GENSCAN 1.0 Date run: 8-Nov-116 Time: 04:30:20 Sequence gi568815581r:42001764_42211892 : 210129 bp : 52.23% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.00 Prom + 798 837 40 -0.51 1.01 Init + 15360 15678 319 2 1 73 35 221 0.023 10.81 1.02 Intr + 19782 19908 127 1 1 83 92 22 0.008 2.34 1.03 Intr + 20613 20877 265 0 1 103 85 384 0.027 37.65 1.04 Term + 21891 22130 240 2 0 117 49 292 0.999 24.56 1.05 PlyA + 23015 23020 6 -0.45 2.10 PlyA - 23834 23829 6 1.05 2.09 Term - 25370 25134 237 2 0 79 41 120 0.967 2.90 2.08 Intr - 25965 25855 111 0 0 46 65 104 0.698 4.98 2.07 Intr - 26483 26287 197 0 2 99 75 70 0.870 6.45 2.06 Intr - 27172 27020 153 2 0 91 82 18 0.720 2.06 2.05 Intr - 30021 29856 166 0 1 127 86 56 0.986 9.35 2.04 Intr - 32572 32462 111 1 0 90 81 57 0.975 6.28 2.03 Intr - 36122 35974 149 0 2 116 68 101 0.908 11.36 2.02 Intr - 39426 37983 1444 0 1 106 20 1635 0.938 148.51 2.01 Init - 41613 41071 543 0 0 79 94 712 0.769 65.85 2.00 Prom - 43469 43430 40 -6.70 3.07 PlyA - 45096 45091 6 -0.45 3.06 Term - 47027 46887 141 2 0 -4 49 106 0.342 -4.26 3.05 Intr - 48872 48794 79 1 1 64 75 85 0.610 4.85 3.04 Intr - 53634 53537 98 0 2 133 55 35 0.438 4.01 3.03 Intr - 60793 60629 165 1 0 92 81 35 0.306 3.87 3.02 Intr - 61295 61117 179 0 2 95 55 208 0.673 18.36 3.01 Init - 72129 72072 58 0 1 111 99 42 0.267 7.92 3.00 Prom - 75007 74968 40 -1.71 4.04 PlyA - 75050 75045 6 -0.45 4.03 Term - 76959 76843 117 0 0 72 53 75 0.725 1.24 4.02 Intr - 79398 79345 54 0 0 79 75 53 0.799 2.76 4.01 Init - 80414 80337 78 2 0 89 103 15 0.808 4.13 4.00 Prom - 82267 82228 40 -2.21 5.34 PlyA - 82852 82847 6 1.05 5.33 Term - 100183 99998 186 1 0 117 47 275 0.993 24.11 5.32 Intr - 100549 100453 97 0 1 113 94 115 0.990 15.11 5.31 Intr - 102035 101845 191 2 2 105 43 311 0.984 27.20 5.30 Intr - 103164 103003 162 0 0 122 52 314 0.997 31.89 5.29 Intr - 103404 103255 150 0 0 101 78 177 0.989 18.87 5.28 Intr - 104226 103973 254 1 2 43 64 278 0.678 18.59 5.27 Intr - 106032 105841 192 1 0 112 77 315 0.994 32.78 5.26 Intr - 106345 106219 127 1 1 64 85 198 0.977 17.86 5.25 Intr - 106814 106521 294 2 0 86 80 41 0.497 0.85 5.24 Intr - 107623 107507 117 1 0 81 101 83 0.987 10.07 5.23 Intr - 109150 108960 191 2 2 67 76 291 0.992 25.63 5.22 Intr - 109734 109533 202 0 1 103 81 291 0.977 29.28 5.21 Intr - 110130 109962 169 2 1 40 96 203 0.078 16.76 5.20 Intr - 112079 111890 190 0 1 99 32 547 0.086 49.36 5.19 Intr - 112321 112237 85 1 1 62 73 166 0.962 12.39 5.18 Intr - 112519 112456 64 0 1 83 81 107 0.983 8.71 5.17 Intr - 112631 112595 37 0 1 68 84 -13 0.858 -5.89 5.16 Intr - 112841 112727 115 2 1 98 62 234 0.780 22.32 5.15 Intr - 113272 113126 147 1 0 69 42 402 0.821 34.64 5.14 Intr - 114070 113960 111 1 0 137 60 296 0.980 32.78 5.13 Intr - 115398 115272 127 2 1 116 105 180 0.986 23.69 5.12 Intr - 115833 115625 209 0 2 94 48 396 0.999 34.60 5.11 Intr - 116051 115915 137 0 2 77 64 249 0.999 22.20 5.10 Intr - 116254 116144 111 2 0 134 45 45 0.958 5.65 5.09 Intr - 116640 116534 107 2 2 57 91 65 0.844 4.06 5.08 Intr - 117021 116985 37 1 1 84 81 18 0.502 -1.49 5.07 Intr - 117457 117291 167 0 2 59 88 48 0.587 2.02 5.06 Intr - 117673 117482 192 0 0 76 80 236 0.995 20.73 5.05 Intr - 117955 117774 182 1 2 80 96 153 0.995 14.48 5.04 Intr - 118356 118267 90 0 0 137 94 111 0.999 17.29 5.03 Intr - 118607 118462 146 0 2 99 105 189 0.999 22.21 5.02 Intr - 119066 118943 124 2 1 85 82 85 0.885 8.26 5.01 Init - 119541 119203 339 0 0 103 81 137 0.991 9.77 5.00 Prom - 120037 119998 40 -8.77 6.00 Prom + 120321 120360 40 -9.64 6.01 Sngl + 121088 121567 480 1 0 27 41 590 0.597 44.64 6.02 PlyA + 121933 121938 6 -0.45 7.06 PlyA - 123125 123120 6 -3.64 7.05 Term - 124135 124020 116 2 2 76 52 153 0.999 9.54 7.04 Intr - 125085 124992 94 0 1 91 68 145 0.999 12.84 7.03 Intr - 126620 126498 123 2 0 131 75 175 0.999 21.79 7.02 Intr - 127037 126886 152 0 2 88 -6 225 0.994 13.49 