Result of GENSCAN for
pF1KA0131
GENSCAN 1.0 Date run: 2-Nov-116 Time: 18:13:09 Sequence gi568815575r:153807732_154026202 : 218471 bp : 54.62% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.02 Intr - 916 611 306 0 0 35 68 506 0.721 39.41 1.01 Init - 3707 3700 8 2 2 77 80 11 0.399 -1.15 1.00 Prom - 3893 3854 40 1.19 2.03 PlyA - 10215 10210 6 1.05 2.02 Term - 16736 16572 165 2 0 67 42 126 0.395 4.13 2.01 Init - 22567 22508 60 1 0 86 91 63 0.069 7.60 2.00 Prom - 30641 30602 40 0.09 3.00 Prom + 32840 32879 40 -2.21 3.01 Sngl + 33520 33837 318 0 0 48 38 211 0.961 8.39 3.02 PlyA + 36083 36088 6 1.05 4.26 PlyA - 37274 37269 6 1.05 4.25 Term - 55163 54932 232 1 1 110 40 484 0.997 42.08 4.24 Intr - 55818 55746 73 1 1 63 99 112 0.999 8.76 4.23 Intr - 56286 56152 135 1 0 66 68 226 0.983 19.45 4.22 Intr - 56746 56591 156 2 0 120 94 202 0.999 24.49 4.21 Intr - 56973 56854 120 1 0 114 99 86 0.999 13.27 4.20 Intr - 57263 57090 174 0 0 102 107 247 0.998 28.43 4.19 Intr - 57479 57357 123 0 0 108 48 230 0.978 22.06 4.18 Intr - 57769 57568 202 1 1 100 105 288 0.999 31.08 4.17 Intr - 58088 57973 116 0 2 54 73 176 0.395 13.37 4.16 Intr - 59140 58918 223 1 1 83 74 333 0.962 29.63 4.15 Intr - 59393 59323 71 0 2 78 100 104 0.964 9.99 4.14 Intr - 59822 59625 198 0 0 81 109 246 0.711 25.84 4.13 Intr - 60179 60069 111 0 0 102 52 157 0.564 14.35 4.12 Intr - 60391 60267 125 0 2 42 106 185 0.996 16.43 4.11 Intr - 60727 60571 157 2 1 60 61 101 0.913 4.18 4.10 Intr - 60996 60830 167 2 2 73 77 297 0.920 27.22 4.09 Intr - 61221 61110 112 1 1 93 89 130 0.999 13.54 4.08 Intr - 61932 61789 144 1 0 46 75 319 0.999 27.16 4.07 Intr - 62203 62072 132 2 0 100 84 112 0.999 13.12 4.06 Intr - 62509 62325 185 0 2 89 51 398 0.996 36.15 4.05 Intr - 62768 62657 112 0 1 71 70 136 0.999 10.04 4.04 Intr - 63448 63059 390 2 0 85 81 419 0.661 36.16 4.03 Intr - 64623 64421 203 2 2 132 49 356 0.987 35.55 4.02 Intr - 64966 64861 106 2 1 101 73 137 0.998 13.27 4.01 Init - 68105 68030 76 2 1 86 82 161 0.990 14.56 4.00 Prom - 68749 68710 40 -4.41 5.00 Prom + 70779 70818 40 -6.20 5.01 Init + 71540 71626 87 1 0 102 76 -23 0.111 -1.46 5.02 Intr + 75980 76165 186 1 0 95 97 114 0.691 13.40 5.03 Intr + 77632 77705 74 0 2 65 88 84 0.571 4.80 5.04 Intr + 78157 78246 90 1 0 72 38 87 0.271 1.71 5.05 Intr + 79232 79326 95 2 2 117 78 32 0.551 5.21 5.06 Term + 80766 80866 101 1 2 48 49 102 0.382 0.89 5.07 PlyA + 83481 83486 6 1.05 6.00 Prom + 86598 86637 40 -3.91 6.01 Init + 86866 86992 127 0 1 74 84 91 0.787 7.58 6.02 Intr + 94398 94509 112 1 1 96 33 61 0.081 1.34 6.03 Intr + 97829 98685 857 2 2 65 98 1134 0.134 103.78 6.04 Term + 98792 98997 206 0 2 86 55 181 0.999 12.46 6.05 PlyA + 99409 99414 6 1.05 7.25 PlyA - 99671 99666 6 -3.94 7.24 Term - 100231 99998 234 1 0 105 51 45 0.659 -0.85 7.23 Intr - 101438 101339 100 1 1 116 100 16 0.899 6.21 7.22 Intr - 101804 101712 93 1 0 61 105 64 0.966 4.98 7.21 Intr - 102193 102010 184 2 1 122 100 325 0.981 36.46 7.20 Intr - 102354 102281 74 2 2 71 77 64 0.965 3.14 7.19 Intr - 102673 102440 234 0 0 78 38 416 0.797 32.93 7.18 Intr - 102880 102775 106 2 1 56 81 224 0.999 18.27 7.17 Intr - 103103 102969 135 0 0 86 76 249 0.996 24.55 7.16 Intr - 103268 103191 78 0 0 116 59 135 0.975 13.42 7.15 Intr - 103458 103398 61 0 1 54 103 106 0.978 7.50 7.14 Intr - 105071 104969 103 1 1 83 79 64 0.916 5.68 7.13 Intr - 105320 105293 28 0 1 85 97 44 0.943 2.66 7.12 Intr - 105571 105487 85 1 1 27 64 163 0.902 7.69 7.11 Intr - 105869 105678 192 2 0 129 52 224 0.934 23.11 7.10 Intr - 106148 106047 102 2 0 95 25 165 0.973 11.77 7.09 Intr - 106388 106233 156 2 0 70 11 108 0.798 2.02 7.08 Intr - 111322 111101 222 1 0 107 78 296 0.893 29.35 7.07 Intr - 111552 111424 129 0 0 8 86 208 0.905 14.00 7.06 Intr - 113077 112895 183 1 0 109 86 186 0.911 21.00 7.05 Intr - 113428 113366 63 1 0 84 89 120 0.998 11.11 7.04 Intr - 113796 113634 163 2 1 67 100 187 0.888 18.29 7.03 Intr - 114078 113874 205 1 1 97 94 339 0.987 34.18 7.02 Intr - 118143 118030 114 1 0 63 84 68 0.946 4.82 7.01 Init - 118471 118405 67 1 1 122 100 92 0.932 13.54 7.00 Prom - 121083 121044 40 -5.01 8.44 PlyA - 122217 122212 6 1.05 8.43 Term - 122492 122256 237 2 0 68 43 296 0.426 19.60 8.42 Intr - 123116 123032 85 1 1 103 99 194 0.999 22.32 8.41 Intr - 124384 124340 45 0 0 77 89 61 0.765 3.11 8.40 Intr - 124700 124585 116 2 2 124 29 114 0.865 8.85 8.39 Intr - 124853 124808 46 1 1 122 76 39 0.890 5.00 8.38 Intr - 126270 126212 59 0 2 76 82 102 0.935 6.57 8.37 Intr - 126744 126646 99 0 0 101 80 84 0.651 9.71 8.36 Intr - 127437 126935 503 1 2 82 43 156 0.631 3.79 8.35 Intr - 127845 127758 88 0 1 70 113 103 0.997 11.04 8.34 Intr - 132502 132371 132 1 0 104 94 178 0.994 21.35 8.33 Intr - 133922 133747 176 0 2 77 75 172 0.999 14.98 8.32 Intr - 134300 134219 82 2 1 59 94 67 0.991 4.11 8.31 Intr - 135348 135124 225 0 0 104 75 306 0.979 29.61 8.30 Intr - 135987 135815 173 1 2 77 89 225 0.992 21.68 8.29 Intr - 136239 136164 76 0 1 126 96 120 0.999 16.18 8.28 Intr - 136424 136349 76 1 1 91 80 28 0.972 2.31 8.27 Intr - 136687 136578 110 1 2 74 45 153 0.271 9.18 8.26 Intr - 140721 140526 196 2 1 71 -8 94 0.123 -1.96 8.25 Intr - 141885 141822 64 1 1 121 75 83 0.795 8.57 8.24 