Result of GENSCAN for
pF1KE2495
GENSCAN 1.0 Date run: 8-Nov-116 Time: 02:45:22 Sequence gi568815584r:23282428_23507223 : 224796 bp : 48.16% C+G : Isochore 2 (43 - 51 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.03 PlyA - 1532 1527 6 1.05 1.02 Term - 4250 3929 322 1 1 52 50 196 0.274 6.49 1.01 Init - 11201 11104 98 2 2 50 107 65 0.419 4.38 1.00 Prom - 14749 14710 40 -4.26 2.03 PlyA - 16553 16548 6 1.05 2.02 Term - 19431 19009 423 0 0 128 53 737 0.999 69.50 2.01 Init - 20149 19733 417 1 0 78 96 545 0.999 50.73 2.00 Prom - 22175 22136 40 -6.06 3.00 Prom + 22401 22440 40 -4.96 3.01 Init + 23540 23555 16 1 1 57 41 9 0.238 -6.25 3.02 Intr + 24423 24467 45 1 0 132 49 38 0.610 2.68 3.03 Intr + 24765 24852 88 1 1 149 92 46 0.714 10.13 3.04 Intr + 25310 25772 463 2 1 33 86 434 0.715 30.86 3.05 Intr + 26389 26505 117 0 0 136 53 107 0.542 12.66 3.06 Term + 28546 28671 126 0 0 78 48 36 0.429 -3.12 3.07 PlyA + 28948 28953 6 1.05 4.00 Prom + 37861 37900 40 -2.26 4.01 Init + 39043 39393 351 0 0 107 93 526 0.999 50.16 4.02 Intr + 39754 39868 115 0 1 47 101 144 0.995 11.62 4.03 Intr + 40572 40639 68 1 2 49 63 90 0.960 1.22 4.04 Intr + 40950 41056 107 2 2 110 110 46 0.956 8.01 4.05 Intr + 41734 41862 129 1 0 35 71 155 0.801 8.31 4.06 Term + 43435 43444 10 1 1 110 42 8 0.377 -3.93 4.07 PlyA + 43711 43716 6 1.05 5.17 PlyA - 44642 44637 6 1.05 5.16 Term - 64509 64221 289 2 1 129 53 381 0.998 33.55 5.15 Intr - 64785 64674 112 1 1 116 97 91 0.999 12.24 5.14 Intr - 65304 65033 272 2 2 81 34 283 0.514 19.39 5.13 Intr - 65569 65464 106 2 1 98 63 54 0.955 3.17 5.12 Intr - 65879 65734 146 1 2 92 90 121 0.991 12.63 5.11 Intr - 66244 66079 166 2 1 117 52 78 0.614 6.12 5.10 Intr - 66999 66845 155 2 2 70 85 125 0.989 10.12 5.09 Intr - 69428 69325 104 2 2 101 94 155 0.994 16.37 5.08 Intr - 70024 69521 504 1 0 72 94 799 0.620 72.07 5.07 Intr - 70333 70219 115 0 1 14 83 189 0.787 11.45 5.06 Intr - 75233 74866 368 2 2 119 20 286 0.336 18.84 5.05 Intr - 76538 76449 90 2 0 100 60 97 0.910 8.29 5.04 Intr - 77612 76890 723 2 0 103 105 522 0.885 47.03 5.03 Intr - 77854 77714 141 1 0 112 78 20 0.916 3.95 5.02 Intr - 78406 78239 168 1 0 72 34 227 0.561 15.84 5.01 Init - 82598 82581 18 2 0 89 109 30 0.905 5.34 5.00 Prom - 86924 86885 40 -11.14 6.00 Prom + 88866 88905 40 -7.26 6.01 Init + 88908 88991 84 2 0 94 72 49 0.863 4.72 6.02 Intr + 90749 90969 221 1 2 80 61 85 0.506 2.10 6.03 Intr + 93174 93423 250 0 1 57 3 264 0.407 12.24 6.04 Intr + 94798 94950 153 0 0 13 52 224 0.965 11.57 6.05 Intr + 95922 96074 153 2 0 74 81 264 0.999 24.57 6.06 Intr + 96604 96696 93 0 0 100 59 166 0.932 15.06 6.07 Intr + 96872 96956 85 1 1 106 96 166 0.986 18.59 6.08 Term + 97047 97060 14 1 2 90 41 9 0.703 -5.24 6.09 PlyA + 97325 97330 6 -1.75 7.77 PlyA - 99578 99573 6 1.05 7.76 Term - 99636 99613 24 0 0 123 47 39 0.867 1.52 7.75 Intr - 100135 100001 135 1 0 103 98 267 0.999 29.96 7.74 Intr - 100893 100798 96 0 0 98 101 247 0.997 27.21 7.73 Intr - 102290 102015 276 2 0 96 80 645 0.999 62.21 7.72 Intr - 102614 102489 126 2 0 84 95 238 0.999 24.98 7.71 Intr - 103704 103501 204 0 0 73 94 520 0.998 50.50 7.70 Intr - 104196 103888 309 0 0 99 83 640 0.999 61.11 7.69 Intr - 105226 105102 125 2 2 72 78 191 0.904 16.80 7.68 Intr - 105496 105331 166 1 1 41 49 327 0.904 23.63 7.67 Intr - 105911 105728 184 1 1 53 38 390 0.998 30.29 7.66 Intr - 106628 106432 197 2 2 116 63 406 0.999 39.11 7.65 Intr - 107084 106966 119 0 2 78 100 126 0.654 12.98 7.64 Intr - 107292 107166 127 0 1 79 64 264 0.813 23.35 7.63 Intr - 108019 107666 354 1 0 56 -22 906 0.950 71.89 7.62 Intr - 110225 110135 91 1 1 129 62 132 0.995 14.70 7.61 Intr - 110630 110485 146 2 2 84 13 285 0.994 19.68 7.60 Intr - 111091 110915 177 1 0 63 76 286 0.967 25.02 7.59 Intr - 111481 111239 243 1 0 115 100 547 0.999 56.29 7.58 Intr - 111896 111641 256 1 1 97 77 476 0.995 44.85 7.57 Intr - 113993 113857 137 2 2 116 94 237 0.996 26.47 7.56 Intr - 114390 114267 124 2 1 104 113 184 0.996 23.09 7.55 Intr - 114653 114536 118 0 1 102 90 290 0.999 30.12 7.54 Intr - 114830 114743 88 2 1 118 99 100 0.886 13.64 7.53 Intr - 115219 115116 104 2 2 97 94 61 0.393 7.49 7.52 Intr - 116610 116301 310 0 1 95 107 605 0.975 58.99 7.51 Intr - 117999 117829 171 0 0 110 46 454 0.981 43.54 7.50 Intr - 118550 118282 269 0 2 63 86 520 0.998 46.55 7.49 Intr - 120175 120037 139 1 1 90 81 309 0.999 30.44 7.48 Intr - 120373 120270 104 2 2 89 76 282 0.999 26.99 7.47 Intr - 121019 120921 99 0 0 113 1 149 0.998 8.78 7.46 Intr - 121351 121288 64 1 1 107 76 41 0.977 3.09 7.45 Intr - 121961 121869 93 2 0 75 59 198 0.999 15.76 7.44 Intr - 122395 122284 112 0 1 85 45 198 0.999 15.58 7.43 Intr - 122700 122673 28 1 1 138 68 41 0.999 