7.01 Init - 128739 128574 166 0 1 86 105 109 0.914 12.34 7.00 Prom - 130801 130762 40 -2.61 8.04 PlyA - 134748 134743 6 1.05 8.03 Term - 136968 136912 57 0 0 120 38 40 0.567 0.18 8.02 Intr - 138370 138243 128 2 2 25 97 68 0.161 2.30 8.01 Init - 154458 154440 19 0 1 104 105 20 0.717 4.74 8.00 Prom - 156793 156754 40 -0.61 9.18 PlyA - 157282 157277 6 1.05 9.17 Term - 158781 158638 144 0 0 81 42 25 0.233 -4.58 9.16 Intr - 160558 160485 74 2 2 116 90 40 0.961 6.62 9.15 Intr - 161571 161465 107 2 2 74 110 55 0.946 6.66 9.14 Intr - 162195 161843 353 0 2 94 97 39 0.402 0.08 9.13 Intr - 162405 162367 39 0 0 118 92 16 0.874 3.91 9.12 Intr - 163930 163686 245 2 2 114 31 293 0.959 23.95 9.11 Intr - 164783 164534 250 2 1 33 82 286 0.736 20.05 9.10 Intr - 167913 167714 200 1 2 68 53 518 0.514 45.89 9.09 Intr - 168538 168344 195 2 0 92 77 347 0.999 33.91 9.08 Intr - 170364 170025 340 0 1 73 85 488 0.638 42.60 9.07 Intr - 171098 170973 126 2 0 79 38 49 0.398 0.38 9.06 Intr - 173973 173816 158 1 2 84 89 249 0.991 24.84 9.05 Intr - 174534 174264 271 0 1 85 68 353 0.673 30.65 9.04 Intr - 176464 176337 128 2 2 98 82 28 0.998 4.10 9.03 Intr - 176714 176568 147 0 0 112 44 47 0.896 3.42 9.02 Intr - 177263 177030 234 0 0 166 77 485 0.999 53.39 9.01 Init - 179182 179107 76 1 1 101 77 137 0.884 15.35 9.00 Prom - 181200 181161 40 -3.71 10.10 PlyA - 182316 182311 6 1.05 10.09 Term - 182765 182391 375 2 0 122 47 411 0.993 35.50 10.08 Intr - 188158 188075 84 1 0 83 44 91 0.037 4.71 10.07 Intr - 188507 188422 86 0 2 27 98 86 0.999 3.54 10.06 Intr - 188994 188861 134 2 2 141 80 130 0.999 18.30 10.05 Intr - 189140 189069 72 1 0 90 96 54 0.967 5.42 10.04 Intr - 189447 189255 193 1 1 72 58 244 0.999 18.87 10.03 Intr - 190979 190478 502 2 1 129 78 231 0.996 19.35 10.02 Intr - 191264 191143 122 0 2 28 89 84 0.832 3.22 10.01 Init - 191818 191554 265 1 1 54 89 230 0.971 14.87 10.00 Prom - 198598 198559 40 -1.81 11.07 PlyA - 198701 198696 6 -0.45 11.06 Term - 200101 199975 127 0 1 99 46 163 0.976 11.26 11.05 Intr - 200684 200577 108 1 0 135 50 78 0.876 8.60 11.04 Intr - 201045 200994 52 1 1 85 80 71 0.990 4.45 11.03 Intr - 205965 205795 171 1 0 34 52 149 0.242 6.33 11.02 Intr - 208538 208408 131 1 2 66 80 94 0.986 7.24 11.01 Init - 208643 208582 62 2 2 78 97 7 0.717 1.27 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 15653 15577 77 2 2 89 76 167 0.871 16.11 S.002 Init + 19815 19908 94 2 1 79 92 93 0.971 9.56 S.003 Intr + 20636 20877 242 0 2 60 85 389 0.955 33.60 S.004 Term - 112079 111886 194 0 2 99 47 562 0.914 51.11 S.005 Init - 183602 183582 21 2 0 96 98 -12 0.862 0.31 S.006 Term - 188158 187940 219 1 0 83 47 134 0.820 6.17 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_1|316_aa MPQLLRQAEAGEEGRPPRAPLQGVHPALISDGGVFAEGGASPQQLGAASWQERVSLSHGA AGRLLYYPATRLPLRLLVVEQLRLGRRHYHIALRGSRHLTAGTRELACFCSSRLKTKHGE ELQGGRVWPGVCGQNFNPGAASVWEPCSGQFSHFIPGSEMIETQEDIYVGSIETDRGVRE QVRFYDTRGLRDGAELPRHCFSCTDGYVLVYSTDSRESFQRVELLKKEIDKSKDKKEVTI VVLGNKCDLQEQRRVDPDVAQHWAKSEKVKLWEVSVADRRSLLEPFVYLASKMTQPQSKS AFPLSRKNKGSGSLDG >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_1|951_bp atgcctcagctcctacgccaggcggaagcgggagaggaaggccgacccccaagagcgccc cttcagggggtccatccggccttgatctcagatgggggggtgtttgcggagggcggggca tcgcctcaacagctgggggctgcatcatggcaggaacgagtttccctgagccacggagct gcaggtcgcctcctctactaccctgctacccggttacctcttcgcctcttggtcgtcgag cagctccggctcggtcgccgccattaccacatcgcactccgcggcagccgccatcttacc gccgggaccagagagctggcgtgcttctgttcttcaaggttgaaaactaagcatggggaa gagctgcaaggtggtcgtgtgtggccaggcgtctgtgggcaaaacttcaatcctggagca gcttctgtatgggaaccatgtagtggacagttttctcattttataccaggttcggagatg atcgagacgcaggaggacatctacgtgggctccattgagacagaccggggggtgcgagag caggtgcgtttctatgacacccgggggctccgagatggggccgaactgccccgacactgc ttctcttgcactgatggctacgtcctggtctatagcacagatagcagagagtcttttcag cgtgtggagctgctcaagaaggagattgacaaatccaaggacaagaaggaggtcaccatc gtggtccttggcaacaagtgtgacttacaggagcagcggcgtgtagacccagatgtggct