Intr - 142812 142512 301 0 1 105 96 474 0.986 46.75 8.23 Intr - 143267 143082 186 2 0 91 87 145 0.999 15.10 8.22 Intr - 143756 143619 138 2 0 89 105 124 0.999 15.37 8.21 Intr - 143976 143858 119 1 2 106 89 137 0.857 16.29 8.20 Intr - 144466 144059 408 2 0 42 78 473 0.306 36.51 8.19 Intr - 145359 144783 577 0 1 117 92 679 0.992 64.10 8.18 Intr - 146039 145876 164 0 2 126 111 246 0.994 30.91 8.17 Intr - 147811 146335 1477 1 1 114 115 1248 0.973 120.22 8.16 Intr - 148680 148460 221 1 2 130 91 160 0.993 19.05 8.15 Intr - 149032 148894 139 1 1 84 89 170 0.999 17.24 8.14 Intr - 149329 149187 143 2 2 91 94 209 0.999 22.38 8.13 Intr - 149802 149583 220 0 1 122 53 350 0.998 33.30 8.12 Intr - 150155 150051 105 2 0 110 99 133 0.999 17.51 8.11 Intr - 150518 150294 225 2 0 135 105 196 0.987 24.71 8.10 Intr - 151035 150838 198 0 0 120 89 226 0.995 25.97 8.09 Intr - 151760 151600 161 0 2 106 89 71 0.966 9.22 8.08 Intr - 152430 152071 360 1 0 105 105 270 0.961 26.15 8.07 Intr - 152683 152504 180 2 0 131 96 248 0.999 30.26 8.06 Intr - 153917 153811 107 1 2 81 47 184 0.928 13.96 8.05 Intr - 154575 154491 85 1 1 124 97 39 0.999 7.78 8.04 Intr - 155702 155410 293 1 2 71 77 280 0.498 22.52 8.03 Intr - 156553 156393 161 1 2 68 100 120 0.851 10.50 8.02 Intr - 156995 156847 149 0 2 114 103 175 0.997 22.06 8.01 Init - 163109 162917 193 2 1 81 100 355 0.999 35.11 8.00 Prom - 163395 163356 40 -11.29 9.00 Prom + 163979 164018 40 -10.40 9.01 Init + 164439 164760 322 2 1 96 1 146 0.355 4.21 9.02 Intr + 164994 165129 136 1 1 93 93 33 0.872 4.43 9.03 Term + 165195 165417 223 0 1 100 45 196 0.996 13.22 9.04 PlyA + 167368 167373 6 1.05 10.00 Prom + 169886 169925 40 -5.51 10.01 Init + 172649 172709 61 1 1 78 83 86 0.665 8.46 10.02 Term + 174342 175117 776 1 2 -8 46 845 0.251 64.70 10.03 PlyA + 175397 175402 6 1.05 11.03 PlyA - 176151 176146 6 -0.45 11.02 Term - 176775 176627 149 1 2 66 50 107 0.888 3.08 11.01 Init - 178250 178190 61 2 1 78 83 86 0.985 8.46 11.00 Prom - 181558 181519 40 -6.40 12.00 Prom + 188695 188734 40 -0.61 12.01 Init + 189561 189563 3 2 0 50 101 0 0.082 -2.57 12.02 Intr + 194672 194777 106 1 1 102 95 91 0.599 11.49 12.03 Term + 199452 199537 86 1 2 47 49 83 0.118 -1.59 12.04 PlyA + 201385 201390 6 1.05 13.18 PlyA - 202795 202790 6 1.05 13.17 Term - 204186 204128 59 1 2 93 41 42 0.303 -1.86 13.16 Intr - 204549 204514 36 1 0 92 79 20 0.457 0.22 13.15 Intr - 204947 204798 150 0 0 72 53 240 0.952 19.55 13.14 Intr - 205702 205312 391 1 1 109 65 287 0.987 23.36 13.13 Intr - 206547 206311 237 0 0 50 68 224 0.998 14.94 13.12 Intr - 208366 208301 66 1 0 129 93 27 0.991 6.89 13.11 Intr - 208913 208706 208 1 1 74 77 331 0.997 30.20 13.10 Intr - 209303 209218 86 2 2 89 78 89 0.577 7.12 13.09 Intr - 210389 210275 115 1 1 75 96 240 0.999 24.45 13.08 Intr - 210715 210560 156 0 0 45 94 132 0.663 9.14 13.07 Intr - 210769 210720 50 1 2 69 77 -9 0.644 -5.93 13.06 Intr - 211056 210868 189 0 0 101 105 147 0.964 18.00 13.05 Intr - 211347 211244 104 1 2 25 100 5 0.518 -4.21 13.04 Intr - 211567 211466 102 2 0 106 110 15 0.933 6.15 13.03 Intr - 211867 211700 168 2 0 107 50 417 0.991 40.23 13.02 Intr - 212114 211946 169 2 1 -25 72 225 0.673 9.63 13.01 Init - 212242 212174 69 1 0 100 81 140 0.886 13.50 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 17376 17355 22 0 1 88 65 70 0.842 3.04 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_1|105_aa MARGEEQAFEGSYGGVSLPQVNGKELSKLSQEQTLQALRSSKEPLVIQVLRRSPRLRGDS SCHDLQLVDSGTQTDITFEHIMALGKLRPPTPPMVILEPYVLSEL >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_1|315_bp atggccagaggggaggagcaagcctttgagggttcttacggaggcgtgtctctgccgcag gtgaacgggaaggagctctccaagctgtctcaggagcaaactctgcaggccctgcgctcc tccaaggagcccctggtgatccaggtgctgagacgcagcccccgcctccggggggacagc tcctgtcacgacctgcagctggtggacagtggcactcagaccgacatcaccttcgagcat atcatggcgctgggcaagctgcgtccgcccaccccgcccatggtcatcctggagccgtac gtcctctctgagctn >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_2|74_aa MGCNMCVVQKPEEQYKVMLQHQMLPAHPRWPPPFQGKAGLSVNSVVLPQKLTGEEAGSEK VLVEWKNRGLDTEF >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_2|225_bp atgggatgtaatatgtgcgtggtccagaaaccggaggagcagtacaaagtgatgctgcag caccagatgctgccagcacatccacgctggcctccacccttccaggggaaagctggactc tcagtcaactcagtggttctgccgcagaagctgactggggaagaagcaggctctgagaaa gtccttgtggagtggaagaacagagggctggacactgaattctga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_3|105_aa MGDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLQGLFGRKTGQAAGYSYTVASKNKGITW GEDTLMEYLENPKKHIPETKMIFVGIKKKEERADSIAFLKKATNE >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_3|318_bp atgggtgatgttgagaaaggcaagaagatttttattatgaagtgttcccagtgccacacc gttgaaaagggaggcaagcacaagactgggccaaatctccaaggcctcttcgggcggaag acaggtcaggccgctggatactcttacacggttgccagtaagaacaaaggcatcacctgg ggagaggatacactgatggagtatttggagaatcccaagaagcacatacctgaaacaaaa atgatctttgtcggcattaagaagaaggaagaaagggcagactcgatagcttttctcaaa aaagctactaatgagtaa >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_4|1280_aa MVVALRYVWPLLLCSPCLLIQIPEELMEPPVITEQSPRRLVVFPTDDISLKCEASGKPEV QFRWTRDGVHFKPKEELGVTVYQSPHSGSFTITGNNSNFAQRFQGIYRCFASNKLGTAMS HEIRLMAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAEPLRIYWMNSSGCRRAAASWG RGVSGGVFLDGVMTSASLPPAEILHIKQDERVTMGQNGNLYFANVLTSDNHSDYICHAHF PGTRTIIQKEPIDLRVKATNSMIDRKPRLLFPTNSSSHLVALQGQPLVLECIAEGFPTPT IKWLRPSGPMPADRVTYQNHNKTLQLLKVGEEDDGEYRCLAENSLGSARHAYYVTVEAAP YWLHKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGIPVEELAKDQKYRIQRGALILSN VQPSDTMVTQCEARNRHGLLLANAYIYVVQLPAKILTADNQTYMAVQGSTAYLLCKAFGA PVPSVQWLDEDGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCLAANDQNNVTIMANLK VKDATQITQGPRSTIEKKGSRVTFTCQASFDPSLQPSITWRGDGRDLQELGDSDKYFIED GRLVIHSLDYSDQGNYSCVASTELDVVESRAQLLVVGSPGPVPRLVLSDLHLLTQSQVRV SWSPAEDHNAPIEKYDIEFEDKEMAPEKWYSLGKVPGNQTSTTLKLSPYVHYTFRVTAIN KYGPGEPSPVSETVVTPEAAPEKNPVDVKGEGNETTNMVITWKPLRWMDWNAPQVQYRVQ WRPQGTRGPWQEQIVSDPFLVVSNTSTFVPYEIKVQAVNSQGKGPEPQVTIGYSGEDYPQ AIPELEGIEILNSSAVLVKWRPVDLAQVKGHLRGYNVTYWREGSQRKHSKRHIHKDHVVV PANTTSVILSGLRPYSSYHLEVQAFNGRGSGPASEFTFSTPEGVPGHPEALHLECQSNTS LLLRWQPPLSHNGVLTGYVLSYHPLDEGGKGQLSFNLRDPELRTHNLTDLSPHLRYRFQL QATTKEGPGEAIVREGGTMALSGISDFGNISATAGENYSVVSWVPKEGQCNFRFHILFKA LGEEKGGASLSPQYVSYNQSSYTQWDLQPDTDYEIHLFKERMFRHQMAVKTNGTGRVRLP PAGFATEGWFIGFVSAIILLLLVLLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETF GEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEA AGGNDSSGATSPINPAVALE >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_4|3843_bp atggtcgtggcgctgcggtacgtgtggcctctcctcctctgcagcccctgcctgcttatc cagatccccgaggaattgatggagccacctgtcatcacggaacagtctccacggcgcctg gttgtcttccccacagatgacatcagcctcaagtgtgaggccagtggcaagcccgaagtg cagttccgctggacgagggatggtgtccacttcaaacccaaggaagagctgggtgtgacc gtgtaccagtcgccccactctggctccttcaccatcacgggcaacaacagcaactttgct cagaggttccagggcatctaccgctgctttgccagcaataagctgggcaccgccatgtcc catgagatccggctcatggccgagggtgcccccaagtggccaaaggagacagtgaagccc gtggaggtggaggaaggggagtcagtggttctgccttgcaaccctcccccaagtgcagag cctctccggatctactggatgaacagcagtgggtgccggcgagcggctgcctcgtggggt cggggtgttagcgggggtgtcttcctggacggggtcatgacttcggcctccttgccccct gcagagatcttgcacatcaagcaggacgagcgggtgacgatgggccagaacggcaacctc tactttgccaatgtgctcacctccgacaaccactcagactacatctgccacgcccacttc ccaggcaccaggaccatcattcagaaggaacccattgacctccgggtcaaggccaccaac agcatgattgacaggaagccgcgcctgctcttccccaccaactccagcagccacctggtg gccttgcaggggcagccattggtcctggagtgcatcgccgagggctttcccacgcccacc atcaaatggctgcgccccagtggccccatgccagccgaccgtgtcacctaccagaaccac aacaagaccctgcagctgctgaaagtgggcgaggaggatgatggcgagtaccgctgcctg gccgagaactcactgggcagtgcccggcatgcgtactatgtcaccgtggaggctgccccg tactggctgcacaagccccagagccatctatatgggccaggagagactgcccgcctggac tgccaagtccagggcaggccccaaccagaggtcacctggagaatcaacgggatccctgtg gaggagctggccaaagaccagaagtaccggattcagcgtggcgccctgatcctgagcaac gtgcagcccagtgacacaatggtgacccaatgtgaggcccgcaaccggcacgggctcttg ctggccaatgcctacatctacgttgtccagctgccagccaagatcctgactgcggacaat cagacgtacatggctgtccagggcagcactgcctaccttctgtgcaaggccttcggagcg cctgtgcccagtgttcagtggctggacgaggatgggacaacagtgcttcaggacgaacgc ttcttcccctatgccaatgggaccctgggcattcgagacctccaggccaatgacaccgga cgctacttctgcctggctgccaatgaccaaaacaatgttaccatcatggctaacctgaag gttaaagatgcaactcagatcactcaggggccccgcagcacaatcgagaagaaaggttcc agggtgaccttcacgtgccaggcctcctttgacccctccttgcagcccagcatcacctgg cgtggggacggtcgagacctccaggagcttggggacagtgacaagtacttcatagaggat gggcgcctggtcatccacagcctggactacagcgaccagggcaactacagctgcgtggcc agtaccgaactggatgtggtggagagtagggcacagctcttggtggtggggagccctggg ccggtgccacggctggtgctgtccgacctgcacctgctgacgcagagccaggtgcgcgtg tcctggagtcctgcagaagaccacaatgcccccattgagaaatatgacattgaatttgag gacaaggaaatggcgcctgaaaaatggtacagtctgggcaaggttccagggaaccagacc tctaccaccctcaagctgtcgccctatgtccactacacctttagggttactgccataaac aaatatggccccggggagcccagcccggtctctgagactgtggtcacacctgaggcagcc ccagagaagaaccctgtggatgtgaagggggaaggaaatgagaccaccaatatggtcatc acgtggaagccgctccggtggatggactggaacgccccccaggttcagtaccgcgtgcag tggcgccctcaggggacacgagggccctggcaggagcagattgtcagcgaccccttcctg gtggtgtccaacacgtccaccttcgtgccctatgagatcaaagtccaggccgtcaacagc cagggcaagggaccagagccccaggtcactatcggctactctggagaggactacccccag gcaatccctgagctggaaggcattgaaatcctcaactcaagtgccgtgctggtcaagtgg cggccggtggacctggcccaggtcaagggccacctccgcggatacaatgtgacgtactgg agggagggcagtcagaggaagcacagcaagagacatatccacaaagaccatgtggtggtg cccgccaacaccaccagtgtcatcctcagtggcttgcggccctatagctcctaccacctg gaggtgcaggcctttaacgggcgaggatcggggcccgccagcgagttcaccttcagcacc ccagagggagtgcctggccaccccgaggcgttgcacctggagtgccagtcgaacaccagc ctgctgctgcgctggcagcccccactcagccacaacggcgtgctcaccggctacgtgctc tcctaccaccccctggatgaggggggcaaggggcaactgtccttcaaccttcgggacccc gaacttcggacacacaacctgaccgatctcagcccccacctgcggtaccgcttccagctt caggccaccaccaaagagggccctggtgaagccatcgtacgggaaggaggcactatggcc ttgtctgggatctcagattttggcaacatctcagccacagcgggtgaaaactacagtgtc gtctcctgggtccccaaggagggccagtgcaacttcaggttccatatcttgttcaaagcc ttgggagaagagaagggtggggcttccctttcgccacagtatgtcagctacaaccagagc tcctacacgcagtgggacctgcagcctgacactgactacgagatccacttgtttaaggag aggatgttccggcaccaaatggctgtgaagaccaatggcacaggccgcgtgaggctccct cctgctggcttcgccactgagggctggttcatcggctttgtgagtgccatcatcctcctg ctcctcgtcctgctcatcctctgcttcatcaagcgcagcaagggcggcaaatactcagtg aaggataaggaggacacccaggtggactctgaggcccgaccgatgaaagatgagaccttc ggcgagtacagtgacaacgaggagaaggcctttggcagcagccagccatcgctcaacggg gacatcaagcccctgggcagtgacgacagcctggccgattatgggggcagcgtggatgtt cagttcaacgaggatggttcgttcattggccagtacagtggcaagaaggagaaggaggcg gcagggggcaatgacagctcaggggccacttcccccatcaaccctgccgtggccctagaa tag >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_5|210_aa MEMVRGWGNSETETQAAEKGREEETGAQRTRVLAGIPILADLLTGPHHYPRFSHERALLE PGPLCEAASPSHPEKHSVQPFRALKGNLVIKSLWKRAPEAPYASGEEPLALRQVFGPRCP EPDARHGWGSGSNAGYRGPDRAGTPCPAQDREGRSSSPVPPPRLKAMTSQARKQNGGALI DTVDWTREAPDSDPVMSMQKTQKPQTTVGQ >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_5|633_bp atggagatggttagggggtggggaaattccgaaacggagacccaggcagcagagaaaggg agagaagaggaaaccggagcacaaaggaccagggtcttggctgggatccccatcctggca gacctcctcacaggaccccaccactaccccaggttctcccatgaacgtgccctcctggag cctgggccactctgcgaggccgcatcaccctcacacccagaaaagcactcagtgcagcca tttcgagctttgaaagggaacttggtgatcaagagcctgtggaaacgggctccagaggcg ccctacgcctccggggaggagcccctggctctgcggcaggttttcggcccgcggtgcccg gagcccgacgcccggcatgggtggggctccggcagcaacgccggttaccgcgggccggac cgggccgggactccctgccctgcacaggatcgagaaggaaggagctcctccccagtgccc cctcctaggctcaaggccatgacctcacaggcgaggaagcaaaatggaggggccctcata gacacagtggactggacaagggaagccccagactctgaccctgtgatgagcatgcagaag acgcagaagccacagacgacagtggggcagtaa >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_6|433_aa MTVNDFLKRKTPKDRNNGKIENSSKIMGAEFHCGTHTHPENGEAHVLLGQSPGPSISAAT VLGQRHLQFGEWKVLIMGNRLPSNSSQERPLDTRDPLLARAELALLSIVFVAVALSNGLV LAALARRGRRGHWAPIHVFIGHLCLADLAVALFQVLPQLAWKATDRFRGPDALCRAVKYL QMVGMYASSYMILAMTLDRHRAICRPMLAYRHGSGAHWNRPVLVAWAFSLLLSLPQLFIF AQRNVEGGSGVTDCWACFAEPWGRRTYVTWIALMVFVAPTLGIAACQVLIFREIHASLVP GPSERPGGRRRGRRTGSPGEGAHVSAAVAKTVRMTLVIVVVYVLCWAPFFLVQLWAAWDP EAPLEGAPFVLLMLLASLNSCTNPWIYASFSSSVSSELRSLLCCARGRTPPSLGPQDESC TTASSSLAKDTSS >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_6|1302_bp atgacagtaaatgactttttaaaaagaaaaactcccaaggacagaaataatgggaaaata gaaaacagcagcaaaatcatgggagctgaatttcactgcggaacccacacgcatccagaa aatggggaagcccatgtgctcctggggcagagcccaggtccttccatctctgcagccaca gtgctaggccagcggcacttgcagtttggtgaatggaaggttctgatcatggggaaccgc ctgcccagcaacagcagccaggagaggccactggacacccgggacccgctgctagcccgg gcggagctggcgctgctctccatagtctttgtggctgtggccctgagcaatggcctggtg ctggcggccctagctcggcggggccggcggggccactgggcacccatacacgtcttcatt ggccacttgtgcctggccgacctggccgtggctctgttccaagtgctgccccagctggcc tggaaggccaccgaccgcttccgtgggccagatgccctgtgtcgggccgtgaagtatctg cagatggtgggcatgtatgcctcctcctacatgatcctggccatgacgctggaccgccac cgtgccatctgccgtcccatgctggcgtaccgccatggaagtggggctcactggaaccgg ccggtgctagtggcttgggccttctcgctccttctcagcctgccccagctcttcatcttc gcccagcgcaacgtggaaggtggcagcggggtcactgactgctgggcctgctttgcggag ccctggggccgtcgcacctatgtcacctggattgccctgatggtgttcgtggcacctacc ctgggtatcgccgcctgccaggtgctcatcttccgggagattcatgccagtctggtgcca gggccatcagagaggcctggggggcgccgcaggggacgccggacaggcagccccggtgag ggagcccacgtgtcagcagctgtggccaagactgtgaggatgacgctagtgattgtggtc gtctatgtgctgtgctgggcacccttcttcctggtgcagctgtgggccgcgtgggacccg gaggcacctctggaaggggcgccctttgtgctactcatgttgctggccagcctcaacagc tgcaccaacccctggatctatgcatctttcagcagcagcgtgtcctcagagctgcgaagc ttgctctgctgtgcccggggacgcaccccacccagcctgggtccccaagatgagtcctgc accaccgccagctcctccctggccaaggacacttcatcgtga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_7|1036_aa MAAHGKLRRERGLQAEYETQVKGSVETLVAAGKREPDAPTCPSEGSILATVKSTSLIGLG EMRWQLSEQLRCLELQGELRRELLQELAEFMRRRAEVELEYSRGLEKLAERFSSRGGRLG SSREHQSFRKEPSLLSPLHCWAVLLQHTRQQSRESAALSEVLAGPLAQRLSHIAEDVGRL VKKSRDLEQQLQDELLEVVSELQTAKKTYQAYHMESVNAEAKLREAERQEEKRAGRSVPT TTAGATEAGPLRKSSLKKGGRLVEKRQAKFMEHKLKCTKARNEYLLSLASVNAAVSNYYL HDVLDLMDCCDTGFHLALGQVLRSYTAAESRTQASQVQGLGSLEEAVEALDPPGDKAKVL EVHATVFCPPLRFDYHPHDGDETALSLAIRQLDEWCRHEPLWTSLGLDTCVHSCHSSAER LGWWSCARPPGHKRVAEICVEMELRDEILPRAQNIQSRLDRQTIETEEVNKTLKATLQAL LEVVASDDGDVLDSFQTSPSTESLKSTSSDPGSRQAGRRRGQQQETETFYLTKLQEYLSG RSILAKLQAKHEKLQEALQRGDKEEQEVSWTQYTQRKFQKSRQPRPSSQYNQRLFGGDME KFIQSSGQPVPLVVESCIRFINLNGLQHEGIFRVSGAQLRVSEIRDAFERGEDPLVEGCT AHDLDSVAGVLKLYFRSLEPPLFPPDLFGELLASSELEATAERVEHVSRLLWRLPAPVLV VLRYLFTFLNHLAQYSDENMMDPYNLAVCFGPTLLPVPAGQDPVALQGRVNQLVQTLIVQ PDRVFPPLTSLPGPVYEKCMAPPSASCLGDAQLESLGADNEPELEAEMPAQEDDLEGVVE AVACFAYTGRTAQELSFRRGDVLRLHERASSDWWRGEHNGMRGLIPHKYITLPAGTEKQV VGAGLQTAGESGSSPEGLLASELVHRPEPCTSPEAMGPSGHRRRCLVPASPEQHVEVDKA VAQNMDSVFKELLGKTSVRQGLGPASTTSPSPGPRSPKAPPSSRLGRNKGFSRGPGAPAS PSASHPQGLDTTPKPH >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_7|3111_bp atggccgctcacgggaagctgcggcgggagcgggggctgcaggctgagtatgagacgcaa gtcaaaggttcagtggagacactggtggccgctggtaaaagagagccagatgcaccaacg tgcccctcagaaggcagtattttagctacagtgaagtcaaccagcttgattgggctgggg gagatgcgctggcagctgagcgagcagctgcgctgcctggagctgcagggcgagctgcgg cgggagttgctgcaggagctggcagagttcatgcggcgccgcgctgaggtggagctggaa tactcccggggcctggaaaagctggccgagcgcttctccagccgtggaggccgcctgggg agcagccgggagcaccaaagcttccggaaggagccgtccctcctgtcgcccttgcactgc tgggcggtgctgctgcagcacacgcggcagcagagccgggagagcgcggccctgagtgag gtgctggccgggcccctggcccagcgcctgagtcacattgcagaggacgtggggcgcctg gtcaagaagagcagggatctggagcagcagctgcaggatgagctcctggaggtggtctca gagctccagacggccaagaagacgtaccaggcatatcacatggagagcgtgaatgccgag gccaagctccgggaggccgagcggcaggaggagaagcgggcaggccggagtgtccccacc accaccgctggtgccactgaggcagggcccctccgcaagagctccctcaagaagggaggg aggctggtggagaagcggcaggccaagttcatggagcacaaactcaagtgcacaaaggcg cgcaacgagtacctgcttagcctggctagtgtcaacgctgctgtcagtaactactacctg catgacgtcttggacctcatggactgctgtgacacagggttccacctggccctggggcag gtgctccggagctacacggccgctgagagccgcacccaagcctcccaagtgcagggcctg ggcagcctggaagaagctgtggaggccctggatcctccaggggacaaagccaaggttctc gaggtgcatgctaccgtcttctgtcccccgctgcgctttgactaccacccccatgatggg