Result of GENSCAN for
pF1KB6846
GENSCAN 1.0 Date run: 5-Nov-116 Time: 00:29:29 Sequence gi568815591f:100621557_100823130 : 201574 bp : 53.21% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.22 Intr - 4600 4565 36 1 0 58 92 45 0.311 0.84 1.21 Intr - 5347 5207 141 1 0 91 76 214 0.976 21.56 1.20 Intr - 5935 5708 228 1 0 86 21 451 0.844 36.79 1.19 Intr - 6105 6021 85 2 1 62 78 87 0.770 5.42 1.18 Intr - 6264 6188 77 0 2 84 78 52 0.718 2.61 1.17 Intr - 6750 6668 83 1 2 136 44 62 0.612 6.45 1.16 Intr - 7816 7697 120 2 0 50 103 105 0.993 9.17 1.15 Intr - 9496 9333 164 0 2 122 85 195 0.999 22.73 1.14 Intr - 10389 10250 140 0 2 91 78 36 0.996 2.67 1.13 Intr - 10642 10526 117 1 0 87 84 94 0.997 10.07 1.12 Intr - 11567 11445 123 2 0 94 115 275 0.994 32.09 1.11 Intr - 11784 11673 112 2 1 55 101 233 0.999 22.18 1.10 Intr - 12000 11860 141 2 0 46 75 189 0.209 13.38 1.09 Intr - 19316 19130 187 0 1 -5 91 208 0.726 11.07 1.08 Intr - 19672 19420 253 1 1 83 64 226 0.666 17.24 1.07 Intr - 24779 24693 87 2 0 73 85 140 0.957 12.86 1.06 Intr - 25090 24995 96 1 0 128 74 112 0.999 14.51 1.05 Intr - 25275 25195 81 0 0 82 93 147 0.999 14.93 1.04 Intr - 25529 25415 115 1 1 41 42 224 0.899 14.05 1.03 Intr - 25728 25667 62 0 2 50 79 118 0.978 5.12 1.02 Intr - 25977 25888 90 0 0 71 56 57 0.728 1.49 1.01 Init - 27368 27000 369 2 0 61 81 348 0.619 28.41 1.00 Prom - 27925 27886 40 -7.20 2.06 PlyA - 28053 28048 6 1.05 2.05 Term - 28579 28466 114 1 0 103 49 160 0.999 12.47 2.04 Intr - 33563 33463 101 0 2 74 117 143 0.946 16.13 2.03 Intr - 34030 33865 166 1 1 78 52 240 0.914 19.45 2.02 Intr - 34323 34247 77 1 2 74 105 67 0.642 6.73 2.01 Init - 34798 34774 25 1 1 76 83 75 0.669 5.44 2.00 Prom - 35315 35276 40 -3.31 3.00 Prom + 46472 46511 40 -5.31 3.01 Init + 54710 54766 57 1 0 96 76 77 0.415 8.56 3.02 Intr + 54979 55017 39 0 0 104 94 42 0.972 5.31 3.03 Intr + 55137 55243 107 2 2 91 93 69 0.974 7.21 3.04 Intr + 55796 55859 64 2 1 72 97 107 0.995 9.21 3.05 Intr + 55942 56104 163 0 1 140 81 225 0.999 27.06 3.06 Intr + 56196 56262 67 1 1 53 81 112 0.953 5.46 3.07 Intr + 56542 56743 202 1 1 87 68 292 0.999 26.91 3.08 Intr + 56842 57058 217 0 1 87 61 583 0.999 54.10 3.09 Term + 57139 57245 107 2 2 117 39 223 0.999 19.17 3.10 PlyA + 58610 58615 6 -0.45 4.31 PlyA - 59752 59747 6 -0.45 4.30 Term - 60215 60163 53 0 2 51 47 112 0.939 1.28 4.29 Intr - 60437 60308 130 2 1 124 80 135 0.998 17.07 4.28 Intr - 60679 60516 164 2 2 103 94 307 0.956 33.01 4.27 Intr - 60926 60766 161 1 2 104 64 287 0.994 28.04 4.26 Intr - 61221 61034 188 0 2 74 80 84 0.751 5.21 4.25 Intr - 61674 61456 219 0 0 85 77 255 0.998 23.13 4.24 Intr - 61888 61748 141 1 0 44 44 304 0.531 22.66 4.23 Intr - 62076 61994 83 1 2 134 87 -42 0.562 0.15 4.22 Intr - 62362 62262 101 0 2 37 89 41 0.615 -0.65 4.21 Intr - 62601 62464 138 2 0 91 96 232 0.937 24.39 4.20 Intr - 62781 62681 101 0 2 20 80 195 0.903 11.31 4.19 Intr - 63060 62894 167 1 2 102 93 184 0.953 20.49 4.18 Intr - 63338 63167 172 2 1 65 77 279 0.996 24.53 4.17 Intr - 63590 63493 98 0 2 111 64 109 0.999 11.03 4.16 Intr - 63925 63788 138 2 0 125 97 49 0.999 10.44 4.15 Intr - 64556 64418 139 2 1 86 99 164 0.836 17.84 4.14 Intr - 64877 64624 254 0 2 91 65 222 0.807 17.89 4.13 Intr - 65263 65093 171 2 0 118 85 181 0.999 21.23 4.12 Intr - 65490 65450 41 2 2 95 80 45 0.694 2.75 4.11 Intr - 65850 65742 109 1 1 90 75 149 0.688 13.64 4.10 Intr - 66060 65949 112 0 1 103 65 22 0.689 1.86 4.09 Intr - 66327 66232 96 0 0 33 75 174 0.995 11.31 4.08 Intr - 66554 66425 130 1 1 107 98 183 0.986 22.40 4.07 Intr - 66751 66730 22 2 1 136 30 36 0.725 -0.32 4.06 Intr - 66959 66895 65 1 2 104 109 35 0.660 6.05 4.05 Intr - 68515 68347 169 2 1 37 72 62 0.028 -0.98 4.04 Intr - 72516 72381 136 0 1 53 90 87 0.151 6.05 4.03 Intr - 72628 72554 75 1 0 45 103 27 0.079 0.11 4.02 Intr - 72890 72717 174 2 0 5 42 151 0.115 2.85 4.01 Init - 79967 79965 3 2 0 108 81 0 0.200 1.23 4.00 Prom - 81321 81282 40 -3.41 5.00 Prom + 82008 82047 40 -4.21 5.01 Sngl + 85275 85697 423 2 0 76 32 742 0.511 64.04 5.02 PlyA + 85907 85912 6 1.05 6.00 Prom + 98138 98177 40 -2.51 6.01 Init + 99153 99370 218 2 2 71 58 161 0.692 9.83 6.02 Intr + 100096 100147 52 1 1 65 93 53 0.741 2.90 6.03 Intr + 100406 100492 87 1 0 88 105 25 0.966 4.86 6.04 Intr + 101108 101287 180 1 0 88 109 220 0.999 24.68 6.05 Term + 101422 101577 156 0 0 97 47 148 0.999 9.85 6.06 PlyA + 104665 104670 6 1.05 7.00 Prom + 106148 106187 40 -4.01 7.01 Init + 112613 112665 53 1 2 58 115 107 0.977 8.98 7.02 Intr + 114164 114216 53 2 2 15 74 65 0.868 -3.16 7.03 Intr + 114927 115073 147 1 0 95 78 174 0.981 17.82 7.04 Intr + 115253 115524 272 0 2 96 90 114 0.999 10.20 7.05 Intr + 115706 115793 88 1 1 100 101 79 0.999 10.44 7.06 Intr + 116905 117057 153 2 0 90 67 123 0.905 10.96 7.07 Intr + 123882 124028 147 1 0 62 70 45 0.470 0.82 7.08 Intr + 124982 125113 132 0 0 109 21 117 0.658 8.22 7.09 Intr + 125994 126085 92 1 2 114 92 88 0.990 12.01 7.10 Intr + 126581 126659 79 1 1 112 64 66 0.993 6.22 7.11 Intr + 126768 126914 147 1 0 73 94 107 0.990 10.52 7.12 Intr + 129156 129340 185 1 2 96 94 53 0.468 6.73 7.13 Intr + 129626 129710 85 1 1 103 110 39 0.996 7.49 7.14 Intr + 130156 131673 1518 2 0 98 80 1838 0.741 174.41 7.15 Intr + 133670 133854 185 0 2 62 99 103 0.669 8.83 7.16 Intr + 136646 136787 142 1 1 97 93 106 0.999 12.44 7.17 Intr + 136975 137094 120 2 0 83 96 118 0.772 13.07 7.18 Intr + 138165 138289 125 1 2 100 93 159 0.993 18.41 7.19 Intr + 138835 138980 146 0 2 117 110 82 0.999 12.89 7.20 Intr + 140659 140802 144 1 0 110 38 244 0.997 21.51 7.21 Intr + 142471 142640 170 1 2 102 78 181 0.999 18.61 7.22 Intr + 143796 143998 203 1 2 78 105 140 0.915 14.23 7.23 Intr + 144969 145110 142 2 1 114 105 91 0.999 13.84 7.24 Intr + 145454 145701 248 0 2 118 64 273 0.862 25.61 7.25 Intr + 146275 146455 181 0 1 125 89 193 0.998 23.06 7.26 Intr + 147054 147165 112 1 1 89 80 126 0.999 11.84 7.27 Intr + 148324 148418 95 1 2 90 90 37 0.994 4.21 7.28 Intr + 150288 150464 177 1 0 154 78 127 0.999 18.71 7.29 Intr + 151729 151937 209 2 2 93 97 114 0.999 12.12 7.30 Intr + 152165 152309 145 1 1 94 91 165 0.999 17.77 7.31 Intr + 153772 154019 248 2 2 101 49 288 0.713 23.91 7.32 Intr + 154113 154277 165 2 0 112 100 204 0.997 24.67 7.33 Intr + 154884 155008 125 2 2 77 67 192 0.952 15.89 7.34 Intr + 157890 158194 305 0 2 89 78 277 0.964 23.58 7.35 Intr + 163067 163278 212 0 2 138 76 134 0.999 16.36 7.36 Intr + 164441 164585 145 1 1 105 70 83 0.832 8.57 7.37 Intr + 166333 166580 248 2 2 80 83 312 0.972 27.61 7.38 Intr + 167662 167791 130 0 1 126 95 217 0.945 26.97 7.39 Intr + 169386 169557 172 1 1 99 55 308 0.999 28.12 7.40 Intr + 170410 170592 183 1 0 129 70 156 0.999 17.32 7.41 Intr + 170849 170988 140 2 2 80 77 138 0.738 12.52 7.42 Intr + 172339 172535 197 2 2 49 -35 163 0.257 -0.25 7.43 Intr + 172564 172702 139 0 1 101 66 32 0.657 2.84 7.44 Intr + 173640 173780 141 1 0 135 94 115 0.998 17.63 7.45 Intr + 175807 175909 103 2 1 81 105 110 0.878 11.73 7.46 Term + 179612 179639 28 2 1 91 41 1 0.080 -6.47 7.47 PlyA + 180054 180059 6 1.05 8.15 PlyA - 181045 181040 6 1.05 8.14 Term - 182034 181905 130 2 1 106 43 75 0.602 2.76 8.13 Intr - 183765 183610 156 2 0 115 54 191 0.802 18.04 8.12 Intr - 184138 183945 194 1 2 111 76 305 0.999 30.41 8.11 Intr - 185013 184864 150 0 0 134 105 162 0.997 23.37 8.10 Intr - 186024 185809 216 0 0 102 55 377 0.556 35.03 8.09 Intr - 191438 191191 248 0 2 84 88 432 0.739 40.51 8.08 Intr - 191652 191539 114 1 0 83 94 245 0.999 25.52 8.07 Intr - 192160 192096 65 0 2 89 64 87 0.860 5.25 8.06 Intr - 192465 192363 103 1 1 90 110 153 0.960 17.43 8.05 Intr - 195801 195636 166 0 1 100 89 258 0.916 27.15 8.04 Intr - 197088 196964 125 1 2 68 116 97 0.619 11.31 8.03 Intr - 198333 198001 333 1 0 103 76 333 0.981 29.70 8.02 Intr - 198740 198585 156 0 0 88 100 123 0.991 13.99 8.01 Intr - 201111 200715 397 0 1 76 78 499 