 0 0 88 52 65 0.690 1.16 3.20 Intr + 62326 62424 99 0 0 77 76 139 0.995 10.99 3.21 Intr + 63093 63146 54 2 0 84 98 63 0.971 5.16 3.22 Intr + 63264 63317 54 2 0 95 93 29 0.836 2.36 3.23 Intr + 64194 64247 54 2 0 74 100 36 0.757 1.66 3.24 Intr + 65213 65311 99 1 0 80 88 157 0.996 14.29 3.25 Intr + 65398 65505 108 0 0 97 36 114 0.987 6.66 3.26 Intr + 65770 65823 54 0 0 83 96 55 0.943 4.06 3.27 Intr + 67464 67517 54 2 0 93 95 46 0.937 4.06 3.28 Intr + 68226 68279 54 2 0 81 95 47 0.885 2.96 3.29 Intr + 68883 68990 108 2 0 33 87 145 0.985 8.46 3.30 Intr + 69339 69392 54 2 0 65 95 108 0.984 7.46 3.31 Intr + 69662 69715 54 1 0 45 101 66 0.739 1.86 3.32 Intr + 69910 70071 162 0 0 22 100 157 0.926 9.55 3.33 Intr + 71278 71415 138 0 0 68 75 141 0.555 10.54 3.34 Intr + 72273 72380 108 2 0 76 65 95 0.882 5.56 3.35 Intr + 72865 72918 54 0 0 76 95 85 0.949 6.26 3.36 Intr + 73428 73535 108 2 0 44 100 165 0.974 12.86 3.37 Intr + 73813 73866 54 0 0 128 89 119 0.998 14.26 3.38 Intr + 73963 74070 108 0 0 29 94 162 0.985 10.46 3.39 Intr + 74852 75149 298 1 1 102 68 294 0.994 24.32 3.40 Intr + 76106 76293 188 0 2 49 91 126 0.997 7.49 3.41 Intr + 76576 76818 243 0 0 77 70 247 0.999 18.57 3.42 Term + 77556 77702 147 2 0 121 40 195 0.990 14.92 3.43 PlyA + 77953 77958 6 1.05 4.00 Prom + 89694 89733 40 -4.15 4.01 Sngl + 92751 95285 2535 2 0 66 50 777 0.769 64.15 4.02 PlyA + 95985 95990 6 1.05 5.44 PlyA - 96218 96213 6 1.05 5.43 Term - 100144 99998 147 1 0 57 39 155 0.990 4.42 5.42 Intr - 101083 100844 240 1 0 81 84 189 0.997 14.62 5.41 Intr - 102731 102544 188 0 2 25 91 93 0.976 1.79 5.40 Intr - 105491 105200 292 2 1 72 89 268 0.987 21.08 5.39 Intr - 107621 107514 108 2 0 104 88 147 0.992 15.86 5.38 Intr - 108701 108648 54 2 0 54 89 69 0.784 1.86 5.37 Intr - 109186 109079 108 1 0 75 95 70 0.982 5.96 5.36 Intr - 111160 111107 54 1 0 69 95 39 0.657 0.96 5.35 Intr - 111835 111728 108 1 0 56 107 108 0.994 9.06 5.34 Intr - 115382 115275 108 2 0 73 81 150 0.996 12.36 5.33 Intr - 117409 117248 162 1 0 81 95 172 0.996 16.45 5.32 Intr - 118730 118677 54 2 0 94 95 57 0.974 5.26 5.31 Intr - 118946 118839 108 2 0 72 103 139 0.998 13.36 5.30 Intr - 119405 119352 54 2 0 74 75 86 0.947 4.16 5.29 Intr - 119876 119823 54 2 0 86 95 34 0.805 2.16 5.28 Intr - 120140 120087 54 2 0 76 115 59 0.980 5.66 5.27 Intr - 122954 122901 54 2 0 82 89 89 0.990 6.66 5.26 Intr - 123355 123248 108 1 0 67 89 103 0.996 7.86 5.25 Intr - 124455 124357 99 0 0 32 106 122 0.995 7.79 5.24 Intr - 126711 126658 54 0 0 88 108 56 0.977 5.86 5.23 Intr - 127543 127490 54 1 0 55 85 57 0.559 0.36 5.22 Intr - 128846 128793 54 2 0 54 96 62 0.778 1.86 5.21 Intr - 129198 129100 99 0 0 59 65 105 0.957 4.69 5.20 Intr - 129961 129908 54 1 0 91 111 78 0.997 8.66 5.19 Intr - 130583 130485 99 2 0 73 94 84 0.992 6.89 5.18 Intr - 132425 132318 108 2 0 97 61 83 0.666 6.06 5.17 Intr - 134041 133943 99 1 0 91 