GENSCAN 1.0 Date run: 6-Nov-116 Time: 10:36:33 Sequence gi568815579r:38310043_38522155 : 212113 bp : 52.91% 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 + 9909 10230 322 2 1 81 79 624 0.773 56.31 1.02 Intr + 16551 16946 396 1 0 90 99 501 0.984 46.52 1.03 Intr + 17138 17357 220 0 1 119 70 417 0.899 40.89 1.04 Term + 17766 17799 34 0 1 36 42 112 0.610 -1.26 1.05 PlyA + 18936 18941 6 -0.45 2.00 Prom + 19355 19394 40 -4.51 2.01 Init + 26101 26396 296 0 2 43 5 373 0.060 21.16 2.02 Intr + 27237 27462 226 0 1 53 78 288 0.058 22.82 2.03 Intr + 27551 27604 54 1 0 88 113 122 0.997 14.36 2.04 Intr + 33538 33682 145 0 1 49 86 311 0.971 27.37 2.05 Intr + 33951 34077 127 1 1 47 75 191 0.996 13.94 2.06 Intr + 34254 34326 73 0 1 55 78 116 0.999 7.20 2.07 Intr + 36408 36584 177 2 0 70 52 196 0.595 14.83 2.08 Intr + 42219 42390 172 2 1 108 89 201 0.572 22.23 2.09 Intr + 44668 44805 138 2 0 11 94 178 0.992 11.64 2.10 Intr + 46700 46819 120 0 0 99 95 123 0.984 15.07 2.11 Intr + 48236 48286 51 0 0 76 97 62 0.974 5.27 2.12 Intr + 48390 48519 130 1 1 74 64 138 0.958 10.26 2.13 Intr + 49428 49539 112 0 1 107 64 115 0.999 11.88 2.14 Intr + 50447 50605 159 1 0 73 49 213 0.999 16.60 2.15 Intr + 50689 50801 113 0 2 129 76 196 0.999 22.18 2.16 Intr + 51606 51819 214 0 1 53 86 468 0.934 42.34 2.17 Intr + 52168 52230 63 0 0 43 96 85 0.937 4.21 2.18 Intr + 52334 52532 199 1 1 85 22 430 0.684 35.55 2.19 Intr + 52672 52790 119 2 2 32 85 206 0.637 15.39 2.20 Intr + 54849 54929 81 2 0 109 54 100 0.678 9.03 2.21 Intr + 57062 57088 27 1 0 102 50 40 0.521 0.40 2.22 Intr + 57114 57270 157 2 1 54 26 290 0.917 19.50 2.23 Intr + 57467 57530 64 0 1 59 103 54 0.964 2.27 2.24 Intr + 57639 57734 96 0 0 70 28 176 0.990 9.42 2.25 Intr + 58006 58095 90 1 0 65 72 69 0.839 2.61 2.26 Intr + 59930 60022 93 2 0 68 71 56 0.716 1.48 2.27 Intr + 60117 60216 100 0 1 82 101 184 0.999 19.71 2.28 Term + 60484 60750 267 0 0 118 48 272 0.999 22.03 2.29 PlyA + 60882 60887 6 1.05 3.00 Prom + 63710 63749 40 -3.01 3.01 Init + 64749 64919 171 2 0 100 98 294 0.967 29.01 3.02 Intr + 66118 66190 73 0 1 94 86 89 0.996 8.77 3.03 Intr + 66310 66412 103 2 1 97 52 146 0.953 11.63 3.04 Intr + 69198 69363 166 0 1 121 52 266 0.943 26.78 3.05 Intr + 70216 70404 189 0 0 22 72 102 0.675 2.30 3.06 Intr + 70857 70957 101 2 2 86 96 191 0.999 19.11 3.07 Intr + 72075 72195 121 0 1 99 44 192 0.765 16.90 3.08 Term + 73211 73348 138 1 0 104 52 270 0.999 23.27 3.09 PlyA + 73416 73421 6 1.05 4.03 PlyA - 74329 74324 6 1.05 4.02 Term - 74487 74370 118 2 1 90 48 179 0.999 12.41 4.01 Init - 77219 75379 1841 2 2 74 85 1090 0.563 95.18 4.00 Prom - 77473 77434 40 -5.11 5.00 Prom + 79843 79882 40 -1.01 5.01 Init + 79990 80000 11 0 2 91 98 7 0.899 1.95 5.02 Intr + 80257 80437 181 1 1 122 61 186 0.988 19.69 5.03 Intr + 81904 82072 169 0 1 118 83 147 0.991 17.23 5.04 Intr + 82217 82246 30 0 0 151 113 0 0.960 7.39 5.05 Intr + 84512 84744 233 0 2 74 80 163 0.881 12.12 5.06 Term + 85438 86103 666 0 0 120 55 455 0.680 39.66 5.07 PlyA + 87862 87867 6 -0.45 6.00 Prom + 88814 88853 40 -6.01 6.01 Init + 92974 93176 203 0 2 52 50 190 0.511 9.93 6.02 Intr + 93296 93444 149 2 2 123 49 153 0.999 15.29 6.03 Intr + 93518 93652 135 0 0 102 66 174 0.954 17.65 6.04 Intr + 94866 95071 206 1 2 75 75 104 0.820 7.24 6.05 Intr + 95302 95379 78 0 0 99 86 34 0.947 4.54 6.06 Intr + 95477 95593 117 1 0 72 48 72 0.870 2.77 6.07 Intr + 96868 97035 168 0 0 120 86 158 0.975 19.46 6.08 Term + 98709 98840 132 2 0 40 43 127 0.894 1.80 6.09 PlyA + 99023 99028 6 1.05 7.17 PlyA - 99035 99030 6 -1.75 7.16 Term - 100054 99998 57 1 0 134 42 49 0.611 2.88 7.15 Intr - 100956 100844 113 1 2 47 89 41 0.593 0.70 7.14 Intr - 101207 101073 135 0 0 70 83 18 0.576 0.55 7.13 Intr - 101339 101303 37 2 1 115 84 80 0.832 8.62 7.12 Intr - 102774 102630 145 2 1 67 43 204 0.997 14.59 7.11 Intr - 102995 102889 107 2 2 24 98 76 0.575 1.71 7.10 Intr - 103255 103151 105 1 0 93 94 115 0.999 13.51 7.09 Intr - 103432 103352 81 1 0 45 85 127 0.997 8.43 7.08 Intr - 105081 104806 276 0 0 122 101 407 0.999 43.65 7.07 Intr - 107126 107010 117 2 0 95 63 117 0.988 11.07 7.06 Intr - 108522 108349 174 0 0 74 94 141 0.900 13.95 7.05 Intr - 109971 109818 154 2 1 84 89 168 0.996 17.09 7.04 Intr - 110220 110089 132 2 0 85 76 99 0.997 8.67 7.03 Intr - 111158 111038 121 0 1 74 48 168 0.996 11.46 7.02 Intr - 112111 111927 185 0 2 73 123 179 0.379 19.85 7.01 Init - 116049 116027 23 0 2 83 78 -4 0.230 -2.78 7.00 Prom - 118346 118307 40 -6.10 8.00 Prom + 121098 121137 40 -3.81 8.01 Init + 123788 123832 45 1 0 87 86 91 0.444 9.43 8.02 Intr + 130703 130822 120 1 0 98 62 266 0.995 26.19 8.03 Intr + 132307 132411 105 0 0 114 78 131 0.993 15.61 8.04 Intr + 132561 132581 21 2 0 124 69 26 0.830 2.52 8.05 Intr + 133516 133590 75 0 0 108 101 55 0.941 9.01 8.06 Intr + 133676 133754 79 1 1 25 61 113 0.477 1.92 8.07 Intr + 134107 134219 113 2 2 86 93 121 0.980 13.00 8.08 Intr + 134542 134635 94 0 1 62 72 93 0.996 5.14 8.09 Intr + 136430 136523 94 0 1 132 41 81 0.999 7.32 8.10 Intr + 136652 136726 75 