GENSCAN 1.0 Date run: 3-Nov-116 Time: 04:11:56 Sequence gi568815581f:8212040_8420979 : 208940 bp : 49.18% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.22 PlyA - 93 88 6 1.05 1.21 Term - 3085 3058 28 0 1 106 51 21 0.159 -2.25 1.20 Intr - 8309 8178 132 1 0 112 60 23 0.267 1.66 1.19 Intr - 9470 9375 96 1 0 85 68 106 0.135 7.42 1.18 Intr - 13699 13665 35 1 2 86 86 27 0.063 -0.68 1.17 Intr - 16590 16459 132 0 0 84 53 34 0.099 0.34 1.16 Intr - 17407 17263 145 0 1 77 110 64 0.897 7.78 1.15 Intr - 17929 17852 78 0 0 128 82 15 0.918 3.57 1.14 Intr - 19430 19237 194 2 2 78 38 157 0.898 7.99 1.13 Intr - 19776 19687 90 0 0 101 68 27 0.809 2.19 1.12 Intr - 20188 19864 325 0 1 80 92 90 0.379 4.38 1.11 Intr - 20436 20322 115 1 1 71 52 96 0.410 3.81 1.10 Intr - 20993 20867 127 2 1 124 8 15 0.543 -2.65 1.09 Intr - 22616 22416 201 2 0 73 110 68 0.759 6.98 1.08 Intr - 23246 23085 162 2 0 113 46 39 0.589 2.37 1.07 Intr - 23920 23792 129 1 0 76 91 107 0.981 10.69 1.06 Intr - 24291 24019 273 0 0 15 97 211 0.548 12.43 1.05 Intr - 25480 25336 145 0 1 61 94 83 0.804 6.48 1.04 Intr - 26203 25992 212 1 2 99 91 -15 0.620 -2.39 1.03 Intr - 26590 26353 238 0 1 83 105 121 0.378 10.92 1.02 Intr - 31109 30946 164 2 2 66 82 56 0.072 1.57 1.01 Init - 35997 35965 33 0 0 102 75 40 0.027 2.66 1.00 Prom - 37020 36981 40 -9.65 2.00 Prom + 37561 37600 40 -7.86 2.01 Init + 41899 42040 142 0 1 77 47 119 0.977 7.00 2.02 Intr + 42127 42262 136 2 1 109 111 105 0.996 14.53 2.03 Intr + 42988 43093 106 1 1 27 85 152 0.996 9.02 2.04 Intr + 43463 43652 190 1 1 81 97 153 0.992 14.66 2.05 Intr + 43766 43871 106 0 1 104 66 192 0.994 17.87 2.06 Intr + 44228 44368 141 2 0 95 53 165 0.967 13.17 2.07 Intr + 44485 44609 125 1 2 29 99 76 0.540 3.03 2.08 Intr + 44796 44924 129 1 0 117 20 118 0.994 8.57 2.09 Intr + 45768 45899 132 1 0 123 81 147 0.802 18.12 2.10 Intr + 46032 46160 129 1 0 46 110 88 0.751 7.47 2.11 Intr + 50881 50954 74 2 2 126 109 69 0.998 11.93 2.12 Intr + 51070 51226 157 0 1 76 77 165 0.846 13.78 2.13 Intr + 51536 51597 62 0 2 59 94 73 0.969 3.45 2.14 Intr + 51736 51897 162 0 0 54 70 217 0.953 16.67 2.15 Intr + 52173 52298 126 2 0 60 95 160 0.999 14.78 2.16 Intr + 52431 52562 132 2 0 106 23 168 0.998 12.94 2.17 Intr + 52856 53086 231 1 0 97 100 320 0.998 32.07 2.18 Intr + 53249 53429 181 1 1 124 81 176 0.999 19.94 2.19 Intr + 53517 53600 84 1 0 105 64 92 0.779 8.29 2.20 Intr + 53823 53978 156 1 0 138 113 162 0.999 23.68 2.21 Intr + 54195 54314 120 1 0 110 91 77 0.955 10.67 2.22 Intr + 54714 54859 146 1 2 89 77 183 0.999 17.30 2.23 Intr + 54989 55196 208 1 1 95 81 160 0.742 14.65 2.24 Intr + 55333 55424 92 2 2 63 83 101 0.857 6.81 2.25 Intr + 55512 55626 115 2 1 122 86 200 0.999 23.22 2.26 Intr + 56494 56817 324 2 0 114 77 271 0.984 24.35 2.27 Intr + 56915 57111 197 0 2 121 -7 142 0.733 7.13 2.28 Intr + 57450 57559 110 2 2 65 70 50 0.633 -0.02 2.29 Term + 59431 59554 124 1 1 118 38 82 0.782 4.06 2.30 PlyA + 60286 60291 6 1.05 3.00 Prom + 74442 74481 40 -4.86 3.01 Init + 76750 76826 77 0 2 70 100 121 0.992 11.06 3.02 Intr + 76917 77033 117 0 0 64 77 151 0.998 11.18 3.03 Intr + 77219 77435 217 2 1 102 115 157 0.974 18.31 3.04 Term + 77464 77553 90 0 0 94 49 85 0.947 2.92 3.05 PlyA + 78027 78032 6 1.05 4.06 PlyA - 78043 78038 6 -3.94 4.05 Term - 78639 78466 174 0 0 75 42 225 0.999 14.36 4.04 Intr - 78937 78803 135 1 0 119 116 153 0.693 21.96 4.03 Intr - 79446 79294 153 0 0 88 69 48 0.735 3.17 4.02 Intr - 80549 80484 66 2 0 90 94 32 0.892 3.10 4.01 Init - 82768 82394 375 1 0 109 95 532 0.997 50.93 4.00 Prom - 86407 86368 40 -5.16 5.03 PlyA - 86716 86711 6 1.05 5.02 Term - 88634 88277 358 1 1 85 28 307 0.862 18.38 5.01 Init - 89389 89238 152 1 2 66 42 99 0.790 2.69 5.00 Prom - 93260 93221 40 -1.66 6.00 Prom + 96014 96053 40 -9.65 6.01 Init + 100001 100601 601 1 1 52 109 222 0.864 16.15 6.02 Intr + 100883 101215 333 0 0 91 61 119 0.907 5.04 6.03 Intr + 101462 101516 55 0 1 96 69 51 0.998 2.04 6.04 Intr + 102867 102925 59 0 2 145 77 79 0.999 11.03 6.05 Intr + 103027 103238 212 2 2 86 59 200 0.998 15.53 6.06 Intr + 103375 103535 161 0 2 108 61 256 0.996 23.69 6.07 Intr + 103716 103868 153 0 0 92 84 224 0.993 21.59 6.08 Intr + 103980 104109 130 0 1 75 82 285 0.999 27.30 6.09 Intr + 106348 106422 75 0 0 113 86 77 0.777 9.71 6.10 Intr + 106531 106623 93 0 0 23 83 116 0.962 4.76 6.11 Intr + 106711 106871 161 0 2 89 105 110 0.994 11.59 6.12 Intr + 106968 107120 153 0 0 76 76 93 0.978 6.09 6.13 Intr + 107222 107355 134 2 2 80 89 57 0.760 5.29 6.14 Intr + 107460 107564 105 1 0 52 100 37 0.729 1.49 6.15 Term + 108803 108954 152 0 2 110 38 110 0.959 6.27 6.16 PlyA + 115661 115666 6 1.05 7.00 Prom + 120635 120674 40 -2.76 7.01 Init + 128247 128466 220 2 1 51 105 208 0.446 15.62 7.02 Intr + 133304 133438 135 0 0 92 101 80 0.998 10.24 7.03 Term + 133629 133813 185 1 2 100 33 79 0.953 1.31 7.04 PlyA + 133981 133986 6 1.05 8.03 PlyA - 134072 134067 6 -3.64 8.02 Term - 135349 135086 264 1 0 42 55 183 0.317 5.91 8.01 Init - 142891 142805 87 1 0 94 45 38 0.232 0.74 8.00 Prom - 148638 148599 40 -2.56 9.10 PlyA - 149894 149889 6 1.05 9.09 Term - 158347 157095 1253 2 2 121 47 599 0.996 50.85 9.08 Intr - 159455 159270 186 0 0 102 86 123 0.618 13.16 9.07 Intr - 164724 164613 112 0 1 60 70 -3 0.003 -4.95 9.06 Intr - 165653 165582 72 2 0 101 21 85 0.004 2.70 9.05 Intr - 167897 167757 141 2 0 62 100 124 0.990 11.55 9.04 Intr - 170276 170104 173 0 2 29 89 156 0.012 9.46 9.03 Intr - 171212 171118 95 1 2 37 90 42 0.005 -1.09 9.02 Intr - 171794 171703 92 2 2 36 61 102 0.004 1.09 9.01 Init - 181422 180778 645 0 0 69 81 905 0.038 83.22 9.00 Prom - 190964 190925 40 -4.96 10.00 Prom + 196155 196194 40 -2.36 10.01 Init + 198211 198280 70 0 1 109 101 -4 0.527 4.21 10.02 Term + 201059 201210 152 0 2 28 54 122 0.458 0.87 10.03 PlyA + 202189 202194 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 36862 36929 68 2 2 111 47 58 0.867 2.10 S.002 Term - 165653 165525 129 2 0 101 39 170 0.995 11.58 S.003 Init - 170271 170104 168 0 0 94 89 142 0.986 14.43 S.004 Sngl - 181422 180760 663 0 0 69 52 936 0.941 84.28 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_1|1017_aa MAAGRAQVPSSEQAWLEDAQVFIQKTLCPAVKEPNVQLTPLVIDCVKTVWLSQGRNQGST LPLSYSFVSVQDLKTHQRLPCCSHLSWSSSAYQAWAQEAGPNGNPLPREQLLLLGTLTDL SADLEQECRNGSLYVRDNTGVLSCELIDLDLSWLGHLFLFPRWSYLPPARWNSSGEGHLE LWDAPVPVFPLTISPGPVTPIPVLYPESASCLLRLRNKLRGVQRNLAGSLVRLSALVKSK QKAYFILSLGRSHPAVTHVSIIVQLVWHRALRPGTAYVLTELRVSKIRGQRQHVWMTSQS SRLLLLKPECVQELELELEGPLLEADPKPLPMPSNSEDKKDPESLVRYSRLLSYSGAVTG VLNEPAGLYELDGQLGLCLAYQQFRGLRRVMRPGVCLQLQDVHLLQSVGGGTRRPVLAPC LRGAVLLQSFSRQKPGAHSSRQAYGASLYEQLYTRLQTPSSFPTLATLKEEGQRKAWASF DPKALLPLPEASYLPSCQLNRRLAWSWLCLLPSAFCPAQVLLGVLVASSHKGCLQLRDQS GSLPCLLLAKHSQPLSDPRLIGCLVRAERFQLIVERDVRSSFPSWKELSMPGFIQKQQAR VYVQFFLADALILPVPRPCLHSATPSTPQTDPTGPEGPHLGQSRLFLLCHKEALMKRNFC VPPGASPEVPKPALSFYVLGSWLGGTQRKEGTGWGLPEPQGNDDNDQKVHLIFFGSSVRW FEFLHPGQVYRLIAPGPATPMLFEKDGSSCISRRPLELAGCASCLTVQDNWTLELESSQD IQDVLDANKSLPESSLTDLLSDKSHNVYCCFRSSTYVQVLSFPPETTISIPLPHIYLAEL LQGGQSPFQATASCHIVSVFSLQLFWVCAYCTSICRQSSARVDEPMTMFLWTLCTSPSVL RPIVLSFELERKPSKIVPLGKLPPSLSTSGMSGLVGMSRVGPVRIQENSDRGKSNGCRRL