gatgagaccgcgctgagtttagccatccgtcagttggatgagtggtgccgccacgaacct ctgtggacaagtcttggtttggacacgtgtgttcactcctgccattcttcagctgagcgt ctgggctggtggtcctgtgcccggccgccaggccacaaaagggtggctgagatctgcgtt gaaatggagctgcgggacgagattctgcccagagcccagaacatccagagccgcctggac cgacagaccattgagacagaggaggtgaacaagactctgaaggcgacactgcaggccctg ctggaggtggtggcctcggatgacggggatgtgcttgattccttccagaccagcccctcc accgagtccctcaagtccaccagctcagacccaggcagccggcaggcgggccggaggcgc ggccagcagcaggagaccgaaaccttctacctcacgaagctccaggagtatctgagtgga cggagcatcctcgccaagctgcaggccaagcacgagaagctgcaggaggcccttcagcga ggtgacaaggaggagcaggaggtgtcttggacccagtacacacagagaaaattccagaag agccgccagccccgccccagctcccagtataaccagagactctttgggggagacatggag aagtttatccagagctcaggccagcctgtgcccctggtggtggagagctgcattcgcttc atcaacctcaatggcctgcagcatgaaggcatcttccgggtatcgggtgcccagctccgg gtctcagagatccgtgatgccttcgagagaggggaggacccactggtggagggctgcact gcccatgacctggactcggtggccggggtgctgaagctctacttccggagcctggagccc ccactcttccccccagacctgttcggcgagctgctggcttcttcggagctggaggccaca gcggagagggtggagcacgtgagccgcctgctgtggcggctgcccgcgccggtgctggtg gttctgcgctacctcttcaccttcctcaaccacctggcccagtacagcgatgagaacatg atggacccctacaacctggccgtgtgcttcgggcccacgctgctaccggtgcccgctggg caggacccggtggcgctgcagggccgggtgaaccagctggtgcagacgctcatagtgcag cccgatcgggtcttcccgcccctgacctcgctgcctggccccgtctacgagaagtgcatg gcaccgccttccgccagctgcctgggggacgcccagctggagagcctgggggcggacaat gagccggagctggaagccgagatgcccgcacaggaggatgacctggagggggtcgtggag gctgtggcctgctttgcctacacgggccgcacagcccaggagctgagcttccggcggggg gacgtactgcggctgcacgagagggcctcgagcgactggtggcggggggagcacaacggc atgcggggcctcatcccccacaagtatatcacgctgcccgccgggacggagaagcaggtg gtgggcgcagggctgcagactgcaggggagtctgggagcagtcccgagggcctcctggca tcggagctggtccaccggccagagccatgcacctcacctgaggccatgggaccctctgga cacagacgacgctgcttggtcccagcctccccagagcaacacgtggaggtggataaggct gtggcacagaacatggactctgtgtttaaggagctcttgggaaagacctctgtccgccag ggccttgggccagcatctaccacctctcccagtcctgggccccgaagcccaaaggccccg cccagcagccgcctgggcaggaacaaaggcttctcccggggccctggggccccagcctca ccctcagcttcccacccccagggcctagacacgacccccaagccacactga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_8|2965_aa MASAVSPANLPAVLLQPRWKRVVGWSGPVPRPRHGHRAVAIKELIVVFGGGNEGIVDELH VYNTATNQWFIPAVRGDIPPGCAAYGFVCDGTRLLVFGGMVEYGKYSNDLYELQASRWEW KRLKAKTPKNGPPPCPRLGHSFSLVGNKCYLFGGLANDSEDPKNNIPRYLNDLYILELRP GSGVVAWDIPITYGVLPPPRESHTAVVYTEKDNKKSKLVIYGGMSGCRLGDLWTLDIGEQ GGSTPAAMGQSGSASWLAPWVALLYDTLTWNKPSLSGVAPLPRSLHSATTIGNKMYVFGG WVPLVMDDVKVATHEKEWKCTNTLACLNLDTMAWETILMDTLEDNIPRARAGHCAVAINT RLYIWSGRDGYRKAWNNQVCCKDLWYLETEKPPPPARVQLVRANTNSLEVSWGAVATADS YLLQLQKYDIPATAATATSPTPNPVPSVPANPPKSPAPAAAAPAVQPLTQVGITLLPQAA PAPPTTTTIQVLPTVPGSSISVPTAARTQGVPAVLKVTGPQATTGTPLVTMRPASQAGKA PVTVTSLPAGVRMVVPTQSAQGTVIGSSPQMSGMAALAAAAAATQKIPPSSAPTVLSVPA GTTIVKTMAVTPGTTTLPATVKVASSPVMVSNPATRMLKTAAAQVGTSVSSATNTSTRPI ITVHKSGTVTVAQQAQVVTTVVGGVTKTITLVKSPISVPGGSALISNLGKVMSVVQTKPV QTSAVTGQASTGPVTQIIQTKGPLPAGTILKLVTSADGKPTTIITTTQASGAGTKPTILG ISSVSPSTTKPGTTTIIKTIPMSAIITQAGATGVTSSPGIKSPITIITTKVMTSGTGAPA KIITAVPKIATGHGQQGVTQVVLKGAPGQPGTILRTVPMGGVRLVTPVTVSAVKPAVTTL VVKGTTGVTTLGTVTGTVSTSLAGAGGHSTSASLATPITTLGTIATLSSQVINPTAITVS AAQTTLTAAGGLTTPTITMQPVSQPTQVTLITAPSGVEAQPVHDLPVSILASPTTEQPTA TVTIADSGQGDVQPGTVTLVCSNPPCETHETGTTNTATTTVVANLGGHPQPTQVQFVCDR QEAAASLVTSTVGQQNGSVVRVCSNPPCETHETGTTNTATTATSNMAGQHGCSNPPCETH ETGTTNTATTAMSSVGANHQRDARRACAAGTPAVIRISVATGALEAAQGSKSQCQTRQTS ATSTTMTVMATGAPCSAGPLLGPSMAREPGGRSPAFVQLAPLSSKVRLSSPSIKDLPAGR HSHAVSTAAMTRSSVGAGEPRMAPVCESLQGGSPSTTVTVTALEALLCPSATVTQVCSNP PCETHETGTTNTATTSNAGSAQRVCSNPPCETHETGTTHTATTATSNGGTGQPEGGQQPP AGRPCETHQTTSTGTTMSVSVGALLPDATSSHRTVESGLEVAAAPSVTPQAGTALLAPFP TQRVCSNPPCETHETGTTHTATTVTSNMSSNQDPPPAASDQGEVESTQGDSVNITSSSAI TTTVSSTLTRAVTTVTQSTPVPGPSVPKISSMTETAPRALTTEVPIPAKITVTIANTETS DMPFSAVDILQPPEELQVSPGPRQQLPPRQLLQSASTALMGESAEVLSASQTPELPAAVD LSSTGEPSSGQESAGSAVVATVVVQPPPPTQSEVDQLSLPQELMAEAQAGTTTLMVTGLT PEELAVTAAAEAAAQAAATEEAQALAIQAVLQAAQQAVMAFLVSSVSLDPGAGTGEPMDT SEAAATVTQAELGHLSAEGQEGQATTIPIVLTQQELAALVQQQQLQEAQAQQQHHHLPTE ALAPADSLNDPAIESNCLNELAGTVPSTVALLPSTATESKRLRANWCWGGGGTQGGLAPS NTFVAPQPVVVASPAKLQAAATLTEVANGIESLGVKPDLPPPPSKAPMKKENQWFDVGVI KGTNVMVTHYFLPPDDAVPSDDDLGTVPDYNQLKKQELQPGTAYKFRVAGINACGRGPFS EISAFKTCLPGFPGAPCAIKISKSPDGAHLTWEPPSVTSGKIIEYSVYLAIQSSQAGGEL KSSTPAQLAFMRVYCGPSPSCLVQSSSLSNAHIDYTTKPAIIFRIAARNEKGYGPATQVR WLQETSKDSSGTKPANKRPMSSPEMDLSGGKAGASQGRRGVKSATRGLLFATQPNFLLLA PALCPFACPQAAGTKEGQLIPHGRSLRIYRDMEKERETLQAWKERVGQELDRVVAFWMEH SHDQEHGGFFTCLGREGRVYDDLKYVWLQGRQVWMYCRLYRTFERFRHAQLLDAAKAGGE FLLRYARVAPPGKKCAFVLTRDGRPVKVQRTIFSECFYTMAMNELWRATGEVRYQTEAVE MMDQIVHWVQEDASGLGRPQLQGAPAAEPMAVPMMLLNLVEQLGEADEELAGKYAELGDW CARRILQHVQRDGQAVLENVSEGGKELPGCLGRQQNPGHTLEAGWFLLRHCIRKGDPELR AHVIDKFLLLPFHSGWDPDHGGLFYFQDADNFCPTQLEWAMKLWWPHSEAMIAFLMGYSD SGDPVLLRLFYQVAEYTFRQFRDPEYGEWFGYLSREGKVALSIKGGPFKGPPRADRLRAL ARPVRWPVPRIGQAAGRTGPAAVHFRPVAGPARTAPSAVAQRAQLRSQPRPSRRRFGARR QLTAPSRSAGTREPRRRYEHPQCEGERPGREAVRAAWAPGRVAAAHAPEGPGRARPGGPE CACGRWTYGAGPARRRGRGAGPGLRFPPVCVMSGLRWPEDLMNMQHCNLLCLPENYQMKY YFYHGLSWPQLSYIAEDENGKIVGYVLAKMEEDPDDVPHGHITSLAVKRSHRRLGLAQKL MDQASRAMIENFNAKYVSLHVRKSNRAALHLYSNTLNFQISEVEPKYYADGEDAYAMKRD LTQMADELRRHLELKEKGRHVVLGAIENKVESKGNSPPSSGEACREEKGLAAEDSGGDSK DLSEVSETTESTDVKDSSEASDSAS >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_8|8898_bp