cagcactgggccaagtcagagaaggtgaagctgtgggaggtgtcagtggcggaccggcgc tccctcctggagccctttgtctacttggccagcaagatgacgcaaccccagagcaagtct gccttccccctcagccggaagaacaagggcagcggctccttggatggctga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_2|1036_aa MVPPGKKPAGEASNSNKKCKRYFNEHWKEEFTWLDFDYERKLMFCLECRQALVRNKHGKA ENAFTVGTDNFQRHALLRHVTSGAHRQALAVNQGQPPFEGQAEGGGACPGLATTPASRGV KVELDPAKVAVLTTVYCMAKEDVPNDRCSALLELQRFNLCQALLGTEHGDYYSPRRVRDM QVAIASVLHTEACQRLKASPYVGLVLDETRDWPESHSLALFATSVSPCDGQPATTFLGSV ELQEGEATAGQLLDILQAFGVSAPKLAWLSSSLPSERLGSVGPQLRATCPLLAELHCLPG RTDPEPPAYLGQYESILDALFRLHGGPSSHLVPELRAALDLAAIDLAGPRPVPWASLLPV VEAVAEAWPGLVPTLEAAALASPVAGSLALALRQFTFVAFTHLLLDALPSVQKLSLVLQA EEPDLALLQPLVMAAAASLQAQRGSGGARLQGFLQELASMDPDASSGRCTYRGVELLGYS EAAVRGLEWLRGSFLDSMRKGLQDSYPGPSLDAVAAFAAIFDPRRYPQAPEELGTHGEGA LRVLLRGFAPAVVRQRALGDFALFKRVVFGLGRLGPRALCTQLACAHSELHELFPDFAAL AALALALPAGAGLLDKVGRSRELRWWGQSGAGEGRGGHMVKIAVDGPPLHEFDFGLAVEF LETGPASGAPSPLLASLPLPTRPLQPPLDFKHLLAFHFNGAAPLSLFPNFSTMDPVQKAV ISHTFGVPSPLKKKLFISCNICHLRFNSANQAEAHYKGHKHARKLKAVEAAKSKQRPHTQ AQDGAVVSPIPTLASGAPGEPQSKEPGREAPGPEPAAAAVGSSMSGEGRSEKGHLYCPTC KVTVNSASQLQAHNTGAKHRWMMEGQRGAPRRSRGRPVSRGGAGHKAKRVTGGRGGRQGP SPAFHCALCQLQVNSETQLKQHMSSRRHKDRLAGKTPKPSSQHSKLQKHAALAVSILKSK LALQKQLTKTLAARFLPSPLPTAATAICALPGPLALRPAPTAATTLFPAPILGPALFRTP AGAVRPATGPIVLAPY >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_2|3111_bp atggtgcccccagggaagaaaccagcgggagaggcctccaactccaacaagaagtgtaag cgttacttcaacgagcactggaaagaggagtttacctggctggactttgactatgagcgg aagctgatgttctgcctcgagtgccgccaggccctggtacggaacaagcatggcaaagcc gaaaacgccttcactgtgggcacagacaacttccagcgccacgccctgctgcgccacgtg acctcaggagcccaccgccaggctctggctgtcaaccagggccagcccccttttgagggc caggctgaaggtggaggggcctgcccaggcctggctacgacccctgcctccaggggcgtc aaggtggagttagacccggccaaagtggctgtgctgactactgtgtactgcatggcaaag gaggatgtgcccaatgaccgctgctctgccctgctcgagctgcagaggttcaacctgtgc caggcactgctgggcacagagcatggcgattactacagtcccaggagggtgagggacatg caggtggccattgccagtgtcttgcacacagaggcctgccagcgcctgaaggcatcccca tatgtggggctggtgttggacgagaccagagactggccggagtcacacagcctggccctg tttgccacttcagtgtccccctgtgatggccagcccgccaccaccttcctgggcagtgtg gagctacaggagggcgaggccactgctggccagctcttggacatcctgcaggctttcggc gtatctgcacccaagctggcctggctcagctcaagcctccccagtgagcgcctggggagt gtgggcccacagctccgggccacttgcccactgctggcagagctgcattgtctccctggc cggacagatcctgagcccccggcctacttgggtcaatatgagagcatattggatgcccta ttccgcctccatggtggccctagttcccacttggtccctgagctccgggcagcactggac cttgcagctattgacttggcagggcctcggccagtgccctgggcctccctgctgcctgta gtggaagcagtggccgaggcctggcctggcctggtgcccaccctggaggctgcagccctt gcctcacctgtggcggggtcactggccctggccctgcgccagttcaccttcgtggccttc acccacctgctgctggatgccctgccctctgtgcagaagctctcccttgtcctgcaggca gaagagccggacttggccttgctgcagcctctggtgatggcggctgcggcctccctccaa gctcagcgcggctcaggtggggcccgcctccagggcttcctgcaggaactggcatccatg gaccctgacgccagcagcggacgctgcacctaccgcggcgtggagctgctcggttactcc gaggctgcggtccggggcttggagtggctccggggatccttcctggactccatgcggaag ggcctacaggactcctaccccgggccttcgctggacgccgtggccgccttcgcagcgatc ttcgacccccgacgctacccgcaggcgccggaggagctgggcacgcatggcgagggggcg ctgcgggtgctgctgcgcggctttgctcctgccgtggtgcgccagcgggcgctgggcgac ttcgcgctgtttaagcgcgtagtattcggccttgggcggctcggcccgcgggccctgtgc acccagctggcgtgcgcgcactcggagctgcacgagctcttccccgacttcgccgcccta gccgccttggctttggcgctgcccgcgggcgctggcctgctggacaaggtcggccgcagc cgggagctgcggtggtgggggcagagtggggccggggaaggccgggggggccacatggtg aagatcgcagtggatgggcccccgctgcacgagtttgacttcgggttggctgtggagttc ttagagacaggcccggcctccggcgcccccagccccctgctggcctccctgcccctgccc acccggcctctgcagcccccgctggacttcaagcacttgctcgccttccacttcaatggc gctgccccgctcagtctcttccccaacttcagcacgatggacccggtccagaaagctgtc atcagccacacgtttggtgtcccctcccctctgaagaagaagctgttcatttcctgtaac atctgtcacctgaggttcaactcagcgaaccaggccgaggcacattataaaggccacaaa cacgccagaaaactcaaggctgtcgaggctgccaagagcaagcagaggccacacacccag gcccaggatggggctgtagtgtccccaatcccaacgctggccagtggagcccctggagag ccacagagtaaagagcctgggagagaggcaccggggcctgagccagcggcagctgccgtg