PSAQLYVYLTLNTRILNTNITFLQTSQQSLEAQDHVHFGCFQYIEKQNRRDNGNANT >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_1|3054_bp atggcggctggccgggcccaggtcccttcctccgaacaagcctggcttgaggatgctcag gtcttcatccaaaagaccctgtgtccagctgtcaaggagcctaatgtccagttgactcca ttggtaattgattgtgtgaagactgtctggttgtcccagggaaggaaccaaggttctaca ctgcccctcagctatagcttcgtctcagtacaggacctcaagactcaccagcgtctccca tgctgcagccacctgtcgtggagcagtagtgcataccaggcctgggcccaagaggctgga ccaaatgggaaccccctgccccgagagcagctgttacttttagggacactaacagaccta tcggcagacttggaacaagagtgcaggaacggaagcctctatgtgagagataacactggc gtcctgagctgtgagctcatagacctggacctttcttggttgggccatctttttctgttc ccccgttggagttacctccctcctgccaggtggaattcctcaggggaagggcacttggag ctgtgggatgcccctgtgccagtgtttcctttgaccatcagtcctggccccgtcacgcct atccctgtcctctacccagagagtgcttcctgcctgctcaggctcagaaacaagctcaga ggtgtgcagcgaaacctggctgggagtctagttcgattgagtgctctggtgaaaagtaaa cagaaagcttacttcatcctgtctcttggtagatcacacccagctgtcacccacgtgtcc atcatcgtgcagctggtgtggcacagagcccttcggcctggtacagcctatgtgctgaca gaactgcgagtgtccaagatccgtggtcagcgccagcatgtttggatgaccagtcagtcc tcccgtctgttgctgctgaaaccagaatgtgtgcaggagctggaactggagctggaagga cccctcttagaggctgaccccaagccactccccatgcccagcaactcggaggacaagaag gatccagaaagtcttgtccggtattctagactcctatcctattcgggagcagtcactggc gtgttgaatgagcccgctggcctctatgagctggatgggcagctggggctctgccttgcc taccagcagttccgtggccttaggcgggtgatgcgacctggagtgtgtctgcagctccag gatgttcacctgctccagtcagtgggaggggggacaagaaggccagtgctcgccccctgc ctccgtggcgccgttctgcttcaaagcttctctcgtcagaagcctggggctcactcatcc cgtcaagcctacggggcctccctgtacgagcagctgtacactcggctgcagactccctcc tccttccccactctggccaccctgaaagaagaaggacagcgtaaggcctgggcctccttt gaccctaaggcccttctgcccctcccggaggcctcctacctgcccagctgccaactcaat cgccgcctggcttggtcctggctctgtctgctgccctctgccttctgcccagcccaggtt ttacttggggttctggtggcttcatctcataaaggttgtctgcaacttcgggaccaaagt ggttccctgccctgcctgctcctggccaagcactctcaacccctcagtgacccacggctg ataggctgcctggtgcgggcagagaggtttcagttgatcgtagagagggacgtgagaagc agcttcccttcctggaaggagctgagcatgccaggcttcatccagaagcagcaggccaga gtctatgtccagttctttctggctgatgccctgatcctgcctgtgcccagaccctgcctt cattcagcaacaccctcaacacctcagacagatcccaccggcccagagggaccccaccta ggacagagccggctcttcttgctctgccacaaggaggccctcatgaagcgtaatttttgt gtccccccaggagcaagtccagaggtgcccaagcccgccctcagtttctatgtgttgggg agctggcttgggggcacccagaggaaggagggtactggatgggggctgcccgagccccag ggaaatgacgacaatgatcagaaggttcacctcattttctttggctcttcagtccgctgg tttgagttcttgcacccgggacaggtgtaccgactcatagctcctggccccgctacacca atgttgtttgaaaaggatggttcatcctgcatatctcggcgtcctctggagttggctggc tgtgcatcctgcctcactgtccaggacaactggactctggagcttgaaagctcccaggat atccaagatgtgctggatgcaaacaagtcattgcctgaatcctcactgaccgacctgctc agtgacaaatctcacaatgtttattgttgtttccggtcatccacttatgtgcaggtcctg agttttccccctgagaccaccatcagcattcccctgccccacatctacctggctgaactt ctgcagggtggtcagtccccattccaggccactgcctcttgccatatcgtctctgtcttc agccttcagctcttctgggtgtgtgcttattgtaccagcatctgccggcagtcttcagcc agggttgacgagcccatgaccatgttcctctggacactttgtactagcccctctgtcctc cgtcctattgtgctttcttttgagctggaaaggaaaccgtcgaagatcgtcccattaggt aagttacctccatccctctccaccagcgggatgtcagggttggttgggatgagtcgggtt ggacccgtgcggatccaggaaaacagcgatcgaggtaaaagtaatggctgccgtcgtctg cccagcgcgcaattgtatgtttacttaacactgaacacaaggatattaaatacaaatatt acctttctccagacttcccagcagtcactagaagcccaggaccacgtgcattttggctgc ttccagtatattgaaaaacaaaaccgaagagacaatggcaatgcaaatacatga >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_2|1378_aa MSPVLHFYVRPSGHEGAAPGHTRRKLQGKLPELQGVETELCYNVNWTAEALPSAEETKKL MWLFGCPLLLDDVARESWLLPGSNDLLLEVGPRLNFSTPTSTNIVSVCRATGLGPVDRVE TTRRYRLSFAHPPSAEVEAIALATLHDRMTEQHFPHPIQSFSPESMPEPLNGPINILGEG RLALEKANQELGLALDSWDLDFYTKRFQELQRNPSTVEAFDLAQSNSEHSRHWFFKGQLH VDGQKLVHSLFESIMSTQESSNPNNVLKFCDNSSAIQGKEVRFLRPEDPTRPSRFQQQQG