atggcttcggccgtgtcgcccgccaacttgccagcggtgcttctgcagccccgctggaag cgagtggtgggctggtcgggtccggtgccacggccccgccacggccaccgcgccgtggcc atcaaggagctcatcgtggtgtttggcggcggcaacgagggaatagtggacgaactgcac gtgtacaacacggcaaccaaccagtggttcatcccagccgtgaggggggacattccccct gggtgtgcagcctatggcttcgtgtgtgacgggactcgcctcctggtgtttggtgggatg gtggagtatgggaaatacagcaatgacctctacgaactccaggcgagccggtgggagtgg aagagactcaaagcaaagacgcccaaaaacgggccccctccgtgtcctcgactcgggcac agcttctcccttgtgggcaacaaatgctacctgtttgggggtctggccaatgatagcgag gacccaaagaacaacattccaaggtacctgaatgacttatatatcctggaattacggcca ggctctggagtggtagcctgggacattcccatcacttacggggtcctaccaccaccccgg gagtcacatactgccgtggtctacaccgaaaaagacaataagaagtccaagctggtgatc tacggcgggatgagtggctgcaggctgggggacctgtggaccctagatattggtgagcag ggtggtagcaccccagcagccatgggacaaagcgggtctgcctcttggctggccccgtgg gtggcgctgttgtatgacaccctgacgtggaataagcccagtctcagcggggtggcgcct cttcctcgcagtctccactcggcaaccaccatcggaaataaaatgtacgtgtttggtggc tgggtgcctctcgtcatggatgacgtcaaagtggccacacacgagaaggagtggaagtgt accaacacgctggcttgtctcaacctggataccatggcctgggagaccatcctgatggat acactggaggacaacatcccccgtgctcgggctggccactgcgcagtcgccatcaacacc cgcctgtacatttggagtgggcgtgacggctaccgcaaggcctggaacaaccaggtctgc tgcaaggacctctggtacctagagacagaaaagccaccacccccagcccgagtacaactg gtacgcgccaacaccaactccctggaggtgagctggggggcagtggcaacagccgacagc taccttctccagctccagaaatatgacattcctgccacggctgctactgccacctcccct acacccaatccggtcccatctgtgcctgccaaccctcccaagagccctgccccagcagca gccgcacctgctgtgcagccgctgacccaagtaggcatcacgctcctgccccaggctgcc cccgcacccccgaccaccaccaccatccaggtcttgccaacggtgcctggcagctccatt tctgtgcccaccgcagccaggactcaaggtgtccctgctgttctcaaagtgaccggtcct caggctacaacaggaactccattggtcaccatgcgacctgccagccaggctgggaaagcc cctgtcaccgtgacctcccttcccgccggagtgcggatggttgtgccaacacagagtgcc cagggaacggtgattggcagtagcccacagatgagtgggatggccgcactggccgctgcg gccgctgccacccagaagatccccccttcctcggcacccacggtgctgagtgtcccagcg ggtaccaccatcgtgaagaccatggctgtgacacctggcactaccaccctcccagccact gtgaaggtggcctcctcgccagtcatggtgagcaaccctgccactcgcatgctgaagact gcagccgcccaggtggggacatcggtttcctccgccaccaacacgtctacccgccctatc atcacagtgcacaagtcaggcactgtgacagtggcccagcaagcccaggtggtgaccaca gttgtgggcggggtcaccaagaccatcaccctggtgaagagccccatctctgtcccagga ggcagtgctctgatttccaatctgggcaaagtgatgtcggtggtccagaccaaaccagtt cagacttcagcagtcacaggccaggcgtccacgggtcctgtgactcagatcatccagacc aaagggcccctgccagcgggaacaatcctgaagctggtgacctcagcagatggcaagccc accaccatcatcactaccacgcaggccagtggggcggggaccaagcccaccatcctgggc atcagcagcgtctcccccagtaccaccaagcccggcacgaccaccatcatcaaaaccatc cccatgtcggccatcatcacccaggcgggcgccacgggtgtgaccagcagtcctggcatc aagtcccccatcaccatcatcaccaccaaggtgatgacttcaggaactggagcacctgcg aaaatcatcactgctgtccccaaaattgccactggccacgggcagcagggagtgacccag gtggtgcttaagggggccccgggacagccaggcaccatcctccgcactgtgcccatgggg ggtgttcgcctggtcacacccgtcaccgtctccgccgtcaagccagccgtcaccacgttg gttgtgaaaggcaccacaggtgtcacgaccctaggcacagtgacaggcaccgtctccacc agccttgccggggcggggggccacagcactagtgcttccctggccacgcccatcaccacc ttgggcaccattgccaccctctcaagccaggtgatcaaccccactgccatcactgtgtcg gccgcacagaccacgctgacagcggcaggcgggctcacaaccccaaccatcaccatgcag cccgtgtcccagcccacccaggtaactctgatcacggcacctagtggggtggaggcccag cctgtgcatgacctccctgtgtccattctggcctccccgactacagaacagcccaccgcc acagttaccatcgccgactcaggccagggtgatgtgcagcctggcactgtcaccttggtg tgctccaacccaccctgtgagacccacgagactggcaccaccaacacggccaccactact gttgtggctaaccttgggggacacccccagcccacccaagtgcagttcgtctgtgacaga caggaggcagctgcttctcttgtgacctcgactgtgggccagcagaatggtagcgtggtc cgagtctgttcgaacccgccctgcgagacccacgagacgggcaccaccaacaccgccacc accgccacctccaacatggccgggcagcatggctgctcaaacccaccctgcgagacccac gagacgggcaccaccaacactgccactacagccatgtcgagcgtcggcgccaaccaccag cgagatgcccgtcgggcctgtgcagctggcacccctgccgtgatccggatcagtgtggcc actggggcgctggaggcagcccagggctctaagtcccagtgccaaacccgccagaccagc gcgaccagcaccaccatgactgtgatggccaccggggccccgtgctcggccggcccactc cttgggccgagcatggcacgggagcccgggggccgcagccctgcttttgtgcagttggcc cctctgagcagcaaagtcaggctgagcagcccaagcattaaggaccttcctgcggggcgc cacagccatgcggtcagcaccgctgccatgacccgttccagcgtgggtgctggggagccc cgcatggcacctgtgtgcgagagcctccagggtggctcgcccagcaccacagtgactgtg acagccctggaggcactgctgtgcccctcggccaccgtgacccaagtctgctccaaccca ccatgtgagacccacgagacaggcaccaccaacaccgccactacctcgaatgcaggcagc gcccagagggtgtgctccaacccgccatgcgagacccacgagacgggcaccacccacacg gccaccaccgctacttcaaacgggggcacgggccagcccgagggtgggcagcagccccct gctggtcgcccctgtgagacacaccagaccacttccactggcaccaccatgtcggtcagc gtgggtgccctgcttcccgacgccacttcttcccacaggaccgtggagtctggcctagag gtggcggcggcacccagcgtcaccccccaggctggcaccgcgctgctggctcctttccca acacagagggtgtgctccaaccccccctgtgagacccacgagacgggcaccactcacacg gccaccactgtcacttccaacatgagttcaaaccaagaccccccacctgctgccagcgat cagggagaggtggagagcacccagggcgacagcgtgaacatcaccagctccagtgccatc acgacaaccgtgtcctccacactgacgcgggctgtgaccaccgtgacgcagtccacaccg gtcccgggcccctctgtgccgaagatctcatcaatgactgagactgccccaagggctctg actactgaagtccccatcccggccaaaataacagtgaccatagccaacacagaaacttct gacatgcccttctctgctgttgacatcctgcagcccccagaggaactccaggtgtcgcca ggtcctcgccagcagctgccgccacggcagcttctgcagtcggcttccacagccctgatg ggggagtccgccgaggtcctgtcagcctcccagacccctgagctcccggccgccgtggat ctgagcagcacaggggagccatcttcgggccaggagtctgccggctctgcggtggtggcc actgtggtggtccagccacccccacccacacagtccgaagtagaccagttatcacttccc caagagctaatggccgaggcccaagctggcaccaccaccctcatggtaacggggctcacc cccgaggagctggcagtgacggctgctgcagaagcagctgcccaggccgcagccacggag