ggaagcagcatgagtggggaaggcaggagtgagaaggggcacctctactgccccacgtgt aaggtgacagtgaactcggcctcccagcttcaggctcacaacacaggagccaagcaccgg tggatgatggaaggtcagcgaggggctccccggaggagccggggccgcccggtgtccagg ggaggtgccggacacaaagccaagagagtcacagggggccggggcggccggcaggggccc agccctgccttccactgtgctctctgtcagctccaggtcaattcagagacccaactgaag cagcacatgagcagcaggaggcacaaagaccgcctggccgggaagacccccaagccctcc agccagcacagcaagctgcagaagcacgcagcgctggctgtgagtatcctcaagtctaaa ctggccttgcagaagcaactcaccaagacgttggcagcccgcttcctgcccagcccgctc cccaccgcagccactgccatctgtgctctgccagggcccctggccctccgccctgcccct acagcagccactaccctcttcccggctcccatcctgggcccagctctgtttcgcacccca gcaggagctgtccgccctgccacaggacctatcgtccttgccccttattag >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_3|239_aa MGPPLCVAWSPVGLPQCQADMKRPLSPPPPAEKETPISGAAECLPRPPEPPKPKRERKRP SYTLCDVCNIQLNSAAQAQGTLPVGSFGIRTPKQHFSSLEPPGSHRLSDKGLICGVGVPG SSSGLWSLKAKVSKDHQEKQGCLGTELGGLAQIPALEEDKDSVCVSGGCCRSVEPKETAA RASTAQDGGSCVSAKDKGGLDKAARQWCGEKGQVRSGFWRKNQQDLWMEQVLDVEENRD >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_3|720_bp atggggcctcctctctgtgtggcctggtccccagtaggcctgccccagtgccaggcagat atgaagcggccactgagcccacccccaccggctgagaaggagacccccatatctggagct gctgagtgcctccctcggcccccagaaccacctaagcccaagcgagaaagaaagcggcca tcgtacacgctctgtgatgtctgcaacatccagctgaactcggcggcccaggcccaggga actctccctgtgggatcttttgggatcaggactcctaagcagcacttctccagcctggag cctcctggtagccacaggctttcagacaagggcctcatctgcggggtgggggtcccaggc tccagctcaggtctgtggtctctgaaggccaaggtcagcaaggaccaccaggaaaagcaa ggctgtctgggtacagaattagggggcttagctcagatccctgccctggaagaagacaaa gattctgtctgtgtctctggtggctgctgtcgctccgtggagcccaaggagaccgcggcc agagcgtccaccgcccaagatggtggctcctgtgtctccgcaaaagataaaggtggcctg gacaaggccgccaggcagtggtgtggagagaagggacaagttagaagtggattttggagg aagaatcaacaagacctatggatggagcaggttctggatgtagaagagaacagggattga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_4|82_aa MKHAMEQDGIGASAKGLRWWEASGFMICKFHEGPLDFRSLLDPKCSGASTWPVSGAHLVM VQEKVTVGKSGESRVSAAAASF >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_4|249_bp atgaagcacgccatggaacaggatggcataggggcttcagccaaggggctgaggtggtgg gaagcttcaggcttcatgatttgcaagttccatgagggccctttggacttccgttcactg ctagatcccaagtgcagtggagcctccacgtggcctgtatctggagctcatctggtcatg gtccaggagaaggtgacagtgggaaagtcgggggagtcaagggtgtcagctgctgctgct tctttttga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_5|1682_aa MAEPSQAPTPAPAAQPRPLQSPAPAPTPTPAPSPASAPIPTPTPAPAPAPAAAPAGSTGT GGPGVGSGGAGSGGDPARPGLSQQQRASQRKAQVRGLPRAKKLEKLGVFSACKANETCKC NGWKNPKPPTAPRMDLQQPAANLSELCRSCEHPLADHVSHLENVSEDEINRLLGMVVDVE NLFMSVHKEEDTDTKQVYFYLFKLLRKCILQMTRPVVEGSLGSPPFEKPNIEQGVLNFVQ YKFSHLAPRERQTMFELSKMFLLCLNYWKLETPAQFRQRSQAEDVATYKVNYTRWLCYCH VPQSCDSLPRYETTHVFGRSLLRSIFTVTRRQLLEKFRVEKDKLVPEKRTLILTHFPKIW PQVHILPVVPFFPGRLPGLVPPLPPWAFWDLGVYLADLPMAQKQLASTSLGMAVPPAIRW EQEMARFLSMLEEEIYGANSPIWESGFTMPPSEGTQLVPRPASVSAAVVPSTPIFSPSMG GGSNSSLSLDSAGAEPMPGEKRTLPENLTLEDAKRLRVMGDIPMELVNEVMLTITDPAAM LGPETSLLSANAARDETARLEERRGIIEFHVIGNSLTPKANRRVLLWLVGLQNVFSHQLP RMPKEYIARLVFDPKHKTLALIKDGRVIGGICFRMFPTQGFTEIVFCAVTSNEQVKGYGT HLMNHLKEYHIKHNILYFLTYADEYAIGYFKKQGFSKDIKVPKSRYLGYIKDYEGATLME CELNPRIPYTELSHIIKKQKEVIIKKLIERKQAQIRKVYPGLSCFKEGVRQIPVESVPGI RETGWKPLGKEKGKELKDPDQLYTTLKNLLAQIKSHPSAWPFMEPVKKSEAPDYYEVIRF PIDLKTMTERLRSRYYVTRKLFVADLQRVIANCREYNPPDSEYCRCASALEKFFYFKLKE GGLIDKMELRSYQWEVIMPALEGKNIIIWLPTGAGKTRAAAYVAKRHLETVDGAKVVVLV NRVHLVTQHGEEFRRMLDGRWTVTTLSGDMGPRAGFGHLARCHDLLICTAELLQMALTSP EEEEHVELTVFSLIVVDECHHTHKDTVYNVIMSQYLELKLQRAQPLPQVLGLTASPGTGG ASKLDGAINHVLQLCANLDTWCIMSPQNCCPQLQEHSQQPCKQYNLCHRRSQGLVALFSL WASKRALPCRAEPSSVNSVSRAVLPSTDSRVQYELTQTGYIASGVRACPPNSLSHSGPDV RLGLFLDQSTSMCLTLGITVPRPKGKSTSRDPFGDLLKKLMDQIHDHLEMPELSRKFGTQ MYEQQVVKLSEAAALAGLQEQRVYALHLRRYNDALLIHDTVRAVDALAALQDFYHREHVT KTQILCAERRLLALFDDRKNELAHLATHGPENPKLEMLEKILQRQFSSSNSPRGIIFTRT RQSAHSLLLWLQQQQGLQTVDIRAQLLIGAGNSSQSTHMTQRDQQEVIQKFQDGTLNLLV ATSVAEEGLDIPHCNVVVRYGLLTNEISMVQARGRARADQSVYAFVATEGSRELKRELIN EALETLMEQAVAAVQKMDQAEYQAKIRDLQQAALTKRAAQAAQRENQRQQFPVEHVQLLC