LRHVVFTAETHNFPTGVCPFSGATTGTGGRIRDVQCTGRGAHVVAGTAGYCFGNLHIPGY NLPWEDPSFQYPGNFARPLEVAIEASNGASDYGNKFGEPVLAGFARSLGLQLPDGQRREW IKPIMFSGGIGSMEADHISKEAPEPGMEVVKVGGPVYRIGVGGGAASSVQVQGDNTSDLD FGAVQRGDPEMEQKMNRVIRACVEAPKGNPICSLHDQGAGGNGNVLKELSDPAGAIIYTS RFQLGDPTLNALEIWGAEYQESNALLLRSPNRDFLTHVSARERCPACFVGTITGDRRIVL VDDRECPVRRNGQGDAPPTPLPTPVDLELEWVLGKMPRKEFFLQRKPPMLQPLALPPGLS VHQALERVLRLPAVASKRYLTNKVDRSVGGLVAQQQCVGPLQTPLADVAVVALSHEELIG AATALGEQPVKSLLDPKVAARLAVAEALTNLVFALVTDLRDVKCSGNWMWAAKLPGEGAA LADACEAMVAVMAALGVAVDGGKDSLSMAARVGTETVRAPGSLVISAYAVCPDITATVTP DLKHPEGRGHLLYVALSPGQHRLGGTALAQCFSQLGEHPPDLDLPENLVRAFSITQGLLK DRLLCSGHDVSDGGLVTCLLEMAFAGNCGLQVDVPVPRVDVLSVLFAEEPGLVLEVQEPD LAQVLKRYRDAGLHCLELGHTGEAGPHAMVRVSVNGAVVLEEPVGELRALWEETSFQLDR LQAEPRCVAEEERGLRERMGPSYCLPPTFPKASVPREPGGPSPRVAILREEGSNGDREMA DAFHLAGFEVWDVTMQDLCSGAIGLDTFRGVAFVGGFSYADVLGSAKGWAAAVTFHPRAG AELRRFRKRPDTFSLGVCNGCQLLALLGWVGGDPNEDAAEMGPDSQPARPGLLLRHNLSG RYESRWASVRVGPGPALMLRGMEGAVLPVWSAHGEGYVAFSSPELQAQIEARGLAPLHWA DDDGNPTEQYPLNPNGSPGGVAGICSCDGRHLAVMPHPERAPRKQHVVQRKERQGKVRTP EVRTGASVAHFTTPSDHRLGSRGPRTTARLFTQFKENPARCRLMPFYYIPFIQFFVFY >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_2|4137_bp atgtccccagtccttcacttctatgttcgtccctctggccatgagggggcagcccctgga cacactcggaggaaactgcaagggaaactgccagagctgcagggcgtcgagactgaactg tgctacaacgtgaactggacagctgaggccctccccagtgctgaggagacaaagaagctg atgtggctgtttggttgccccttactgctggatgatgttgctcgggagtcctggctcctt cctggctccaatgacctgctgctggaggtcgggcccaggctgaacttctccaccccaaca tccaccaacatcgtgtcagtgtgccgcgccactgggctggggcctgtggatcgtgtggag accacccggcgctaccggctctcgtttgcccaccccccgtcagctgaggtggaagccatt gctctggctaccctgcacgaccggatgacagagcagcacttcccccatcccatccagagt ttctcccctgagagcatgccggaacccctcaatggccctatcaatatactgggtgagggc cggcttgcgctggagaaggccaaccaggagcttggtctggctttagactcttgggaccta gacttctacaccaagcgcttccaggagctacagcggaacccgagcactgtggaggccttt gacttggcgcagtccaatagcgagcacagccgacactggttcttcaagggccagctccac gtggatgggcagaagctggtgcactcactgtttgagtccatcatgagcacccaggaatcc tcgaaccccaacaacgtcctcaaattctgtgataacagcagtgcaatccagggaaaggaa gtccgattcctacggcctgaggaccccacacggccaagccgcttccagcaacagcaaggg ctgagacatgttgtcttcacagcagagactcacaactttcccacaggagtatgccccttt agtggtgcaaccactggcacagggggccggattcgagatgtccagtgcacaggccgcggg gcccacgtggtggctggcactgccggctattgctttggaaatctgcatattccaggttac aatctgccctgggaggatccaagcttccagtatcctgggaattttgcccggcccctggag gttgccattgaagccagtaatggagcttctgactatggcaacaagtttggggaaccagtg ctggctggcttcgcccgctccttgggcctccagctcccagacggccagcggcgtgagtgg atcaagcccatcatgtttagtgggggcattgggtccatggaagctgaccacataagcaag gaggccccagagccaggcatggaagttgtaaaggttggaggtcccgtctacaggattgga gttggaggtggagctgcttcatctgtgcaggtgcagggagataacaccagtgacctggac tttggggctgtgcagcgaggagacccggagatggaacagaagatgaaccgtgtgatcagg gcttgtgtggaggcccccaagggaaaccccatctgcagccttcatgatcagggcgctggt ggcaatggcaatgtcctaaaagagctgagtgacccagctggagccatcatttacaccagc cgcttccagcttggggacccaaccctgaatgccctggaaatctggggggctgagtaccag gaatcaaatgctcttctgctgaggtcccccaaccgggacttcctgactcatgtcagtgcc cgtgaacgttgcccggcttgcttcgtgggcaccatcactggagaccggagaatagtgctg gtggacgatcgggagtgtcctgtcagaagaaatggccagggggatgcccccccgacaccc ctgccaacccctgtggacctggagctcgaatgggtgctgggcaagatgcctcggaaggag ttcttcctgcagaggaagccccccatgctgcagcctctggccttgcccccagggctgagc gtgcaccaggctctggagagggttctgaggctgcccgccgtggccagcaagcgctacctc accaataaggtggaccgctctgtgggaggcctggtggcccagcagcagtgcgtggggccc ctgcaaactcctctggcagatgtagcggttgtggcactgagccatgaggagctcataggg gctgccacagccttgggagaacagccagtcaagagcctgctggacccaaaagtcgccgcc cggctggccgtggccgaagccctcaccaacctggtgtttgctctggtcactgacctccgg gatgtgaagtgtagcgggaactggatgtgggcagccaagctcccaggggagggcgcagct