52 62 0.829 2.29 5.16 Intr - 134198 134154 45 2 0 73 113 51 0.932 3.79 5.15 Intr - 134812 134714 99 1 0 109 95 54 0.995 7.59 5.14 Intr - 138021 137968 54 0 0 94 116 23 0.926 3.96 5.13 Intr - 141365 141321 45 2 0 81 101 23 0.592 0.59 5.12 Intr - 145035 144991 45 0 0 110 84 41 0.923 3.59 5.11 Intr - 145959 145906 54 0 0 54 84 77 0.816 2.16 5.10 Intr - 146971 146918 54 1 0 122 91 51 0.988 7.06 5.09 Intr - 149965 149912 54 1 0 53 131 65 0.975 5.56 5.08 Intr - 151141 151088 54 1 0 88 69 71 0.853 3.46 5.07 Intr - 151700 151647 54 2 0 72 54 78 0.644 1.06 5.06 Intr - 152698 152654 45 1 0 85 108 25 0.718 1.89 5.05 Intr - 158348 158238 111 2 0 93 96 136 0.954 14.56 5.04 Intr - 163258 163205 54 1 0 74 95 32 0.497 0.76 5.03 Intr - 170205 170192 14 1 2 143 115 1 0.924 1.88 5.02 Intr - 176377 176153 225 2 0 113 91 163 0.966 16.13 5.01 Init - 182384 182255 130 2 1 76 74 115 0.998 9.26 5.00 Prom - 190857 190818 40 -3.35 6.00 Prom + 193870 193909 40 -3.15 6.01 Init + 211993 212041 49 0 1 47 61 98 0.250 4.16 6.02 Term + 213717 213817 101 1 2 112 45 41 0.411 -0.49 6.03 PlyA + 214516 214521 6 1.05 7.05 PlyA - 215829 215824 6 1.05 7.04 Term - 220414 220302 113 2 2 19 53 135 0.024 0.84 7.03 Intr - 245477 245436 42 0 0 66 101 55 0.298 1.89 7.02 Intr - 250710 250475 236 2 2 72 93 162 0.708 11.51 7.01 Init - 286168 286002 167 1 2 70 80 102 0.020 6.75 7.00 Prom - 300806 300767 40 -5.55 8.02 PlyA - 300953 300948 6 1.05 8.01 Sngl - 310463 310053 411 2 0 55 48 270 0.838 15.74 8.00 Prom - 325240 325201 40 -2.65 9.03 PlyA - 325711 325706 6 1.05 9.02 Term - 335988 335468 521 1 2 35 41 275 0.796 10.97 9.01 Init - 336433 336367 67 1 1 73 97 35 0.818 4.19 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 29045 28971 75 2 0 77 111 38 0.819 6.14 S.002 Init + 285972 286047 76 2 1 71 72 88 0.814 6.80 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_1|66_aa XCTENMVLASAQLLGRTEETYNNGEDQSKPNSDLMNRPVHIVRDGLNFKFYTVTGMTIEL SLSKRY >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_1|201_bp ngttgcacagaaaatatggtgctggcatctgctcagcttctgggcaggactgaggaaact tacaataatggggaagatcaaagcaagccaaattcagacctaatgaacagaccagtgcac atcgttagagacggcttgaattttaagttctataccgtgactggaatgactattgagttg tctctctctaagcggtattga >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_2|122_aa MVCPEFVPSDVWTCSEFLPSGRFADSLASRVKLQTFPVSVITLKAARLELFIPPGGFVVW LASGVTLQTFAVSATAHKGNAVDSQSEQHFCDLICPGQPDENLRVNTQPSPTAEQGSVVT HP >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_2|369_bp atggtgtgtcccgagtttgttccttctgatgtttggacgtgttcagagtttcttccttct ggtaggttcgcagactcgctggcttcaagagtgaagctgcagaccttcccagtgagtgtt ataactcttaaggcggcgcgtttggagttgttcattcctcccggtgggttcgtggtctgg cttgcctcaggagtgacgctgcagacctttgcggtgagtgctaccgcccataaaggcaac gctgtggactcacagagtgagcagcatttctgtgacctgatttgtccaggacagccagac gagaacttgagggttaacactcagccgtccccgacggccgagcaagggagcgttgtaaca cacccctag >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_3|1301_aa