4.27 7.42 Intr - 122952 122796 157 0 1 86 99 325 0.807 32.98 7.41 Intr - 123343 123200 144 1 0 83 73 276 0.999 26.08 7.40 Intr - 124809 124596 214 2 1 71 113 392 0.948 38.72 7.39 Intr - 126865 126753 113 1 2 60 106 -27 0.227 -4.52 7.38 Intr - 131466 131332 135 0 0 141 98 327 0.999 39.76 7.37 Intr - 131675 131580 96 2 0 95 101 251 0.999 27.31 7.36 Intr - 132843 132568 276 0 0 95 80 679 0.989 65.51 7.35 Intr - 133079 132954 126 2 0 68 95 200 0.995 19.58 7.34 Intr - 133405 133202 204 1 0 114 99 481 0.996 51.20 7.33 Intr - 133885 133577 309 1 0 92 73 671 0.995 62.51 7.32 Intr - 134565 134441 125 1 2 78 85 213 0.994 20.30 7.31 Intr - 134891 134726 166 2 1 44 49 335 0.999 24.73 7.30 Intr - 135259 135076 184 0 1 102 86 444 0.999 45.39 7.29 Intr - 135979 135783 197 1 2 95 89 412 0.999 40.21 7.28 Intr - 136868 136750 119 0 2 54 116 224 0.998 21.98 7.27 Intr - 137182 137056 127 1 1 111 89 228 0.999 25.45 7.26 Intr - 137807 137454 354 2 0 60 -22 906 0.906 72.29 7.25 Intr - 138621 138531 91 2 1 124 94 192 0.999 23.40 7.24 Intr - 139898 139753 146 2 2 95 18 383 0.999 31.08 7.23 Intr - 141386 141120 267 2 0 -30 76 425 0.842 27.23 7.22 Intr - 141722 141480 243 2 0 122 116 493 0.999 53.19 7.21 Intr - 142597 142342 256 0 1 58 77 448 0.995 38.15 7.20 Intr - 142991 142855 137 2 2 72 66 217 0.983 17.27 7.19 Intr - 143391 143268 124 2 1 104 100 199 0.999 23.29 7.18 Intr - 143654 143537 118 0 1 115 90 287 0.999 31.12 7.17 Intr - 144437 144350 88 2 1 90 94 60 0.998 6.34 7.16 Intr - 144880 144813 68 2 2 121 96 73 0.999 10.02 7.15 Intr - 145467 145158 310 0 1 114 96 622 0.999 61.49 7.14 Intr - 146243 146073 171 2 0 110 46 455 0.999 43.64 7.13 Intr - 146677 146528 150 1 0 104 76 253 0.999 26.06 7.12 Intr - 146920 146802 119 2 2 100 94 192 0.999 21.18 7.11 Intr - 147486 147348 139 0 1 43 81 173 0.992 12.14 7.10 Intr - 148236 148133 104 1 2 112 76 215 0.982 22.59 7.09 Intr - 148572 148474 99 1 0 97 92 66 0.996 7.98 7.08 Intr - 149054 148991 64 2 1 128 76 68 0.999 7.89 7.07 Intr - 149250 149158 93 0 0 114 69 188 0.999 19.66 7.06 Intr - 149442 149334 109 2 1 69 102 175 0.656 17.29 7.05 Intr - 150079 150052 28 2 1 141 94 32 0.999 6.27 7.04 Intr - 150368 150212 157 2 1 98 94 307 0.973 31.88 7.03 Intr - 150800 150657 144 2 0 22 83 328 0.999 26.18 7.02 Intr - 151313 151105 209 0 2 56 98 397 0.105 36.30 7.01 Init - 166015 165946 70 1 1 84 101 32 0.189 5.33 7.00 Prom - 180386 180347 40 -2.46 8.00 Prom + 184140 184179 40 -6.86 8.01 Init + 186420 186470 51 2 0 75 115 25 0.839 5.23 8.02 Intr + 187247 187300 54 1 0 33 105 73 0.443 2.68 8.03 Intr + 187615 187674 60 0 0 100 89 62 0.983 6.43 8.04 Intr + 188479 188550 72 0 0 64 116 28 0.864 2.80 8.05 Intr + 192744 192881 138 2 0 79 72 126 0.999 10.76 8.06 Intr + 193131 193215 85 2 1 45 83 93 0.982 3.89 8.07 Intr + 193299 193351 53 1 2 72 116 22 0.951 2.03 8.08 Intr + 193602 193725 124 2 1 71 30 105 0.946 3.16 8.09 Intr + 193812 193980 169 1 1 74 41 213 0.977 14.20 8.10 Intr + 194773 194929 157 1 1 82 78 99 0.997 8.31 8.11 Intr + 195076 195133 58 0 1 86 86 71 0.905 5.16 8.12 Term + 195580 195599 20 2 2 131 38 14 0.840 -0.82 8.13 PlyA + 195723 195728 6 1.05 9.03 PlyA - 196037 196032 6 1.05 9.02 Term - 203004 202895 110 1 2 68 39 68 0.178 -1.43 9.01 Init - 217243 217165 79 1 1 55 77 84 0.574 5.22 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 181815 181882 68 2 2 114 60 65 0.860 6.84 S.002 Term + 184940 184970 31 2 1 90 55 51 0.845 -0.67 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_1|139_aa MSAQRIYSSLSVVSETRYAEEQNQHEEQTPQERLLRSSSFRVARHLIPLENKFPVALGAL LQLTLLVAVGLSAGKGAARLYGSGGGTEKVFLEGFLQKETNWELLAVQTVQQSAVSLLGE FRKDPGPVYSKGPAPIGRR >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_1|420_bp atgtcggcacagagaatttactcttcactaagtgttgtaagtgaaacaagatatgctgaa gagcagaatcagcatgaggagcagacaccccaggagaggctcctaaggtcctcgtctttc cgggtggcaagacatctgatccctctcgagaacaagttcccagttgctttaggcgctttg ttacagctgacgctgctggtggcggttgggctctcggctgggaaaggcgcagctcgtttg tatggctccggagggggcactgaaaaggtcttcctggagggcttccttcagaaggaaaca aattgggagttgttggcggtccagacagttcagcaaagtgcagtatccctccttggggaa tttcggaaggatcctggtccggtgtattccaaaggtccggcgccgataggtcgacggtag >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_2|279_aa MSRERPPGTDIPRNLSFIAALTERAYYRSQRPSLEEEPEEEPGEGGTRFGARSRAHAPSR GRRARSAPAGGGGARAPRSRSPDTRKRVRFADALGLELAVVRRFRPGELPRVPRHVQIQL QRDALRHFAPCQPRARGLQEARAALEPASEPGFAARLLTQRICLERAEAGPLGVAGSARV VDLAYEKRVSVRWSADGWRSQREAPAAYAGPAPPPPRADRFAFRLPAPPIGGALLFALRY RVTGHEFWDNNGGRDYALRGPEHPGSGGAPEPQGWIHFI >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_2|840_bp atgtcccgtgagcggcccccgggcaccgacattccccgcaacctgagcttcatcgccgcg ctaacggagcgcgcctactaccgtagccagcggcccagcctcgaggaggagccggaggag