0.875 42.42 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 21770 21690 81 2 0 92 45 117 0.800 5.79 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_1|969_aa MGWTPVEQRVTRQDLGPGPSLAAAVSLTYPSDASFANGRSTGLVLDSGATHTTAIPVHDG YVLQQGGASAGGGGAPGGPGPDSAFLLGIVKSPLAGDFISMQCRELFQEMAIDIIPPYMI AAKEPVREGAPPNWKKKEKLPQVSKSWHNYMCNEVIQDFQASVLQVSDSPYDEQVAAQMP TVHYEMPNGYNTDYGAERLRIPEGLFDPSNVKGLSGNTMLGVGHVVTTSIGMCDIDIRPG LYGSVIVTGGNTLLQGFTDRLNRELSQKTPPSMRLKLIASNSTMERKFSPWIGGSILASL QQLSPRSSQTVYQRVEGPRKGHLEEEEEDGEEGAETLAHFCPMELRGPEPLGSRPRQPNL IPWAAAGRRAAPYLVLTALLIFTGAFLLGYVAFRGSCQACGDSVLVVSEDVNYEPDLDFH QGRLYWSDLQAMFLQFLGEGRLEDTIRQTSLRERVAGSAGMAALTQDIRAALSRQKLDHV WTDTHYVGLQFPDPAHPNTLHWVDEAGKVGEQLPLEDPDVYCPYSAIGNVTGELVYAHYG RPEDLQDLRARGVDPVGRLLLVRVGVISFAQKVTNAQDFGAQGVLIYPEPADFSQDPPKP SLSSQQAVYGHVHLGTGDPYTPGFPSFNQTQFPPVASSGLPSIPAQPISADIASRLLRKL KGPVAPQEWQGSLLGSPYHLGPGPRLRLVVNNHRTSTPINNIFGCIEGRSEPDHYVVIGA QRDAWGPGAAKSAVGTAILLELVRTFSSMVSNGFRPRRSLLFISWDGGDFGSVGSTEWLE VDSPNHSGQTLYEQVVFTNPSWDAEVIRPLPMDSSAYSFTAFVGVPAVEFSFMEDDQAYP FLHTKEDTYENLHKVLQGRLPAVAQAVAQLAGQLLIRLSHDRLLPLDFGRYGDVVLRHIG NLNEFSGDLKARGLTLQWVYSARGDYIRAAEKLRQEIYSSEERDERLTRMYNVRIMRNST PQPFDVKKW >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_1|2907_bp atgggctggaccccggtagagcagagagtgaccagacaagatctgggcccaggcccctca cttgctgctgctgtctctttgacttacccatccgatgccagctttgcaaacgggcggtcc actggcctcgtgctggacagtggagccacccacaccacggccattccagtacatgacggc tacgttctgcagcaaggtggggcttcggcagggggtgggggtgctccaggaggaccaggt cctgacagtgccttccttctaggcatcgtcaagtcccctctggcaggggacttcatctcc atgcagtgccgggagctgttccaggagatggccattgacatcatcccaccttacatgatc gcagccaaggagcctgtccgggagggtgcccccccaaactggaagaagaaggagaagcta ccccaggtctccaagtcctggcataactacatgtgtaatgaggtgatccaggacttccag gcctccgtgctgcaggtctcagactccccctacgatgaacaggtggctgcacaaatgccc acagtgcactacgagatgcccaatggctacaatacagactacggcgccgagcgactccgc atccctgagggcctgtttgatccctcgaacgtcaagggcctgtcggggaacaccatgttg ggtgtgggccacgtggtgaccaccagcatcggcatgtgtgacattgatattcgcccgggc ctgtacgggagtgtcattgtcaccggcgggaacacactgctgcagggcttcactgacagg ctcaatcgagagctttcccagaagaccccaccgagcatgcgactgaaactcattgccagc aacagcaccatggagcgcaagttcagcccctggatcgggggttccatcctggcctcactg caacaactgtccccaagatcctctcagaccgtctaccagcgtgtggaaggcccccggaaa gggcacctggaggaggaagaggaagacggggaggagggggcggagacattggcccacttc tgccccatggagctgaggggccctgagcccctgggctctagacccaggcagccaaacctc attccctgggcggcagcaggacggagggctgccccctacctggtcctgacggccctgctg atcttcactggggccttcctactgggctacgtcgccttccgagggtcctgccaggcgtgc ggagactctgtgttggtggtcagtgaggatgtcaactatgagcctgacctggatttccac cagggcagactctactggagcgacctccaggccatgttcctgcagttcctgggggagggg cgcctggaggacaccatcaggcaaaccagccttcgggaacgggtggcaggctcggccggg atggccgctctgactcaggacattcgcgcggcgctctcccgccagaagctggaccacgtg tggaccgacacgcactacgtggggctgcaattcccggatccggctcaccccaacaccctg cactgggtcgatgaggccgggaaggtcggagagcagctgccgctggaggaccctgacgtc tactgcccctacagcgccatcggcaacgtcacgggagagctggtgtacgcccactacggg cggcccgaagacctgcaggacctgcgggccaggggcgtggatccagtgggccgcctgctg ctggtgcgcgtgggggtgatcagcttcgcccagaaggtgaccaatgctcaggacttcggg gctcaaggagtgctcatatacccagagccagcggacttctcccaggacccacccaagcca agcctgtccagccagcaggcagtgtatggacatgtgcacctgggaactggagacccctac acacctggcttcccttccttcaatcaaacccagttccctccagttgcatcatcaggcctt cccagcatcccagcccagcccatcagtgcagacattgcctcccgcctgctgaggaagctc aaaggccctgtggccccccaagaatggcaggggagcctcctaggctccccttatcacctg ggccccgggccacgactgcggctagtggtcaacaatcacaggacctccacccccatcaac aacatcttcggctgcatcgaaggccgctcagagccagatcactacgttgtcatcggggcc cagagggatgcatggggcccaggagcagctaaatccgctgtggggacggctatactcctg gagctggtgcggaccttttcctccatggtgagcaacggcttccggccccgcagaagtctc ctcttcatcagctgggacggtggtgactttggaagcgtgggctccacggagtggctagag gtggattctcccaaccacagtgggcagactctctatgaacaggtggtgttcaccaatccc agctgggatgctgaggtgatccggcccctacccatggacagcagtgcctattccttcacg gcctttgtgggagtccctgccgtcgagttctcctttatggaggacgaccaggcctaccca ttcctgcacacaaaggaggacacttatgagaacctgcataaggtgctgcaaggccgcctg cccgccgtggcccaggccgtggcccagctcgcagggcagctcctcatccggctcagccac