MSFVQKGSWLLLALLHPTIILAQQEAVEGGCSHLGQSYADRDVWKPEPCQICVCDSGSVL CDDIICDDQELDCPNPEIPFGECCAVCPQPPTAPTRPPNGQGPQGPKGDPGPPGIPGRNG DPGIPGQPGSPGSPGPPGICESCPTGPQNYSPQYDSYDVKSGVAVGGLAGYPGPAGSPGY QGPPGEPGQAGPSGPPGPPGAIGPSGPAGKDGESGRPGRPGERGLPGPPGFDGRNGEKGE TGAPGLKGARGNDGARGSDGQPGPPGPPGTAGFPGSPGAKGEVGPAGSPGSNGAPGQRGE PGPQGHAGAQGPPGPPGINGSPGGKGEMGPAGIPGAPGLMGARGPPGPAGANGAPGLRGG AGEPGKNGAKGEPGPRGERGEAGIPGVPGAKGEDGKDGSPGEPGANGLPGAAGERGAPGF RGPAGPNGIPGEKGPAGERGAPGPAGPRGAAGEPGRDGVPGGPGMRGMPGSPGGPGSDGK PGPPGSQGESGRPGPPGPSGPRGQPGVMGFPGPKGNDGAPGKNGERGGPGGPGPQGPPGK NGETGPQGPPGPTGLPGTGGPPGENGKPGEPGDAGAPGERGPPGLAGAPGLRGGAGPPGP EGGKGAAGPPGPPGAAGTPGLQGMPGERGGLGSPGPKGDKGEPGGPGADGVPGKDGPRGE GGAPGLPGIAGPRGSPGERGETGPPGPAGFPGAPGQNGEPGGKGERGAPGEKGEGGPPGV AGPPGGSGPAGPPGPQGVKGERGSPGGPGAAGFPGARGLPGPPGSNGNPGPPGPSGSPGK DGPPGPAGNTGAPGSPGVSGPKGDAGQPGEKGSPGAQGPPGESGKPGANGLSGERGPPGP QGLPGLAGTAGEPGRDVSSSFYSTSQGDRGENGSPGAPGAPGHPGPPGPVGPAGKSGDRG ESGPAGPAGAPGPAGSRGAPGPQGPRGDKGETGERGAAGIKGHRGFPGNPGAPGSPGPAG QQGAIGSPGPAGPRGPVGPSGPPGKDGTSGHPGPIGPPGPRGNRGERGSEGSPGHPGQPG PPGPPGAPGPCCGGVGAAAIAGIGGEKAGGFAPYYGDEPMDFKINTDEIMTSLKSVNGQI ESLISPDGSRKNPARNCRDLKFCHPELKSGEYWVDPNQGCKLDAIKVFCNMETGETCISA NPLNVPRKHWWTDSSAEKKHVWFGESMDGGFQFSYGNPELPEDVLDVHLAFLRLLSSRAS QNITYHCKNSIAYMDQASGNVKKALKLMGSNEGEFKAEGNSKFTYTVLEDGCTKHTGEWS KTVFEYRTRKAVRLPIVDIAPYDIGGPDQEFGVDVGPVCFL >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_3|3906_bp atgagctttgtgcaaaaggggagctggctacttctcgctctgcttcatcccactattatt ttggcacaacaggaagctgttgaaggaggatgttcccatcttggtcagtcctatgcggat agagatgtctggaagccagaaccatgccaaatatgtgtctgtgactcaggatccgttctc tgcgatgacataatatgtgacgatcaagaattagactgccccaacccagaaattccattt ggagaatgttgtgcagtttgcccacagcctccaactgctcctactcgccctcctaatggt caaggacctcaaggccccaagggagatccaggccctcctggtattcctgggagaaatggt gaccctggtattccaggacaaccagggtcccctggttctcctggcccccctggaatctgt gaatcatgccctactggtcctcagaactattctccccagtatgattcatatgatgtcaag tctggagtagcagtaggaggactcgcaggctatcctggaccagctggatctccaggatac caaggaccccctggtgaacctgggcaagctggtccttcaggccctccaggacctcctggt gctataggtccatctggtcctgctggaaaagatggagaatcaggtagacccggacgacct ggagagcgaggattgcctggacctccaggcttcgatggacgaaatggagaaaagggtgaa acaggtgctcctggattaaagggtgctcggggtaatgacggtgctcgaggcagtgatggt caaccaggccctcctggtcctcctggaactgccggattccctggatcccctggtgctaag ggtgaagttggacctgcagggtctcctggttcaaatggtgcccctggacaaagaggagaa cctggacctcagggacacgctggtgctcaaggtcctcctggccctcctgggattaatggt agtcctggtggtaaaggcgaaatgggtcccgctggcattcctggagctcctggactgatg ggagcccggggtcctccaggaccagccggtgctaatggtgctcctggactgcgaggtggt gcaggtgagcctggtaagaatggtgccaaaggagagcccggaccacgtggtgaacgcggt gaggctggtattccaggtgttccaggagctaaaggcgaagatggcaaggatggatcacct ggagaacctggtgcaaatgggcttccaggagctgcaggagaaaggggtgcccctgggttc cgaggacctgctggaccaaatggcatcccaggagaaaagggtcctgctggagagcgtggt gctccaggccctgcagggcccagaggagctgctggagaacctggcagagatggcgtccct ggaggtccaggaatgaggggcatgcccggaagtccaggaggaccaggaagtgatgggaaa