2 0 121 91 -13 0.729 1.42 8.11 Intr + 138313 138469 157 1 1 137 86 258 0.998 31.03 8.12 Intr + 138607 138771 165 0 0 108 98 295 0.999 33.17 8.13 Intr + 141722 141843 122 1 2 101 63 218 0.995 20.40 8.14 Intr + 142777 142972 196 1 1 22 78 409 0.998 33.24 8.15 Intr + 145193 145328 136 1 1 107 63 99 0.999 9.95 8.16 Intr + 145409 145504 96 0 0 95 62 139 0.998 12.48 8.17 Intr + 145591 145709 119 2 2 53 63 152 0.999 9.89 8.18 Intr + 147455 147588 134 1 2 83 41 148 0.999 9.55 8.19 Intr + 148009 148250 242 1 2 115 82 366 0.999 36.43 8.20 Intr + 149104 149296 193 2 1 70 52 301 0.619 23.77 8.21 Intr + 150333 150549 217 0 1 109 84 158 0.998 16.53 8.22 Intr + 153381 153485 105 2 0 66 93 225 0.993 21.71 8.23 Intr + 153705 153808 104 2 2 40 61 157 0.898 7.67 8.24 Intr + 154597 154680 84 1 0 109 86 144 0.977 15.73 8.25 Intr + 156049 156356 308 1 2 69 81 631 0.988 57.14 8.26 Intr + 157568 157770 203 0 2 116 27 354 0.970 31.63 8.27 Intr + 158924 159098 175 1 1 109 89 256 0.997 27.83 8.28 Intr + 159263 159471 209 0 2 108 94 170 0.906 18.92 8.29 Intr + 163335 163729 395 2 2 100 96 506 0.998 46.62 8.30 Intr + 165276 165408 133 0 1 66 54 215 0.997 17.05 8.31 Intr + 167668 167828 161 0 2 85 55 266 0.854 22.30 8.32 Intr + 168393 168558 166 0 1 90 109 160 0.998 18.78 8.33 Intr + 172985 173071 87 1 0 125 82 111 0.997 14.86 8.34 Intr + 173248 173474 227 0 2 117 53 363 0.992 33.01 8.35 Intr + 175548 176160 613 0 1 105 55 819 0.993 73.30 8.36 Intr + 179135 179401 267 1 0 39 80 539 0.994 46.47 8.37 Intr + 180034 180234 201 0 0 100 39 371 0.999 33.40 8.38 Intr + 180579 180690 112 2 1 97 79 62 0.999 6.66 8.39 Intr + 182448 182594 147 1 0 77 58 275 0.926 24.12 8.40 Intr + 184310 184583 274 0 1 89 80 513 0.824 47.74 8.41 Intr + 186173 186287 115 2 1 102 100 242 0.695 27.75 8.42 Intr + 186367 186499 133 0 1 58 72 243 0.992 20.42 8.43 Intr + 186818 186912 95 0 2 102 70 180 0.755 17.78 8.44 Intr + 189066 189201 136 2 1 127 89 214 0.847 26.05 8.45 Intr + 189593 189779 187 0 1 45 73 460 0.999 39.47 8.46 Intr + 189866 189974 109 2 1 101 47 184 0.999 16.39 8.47 Intr + 190564 190684 121 0 1 113 56 132 0.898 13.07 8.48 Intr + 190779 190948 170 1 2 84 101 369 0.999 37.98 8.49 Intr + 192465 192685 221 2 2 91 49 469 0.996 40.93 8.50 Intr + 192838 192928 91 1 1 83 100 197 0.999 20.90 8.51 Intr + 194178 194318 141 2 0 101 47 249 0.999 23.16 8.52 Intr + 194706 194869 164 2 2 71 61 293 0.999 24.19 8.53 Intr + 194961 195039 79 0 1 72 58 177 0.993 13.15 8.54 Intr + 195267 195356 90 2 0 135 55 134 0.892 15.49 8.55 Intr + 195764 195904 141 1 0 110 72 159 0.999 17.56 8.56 Intr + 196261 196335 75 0 0 121 94 110 0.993 15.11 8.57 Intr + 196429 196504 76 0 1 60 100 98 0.935 7.78 8.58 Intr + 196787 196918 132 0 0 115 -13 229 0.576 16.62 8.59 Intr + 197672 197785 114 0 0 -11 55 220 0.561 9.72 8.60 Intr + 200456 200523 68 0 2 98 100 72 0.999 8.52 8.61 Intr + 200618 200739 122 1 2 105 80 105 0.997 11.20 8.62 Intr + 201519 201568 50 0 2 129 111 8 0.999 6.01 8.63 Intr + 202030 202090 61 2 1 98 91 93 0.995 8.88 8.64 Intr + 202203 202441 239 0 2 118 66 449 0.158 43.49 8.65 Intr + 204984 205065 82 1 1 86 78 96 0.783 7.59 8.66 Intr + 206045 206175 131 2 2 42 74 261 0.941 20.94 8.67 Intr + 207317 207649 333 0 0 83 68 481 0.912 41.70 8.68 Intr + 209172 209412 241 1 1 31 76 545 0.885 44.74 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 26101 26400 300 0 0 43 50 386 0.940 26.41 S.002 Init + 27208 27462 255 0 0 69 78 352 0.928 27.52 S.003 Term + 202203 202455 253 0 1 118 46 501 0.842 44.34 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_1|323_aa MRRGALLAGALAAYAAYLVLGALLVARLEGPHEARLRAELETLRAQLLQRSPCVAAPALD AFVERVLAAGRLGRVVLANASGSANASDPAWDFASALFFASTLITTVGYGYTTPLTDAGK AFSIAFALLGVPTTMLLLTASAQRLSLLLTHVPLSWLSMRWGWDPRRAACWHLVALLGVV VTVCFLVPAVIFAHLEEAWSFLDAFYFCFISLSTIGLGDYVPGEAPGQPYRALYKVLVTV YLFLGLVAMVLVLQTFRHVSDLHGLTELILLPPPCPASFNADEDDRVDILGPQPESHQQL SASSHTDYASIPRHQIGRYTLDK >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_1|972_bp atgcggaggggcgcgcttctggcgggcgccttggccgcgtacgccgcgtacctggtgctg ggcgcgctgttggtggcgcggctggaggggccgcacgaagccaggctccgagccgagctg gagacgctgcgggcgcagctgcttcagcgcagcccgtgtgtggctgcccccgccctggac gccttcgtggagcgagtgctggcggccggacggctggggcgggtcgtgcttgctaacgct tcggggtccgccaacgcctcggaccccgcctgggacttcgcctctgctctcttcttcgcc agcacgctgatcaccaccgtgggctatgggtacacaacgccactgactgatgcgggcaag gccttctccatcgcctttgcgctcctgggcgtgccgaccaccatgctgctgctgaccgcc tcagcccagcgcctgtcactgctgctgactcacgtgcccctgtcttggctgagcatgcgt tggggctgggacccccggcgggcggcctgctggcacttggtggccctgttgggggtcgta gtgaccgtctgctttctggtgccggctgtgatctttgcccacctcgaggaggcctggagc ttcttggatgccttctacttctgctttatctctctgtccaccatcggcctgggcgactac gtgcccggggaggcccctggccagccctaccgggccctctacaaggtgctggtcacagtc tacctcttcctgggcctggtggccatggtgctggtgctgcagaccttccgccacgtgtcc gacctccacggcctcacggagctcatcctgctgccccctccgtgccctgccagtttcaat gcggatgaggacgatcgggtggacatcctgggcccccagccggagtcgcaccagcaactc tctgccagctcccacaccgactacgcttccatccccaggcaccagattggtcgctacacc ctggacaagtga >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_2|1220_aa