gagccaggcgagggcgggacgcggttcggggcccgatcccgcgctcacgcaccgagtcgg ggccgccgggcccgatctgcaccagccggaggcggcggggcccgggcgccccgcagccgt agcccagacacccgcaagagagtgcgtttcgccgacgcactggggttggagctggctgtc gtgcgccgcttccgtcccggtgagctgccccgggtgccccgccacgtgcagatccaattg cagagggacgccctccgccacttcgcgccctgccagccccgcgcccgcggcctccaggag gcgcgcgccgccctggagccggccagcgagcccggcttcgccgcccgcttgctgacgcag cgcatctgcctggaacgcgccgaggcgggcccgctgggcgtggccgggagcgcgcgcgtg gtggacctggcctacgagaagcgcgtgagcgtgcgctggagcgccgacggctggcggagc caacgcgaggcgccagccgcctacgccggtccggccccgcccccgccgcgcgccgaccgc ttcgccttccgcctgcccgcgccgccgattgggggcgccctgctcttcgccttgcgctac cgtgtgacaggtcacgagttctgggacaacaacggcggccgtgactatgctctacgtggg cccgagcacccgggcagtggcggagctccggagccgcagggctggatccactttatctga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_3|284_aa MWISYAPAPGNGPDPGSGLTRLHAGQEDERPQLGAPCHQCCVLRAAIPAGLSSLPLIAAR MATPASAPDTRALVADFVGYKLRQKGYVCGAGPGEGPAADPLHQAMRAAGDEFETRFRRT FSDLAAQLHVTPGSAQQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVG QVQEWMVAYLETQLADWIHSSGGWAEFTALYGDGALEEARRLREGNWASVRTVLTGAVAL GALVWSTLFTLPSTTGHISLLAFPGTFSQEELQGPWPGYQNALL >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_3|855_bp atgtggatcagctatgctcctgcaccaggaaacggcccggatcccggcagcggcctgacc cggctccacgctggccaggaggatgaaaggccccagctgggggctccttgccaccagtgc tgtgtcttaagagctgccatcccggctggtctttcatccttgcctcttatagccgcccgg atggcgaccccagcctcggccccagacacacgggctctggtggcagactttgtaggttat aagctgaggcagaagggttatgtctgtggagctggccccggggagggcccagcagctgac ccgctgcaccaagccatgcgggcagctggagatgagttcgagacccgcttccggcgcacc ttctctgatctggcggctcagctgcatgtgaccccaggctcagcccaacaacgcttcacc caggtctccgatgaactttttcaagggggccccaactggggccgccttgtagccttcttt gtctttggggctgcactgtgtgctgagagtgtcaacaaggagatggaaccactggtggga caagtgcaggagtggatggtggcctacctggagacgcagctggctgactggatccacagc agtgggggctgggcggagttcacagctctatacggggacggggccctggaggaggcgcgg cgtctgcgggaggggaactgggcatcagtgaggacagtgctgacgggggccgtggcactg ggggccctggtatggagcacactcttcaccctaccctctaccacaggacacatatccctg ttagcattccccgggacctttagccaagaggagctgcagggaccatggccaggttaccaa aatgccctgctctga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_4|259_aa MAAAAAAAAAAGAAGGRGSGPGRRRHLVPGAGGEAGEGAPGGAGDYGNGLESEELEPEEL LLEPEPEPEPEEEPPRPRAPPGAPGPGPGSGAPGSQEEEEEPGLVEGDPGDGAIEDPELE AIKARVREMEEEAEKLKELQNEVEKQMNMSPPPGNAGPVIMSIEEKMEADARSIYVGNVD YGATAEELEAHFHGCGSVNRVTILCDKFSGHPKGPGISTTDRGFPRARYRARTTNYNSSR SRFYSGFNSRPRGRVYRFL >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_4|780_bp atggcggcggcggcggcggcggcagcagcagcgggggctgcgggcggtcggggctccggg ccggggcggcggcgccatcttgtgcccggggccggtggggaggccggggagggggccccg gggggcgcaggggactacgggaacggcctggagtctgaggaactggagcctgaggagctg ctgctggagcccgagccggagcccgagcccgaagaggagccgccccggccccgcgccccc ccgggagctccgggccctgggcctggttcgggagcccccggcagccaagaggaggaggag gagccgggactggtcgagggtgacccgggggacggcgccattgaggacccggagctggaa gctatcaaagctcgagtcagggagatggaggaagaagctgagaagctaaaggagctacag aacgaggtagagaagcagatgaatatgagtccacctccaggcaatgctggcccggtgatc atgtccattgaggagaagatggaggctgatgcccgttccatctatgttggcaatgtggac tatggtgcaacagcagaagagctggaagctcactttcatggctgtggttcagtcaaccgt gttaccatactgtgtgacaaatttagtggccatcccaaaggaccaggcatcagcacaaca gaccggggttttccacgagcccgctaccgcgcccggaccaccaactacaacagctcccgc tctcgattctacagtggttttaacagcaggccccggggtcgcgtctacaggtttctgtag >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_5|1158_aa MAIATSTQLARALYDNTAESPQELSFRRGDVLRVLQREGAGGLDGWCLCSLHGQQGIVPA NRVYVVPPPARPCPTSGPPAGPCPPSPDLIYKIPRASGTQLAAPRDALEVYDVPPTALRV PSSGPYDCPASFSHPLTRVAPQPPGEDDAPYDVPLTPKPPAELEPDLEWEGGREPGPPIY AAPSNLKRASALLNLYEAPEELLADGEGGGTDEGIYDVPLLGPEAPPSPEPPGALASHDQ DTLAQLLARSPPPPHRPRLPSAESLSRRPLPALPVPEAPSPSPVPSPAPGRKGSIQDRPL PPPPPRLPGYGGPKVEGDPEGREMEDDPAGHHNEYEGIPMAEEYDYVHLKGMDKAQGSRP PDQACTGDPELPERGMPAPQEALSPGEPLVVSTGDLQLLYFYAGQCQSHYSALQAAVAAL MSSTQANQPPRLFVPHSKRVVVAAHRLVFVGDTLGRLAASAPLRAQVRAAGTALGQALRA TVLAVKGAALGYPSSPAIQEMVQAPAVGKLAPRVATGTPEPNGGGGGKIDNTVEITPTSN GQVGTLGDAVPTEQLQGEREREREGEGDAGGDGLGSSLSLAVPPGPLSFEALLAQVGALG GGQQLQLGLCCLPVLFVALGMASDPIFTLAPPLHCHYGAFPPNASGWEQPPNASGVSVAS AALAASAASRVATSTDPSCSGFAPPDFNHCLKDWDYNGLPVLTTNAIGQWDLVCDLGWQV ILEQILFILGFASGYLFLGYPADRFGRRGIVLLTLGLVGPCGVGGAAAGSSTGVMALRFL LGFLLAGVDLGVYLMRLELCDPTQRLRVALAGELVGVGGHFLFLGLALVSKDWRFLQRMI TAPCILFLFYGWPGLFLESARWLIVKRQIEEAQSVLRILAERNRPHGQMLGEEAQEALQD LENTCPLPATSSFSFASLLNYRNIWKNLLILGFTNFIAHAIRHCYQPVGGGGSPSDFYLC SLLASGTAALACVFLGVTVDRFGRRGILLLSMTLTGIASLVLLGLWDCEHPIFPTVWAQQ GNPNRDLNEAAITTFSVLGLFSSQAAAILSTLLAAEVIPTTVRGRGLGLIMALGALGGLS GPAQRLHMGHGAFLQHVVLAACALLCILSIMLLPETKRKLLPEVLRDGELCRRPSLLRQP PPTRCDHVPLLATPNPAL >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_5|3477_bp atggccattgccacgtcgacccagctggcccgggcactgtatgacaacaccgctgagtcc ccccaggagctgtccttccgccgaggggatgtcctacgggtcctgcagagagagggcgct ggtggactggacggctggtgcctctgctccctacacggccagcagggcattgtgcccgcc