GENSCAN 1.0 Date run: 8-Nov-116 Time: 05:34:20 Sequence gi568815596r:27264403_27469920 : 205518 bp : 47.94% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 570 636 67 2 1 58 88 152 0.966 11.44 1.02 Intr + 767 951 185 0 2 63 64 74 0.326 2.01 1.03 Intr + 2897 2919 23 1 2 67 65 19 0.050 -6.16 1.04 Intr + 11003 11151 149 2 2 45 103 157 0.541 12.78 1.05 Intr + 12289 12439 151 2 1 22 31 139 0.670 0.82 1.06 Intr + 13400 13613 214 2 1 31 81 166 0.795 8.92 1.07 Intr + 16139 16181 43 1 1 103 72 52 0.772 2.91 1.08 Intr + 18343 18497 155 2 2 2 94 234 0.487 15.19 1.09 Intr + 34165 34337 173 0 2 106 99 127 0.781 14.34 1.10 Intr + 34843 35014 172 1 1 106 64 207 0.984 20.05 1.11 Intr + 40557 40652 96 2 0 67 83 148 0.981 12.41 1.12 Intr + 41182 41415 234 0 0 96 80 399 0.999 37.79 1.13 Intr + 41678 41700 23 1 2 134 78 47 0.989 4.64 1.14 Intr + 41811 41935 125 0 2 67 72 253 0.851 21.83 1.15 Term + 42054 42139 86 1 2 63 45 92 0.948 0.22 1.16 PlyA + 42590 42595 6 1.05 2.02 PlyA - 43017 43012 6 1.05 2.01 Sngl - 43493 43119 375 2 0 107 45 594 0.996 51.14 2.00 Prom - 43882 43843 40 -5.56 3.07 PlyA - 45109 45104 6 -1.95 3.06 Term - 45579 45510 70 2 1 131 46 38 0.241 1.31 3.05 Intr - 47549 47497 53 2 2 93 91 6 0.337 -0.89 3.04 Intr - 47844 47812 33 0 0 112 55 64 0.887 3.92 3.03 Intr - 48370 48278 93 1 0 68 99 123 0.999 11.56 3.02 Intr - 48707 48592 116 0 2 58 103 69 0.900 5.57 3.01 Init - 58115 58046 70 2 1 87 105 109 0.980 11.75 3.00 Prom - 61582 61543 40 -3.96 4.28 PlyA - 62232 62227 6 -3.64 4.27 Term - 62491 62273 219 1 0 139 38 96 0.881 6.74 4.26 Intr - 62882 62775 108 2 0 119 61 35 0.944 4.38 4.25 Intr - 63787 63635 153 1 0 66 99 109 0.959 10.07 4.24 Intr - 64194 64066 129 0 0 73 40 100 0.504 4.59 4.23 Intr - 64529 64442 88 1 1 62 80 68 0.997 3.37 4.22 Intr - 64880 64719 162 1 0 93 33 155 0.894 9.59 4.21 Intr - 65121 64977 145 1 1 101 80 68 0.895 6.64 4.20 Intr - 69382 69322 61 1 1 149 49 22 0.552 2.71 4.19 Intr - 71258 71196 63 2 0 57 109 63 0.865 4.21 4.18 Intr - 71626 71428 199 0 1 92 53 130 0.581 9.25 4.17 Intr - 72023 71796 228 1 0 91 81 49 0.695 1.48 4.16 Intr - 72915 72842 74 0 2 76 72 59 0.181 1.30 4.15 Intr - 77831 77546 286 1 1 108 43 237 0.179 18.54 4.14 Intr - 78604 78424 181 2 1 72 56 186 0.907 12.73 4.13 Intr - 79176 78906 271 0 1 103 91 131 0.289 12.01 4.12 Intr - 85997 85912 86 0 2 15 86 54 0.064 -2.56 4.11 Intr - 92912 92799 114 0 0 82 92 58 0.147 6.02 4.10 Intr - 100496 100316 181 2 1 94 82 101 0.998 9.54 4.09 Intr - 102534 102357 178 2 1 101 107 66 0.960 9.72 4.08 Intr - 102799 102672 128 1 2 50 56 199 0.994 12.38 4.07 Intr - 103157 102974 184 1 1 27 85 159 0.681 9.29 4.06 Intr - 103420 103344 77 1 2 59 75 56 0.814 -0.29 4.05 Intr - 103737 103623 115 2 1 31 91 85 0.652 3.55 4.04 Intr - 104119 103923 197 1 2 85 83 30 0.539 0.41 4.03 Intr - 104331 104252 80 1 2 43 91 69 0.725 1.97 4.02 Intr - 104810 104604 207 0 0 40 70 175 0.614 9.95 4.01 Init - 105132 105012 121 0 1 68 113 171 0.684 17.95 4.00 Prom - 105337 105298 40 -7.66 5.00 Prom + 106043 106082 40 -13.87 5.01 Init + 106342 106404 63 0 0 90 65 63 0.974 5.35 5.02 Intr + 106867 106941 75 0 0 109 75 112 0.999 11.71 5.03 Intr + 108221 108338 118 1 1 53 105 64 0.907 4.64 5.04 Intr + 108845 108909 65 0 2 85 91 6 0.911 -0.96 5.05 Intr + 109459 109569 111 0 0 40 78 162 0.997 10.98 5.06 Intr + 109683 109773 91 2 1 96 70 40 0.955 2.57 5.07 Intr + 109944 110031 88 1 1 72 55 93 0.952 3.43 5.08 Intr + 110287 110356 70 1 1 82 99 128 0.999 12.48 5.09 Intr + 110659 110751 93 0 0 92 83 121 0.999 12.16 5.10 Intr + 111104 111307 204 1 0 46 65 265 0.964 19.40 5.11 Intr + 111444 111569 126 2 0 123 64 105 0.999 12.48 5.12 Intr + 111704 111781 78 1 0 101 102 99 0.772 12.35 5.13 Intr + 111911 111985 75 1 0 117 89 22 0.966 4.91 5.14 Intr + 112077 112118 42 2 0 125 70 35 0.921 3.84 5.15 Term + 112204 112317 114 0 0 89 33 205 0.999 13.67 5.16 PlyA + 112701 112706 6 -1.95 6.06 PlyA - 112853 112848 6 1.05 6.05 Term - 113951 113143 809 0 2 90 43 606 0.583 49.67 6.04 Intr - 114457 114065 393 2 0 31 116 381 0.925 29.83 6.03 Intr - 114652 114527 126 2 0 83 64 77 0.821 5.45 6.02 Intr - 115846 115691 156 2 0 58 98 256 0.997 23.58 6.01 Init - 116124 116070 55 0 