gatcgcctgctgcccctcgacttcggccgctacggggacgtcgtcctcaggcacatcggg aacctcaacgagttctctggggacctcaaggcccgcgggctgaccctgcagtgggtgtac tcggcgcggggggactacatccgggcggcggaaaagctgcggcaggagatctacagctcg gaggagagagacgagcgactgacacgcatgtacaacgtgcgcataatgcggaactcaacc cctcaaccctttgatgtcaagaaatgg >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_2|160_aa MSGGVYGGDEVGALVFDIGSFSVRAGYAGEDCPKADFPTTVGLLAAEEGGGLELEGDKEK KGKIFHIDTNALHVPRDGAEVMSPLKNGMIEDWECFRAILDHTYSKHVKSEPNLHPVLMS EAPWNTRAKREKLTELMFEQYNIPAFFLCKTAVLTAYPLD >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_2|483_bp atgagcgggggcgtctacggcggagatgaggtgggggcgctggtctttgacattggctcc ttctcagtccgcgctgggtacgctggggaggactgtcccaaggctgacttccccaccaca gtggggctgctggccgcggaggaggggggcgggctggagctggagggggacaaagagaag aaagggaagatcttccacatcgacaccaatgccctgcacgtgcctcgggatggagcggag gtcatgtcgcccctcaagaatggcatgatcgaggactgggagtgcttccgagccatcctg gatcacacctacagcaaacacgtcaagtctgagccaaacctgcacccagtgctcatgtcc gaggctccgtggaacacacgggccaagcgggagaagctgacagagctgatgttcgagcag tacaacattcctgccttcttcttatgcaagacggctgtgctcaccgcgtatcctctggac tga >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_3|340_aa MSELEQLRQEAEQLRNQIRDARKACGDSTLTQITAGLDPVGRIQMRTRRTLRGHLAKIYA MHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNFVACGGLDNI CSIYSLKTREGNVRVSRELPGHTGYLSCCRFLDDNQIITSSGDTTCALWDIETGQQTVGF AGHSGDVMSLSLAPDGRTFVSGACDASIKLWDVRDSMCRQTFIGHESDINAVAFFPNGYA FTTGSDDATCRLFDLRADQELLMYSHDNIICGITSVAFSRSGRLLLAGYDDFNCNIWDAM KGDRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_3|1023_bp atgagtgagctggagcaactgagacaggaggccgagcagctccggaaccagatccgggat gcccgaaaagcatgtggggactcaacactgacccagatcacagctgggctggacccagtg gggagaatccagatgaggacccggaggaccctccgtgggcacctggcaaagatctatgcc atgcactgggggaccgactcaaggctgctggtcagcgcctcccaggatgggaagctcatc atctgggacagctacaccaccaacaaggtccacgccatcccgctgcgctcctcctgggta atgacctgtgcctacgcgccctcagggaactttgtggcctgtggggggttggacaacatc tgctccatctacagcctcaagacccgcgagggcaacgtcagggtcagccgggagctgcct ggccacactgggtacctgtcgtgttgccgcttcctggatgacaaccaaatcatcaccagc tctggggataccacctgtgccctgtgggacattgagacaggccagcagacagtgggtttt gctggacacagtggggatgtgatgtccctgtccctggcccccgatggccgcacgtttgtg tcaggcgcctgtgatgcctctatcaagctgtgggacgtgcgggattccatgtgccgacag accttcatcggccatgaatccgacatcaatgcagtggctttcttccccaacggctacgcc ttcaccaccggctctgacgacgccacgtgccgcctcttcgacctgcgggccgatcaggag ctcctcatgtactcccatgacaacatcatctgtggcatcacctctgttgccttctcgcgc agcggacggctgctgctcgctggctacgacgacttcaactgcaacatctgggatgccatg aagggcgaccgtgcaggagtcctcgctggccacgacaaccgcgtgagctgcctcggggtc accgacgatggcatggctgtggccacgggctcctgggactccttcctcaagatctggaac taa >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_4|1249_aa MWRARHASSARGEVARAGAAEGGGGGGGGGGGGGGGGGGGGGGGGGGRGGPAAPRPRHVP PSPSPAPARRAPPTPRDRTLAPPAPSPGAGPPPTPRRPRRARELEKRRSQRAGRQRGPSP VSSPRPPQPVHSHWCAAMTTSGPRIPSSVEALDPSATAPCPLSPWWLPFYLPPSMSDCSR DLMKEKSFTVWTHLWVTHGVSGHVAGSGVWTVNARLRALSGGGSVASPPPSPAMPKYKLA DYRYGREEMLALYVKENKVPEELQDKEFAAVLQDEPLQPLALEPLTEEEQRNFSLSVNSV AVLRLMGKGAGPPLAGTSRGRGSTRSRGRGRGDSCFYQRSIEEGDGAFGRSPREIQRSQS WDDRGERRFEKSARRDGARCGFEEGGAGPRKEHARSDSENWRSLREEQEEEEEGSWRLGA GPRRDGDRWRSASPDGGPRSAGWREHGERRRKFEFDLRGDRGGCGEEEGRGGGGSSHLRR CRAPEGFEEDKDGLPEWCLDDEDEEMGTFDASGAFLPLKLFSAPHPGPMQKGPKEPIPEE QELDFQGLEEEEEPSEGLEEEGPEAGGKELTPLPPQEEKSSSPSPLPTLGPLWGTNGDGD ETAEKEPPAAEDDIRGIQLSPGVGSSAGPPGDLEDDEGLKHLQQEAEKLVASLQDSSLEE EQFTAAMQTQGLRHSAAATALPLSHGAARKWFYKDPQGEIQGPFTTQEMAEWFQAGYFSM SLLVKRGCDEGFQPLGEVIKMWGRVPFAPGPSPPPLLGNMDQERLKKQQELAAAALYQQL QHQQFLQLVSSRQLPQCALREKAALGDLTPPPPPPPQQQQQQLTAFLQQLQALKPPRGGD QNLLPTMSRSLSVPDSGRLWDVHTSASSQSGGEASLWDIPINSSTQGPILEQLQLQHKFQ ERREVELRAKREEEERKRREEKRRQQQQEEQKRRQEEEELFRRKHVRQQELLLKLLQQQQ AVPVPPAPSSPPPLWAGLAKQGLSMKTLLELQLEGERQLHKQPPPREPARAQAPNHRVQL GGLGTAPLNQWVSEAGPLWGGPDKSGGGSSGLGLWEDTPKSGGSLVRGLGLKNSRSSPSL SDSYSHLSGRPIRKKTEEEEKLLKLLQGIPRPQDGFTQWCEQMLHTLSATGSLDVPMAVA ILKEVESPYDVHDYIRSCLGDTLEAKEFAKQFLERRAKQKASQQRQQQQEAWLSSASLQT AFQANHSTKLGPGEGSKAKRRALMLHSDPSILGYSLHGSSGEIESVDDY >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_4|3750_bp