MGRKSKKWGKKVSRYEGKVRLKKVPAKKLVPAWKEKVWGEETTKGEERSRGEETVFIEKG QGEEEGRYQRAGRGDGPAREEPIAENPGKERVHKDQVEEVRVVQVLWALLAVLLASWRLW AIKDFQECTWQVVLNEFKRVGESGVSDSFFEQEPVDTVSSLFHMLVDSPIDPSEKYLGFP YYLKINYSCEEKPSEDLVRMGHLTGLKPLVLVTFQSPVNFYRWKIEQLQIQMEAAPFRSK EPCMAEEVCSMSWYTPMPIKKGSVVMRVDISSNGLGTFIPDKRFQMNINGFLKRDRDNNI QFTVGEELFNLMPQYFVGVSSRPLWHTVDQSPVLILGGIPNEKYVLMTDTSFKDFSLVEV NGVGQMLSIDSCWVGSFYCPHSGFTATIYDTIATESTLFIRQNQLVYYFTGTYTTLYERN RGSGSWIRVLASECIKKLCPVYFHSNGSEYIMALTTGKHEGYVHFGTIRVTTCSIIWSEY IAGEYTLLLLVESGYGNASKRFQVVSYNTASDDLELLYHIPEFIPEARGLEFLMILGTES YTSTAMAPKGIFCNPYNNLIFIWGNFLLQSSNKENFIYLADFPKELSIKYMARSFRGAVA IVTETEEIWYLLEGSYRVYQLFPSKGWQVHISLKLMQQSSLYASNETMLTLFYEDSKLYQ LVYLMNNQKGQLVKRLVPVEQLLMYQQHTSHYDLERKGGYLMLSFIDFCPFSVMRLRSLP SPQRYTRQERYRARPPRVLERSGFHNENSLAIYQGLVYYLLWLHSVYDKPYADPVHDPTW RWWANNKQDQDYYFFLASNWRSAGGVSIEMDSYEKIYNLESAYELPERIFLDKGTEYSFA IFLSAQGHSFRTQSELGTAFQLHSQVDVGVVLADPGCIEASVKQEVLINRNSVLFSITLK DKKLCYDQGISGHHLMETSMTVNGPEETLATPGNLMVPVFIGCPPGKRLAFDITYTLEYS RLKNKHYFDCVNVNPEMPCFLFRDIFYPFFLIQDLVTGDSGSFQGSYVLLVVGGGPTLDS LKDYSEDEIYRFNSPLDKTNSLIWTTRTTRTTKDSAFHIMSHESPGIEWLCLENAPCYDN VPQGIFAPEFFFKVLVSNRGVDTSTYCNYQLTFLLHIHGLPLSPKRALFIIMVSASVFVG LVIFYIAFCLLWPLVVKGCTMIRWKINNLIASESYYTYASISGISSMPSLRHSRMGSMFS SRMTEDRAEPKEAVERQLMT >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_2|3663_bp atgggaaggaagagtaagaagtggggcaagaaggtgtcgcggtacgaggggaaggtgaga ctcaagaaggtgccggctaagaagctggtgccggcgtggaaggagaaggtgtggggcgag gaaacaacgaagggcgaggaaagatcccgaggcgaagagacagttttcatcgagaagggg cagggcgaggaggaggggcgttaccagagggcgggacggggcgacgggcccgcgcgggaa gaaccaatcgccgagaacccggggaaggaacgggtccataaagaccaagtggaggaagtc cgagtcgtgcaggtgctgtgggccctgctggcagtgctcctggcgtcgtggaggctgtgg gcgatcaaggatttccaggaatgcacctggcaggttgtcctgaacgagtttaagagggta ggcgagagtggtgtgagcgacagcttctttgagcaagagcccgtggacacagtgagcagc ttgtttcacatgctggtggactcacccatcgacccgagcgagaaatacctgggcttccct tactacctgaagatcaactactcctgcgaggaaaagccctctgaggacctggtgcgcatg ggccacctgacggggctaaagcccctggtgctggtcaccttccagtccccagtcaacttc taccgctggaagatagagcagctgcagatccagatggaggctgcccccttccgcagcaaa gagccatgcatggcagaagaagtgtgtagcatgagctggtacacgcccatgcccatcaag aaaggcagtgtggtcatgcgtgtggacatcagcagcaatggcctggggaccttcattcca gataaaaggttccagatgaatatcaacggcttcctgaagagagaccgggacaataacatc caattcactgtgggagaggagctcttcaacctgatgccccagtactttgtgggtgtctca tcgaggcccttgtggcacactgtggaccagtcacctgtgcttatcctgggaggcattccc aatgagaagtacgtcctgatgactgacaccagcttcaaggacttctctctcgtggaggtg aacggtgtggggcagatgctgagcattgacagttgctgggtgggctccttctactgcccc cattctggcttcacagccaccatctatgacactattgccaccgagagcaccctcttcatt cggcagaaccagctggtctactattttacaggcacctataccacactctatgagagaaac cgcggcagtggcagttggattcgtgtcctggccagcgagtgcatcaagaagctgtgccct gtgtatttccatagcaatggctctgagtacataatggccctcaccacgggcaagcatgag ggttatgtacacttcgggaccatcagagttaccacctgctccataatttggtctgaatac atcgcgggtgagtatactctactgctgctggtggagagtggatatggtaatgcaagtaaa cgtttccaggtggtcagctacaacacagctagtgatgacctggaacttctctaccacatc ccagaattcatccctgaagctcgaggattggagttcctgatgatcctagggacagagtcc tacaccagcactgcaatggcccccaagggcatcttctgtaacccgtacaacaatctgatc ttcatctggggcaacttcctcctgcagagctctaacaaggaaaacttcatctacctggca gacttccccaaggaactgtccatcaaatacatggccagatcgttccgtggggctgtggct attgtcacagagacggaggagatctggtacctcctggagggcagctaccgggtctaccag ctgttcccttccaagggctggcaggtgcacatcagcttaaagctgatgcaacagtcctct ctctacgcatccaatgagaccatgctgaccctcttctacgaagacagcaaactgtaccag ctggtgtaccttatgaacaaccagaagggccagctggtcaagaggctcgtgcccgtggag cagcttctgatgtatcaacagcacaccagccactatgacttggagcggaaagggggctac ttgatgctctccttcatcgacttctgccccttctcggtgatgcgcctgcggagcctgccc agtccgcagagatacacgcgccaggagcgctaccgggcgcggccgccgcgcgtcctggag cgctcgggcttccacaacgagaactcgctcgccatctaccagggcctggtctactacctg ctgtggctgcactccgtgtacgacaagccgtacgcggacccggtgcacgaccccacctgg cgctggtgggcgaacaacaaacaagaccaggattactacttcttcttggcgagcaattgg cgaagcgcgggcggcgtgtccatagaaatggacagctacgaaaagatctacaacctcgag tccgcgtacgagctgccggagcgcattttcctggacaagggcactgagtacagcttcgcc atcttcctgtcggcgcagggccactcgttccggacgcagtcagaactcggcaccgccttc cagctgcatagccaggtggacgtgggcgtggtgctggccgaccccggctgcatcgaggcc tcggtgaagcaggaggtcctgattaatcgcaactcggtgctattttcgattacgctcaag gataaaaagctttgctatgaccaaggcattagtggacatcaccttatggagacttccatg acggtcaatgggcctgaggagaccctggccacccctggcaacctgatggtgccagtgttc attggctgccccccaggcaagcgcctggccttcgacatcacctacacgctggaatacagc cgcctgaagaacaaacactactttgactgcgttaacgtgaacccggagatgccctgcttt ctcttccgggacattttctaccccttcttcttgattcaagatttggtgacaggagactcc ggcagtttccagggcagctatgttctgctggtggtgggtggcgggcccacactggacagc ctcaaggactacagtgaggacgaaatctaccgcttcaacagccccctggacaagaccaac agccttatctggaccacgaggaccacaaggaccaccaaagactcagcctttcacatcatg tcccacgagagcccaggcatcgagtggctctgtctggagaatgccccatgctatgacaat gttccccaaggcatctttgcccctgaattcttcttcaaggtgttggtgagcaatagagga gtggacacgagcacctactgcaactaccagctcaccttcctgctgcacatccacgggctg ccactcagtcccaagcgggcccttttcatcatcatggtgtcagctagcgtgtttgtgggc ctggtgatcttctacatcgccttctgcctcctgtggcccctcgtggtgaagggctgcacg atgatccggtggaagataaacaacctcattgcctcagaatcctactacacctacgcctcc atttccggaatctcgagcatgccgtctctgagacattccaggatgggctccatgttcagc tccaggatgacagaggacagggctgaacccaaggaagccgtggagagacagttgatgacc