1 94 77 34 0.995 4.35 6.00 Prom - 116895 116856 40 -11.63 7.12 PlyA - 116907 116902 6 -4.73 7.11 Term - 117403 117197 207 1 0 77 43 215 0.986 13.24 7.10 Intr - 117826 117724 103 0 1 69 105 102 0.997 10.18 7.09 Intr - 118203 118074 130 1 1 73 93 152 0.999 13.95 7.08 Intr - 119198 118964 235 2 1 97 87 322 0.999 30.26 7.07 Intr - 119690 119550 141 2 0 89 85 335 0.999 33.85 7.06 Intr - 120365 120271 95 0 2 76 94 153 0.990 14.38 7.05 Intr - 120686 120414 273 0 0 79 85 281 0.549 24.41 7.04 Intr - 121477 121345 133 1 1 53 101 235 0.997 21.52 7.03 Intr - 121877 121792 86 0 2 133 66 132 0.999 15.04 7.02 Intr - 122756 122687 70 2 1 106 78 73 0.921 6.85 7.01 Init - 123300 123298 3 0 0 102 22 0 0.233 -5.20 7.00 Prom - 123716 123677 40 -5.36 8.02 PlyA - 126254 126249 6 1.05 8.01 Sngl - 129055 128744 312 1 0 88 42 430 0.989 34.33 8.00 Prom - 139171 139132 40 -2.56 9.00 Prom + 144531 144570 40 -5.76 9.01 Init + 145019 145135 117 1 0 92 50 114 0.005 6.29 9.02 Intr + 163916 164250 335 1 2 114 40 119 0.020 4.07 9.03 Intr + 168847 169081 235 1 1 74 94 187 0.107 15.59 9.04 Intr + 169271 169393 123 1 0 93 92 171 0.755 18.78 9.05 Intr + 169587 169688 102 2 0 123 90 71 0.999 11.17 9.06 Intr + 170069 170158 90 1 0 78 75 72 0.971 5.09 9.07 Intr + 170320 170360 41 0 2 96 115 8 0.918 1.32 9.08 Intr + 170731 170825 95 1 2 34 81 156 0.786 9.11 9.09 Intr + 172351 172434 84 2 0 44 83 96 0.957 4.49 9.10 Intr + 172645 172703 59 2 2 100 78 60 0.994 4.80 9.11 Intr + 172860 172958 99 2 0 49 86 99 0.981 6.11 9.12 Intr + 175364 175496 133 1 1 118 92 35 0.999 7.12 9.13 Intr + 176001 176106 106 1 1 76 59 108 0.999 5.97 9.14 Intr + 176250 176300 51 0 0 112 94 15 0.852 2.52 9.15 Intr + 176403 176538 136 0 1 120 81 70 0.928 10.07 9.16 Intr + 176725 176778 54 0 0 113 85 57 0.992 7.08 9.17 Intr + 176865 176928 64 2 1 83 89 100 0.999 7.89 9.18 Intr + 177165 177215 51 1 0 106 36 97 0.957 5.18 9.19 Intr + 178177 178361 185 2 2 127 93 265 0.623 30.41 9.20 Intr + 178440 178499 60 2 0 77 85 54 0.552 2.93 9.21 Intr + 178672 178878 207 0 0 101 47 185 0.892 14.97 9.22 Intr + 178996 179130 135 0 0 125 110 6 0.924 7.26 9.23 Term + 179547 179654 108 2 0 95 48 35 0.918 -1.29 9.24 PlyA + 179870 179875 6 1.05 10.32 PlyA - 179993 179988 6 -1.95 10.31 Term - 180119 180030 90 2 0 94 33 12 0.712 -5.98 10.30 Intr - 180703 180612 92 2 2 147 72 80 0.767 12.01 10.29 Intr - 181047 180894 154 0 1 119 80 131 0.636 15.05 10.28 Intr - 181441 181343 99 1 0 77 107 42 0.964 5.31 10.27 Intr - 181586 181527 60 2 0 92 76 47 0.874 2.83 10.26 Intr - 181905 181858 48 0 0 54 105 83 0.573 5.48 10.25 Intr - 183232 183113 120 1 0 110 85 141 0.999 16.69 10.24 Intr - 183520 183410 111 1 0 88 81 90 0.990 8.88 10.23 Intr - 184629 184513 117 0 0 97 81 19 0.843 2.76 10.22 Intr - 184978 184892 87 1 0 58 84 94 0.986 6.17 10.21 Intr - 185160 185097 64 2 1 34 89 105 0.988 3.92 10.20 Intr - 185398 185289 110 1 2 35 115 181 0.970 14.58 10.19 Intr - 185694 185596 99 0 0 58 92 68 0.935 4.51 10.18 Intr - 189111 188982 130 2 1 88 100 176 0.999 19.50 10.17 Intr - 189337 189228 110 1 2 15 80 124 0.917 3.38 10.16 Intr - 189760 189580 181 0 1 5 81 138 0.376 4.67 10.15 Intr - 190016 189952 65 2 2 119 84 48 0.682 5.02 10.14 Intr - 190302 190165 138 0 0 49 64 63 0.334 0.66 10.13 Intr - 193353 193237 117 0 0 97 86 119 0.999 13.26 10.12 Intr - 193574 193439 136 1 1 61 105 121 0.942 11.67 10.11 Intr - 193821 193724 98 0 2 101 105 76 0.999 9.41 10.10 Intr - 194466 194377 90 0 0 77 97 88 0.998 8.79 10.09 Intr - 195120 194976 145 2 1 66 78 150 0.999 12.08 10.08 Intr - 195427 195307 121 2 1 92 80 190 0.998 18.15 10.07 Intr - 196691 196613 79 2 1 43 74 99 0.995 3.12 10.06 Intr - 197115 196867 249 0 0 77 63 286 0.990 22.63 10.05 Intr - 197434 197357 78 1 0 112 77 119 0.748 12.95 10.04 Intr - 198391 198299 93 1 0 107 90 89 0.946 11.16 10.03 Intr - 198779 198710 70 1 1 86 7 41 0.326 -5.02 10.02 Intr - 201116 201009 108 1 0 139 78 58 0.984 9.30 10.01 Init - 201435 201344 92 0 2 69 97 199 0.759 18.86 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 72940 72842 99 0 0 87 72 90 0.801 6.53 S.002 Term - 100197 99998 200 1 2 68 49 128 0.922 4.46 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_1|631_aa