INCMVAVGHGSDLRKVEGTHHVNVNPNFSNYYNVSRDPVVINKVFKDWKPGGVISCRNCG EVWGLQMIYKSVKLPVLKVRSMLLETPQGRIQAKKWSRVPFSVPDFDFLQHCAENLSDLS LD >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_5|5049_bp atggcggaaccttcccaggccccgaccccggccccggctgcgcagccccggccccttcag tccccagcccctgccccaactccgactcctgcacccagcccggcttcagccccgattccg actcccaccccggcaccagcccctgccccagctgcagccccagccggcagcacagggact ggggggcccggggtaggaagtgggggggccgggagcgggggggatccggctcgacctggc ctgagccagcagcagcgcgccagtcagaggaaggcgcaagtccgggggctgccgcgcgcc aagaagcttgagaagctaggggtcttctcggcttgcaaggccaatgaaacctgtaagtgt aatggctggaaaaaccccaagccccccactgcaccccgcatggatctgcagcagccagct gccaacctgagtgagctgtgccgcagttgtgagcaccccttggctgaccacgtatcccac ttggagaatgtgtcagaggatgagataaaccgactgctggggatggtggtggatgtggag aatctcttcatgtctgttcacaaggaagaggacacagacaccaagcaggtctatttctac ctcttcaagctactgcggaaatgcatcctgcagatgacccggcctgtggtggaggggtcc ctgggcagccctccatttgagaaacctaatattgagcagggtgtgctgaactttgtgcag tacaagtttagtcacctggctccccgggagcggcagacgatgttcgagctctcaaagatg ttcttgctctgccttaactactggaagcttgagacacctgcccagtttcggcagaggtct caggctgaggacgtggctacctacaaggtcaattacaccagatggctctgttactgccac gtgccccagagctgtgatagcctcccccgctacgaaaccactcatgtctttgggcgaagc cttctccggtccattttcaccgttacccgccggcagctgctggaaaagttccgagtggag aaggacaaattggtgcccgagaagaggaccctcatcctcactcacttccccaagatttgg ccccaagttcacatcctccctgttgtccccttttttccaggaaggcttcctggattggtc cctcctctccctccatgggccttttgggatctgggcgtctacctggcagacttgcccatg gcccagaagcaacttgctagtactagtctggggatggcagtgccccctgccatcaggtgg gaacaagagatggcaagattcctgtccatgctggaggaggagatctatggggcaaactct ccaatctgggagtcaggcttcaccatgccaccctcagaggggacacagctggttccccgg ccagcttcagtcagtgcagcggttgttcccagcacccccatcttcagccccagcatgggt gggggcagcaacagctccctgagtctggattctgcaggggccgagcctatgccaggcgag aagaggacgctcccagagaacctgaccctggaggatgccaagcggctccgtgtgatgggt gacatccccatggagctggtcaatgaggtcatgctgaccatcactgaccctgctgccatg ctggggcctgagacgagcctgctttcggccaatgcggcccgggatgagacagcccgcctg gaggagcgccgcggcatcatcgagttccatgtcatcggcaactcactgacgcccaaggcc aaccggcgggtgttgctgtggctcgtggggctgcagaatgtcttttcccaccagctgccg cgcatgcctaaggagtatatcgcccgcctcgtctttgacccgaagcacaagactctggcc ttgatcaaggatgggcgggtcatcggtggcatctgcttccgcatgtttcccacccagggc ttcacggagattgtcttctgtgctgtcacctcgaatgagcaggtcaagggttatgggacc cacctgatgaaccacctgaaggagtatcacatcaagcacaacattctctacttcctcacc tacgccgacgagtacgccatcggctacttcaaaaagcagggtttctccaaggacatcaag gtgcccaagagccgctacctgggctacatcaaggactacgagggagcgacgctgatggag tgtgagctgaatccccgcatcccctacacggagctgtcccacatcatcaagaagcagaaa gaggtgatcatcaagaagctgattgagcgcaaacaggcccagatccgcaaggtctacccg gggctcagctgcttcaaggagggcgtgaggcagatccctgtggagagcgttcctggcatt cgagagacaggctggaagccattggggaaggagaaggggaaggagctgaaggaccccgac cagctctacacaaccctcaaaaacctgctggcccaaatcaagtctcaccccagtgcctgg cccttcatggagcctgtgaagaagtcggaggcccctgactactacgaggtcatccgcttc cccattgacctgaagaccatgactgagcggctgcgaagccgctactacgtgacccggaag ctctttgtggccgacctgcagcgggtcatcgccaactgtcgcgagtacaaccccccggac agcgagtactgccgctgtgccagcgccctggagaagttcttctacttcaagctcaaggag ggaggcctcattgacaaaatggagcttcggtcctaccaatgggaggtgatcatgcctgcc ctggagggcaagaatatcatcatctggctgcccacgggtgccgggaagacccgggcggct gcttatgtggccaagcggcacctagagactgtggatggagccaaggtggttgtattggtc aacagggtgcacctggtgacccagcatggtgaagagttcaggcgcatgctggatggacgc tggaccgtgacaaccctgagtggggacatgggaccacgtgctggctttggccacctggcc cggtgccatgacctgctcatctgcacagcagagcttctgcagatggcactgaccagcccc gaggaggaggagcacgtggagctcactgtcttctccctgatcgtggtggatgagtgccac cacacgcacaaggacaccgtctacaacgtcatcatgagccagtacctagaacttaaactc cagagggcacagccgctaccccaggtgctgggtctcacagcctccccaggcactggcggg gcctccaaactcgatggggccatcaaccacgtcctgcagctctgtgccaacttggacacg tggtgcatcatgtcaccccagaactgctgcccccagctgcaggagcacagccaacagcct tgcaaacagtacaacctctgccacaggcgcagccaggggttagtagcattattctctctc tgggcgagcaagcgtgccctgccgtgccgagctgaaccaagctccgtgaacagcgtcagc agggcagttttaccttctactgacagtagagtccagtatgaacttacacaaacaggttat atagcaagtggagtacgtgcctgccccccaaactcgctgagtcactctggcccggatgtc