ttggcggatgcctgtgaggctatggtggcagtgatggcagccctgggtgtggcagtggat ggtggcaaggactccctcagcatggctgctcgggttggcactgagaccgtgcgggctcct gggtcactggtcatctcagcctatgccgtctgcccagacatcacagccactgtgacccca gacctcaagcatcctgaagggagaggccatctgctctatgtggctctgagccctgggcag caccggctcgggggcacagctctggcccagtgcttctcccagcttggggaacaccctcca gacctggaccttcctgagaacttggtgcgggccttcagcatcactcaggggctgctgaaa gaccgcctcctctgctcaggccacgatgtcagtgacggaggcctcgtcacatgcctgctg gagatggcctttgctggaaattgcgggctacaggtggatgtgcctgtccccagggttgat gtcctgtctgtgctgttcgctgaggagccaggcctcgtgctggaggtgcaggagccagac ctggcccaggtgctgaagcgttaccgggatgctggcctccattgcctggagctgggccac acaggcgaggccgggccccacgccatggtccgggtgtcagtgaacggggctgtggttctg gaggagcctgttggggagctgcgagccctctgggaggagacgagtttccagctggaccgg ctacaggcagagcctcgctgtgtggcagaggaggaacggggcctgagggagcggatgggg cccagctattgcctgccccccacctttcccaaagcctccgtgccccgtgagcctggtggt cccagcccccgagtcgccatcttgcgagaggagggcagtaatggagaccgggagatggcc gatgccttccacttagctgggtttgaggtatgggacgtgaccatgcaggacctctgctct ggggcaattgggctggacactttccgtggcgtggccttcgtgggcggcttcagctatgca gatgtcctgggctctgccaaagggtgggcagctgctgtgacctttcatcccagggctggg gctgagctgaggcgcttccggaagcggccagacaccttcagcctgggcgtgtgtaatggc tgtcaactgctggctctgctcggctgggtgggaggcgaccccaatgaggatgctgcagag atgggccctgactcccagccagcccggccaggccttctgctacgccacaacctgtctggg cgctacgagtctcgctgggccagcgtgcgtgtggggcctgggccagccctgatgctgcga gggatggagggcgccgtgctgcccgtgtggagtgcgcacggggaaggttacgtagcattt tcttctccggaactccaagctcagattgaggccaggggcttggctccactgcactgggct gatgatgacgggaaccccacagagcagtaccctctgaatcccaatgggtccccagggggc gtggctggcatctgctcctgtgatggccgccacctggctgtcatgcctcaccctgagcgg gcccccaggaaacagcatgtggttcagagaaaagagcgacaaggaaaagttaggactcct gaggtccgaacaggggcttctgttgcccacttcacaacacccagtgatcaccggctgggg agtcggggtcctcgtaccactgccagactgttcacccagttcaaagaaaaccctgcccgt tgcaggctcatgccattctactacatccctttcatccagttctttgtgttctactga >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_3|166_aa MEPTRDCPLFGGAFSAILPMGAIDVSDLRPVPDNQEVFCHPVTDQSLIVELLELQAHVRG EAAARYHFEDVGGVQGARAVHVESVQPLSLENLALRGRCQEAWVLSGKQQIAKENQQVRA RECVMSWKGGSGDAEIQVAKDVTLHQALLRLPQYQTDLLLTFNQPP >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_3|501_bp atggagcccacgagagactgcccgctgttcgggggcgccttttccgccatcctccccatg ggggccattgacgtaagcgacctccgaccggtcccggacaatcaagaagttttctgccat cccgtgacggaccagagcctgatagtggaacttctcgagctgcaggcccacgtacggggc gaagcggctgcgcggtaccactttgaggatgttggtggcgtgcagggggctagggctgtc catgtggagtctgttcagcctctcagtttggagaacctggccctgaggggccgctgtcaa gaagcctgggtcctctctggcaagcagcagatagctaaggaaaaccagcaggtgagggcc cgagagtgtgtaatgtcctggaagggcggtagcggggacgcagagatccaggtagcaaag gacgtgacacttcatcaggccttgctgaggctgccccagtaccagactgatctcttgctt accttcaatcagcccccgtaa >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_4|300_aa MDFLMSGLAACGACVFTNPLEVVKTRMQLQGELQAPGTYQRHYRNVFHAFITIGKVDGLA ALQKGLAPALLYQFLMNGIRLGTYGLAEAGGYLHTAEGTHSPARSAAAGAMAGVMGAYLG SPIYMVKTHLQAQAASEIAVGHQYKHQGMFQALTEIGQKHGLVGLWRGALGGLPRVIVGS STQLCTFSSTKDLLSQWEIFPPQSWKLALVAAMMSGIAVVLAMAPFDVACTRLYNQPTDA QGKGLMYRGILDALLQTARTEGIFGMYKGIGASYFRLGPHTILSLFFWDQLRSLYYTDTK >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_4|903_bp atggacttcttgatgagtggcctggcagcctgcggggcctgtgtattcaccaatcccctg gaggtggtgaagaccaggatgcagttgcaaggagaactgcaggcccctggcacataccag cggcactaccgaaatgtcttccatgccttcatcaccatcggcaaggtggatggccttgct gccctgcagaaaggcctggcccccgccctcttgtaccagttcctgatgaatggcatccga ctgggcacctatgggctggctgaggctgggggctacctgcacacagccgaaggcacccac agtcctgcccgcagcgcagcagctggggccatggctggggtcatgggagcctacttgggg agccccatctacatggtgaagacacacctgcaggcacaggcagcctcagaaattgctgta gggcaccagtataagcatcagggcatgtttcaggcgctaaccgagattggccagaaacat