ccagggcctcccggaagtcaaggagaaagtggtcgaccaggtcctcctgggccatctggt ccccgaggtcagcctggtgtcatgggcttccccggtcctaaaggaaatgatggtgctcct ggtaagaatggagaacgaggtggccctggaggacctggccctcagggtcctcctggaaag aatggtgaaactggacctcagggacccccagggcctactggcttgcctggtacaggtggt cctccaggagaaaatggaaaacctggggaaccaggtgatgctggtgcccctggtgaacgt ggacctcctggattggcaggggccccaggacttagaggtggagctggtccccctggtccc gaaggaggaaagggtgctgctggtcctcctgggccacctggtgctgctggtactcctggt ctgcaaggaatgcctggagaaagaggaggtcttggaagtcctggtccaaagggtgacaag ggtgaaccaggcggtccaggtgctgatggtgtcccagggaaagatggcccaaggggtgaa ggtggtgcccccggacttccaggtatagctggacctcgtggtagccctggtgagagaggt gaaactggccctccaggacctgctggtttccctggtgctcctggacagaatggtgaacct ggtggtaaaggagaaagaggggctccgggtgagaaaggtgaaggaggccctcctggagtt gcaggaccccctggaggttctggacctgctggtcctcctggtccccaaggtgtcaaaggt gaacgtggcagtcctggtggacctggtgctgctggcttccctggtgctcgtggtcttcct ggtcctcctggtagtaatggtaacccaggacccccaggtcccagcggttctccaggcaag gatgggcccccaggtcctgcgggtaacactggtgctcctggcagccctggagtgtctgga ccaaaaggtgatgctggccaaccaggagagaagggatcgcctggtgcccagggcccacca ggtgaaagtgggaaaccaggagctaacggtctcagtggagaacgtggtccccctggaccc cagggtcttcctggtctggctggtacagctggtgaacctggaagagatgtgagtagcagt ttttattcaaccagccagggtgatcgtggtgaaaatggctctcctggtgcccctggcgct cctggtcatccaggcccacctggtcctgtcggtccagctggaaagagtggtgacagagga gaaagtggccctgctggccctgctggtgctcccggtcctgctggttcccgaggtgctcct ggtcctcaaggcccacgtggtgacaaaggtgaaacaggtgaacgtggagctgctggcatc aaaggacatcgaggattccctggtaatccaggtgccccaggttctccaggccctgctggt cagcagggtgcaatcggcagtccaggacctgcaggccccagaggacctgttggacccagt ggacctcctggcaaagatggaaccagtggacatccaggtcccattggaccaccagggcct cgaggtaacagaggtgaaagaggatctgagggctccccaggccacccagggcaaccaggc cctcctggacctcctggtgcccctggtccttgctgtggtggtgttggagccgctgccatt gctgggattggaggtgaaaaagctggcggttttgccccgtattatggagatgaaccaatg gatttcaaaatcaacaccgatgagattatgacttcactcaagtctgttaatggacaaata gaaagcctcattagtcctgatggttctcgtaaaaaccccgctagaaactgcagagacctg aaattctgccatcctgaactcaagagtggagaatactgggttgaccctaaccaaggatgc aaattggatgctatcaaggtattctgtaatatggaaactggggaaacatgcataagtgcc aatcctttgaatgttccacggaaacactggtggacagattctagtgctgagaagaaacac gtttggtttggagagtccatggatggtggttttcagtttagctacggcaatcctgaactt cctgaagatgtccttgatgtgcatctggcattccttcgacttctctccagccgagcttcc cagaacatcacatatcactgcaaaaatagcattgcatacatggatcaggccagtggaaat gtaaagaaggccctgaagctgatggggtcaaatgaaggtgaattcaaggctgaaggaaat agcaaattcacctacacagttctggaggatggttgcacgaaacacactggggaatggagc aaaacagtctttgaatatcgaacacgcaaggctgtgagactacctattgtagatattgca ccctatgacattggtggtcctgatcaagaatttggtgtggacgttggccctgtttgcttt ttataa >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_4|844_aa MKAEIKMFFETNENKDTTYQNLWDAFKAVCRGKFIPLNAHKRKQERSKIDTLTSQLKELE KQEQTRSKASRRQEITKIRAELKEIETQKTLQKINESRSWFFERINKIDRPLARLIKKKR EKNQIDTIKNDKGDITTDPTEIQTTIREYYKHLYANKLENLEEMDKFLDTYTLPRLNQEE VESLNRPITGAEIVAIINSLPTKKSPGPDGFTAEFYQRYKEELVPFLLKLFQSIEKEGIL PNSFYEASIILIPKPGRDTTKKENFRPISLMNIDAKILNKILAKRIQQHIKKLIHHDQVG