tga >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_3|353_aa MAAAAVNGAAGFSSSGPAATSGAVLQAATGMYEQLKGEWNRKSPNLSKCGEELGRLKLVL LELNFLPTTGTKLTKQQLILARDILEIGAQWSILRKDIPSFERYMAQLKCYYFDYKEQLP ESAYMHQLLGLNLLFLLSQNRVAEFHTELERLPAKDIQTNVYIKHPVSLEQPGQQAQKRK EKGKGLNPVDSRAEEPASPNVLRQYCVCCVRRTAKKTVFLEQSEQGQGKALGPKYLMEGS YNKVFLAKGNIPAESYTFFIDILLDTIRDEIAGCIEKAYEKILFTEATRILFFNTPKKMT DYAKKVAGRGWVLGPNNYYSFASQQQKPEDTTIPSTELAKQVIEYARQLEMIV >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_3|1062_bp atggcggccgcggcggtgaacggggcggcaggcttctcgagctccgggcccgcggcaacc tcgggcgctgttctgcaggccgcgaccggcatgtacgagcaactcaagggcgagtggaac cgtaaaagccccaatcttagcaagtgcggggaagagctgggtcgactcaagctagttctt ctggagctcaacttcttgccaaccacagggaccaagctgaccaaacagcagctaattctg gcccgtgacatactggagatcggggcccaatggagcatcctacgcaaggacatcccctcc ttcgagcgctacatggcccagctcaaatgctactactttgattacaaggagcagctcccc gagtcagcctatatgcaccagctcttgggcctcaacctcctcttcctgctgtcccagaac cgggtggctgagttccacacggagttggagcggctgcctgccaaggacatacagaccaat gtctacatcaagcacccagtgtccctggagcaacctgggcaacaggctcaaaaaagaaaa gaaaagggtaagggactgaaccctgtggacagccgggcagaggaaccagccagtccaaat gtcctgaggcagtactgtgtctgctgtgttcgaaggacagccaagaagacagtgtttttg gaacaaagtgagcagggccagggcaaagccttaggacctaagtacctgatggagggcagc tacaacaaagtgttcctggccaagggtaacatccccgccgagagctacaccttcttcatt gacatcctgctcgacactatcagggatgagatcgctgggtgcatcgagaaggcctacgag aaaatccttttcactgaggccacccggatcctcttcttcaacacacccaaaaagatgaca gactacgccaagaaggtggctgggcgagggtgggtcctgggccccaacaactactacagt tttgccagccagcagcagaagccggaagacaccaccattccctccacagaactggccaaa caggtcatcgagtatgcccggcagctggagatgatcgtctga >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_4|652_aa MGNLQSEPSAGGGSRKVQPSDRAPDSRRTSLVEPEMTSQAMRLTRGLGVWFPGSATPPGL MVPREPQASPSTLPLTLERPSPVMPPPEEAAAVSAPPPAPAGTLLPGPSKWQKPAGTPVP RIRRLLEASHRGQGDPPSLRPLKPPPPPRQLSVKDTVPRAPSQFPPPLETWKPPPPLPSE RQPADRRITPALATPASPPTESQAGPRNQGQTAGRARGGAPPHAGEGEMAQPADSESGLS LLCKITFKSRPSLAPPAASSSLAAKASLGGGGGGGLFAASGAISYAEVLKQGPLPPGAAR PLGEVSRGAQEAEGGDGDGEGCSGPPSAPASQARALPPPPYTTFPGSKPKFDWVSAPDGP ERHFRFNGAGGGIGAPRRRAAALSGPWGSPPPPPEQIHSAPGPRRPAPALLAPPTFIFPA PTNGEPMRPGPPGLQELPPLPPPTPPPTLQPPALQPTPLPVAPPLTPGLGHKESALAPTA APALPPALAADQAPAPSPAPAPTVAEPSPPVSAPAPAAAPIKTRTRRNKGSRAARGATRK DGLHGDGPRERATATVPDSSGGGGGGSGASQTGAANTRAARHWLPFQVLNSCPCKCYCHH QPRHRRLPRNVSAWLSTSTNHLGEPPWVATIKLSGSLVAKLEHYDLQATHSN >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_4|1959_bp atggggaacttgcagtcggagccatccgcgggcgggggctcccgaaaagtgcagccctcg gaccgcgcccccgactcccgccggacgtccctggtggagcccgagatgacctcccaggcc atgcgcctgactcgtgggctgggtgtctggttccctggcagcgccacacccccgggactc atggtaccccgggagccccaggcctcaccctcgaccctgcccctcaccttagaacggccc tctccagtgatgccccctcctgaagaggcggccgcggtctctgcaccacccccggccccc gcggggactctgctgcccggcccgtctaaatggcaaaagcccgcgggcactccagttccc cggatccgccgcctgctggaggcgagccatcgcggccagggcgaccctccgagcctccgc ccgctgaagccgccgccgccgccccggcaactatccgtgaaggacactgtcccgagggcc ccatcccaatttccgccgcccctggagacttggaagccgccaccaccattaccttctgaa cggcagccggcggaccgcagaatcactcctgctctggccacacccgcctcacccccgaca gaaagccaggctgggccccgcaaccagggccagacggccggcagggctcgcggaggggcg cctccccatgcgggcgaaggcgaaatggcccagcctgcggattccgagtccggtctgagc ctgctgtgtaaaatcaccttcaagtcgaggccctctttggcccctccggcagcctcgagt tccttagcagccaaagcttcgctggggggcggcggaggcggcggcctctttgctgcctca ggtgccatctcttacgccgaggtcctgaagcaagggcccctgcctcctggagccgctcgc cccttgggagaggtttctcgaggggcacaggaagccgagggaggtgatggagacggcgaa gggtgctctggtcctccctcggcgcctgcgtcccaagcccgggccctaccgccgccaccc tacaccaccttcccaggctcgaagcccaaattcgactgggttagcgctcccgacggccct gaacgccacttccgcttcaacggggctggcggaggcatcggggcgccgcgacggcgtgcg gccgcactctctgggccttggggctcccctccgccaccaccagagcagatacactcagct cccgggccccggaggcccgcacctgccctgctggcgccgcctacgttcatcttcccagca cccaccaatggcgagcccatgcgcccggggcctccaggcctgcaggagttaccaccgctg ccaccgcccacaccgccgcccacactgcagccaccagcgctccagccaacgccgctgccg gtggctcccccgctcaccccgggtctgggccacaaggagtcagccctggctcccaccgca gcccctgctctgcccccagccttagccgccgaccaggccccggccccatccccggctcca gctcccaccgtggctgagccctcgccgcctgtgtccgcgcccgcacccgcggctgcgccc atcaagacccgcacgcgcaggaacaagggttcccgtgcagcccggggcgcgacccgtaag gatggcttgcatggagatggtcctcgcgaacgagctacagctaccgtgcctgacagcagt ggtggagggggtggtggcagcggggcctctcagactggggcagctaacacccgcgctgcg cgccactggctgcccttccaggtgcttaactcctgtccctgcaagtgttactgccaccac cagccacgccatcgccgcctgccacgcaacgtctctgcctggctgagcacatccaccaac cacctgggcgagccaccctgggttgccaccatcaagctgtccggctctctggtggccaag ctggagcactacgacttgcaggccacccattccaactga >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_5|429_aa MGERYMVRVRAVVMARDDSSGGWLPVGGGGLSQVSVCRVRGARPEGGARQGHYVIHGERL RDQKTTLECTLKPGLVYNKVNPIFHHWSLGDCKFGLTFQSPAEADEFQKSLLAALAALGR GYCRDPLPSDEPSLSMGGGLCEGIGCAGACPRAEAANLLQSHVDSDSSSSHSRQETPPSA AAAPIITMESASGFGPTTPPQRRRSSAQSYPPLLPFTGIPEPSEPLAGAGGLGWGGRGYE DYRRSGPPAPLALSTCVVRFAKTGALRGAALGPPAALPAPLTEAAPPAPPARPPPGPGPS SAPAKASPEAEEAARCVHCRALFRRRADGRGGRCAEAPDPGRLLVRRLSCLWCAESLLYH CLSDAEGDFSDPCACEPGHPRPAARWAALAALSLAVPCLCCYAPLRACHWVAARCGCAGC GGRHEEAAR >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_5|1290_bp atgggggaaaggtacatggtgcgggtccgagctgtggtgatggcccgagatgactccagt