gaagcccaggccctggccatccaggcggtgctccaggccgcgcagcaggccgtcatggcc ttcctagtaagtagtgtttctctcgaccctggagcaggcaccggcgagcccatggacacc tccgaggcagcagcaaccgtgactcaggcggagctggggcacctgtcggccgagggtcag gagggccaggccaccaccatacccattgtgctgacacagcaggagctggctgccctggtg cagcagcagcagctgcaggaggcccaggcccagcagcagcatcaccacctccccactgag gccctggcccctgccgacagtctcaacgacccagccattgagagcaattgcctcaatgag ctggccggcacggtccccagcactgtggcgctgctgccctcaacggccactgagagtaag cgactgagggcgaattggtgctggggtggtgggggcacccagggaggcctggctccatcc aacacatttgtggccccccagccggttgtggtggccagcccagccaagctgcaggctgca gctaccctgaccgaagtggccaatggcatcgagtccctgggtgtgaagccagacctgccg cccccacccagcaaagcccccatgaagaaggaaaaccagtggtttgatgtgggagtcatt aagggcaccaatgtaatggtgacacactatttcctgccaccagatgatgctgtcccatca gacgatgatttgggcaccgtccctgactataaccagctgaagaagcaggagctgcagcca ggcacagcctataagtttcgtgttgccggaatcaatgcctgtggccgggggcccttcagc gaaatctcagcctttaagacgtgcctgcctggtttcccaggggccccttgtgccattaaa atcagcaaaagtccggatggtgctcacctcacctgggagccaccctctgtgacctccggc aagattatcgagtactccgtgtacctggccatccagagctcacaggctgggggcgagctc aagagctccaccccggcccagctggccttcatgcgggtgtactgcgggcccagcccctcc tgcctggtgcagtcctccagcctttccaacgcccacatcgactacaccaccaagcccgcc atcatcttccgcatcgccgcccgcaatgagaagggctatggcccggccacacaagtgagg tggctgcaggaaaccagtaaagacagctctggcaccaagccagccaacaagcggcccatg tcctctccagaaatggatctttctggaggaaaagctggggccagccagggcaggagaggt gtgaaatctgccacgaggggcctgctgtttgccacccagcccaacttcctgttgctggcc cctgccctctgcccttttgcctgtcctcaggccgctggaacaaaggaaggacagctcatt cctcatgggcgatcactccgcatctatagggacatggagaaagagcgagagactctgcag gcctggaaggagcgcgtggggcaggagctggaccgcgtggtggctttctggatggagcac tcccacgaccaggagcacgggggcttcttcacgtgccttggccgcgaggggcgggtgtat gatgacctcaagtatgtgtggctgcaggggaggcaggtatggatgtattgtcgcctgtac cgcactttcgagcgcttccgccatgctcagcttctggacgcagcaaaagcaggtggtgag ttcttgctgcggtatgcccgggtggcacctcctggcaagaagtgtgcctttgtgctgact cgggacggccgcccggtcaaggtgcagcgaaccatcttcagtgagtgtttctacaccatg gccatgaacgagctgtggagagccacaggggaagtgcggtaccagacggaagcggtggag atgatggatcagatcgtccactgggtgcaggaggacgcgtcgggactgggccggccccag ctccagggggccccggctgcggagcccatggcggtgcccatgatgctactgaacctggtg gagcagctcggggaggcagatgaggagctggcgggcaaatacgcagagctgggggactgg tgcgcccggaggattctgcagcacgtgcagagggatggacaagctgtgctggagaatgtg tcagagggtggcaaggaacttcctggctgcctggggagacagcagaacccaggccacacg ctggaagccggctggtttctgctccgtcattgcattcggaaaggcgaccccgaacttcga gcccacgtgattgacaagttcctattgttgcccttccactccggatgggaccctgaccac ggaggcctcttttacttccaggatgctgataacttctgccccacccagctggagtgggcc atgaagctctggtggccacacagtgaagccatgattgccttcctcatgggttacagtgac agtggggaccctgtgctgctgcgcctcttctaccaagtggctgagtacaccttccgccag tttcgcgatcccgagtacggggaatggtttggctacctgagccgagagggcaaggtggcc ctctccatcaagggaggtcctttcaaaggcccgccccgcgctgaccggctccgcgcattg gcccgccccgtgcgctggcctgtcccgcgcattggccaagcggccgggaggacgggcccg gcggccgtgcacttccggccggtggccggcccggcgcgcaccgccccttccgccgtcgcc cagcgagcccagctccggtcccagccccggccgtcccggcgtcgcttcggagcgcggcgg cagctgactgcgccttcacgatccgctgggacccgcgagccccgccgccgttatgaacat ccgcaatgcgagggtgagcgcccggggcgggaggctgtccgcgccgcgtgggcgccgggc cgggtggctgccgcgcatgctcccgagggccccggccgagcccggcccggtggccctgag tgtgcctgcggccgctggacctatggggctggcccagcccgccgaagaggccggggcgcg gggccggggctgcgattccctcctgtttgcgtgatgtcgggcctccgttggccagaggac ctaatgaacatgcagcactgcaacctcctctgcctgcccgagaactaccagatgaaatac tacttctaccatggcctttcctggccccagctctcttacattgctgaggacgagaatggg aagattgtggggtatgtcctggccaaaatggaagaggacccagatgatgtgccccatgga catatcacctcattggctgtgaagcgttcccaccggcgcctcggtctggctcagaaactg atggaccaggcctctcgagccatgatagagaacttcaatgccaaatatgtctccctgcat gtcaggaagagtaaccgggccgccctgcacctctattccaacaccctcaactttcagatc agtgaagtggagcccaaatactatgcagatggggaggacgcctatgccatgaagcgggac ctcactcagatggccgacgagctgaggcggcacctggagctgaaagagaagggcaggcac gtggtgctgggtgccatcgagaacaaggtggagagcaaaggcaattcacctccgagctca ggagaggcctgtcgcgaggagaagggcctggctgccgaggatagtggtggggacagcaag gacctcagcgaggtcagcgagaccacagagagcacagatgtcaaggacagctcagaggcc tccgactcagcctcctag >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_9|226_aa MAAAASRKCPDETANPSDALGPAPLGTVSRVDKGRTPEELPLTSTGDSGTQVAGVGEQPL QPRLRPGSEHFRALHTQQPQEAARGAPRGSRGRGDSGRRRSRAPAPGGFESRPARRRTGA ARILPFRRFEFPPARRVRRNTRMVIAGLFAPILRPPGRGGGGGGGGIRPATRRPQRGDPS CCPGAAVASRNGQTGPVRACGFCCKRLEVQLNYKIYQIYRRAELLL >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_9|681_bp atggcggcggcggcatctcggaaatgcccggatgagactgctaacccctccgacgcgctc ggccccgcccccttgggaacggtctctcgggttgataagggacgcacgcccgaagaactg cctttaaccagcactggggacagcggcacgcaggtggccggggttggcgaacagccactg cagccgcgcctgcggccgggaagcgagcattttcgcgccctgcacacccagcagccgcag gaggcggcccgaggcgcgccgcgggggagccgggggcggggcgacagtgggaggcgacgc agccgagcgccggcgcccgggggcttcgagtcccgccctgcgcgcaggcgcaccggcgct gctcggatcctcccttttcggagatttgaatttcccccagcgaggcgagtgaggcgaaat acccgtatggtgatagctggccttttcgcgccaatactgaggccgcccgggcgcggcggc ggcggcggcggcggcggcatccgccctgccacgcgcaggccgcagcgcggggacccaagc tgctgcccgggagcggcagtcgccagtagaaatggacagaccggtcctgtcagagcctgt ggcttttgttgtaaacgtctagaagttcagttaaattacaagatctaccagatctaccgg cgggcagaattattactttga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_10|278_aa MAAESKEEATWKPSWRFFQGEWGQAFVHVAVAGGLCAVAVFTGIFDSVSVQVGYEHYAEA PVAGLPAFLAMPFNSLVNMAYTLLGLSWLHRGGAMGLGPRYLKDVFAAMALLYGPVQWLR LWTQWRRAAVLDQWLTLPIFAWPVAWCLYLDRGWRPWLFLSLECVSLASYGLALLHPQGF