FIPGMQGWFNIHKSINVVQHINRAKDKNHMIISIDAEKTFDKTQQPFMLKTLHKLGIDGT YFKIIRAIYDKPTANIILNGQKLEAFPLKTGTRQGCPLSPHLFNIVLEVLARAIRQEKEI RGIQLGKEEVKLSLFADDMIVYLENPIVSAQNLLKLISNFSKVSGYKINVQKSQAFLYTI NRQTESQIMSELPFTIASKRIKYLGIQLTRDVKDLFKENYKPLLKEIKEDTNKWKNIPCS WVGRINIVKMAILPKVIYRFNAIPIKLPMTFFTELEKTTLKFIWNQKRARIAKSILSQKN KAGGITLPDFKLYYKATVTKTAWYWYQNRDIDQWNRTEPSEITPHTYNCLIFDKPEKSKQ WGKDSLFNKWCWENWLAICRKLKLDPFLTPYTKINSRWIKDLNVRPKTIKTLEENLGITI QDIGMGKDFMSKTPKAMATKDKIDKWDLIKLKSFCTAKETTIRVNRQPTKWEKIFATYSS DKGLISRIYNELQQIYKKKTNNPIKKWAKDMNRHFSKEDIYAAKKHMKKCSSSLPSEKCK SKPL >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_4|2535_bp atgaaggcagaaataaagatgttctttgaaaccaacgagaacaaagacacaacataccag aatctctgggacgcattcaaagcagtgtgtagagggaaatttataccactaaatgcccac aagagaaagcaggaaagatccaaaattgacaccctaacatcacaattaaaagaactagaa aagcaagagcaaacacgttcaaaagctagcagaaggcaagaaataactaaaatcagagca gaactcaaggaaatagagacacaaaaaacccttcaaaaaattaatgagtccaggagctgg ttttttgaaaggatcaacaaaattgatagaccgctagcaagactaataaagaaaaaaaga gagaagaatcaaatagacacaataaaaaatgataaaggggatatcaccaccgatcccaca gaaatacaaactaccatcagagaatactacaaacacctctatgcaaataaactagaaaat ctagaagaaatggataaattcctcgacacatacactctcccaagactaaaccaggaagaa gttgaatctcttaatagaccaataacaggagctgaaattgtggcaataatcaatagctta ccaaccaaaaagagtccaggaccagatggattcacagccgaattctaccagaggtacaag gaggaactggtaccattccttctgaaactattccaatcaatagaaaaagagggaatcctc cctaactcattttatgaggccagcatcattctgataccaaagccgggcagagacacaaca aaaaaagagaattttagaccaatatccttgatgaacattgatgcaaaaatcctcaataaa atactggcaaaacgaatccagcagcacatcaaaaagcttatccaccatgatcaagtgggc ttcatccctgggatgcaaggctggttcaatatacacaaatcaataaatgtagtccagcat ataaacagagccaaagacaaaaaccacatgattatctcaatagatgcagaaaaaaccttt gacaaaactcaacaacccttcatgctaaaaactctccataaattaggtattgatgggacg tatttcaaaataataagagctatctatgacaaacccacagccaatatcatactgaatggg caaaaactggaagcattccctttgaaaactggcacaagacagggatgccctctctcacca cacctattcaacatagtgttggaagttctggccagggcaattaggcaggagaaggaaata aggggtattcaattaggaaaagaggaagtcaaattgtccctgtttgcagatgacatgatt gtatatctagaaaaccccattgtctcagcccaaaatctccttaagctgataagcaacttc agcaaagtctcaggatacaaaatcaatgtacaaaaatcacaagcattcttatacaccatc aacagacaaacagagagccaaatcatgagtgaactcccattcacaattgcttcaaagaga ataaaatacctaggaatccaacttacaagggatgtgaaggacctcttcaaggagaactac aaaccactgctcaaggaaataaaagaggatacaaacaaatggaagaacattccatgctca tgggtaggaagaatcaatatcgtgaaaatggccatactgcccaaggtaatttacagattc aatgccatccccatcaagctaccaatgactttcttcacagaattggaaaaaactacttta aagttcatatggaaccaaaaaagagcccgcatcgccaagtcaatcctaagccaaaagaac aaagctggaggcatcacactacctgacttcaaactatactacaaggctacagtaaccaaa acagcatggtactggtaccaaaacagagatatagatcaatggaacagaacagagccctca gaaataacgccgcatacctacaactgtctgatctttgacaaacctgagaaaagcaagcaa tggggaaaggattccctatttaataaatggtgctgggaaaactggctagccatatgtaga aagctgaaactggatcccttccttacaccttatacaaaaatcaattcaagatggattaaa gatttaaacgttagacctaaaaccataaaaaccctagaagaaaacctaggcattaccatt caggacataggcatgggcaaggacttcatgtccaaaacaccaaaagcaatggcaacaaaa