gggggctggctgcctgtggggggcgggggcctcagccaggtgagcgtgtgtcgggtccga ggggccaggcccgaggggggggcccgccaggggcactacgtcatccacggggaacgcctc cgggaccagaaaacaaccttggagtgtacactgaagccaggcttggtttacaacaaggtg aatcccatctttcaccactggagcctgggtgactgcaagtttggactgacgtttcagagc cctgcagaggctgatgagttccagaagagcctgctggctgcgctggccgcactgggtcga ggatactgcagagaccccctgccctctgacgagccctcgctctcaatgggagggggtcta tgtgagggcatcggctgtgcgggggcgtgtccccgcgctgaggccgccaatctcctccag tcccacgtggacagcgactcctcctccagtcacagccgccaggagactcctcccagcgcc gctgcggcccccatcatcacgatggagtcagcttcaggcttcgggccgaccacgcccccc cagcgccgccgctcctccgctcagagctaccctccgcttctaccgttcacggggattccg gaaccctcagagcccctggcaggggcagggggcctggggtggggcggccgcggctacgag gattaccggcgctccgggccacccgcgcccctcgccctgtccacctgcgtcgtgcgcttc gccaagaccggcgcgttgaggggcgctgccctgggtcccccagcggcactacctgcccct ttgaccgaggctgcgcccccagcgccccccgctcgcccaccccccggcccgggcccatcc tctgcgcctgccaaggcctccccggaagcggaggaggcagcgcgctgcgtgcattgccgc gcgctcttccgtcgcagagcagacgggcgtggcggccgctgcgcagaggccccggacccg ggtcgcctcctggtgcgccgtctaagctgcctgtggtgcgccgagagcttgctctaccac tgcctgtcggacgccgagggcgacttctcggacccgtgcgcctgcgagccgggccacccg cgccccgccgcgcgctgggccgcgctggccgcgctctccctggcagtgccctgcctctgc tgctacgcgcccctgcgcgcgtgccactgggtcgcagcgcgatgcggctgcgccggctgc gggggtcgccacgaggaggctgcgcggtga >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_6|395_aa MGAPKPLRGKMPIGQCRRTLRGARARGAFGAEPATGRQGARRDHTFMEAVKAEAWEGAAV AQDLLALGYGGVPGAASRGASCPDFRGLCVRLAAELATLGALEQQREAGAEVLSAGDGPG AEEDFLRQLGSLLRELHCPDRALCGGDGAAALREPGAGLRLLRFLCSELQATRLLCLRSL LDPSPRPPLGEGVVEGAGMVQELDLTLQALGLPRPAPGTPASQLLQELHAKISELQPSLP PGSLQPLLSCSLDAPRWEALESLSQSLRDQYRCRRCLLLKRLDLTTSAFHWSDRAEAQGE AMRAVLIPIREVLTPESDISIAHVLAARADLSCLVPATSVAVRRGTCCAINKVLMGNVPD RGGRPNELEPPMPTWRSRREDGGPQCWGRKKKKKK >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_6|1188_bp atgggagcacccaagcccctgcgcgggaagatgccgattggtcagtgccgccggacgctg cggggagctcgtgcgcgcggcgcttttggggcggagcctgccaccggccgccagggggcg cgccgagaccacactttcatggaggcggtgaaggcggaagcgtgggagggggccgcggtg gcccaggacctgctggctctggggtatggaggtgtcccgggggcggcgtcgcggggcgcc tcatgcccagacttcagggggctgtgcgtgcggctggcggcggagctggcgacgctgggc gccctcgagcagcagcgagaggcgggcgcggaggtgctgagcgccggcgacggccctggc gcggaggaggactttctgcggcagctcggcagcctgctgcgggagctgcactgcccggat cgcgcgctctgcggcggggatggcgcggctgcgcttcgggaacccggtgccggactgcgc ctgctgcgctttctctgctcagagctccaagccacccgcctcctgtgcctccgctctctg ctggatccgagtcctaggccaccccttggtgaaggggtagtggagggagccggcatggtc caagaactggaccttaccctccaagccctggggctgcccagacctgcaccagggaccccc gccagccagctgctgcaggagttgcatgctaagatctcagagctgcagccttctctgccc ccagggtccctgcagcccctcctcagctgctcgctagatgcacccagatgggaagcgttg gagtctctgtcccaaagcctcagagatcagtaccgctgccgccgctgcctcctcctcaag cgccttgacctcactacatctgctttccactggagtgaccgggcagaggcccaaggagag gccatgagggcagtgctgatcccaattcgagaggttctgaccccagaatcggacatctcc attgcacacgttctggctgcccgagccgacctgtcttgtctcgtcccagccaccagcgtg gctgtccgcagagggacctgctgtgccatcaacaaggtgcttatgggcaacgttccagac cgggggggccgcccaaatgagctggagcctcccatgcccacctggaggagccgaagagag gatggaggcccccagtgttggggtcgcaagaagaagaagaagaagtaa >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_7|653_aa MNRKDSKRKSHQECTGKIGGRGRPRQVRRHKTCPSPREISKVMASMNLGLLSEGGCSEDE LLEKCIQSFDSAGSLCHEDHMLNMVLAMHSWVLPSADLAARLLTSYPPGLYWLMRHPEVM HQDPQLEEVIGRFWATVAREGNSAQRRLGDSSDLLSPGGPGPPLPMSSPGLGKKRKVSLL FDHLETGELAQHLTYLEFRSFQAITPQDLRSYVLQGSVRGCPALEGSVGLSNSVSRWVQV MVLSRPGPLQRAQVLDKFIHVAQRLHQLQNFNTLMAVTGGLCHSAISRLKDSHAHLSPDS TKALLELTELLASHNNYARYRRTWAGCAGFRLPVLGVHLKDLVSLHEAQPDRLPDGRLHL PKLNNLYLRLQELVALQGQHPPCSANEDLLHLLTLSLDLFYTEDEIYELSYAREPRCPKS LPPSPFNAPLVVEWAPGVTPKPDRVTLGRHVEQLVENYDPEGRGTISQEDFERLSGNFPF ACHGLHPPPRQGRGSFSREELTGYLLRASAICSKLGLAFLHTFHEVTFRKPTFCDSCSGF LWGVTKQGYRCRECGLCCHKHCRDQVKVECKKRPGAKGDAGPPGAPVPSTPAPHASCGSE ENHSYTLSLEPETGCQLRHAWTQTESPHPSWETDTVPCPVMDPPSTASSKLDS >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_7|1962_bp atgaacagaaaagacagtaagaggaagtcccaccaggaatgcaccggaaaaataggaggg cgaggccggccccgccaagtgcgccgccacaagacatgccccagccctcgggaaatcagc aaggtcatggcttccatgaacctgggcctgctgagtgagggcggctgcagcgaagatgag ctgctggagaaatgcatccagtccttcgattcagctggcagcctgtgccacgaggaccac atgctcaacatggtgctggccatgcacagctgggtgctgccgtccgccgacctggctgcc cgcctgctgacctcatatcctccaggactgtactggctgatgcgacaccctgaggtgatg caccaggatccccagctagaagaagtcataggtcgtttctgggccaccgtggcccgggag ggcaactcagcccagagaagactgggagactcttctgacctcctgagccctggtggccct ggccccccactcccaatgagcagcccaggcctgggcaaaaagcgcaaagtgtccttgctt ttcgaccacttggagacgggggagctggctcagcacctcacctacctggagttccggtcc ttccaggctatcacgccccaggacctgcggagctacgttttgcagggctcagtacgaggc tgcccggccctggagggctccgtaggtctcagcaacagcgtgtcccgctgggtgcaggtg atggtgctgagccgtcccgggcccctacagcgtgcacaggtgctggacaagttcattcac gtggcacagaggctccaccagctgcagaatttcaacacgctgatggcagtcacagggggc ctgtgtcacagtgccatctccagactcaaggactcccatgcccacctgagccctgacagc accaaggccctcctggagctcactgagctccttgcctcccacaacaactacgcccgctac cgccgcacctgggctggctgcgcgggtttccggctgcctgtactgggcgtgcacctcaag gacctggtgtccctgcatgaggcacagcccgacaggttgcctgacggccgcctgcaccta cccaagctgaacaacctctacctgcggctgcaggagctggtggccctccaagggcagcat ccaccctgcagcgccaatgaggatctgctgcacctgctcacgctctccctggacctcttc