MRSGHRALRGSDAAAWPVVTLAARAASSTECQEGAQTPSRALPAPAGSHQAGKAEAPRSA WPNVPPPETEGAGGGNTNLHLKIYSILNQAVSASGGAKKRPAQTLSVDAAHKRSQLLDPA GVKFHTQKDEGHPPGLRERLPEVLTDAASPLAQIMSTVKEAAHRLSKSEMSLYAVLDLKK GASPEDFKKSYRKLALRYHPDKNPGNAQAAEIFKEINAAHAILSDSKKRKIYDQHGSLGI YLYDHFGEEGVRYYFILNSCWFKDLKNLFRSTDDVDPMGFKPLLGDAHSMDNLEKQLICP ICLEMFSKPVVILPCQHNLCRKCANDVFQASNPLWQSRGSTTVSSGGRFRCPSCRHEVVL DRHGVYGLQRNLLVENIIDIYKQESSRPLHSKAEQHLMCEEHEEEKINIYCLSCEVPTCS LCKVFGAHKDCEVAPLPTIYKRQKSELSDGIAMLVAGNDRVQAVITQMEEVCQTIEDNSR RQKQLLNQRFESLCAVLEERKGELLQALAREQEEKLQRVRGLIRQYGDHLEASSKLVESA IQSMEEPQMALYLQQAKELINKVGAMSKVELAGRPEPGYESMEQFTVRVEHVAEMLRTID FQPGASGEEEEVAPDGEEGSAGPEEERPDGP >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_1|1896_bp atgcgcagcggccaccgcgcactccgcggctcggatgcggcagcctggcccgtagtgacc ctggcggcccgcgcggccagcagcaccgagtgccaggagggggcgcagacgccctcacgt gccctgcccgcccctgccgggagccaccaggcggggaaggcagaggcgcctcgcagcgcg tggccaaacgtgccgcctccagaaaccgagggcgccggcggtgggaataccaaccttcac ttgaaaatttattctattctcaaccaagcagttagtgcttccgggggcgccaaaaaacga cctgcccagaccctcagcgtcgacgctgcgcacaagcgcagtcaactgctggacccggcc ggtgtgaagtttcacacccaaaaggatgaagggcacccacctggcttaagagaacgactc ccagaagttctcacagatgctgcttctcctctggctcagatcatgtctactgtgaaggaa gcagcacaccggctgtccaaaagtgagatgagcctctatgcagtgctggatcttaagaag ggcgcctcacctgaagacttcaaaaaatcctacaggaaactggccttgcggtatcatccc gacaagaatccagggaatgctcaagcagcagaaatattcaaagagatcaacgcagctcat gccatactgagcgactctaagaagcggaaaatttacgaccagcatggctcattgggaata tatctgtatgatcactttggtgaagaaggcgtcagatactattttattctgaatagttgt tggttcaaggatctcaagaatctcttcagaagcactgatgacgttgatcccatgggtttc aagccgctgctaggggatgcacacagcatggacaacctggagaagcagctcatctgcccc atctgcctggagatgttctccaaaccagtggtgatcctgccctgccaacacaacctgtgc cgcaaatgtgccaacgacgtcttccaggcctcgaatcctctatggcagtcccggggctcc accactgtgtcttcaggaggccgtttccgctgcccatcgtgcaggcatgaggttgtcctg gacagacacggtgtctacggcctgcagcgaaacctgctagtggagaacattatcgacatt tacaagcaggagtcatccaggccgctgcactccaaggctgagcagcacctcatgtgcgag gagcatgaagaagagaagatcaatatttactgcctgagctgtgaggtgcccacctgctct ctctgcaaggtcttcggtgcccacaaggactgtgaggtggccccactgcccaccatttac aaacgccagaagagtgagctcagcgatggcatcgcgatgctggtggcaggcaatgaccgc gtgcaagcagtgatcacacagatggaggaggtgtgccagactatcgaggacaatagccgg aggcagaagcagttgttaaaccagaggtttgagagcctgtgcgcagtgctggaggagcgc aagggtgagctgctgcaggcgctggcccgggagcaagaggagaagctgcagcgcgtccgc ggcctcatccgtcagtatggcgaccacctggaggcctcctctaagctggtggagtctgcc atccagtccatggaagagccacaaatggcgctgtatctccagcaggccaaggagctgatc aataaggtcggggccatgtcgaaggtggagctggcagggcggccggagccaggctatgag agcatggagcaattcaccgtaagggtggagcacgtggccgaaatgctgcggaccatcgac ttccagccaggcgcttccggggaggaagaggaggtggccccagacggagaggagggcagc gcggggccggaggaagagcggccggatgggccttaa >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_2|124_aa MRQAGRAALLAALLLLVQLCPGSSQRSPEAAGVQDPSLRWSPGARNQGGGARALLLLLAE RFPRRAGPGRLGLGTAGERPRRDNPSLSIDLTFHLLRTLLELARTQSQRERAEQNRIIFD SVGK >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_2|375_bp atgaggcaggcgggacgcgcagcgctgctggccgcgctgctgctcctggtacagctgtgc cctgggagcagccagaggagccccgaggcggccggggtccaggacccgagtctgcgctgg agccccggggcacggaaccagggtggcggggcccgcgcgctcctcttgctgctggcggag cgcttcccgcgccgcgcggggcccggccgattgggactcgggacggcaggcgagcggccg cggcgggacaacccttctctgtccattgacctcacctttcacctgctgcggaccctgctg gagctggcgcggacgcagagccagcgggagcgcgccgagcagaaccgcatcatattcgac tcggtgggcaagtga >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_3|144_aa MALWRAYQRALAAHPWKVQVLTAGSLMGLGDIISQQLVERRGLQEHQRGRTLTMVSLGCG FVGPVVGGWYKVLDRFIPGTTKVDALKKMLLDQDYPDALITNYYLWPAVQLANFYLVPLH YRLAVVQCVAVIWNSYLSWKAHRL >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_3|435_bp atggcactctggcgggcataccagcgggccctggccgctcacccgtggaaagtacaggtc ctgacagctgggtccctgatgggcctgggtgacattatctcacagcagctggtggagagg cggggtctgcaggaacaccagagaggccggactctgaccatggtgtccctgggctgtggc tttgtgggccctgtggtaggaggctggtacaaggttttggatcggttcatccctggcacc accaaagtggatgcactgaagaagatgttgttggatcaggattatcctgatgcccttatc accaactactatctatggcctgctgtgcagttagccaacttctacctggtcccccttcat tacaggttggccgttgtccaatgtgttgctgttatctggaactcctacctgtcctggaag gcacatcggctctaa >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_4|1344_aa MTKEEKLQLRKEKKQQKKKRKEEKGAEPETGSAVSAAQCQVGPTRELPESGIQLGTPREK VPAGRSKAELRAERRAKQEAERALKQARKGEQGGPPPKASPSTAGETPSGVKRLPEYPQV