aacagggtgtatgtggtgccgcccccagctcggccctgtccaacctcaggacctccagct ggaccttgcccaccctctcctgacctcatctacaaaatccccagagctagtgggacccag ctggctgctcccagagatgccttggaggtctacgatgtgccccccaccgccctccgggtg ccctccagtggcccctatgactgccctgcctccttttcccaccctctgacccgggttgcc ccgcagccccctggagaggatgatgctccctatgatgtgcctctgaccccaaagccacct gcagagctggaaccagatctggagtgggaaggaggccgggagccggggccccccatctat gctgccccctccaacctgaaacgagcgtcagccttactcaatttgtatgaagcacccgag gaactgctggcagacggggagggcgggggcactgatgaggggatctacgatgtgcctctg ctggggccagaggctcccccttctccagagccccctggagccttggcctcccatgaccag gacaccctggcccagcttctggccagaagccccccacccccacacaggccccggctcccc tcagctgagagcctgtcccgccgccctctgcctgccctgcctgtccctgaggcccccagc ccctccccagtgccctctcctgccccaggccggaagggcagcatccaggaccggcctctg cccccacccccaccccgcctgcctggttatggaggccccaaggtcgagggggatccagag ggcagggagatggaggatgacccagcaggacaccacaatgagtacgagggcattccgatg gccgaggagtatgactatgtccacctgaagggcatggacaaagctcagggatctaggccc ccggatcaggcctgcacaggggatcctgaactgcccgagagggggatgccggcgccgcag gaggccctgtccccaggggagccactggttgtgtccaccggagatctgcagctcctgtac ttctatgctgggcaatgccagagccactactcagccctgcaggcagccgtggcagccctg atgtccagtacccaggctaatcagcccccgcgccttttcgtgccccacagcaagagggtg gtggtggctgctcatcgcctggtgtttgttggggacaccctgggccggctggcagcctct gcccctctgagagcacaggtcagggctgcaggtacagcactgggccaggcattgcgggcc actgtgctggctgtcaagggagctgccctgggctacccatccagccctgccatccaagag atggtgcaggcccctgcggtcggcaagctggctccccgggtggccaccgggacccccgag cccaatggcgggggcggcggcaaaatcgacaacactgtagagatcacccccacctccaac ggacaggtcgggaccctcggagatgcggtgcccacggagcagctgcagggtgagcgggag cgcgagcgggagggggagggagacgcgggcggcgacggactgggcagcagcctgtcgctg gccgtgcccccaggccccctcagctttgaggcgctgctcgcccaggtgggggcgctgggc ggcggccagcagctgcagctcggcctctgctgcctgccggtgctcttcgtggctctgggc atggcctcggaccccatcttcacgctggcgcccccgctgcattgccactacggggccttc ccccctaatgcctctggctgggagcagcctcccaatgccagcggcgtcagcgtcgccagc gctgccctagcagccagcgccgccagccgtgtcgccaccagtaccgacccctcgtgcagc ggcttcgccccgccggacttcaaccattgcctcaaggattgggactataatggccttcct gtgctcaccaccaacgccatcggccagtgggatctggtgtgtgacctgggctggcaggtg atcctggagcagatcctcttcatcttgggctttgcctccggctacctgttcctgggttac cccgcagacagatttggccgtcgcgggattgtgctgctgaccttggggctggtgggcccc tgtggagtaggaggggctgctgcaggctcctccacaggcgtcatggccctccgattcctc ttgggctttctgcttgccggtgttgacctgggtgtctacctgatgcgcctggagctgtgc gacccaacccagaggcttcgggtggccctggcaggggagttggtgggggtgggagggcac ttcctgttcctgggcctggcccttgtctctaaggattggcgattcctacagcgaatgatc accgctccctgcatcctcttcctgttttatggctggcctggtttgttcctggagtccgca cggtggctgatagtgaagcggcagattgaggaggctcagtctgtgctgaggatcctggct gagcgaaaccggccccatgggcagatgctgggggaggaggcccaggaggccctgcaggac ctggagaatacctgccctctccctgcaacatcctccttttcctttgcttccctcctcaac taccgcaacatctggaaaaatctgcttatcctgggcttcaccaacttcattgcccatgcc attcgccactgctaccagcctgtgggaggaggagggagcccatcggacttctacctgtgc tctctgctggccagcggcaccgcagccctggcctgtgtcttcctgggggtcaccgtggac cgatttggccgccggggcatccttcttctctccatgacccttaccggcattgcttccctg gtcctgctgggcctgtgggattgtgagcatcctatcttccccacagtgtgggctcaacaa gggaaccccaacagagatctgaacgaggctgccatcaccactttctctgtccttgggctc ttctcctcccaagctgccgccatcctcagcaccctccttgctgctgaggtcatccccacc actgtccggggccgtggcctgggcctgatcatggctctaggggcgcttggaggactgagc ggcccggcccagcgcctccacatgggccatggagccttcctgcagcacgtggtgctggcg gcctgcgccctcctctgcattctcagcattatgctgctgccggagaccaagcgcaagctc ctgcccgaggtgctccgggacggggagctgtgtcgccggccttccctgctgcggcagcca ccccctacccgctgtgaccacgtcccgctgcttgccacccccaaccctgccctctga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_6|350_aa MPGTCKCTGAEASRIWKGEDVCEYWGQRVVAFLAMVMGTHTYSHWPSCCPSKGQDTSEEL LRWSTVPVPPLEPARPNRHPESCRASEDGPLNSRAISPWRYEPDKCRPHRLDRDLNRLPQ DLYHARCLCPHCVSLQTGSHMDPRGNSELLYHNQTVFYRRPCHGEKGTHKGYCLERRLYR VSLACGAVLVGPTKMLSARDRRDRHPEEGVVAELQGFAVDKAFLTSHKGILLETELALTL IIFICFTASISAYMAAALLEFFITLAFLFLYATQYYQRFDRINWPCLDFLRCVSAIIIFL VVSFAAVTSRDGAAIAAFVFGIILVSIFAYDAFKIYRTEMAPGASQGDQQ >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_6|1053_bp atgcctggcacatgtaagtgcacaggagctgaggccagcaggatatggaagggagaggac gtctgcgagtactgggggcagagggtggttgcattcttggcaatggtcatgggaacccac acctacagccactggcccagctgctgccccagcaaagggcaggacacctctgaggagctg ctgaggtggagcactgtgcctgtgcctcccctagagcctgctaggcccaaccgccaccca gagtcctgtagggccagtgaagatggacccctcaacagcagggccatctccccctggaga tatgagcctgacaagtgccgcccccacaggttggacagagacttgaaccggctcccccag gacctgtaccacgcccgttgcctgtgcccgcactgcgtcagcctacagacaggctcccac atggacccccggggcaactcggagctgctctaccacaaccagactgtcttctaccggcgg ccatgccatggcgagaagggcacccacaagggctactgcctggagcgcaggctgtaccgt gtttccttagcttgtggggctgtgttggtgggccctacgaagatgctcagtgctcgagat cgccgggaccggcaccctgaggagggggtagttgcagagctccagggcttcgcggtggac aaggccttcctcacctcccacaagggcatcctgctggaaaccgagctggccctgaccctc atcatcttcatctgcttcacggcctccatctctgcctacatggccgcggcgctactggag