gacaaaattgacaaatgggatctaattaaactaaagagcttctgcacagcaaaagaaact accatcagagtgaacaggcaacctacaaaatgggagaaaattttcgcaacctactcatct gacaaagggctaatatccagaatctacaatgaactccaacaaatttacaagaaaaaaaca aacaaccccatcaaaaagtgggcgaaggacatgaacagacacttctcaaaagaagacatt tatgcagccaaaaaacacatgaaaaaatgctcatcatcactgccatcagagaaatgcaaa tcaaaaccactatga >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_5|1303_aa MRNVEFLASPLHGLKKELNAVPLRLSLLMINSALEQKEGKDFLEGYGEEIACTQNGQMYL NRDIWKPAPCQICVCDNGAILCDKIECQDVLDCADPVTPPGECCPVCSQTPGGGNTNFGR GRKGPPGSQGPRGERGPKGRPGPRGPQGIDGEPGVPGQPGAPGPPGHPSHPGPDGLSRGP VGPRGPQGLQGQQGGAGPTGPPGEPGDPGPMGPIGSRGPEGPPGKPGEDGEPGRNGNPGE VGFAGSPGARGFPGAPGLPGLKGHRGHKGLEGPKGEVGAPGSKGEAGPTGPMGAMGPLGQ RGAHGMPGKPGPMGPLGIPGSSGFPGNPGMKGEAGPTGARGPEGPQGQRGETGPPGPVGS PGLPGAIGTDGTPGAKGPTGSPGTSGPPGSAGPPGSPGPQGSTGPQGIRGQPGPHGIQGP IGPPGEEGKRGPRGDPGTVGPPGPVGERGAQGERGPVGSSGPKGSQGDPGRPGEPGLPGA RGLTGNPGVQGPEGKLGPLGAPGEDGRPGPPGSIGIRGQPGSMGLPGPKGSSGAPGKDGE VGPSGPVGPPGLAGERGEQGPPGPTGFQGLPGPPGPPGEGGKPGDQGERGNPGERGEPGI TGLPGEKGMAGGHGPDGPKGSPGPSGTPGDTGPPGLQGMPGERGIAGTPGPKGDRGGIGE KGAEGTAGNDGARGLPGPLGPPGPAGPTGEKGEPGPRGLVGPPGSRGNPGSRGENGPTGA VGFAGPQGPDGQPGVKGEPGEPGQKGDAGSPGPQGLAGSPGPHGPNGVPGLKGGRGTQGP PGAPGPAGPLGEPGKEGPPGLRGDPGSHGRVGDRGPAGPPGGPGDKGDPGEDGQPGTPGK VGPTGATGDKGPPGPVGPPGSNGPVGEPGPEGDRGDPGPAGLPGSQGAPGTPGPVGAPGD AGQRGDPGSRGPIGPPGRAGKRGLPGPQGPRGDKGDHGDRGDRGQKGHRGFTGLQGLPGP PGPNGEQGSAGIPGPFGPRGPPGPVGPSGKEGNPGPLGPIGPPGVRGSVGEAGPEGPPGE PGPPGPPGPPGHLTAALGDIMGHYDESMPDPLPEFTEDQAAPDDKNKTDPGVHATLKSLS SQIETMRSPDGSKKHPARTCDDLKLCHSAKQSGEYWIDPNQGSVEDAIKVYCNMETGETC ISANPSSVPRKTWWASKSPDNKPVWYGLDMNRGSQFAYGDHQSPNTAITQMTFLRLLSKE ASQNITYICKNSVGYMDDQAKNLKKAVVLKGANDLDIKAEGNIRFRYIVLQDTCSKRNGN VGKTVFEYRTQNVARLPIIDLAPVDVGGTDQEFGVEIGPVCFV >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_5|3912_bp atgaggaatgtggaatttttggcatctcctctgcatggtctaaagaaggaattgaatgct gtccctcttcgtctttcccttctaatgataaacagtgccctagagcagaaggaagggaag gatttccttgaaggatatggtgaagaaatagcctgcactcagaatggccagatgtactta aacagggacatttggaaacctgccccttgtcagatctgtgtctgtgacaatggagccatt ctctgtgacaagatagaatgccaggatgtgctggactgtgccgaccctgtaacgccccct ggggaatgctgtcctgtctgttcacaaacacctggaggtggcaataccaattttggtaga ggaagaaagggacctccaggatcacagggaccaagaggagagcgagggccaaaaggaaga cctggccctcgtggacctcagggaattgatggagaaccaggtgttcctggtcaacctggt gctccaggacctcctggacatccgtcccacccaggacccgatggcttgagcaggggtcct gttggcccaaggggaccacagggtttacaaggacagcaaggtggtgcaggacctacagga cctcctggtgaacctggtgatcctggaccaatgggtccgattggttcacgtggaccagag ggccctcctggtaaacctggggaagatggtgaacctggcagaaatggaaatcctggtgaa gtgggatttgcaggatctccgggagctcgtggatttcctggggctcctggtcttccaggt ctgaagggtcaccgaggacacaaaggtcttgaaggccctaaaggtgaagttggagcacct ggttccaagggtgaagctggccccactggtccaatgggtgccatgggtcctctgggacaa cgaggtgcacatggtatgcctggaaaacctggaccaatgggtcctcttgggataccaggc tcttctggttttccaggaaatcctggaatgaagggagaagcaggtcctacaggggcgcga ggccctgaaggtcctcaggggcagagaggtgaaactgggcccccaggtccagttggctct