DDLLLRRLVKKPERQQLYPILFKLWAIGPVPLFCQGSYTKGLWIQSQSLLSPTPVQQTKL SDPVYEVGSYEIVITFESEEFYIPSSVIHPAMVRLGLQYSQGLVSGSNARCIALLRALQQ VIQDYTTPPNEELSRDLVNKLKPYMSFLTQCRPLSASMHNAIKFLNKEITSVGSSKREEE VMSMRNKEGMHLWVKLRNMLKTPGKANAKSELRAAIDRYVQEKIVLAAQAISRFAYQKIS NGDVILVYGCSSLVSRILQEAWTEGRRFRVVVVDSRPWLEGRHTLRSLVHAGVPASYLLI PAASYVLPEVSKVLLGAHALLANGSVMSRVGTAQLALVARAHNVPVLVCCETYKFCERVQ TDAFVSNELALSGPSLTSLLAESSSGRRRGLLCLPDSALGSDAARVAVFFSLSVRQNPLK SLLKHKVLAPSRIADSGQPFWGVLMDTCGVGYVALGEAGPVGNMTVVDSPGQEVLNQLDV KTSSEMTSAEASVEMSLPTPLPGFEDSPDQRRLPPEQESLSRLEQPDQSNPLSTPMPKKR GRKSKAELLLLKLSKDLDRPESQSPKRPPEDFETPSGERPRRRAAQVALLYLQELAEELS TALPAPVSCPEGPKVSSPTKPKKIRQPAACPGGEEVDGAPRDEDFFLQVEAEDVEESEGP SESSSEPEPVVPRSTPRGSTSGEEKSPLFSVQREGLPEDGTLYRINRFSSITAHPERWDV SFFTGGPLWALDWCPVPEGAGASQYVALFSSPDMNETHPLSQLHSGPGLLQLWGLGTLQQ ESCPGNRAHFVYGIACDNGCIWDLKFCPSGAWELPGTPRKVLPSQLWDGPRTQSQDKEAL GILRVEGTKTGKYCYSVYPIRRPCWLSNPQVQCVATLQVGSMQATDPSECGMVVFWNLPT NSPLQRIRLSDGSLKLYPFQCFLAHDQAVRTLQWCKANSHFLVSAGSDRKIKFWDLRRPY EPINSIKRFLSTELAWLLPYNGVTVAQDNCYASYGLCGIHYIDAGYLGFKAYFTAPRKGT VWSLSGSDWLGTIAAGDISGELIAAILPDMALNPINVKRPVERRFPIYKADLIPYQDSPE GPDHSSASSGVPNPPKARTYTETVNHHYLLFQDTDLGSFHDLLRREPMLRMQEGEGHSQL CLDRLQLEAIHKVRFSPNLDSYGWLVSGGQSGLVRIHFVRGLASPLGHRMQLESRAHFNA MFQPSSPTRRPGFSPTSHRLLPTP >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_4|4035_bp atgaccaaagaagaaaagctgcagcttcggaaggaaaagaaacagcagaagaagaaacgg aaggaagaaaagggggcagaaccagagactggctctgctgtatctgcagcccaatgtcaa gtaggcccaaccagagaactgccagaatcgggcattcagttgggcactcctcgggagaaa gttccagctggtcggagtaaggccgaacttcgggctgagcgtcgagccaagcaggaggcc gagcgggccctgaaacaggcaagaaaaggggaacaaggaggaccacctcctaaggccagc cccagcacagctggagaaaccccctcaggagtgaagcgtctccctgagtaccctcaggtt gatgacctacttctgagaaggcttgttaaaaaaccagagcgtcaacagctttatcccatc ctttttaaactctgggccattggtcctgttcccttgttttgtcaaggttcctacacgaaa ggattatggatccaaagtcagtctcttctctcacctaccccagtacagcagacaaaactc tctgacccagtttatgaggtaggatcctatgaaattgtcataacttttgagtctgaggag ttttacatcccatcctctgtgatccacccagccatggtgcgactcggcctgcagtactcc cagggcctggtcagtggctccaatgcccggtgtattgccctgcttcgtgccttgcagcag gtgattcaggattacacaacaccgcctaatgaagaactctccagggatctagtgaataaa ctaaaaccctacatgagcttcctgactcagtgccgtcccctgtcagcgagcatgcacaac gccatcaagttccttaacaaggaaatcaccagtgtgggcagttccaagcgggaagaggag gtgatgagtatgagaaataaggaaggcatgcacctgtgggtaaaattaagaaacatgtta aaaactcccgggaaggccaacgccaagtcagaacttcgagcagccattgatcggtatgtg caagagaagattgtgctagcagctcaggcaatttcacgctttgcttaccagaagatcagt aatggagatgtgatcctggtatatggatgctcatctctggtatcacgaattcttcaggag gcttggacagagggccggcggtttcgggtggtagtggtggacagccggccatggctggaa ggaaggcacacactacgttctctagtccatgctggtgtcccagcctcctacctgctgatt cctgcagcctcctatgtgctcccagaggtttccaaggtgctattgggagctcatgcactc ttggccaacgggtctgtgatgtcacgggtagggacagcacagttagccctggtggctcga gcccataatgtaccagtgctggtttgctgtgaaacatacaagttctgtgagcgtgtgcag actgatgcctttgtctctaatgagctagctctctcgggcccatccctgacttcactactg gcagaatcctccagcggccggcggcgaggacttctttgtctcccagactccgccttgggc tcggacgccgccagggttgcagtgtttttcagcttgagtgtgcgtcagaatcccctgaag agcttgttaaaacacaaggtgctggccccatccagaattgctgattcggggcagccattt tggggggtgctgatggatacctgcggggtcggctatgttgccctgggggaggccggcccc gtggggaacatgactgtggtagactctcctggacaagaggtgctaaatcagcttgatgtc aagacctcttcagaaatgaccagtgcagaggcttccgtagagatgtcattacctacccct ttgcctggatttgaggattctcctgatcagaggaggctccctccagagcaggaaagcctc tccagactggaacagccagatcaatccaaccctctgtccacccccatgcctaagaaacga ggtcgaaagtccaaggcagagctgctgctgctgaagttgtcaaaagacctagatcggcca gaatctcaatctccaaagaggccccctgaggactttgagaccccttctggggaacgaccc cgccgaagggctgcccaagtggcacttctgtatcttcaggaactggctgaagagctctca acagccctgcctgcccctgtgtcctgtcctgagggccccaaggtgagcagccccaccaaa ccgaagaagatccggcagccagcagcctgtccaggtggagaagaggtggatggtgctcca cgggatgaagacttttttctccaggttgaggctgaagatgtggaagaaagtgagggccca agtgagagctcatctgaacctgagcctgtagtgccccgaagcaccccacgaggatctact tcaggggaggagaagtctccattgttttctgtacaacgtgaagggctacctgaagatggc accctctaccgaataaacagatttagctcgatcacagcacatccagagcgctgggatgtg tccttcttcacggggggaccgctctgggctctggactggtgcccagtgccagagggggca ggagcctcgcaatatgtggctcttttctccagccctgacatgaatgagacacacccactg agccagcttcattcgggtcctgggctgctccagctctggggccttgggaccttgcagcaa gaaagctgtcctggcaacagggcccactttgtctatgggattgcttgtgacaacggctgc