cgcctcggcctattccttgaccaaagcacgtccatgtgccttacactaggcatcaccgtg cccaggccaaagggtaagagcacatcgcgggatccgtttggggacttgctgaagaagctc atggaccaaatccatgaccacctggagatgcctgagttgagccggaaatttgggacgcaa atgtatgagcagcaggtggtgaagctgagtgaggctgcggctttggctgggcttcaggag caacgggtgtatgcgcttcacctgaggcgctacaatgacgcgctgctcatccatgacacc gtccgcgccgtggatgccttggctgcgctgcaggatttctatcacagggagcacgtcact aaaacccagatcctgtgtgccgagcgccggctgctggccctgttcgatgaccgcaagaat gagctggcccacttggcaactcatggcccagagaatccaaaactggagatgctggaaaag atcctgcaaaggcagttcagtagctctaacagccctcggggtatcatcttcacccgcacc cgccaaagcgcacactccctcctgctctggctccagcagcagcagggcctgcagactgtg gacatccgggcccagctactgattggggctgggaacagcagccagagcacccacatgacc cagagggaccagcaagaagtgatccagaagttccaagatggaaccctgaaccttctggtg gccacgagtgtggcggaggaggggctggacatcccacattgcaatgtggtggtgcgttat gggctcttgaccaatgaaatctccatggtccaggccaggggccgtgcccgggccgatcag agtgtatacgcgtttgtagcaactgaaggtagccgggagctgaagcgggagctgatcaac gaggcgctggagacgctgatggagcaggcagtggctgctgtgcagaaaatggaccaggcc gagtaccaggccaagatccgggatctgcagcaggcagccttgaccaagcgggcggcccag gcagcccagcgggagaaccagcggcagcagttcccagtggagcacgtgcagctactctgc atcaactgcatggtggctgtgggccatggcagcgacctgcggaaggtggagggcacccac catgtcaatgtgaaccccaacttctcgaactactataatgtctccagggatcctgtggtc atcaacaaagtcttcaaggactggaagcctgggggtgtcatcagctgcaggaactgtggg gaggtctggggtctgcagatgatctacaagtcagtgaagctgccagtgctcaaagtccgc agcatgctgctggagacccctcaggggcggatccaggccaaaaagtggtcccgcgtgccc ttctccgtgcctgactttgacttcctgcagcattgtgccgagaacttgtcggacctctcc ctggactga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_6|159_aa MQRVGNTFSNESRVASRCPSVGLAERNRVATMPVRLLRDSPAAQEDNDHARDGFQMKLDA HGFAPEELVVQVDGQWLMVTGQQQLDVRDPERVSYRMSQKVHRKMLPSNLSPTAMTCCLT PSGQLWVRGQCVALALPEAQTGPSPRLGSLGSKASNLTR >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_6|480_bp atgcagagagtcggtaacaccttctccaacgagagccgggtggcatcccggtgtcccagc gtgggccttgctgaacggaaccgggtggccacaatgccggtgcggctgctcagggacagt ccagcggctcaggaggacaatgaccatgccagagacggtttccaaatgaagctggatgcc cacggcttcgccccggaggaactggtggtgcaggtggatggccaatggctgatggtgacc ggacagcagcaactggacgtcagggacccggaaagggtcagttaccgcatgtcacagaag gtgcaccggaaaatgctcccgtccaacctgagtcctaccgccatgacctgctgcctgacc ccctccgggcagctgtgggtcagaggccagtgtgtggcgctggccctccctgaagcccaa acaggaccgtccccgagactcgggagcctcggctctaaggcttccaacctgacccggtaa >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_7|216_aa MAGRGGAARPNGPAAGNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEYQESTIGAAFLT QTVCLDDTTVKFEIWDTAGQERYHSLAPMYYRGAQAAIVVYDITNTDTFARAKNWVKELQ RQASPNIVIALAGNKADLASKRAVEFQEAQAYADDNSLLFMETSAKTAMNVNEIFMAIAK KLPKNEPQNATGAPGRNRGVDLQENNPASRSQCCSN >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_7|651_bp atggcgggtcggggaggcgcagcacgacccaatggaccagctgctgggaacaagatctgt caatttaagctggttctgctgggggagtctgcggtaggcaaatccagcctcgtcctccgc tttgtcaagggacagtttcacgagtaccaggagagcacaattggagcggccttcctcaca cagactgtctgcctggatgacacaacagtcaagtttgagatctgggacacagctggacag gagcggtatcacagcctggcccccatgtactatcggggggcccaggctgccatcgtggtc tatgacatcaccaacacagatacatttgcacgggccaagaactgggtgaaggagctacag aggcaggccagccccaacatcgtcattgcactcgcgggtaacaaggcagacctggccagc aagagagccgtggaattccaggaagcacaagcctatgcagacgacaacagtttgctgttc atggagacatcagcaaagactgcaatgaacgtgaacgaaatcttcatggcaatagctaag aagcttcccaagaacgagccccagaatgcaactggtgctccaggccgaaaccgaggtgtg gacctccaggagaacaacccagccagccggagccagtgctgcagcaactga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_8|67_aa MATAVSEVSGVFLGLGKQQKWQLSWLVLLTPAEPLLRRGEDGPYIDEIPVLVELVSALGA LVDPIRA >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_8|204_bp atggccacagctgtctccgaggtttctggagtctttctgggcctagggaagcagcagaag tggcagctgtcctggctggtgcttctgacccctgcagagccccttttgagacggggggaa gacgggccctacattgatgagattccggtattggtggagttggtgtctgcacttggggct ctggtggaccccatcagggcctga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_9|1028_aa MPVMKGLLAPQNTFLDTIATRFDGTHSNFLLANAQGTRGFPIVYCSDGFCELTGYGRTEV MQKTCSCRFLYGPETSEPALQRLHKALEGHQEHRAEICFYRKDGSAFWCLLDMMPIKNEM