ttcttcatcacacttgccttcctcttcctctatgccacccagtactaccagcgcttcgac cgaattaactggccctgtctggacttcctgcgctgtgtcagtgccatcatcatcttcctg gtggtctcctttgcagctgtgacctcccgggacggagctgccattgctgcttttgttttt ggcatcatcctggtttccatctttgcctatgatgccttcaagatctaccggactgagatg gcacccggggccagccagggggaccagcagtga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_7|3954_aa MIGSFLRPPQKQMPLCFLYSLQNGTAMGDSEMAVFGAAAPYLRKSEKERLEAQTRPFDLK KDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLT FLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHI FSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRSKKDQSPGKG TLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVI FQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDN AFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSAD LLKGLCHPRVKVGNEYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQ YFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFG MDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNIKGKPE AHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAGADAPIEKG KGKAKKGSSFQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLR CNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPEGQFIDSRKGAEKLLSSLDIDHN QYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLARMEYKKLLERRDSLLVI QWNIRAFMGVKNWPWMKLYFKIKPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELE EKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNERLEDEEEMNA ELTAKKRKLEDECSELKRDIDDLELTLAKVEKEKHATENKSSMDLDMELPTDGTKLVTFD PKGDGILGRQVKNLTEEMAGLDEIIAKLTKEKKALQEAHQQALDDLQAEEDKVNTLTKAK VKLEQQVDDLEGSLEQEKKVRMDLERAKRKLEGDLKLTQESIMDLENDKQQLDERLKKKD FELNALNARIEDEQALGSQLQKKLKELQARIEELEEELEAERTARAKVEKLRSDLSRELE EISERLEEAGGATSVQIEMNKKREAEFQKMRRDLEEATLQHEATAAALRKKHADSVAELG EQIDNLQRVKQKLEKEKSEFKLELDDANLEKMCRTLEDQMNEHRSKAEETQRSVNDLTSQ RAKLQTENGELSRQLDEKEALISQLTRGKLTYTQQLEDLKRQLEEEVKAKNALAHALQSA RHDCDLLREQYEEETEAKAELQRVLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQR LQEAEEAVEAVNAKCSSLEKTKHRLQNEIEDLMVDVERSNAAAAALDKKQRNFDKILAEW KQKYEESQSELESSQKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQL GSSGKTIHELEKVRKQLEAEKMELQSALEEAEASLEHEEGKILRAQLEFNQIKAEIERKL AEKDEEMEQAKRNHLRVVDSLQTSLDAETRSRNEALRVKKKMEGDLNEMEIQLSHANRMA AEAQKQVKSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELRAVVEQTE RSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAVQECRNAEEKAK KAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRLDEAEQIALKGGKKQLQKLE ARVRELENELEAEQKRNAESVKGMRKSERRIKELTYQTEEDRKNLLRLQDLVDKLQLKVK AYKRQAEEAEEQANTNLSKFRKVQHELDEAEERADIAESQVNKLRAKSRDIGTKEQRVAG EGKSLCVQMRMCKCVHPCTQKKVEKKSASLSGGSTKMTDAQMADFGAAAQYLRKSEKERL EAQTRPFDIRTECFVPDDKEEFVKAKILSREGGKVIAETENGKTVTVKEDQVLQQNPPKF DKIEDMAMLTFLHEPAVLFNLKERYAAWMIYTYSGLFCVTVNPYKWLPVYNAEVVAAYRG KKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFASIAAIGDR GKKDNANANKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADI ETYLLEKSRVIFQLKAERNYHIFYQILSNKKPELLDMLLVTNNPYDYAFVSQGEVSVASI DDSEELMATDSAFDVLGFTSEEKAGVYKLTGAIMHYGNMKFKQKQREEQAEPDGTEDADK SAYLMGLNSADLLKGLCHPRVKVGNEYVTKGQSVQQVYYSIGALAKAVYEKMFNWMVTRI NATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKK EGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLYDNHLGKSNNF QKPRNIKGKQEAHFSLIHYAGTVDYNILGWLEKNKDPLNETVVALYQKSSLKLMATLFSS YATADTAPVDYFSSRCLGDSGKSKGGKKKGSSFQTVSALHRENLNKLMTNLRTTHPHFVR CIIPNERKAPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPVAIP EGQFIDSRKGTEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRMQAQ ARGQLMRIEFKKIVERRDALLVIQWNIRAFMGVKNWPWMKLYFKIKPLLKSAETEKEMAT MKEEFGRIKETLEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLNDAEERCDQLIKN KIQLEAKVKEMNERLEDEEEMNAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHAT ENKVKNLTEEMAGLDEIIAKLTKEKKALQEAHQQALDDLQVEEDKVNSLSKSKVKLEQQV DDLEGSLEQEKKVRMDLERAKRKLEGDLKLTQESIMDLENDKLQLEEKLKKKEFDINQQN SKIEDEQVLALQLQKKLKENQARIEELEEELEAERTARAKVEKLRSDLSRELEEISERLE EAGGATSVQIEMNKKREAEFQKMRRDLEEATLQHEATAAALRKKHADSVAELGEQIDNLQ RVKQKLEKEKSEFKLELDDANLEKVSRTLEDQANEYRVKLEEAQRSLNDFTTQRAKLQTE NGELARQLEEKEALISQLTRGKLSYTQQMEDLKRQLEEEGKAKNALAHALQSARHDCDLL REQYEEETEAKAELQRVLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQDAEEA VEAVNAKCSSLEKTKHRLQNEIEDLMVDVERSNAAAAALDKKQRNFDKILAEWKQKYEES QSELESSQKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQLGEGGKNV HELEKVRKQLEVEKLELQSALEEAEASLEHEEGKILRAQLEFNQIKAEIERKLAEKDEEM EQAKRNHQRVVDSLQTSLDAETRSRNEVLRVKKKMEGDLNEMEIQLSHANRMAAEAQKQV KSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELRAVVEQTERSRKLAE QELIETSERVQLLHSQNTSLINQKKKMESDLTQLQSEVEEAVQECRNAEEKAKKAITDAA MMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRLDEAEQIALKGGKKQLQKLEARVRELE GELEAEQKRNAESVKGMRKSERRIKELTYQTEEDKKNLLRLQDLVDKLQLKVKAYKRQAE EAEEQANTNLSKFRKVQHELDEAEERADIAESQVNKLRAKSRDIGAKQKMHDEE >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_7|11865_bp