ggtctggtggggttatggcgtggggctctgggcggcctgccccgagttatcgtcggttcc tccacccagctgtgcaccttctcatccaccaaggacctcctgagccagtgggagatcttt cctccccagagctggaagttggcgctggtggctgccatgatgagtggcattgcagttgtc ttggccatggcaccctttgatgtggcctgcacaaggctctacaaccagcccacagatgca cagggcaagggcctcatgtaccgggggatactggacgctctgctgcagacagctcggacc gagggcatttttggcatgtacaagggtataggtgcctcctacttccgcctcggcccccac accatcctctccctcttcttctgggaccagctgcgctccctctactacacagacactaaa taa >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_5|169_aa MAGLVSIKLFLYCNAVVFICAEDRKSPLGSYISTEDAKLVEYGPAAASGHQHLGTFTFPM QLLSNLIHDIHIQEKMVTAYNKSRQHDIGQRLDTQIKGTEVRAQKSSHTNIENRFFTKDQ RKKKKEEGEKEEEGEEEEEEEEDDEGGGGGKKKEEKREEDEKKPNPDLT >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_5|510_bp atggccggcctcgtgtcaattaaactctttctttactgcaatgccgtggtctttatttgt gcagaggacaggaagagcccactgggcagttacatttccactgaggatgctaagctggtg gaatatgggcctgcagctgctagtggccatcaacacctggggacttttacgttccctatg caactcctctcaaatctgattcatgacattcacatccaggaaaaaatggtaacagcctac aataaatcaagacagcatgatattggtcaaaggctagacacacagatcaagggaacagaa gtgagggcacagaaatcgagccacacaaatatagaaaacagattttttacaaaggaccaa aggaagaagaagaaagaagaaggagaaaaagaagaagaaggagaagaagaggaggaagag gaagaagacgacgaaggaggaggaggaggaaagaagaaagaagaaaagagagaggaggat gagaagaaaccaaacccagacctcacataa >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_6|858_aa MSAQSLPAATPPTQKPPRIIRPRPPSRSRAAQSPGPPHNGSSPQELPRNSNDAPTPMCTP IFWEPPAASLKPPALLPPSASRASLDSQTSPDSPSSTPTPSPVSRRSASPEPAPRSPVPP PKPSGSPCTPLLPMAGVLAQNGSASAPGTVRRLAGRFEGGAEGRAQDADAPEPGLQARAD VNGEREAPLTGSGSQENGAPDAGLACPPCCPCVCHTTRPGLELRWVPVGGYEEVPRVPRR ASPLRTSRSRPHPPSIGHPAVVLTSYRSTAERKLLPLLKPPKPTRVRQDATIFGDPPQPD LDLLSEDGIQTGDSPDEAPQNTPPATVEGREEEGLEVLKEQNWELPLQDEPLYQTYRAAV LSEELWGVGEDGSPSPANAGDAPTFPRPPGPRNTLWQELPAVQASGLLDTLSPQERRMQE SLFEVVTSEASYLRSLRLLTDTFVLSQALRDTLTPRDHHTLFSNVQRVQGVSERFLATLL SRVRSSPHISDLCDVVHAHAVGPFSVYVDYVRNQQYQEETYSRLMDTNVRFSAELRRLQS LPKCERLPLPSFLLLPFQRITRLRMLLQNILRQTEEGSSRQENAQKALGAVSKIIERCSA EVGRMKQTEELIRLTQRLRFHKVKALPLVSWSRRLEFQGELTELGCRRGGVLFASRPRFT PLCLLLFSDLLLITQPKSGQRLQVLDYAHRSLVQAQQVPDPSGPPTFRLSLLSNHQGRPT HRLLQASSLPRGSFGPTVTLPNIPTRSDMQRWLGAFPTPGPLPCSPDTIYEDCDCSQELC SESSAPAKTEGRSLESRAAPKHLHKTPEGWLKGLPGAFPAQLVCEVTGEHERRRHLRQNQ RLLEAVGSSSGTPNAPPP >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_6|2577_bp atgtcagcccagtcccttcctgcagcaacaccccccacgcagaagccccctcggatcatc cgcccccgccctccttctcgttccagggctgcccagtccccagggcctccccacaatggc tcctctccacaagaactaccccgaaactccaatgatgcaccaaccccaatgtgcaccccc atcttctgggagcccccagctgcatccctcaagccccctgctcttttgcccccctcagct tctagagccagcctcgactcccagacttccccagactcaccttccagcacccccacacct agtccagtgtcccggcgctccgcctccccagaacctgctccccggtctccagtcccccca cccaagccgtctgggtcaccctgcacgcctctgctccccatggctggagtcctggctcag aatggctctgcctcagctcctggcactgtgcggaggctggctggcaggtttgaagggggt gctgaaggccgggctcaggatgcagatgccccggagccaggtctccaagcgagagcagat gtgaatggggagagagaagctcccctcaccgggagtgggtcccaggagaacggtgctcca gatgctggcctggcctgccctccctgctgcccctgtgtctgccacaccacccggcctggc ctggagctcagatgggtgcctgtggggggctatgaggaggtccccagggtcccccgtcgg gcctccccgctgcggacctctcgctcccgcccccaccctccaagcatcggtcaccctgcc gttgtcctcacatcctaccgctccactgctgagcgcaaactcctgccactcctcaagcct cccaaaccaactcgtgtcaggcaggatgccaccattttcggggaccccccacagccagat cttgatctgctttctgaagatggaatccaaacaggggacagtcctgatgaagctcctcag aatactcctccagcaactgtggaggggagggaagaggaggggctagaggtgctgaaggag cagaattgggagctgcccctgcaggatgaacctctgtaccagacctaccgagcagccgtg ctgtcagaggagctgtggggggtgggtgaggatgggagtccttctccagcaaatgctgga gatgcacccaccttcccacgaccccctggacctcgcaacaccctgtggcaggagcttccg gctgtgcaagccagcggtcttctggataccctcagcccccaggagaggcgcatgcaggag