EVALGAHVVAAVGQALRTHRHYGSTTSATYLALGVLSCLGFVVLKLCDHQLARWRLFQCL TGHFWSKVCDVLQFHFAFLFLTHFNTHPRFHPSGGKTR >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_10|837_bp atggcagcagaaagcaaggaagaagccacgtggaagccctcctggcgcttcttccaggga gagtgggggcaggccttcgtgcacgtggccgtggccggtggcctctgtgccgtggctgtg ttcacgggcattttcgacagtgtttccgtgcaagtgggctatgagcactacgccgaggcg cccgtggccggcctccctgccttcctggccatgccgttcaactcactcgtgaacatggcc tacacgctgctggggctgtcgtggctgcacaggggcggcgcgatggggctgggtccccgc tacctgaaggacgtgttcgcagccatggccctgctctatggccccgtgcagtggctgcgc ctgtggacgcagtggcgccgtgccgcggtgctggaccagtggctcacactgcccatcttt gcatggcccgtggcctggtgcctctacctagaccgcggctggcggccctggctgttcctc tctcttgagtgcgtctccctggccagttatggcctcgctctgctgcatccccagggcttc gaggtcgcactgggtgctcacgtggtggccgctgtggggcaggcgctgcgcacccacagg cactatggcagcaccacctcggctacctacttagctttgggggtgctctcttgcctgggc tttgtggtcctcaagctgtgtgaccatcagctcgcacggtggcgtctcttccagtgcctc acaggccacttctggtccaaggtctgtgacgtgctccagttccactttgcgtttttgttt ctgacgcatttcaacactcacccaagattccatccctctggcgggaagacgcgttga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_11|69_aa MAAESKEEATWKPSWRFFQGGPYLVAMCSASQDRTSSPGAQFQKHLSHHSRGPNANLEGT EQVHMGGPC >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_11|210_bp atggcagcagaaagcaaggaagaagccacgtggaagccctcctggcgcttcttccaggga ggtccttacctggtggcaatgtgctcagccagccaggacagaacatccagcccaggtgcc cagttccagaaacatctcagtcatcacagtcgtgggccgaatgccaacctcgagggcact gagcaggtgcacatgggtggcccatgctga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_12|64_aa MKSMGEAISVTFAIGWQLLRREGGSEKSARSSSLSLASSAGHEGAAGWFQLVAIGLPRLT DCSG >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_12|195_bp atgaaaagcatgggtgaggccatttctgttacatttgcgatcgggtggcagctgctccgc cgtgaaggcggtagcgagaagtctgcccgctcctccagcctctcactagcgtcctccgct ggacacgaaggagccgctgggtggttccagctcgtggccatcgggctgccccggctaacc gactgcagcgggtga >gi568815575r:153807732_154026202|GENSCAN_predicted_peptide_13|784_aa MAAGPGTAPSAPPGVARGRLEGEAPAGPGPAAAAMAGGPGPGEPAAPGAQHFLYEVPPWV MCRFYKVMDALEPADWCQFAALIVRDQTELRLCERSGQRTASVLWPWINRNARVADLVHI LTHLQLLRARDIITACTTAPRPSSIPAPAEAEAWSPRKLPSSASTFLSPAFPGSQTHSGP ELGLVPSPASLWPPPPSPAPSSTKPGPESSVSLLQGARPFPFCWPLCEISRGTHNFSEEL KIGEGGFGCVYRAVMRNTVYAVKRLKEPSFWRRVPGPLVVLGLGWHWWPEGLRFESLTLP VFPAPSPTAPWGLQNADLEWTAVKQSFLTEVEQLSRFRHPNIVDFAGYCAQNGFYCLVYG FLPNGSLEDRLHCQRLDILLGTARAIQFLHQDSPSLIHGDIKSSNVLLDERLTPKLGDFG LARFSRFAGSSPSQSSMVARTQTVRGTLAYLPEEYIKTGRLAVDTDTFSFGVVVLETLAG QRAVKTHGARTKYLKDLVEEEAEEAGVALRSTQSTLQAGLAADAWAAPIAMQIYKKHLDP RPGPCPPELGLGLGQLACCCLHRRAKRRPPMTQVYERLEKLQAVVAGVPGHSEAASCIPP SPQENSYVSSTGRAHSGAAPWQPLAAPSGASAQAAEQLQRGPNQPVESDESLGGLSAALR SWHLTPSCPLDPAPLREAGCPQGDTAGESSWGSGPGSRPTAVEGLALGSSASSSSEPPQI IINPARQKMVQKLALYEDGALDSLQLLSSSSLPGNRKPQQEFSIPGLGLEQDRQGPEESD EFQS >gi568815575r:153807732_154026202|GENSCAN_predicted_CDS_13|2355_bp atggcggcgggcccgggcaccgccccttccgccccgccgggcgtcgcacgaggccggctc gaaggggaagccccggcaggtcccggcccggcggcggcagccatggccggggggccgggc ccgggggagcccgcagcccccggcgcccagcacttcttgtacgaggtgccgccctgggtc atgtgccgcttctacaaagtgatggacgccctggagcccgccgactggtgccagttcgcc gccctgatcgtgcgcgaccagaccgagctgcggctgtgcgagcgctccgggcagcgcacg gccagcgtcctgtggccctggatcaaccgcaacgcccgtgtggccgacctcgtgcacatc ctcacgcacctgcagctgctccgtgcgcgggacatcatcacagcctgcaccactgccccg aggcccagcagcatccctgcacccgccgaggccgaggcctggagcccccggaagttgcca tcctcagcctccaccttcctctccccagcttttccaggctcccagacccattcagggcct gagctcggcctggtcccaagccctgcttccctgtggcctccaccgccatctccagcccct tcttctaccaagccaggcccagagagctcagtgtccctcctgcagggagcccgccccttt ccgttttgctggcccctctgtgagatttcccggggcacccacaacttctcggaggagctc aagatcggggagggtggctttgggtgcgtgtaccgggcggtgatgaggaacacggtgtat gctgtgaagaggctgaaggagccctcattctggcgtagggtccctggccccttggtggtt ctgggcctcgggtggcactggtggcccgaaggccttcgcttcgagagcctcacgctgccc gtcttccctgccccttcccccaccgcaccctgggggctgcagaacgctgacctggagtgg actgcagtgaagcagagcttcctgaccgaggtggagcagctgtccaggtttcgtcaccca aacattgtggactttgctggctactgtgctcagaacggcttctactgcctggtgtacggc ttcctgcccaacggctccctggaggaccgtctccactgccagcgactggacatccttctg ggtacagcccgggcaattcagtttctacatcaggacagccccagcctcatccatggagac atcaagagttccaacgtccttctggatgagaggctgacacccaagctgggagactttggc ctggcccggttcagccgctttgccgggtccagccccagccagagcagcatggtggcccgg acacagacagtgcggggcaccctggcctacctgcccgaggagtacatcaagacgggaagg ctggctgtggacacggacaccttcagctttggggtggtagtgctagagaccttggctggt cagagggctgtgaagacgcacggtgccaggaccaagtatctgaaagacctggtggaagag gaggctgaggaggctggagtggctttgagaagcacccagagcacactgcaagcaggtctg gctgcagatgcctgggctgctcccatcgccatgcagatctacaagaagcacctggacccc aggcccgggccctgcccacctgagctgggcctgggcctgggccagctggcctgctgctgc ctgcaccgccgggccaaaaggaggcctcctatgacccaggtgtacgagaggctagagaag ctgcaggcagtggtggcgggggtgcccgggcattcggaggccgccagctgcatcccccct tccccgcaggagaactcctacgtgtccagcactggcagagcccacagtggggctgctcca tggcagcccctggcagcgccatcaggagccagtgcccaggcagcagagcagctgcagaga ggccccaaccagcccgtggagagtgacgagagcctaggcggcctctctgctgccctgcgc tcctggcacttgactccaagctgccctctggacccagcacccctcagggaggccggctgt cctcagggggacacggcaggagaatcgagctgggggagtggcccaggatcccggcccaca gccgtggaaggactggcccttggcagctctgcatcatcgtcgtcagagccaccgcagatt atcatcaaccctgcccgacagaagatggtccagaagctggccctgtacgaggatggggcc ctggacagcctgcagctgctgtcgtccagctccctcccaggaaataggaagccccagcag gaattttccatcccaggcttgggcctggaacaggacaggcaggggcccgaagaaagtgat gaatttcagagctga