atgattggaagcttcctgaggcctccccagaagcagatgccactatgcttcctgtacagc ctacagaacggcacagccatgggagattcggagatggcagtctttggggctgccgccccc tacctgcgcaagtcagagaaggagcggctagaagcgcagaccaggccttttgacctcaag aaggatgtcttcgtgcctgatgacaaacaggagtttgtcaaggccaagatcgtgtctcga gagggtggcaaagtcactgccgagaccgagtatggcaagacagtgaccgtgaaggaggac caggtgatgcagcagaacccacccaagttcgacaaaatcgaggacatggccatgctgacc ttcctgcatgagcccgcggtgctctacaacctcaaggatcgctacggctcctggatgatc tacacctactcgggcctcttctgtgtcaccgtcaacccttacaagtggctgccggtgtac actcctgaggtggtggctgcctaccggggcaagaagaggagcgaggccccgccccacatc ttctccatctccgacaacgcctatcagtacatgctgacagacagagaaaaccagtccatc ctgatcaccggagaatccggagcagggaagacagtcaacaccaagagggtcatccagtac tttgctgttattgcagccattggggaccgcagcaagaaggaccagagcccgggcaagggc accctggaggaccagatcatccaggccaaccctgctctggaggcctttggcaatgccaag accgtccggaacgacaactcctcccgcttcgggaaattcattcgaattcattttggggca acaggaaagttggcatctgcagacatagagacctatcttctggaaaaatccagagttatt ttccagctgaaagcagagagagattatcacattttctaccaaatcctgtctaacaaaaag cctgagctgctggacatgctgctgatcaccaacaacccctacgattatgcattcatctcc caaggagagaccaccgtggcctccattgatgacgctgaggagctcatggccactgataac gcttttgatgtgctgggcttcacttcagaggagaaaaactccatgtataagctgacaggc gccatcatgcactttggaaacatgaagttcaagctgaagcagcgggaggagcaggcggag ccagacggcactgaagaggctgacaagtctgcctacctcatggggctgaactcagccgac ctgctcaaggggctgtgccaccctcgggtgaaagtgggcaatgagtacgtcaccaagggg cagaatgtccagcaggtgatatatgccactggggcactggccaaggcagtgtatgagagg atgttcaactggatggtgacgcgcatcaatgccaccctggagaccaagcagccacgccag tacttcataggagtcctggacatcgctggcttcgagatcttcgatttcaacagctttgag cagctctgcatcaacttcaccaacgagaagctgcagcagttcttcaaccaccacatgttt gtgctggagcaggaggagtacaagaaggagggcatcgagtggacattcattgactttggc atggacctgcaggcctgcattgacctcatcgagaagcccatgggcatcatgtccatcctg gaagaggagtgcatgttccccaaggccaccgacatgaccttcaaggccaagctgtttgac aaccacctgggcaaatccgccaacttccagaagccacgcaatatcaaggggaagcctgaa gcccacttctccctgatccactatgccggcatcgtggactacaacatcattggctggctg cagaagaacaaggatcctctcaatgagactgtcgtgggcttgtatcagaagtcttccctc aagctgctcagcaccctgtttgccaactatgctggggctgatgcgcctattgagaagggc aaaggcaaggccaagaaaggctcgtcctttcagactgtgtcagctctgcacagggaaaat ctgaacaagctgatgaccaacttgcgctccacccatccccactttgtacgttgtatcatc cctaatgagacaaagtctccaggggtgatggacaaccccctggtcatgcaccagctgcgc tgcaatggtgtgctggagggcatccgcatctgcaggaaaggcttccccaaccgcatcctc tacggggacttccggcagaggtatcgcatcctgaacccagcggccatccctgagggacag ttcattgatagcaggaagggggcagagaagctgctcagctccctggacattgatcacaac cagtacaagtttggccacaccaaggtgttcttcaaggccgggctgctggggctgctggag gaaatgagggacgagaggctgagccgcatcatcacgcgtatccaggcccagtcccgaggt gtgctcgccagaatggagtacaaaaagctgctggaacgtagagactccctgctggtaatc cagtggaacattcgggccttcatgggggtcaagaattggccctggatgaagctctacttc aagatcaagccgctgctgaagagtgcagaaagagagaaggagatggcctccatgaaggag gagttcacacgcctcaaagaggcgctagagaagtccgaggctcgccgcaaggagctggag gagaagatggtgtccctgctgcaggagaagaatgacctgcagctccaagtgcaggcggaa caagacaacctggcagatgctgaggagcgctgtgatcagctgatcaaaaacaagattcag ctggaggccaaggtgaaggagatgaacgagaggctggaggatgaggaggagatgaatgct gagctcactgccaagaagcgcaagctggaagatgagtgctcagagctcaaaagggacatc gatgatctggagctgacactggccaaagtggagaaggagaaacacgcaacagagaacaag agcagcatggaccttgacatggagctccccacagatggcaccaagctggtgacctttgac cctaaaggagatgggattcttggtcggcaggtgaaaaacctgacagaggagatggctggg ctggatgagatcattgccaagctgaccaaggagaagaaagctctgcaagaggcccaccaa caggctctggatgaccttcaggccgaggaggacaaggtcaacaccctgactaaggccaaa gtcaagctggagcagcaagtggatgatctggaaggatccctggagcaagagaagaaggtg cgcatggacctggagcgagcgaagcggaagctggagggcgacctgaagctgacccaggag agcatcatggacctggagaatgacaagcagcagctggatgagcggctgaaaaaaaaagac tttgagctgaatgctctcaacgcaaggattgaggatgaacaggccctcggcagccagctg cagaagaagctcaaggagcttcaggcacgcatcgaggagctggaggaggagctggaggcc gagcgcaccgccagggctaaggtggagaagctgcgctcagacctgtctcgggagctggag gagatcagcgagcggctggaagaggccggcggggccacgtccgtgcagatcgagatgaac aagaagcgcgaggccgagttccagaagatgcggcgggacctggaggaggccacgctgcag cacgaggccactgccgcggccctgcgcaagaagcacgccgacagcgtggccgagctgggc gagcagatcgacaacctgcagcgggtgaagcagaagctggagaaggagaagagcgagttc aagctggagctggatgacgctaacctggagaagatgtgccggaccttggaagaccagatg aatgagcaccggagcaaggcggaggagacccagcgttctgtcaacgacctcaccagccag cgggccaagttgcaaaccgagaatggtgagctgtcccggcagctggatgagaaggaggca ctgatctcccagctgacccgaggcaagctcacctacacccagcagctggaggacctcaag aggcagctggaggaggaggttaaggcgaagaacgccctggcccacgcactgcagtcggcc cggcatgactgcgacctgctgcgggagcagtacgaggaggagacggaggccaaggccgag ctgcagcgcgtcctttccaaggccaactcggaggtggcccagtggaggaccaagtatgag acggacgccattcagcggactgaggagctcgaggaggccaagaagaagctggcccagcgg ctgcaggaagctgaggaggccgtggaggctgttaatgccaagtgctcctcgctggagaag accaagcaccggctacagaatgagatcgaggacttgatggtggacgtagagcgctccaat gctgctgctgcagccctggacaagaagcagaggaacttcgacaagatcctggccgagtgg aagcagaagtatgaggagtcgcagtcggagctggagtcctcgcagaaggaggctcgctcc