atgtggcgcgcgcggcacgcgagcagcgcacgaggagaggtggcgcgggccggagccgcg gagggaggcggcggcggcggcggcggcggcggcggcggcggcggcggcggcggcggcggc ggcggcggcggcggcggtggaaggggcggccccgcggccccgcgtccgcgtcacgtgccg ccgtcgccgtccccggcccccgcccgccgcgcgccgcccacgccccgggaccggaccctc gcgccgcccgcgcccagccccggggcaggcccgcccccgacgccgcggcggccgcgccga gcccgcgagctagagaagcgccggagccagcgcgcgggccgccagcgaggaccctccccc gtctcctccccgaggccgccgcagcccgtacactcacattggtgtgcggccatgaccacc agcggccccaggatcccctcctcagttgaggctctggacccttcagcaacagctccctgt cccctcagcccctggtggctgcccttctaccttcctccctcaatgagtgactgctctaga gacctcatgaaagagaagtctttcaccgtctggactcatctctgggtaactcatggtgtg agtggccacgtggctggctcaggtgtttggacagtgaacgccaggctcagggccctgtcc gggggcggcagcgtggcctccccacccccgtcccctgccatgcccaaatacaagctggct gactaccgttatgggcgagaggaaatgctggctctctacgtcaaggagaacaaggtcccg gaagagctgcaggacaaggagttcgccgcggtgctgcaggacgagccactgcagcccctg gctctggagccgctgactgaggaggaacagagaaacttctccctgtcagtgaacagcgtg gctgtgctgaggctgatggggaaaggggctggcccccccctggctggcacctcccgaggc aggggcagcacgcggagccgaggccgcggccgtggtgacagctgcttttaccaaagaagc atcgaagaaggcgatggggcctttggacgaagcccccgggaaatccagcgcagccagagc tgggatgacagaggcgagaggcggtttgagaagtcagcaaggcgggatggagcacgatgt ggctttgaggagggaggggctggcccaaggaaggagcacgcccgctcagacagcgagaac tggcgctccctacgggaggaacaggaggaggaggaggagggcagctggaggctcggagca gggccccggcgagacggcgaccgctggcgctccgccagccctgatggtggtccccgctct gctggctggcgggaacatggggaacggcggcgcaagtttgaatttgatttgcgaggggat cgaggagggtgtggtgaagaggaggggcggggagggggaggcagctctcacctgcggcgg tgccgagcgcctgaaggctttgaggaggacaaggatgggctcccagagtggtgcctggac gatgaggatgaagaaatgggcacctttgatgcctctggggccttcttgcctctcaagctg ttctctgctccccaccccggccccatgcagaagggccccaaggagcccattcctgaggag caggagctggacttccaagggttggaggaggaggaggaaccttccgaagggctagaggag gaagggcctgaggcaggtgggaaagagctgaccccactgcctcctcaggaggagaagtcc agctccccatccccactgcccaccctgggcccactctgggggacaaacggggatggggac gaaactgcagagaaagagcccccagcggccgaagatgatattcgggggatccagctgagt cccggggtgggctcctctgctggcccacccggagatctggaggatgatgaaggcttgaag cacctgcagcaggaggcggagaagctggtggcctccctgcaggacagctccttggaggag gagcagttcacggctgccatgcagacccagggcctgcgccactctgcagccgccactgcc ctcccgctcagccatggggctgcccggaagtggttctacaaggacccacagggcgagatc caaggccccttcacgacacaggagatggcagagtggttccaggccggctacttttccatg tcactgctggtgaagcggggctgcgatgagggcttccagccgctgggcgaggtgatcaag atgtggggccgcgtgccctttgccccagggccctcacctcccccactgctgggaaacatg gaccaggagcggctgaagaagcaacaggagctggccgcggcggccttgtaccagcagctg cagcaccagcagtttctccagctggtcagcagccgccagctcccacagtgcgcgctccga gaaaaggcagctctgggggacctgacaccgccaccaccgccgccgccacagcagcagcag cagcagctcacggcattcctgcagcagctccaggcgctcaaaccccccagaggcggggac cagaacctgctcccgacgatgagccggtccttgtcggtgccagattcgggccgcctctgg gacgtacatacctcagcctcatcacagtcaggtggtgaggccagtctttgggacatacca attaactcttcgactcagggtccaattctagaacaactccagctgcaacataaattccag gagcgcagagaagtggagctcagggcgaagcgggaggaagaggaacgcaagcgtcgagag gagaagcgccgccagcagcagcaggaggagcagaagcggcggcaggaggaggaagagctg tttcggcgcaagcacgtgcggcagcaggagctattgctgaagttgctacagcagcagcag gcggtccctgtgccccccgcacccagctccccgcccccactctgggctggcctggccaag caggggctgtccatgaagacgctcctggagttgcagctggagggcgagcggcagctgcac aaacagcccccacctcgggagccagctcgggcccaggcccccaaccaccgagtgcagctt gggggcctgggcactgcccccctgaaccagtgggtgtctgaggctgggccactgtggggc gggccagacaagagtgggggcggcagcagcggcctggggctctgggaggacacccccaag agcggcgggagcctggtccgtggcctcggcctgaagaacagccggagcagcccatctctc agtgactcatacagccacctatcgggtcggcccattcgcaaaaagacggaggaagaagag aagctgctgaagctgctgcagggcattcccaggccccaggacggcttcacccagtggtgc gagcagatgctgcacacgctgagcgccacgggcagcctggacgtgcccatggctgtagcg atcctcaaggaggtggaatccccctatgatgtccacgattatatccgttcctgcctgggg gacacgctggaagccaaagaatttgccaaacaattcctggagcggagggccaagcagaaa gccagccagcagcggcagcagcagcaggaggcatggctgagcagcgcctcgctgcagacg gccttccaggccaaccacagcaccaaactcggccccggggagggcagcaaggccaagagg cgggcactgatgctgcactcagaccccagcatcctggggtactccctgcacggatcttct ggtgagatcgagagcgtggatgactactga >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_5|140_aa MAENREPRGAVEAELDPVEYTLRKRLPSRLPRRPNDIYVNMKTDFKAQLARCQKLLDGGA