agtcttttcgaggtggtgacgtccgaggcttcctacctgcgctccctgcggctgctgacc gacaccttcgtgctgagccaggcactccgggacacgctcaccccccgtgatcaccacaca ctcttctccaatgtgcagcgagtccagggagtcagcgagcggtttctagcaacgctcctg tcccgtgtgcgctcttccccccacatcagcgacttgtgtgatgtggtgcatgcccacgct gtggggcctttctcggtgtatgtggattatgtgcggaaccagcagtatcaggaggagacc tacagccgcctcatggacaccaacgtgcgcttctccgccgagctgcgccggctgcagagc ctccctaagtgtgagcggctcccgctgccgtccttcctgctactgcccttccagcgcatc acccggctgcgcatgctgctgcagaatatcctgcgccagacagaagaggggtccagccgt caggagaatgcccagaaggccctgggtgctgtcagcaagatcatcgagcgttgcagcgct gaggtggggcgcatgaagcagactgaagagctgatccggctcacccaaaggctgcgcttc cacaaagtcaaggccctgcccctggtctcctggtcacggcgcctggaattccagggagag ctgactgagttagggtgccggagggggggcgtgctctttgcctcgcgcccccgcttcacc cctctttgcctgctgctctttagcgacctgctgctcatcactcagcctaagagtgggcag cggttacaggttctggactatgcccatcgctccctggtccaggcccagcaggttccggat ccatctggaccccctaccttccgcctctcccttctcagcaaccaccagggccgccccacc caccgactactccaagcttcttccctccccagaggatcttttgggccaactgtgacactt cccaatatccccaccagatcagacatgcagcgctggctgggagccttcccaaccccaggc ccccttccctgctccccagacaccatctatgaggactgtgactgttcccaggaactgtgt tcagagtcgtctgcacctgccaagactgaaggacggagtctggagtccagggctgccccc aaacacctgcacaagacccctgaaggttggctgaaggggcttcctggggccttccctgcc cagctggtgtgtgaagtcacaggggaacacgaaaggaggaggcaccttcgccagaaccag aggcttctcgaggctgttggatcttcttcaggcacccccaatgcccccccaccctaa >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_7|179_aa MAQVLASELSLVAFILLLVVAFSKKWLDLSRSLFYQRWPVDVSNRIHTSAHVMSMGLLHF YKSRSCSDLENGKVTFIFSTLMLFPINIWIFELERNVSIPIGWSYFIGWLVLILYFTCAI LCYFNHKSFWSLILSHPSGAVSCSSSFGSVEESPRAQTITDTPITQEGVLDPEQKDTHV >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_7|540_bp atggcccaggtgttggcctctgagctcagcctggttgcctttatcctactattggtcgtg gccttctccaagaaatggctggacctctctaggagcctcttctaccagcgctggcccgtg gatgtcagcaacagaatccacacatcagcccacgttatgtccatggggctcctgcacttt tacaaatccaggagctgttctgacttagagaatgggaaagtcaccttcatcttctccacc ctcatgctattccccattaacatctggatcttcgagttggaaaggaatgtatccatcccc ataggctggagctatttcattggttggctggtgcttatcctatacttcacctgcgcgatc ctttgctacttcaaccataaaagtttctggagtctgattctgagccaccccagtggtgcc gtgtcctgcagcagcagtttcggctcagtagaagaatctccaagggcacagacgatcaca gacacccccatcacccaggagggagtcctggatcctgagcagaaggatacacatgtgtaa >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_8|116_aa MESEAKPPDTLILDFLIMRELLIIRKYQIAPGNEGLSTRTSGCGGCTESPSSASPPALSS ISRRGLAAFPRGSARDLQPAMPEPPTPSVGSCATQASLTSANPLLHSAQSHRPPKG >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_8|351_bp atggaaagcgaagcaaaaccaccagataccttgatcttggatttcttgataatgagagaa ctactgataataaggaaataccagatagccccgggcaatgaggggcttagcacccggacc agcggctgcggagggtgtactgagtcccccagcagtgccagcccaccggcgctgagctcc atttctcgccggggcttagctgccttcccgcggggcagtgctcgggacctgcagcccgcc atgcctgagcctcccaccccctccgtgggctcctgtgcgacccaagcctccctgacgagc gccaaccccctgctccacagcgcccagtcccatcgaccacccaagggctga >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_9|922_aa MSEGESKDSSGSECPVCYEKFRDLEGASRTLSCGHVFCHDCLVKYLLSTRVDGQVQRTLV CPICRYVTFLSKKSSRWPSMLDKSSQTLAVPVGLPSVPPLDSLGHTNPLAASSPAWRPPP GQARPPGSPGQSAQLPLDLLPSLPRESQIFVISRHGMPLGEQDSVLPRRSLAELSEASLA PRSARAFCCRSRALLLITLIAVVAVVAAILPWVLLAAIGGPGPRKAPHHPELNLWRALLC GQQTPRDIGLARSLVNLQNRKQRVVLFPFAAITEAGAAKMKFNPFVTSDRSKNRKRHFNA PSHIRRKIMSSPLSKELRQKYNVRSMPIRKDDEVQVVRGHYKGQQIGKVVQVYRKKYVIY IERVQREKANGTTVHVGIHPSKVVITRLKLDKDRKKILERKAKSRQGAGLPAGADRLPAE RAGGGAELLLGGLWVEGDSDAASVLLKLLFSPGPKTIWSLWQQPMLFQEATAFENMTKDW NYLEGSQKDCYRDTMLDSYENTVPQGSFLQLSMMPQRAGNDPPGVSNASEMEMEISNMRE KFLMSVTKLVESKSYNSKVFSKEKYFQTIKEVKEAKEKGKKSSRDYRRAAKYDVISVQGT EKLIEATHGERDRIRYYVHKEELFDILHDTHLSIGHGGRTRMLKELQGKYGNVTKEVIVL