atctgggacctcaagttctgccccagtggagcatgggaacttccaggcacccctcggaag gtacttcccagtcaactgtgggatggccctaggactcaaagccaggacaaagaggccctg ggaattcttagagttgaaggaacgaagacgggaaagtactgctattcagtctaccccatc cggaggccctgctggctcagcaacccccaggtacaatgtgtggcaactctgcaggtgggg tctatgcaagctacagacccctctgagtgtggcatggtggttttctggaaccttcccact aactcacccctgcagcggatacggctctctgatggctccttaaagctctaccccttccag tgtttcctagcccatgaccaggctgtgcgtacccttcaatggtgcaaagctaacagccat ttccttgtctctgcggggagtgaccggaaaatcaaattctgggaccttcgacgtccttac gaacccataaactctatcaagcgcttcttgagtacagaactggcctggctgcttccctac aatggtgtcactgtggctcaggacaactgctatgcctcttatggactctgtgggattcat tatattgacgctggttaccttggtttcaaggcctacttcactgctcctcgaaaaggcacc gtttggagtctttcaggatccgactggcttgggacaatagctgcaggagatatatccggg gagctcattgctgctatattaccagatatggcactgaatccaataaatgtcaagcgacct gtagagcgaagatttcctatatataaagcagatctgataccgtatcaggacagtcctgaa ggtccagaccattcttctgcttcatctggggtccccaaccctcctaaggctcgaacttac actgaaactgtcaaccatcactacttgctctttcaagacacagatttgggttcattccat gatctgctccgtagagaaccaatgctgcgcatgcaggagggagaggggcattctcaactc tgcctggacaggctgcagctggaggctattcataaggtacgtttcagcccaaacctggac tcctatggatggctggtatctggggggcagtcagggctggttcgaatccattttgtccgt ggactcgcctccccactgggccaccgtatgcagcttgaaagccgagcccacttcaatgct atgttccaaccatcctcccccactagacggcctggcttctctccaaccagccatcgcctt ctgcccactccctag >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_5|470_aa MHFSIPETESRSGDSGGSAYVAYNIHVNGVLHCRVRYSQLLGLHEQLRKEYGANVLPAFP PKKLFSLTPAEVEQRREQLEKYMQAVRQDPLLGSSETFNSFLRRAQQETQQVPTEEVSLE VLLSNGQKVLVNVLTSDQTEDVLEAVAAKLDLPDDLIGYFSLFLVREKEDGAFSFVRKLQ EFELPYVSVTSLRSQEYKIVLRKSYWDSAYDDDVMENRVGLNLLYAQTVSDIERGWILVT KEQHRQLKSLQEKVSKKEFLRLAQTLRHYGYLRFDACVADFPEKDCPVVVSAGNSELSLQ LRLPGQQLREGSFRVTRMRCWRVTSSVPLPSGSTSSPGRGRGEVRLELAFEYLMSKDRLQ WVTITSPQAIMMSICLQSMVDELMVKKSGGSIRKMLRRRVGGTLRRSDSQQAVKSPPLLE SPDATRESMVKLSSKLSAVSLRGIGSPSTDASASDVHGNFAFEGIGDEDL >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_5|1413_bp atgcacttttccattcccgaaaccgagtcccgcagcggggacagcggcggctccgcctac gtggcctataacattcacgtgaatggagtcctgcactgtcgggtgcgctacagccagctc ctggggctgcacgagcagcttcggaaggagtatggggccaatgtgcttcctgcattcccc ccaaagaagcttttctctctgactcctgctgaggtagaacagaggagagagcagttagag aagtacatgcaagctgttcggcaagacccattgcttgggagcagcgagactttcaacagt ttcctgcgtcgggcacaacaggagacacagcaggtccccacagaggaagtgtccttggaa gtgctgctcagcaacgggcagaaagttctggtcaacgtgctaacttcagatcagactgag gatgtcctggaggctgtagctgcaaagctggatcttccagatgacttgattggatacttt agtctattcttagttcgagaaaaagaggatggagccttttcttttgtacggaagttgcaa gagtttgagctgccttatgtgtctgtcaccagccttcggagtcaagagtataagattgtg ctaaggaagagttattgggactctgcctatgatgacgatgtcatggagaaccgggttggc ctgaacctgctttatgctcagacggtatcagatattgagcgtgggtggatcttggtcacc aaggaacagcaccggcaactcaaatctctgcaagagaaagtctccaagaaggagttcctg agactggcccagacgctgcggcactatggctacttgcgctttgatgcctgtgtggctgac ttcccagaaaaggactgtcctgtggtggtgagcgcgggcaacagtgagctcagcctgcag ctccgcctgcctggccagcaactccgagaaggctccttccgggtcacccgcatgcgatgc tggcgggtcacctcctctgtaccattgcccagtggaagcacgagcagcccaggccggggc cggggtgaggtgcgcctggaactggcttttgaatacctcatgagcaaggaccggctacag tgggtcaccatcactagcccccaggctatcatgatgagcatctgcttgcagtccatggtt gatgaactgatggtgaagaaatctggcggcagtatcaggaagatgctgcgccggcgggtg gggggtactctgagacgctcagacagccagcaagcagtgaagtccccaccactgcttgag tcacctgatgccacccgggagtctatggtcaaactctcaagtaagctgagtgccgtgagc ttgcggggaattggcagtcccagcacagatgccagtgccagtgatgtccacggcaatttc gccttcgagggcattggagatgaggatctgtaa >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_6|512_aa MPRRKQSHPQPVKCEGVKVDTEDSLDEGPGALVLESDLLLGQDLEFEEEEEEEEGDGNSD QLMGFERDSEGDSLGARPGLPYGLSDDESGGGRALSAESEVEEPARGPGEARGGPGGGPL LPPRLLYSCRLCTFVSHYSSHLKRHMQTHSGEKPFRCGRCPYASAQLVNLTRHTRTHTGE KPYRCPHCPFACSSLGNLRRHQRTHAGPPTPPCPTCGFRCCTPRPARPPSPTEQEGAVPR RPEDLSLHVPPGGASFLPDCGQLRGEGEGLCGTGSEPLPELLFPWTCRGCGQELEEGEGS RLGAAMCGRCMRGEAGGGASGGPQGPSDKGFACSLCPFATHYPNHLARHMKTHSGEKPFR CARCPYASAHLDNLKRHQRVHTGEKPYKCPLCPYACGNLANLKRHGRIHSGDKPFRCSLC NYSCNQSMNLKRHMLRHTGEKPFRCATCAYTTGHWDNYKRHQKVHGHGGAGGPGLSASEG WAPPHSPPSVLSSRGPPALGTAGSRAVHTDSS >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_6|1539_bp atgccccgaaggaagcaaagccacccgcagcccgtgaaatgcgagggggtcaaagtggat actgaagactccctcgacgaaggacccggggccctggtattggagagtgatttgctacta ggccaggatctggagtttgaggaggaagaggaagaggaggaaggcgacggcaacagtgac