tacacggaagacgagatctatgagctttcttatgcccgggagccgcgttgtcccaagagc ctgccaccctcccccttcaatgcacctctggtggtggagtgggcccctggtgtgacaccc aagccggacagggtcacactgggtcggcatgtggagcagctggtggagaattatgaccct gaaggccgaggaacaatctctcaggaggactttgagcgactctcgggcaattttcccttc gcctgccatgggcttcacccacccccacgccaggggagaggatccttcagcagagaggag ctgacagggtacctgctccgggccagcgccatctgctccaagttgggcctggccttcctg cacaccttccatgaggtcaccttccgaaagcctaccttctgcgacagctgcagtggcttc ctctggggtgtcaccaagcaaggctaccgctgtcgggagtgcgggctgtgttgccacaaa cactgcagagaccaggtgaaggtagaatgtaagaagaggccaggggccaagggcgatgca ggaccccccggagctcctgtcccatccacaccagctccccatgccagctgtggctccgag gaaaatcactcctacacgctatccctggagcctgagactgggtgccagcttcgccatgcc tggacccagactgaatccccacacccttcctgggaaacagatacggtcccctgcccggtg atggacccaccatcaactgcatcctccaagctggattcctag >gi568815579r:38310043_38522155|GENSCAN_predicted_peptide_8|3429_aa MGDAEGEDEVQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPD LAICCFVLEQSLSVRALQEMLANTVEAGVEALNLDKWSSQGGGHRTLLYGHAILLRHAHS RMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDIILVSV SSERYLHLSTASGELQVDASFMQTLWNMNPICSRCEEGFVTGGHVLRLFHGHMDECLTIS PADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRVRHVTTGQYLALT EDQGLVVVDASKAHTKATSFCFRISKEKLDVAPKRDVEGMGPPEIKYGESLCFVQHVASG LWLTYAAPDPKALRLGVLKKKAMLHQEGHMDDALSLTRCQQEESQAARMIHSTNGLYNQF IKSLDSFSGKPRGSGPPAGTALPIEGVILSLQDLIIYFEPPSEDLQHEEKQSKLRSLRNR QSLFQEEGMLSMVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYELLASLIRGNR SNCALFSTNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHG RNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAE GTTQYSKWYFEVMVDEVTPFLTAQATHLRVGWALTEGYTPYPGAGEGWGGNGVGDDLYSY GFDGLHLWTGHVARPVTSPGQHLLAPEDVISCCLDLSVPSISFRINGCPVQGVFESFNLD GLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLHLEPIKEYRREGP RGPHLVGPSRCLSHTDFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYG PVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTK LPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVGQGWSYSAVQDIP ARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPPDQEPSQVENQSRCDRVRI FRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHL GSEPFGRPWQPGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSL GPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKGLPQFEPVPLEHPH YEVSRVDGTVDTPPCLRLTHRTWGSQNSLVEMLFLRLSLPVQFHQHFRCTAGATPLAPPG LQPPAEDEARAAEPDPDYENLRRSAGGWSEAENGKEGTAKEGAPGGTPQAGGEAQPARAE NEKDATTEKNKKRGFLFKAKKVAMMTQPPATPTLPRLPHDVVPADNRDDPEIILNTTTYY YSVRVFAGQEPSCVWAGWVTPDYHQHDMSFDLSKVRVVTVTMGDEQGNVHSSLKCSNCYM VWGGDFVSPGQQGRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFV LPTHQNVIQFELGKQKNIMPLSAAMFQSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLQ VETRRAGERLGWAVQCQEPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVC ALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEY IVPLTPETRAITLFPPGRSTENGHPRHGLPGVGVTTSLRPPHHFSPPCFVAALPAAGAAE APARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGI FGDEDVKQILKMIEPEVFTEEEEEEDEEEEGEEEDEEEKEEDEEETAQEKEDEEKEEEEA AEGEKEEGLEEGLLQMKLPESVKLQMCHLLEYFCDQELQHRVESLAAFAERYVDKLQANQ RSRYGLLIKAFSMTAAETARRTREFRSPPQEQINMLLQFKDGTDEEDCPLPEEIRQDLLD FHQDLLAHCGIQLDGEEEEPEEETTLGSRLMSLLEKVRLVKKKEEKPEEERSAEESKPRS LQELVSHMVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTM SLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVN VLGGGESKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPL DVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLVAKGYPDIGWNPCGGERYLD FLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARD GPGIRRDRRREHFGEEPPEENRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRI RAILRSLVPLEDLVGIISLPLQIPTLGKDGALVQPKMSASFVPDHKASMVLFLDRVYGIE NQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTE HRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMSLCRYIRPSMLQHLLRRLVFDVPIL NEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDP ELYRMAMPCLCAIAGALPPDYVDASYSSKAEKKATVDAEGNFDPRPVETLNVIIPEKLDS FINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESL KAMIAWEWTIEKAREGEEEKTEKKKTRKISQSAQTYDPREGYNPQPPDLSAVTLSRELQA MAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMN GYAVTRHAGLKDMELDSSSIEKRFAFGFLQQLLRWMDISQEFIAHLEAVVSSGRVEKSPH EQEIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVR HRVSLFGTDAPAVVNCLHILARSLDARTVMKSGPEIVKAGLRSFFESASEDIEKMVENLR LGKVSQARTQVKGVGQNLTYTTVALLPVLTTLFQHIAQHQFGDDVILDDVQVSCYRTLCS IYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILG LPNSVEEMCPDIPVLERLMADIGGLAESGARYTEMPHVIEITLPMLCSYLPRWWERGPEA PPSALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEASWMKRLAVFAQPIVSRARP ELLQSHFIPTIGRLRKRAGKVVSEEEQLRLEAKAEAQEGELLVRDEFSVLCRDLYALYPL LIRYVDNNS >gi568815579r:38310043_38522155|GENSCAN_predicted_CDS_8|10287_bp atgggtgacgcagaaggcgaagacgaggtccagttcctgcggacggacgatgaggtggtc ctgcagtgcagcgctaccgtgctcaaggagcagctcaagctctgcctggccgccgagggc ttcggcaaccgcctgtgcttcctggagcccactagcaacgcgcagaatgtgccccccgat ctggccatctgttgcttcgtcctggagcagtccctgtctgtgcgagccctgcaggagatg ctggctaacacggtggaggctggcgtggaggccctcaatttggataagtggtcatcccag ggcgggggacacaggacgctcctgtatggccatgccatcctgctccggcatgcacacagc cgcatgtatctgagctgcctcaccacctcccgctccatgactgacaagctggccttcgat