YLTLCKQCHQKNPVPKRGLAPKPMTFKDIDSTCQVEILDMQSSADGEFKFILYYQDHSTK FIILRPLRTKQAHEVVSVLLDIFTILGTPSVLDSDSGVEFTNQVVHELNELWPDLKIVSG KYHPGQSQGSLEGASRDVKNMISTWMQSNHSCHWAKGLRFMQMVRNQAFDVSLQQSPFEA MFGYKAKFGLYSSNLPRETVATLQTEEELEIAEEQLENSLWIRQEERAEIGADRSDMDDD MDPTPEASEPSTSQGTSGLLCW >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_9|2769_bp atgtcagaaggggagagcaaggacagctcgggcagtgagtgccccgtgtgctatgagaag ttccgggacctggagggcgccagccggacgctgagctgtggccatgtgttctgccatgac tgcctggtcaagtacctgctgtccacccgcgtggatgggcaggtccagaggaccctggtc tgccccatctgccgctacgtcacattcctcagcaagaagagctcccgctggccctccatg ctggacaagagctcccagacgctggctgtgcccgtgggcctgccctccgtgcccccactg gacagcctgggccacacaaaccccctggccgcctcctcccctgcctggaggccacctcca ggccaggccaggccgccaggcagcccgggccagagcgcccagctccccctggacctgctg cccagcctgccccgggagtcacagatctttgtcatcagccgccacgggatgcccctgggg gagcaggacagcgtgctgccccgccgcagcctggcagagctctcggaggcctccctggcg ccccgctccgcccgcgccttctgctgccgatcgcgggccctgctgctcatcacgctcatc gctgtggtggccgtggtggccgccatcctgccctgggtgctgctggcggcgatcggtggc cctggtcctcgcaaggcccctcaccacccagaactgaatctctggcgggccctgctgtgc ggtcagcagacgcccagagacataggtctcgcgagatctttggtaaacttacagaaccgg aagcagcgtgtagttctcttcccttttgcggccatcaccgaagcgggagcggccaaaatg aagtttaatccctttgtgacttccgaccgaagcaagaatcgcaaaaggcatttcaatgca ccttcccacattcgaaggaagattatgtcttcccctctttccaaagagctgagacagaag tacaacgtgcgatccatgcccatccgaaaggatgatgaagttcaggttgtacgtggacac tataaaggtcagcaaattggcaaagtagtccaggtttacaggaagaaatatgttatctac attgaacgggtgcagcgggaaaaggctaatggcacaactgtccacgtaggcattcacccc agcaaggtggttatcactaggctaaaactggacaaagaccgcaaaaagatcctcgaacgg aaagccaaatctcgccaaggggcggggcttccggctggcgctgaccggcttccggcggag cgggcgggaggtggggcggagttgctgctcgggggcctctgggtggagggggattcagac gccgcgtctgtcctgctgaagctgctctttagcccaggccccaagactatatggtccctg tggcagcagccaatgttgtttcaggaagcaacagcatttgaaaatatgaccaaagattgg aattatttagaaggctctcaaaaggattgctacagagacacaatgctggacagttatgag aacacggtcccacagggatccttcttacagctctccatgatgcctcagagagctggaaat gatccacctggggtttcaaatgcaagtgaaatggaaatggagataagtaacatgagagaa aagtttcttatgagtgtaacaaagttagtagaaagcaaaagttacaacagcaaggtattt tccaaagaaaagtactttcaaacaataaaggaagttaaagaagctaaagaaaaagggaag aagtcatcacgtgattatcgccgtgcagcaaaatatgatgtgatctctgtacagggcaca gagaaactgatagaggctactcatggagaacgtgatcgaatacggtattatgtacataag gaagagttgtttgatattcttcatgatacacatctcagtattggacatggtgggcggaca cgcatgctcaaggagctgcaaggaaaatatgggaatgtcaccaaagaagttattgtctta tatctgactctgtgtaaacagtgccaccagaagaacccagtacccaagagaggccttgca ccaaagcccatgacttttaaggacatagactccacatgccaagttgaaatacttgacatg cagtccagtgccgatggtgagttcaagttcattttatactaccaggatcactcaaccaag tttattattttacggccattaagaaccaaacaggcccatgaggtggtcagtgtcttgtta gatattttcacaattcttggtacacccagtgtgttagactctgacagtggcgttgagttc acaaaccaggttgttcatgagctcaatgagttgtggccagacctaaagattgtatctggt aagtaccaccctggccaaagccagggctccctggaaggagcaagccgtgatgtaaagaac atgataagtacctggatgcagagtaaccactcatgtcactgggccaaaggcctccgattc atgcagatggtgaggaatcaggctttcgacgtttccttgcagcaaagtccatttgaggca atgtttggctataaagccaaatttgggctatattcctcaaacttgccccgggaaactgtg gctactttacaaacggaagaagagctagaaattgctgaagaacagctagaaaatagcctt tggatcaggcaggaagaaagggctgagattggagcagacagatctgatatggacgatgac atggatcccactcctgaagcttcagaacccagcacctcacaagggacttccggtctcctc tgctggtga >gi568815581f:8212040_8420979|GENSCAN_predicted_peptide_10|73_aa MGVLHHCHLESNELSEPATGIVNGQQAPAFLALIHFPSLRIFGRTVILTLPIDFYFVSAS SAWAPYAAVDLIS >gi568815581f:8212040_8420979|GENSCAN_predicted_CDS_10|222_bp atgggggtgctgcatcattgccatttagagagtaacgagttatctgaaccagcgacagga atagtgaatgggcagcaggccccagccttcctggctctaatccatttcccatccttgcgt atctttggtcggacggtgattctcactcttcctattgacttctactttgtgtcagcaagt tcagcgtgggccccgtatgctgccgtggatctgatcagctga