ctcagcacagagctcttcaaactcaagaacgcctatgaggagtccctggaacatctggag accttcaagcgggagaacaaaaacctgcaggaggagatctccgacttgactgagcagttg ggttccagcggaaagactatccatgagctggagaaggtccgaaagcagctggaggccgag aagatggagctgcagtcagccctggaggaggccgaggcctccctggagcacgaggagggc aagatcctccgggcccagctggagttcaaccagatcaaggcagagatcgagcggaagctg gcagagaaggacgaggagatggaacaggccaagcgcaaccacctgcgggtggtggactcg ctgcagacctccctggacgcagagacacgcagccgcaacgaggccctgagggtgaagaag aagatggaaggagacctcaatgagatggagatccagctcagccacgccaaccgcatggcc gccgaggcccagaagcaagtcaagagcctccagagcttgttgaaggacacccagattcag ctggacgatgcagtccgtgccaacgacgacctgaaggagaacatcgccatcgtggagcgg cgcaacaacctgctgcaggctgagctggaggagttgcgtgccgtggtggagcagacagag cggtcccggaagctggcggagcaggagctgattgagactagtgagcgggtgcagctgctg cattcccagaacaccagcctcatcaaccagaagaagaagatggatgctgacctgtcccag ctccagactgaagtggaggaggcagtgcaggagtgcaggaatgctgaggagaaggccaag aaggccatcacggatgccgccatgatggcagaggagctgaagaaggagcaggacaccagc gcccacctggagcgcatgaagaagaacatggaacagaccattaaggacctgcagcaccgg ctggacgaagccgagcagatcgccctcaagggcggcaagaagcagctgcagaagctggaa gcgcgggtgcgggagctggagaatgagctggaggccgagcagaagcgcaacgcagagtcg gtgaagggcatgaggaagagcgagcggcgcatcaaggagctcacctaccagacggaggag gacaggaaaaacctgctgcggctgcaggacctggtagacaagctgcagctaaaggtcaag gcctacaagcgccaggccgaggaggcggaggagcaagccaacaccaacctgtccaagttc cgcaaggtgcagcacgagctggatgaggcagaggagcgggcggacatcgccgagtcccag gtcaacaagctgcgggccaagagccgtgacattggcacgaaggagcagagggtagcaggg gagggcaaaagcctatgtgtgcaaatgcggatgtgcaaatgtgtgcatccatgtacacaa aagaaagtagaaaagaaatctgcaagcttgagtgggggaagcaccaagatgaccgatgcc cagatggctgactttggggcagcggcccagtacctccgcaagtcagagaaggagcgtcta gaggcccagacccggccctttgacattcgcactgagtgcttcgtgcccgatgacaaggaa gagtttgtcaaagccaagattttgtcccgggagggaggcaaggtcattgctgaaaccgag aatgggaagacggtgactgtgaaggaggaccaggtgttgcagcagaacccacccaagttc gacaagattgaggacatggccatgctgaccttcctgcacgagcccgcggtgcttttcaac ctcaaggagcgctacgcggcctggatgatatatacctactcgggcctcttctgtgtcact gtcaacccctacaagtggctgccggtgtacaatgccgaggtggtggccgcctaccggggc aagaagaggagtgaggccccgccccacatcttctccatctccgacaacgcctatcagtac atgctgacagatcgggagaaccagtccatcctcatcacgggagaatccggggcggggaag actgtgaacaccaagcgtgtcatccagtactttgccagcattgcagccataggtgaccgt ggcaagaaggacaatgccaatgcgaacaagggcaccctggaggaccagatcatccaggcc aaccccgctctggaggccttcggcaatgccaagactgtccggaacgacaactcctcccgc tttgggaaattcattaggatccactttggggccactggaaagctggcttctgcagacata gagacctacctgctggagaagtcccgggtgatcttccagctgaaagctgagagaaactac cacatcttctaccagattctgtccaacaagaagccggagttgctggacatgctgctggtc accaacaatccctacgactacgccttcgtgtctcagggagaggtgtccgtggcctccatt gatgactccgaggagctcatggccaccgatagtgcctttgacgtgctgggcttcacttca gaggagaaagctggcgtctacaagctgacgggagccatcatgcactacgggaacatgaag ttcaagcagaagcagcgggaggagcaggcggagccagacggcaccgaagatgctgacaag tcggcctacctcatggggctgaactcagctgacctgctcaaggggctgtgccaccctcgg gtgaaagtgggcaacgagtatgtcaccaaggggcagagcgtgcagcaggtgtactactcc atcggggctctggccaaggcagtgtatgagaagatgttcaactggatggtgacgcgcatc aacgccaccctggagaccaagcagccacgccagtacttcataggagtcctggacatcgct ggcttcgagatcttcgacttcaacagctttgagcagctctgcatcaacttcaccaacgag aagctgcagcagttcttcaaccaccacatgttcgtgctggagcaggaggagtacaagaag gagggcattgagtggacattcattgactttggcatggacctgcaggcctgcattgacctc atcgagaagcccatgggcatcatgtccatcctggaggaggagtgcatgttccccaaggcc actgacatgaccttcaaggccaagctgtacgacaaccacctgggcaagtccaacaatttc cagaagccacgcaacatcaaggggaagcaggaagcccacttctccctgatccactacgcc ggcactgtggactacaacatcctgggctggctggaaaaaaacaaggatcctctcaacgag actgttgtggccctgtaccagaagtcctccctcaagctcatggccactctcttctcctcc tacgcaactgccgatactgctcctgttgattatttctcctctcgctgtttaggggacagt ggtaaaagcaaaggaggcaagaaaaagggctcatccttccagacggtgtcggctctccac cgggaaaatctcaacaagctaatgaccaacctgaggaccacccatcctcactttgtgcgt tgcatcatccccaatgagcggaaggctccaggggtgatggacaaccccctggtcatgcac cagctgcgctgcaatggcgtgctggagggcatccgcatctgcaggaagggcttccccaac cgcatcctctacggggacttccggcagaggtatcgcatcctgaacccagtggccatccct gagggacagttcattgatagcaggaaggggacagagaagctgctcagctctctggacatt gatcacaaccagtacaagtttggccacaccaaggtgttcttcaaggcagggctgcttggg ctgctggaggagatgcgggatgagaggctgagccgcatcatcacgcgcatgcaggcccaa gcccggggccagctcatgcgcattgagttcaagaagatagtggaacgcagggatgccctg ctggtaatccagtggaacattcgggccttcatgggggtcaagaattggccctggatgaag ctctacttcaagatcaagccgctgctgaagagcgcagagacggagaaggagatggccacc atgaaggaagagttcgggcgcatcaaagagacgctggagaagtccgaggctcgccgcaag gagctggaggagaagatggtgtccctgctgcaggagaagaatgacctgcagctccaagtg caggcggaacaagacaacctcaatgatgctgaggagcgctgcgaccagctgatcaaaaac aagattcagctggaggccaaagtaaaggagatgaatgagaggctggaggatgaggaggag atgaacgcggagctcactgccaagaagcgcaagctggaagacgagtgctcagagctcaag aaggacattgatgacctggagctgacactggccaaggtggagaaggagaagcatgcaaca gagaacaaggtgaagaacctaacagaggagatggctgggctggatgaaatcatcgctaag ctgaccaaggagaagaaagctctacaagaggcccatcagcaggccctggatgaccttcag gttgaggaagacaaggtcaacagcctgtccaagtctaaggtcaagctggagcagcaggtg