gtgggactgcaggaggacgcaacaggagaggcttgctggtggaccatgcacccagcctcc aagcagaggtctgaaggagaaaaggtccgcgttggggatgacatcatccttgtcagtgtc tcctccgagcgctacctgcacctgtcgaccgccagtggggagctccaggttgacgcttcc ttcatgcagacactatggaacatgaaccccatctgctcccgctgcgaagagggcttcgtg acgggaggtcacgtcctccgcctctttcatggacatatggatgagtgtctgaccatttcc cctgctgacagtgatgaccagcgcagacttgtctactatgaggggggagctgtgtgcact catgcccgctccctctggaggctggagccactgagaatcagctggagtgggagccacctg cgctggggccagccactccgagtccggcatgtcactaccgggcagtacctagcgctcacc gaggaccagggcctggtggtggttgacgccagcaaggctcacaccaaggctacctccttc tgcttccgcatctccaaggagaagctggatgtggcccccaagcgggatgtggagggcatg ggcccccctgagatcaagtacggggagtcactgtgcttcgtgcagcatgtggcctcagga ctgtggctcacctatgctgctccagaccccaaggccctgcggctcggcgtgctcaagaag aaggccatgctgcaccaggagggccacatggacgacgcactgtcgctgacccgctgccag caggaggagtcccaggccgcccgcatgatccacagcaccaatggcctatacaaccagttc atcaagagcctggacagcttcagcgggaagccacggggctcggggccacccgctggcacg gcgctgcccatcgagggcgttatcctgagcctgcaggacctcatcatctacttcgagcct ccctccgaggacttgcagcacgaggagaagcagagcaagctgcgaagcctgcgcaaccgc cagagcctcttccaggaggaggggatgctctccatggtcctgaattgcatagaccgccta aatgtctacaccactgctgcccactttgctgagtttgcaggggaggaggcagccgagtcc tggaaagagattgtgaatcttctctatgaactcctagcttctctaatccgtggcaatcgt agcaactgtgccctcttctccacaaacttggactggctggtcagcaagctggatcggctg gaggcctcgtctggcatcctggaggtcctgtactgtgtcctcattgagagtccagaggtt ctgaacatcatccaggagaatcacatcaagtccatcatctccctcctggacaagcatggg aggaaccacaaggtcctggacgtgctatgctccctgtgtgtgtgtaatggtgtggctgta cgctccaaccaagatcttattactgagaacttgctgcctggccgtgagcttctgctgcag acaaacctcatcaactatgtcaccagcatccgccccaacatctttgtgggccgagcggaa ggcaccacgcagtacagcaaatggtactttgaggtgatggtggacgaggtgactccattt ctgacagctcaggccacccacttgcgggtgggctgggccctcaccgagggctacaccccc taccctggggccggcgagggctggggcggcaacggggtcggcgatgacctctattcctac ggctttgatggactgcatctctggacaggacacgtggcacgcccagtgacttccccaggg cagcacctcctggcccctgaagacgtgatcagctgctgcctggacctcagcgtgccgtcc atctccttccgcatcaacggctgccccgtgcagggtgtctttgagtccttcaacctggac gggctcttcttccctgttgtcagcttctcggctggtgtcaaggtgcggttcctccttggt ggccgccatggtgaattcaagttcctgcccccacctggctatgctccatgccatgaggct gtgctccctcgagagcgactccatcttgaacccatcaaggagtatcgacgggaggggccc cgggggcctcacctggtgggccccagtcgctgcctctcacacaccgacttcgtgccctgc cctgtggacactgtccagattgtcctgccgccccatctggagcgcattcgggagaagctg gcggagaacatccacgagctctgggcgctaacccgcatcgagcagggctggacctacggc ccggttcgggatgacaacaagaggctgcacccgtgtcttgtggacttccacagccttcca gagcctgagaggaactacaacctgcagatgtctggggagacgctcaagactctgctggct ctgggctgccacgtgggcatggcggatgagaaggcggaggacaacctgaagaagacaaaa ctccccaagacgtatatgatgagcaatgggtacaagccggctccgctggacctgagccac gtgcggctgacgccggcgcagacgacactggtggaccgtctggcagaaaatgggcacaac gtgtgggcccgagaccgcgtgggccagggctggagctacagcgcagtgcaggacatccca gcgcgccgaaaccctcggctggtgccctaccgcctgctggatgaagccaccaagcgcagc aaccgggacagcctctgccaggccgtgcgcaccctcctgggctacggctacaacatcgag cctcctgaccaggagcccagtcaggtggagaaccagtctcgttgtgaccgggtgcgcatc ttccgggcagagaaatcctatacagtgcagagcggccgctggtacttcgagtttgaagca gtcaccacaggcgagatgcgcgtgggctgggcgaggcccgagctgaggcctgatgtagag ctgggagctgacgagctggcctatgtcttcaatgggcaccgcggccagcgctggcacttg ggcagtgaaccatttgggcgcccctggcagccgggcgatgtcgttggctgtatgatcgac ctcacagagaacaccattatcttcaccctcaatggcgaggtcctcatgtctgactcaggc tccgaaacagccttccgggagattgagattggggacggcttcctgcccgtctgcagcttg ggacctggccaggtgggtcatctgaacctgggccaggacgtgagctctctgaggttcttt gccatctgtggcctccaggaaggcttcgagccatttgccatcaacatgcagcgcccagtc accacctggttcagcaaaggcctgccccagtttgagccagtgccccttgaacaccctcac tatgaggtatcccgagtggacggcactgtggacacgcccccctgcctgcgcctgacccac cgcacctggggctcccagaacagcctggtggagatgcttttcctgcggctgagcctccca gtccagttccaccagcacttccgctgcactgcaggggccaccccgctggcacctcctggc ctgcagccccccgccgaggacgaggcccgggcggcggaacccgaccctgactacgaaaac ctgcgccgctcagctgggggctggagcgaggcagagaacggcaaagaagggactgcgaag gagggcgcccccgggggcaccccgcaggcggggggagaggcgcagcccgccagggcggag aatgagaaggatgccaccaccgagaagaacaagaagagaggcttcttattcaaggccaag aaggtcgccatgatgacccagccaccggccacccccacgctgccccgactccctcacgac gtggtgcctgcagacaaccgcgatgaccccgagatcatcctcaacaccaccacgtactat tactccgtgagggtctttgctggacaggagcccagctgcgtgtgggcgggctgggtcacc cctgactaccatcagcacgacatgagcttcgacctcagcaaggtccgggtcgtgacggtg accatgggggatgaacaaggcaacgtccacagcagcctcaagtgtagcaactgctacatg gtgtggggcggagactttgtgagtcccgggcagcagggccggatcagccacacggacctt gtcattgggtgcctggtggacttggccactggcttaatgacctttacagccaatggcaaa gagagcaacacctttttccaggtggaacccaacactaagctatttcctgccgtcttcgtc ctgcccacccaccagaacgtcatccagtttgagctggggaagcagaagaacatcatgccg ttgtcagccgccatgttccaaagcgagcgcaagaacccggccccgcagtgcccaccgcgg ctggagatgcagatgctgatgccagtgtcctggagccgcatgcccaaccacttcctgcag gtggagacgaggcgtgccggcgagcggctgggctgggccgtgcagtgccaggagccgctg accatgatggcgctgcacatccccgaggagaaccggtgcatggacatcctggagctgtcg gagcgcctggacctgcagcgcttccactcgcacaccctgcgcctctaccgcgctgtgtgc gccctgggcaacaatcgcgtggcgcacgctctgtgcagccacgtagaccaagctcagctg ctgcacgccctggaggacgcgcacctgccaggcccactgcgcgcaggctactatgacctc ctcatcagcatccacctcgaaagtgcctgccgcagccgccgctccatgctctctgaatac atcgtgcccctcacgcctgagacccgcgccatcacgctcttccctcctggaaggagcaca gaaaatggtcacccccggcatggcctgccgggagttggagtcaccacttcgctgaggccc