RGQNACSEIYIHGLGLAINRAINIALQLQAGSFGSLQVAANTSTVELVDELEPETDTREP LTRIRNNSAIHIRVFRVTPK >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_5|423_bp atggcagaaaaccgagagccccgcggtgctgtggaggctgaactggatccagtggaatac acccttaggaaaaggcttcccagccgcctgccccggagacccaatgacatttatgtcaac atgaagacggactttaaggcccagctggcccgctgccagaagctgctggacggaggggcc cggggtcagaacgcgtgctctgagatctacattcacggcttgggcctggccatcaaccgc gccatcaacatcgcgctgcagctgcaggcgggcagcttcgggtccttgcaggtggctgcc aatacctccaccgtggagcttgttgatgagctggagccagagaccgacacacgggagcca ctgactcggatccgcaacaactcagccatccacatccgagtcttcagggtcacacccaag taa >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_6|230_aa MQITAPTPGQSRRVPGPPRPLAALRRTALSSRSRTGATAPALLRHRAPWTAALSSRPVGL ALHRRASRDEGPRRVLERYLLEAKEAENITTGCAEHCSLNENITVPDTKVNFYAWKRMEV GQQAVEVWQGLALLSEAVLRGQALLVNSSQPWEPLQLHVDKAVSGLRSLTTLLRALGAQK EAISPPDAASAAPLRTITADTFRKLFRVYSNFLRGKLKLYTGEACRTGDR >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_6|693_bp atgcagataacagccccgacccccggccagagccgcagagtccctgggccaccccggccg ctcgctgcgctgcgccgcaccgcgctgtcctcccggagccggaccggggccaccgcgccc gctctgctccgacaccgcgccccctggacagccgccctctcctccaggcccgtggggctg gccctgcaccgccgagcttcccgggatgagggcccccgccgagtcctggagaggtacctc ttggaggccaaggaggccgagaatatcacgacgggctgtgctgaacactgcagcttgaat gagaatatcactgtcccagacaccaaagttaatttctatgcctggaagaggatggaggtc gggcagcaggccgtagaagtctggcagggcctggccctgctgtcggaagctgtcctgcgg ggccaggccctgttggtcaactcttcccagccgtgggagcccctgcagctgcatgtggat aaagccgtcagtggccttcgcagcctcaccactctgcttcgggctctgggagcccagaag gaagccatctcccctccagatgcggcctcagctgctccactccgaacaatcactgctgac actttccgcaaactcttccgagtctactccaatttcctccggggaaagctgaagctgtac acaggggaggcctgcaggacaggggacagatga >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_7|2791_aa MVPPVWTLLLLVGAALFRKEKPPDQKLVVRSSRDNYVLTQCDFEDDAKPLCDWSQVSADD EDWVRASGPSPTGSTGAPGGYPNGEGSYLHMESNSFHRGGVARLLSPDLWEQGPLCVHFA HHMFGLSWGAQLRLLLLSGEEGRRPDVLWKHWNTQRPSWMLTTVTVPAGFTLPTRLMFEG TRGSTAYLDIALDALSIRRGSCNRVCMMQTCSFDIPNDLCDWTWIPTASGAKWTQKKGSS GKPGVGPDGDFSSPGIASPSEVHADWLSELGAEVVLGERGFASCSSVSEPLYLSPVCVNR LCPAGGCYMLLDPKNARPGQKAVLLSPVSLSSGCLSFSFHYILRGQSPGSIRKHTLFSGQ PGPNWQAVSVNYTAVGRIQFAVVGVFGKTPEPAVAVDATSIAPCGEGFPQCDFEDNAHPF CDWVQTSGDGGHWALGHKNGPVHGMGPAGGFPNAGDICVEFAYHMYGLGEGTMLELLLGS PAGSPPIPLWKRVGSQRPYWQNTSVTVPSGHQQPMQLIFKGIQGSNTASVVAMGFILINP GTCPVKVLPELPPVSPVSSTGPSETTGLTENPTISTKKPTVSIEKPSVTTEKPTVPKEKP TIPTEKPTISTEKPTIPSEKPNMPSEKPTIPSEKPTILTEKPTIPSEKPTIPSEKPTIST EKPTVPTEEPTTPTEETTTSMEEPVIPTEKPSIPTEKPSIPTEKPTISMEETIISTEKPT ISPEKPTIPTEKPTIPTEKSTISPEKPTTPTEKPTIPTEKPTISPEKPTTPTEKPTISPE KLTIPTEKPTIPTEKPTIPTEKPTISTEEPTTPTEETTISTEKPSIPMEKPTLPTEETTT SVEETTISTEKLTIPMEKPTISTEKPTIPTEKPTISPEKLTIPTEKLTIPTEKPTIPIEE TTISTEKLTIPTEKPTISPEKPTISTEKPTIPTEKPTIPTEETTISTEKLTIPTEKPTIS PEKLTIPTEKPTISTEKPTIPTEKLTIPTEKPTIPTEKPTIPTEKLTALRPPHPSPTATG LAALVMSPHAPSTPMTSVILGTTTTSRSSTERCPPNARYESCACPASCKSPRPSCGPLCR EGCVCNPGFLFSDNHCIQASSCNCFYNNDYYEPGAEWFSPNCTEHCRCWPGSRVECQISQ CGTHTVCQLKNGQYGCHPYAGTATCLVYGDPHYVTFDGRHFGFMGKCTYILAQPCGNSTD PFFRVTAKNEEQGQEGVSCLSKVYVTLPESTVTLLKGRRTLVGGQQVTLPAIPSKGVFLG ASGRFVELQTEFGLRVRWDGDQQLYVTVSSTYSGKLCGLCGNYDGNSDNDHLKLDGSPAG DKEELGNSWQTDQDEDQETCLLHVKAASFFDSCMLDMCGFQGLQHLLCTHMSTMTTTCQD AGHAVKPWREPHFCPMACPPNSKYSLCAKPCPDTCHSGFSGMFCSDRCVEACECNPGFVL SGLECIPRSQCGCLHPAGSYFKVGERWYKPGCKELCVCESNNRIRCQPWRCRAQEFCGQQ DGIYGCHAQGAATCTASGDPHYLTFDGALHHFMGTCTYVLTRPCWSRSQDSYFVVSATNE NRGGILEVSYIKAVHVTVFDLSISLLRGCKVMLNGHRVALPVWLAQGRVTIRLSSNLVLL YTNFGLQVRYDGSHLVEVTVPSSYGGQLCGLCGNYNNNSLDDNLRPDRKLAGDSMQLGAA WKLPESSEPGCFLVGGKPSSCQENSMADAWNKNCAILINPQGPFSQCHQVVPPQSSFASC VHGQCGTKGDTTALCRSLQAYASLCAQAGQAPAWRNRTFCPMRCPPGSSYSPCSSPCPDT CSSINNPRDCPKALPCAESCECQKGHILSGTSCVPLGQCGCTDPAGSYHPVGERWYTENT CTRLCTCSVHNNITCFQSTCKPNQICWALDGLLHCRASGVGVCQLPGESHYVSFDGSNHS IPDACTLVLVKVCHPAMALPFFKISAKHEKEEGGTEAFRLHEVYIDIYDAQVTLQKGHRV LINSKQVTLPAISQIPGVSVKSSSIYSIVNIKIGVQVKFDGNHLLEIEIPTTYYGKVCGM CGNFNDEEEDELMMPSDEVANSDSEFVNSWKDKDIDPSCQSLLVDEQQIPAEQQENPSGN CRAADLRRAREKCEAALRAPVWAQCASRIDLTPFLVDCANTLCEFGGLYQALCQALQAFG