cagctcatgggcttcgagagagactcggaaggagactctctgggggccaggcctgggctt ccctatgggctgagcgacgatgagtctgggggcggccgggcactaagtgcggagagtgaa gttgaggagccagccaggggtccaggggaggccaggggagggccgggtggggggcccctg ctgcccccacggctactgtactcatgccgcctctgcaccttcgtgtcccactactcgagc cacctgaagcggcacatgcagacacacagcggagagaagccgttccgctgtggccgctgc ccctacgcctcagcccagctcgtcaacctgacacgacatacccgcacccacactggcgag aagccctaccgctgtccccactgcccctttgcctgcagcagcctgggcaacctgaggcgg catcagcgtacccacgcagggccccccactcctccctgcccgacctgtggcttccgctgc tgtactccacgaccagcccggcctcccagtcccacagagcaggagggggcggtgccccgg cgacctgaagatttgagcctccatgtgccaccaggtggtgccagtttcctgccagactgt gggcagctgcggggtgaaggggagggcctctgcgggactggatcagaaccactgccagag ctgctattcccttggacctgccggggctgtggacaagagctggaggagggtgagggtagt cggctgggagctgccatgtgtgggcgctgcatgcgaggagaggctggagggggtgccagt ggggggccccagggccccagtgacaaaggctttgcctgtagcctctgcccctttgccact cactatcccaaccacctggcccggcacatgaagacacacagtggtgagaagcccttccgc tgcgcccgctgtccttatgcctctgctcatctggataacctgaaacggcaccagcgcgtc catacaggagagaagccctacaagtgccccctctgcccttatgcctgtggcaatctggcc aacctcaagcgtcatggtcgcatccactctggtgacaaaccttttcggtgtagcctttgc aactacagctgcaaccagagcatgaacctcaaacgtcacatgctgcggcacacaggcgag aagcccttccgctgtgccacctgcgcctataccacgggccactgggacaactacaagcgc caccagaaggtgcatggccacggtggggcaggagggcctggtctctctgcctctgagggc tgggccccacctcatagcccaccctctgttttgagctctcggggcccaccagccctgggg actgctggcagccgggctgtccacacagactcatcctga >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_7|491_aa MDAHNCIPELDSETAMFSVYDGHGGEEVALYCAKYLPDIIKDQKAYKEGKLQKALEDAFL AIDAKLTTEEVIKELAQIAGRPTEDEDEKEKVADEDDVDNEEAALLHEEATMTIEELLTR YGQNCHKGPPHSKSGGGTGEEPGSQGLNGEAGPEDSTRETPSQENGPTAKAYTGFSSNSE RGTEAGQVASDKLPRVAKSKFFEDSEDESDEAEEEEEDSEECSEEEDGYSSEEAENEEDE DDTEEAEEDDEEEEEEMMVPGMEGKEEPGSDSGTTAVVALIRGKQLIVANAGDSRCVVSE AGKALDMSYDHKPEDEVELARIKNAGGKVTMDGRVNGGLNLSRAIGDHFYKRNKNLPPEE QMISALPDIKVLTLTDDHEFMVIACDGIWNVMSSQEVVDFIQSKISQRDENGELRLLSSI VEELLDQCLAPDTSGDGTGCDNMTCIIICFKPRNTAELQPESGKRKLEEVLSTEGAEENG NSDKKKKAKRD >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_7|1476_bp atggatgctcacaactgtattcctgagctggacagtgagacagccatgttttctgtctac gatggacatggaggggaggaagttgccttgtactgtgccaaatatcttcctgatatcatc aaagatcagaaggcctacaaggaaggcaagctacagaaggctttagaagatgccttcttg gctattgacgccaaattgaccactgaagaagtcattaaagagctggcacagattgcaggg cgacccactgaggatgaagatgaaaaagaaaaagtagctgatgaagatgatgtggacaat gaggaggctgcactgctgcatgaagaggctaccatgactattgaagagctgctgacacgc tacgggcagaactgtcacaagggccctccccacagcaaatctggaggtgggacaggcgag gaaccagggtcccagggcctcaatggggaggcaggacctgaggactcaactagggaaact ccttcacaagaaaatggccccacagccaaggcctacacaggcttttcctccaactcggaa cgtgggactgaggcaggccaagttgcctctgacaagctgcctcgagttgctaagtccaag ttctttgaggacagtgaggatgagtcagatgaggcggaggaagaagaggaagacagtgag gaatgcagcgaggaagaggatggctacagcagtgaggaggcagagaatgaggaagatgag gatgacaccgaggaggctgaagaggacgatgaagaagaagaagaagagatgatggtgcca gggatggaaggcaaagaggagcctggctctgacagtggtacaacagcggtggtggccctg atacgagggaagcagttgattgtagccaacgcaggagactctcgctgtgtggtatctgag gctggcaaagctttagacatgtcctatgatcacaaaccagaggatgaagtagaactagca cgcatcaagaatgctggtggcaaggtcaccatggatgggcgagtcaacgggggcctcaac ctctccagagccattggggaccacttctataagagaaacaagaacctgccacctgaggaa cagatgatttcagcccttcctgacatcaaggtgctgactctcactgacgaccatgaattc atggtcattgcctgtgatggcatctggaatgtgatgagcagccaggaagttgtagatttc attcaatcaaagatcagccagcgtgatgaaaatggggagcttcggttattgtcatccatt gtggaagagctgctggatcagtgcctggcaccagacacttctggggatggtacagggtgt gacaacatgacctgcatcatcatttgcttcaagccccgaaacacagcagagctccagcca gagagtggcaagcgaaaactagaggaggtgctctctactgagggggctgaagaaaatggc aacagcgacaagaagaagaaggccaagcgagactag >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_8|103_aa MPSDCPKAPAAAPAPRSHHCRCRRLSLVAGMTTASTSQVRQNYHQDSEAAINRQINLELY ASSIYLCVAYYFDSDDVALKNFAKYFLHQSHEEREHAEKLMKL >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_8|312_bp atgccctcggactgccccaaggcccccgccgcagctccagcgccgcgtagccaccactgc cgctgccgccgcctctccttagtcgccggcatgacgaccgcgtctacctcgcaggtgcgc cagaactaccaccaagactcagaggccgccatcaaccgccagatcaacctggagctctac gcctcctccatttacctgtgcgtggcttactactttgacagcgatgatgtggctttgaag aactttgccaaatactttcttcaccaatctcatgaggagagggaacatgctgagaaattg atgaagctgtag >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_9|889_aa MAAAGRRPQVQESWARPVPEPKPRGCARQEQAPRRDRRKALELSWRLQEEVGGPLCVQQN