ccgcatcatttctcgcccccctgtttcgtggccgctctgccagctgctggggcagcagag gccccggcccgcctcagccctgccatcccgctggaggccctgcgggacaaggcactgagg atgctgggggaggcggtgcgcgacggtgggcagcacgctcgcgaccccgtcgggggctcc gtggagttccagtttgtgcctgtgctcaagctcgtgtccaccctgctggtgatgggcatc tttggcgatgaggatgtgaaacagatcttgaagatgattgagcctgaggtcttcactgag gaagaagaggaggaggacgaggaggaagagggtgaagaggaagatgaggaggagaaggag gaggatgaggaggaaacagcacaggaaaaggaagatgaggaaaaagaggaagaggaggca gcagaaggggagaaagaagaaggcttggaggaagggctgctccagatgaagttgccagag tctgtgaagttacagatgtgccacctgctggagtatttctgtgaccaagagctgcagcac cgtgtggagtccctggcagcctttgcggagcgctatgtggacaagctccaggccaaccag cggagccgctatggcctcctcataaaagccttcagcatgaccgcagcagagactgcaaga cgtacccgcgagttccgctccccaccccaggaacagatcaatatgctattgcaattcaaa gatggtacagatgaggaagactgtcctctccctgaagagattcgacaggatttgcttgac tttcatcaagacctgctggcacactgtggaattcagctagatggagaggaggaggaacca gaggaagagaccaccctgggcagccgcctcatgagcctgttggagaaagtgcggctggtg aagaagaaggaagagaaacctgaggaggagcggtcagcagaggagagcaaaccccggtcc ctgcaggagctggtgtcccacatggtggtgcgctgggcccaagaggacttcgtgcagagc cccgagctggtgcgggccatgttcagcctcctgcaccggcagtacgacgggctgggtgag ctgctgcgtgccctgccgcgggcgtacaccatctcaccgtcctccgtggaagacaccatg agcctgctcgagtgcctcggccagatccgctcgctgctcatcgtgcagatgggcccccag gaggagaacctcatgatccagagcatcgggaacatcatgaacaacaaagtcttctaccaa cacccgaacctgatgagggcgctgggcatgcacgagacggtcatggaggtcatggtcaac gtcctcgggggcggcgagtccaaggagatccgcttccccaagatggtgacaagctgctgc cgcttcctctgctatttctgccgaatcagccggcagaaccagcgctccatgtttgaccac ctgagctacctgctggagaacagtggcatcggcctgggcatgcagggctccacgcccctg gacgtggctgctgcctccgtcattgacaacaatgagctggccttggcattgcaggagcag gacctggaaaaggttgtgtcctacctggcaggctgtggcctccagagctgccccatgctt gtggccaaagggtacccagacattggctggaacccctgtggtggagagcgctacctggac ttcctgcgctttgctgtcttcgtcaacggcgagagcgtggaggagaacgccaatgtggtg gtgcggctgctcatccggaagcctgagtgcttcggacccgccctgcggggtgagggtggc tcagggctgctggctgccatcgaagaggccatccgcatctccgaggaccctgcgagggat ggcccaggcatccgcagggaccggcggcgcgagcactttggtgaggaaccgcctgaagaa aaccgggtgcacctgggacacgccatcatgtccttctatgccgccttgatcgacctgctc ggacgctgtgcaccagagatgcatctaatccaagccggcaagggtgaggccctgcggatc cgcgccatcctccgctcccttgtgcccttggaggaccttgtgggcatcatcagcctccca ctgcagattcccaccctgggcaaagatggggctctggtgcagccaaagatgtcagcatcc ttcgtgccggaccacaaggcgtccatggtgctcttcctggaccgtgtgtatggcatcgag aaccaggacttcttgctgcacgtgctggacgtggggttcctgcccgacatgagggcagcc gcctcgctggacacggccactttcagcaccaccgagatggcgctggcgctgaaccgctac ctgtgcctggccgtgctgccgctcatcaccaagtgtgcgccgctctttgcgggcacagaa caccgcgccatcatggtggactctatgctgcataccgtgtaccgcctgtctcggggtcgt tcgctcaccaaggcgcagcgtgacgtcatcgaggactgcctcatgtcgctctgcaggtac atccgcccgtcgatgctgcagcacctgttgcgccgcctggtgttcgacgtgcccatcctc aacgagttcgccaagatgccactcaagctcctcaccaaccactatgagcgctgttggaag tactactgcctacccacgggctgggccaacttcggggtcacctcagaggaggagctgcac ctcacacggaaactcttctggggcatctttgactctctggcccataagaaatacgacccg gagctgtaccgcatggccatgccttgtctgtgcgccattgccggggctctgccccccgac tatgtggatgcctcatactcatctaaggcagagaaaaaggccacagtggatgctgaaggc aactttgatccccggcctgtggagaccctcaatgtgatcatcccggagaagctggactcc ttcattaacaagtttgcggagtacacacacgagaagtgggccttcgacaagatccagaac aactggtcctatggagagaacatagacgaggagctgaagacccaccccatgctgaggccc tacaagaccttttcagagaaggacaaagagatttaccgctggcccatcaaggagtccctg aaggccatgattgcctgggaatggacgatagagaaggccagggagggtgaggaggagaag acggaaaagaaaaaaacgcggaagatatcacaaagtgcccagacctatgatcctcgagaa ggctacaaccctcagccccccgaccttagtgctgttaccctgtcccgggagctgcaggcc atggcagaacaactggcagaaaattaccacaacacgtggggacggaagaagaagcaggag ctggaagccaaaggcggtgggacccaccccctgctggtcccctacgacacgctcacggcc aaggagaaggcacgagatcgagagaaggcccaggagctactgaaattcctgcagatgaat ggctacgcggttacaaggcacgcgggccttaaggacatggaactggactcgtcttccatt gaaaagcggtttgcctttggcttcctgcagcagctgctgcgctggatggacatttctcag gagttcattgcccacctggaggctgtggtcagcagtgggcgagtggaaaagtccccacat gaacaggagattaaattctttgccaagatcctgctccctttgatcaaccagtacttcacc aaccactgcctctatttcttgtccactccggctaaagtgctgggcagcggtggccacgcc tctaacaaggagaaggaaatgatcaccagcctcttctgcaaacttgctgctctcgtccgc caccgagtctctctctttgggacagacgccccagctgtggtcaactgtcttcacatcctg gcccgctccctggatgccaggacagtgatgaagtcaggccctgagatcgtgaaggctggc ctccgctccttcttcgagagtgcctcggaggacatcgagaagatggtggagaacctgcgg ctgggcaaggtgtcgcaggcgcgcacccaggtgaaaggcgtgggccagaacctcacctac accactgtggcactgctgccggtcctcaccaccctcttccagcacatcgcccagcaccag ttcggagatgacgtcatcctggacgacgtccaggtctcttgctaccgaacgctgtgcagt atctactccctgggaaccaccaagaacacttatgtggaaaagcttcggccagccctcggg gagtgcctggcccgtctggcagcagccatgccggtggcgttcctggagccgcagctgaac gagtacaacgcctgctccgtgtacaccaccaagtctccgcgggagcgggccatcctgggg ctccccaacagtgtggaggagatgtgtcccgacatcccggtgctggagcggctcatggca gacattggggggctggccgagtcaggtgcccgctacacagagatgccgcatgtcatcgag atcacgctgcccatgctatgcagctacctgccccgatggtgggagcgcgggcccgaggca cccccttccgccctgcccgccggcgcccccccaccctgcacagctgtcacctctgaccac ctcaactccctgctggggaatatcctgagaatcatcgtcaacaacctgggcattgacgag gcctcctggatgaagcggctggctgtgttcgcacagcccattgtgagccgtgcacggccg gagctcctgcagtcccacttcatcccaactatcgggcggctgcgcaagagggcagggaag gtggtgtccgaggaggagcagctgcgcctggaggccaaggcggaggcccaggagggcgag ctgctggtgcgggacgagttctctgtgctctgccgggacctctacgccctgtatccgctg ctcatccgctacgtggacaacaacagn