ATCQSQGLKPPLWRNSSFCPLECPAYSSYTNCLPSCSPSCWDLDGRCEGAKVPSACAEGC ICQPGYVLSEDKCVPRSQCGCKDAHGGSIPLGKSWVSSGCTEKCVCTGGAIQCGDFRCPS GSHCQLTSDNSNSNCVSDKSEQCSVYGDPRYLTFDGFSYRLQGRMTYVLIKTVDVLPEGV EPLLVEGRNKMDPPRSSIFLQEVITTVYGYKVQLQAGLELVVNNQKMAVPYRPNEHLRVT LWGQRLYLVTDFELVVSFGGRKNAVISLPSMYEGLVSGLCGNYDKNRKNDMMLPSGALTQ NLNTFGNSWEVKTEDALLRFPRAIPAEEEGQGAELGLRTGLQVSECSPEQLASNSTQACR VLADPQGPFAACHQTVAPEPFQEHCVLDLCSAQDPREQEELRCQVLSGYAILCQEAGAAL AGWRDRTLCDPGDCEGPCVEGCASIPGYAYSGTQSLPWLTVAAPAMASTTRSELAAGGPG EQRRQGEPDQGWNWNLGSSFLTEDCSQRCTCASSRILLCEPFSCRAGEVCTLGNHTQGCF PESPCLQNPCQNDGQCREQGATFTCECEVGYGGGLCMEPRDAPPPRKPEASNLVGVLLGL LVPVVVVLLAVTRECIYRTRRKSYSSLGHLI >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_7|8376_bp atggttcctccagtctggactctgctgcttctggtgggggctgcccttttcaggaaagag aagcctccggaccagaagctggttgttcgcagctctagggacaactatgtcctcacccag tgtgattttgaggatgacgccaaacccctctgtgactggtcccaagtgtccgcagacgat gaagactgggttcgagccagtgggccctctcccaccggctccaccggggcccccgggggg taccctaacggagagggcagctatctgcatatggaatcgaacagcttccaccgtggggga gtggcccgcctgctcagccccgacctatgggagcaaggccccctctgtgtgcactttgcc caccacatgttcgggctgtcttggggcgcccagctcaggctgctgctgctctcgggtgaa gagggccgccgccccgatgtgctctggaaacactggaacacccagagaccctcctggatg ctcaccaccgtcactgtgcccgcagggttcaccctgcccacccggctgatgtttgaggga acacggggtagcactgcctacctggacatcgccctggatgccctctctatccgccggggc tcctgtaatcgcgtctgtatgatgcaaacatgcagctttgacattccaaatgacctctgt gactggacctggatcccaactgcctccggggccaagtggactcagaagaaagggtcatca ggaaagccaggcgtggggcctgatggcgacttctctagccctggtattgcgtcacctagc gaggtccacgctgattggctgtctgagctgggggccgaggtggtgttgggtgagaggggg tttgcctcttgctcctctgtgtcagagccgctgtatctctcgccagtttgcgtgaatagg ttatgtccagcgggtggctgctacatgctcctggaccccaagaatgcaagacctgggcag aaagctgtcctcctgagccccgtgagcctgtcctctggctgtctgagcttttccttccac tacatcctccggggccagtctcctgggagtatccggaaacacactctcttctcaggacaa cctgggcccaactggcaggctgtttctgtcaattacacagccgtgggacggatacagttt gccgtggtaggcgtttttggaaagaccccagagccagctgtggcagttgatgcaaccagc attgctccttgtggggagggttttcctcagtgtgactttgaagacaacgcccatcccttc tgtgactgggtccagacttccggggatggtggacactgggccctcggacataaaaatgga cccgtccatggcatgggccctgcgggaggtttccctaatgcaggtgacatctgcgtggag ttcgcataccacatgtatggccttggggagggtactatgctcgaactcctcctgggaagt cctgcggggagtcccccgattcctctctggaaacgcgtggggtctcagcgcccttactgg cagaacacctccgtcaccgtcccctcaggacaccaacagcccatgcagcttattttcaag ggcatccagggaagcaacacggcctctgtggttgctatgggtttcatcttgatcaatcct gggacttgtccagtaaaagtgctaccagagcttcctcccgtatctccagtttcttccact ggcccttctgaaaccactggcctcacagaaaaccctacaatctccaccaagaaacctaca gtttccatagaaaaacccagtgtcaccacagaaaagcccacagtccccaaagaaaagccc accattcccacagaaaaacccaccatctccacagaaaaacccaccattccttcagaaaaa cccaacatgccctcagaaaaacccaccattccctcagaaaaacccaccatcctcacagaa aaacccaccattccctcagaaaaacccaccattccctcagaaaaacccaccatttccaca gaaaaacccaccgtccccacagaagagcccaccacccccactgaggagaccaccacctcc atggaagagcctgtcatccctacagaaaaacccagcatccctacagaaaaacccagcatc cccacggaaaaacccaccatctccatggaagagactatcatctccacagaaaaacccacc atctccccagaaaaacccaccatccccacagaaaaacccaccatccccacagaaaaatcc accatctccccagaaaaacccaccacccccacagaaaaacccaccatccccacagaaaaa cccaccatctccccagaaaaacccaccacccccacagaaaaacccaccatctccccagaa aaactcaccatccccacagaaaaacccaccatccccacagaaaaacccaccattcccaca gaaaaacccaccatctccacagaagagcccaccacccccactgaggagaccaccatctcc acagaaaaacccagcatccccatggaaaaacccactctccccactgaagaaaccaccacc tctgttgaagagactaccatctctacagaaaaactcaccatccccatggaaaaacccacc atctccacagaaaaacccaccatccccacagaaaaacccaccatctccccagaaaaactc accatccccacggaaaaactcaccatccccacggaaaaacccaccatccccattgaagag actaccatctccacagaaaaactcaccatccccacagaaaaacccaccatctccccagaa aaacccaccatctccacggaaaaacccaccatccccacggaaaaacccaccatccccact gaagagactaccatctccacagaaaaactcaccatccccacagaaaaacccaccatctcc ccagaaaaactcaccatccccacagaaaaacccaccatctccacggaaaaacccaccatc cccacggaaaaacttaccatccccacggaaaaacccaccatccccacagaaaaacccacc attcccacagagaagctcacagccctgaggccaccccatcccagccccacagccactggg ctggcagccttggtgatgtctccacatgctccaagtacccctatgaccagtgtgattctg