GEVVLFLFSFKDITQSGSPGLGPQGGRGDSNHENSLGRRGATWKFRSARRRSRTVLHRLT GHFGRRGQGGMKANNNVFEPKPSVPEYKVASVGGSRCLLLHYSVSKAIWDGLILLATFYV AVTVPYNVCFSGDDDTPITSRHTLVSDIAVEMLFILGQTFCLTHPDIILNFRTTYVSQSG QVISAPRSIGLHYLATWFFIDLIAALPFDLLYIFNITVGGPHHNCCRRYWGSAETVAYPL TLTRAGSPTISQCLVAVEHKDSKDVFPVAACPGSRLSGGKALGGDSEGSEEVCLLTASPA TFLQTSLVHLLKTVRLLRLLRLLQKLERYSQCSAVVLTLLMSVFALLAHWMACIWYVIGR REMEANDPLLWDIGWLHELGKRLEVPYVNGSVGGPSRRSAYIAALYFTLSSLTSVGFGNV CANTDAEKIFSICTMLIGALMHAVVFGNVTAIIQRMYSRRSLYHSRMKDLKDFIRVHRLP RPLKQRMLEYFQTTWAVNSGIDANELLRDFPDELRADIAMHLNREILQLPLFGAASRGCL RALSLHIKTSFCAPGEYLLRRGDALQAHYYVCSGSLEVLRDNMVLAILGKGDLIGADIPE PGQEPGLGADPNFVLKTSADVKALTYCGLQQLSSRGLAEVLRLYPEYGAAFRAGLPRDLT FNLRQGSDTSGLSRFSRSPRLSQPRSESLGSSSDKTLPSITEAESGAEPGGGPRPRRPLL LPNLSPARPRGSLVSLLGEELPPFSALVSSPSLSPSLSPALAGQGHSASPHGPPRCSAAW KPPQLLIPPLGTFGPPDLSPRIVDGIEDSGSTAEAPSFRFSRRPELPRPRSQAPPTGTRP SPELASEAEEVKEKVCRLNQEGGHEQKVAAKELCKLERGVHLVITVAPVKQLDVFSTDLS SQSGGVSA >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_9|3087_bp atgccggtcatgaaggggttgctggccccgcaaaacaccttcctggacaccatcgccacc cgttttgacggaacgcacagcaacttcctgctggccaacgcacagggcacacggggcttt cccatcgtctactgctccgacggcttctgcgagctcacaggctacggtcgcaccgaggtc atgcagaagacctgcagctgccgtttcctctacggcccagagaccagtgagccagccctg cagcgtctgcacaaagccctggagggccaccaggagcaccgggctgaaatctgcttctac cgcaaggatggctcagccttttggtgcctcctggacatgatgcccatcaagaatgagatg ggggaggtcgtgctgttcctcttttccttcaaggatatcactcagagtggaagcccagga cttggcccccaaggaggccgcggggacagtaatcacgaaaactcccttggtagaagggga gccacctggaaatttcggtctgccagaagacggagccgtactgtcctacaccgactgacc ggccactttggccgccggggccagggaggcatgaaggccaataataacgtgtttgagcca aagccatcagtgcccgagtacaaggtggcctccgtgggggggtctcgctgcctcctcctc cactacagcgtctccaaggccatctgggacggccttatcctccttgccaccttctacgtt gcggtcaccgtcccctacaatgtctgtttctcgggtgacgatgacacccccatcacttcg cgacacacccttgtcagcgacatcgccgtggaaatgctcttcatcctaggtcagaccttc tgcctcacccaccctgatatcatcctgaacttccgcaccacctatgtgtcccagtccggc caggtaatctctgctcctcgttccattggcctccactacctggccacctggttcttcatc gaccttattgctgctctgccctttgacctgctttacatcttcaacatcaccgtggggggt ccccatcacaattgctgccgtcgctactggggctctgcagagactgttgcctatcccctg actctgactagggccggctcccctaccatctcccagtgcttagtggctgtagagcacaag gacagcaaagatgtctttcctgttgcagcctgccctggctccaggttgtctggtgggaag gccctgggaggggactctgagggctcggaggaggtgtgcctgctgacagcctcccccgcc accttcctgcagacctcgctggtgcacctactgaagacagtgcggctgttgcggctgctg cggctgctgcagaagctggagcggtactctcagtgcagtgctgtggtgctcacgctgctc atgtcggtctttgcgctccttgcccactggatggcctgcatctggtatgtcatcgggcgc cgggagatggaggccaatgacccgctgctctgggacattggctggttgcatgagttgggc aagcgtctggaggtgccctatgtcaatggctcggtgggcggcccatcacggcgcagcgcc tacatcgcggcactgtacttcactctaagcagcctcaccagtgtgggctttggcaacgtg tgtgccaacaccgacgcggagaagatcttctccatctgcacgatgctcataggcgccctg atgcacgctgtggtgttcgggaacgtgacagccatcatccagcgcatgtactcgcgccgc tcgctctaccacagccgcatgaaggacctcaaggacttcatccgtgtgcaccgcctgccg cggccgctcaagcagcgcatgctcgaatacttccagaccacgtgggccgtcaacagcggc atcgacgccaacgagttactgcgtgacttcccagacgagctgagagctgacattgctatg cacctgaatcgggagatcctgcagctgccgttgttcggggcagcgagcaggggctgcctg cgggccctatcgctgcacatcaagacctcgttctgcgctccgggcgagtacctgttgcgc cgtggggatgccctgcaggcacattactatgtctgctccggctcgcttgaggtgctccga gacaacatggtgctggccatcctggggaagggggacctgattggagcagatatccctgag ccggggcaggagcctgggttgggagcagacccaaacttcgtgctaaagaccagtgctgat gtgaaagctctgacctactgtggcctgcagcagctgagcagccgagggctggctgaggtc ctgaggctctatcctgagtatggggctgccttccgggctggcctgccccgggacctcacc ttcaacctgcgccagggctctgacaccagtggcctcagccgcttttcccgatcccctcgc ctctcccagccccgctcagaaagcctcggctcctcctcagacaagacgctgccatccatc acagaggccgagagtggcgcggagcctgggggtggtcccaggccccgacggcccctcctg ctgcccaacctcagcccagcacggcctcggggctccctggtcagccttttgggcgaggag ctgcccccattctcagcccttgtctcctctccttccttatccccatccctgtcccctgcc ctggctggccagggccacagtgcctcccctcacggcccccccaggtgctctgctgcctgg aagccccctcagcttctcattcccccactgggaacctttggacctccggacctcagtccc cggatagtggatggcattgaggactctggcagcacagctgaggccccttcattccgattc