HLGHLDRAVGWTERRAPAGTENIDPSERSRPDRRKGRRAGGSPPQRTPEGRAPPTQNVTQ WKPAGGAAPPIVGPGAARAGPAVRLRCGAQLAGLSVPSSMSEGESQTVLSSGSDPKVESS SSAPGLTSVSPPVTSTTSAASPEEEEESEDESEILEESPCGRWQKRREEVNQRNVPGIDS AYLAMDTEEGVEVVWNEVQFSERKNYKLQEEKVRAVFDNLIQLEHLNIVKFHKYWADIKE NKARVIFITEYMSSGSLKQFLKKTKKNHKTMNEKAWKRWCTQILSALSYLHSCDPPIIHG NLTCDTIFIQHNGLIKIGSVAPDTINNHVKTCREEQKNLHFFAPEYGEVTNVTTAVDIYS FGMCALEMAVLEIQGNGESSYVPQEAISSAIQLLEDPLQREFIQKCLQSEPARRPTAREL LFHPALFEVPSLKLLAAHCIVGHQHMIPENALEEITKNMDTSAVLAEIPAGPGREPVQTL YSQSPALELDKFLEDVRNGIYPLTAFGLPRPQQPQQEEVTSPVVPPSVKTPTPEPAEVET RKVVLMQCNIESVEEGVKHHLTLLLKLEDKLNRHLSCDLMPNENIPELAAELVQLGFINA ARGPRRLMRVGLALILVGHVNLLLGAVLHGTVLRHVANPRGAVTPEYTVANVISVGSGLL SVSVGLVALLASRNLLRPPLHWVLLALALVNLLLSVACSLGLLLAVSLTVANGGRRLIAD CHPGLLDPLVPLDEGPGHTDCPFDPTRIYDTALALWIPSLLMSAGEAALSGYCCVAALTL RGVGPCRKDGLQGQLEEMTELESPKCKRQENEQLLDQNQEIRASQRSWV >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_9|2670_bp atggcggcggctggccggcggcctcaggtgcaggaaagctgggcgcgacccgtgccggag ccgaagccccgggggtgcgcgcggcaggagcaggccccgcggcgcgaccgacgcaaggca ttagaactgtcatggcgccttcaagaagaggtaggaggccctctctgcgtccagcagaac catctggggcacctggaccgggcggtggggtggacagagagacgagccccagctgggacc gaaaacatcgacccctccgagaggtctcggccggaccggcgcaaggggaggagagcgggt ggaagcccaccccagcgaacgcccgagggccgggccccgcccacccagaacgtcacccaa tggaaacctgccggcggtgcggcaccgcccatcgttggtccgggcgccgcgagggcgggg cccgcagttcggttgcgctgcggagcgcagcttgcaggcctgagtgttccttccagcatg tcggagggggagtcccagacagtacttagcagtggctcagacccaaaggtagaatcctca tcttcagctcctggcctgacatcagtgtcacctcctgtgacctccacaacctcagctgct tccccagaggaagaagaagaaagtgaagatgagtctgagattttggaagagtcgccctgt gggcgctggcagaagaggcgagaagaggtgaatcaacggaatgtaccaggtattgacagt gcatacctggccatggatacagaggaaggtgtagaggttgtgtggaatgaggtacagttc tctgaacgcaagaactacaagctgcaggaggaaaaggttcgtgctgtgtttgataatctg attcaattggagcatcttaacattgttaagtttcacaaatattgggctgacattaaagag aacaaggccagggtcatttttatcacagaatacatgtcatctgggagtctgaagcaattt ctgaagaagaccaaaaagaaccacaagacgatgaatgaaaaggcatggaagcgttggtgc acacaaatcctctctgccctaagctacctgcactcctgtgacccccccatcatccatggg aacctgacctgtgacaccatcttcatccagcacaacggactcatcaagattggctctgtg gctcctgacactatcaacaatcatgtgaagacttgtcgagaagagcagaagaatctacac ttctttgcaccagagtatggagaagtcactaatgtgacaacagcagtggacatctactcc tttggcatgtgtgcactggagatggcagtgctggagattcagggcaatggagagtcctca tatgtgccacaggaagccatcagcagtgccatccagcttctagaagacccattacagagg gagttcattcaaaagtgcctgcagtctgagcctgctcgcagaccaacagccagagaactt ctgttccacccagcattgtttgaagtgccctcgctcaaactccttgcggcccactgcatt gtgggacaccaacacatgatcccagagaacgctctagaggagatcaccaaaaacatggat actagtgccgtactggctgaaatccctgcaggaccaggaagagaaccagttcagactttg tactctcagtcaccagctctggaattagataaattccttgaagatgtcaggaatgggatc tatcctctgacagcctttgggctgcctcggccccagcagccacagcaggaggaggtgaca tcacctgtcgtgcccccctctgtcaagactccgacacctgaaccagctgaggtggagact cgcaaggtggtgctgatgcagtgcaacattgagtcggtggaggagggagtcaaacaccac ctgacacttctgctgaagttggaggacaaactgaaccggcacctgagctgtgacctgatg ccaaatgagaatatccccgagttggcggctgagctggtgcagctgggcttcattaacgcc gcccgggggcccaggcggctgatgcgtgtgggcctcgcgctgatcttggtgggccacgtg aacctgctgctgggggccgtgctgcatggcaccgtcctgcggcacgtggccaatccccgc ggcgctgtcacgccggagtacaccgtagccaatgtcatctctgtcggctcggggctgctg agcgtttccgtgggacttgtggccctcctggcgtccaggaaccttcttcgccctccactg cactgggtcctgctggcactagctctggtgaacctgctcttgtccgttgcctgctccctg ggcctccttcttgctgtgtcactcactgtggccaacggtggccgccgccttattgctgac tgccacccaggactgctggatcctctggtaccactggatgaggggccgggacatactgac tgcccctttgaccccacaagaatctatgatacagccttggctctctggatcccttctttg ctcatgtctgcaggggaggctgctctatctggttactgctgtgtggctgcactcactcta cgtggagttgggccctgcaggaaggacggacttcaggggcagctagaggaaatgacagag cttgaatctcctaaatgtaaaaggcaggaaaatgagcagctactggatcaaaatcaagaa atccgggcatcacagagaagttgggtttag >gi568815596r:27264403_27469920|GENSCAN_predicted_peptide_10|1116_aa MVMEGVTTVAYTLDEGLIEFGTAIDDGNYIRATAFLETLEMTPETEAMWKTLSKLALEAR QLHIAERCFSALGQVAKARFLHETNEIADQGGEGTDFYQVRARLAMLEKNYKLAEMIFLE QNAVEEAMGMYQELHRWDECIAVAEAKGHPALEKLRRSYYQWLMDTQQEERAGELQESQG DGLAAISLYLKAGLPAKAARLVLTREELLANTELVEHITAALIKGELYERAGDLFEKIHN PQKALECYRKGNAFMKAVELARLAFPVEVVKLEEAWGDHLVQQKQLDAAINHYIEARCSI KAIEAALGARQWKKAIYILDLQDRNTASKYYPLVAQHYASLQEYEIAEELYTKGDRTKDA IDMYTQAGRWEQAHKLAMKCMRPEDVSVLYITQAQEMEKQGKYREAERLYVTVQEPDLAI