ccaggtcttcctggtgcaataggaactgatggtactcctggtgccaaaggcccaacgggc tctccaggtacctctggtcctcctggctcagcagggcctcctggatctccaggacctcag ggtagcactggtcctcagggaattcgaggccaaccggggccacatggtattcagggtccg ataggcccacccggtgaagaaggcaaaagaggtcccagaggtgacccaggaacagttggt cctccagggccagtgggagaaaggggtgctcaaggagaacggggtcctgtaggttcttca ggacccaaaggaagccagggggatccaggacgtccaggggaacctgggcttccaggtgct cggggtttgacaggaaatcctggtgttcaaggtcctgaaggaaaacttggacctttgggt gcgccaggggaagatggccgtccaggtcctccaggctccataggaatcagagggcagccc gggagcatgggccttccaggccccaaaggtagcagtggagctcctggaaaagatggtgaa gttggtccttctggtcctgtgggcccgccgggtctagctggtgaaagaggagaacaagga cctccaggccccacaggttttcaggggcttcctggtcctccagggcctcctggagaaggt ggaaaaccaggtgatcaaggagaacgaggaaatcctggggaaagaggagaacctgggata actggactccctggtgagaagggaatggctggaggacatggtcctgatggcccaaaaggc agtccaggtccatctgggacccctggagatacaggcccaccaggtcttcaaggtatgccg ggagaaagaggaattgcaggaactcctggccccaagggtgacagaggtggcataggagaa aaaggtgctgaaggcacagctggaaatgatggtgcaagaggtcttccaggtcctttgggc cctccaggtccggcaggtcctactggagaaaagggtgaacctggtcctcgaggtttagtt ggccctcctggctcccggggcaatcctggttctcgaggtgaaaatgggccaactggagct gttggttttgccggaccccagggtcctgacggacagcctggagtaaaaggtgaacctgga gagccaggacagaagggagatgctggttctcctggaccacaaggtttagcaggatcccct ggccctcatggtcctaatggtgttcctggactaaaaggtggtcgaggaacccaaggtccg cctggagctccaggacctgcgggacccctaggggaacccgggaaggagggacctccaggt cttcgtggggaccctggctctcatgggcgtgtgggagatcgaggaccagctggcccccct ggtggcccaggagacaaaggggacccaggagaagatgggcaacctggaacaccaggaaaa gtaggaccaactggtgcaacaggagataaaggtccacctggacctgtggggcccccaggc tccaatggtcctgtaggggaacctggaccagaaggtgatcgtggagaccctgggcctgca ggtctgccaggctctcagggtgcccctggaactcctggccctgtgggtgctccaggagat gcaggacaaagaggagatccgggttctcggggtcctataggaccacctggtcgagctggg aaacgtggattacctggaccccaaggacctcgtggtgacaaaggtgatcatggagaccga ggtgacagaggtcagaagggccacagaggctttactggtcttcagggtcttcctggccct cctggtccaaatggtgaacaaggaagtgctggaatccctggaccatttggcccaagaggt cctccaggcccagttggtccttcaggtaaagaaggaaaccctgggccacttgggccaatt ggacctccaggtgtacgaggcagtgtaggagaagcaggacctgagggccctcctggtgag cctggcccacctggccctccgggtccccctggccaccttacagctgctcttggggatatc atggggcactatgatgaaagcatgccagatccacttcctgagtttactgaagatcaggcg gctcctgatgacaaaaacaaaacggacccaggggttcatgctaccctgaagtcactcagt agtcagattgaaaccatgcgcagccccgatggctcgaaaaagcacccagcccgcacgtgt gatgacctaaagctttgccattccgcaaagcagagtggtgaatactggattgatcctaac caaggatctgttgaagatgcaatcaaagtttactgcaacatggaaacaggagaaacatgt atttcagcaaacccatccagtgtaccacgtaaaacctggtgggccagtaaatctcctgac aataaacctgtttggtatggtcttgatatgaacagagggtctcagttcgcttatggagac caccaatcacctaatacagccattactcagatgacttttttgcgccttttatcaaaagaa gcctcccagaacatcacttacatctgtaaaaacagtgtaggatacatggacgatcaagct aagaacctcaaaaaagctgtggttctcaaaggggcaaatgacttagatatcaaagcagag ggaaatattagattccggtatatcgttcttcaagacacttgctctaagcggaatggaaat gtgggcaagactgtctttgaatatagaacacagaatgtggcacgcttgcccatcatagat cttgctcctgtggatgttggcggcacagaccaggaattcggcgttgaaattgggccagtt