agcaggaggcctgaactgccaaggccccgctcccaggcgccccctacagggaccaggccc agcccagaattggccagtgaggctgaggaggtgaaggaaaaggtttgccggctgaaccag gagggtggccatgagcagaaagtggctgcgaaagagctttgtaaactggagaggggggtg caccttgttattactgtggcacctgtgaaacaactcgatgtgttttcaacagatctctcg tctcaatcaggaggtgtctcagcttag >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_10|610_aa MLLWPLLLLLLLLPTLALLRQQRSQDARLSWLAGLQHRVAWGALVWAATWQRRRLEQSTL HVHQSQQQALRWCLQGAQRPHCSLRRSTDISTFRNHLPLTKASQTQQEDSGEQPLPPTSN QDLGEASLQATLLGLAALNKAYPEVLAQGRTARVTLTSPWPRPLPWPGNTLGQVGTPGTK DPRALLLDALRSPGLRALEAGTAVELLDVFLGLETDGEELAGAIAAGNPGAPLRERAAEL REALEQGPRGLALRLWPKLQVVVTLDAGGQAEAVAALGALWCQGLAFFSPAYAASGGVLG LNLQPEQPHGLYLLPPGAPFIELLPVKEGTQEEAASTLLLAEAQQGKEYELVLTDRASLT RCRLGDVVRVVGAYNQCPVVRFICRLDQTLSVRGEDIGEDLFSEALGRAVGQWAGAKLLD HGCVESSILDSSAGSAPHYEVFVALRGLRNLSEENRDKLDHCLQEASPRYKSLRFWGSVG PARVHLVSWAAVTLLLLLLLLPPALLSSGAAAQPLPDCCRQKTCSCRLYELLHGAGNHAA GILTLGKRRSGPPGLQGRLQRLLQASGNHAAGILTMGRRAGAEPAPRPCLGRRCSAPAAA SVAPGGQSGI >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_10|1833_bp atgctgctgtggccactgctgctgctgctgctgctgctgccaacattggccctgctcagg cagcagcggtcccaggatgccaggctgtcctggcttgctggcctccagcaccgagtggca tggggggccctggtctgggcagccacctggcagcggcggaggctggagcagagcacgctc catgtgcaccagagccagcagcaggccctgaggtggtgtctacagggagcccagcgcccc cactgttccctcagaaggagcacagacataagcaccttccggaatcatctccctctgacc aaggccagccagacccagcaggaagacagtggagagcagccactgcccccgacctcaaac caggaccttggggaggcctctctgcaggccaccttgctgggtctggcagccctaaacaag gcctacccagaagtgctggctcagggacgcactgcccgtgtgacgcttacatccccttgg ccccgacccctgccttggcctgggaataccctgggccaggtgggcacccctggaaccaag gaccctagggccctgctgctggacgcactgaggtccccagggctgagggcactggaggct gggacggctgtcgaacttctggatgttttcttgggcctggagactgatggtgaagagcta gctggggcgatagctgccgggaaccctggagcgcctctccgtgaacgggcagctgagctc cgggaggccctagagcaggggccacggggactggcccttcggctctggccaaagctgcag gtggtggtgactctggatgcaggaggccaggccgaggctgtggctgccctcggggccttg tggtgccaaggactagccttcttctctcctgcttatgctgcctcgggaggggtgctgggc ctaaacctacagccagagcagccccatgggctctaccttctgccccctggggcccccttt atcgagctgctcccagtcaaggaaggcacccaggaggaagctgcctccaccctccttttg gccgaggcccagcagggcaaggagtatgagctggtgctgacggaccgcgccagcctcacc aggtgccgcctgggtgatgtggtgcgagtggttggtgcctacaatcagtgtccagtcgtc aggttcatctgcaggctggaccagaccctgagtgtgcgaggggaagatattggtgaagac ctgttctctgaggccctgggccgggcagtggggcagtgggcgggggccaagctgctggac catggctgtgtggagagcagcattctggattcctctgcgggctctgctccccactacgag gtgtttgtggcgctgagggggctgaggaatctgtcagaggaaaatcgagacaagctggac cactgccttcaggaagcctctccccgctacaagtccctgcggttctggggcagcgtgggc cctgccagagtccacctggtctcctgggccgccgtgacgctactgctgctgctgctgctg ctgccgcccgcgctgttgtcgtccggggcggctgcacagcccctgcccgactgctgtcgt caaaagacttgctcttgccgcctctacgagctgctgcacggcgcgggcaatcacgcggcc ggcatcctcacgctgggcaagcggaggtccgggcccccgggcctccagggtcggctgcag cgcctcctgcaggccagcggcaaccacgccgcgggcatcctgaccatgggccgccgcgca ggcgcagagccagcgccgcgcccctgcctcgggcgccgctgttccgccccggccgccgcc tccgtcgcgcccggaggacagtccgggatctga >gi568815581r:42001764_42211892|GENSCAN_predicted_peptide_11|216_aa MGENHYFLRRRQSLKVFSLASAILGFVNKQQAHDLLINKPDGTFLLRFSDSEIGGITIAW KFDSQERMFWNLMPFTTRDFSIRSLADRLGDLNYLIYVFPDRPKDEVYSKYYTPVPCESA TAKAVDGYVKPQIKQVVPEFVNASADAGGGSATYMDQAPSPAVCPQAHYNMYPQNPDSVL DTDGDFDLEDTMDVARRVEELLGRPMDSQWIPHAQS >gi568815581r:42001764_42211892|GENSCAN_predicted_CDS_11|651_bp atgggtgagaatcattatttcttaaggcgccgacagagtctgaaggtcttctctctggca tcggccattttggggtttgtaaacaagcaacaggcccatgacctactcattaacaagcca gatgggaccttcctcctgagattcagtgactcagaaattggcggcatcaccattgcttgg aagtttgattctcaggaaagaatgttttggaatctgatgccttttaccaccagagacttc tccattcggtccctagccgaccgcttgggagacttgaattaccttatctacgtgtttcct gatcggccaaaagatgaagtatactccaaatactacacaccagttccctgcgagtctgct actgctaaagctgttgatggatacgtgaagccacagatcaagcaagtggtccctgagttt gtgaacgcatctgcagatgccgggggcggcagcgccacgtacatggaccaggccccctcc ccagctgtgtgtccccaggctcactataacatgtacccacagaaccctgactcagtcctt gacaccgatggggacttcgatctggaggacacaatggacgtagcgcggcgtgtggaggag ctcctgggccggccaatggacagtcagtggatcccgcacgcacaatcgtga