TMYKKHKLYDDMIRLVGKHHPDLLSDTHLHLGKELEAEGRLQEAEYHYLEAQEWKATVNM YRASGLWEEAYRGSMKQENFICTFCFSSFEFAFELSRLALKHKTPEVHLKYAMFLEDEGK FEEAEAEFIRAGKPKEAVLMFVHNQDWEAAQRVAEAHDPDSVAEVLVGQARGALEEKDFQ KAEGLLLRAQRPGLALNYYKEAGLWSDALRICKDYVPSQLEALQEEYEREATKKGARGVE GFVEQARHWEQAGEYSRAVDCYLKVRDSGNSGLAEKCWMKAAELSIKFLPPQRNMEVVLA VGPQLIGIGKHSAAAELYLNLDLVKEAIDAFIEGEEWNKAKRVAKELDPRYEDYVDQHYK EFLKNQGKVDSLVGVDVIAALDLYVEQGQWDKCIETATKQNYKILHKYVALYATHLIREG SSAQALALYVQHGAPANPQNFNIYKRIFTDMVSSPGTNCAEAYHSWADLRDVLFNLCENL VKSSEANSPAHEEFKTMLLIAHYYATRSAAQSVKQLLLPVDKAFYEAGIAAKAVGWDNMA FIFLNRFLDLTDAIEEGTLDGLDHSDFQDTDIPFEVPLPAKQHVPEAEREEVRDWVLTVS MDQRLEQVLPRDERGAYEASLVAASTGVRALPCLITGYPILRNKIEFKRPGKAANKDNWN KFLMAIKTSHSPVCQDVLKFISQWCGGLPSTSFSFQ >gi568815596r:27264403_27469920|GENSCAN_predicted_CDS_10|3351_bp atggtgatggaaggtgtgactactgttgcctacacattggatgagggcctcatcgagttt ggaacagccattgatgatggcaactacatccgggcaacagccttcttagagactctggaa atgaccccagaaacagaggcaatgtggaaaaccttgagtaaactggcactagaggcaagg caactacacattgcggagaggtgcttttctgctttgggccaagtagcaaaagctcgattc ctgcatgagaccaatgagattgcagatcaaggcggagaaggaacagacttttatcaggtc cgagcacgtctagccatgctggaaaagaactacaaactggctgaaatgatctttttggaa cagaatgctgtggaggaggccatgggcatgtaccaggagctacaccgttgggatgagtgt atcgctgtggctgaagccaaggggcacccagccctggagaagctacgtcgtagttactac cagtggctgatggacacacagcaagaggagcgagcaggtgaactacaggagagccaaggg gatgggctagcagccatcagcctctacctcaaagctgggctccctgccaaagctgctcgg ctggtgctgacccgagaggaactgctagccaacacagagctggtagaacacatcactgca gcccttatcaagggggaactctacgaaagggcaggtgatctctttgagaagattcacaat ccacagaaggccctggagtgctaccgtaaaggcaacgcattcatgaaagcggtagagctg gctcgattggccttcccagtggaggtggtgaaactagaggaggcatggggggaccacctg gtgcagcagaagcagcttgatgcagccattaatcactacatcgaagccaggtgctccatt aaggcaattgaggccgccctgggtgcccgccagtggaagaaggcaatttatatattagat ctacaggaccggaacactgcatccaaatactatcctctcgtggcccaacactatgcatcc ctgcaggagtatgagattgctgaggagctctatactaagggagatcggacaaaagatgcc atagacatgtacacccaggctggtcgttgggaacaagcccacaagctggcgatgaaatgc atgagaccagaagatgtgtcagtgctatacatcactcaggcccaggaaatggagaagcag ggcaagtaccgtgaggctgaaaggctatatgtgacagtacaagagcctgatcttgccatc accatgtacaaaaagcacaagttgtatgatgacatgatccgcctggtagggaagcaccat ccagatctcctcagtgatacacacctacatctgggcaaggagctggaggctgaaggccga ctacaggaggctgagtaccactacctcgaggcccaggaatggaaggcaacagtgaacatg taccgggccagtgggctttgggaagaggcctacaggggaagcatgaagcaagaaaacttt atctgcactttctgtttcagctcctttgaatttgcgtttgaactctctcggctggccctc aagcacaaaacccccgaggttcatctcaaatatgctatgttcctggaggatgagggtaaa ttcgaagaggctgaagctgaattcatcagagctggtaaacccaaggaggcagtcctcatg tttgtccataaccaggattgggaggcagctcagcgtgtggctgaggctcacgaccctgac agtgtcgccgaggtgcttgtgggacaggcccggggggccttggaggagaaggactttcag aaagcagaagggctgctgctccgggcccagagaccaggcctggccctcaattattataag gaggctggattatggagtgacgctctgcgcatctgcaaggactatgtgcccagccagctg gaggctctgcaggaagaatatgagcgggaagctactaagaagggggccaggggtgtggag ggatttgtggaacaagctcgacactgggagcaggctggagagtacagccgtgccgtggac tgctacctcaaagtgcgagactctggaaacagcggcctggcggagaagtgctggatgaag gcagctgaactctccatcaagtttctgcctccccaacgtaatatggaagtcgttctggct gtaggaccccagctgattggaattggaaagcacagtgcagctgcagagctctatctgaat ctggaccttgtcaaggaagcaatcgatgctttcatcgagggtgaggagtggaacaaggcg aagcgtgtagctaaggagttagatcccaggtatgaagactatgtggaccagcattataaa gagttcctcaagaatcagggcaaagtggactcgctggtgggtgtggatgtgatagctgct ttggacctgtatgtggagcagggccagtgggacaagtgcattgaaacagctaccaagcag aactacaagattctgcacaagtatgtggctttgtatgcaactcacttgatccgggagggt agctctgcccaggcattggccctgtatgtacagcacggagcccctgctaacccacagaac ttcaatatctacaaaaggatcttcactgacatggtgagctctcctggaaccaactgtgcc gaggcctatcatagctgggctgatcttcgagatgtcctcttcaacctgtgtgaaaacctg gtgaagtccagtgaggcaaactctccagcccatgaggagttcaagacgatgctgctgatc gctcattactatgccacgcgctctgcagcccagagtgtcaaacagctgctactacctgta gacaaagccttctatgaagcaggcattgctgccaaggcagttggctgggataacatggca ttcatcttcctcaatcgctttttggacctgaccgatgcaatcgaggaagggactctagat ggccttgaccactctgattttcaggatacagacattccctttgaggtgccactcccagct aagcagcatgtaccggaggctgagagagaagaggttcgagactgggtgcttacagtctcc atggaccagcggctggagcaggttctgcctcgggatgagcgtggcgcctacgaggcctcc ctagtggcagcgagcactggtgttcgagccctgccctgccttattacaggataccccatt ctgaggaacaaaattgaatttaagcggccagggaaggctgctaacaaggacaactggaat aaattccttatggccatcaagacctcccacagcccagtgtgccaggacgtgctgaaattc atcagtcagtggtgtggagggctccccagcaccagcttttcctttcagtag