tgttttgtgtaa >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_6|49_aa MISSYIDRMNNEGNGKGHLHALTNTPGPQQSPKGKEVGGEGGREALSPL >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_6|150_bp atgatatcttcatacattgatcggatgaacaatgaaggaaatgggaaaggccatctacat gccttaactaataccccagggccccagcaaagtcccaagggtaaggaagtaggtggagaa ggaggaagagaagctttatctcctctctga >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_7|185_aa MGVMTVLDTAIYYLDLPLRKVLLSRCQPLQGGPQLQSVSSPEVMSFLWQLQLVTARTCEY VTLHIRKDLADVIKDFEMRETILEYPDGTNVVTWVCKSPFQFVVMEKCDNEDMSGICYVA GFADGGRGHKTRNAGQFVSIKAQEEDEDEPFARSFCGPDSTLVSTHIIFVEEEEAGVMNY DSPSE >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_7|558_bp atgggtgttatgactgtgttggacacagcaatatactacctggatctccctttaagaaaa gtcttgttgtccaggtgtcagccccttcagggtgggcctcagctgcagagtgtctcttca cctgaggtcatgtccttcttgtggcagctgcagctagtgacagccagaacctgtgagtat gttaccttacacatcagaaaggacttggctgatgtgattaaagactttgagatgagggaa actatcctggaatatccagatgggaccaatgtagtcacatgggtctgtaaaagtcctttc cagtttgtagtcatggaaaaatgtgacaacgaagacatgtcaggaatatgctatgttgct ggctttgcagatggaggaaggggccacaaaacaaggaatgcagggcaatttgtctcaata aaagcccaggaagaagacgaggatgagccattcgccaggtcattttgtggacctgattcc actctggtatcaacccacatcatatttgtggaagaagaagaagcaggagtcatgaattat gattctcctagcgaatga >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_8|136_aa MDKEIQAEVVSDGDEELVGTWSKGDSCYVLAKRLPAFCLRLRDLWNFELERDDLGYLAEE ISKQQSIQEVTGVLLKAFSFKRETEHKILQNLQPDNVIEKKIPFSEEKFKPAAEICISNE EPNNNPQDNGENVSRA >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_8|411_bp atggacaaagaaatccaggctgaggtggtctcagatggagatgaggaacttgttgggacc tggagcaaaggtgactcttgttatgttttagcaaagagactgccagcattttgcctccgc cttagagatttgtggaactttgaacttgagagagatgatttagggtatctggcagaagaa atttctaagcagcaaagcattcaagaggtgactggggtgctgttaaaggcattcagtttt aaaagggaaacagagcataaaattttgcaaaatctgcagcctgacaacgtgatagaaaag aaaatcccattttctgaagagaaattcaagccagctgcagaaatttgcataagtaatgag gagccaaataataatccccaagacaatggggaaaatgtctccagggcatga >gi568815596r:188934073_189279604|GENSCAN_predicted_peptide_9|195_aa MLLNDYWVNNEIKAETNTFFETEIQTTIREYYKHLYANKLENLEEMDKFLDTYTLLSLNQ EEVESLNRPITSSEVEAVINGLLQKSPGPDGFTAEFYQRYKEELVPFLLKPFQTVEKEGI LPNSFYEASIILILKPGRDTTKKEHFRPTALMNIDAKILNKILANQIHQHIKKLIHHDQV TSFLGSKASSPYTNQ >gi568815596r:188934073_189279604|GENSCAN_predicted_CDS_9|588_bp atgctcctgaatgactactgggtaaataacgaaattaaggcagaaacgaatacgttcttt gaaaccgaaatacaaactaccatcagagaatactataaacacctctatgcaaataaacta gaaaatctagaagaaatggataaattcctggacacatacaccctcctaagtctaaaccag gaagaagttgaatccctgaatagaccaataacaagttctgaagttgaagcagtaattaat ggcctactacaaaaaagcccaggaccagatggattcacagctgaattctaccagaggtac aaagaggagctggtaccattccttctgaaaccattccaaacagtagaaaaagagggaatc ctccctaactcattttatgaggccagcatcatccttatattaaaacctggcagagacaca acaaaaaaagaacatttcaggccaacagccctgatgaacattgatgcgaaaatcctcaat aaaatattggcaaaccaaatccatcaacacatcaaaaagcttatccaccacgatcaagtc acttcattcctgggatccaaggctagttcaccatacactaatcaataa