gatgatctggagggatccctagagcaagagaagaaggtgcgcatggacctggagcgagca aagcggaaactggagggcgacctgaagctgacccaggagagcatcatggacctggaaaat gataaactgcagctggaagaaaagcttaagaagaaggagtttgacattaatcagcagaac agtaagattgaggatgagcaggtgctggcccttcaactacagaagaaactgaaggaaaac caggcacgcatcgaggagctggaggaggagctggaggccgagcgcaccgccagggctaag gtggagaagctgcgctcagacctgtctcgggagctggaggagatcagcgagcggctggaa gaggccggcggggccacgtccgtgcagatcgagatgaacaagaagcgcgaggccgagttc cagaagatgcggcgggacctggaggaggccacgctgcagcacgaggccactgccgcggcc ctgcgcaagaagcacgccgacagcgtggccgagctgggcgagcagatcgacaacctgcag cgggtgaagcagaagctggagaaggagaagagcgagttcaagctggagctggatgacgca aacctggagaaagtgtctcggacgctggaggaccaggccaatgagtaccgcgtgaagcta gaagaggcccaacgctccctcaatgatttcaccacccagcgagccaagctgcagaccgag aatggagagttggcccggcagctagaggaaaaggaggcgctaatctcgcagctgacccgg gggaagctctcttatacccagcaaatggaggacctcaaaaggcagctggaggaggagggc aaggcgaagaacgccctggcccatgcactgcagtcggcccggcatgactgcgacctgctg cgggagcagtacgaggaggagacagaggccaaggccgagctgcagcgcgtcctgtccaag gccaactcggaggtggcccagtggaggaccaagtatgagacggacgccattcagcggact gaggagctcgaagaggccaaaaagaagctggcccagcggctgcaggatgccgaggaggcc gtggaggctgttaatgccaagtgctcctcactggagaagaccaagcaccggctacagaat gagatagaggacttgatggtggacgtagagcgctccaatgctgctgctgcagccctggac aagaagcagagaaactttgacaagatcctggccgagtggaagcagaagtatgaggagtcg cagtctgagctggagtcctcacagaaggaggctcgctccctcagcacagagctcttcaag ctcaagaacgcctacgaggagtccctggagcacctagagaccttcaagcgggagaacaag aaccttcaggaggaaatctcggaccttactgagcagctaggagaaggaggaaagaatgtg catgagctggagaaggtccgcaaacagctggaggtggagaagctggagctgcagtcagcc ctggaggaggcagaggcctccctggagcacgaggagggcaagatcctccgggcccagcta gagttcaaccagatcaaggcagagatcgagcggaagctggcagagaaggacgaggagatg gaacaggccaagcgcaaccaccagcgggtggtggactcgctgcagacctccctggatgca gagacacgcagccgcaacgaggtcctgagggtgaagaagaagatggaaggagacctcaat gagatggagatccagctcagccacgccaaccgcatggctgccgaggcccagaagcaagtc aagagcctccagagcttgctgaaggacacccagatccagctggacgatgcggtccgtgcc aacgacgacctgaaggagaacatcgccatcgtggagcggcgcaacaacctgctgcaggct gagctggaggagctgcgtgccgtggtggagcagacagagcggtcccggaagctggcggag caggagctgattgagaccagcgagcgggtgcagctgctgcattcccagaacaccagcctc atcaaccagaagaagaagatggagtcggatctgacccagctccagtcggaagtggaggag gcagtgcaggagtgcagaaacgccgaggagaaggccaagaaggccatcacggatgccgcc atgatggcagaggagctgaagaaggagcaggacaccagcgcccacctggagcgcatgaag aagaacatggagcagaccattaaggacctgcagcaccggctggacgaggccgagcagatc gccctcaagggaggcaagaagcagctgcagaagctggaagcgcgggtgcgggagctggag ggtgagctggaggccgagcagaagcgcaacgcagagtcggtgaagggcatgaggaagagc gagcggcgcatcaaggagctcacctaccagacagaggaagacaaaaagaacctgctgcgg ctacaggacctggtggacaagctgcaactgaaggtcaaggcctacaagcgccaggccgag gaggcggaggagcaagccaacaccaacctgtccaagttccgcaaggtgcagcatgagctg gatgaggcagaggagcgggcggacatcgctgagtcccaggtcaacaagcttcgagccaag agccgtgacattggtgccaagcaaaaaatgcacgatgaggagtga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_8|346_aa MHCQSLNQVLLKTCVTARSGSTTPEGVGFAKMAALGVLESDLPSAVTLLKNLQEQVMAVT AQVKSLTQKVQAGAYPTEKGLSFLEVKDQLLLMYLMDLTHLILDKASGGSLQGHDAVLRL VEIRTVLEKLRPLDQKLKYQIDKLIKTAVTGSLSENDPLRFKPHPSNMMSKLSSEDEEED EAEDDQSEASGKKSVKGVSKKYVPPRLVPVHYDETEAEREKKRLERAKRRALSSSVIREL KEQYSDAPEEIRDARHPHVTRQSQEDQHRINYEESMMVRLSVSKREKGRRKRANVMSSQL HSLTHFSDISALTGGTVHLDEDQNPIKKRKKIPQKGRKKKGFRRRR >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_8|1041_bp atgcactgccagagtttgaaccaagttctgctgaagacctgtgtgaccgcgcgctcagga agtacgacaccggaaggggtgggctttgcgaagatggcggcgctgggggtgctggagtcc gacctgccaagtgccgtgacacttctgaaaaatctccaggagcaagtgatggctgtaact gcacaagtgaaatcactgacacaaaaagttcaagctggtgcctatcctacagaaaagggt ctcagcttcttggaagtgaaagaccagctgctgctcatgtaccttatggatttgacccac ctcattctggacaaagcctcaggaggatctcttcagggacatgatgcagttttgagactg gtggagattcgcacggttttggaaaagcttcgtcccttggaccaaaagctgaagtatcaa attgacaagctgatcaagactgcagtgacaggcagccttagtgagaatgacccacttcgt tttaagcctcatcccagcaatatgatgagcaagttgagctctgaggatgaggaggaagat gaagcagaagatgaccagtctgaggcttcagggaagaaatctgtgaagggagtgtctaag aaatatgttcctccacgcttggttccagtacattatgatgaaacagaagctgagcgggag aagaagcgtctagaacgagccaagagacgggcattgagcagctctgtcattcgtgaactt aaggagcagtactcagatgctccagaggaaatccgtgatgctcggcatccccatgttacc cgccagagtcaggaggaccaacacaggattaactatgaggagagcatgatggtgcgtttg agcgtcagtaagcgagagaaaggacggcgaaaacgagcaaatgtcatgagctcacaactt cattcccttacacacttcagtgacatcagtgctttgacagggggaactgttcatcttgat gaggatcagaatcctattaagaagcggaagaagatacctcagaaaggtcggaagaaaaaa ggttttcggaggcggcggtga >gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_9|62_aa MQRPMGVYITETKEEEFQEEKFNRSNASGQPRPAFDTKPGHVAAFKAASGSGDELETLVS KG >gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_9|189_bp atgcaaagaccaatgggagtgtacatcacagaaaccaaggaagaagagtttcaagaagaa aagttcaacaggtcaaatgcatcaggccaaccaaggccagcttttgacacaaaacctggc cacgttgctgccttcaaggctgccagtggctctggggatgaattggagacattggtttct aaggggtag