ggcactaccacaacctccagatccagtacagagcgctgccctccaaatgcccgctacgaa tcctgtgcttgtcctgcttcgtgcaagagccccaggcctagctgtgggcccctctgtcgg gagggctgtgtctgcaaccctggctttttgtttagtgacaaccactgcatccaggcctct tcctgcaattgcttctacaacaacgactactatgagcctggggcagagtggttcagcccc aactgcacagaacattgccgctgctggcccggcagtcgggtcgagtgccagatctctcag tgtgggacacacaccgtgtgccagcttaagaatggccagtatggatgccacccctacgca ggcactgccacctgcttggtctacggagaccctcattatgtcacctttgacgggaggcac tttggcttcatgggcaagtgcacttacatcttggcccagccctgtggcaactcaacagac ccattcttcagggtgacagccaagaatgaggagcagggacaggaaggcgtgtcctgcctg agcaaagtctacgtgaccctgcccgagagcaccgtcaccctgcttaagggcagacgcact ctggttgggggtcagcaagttactctcccagccataccctctaaaggcgtcttcctgggt gcaagcgggcggtttgtggagctgcagacggagttcggtttgcgggtgagatgggatggt gaccagcagctgtatgttactgtgtccagcacatactctggcaaactctgtggtttgtgt gggaactatgacggcaacagtgacaatgaccacctgaagttggacggcagcccagcagga gacaaggaggagctggggaacagctggcagacggaccaggacgaggaccaggagacatgc ctgctgcacgtgaaggccgcttccttcttcgacagctgcatgcttgatatgtgcggattc caggggctgcagcacctgctgtgcacacacatgtccaccatgaccaccacctgccaggac gcaggccacgctgtgaagccctggagggaaccccacttctgcccaatggcctgcccgccc aacagcaagtactccctgtgtgcgaagccatgccctgacacctgccattcaggattctcc ggcatgttctgctcagaccggtgcgtggaggcctgtgaatgcaatccgggcttcgtcctc agtggcctcgagtgcatacctcgctcccagtgtgggtgcctccaccctgcaggcagctac ttcaaggtaggggagcggtggtacaagccaggctgcaaagagttgtgcgtctgtgaaagc aacaacagaattcgctgccagccctggaggtgtagggcccaggagttctgtggccaacag gatggtatctatggctgccatgcccaaggtgccgccacctgcacagcctcgggtgacccc cactacctgaccttcgatggcgccttgcaccacttcatgggcacctgcacctatgtcctg acccggccttgctggtccaggtcccaagacagctattttgttgtgagcgccaccaacgag aaccgcggggggatcctggaggtctcctacatcaaagccgtccacgtgacagtctttgac ctcagcatctcactgctcagaggctgtaaggtcatgctgaatggccatcgggtggcccta cctgtgtggcttgcacaaggccgggtgaccataaggctcagcagcaacctcgtcctcctc tacacgaactttgggctccaagttcgctacgacgggagccacttggtggaagtgacagtc ccctcctcctatggcggccagctctgtgggctgtgtgggaactacaacaacaacagcttg gatgacaacctgcgccccgacagaaagcttgcaggcgattccatgcagctgggggccgcc tggaagttacctgaatcctctgaacctggctgtttccttgtgggtggcaagccctccagc tgccaggagaacagcatggcagacgcctggaacaagaactgtgcgatcttaataaaccct cagggacccttctctcaatgtcaccaggtggtgcctccccagtccagctttgccagttgc gtgcatggtcagtgtgggaccaagggcgacaccacagccctgtgccgctccctgcaggcc tacgcgtccctgtgtgcccaggctggccaggcccctgcctggcggaacagaaccttctgc cctatgaggtgcccacctggcagcagctacagcccctgcagcagcccctgcccagacacc tgcagcagcataaacaacccgagggactgccccaaagcactgccctgtgctgagagctgt gaatgtcagaaaggccacatcttgagtggaacctcctgcgtgccccttggccagtgtggc tgcactgacccagcgggctcctaccacccggtcggggagcgctggtacacagagaacacc tgcaccaggctctgcacctgctccgtccacaacaacatcacctgcttccagagcacctgc aaacccaaccagatatgctgggccctggatgggctgctccattgtcgggcctcaggtgtg ggagtgtgtcagctcccaggggagtcccactacgtgagctttgatggtagtaaccattct atcccggacgcctgcactcttgtcctggtgaaagtgtgccaccccgccatggccttgccc ttcttcaagatcagtgccaagcatgagaaggaggaaggtggaactgaggctttccgcctt catgaggtctacattgacatctacgatgcccaggtcaccctgcagaagggccaccgtgtg ctaatcaacagcaaacaggtcaccctccccgccatctcccagatccctggggtcagtgtc aagtccagcagcatctacagcattgttaacatcaagatcggggtgcaagtcaagtttgac gggaatcatctcttagagattgaaatccccacaacctactatggaaaggtctgcggcatg tgtgggaacttcaatgatgaggaagaggacgaactaatgatgcccagcgatgaagtagca aatagtgacagtgaatttgtgaacagttggaaagataaggacattgacccaagttgtcag agtctcctggtagatgagcagcagattccagcggaacagcaggagaacccgagtggaaac tgcagggcggccgacctccgcagggcgcgggaaaagtgcgaggcagcgctccgggctcct gtgtgggcccagtgcgcctcccgcatagacctcacgcccttcctggtggactgtgcaaac accctctgtgagttcggaggtctctaccaggccctctgccaggctctgcaagccttcggg gccacctgccagagccaggggctcaagcccccactctggagaaacagcagcttctgccct ctggaatgccctgcctacagcagctacaccaactgccttccctcctgctcaccctcctgc tgggacctggatggccggtgtgagggcgccaaagtcccctctgcctgcgctgagggctgc atttgtcagcccggctatgtgctgagtgaagacaagtgtgtccccagaagtcagtgtggc tgcaaggatgcccatggtggctccatccctctgggcaagagctgggtctccagcggttgc acggagaagtgtgtctgcacgggaggagccattcagtgcggggacttccgatgcccctct gggtcccactgccagctcacttccgacaacagcaacagcaattgtgtctcagacaagtct gaacaatgctcagtctatggcgacccccgttacctcacatttgacggcttcagctaccgc ttgcaaggccgcatgacctatgttctgatcaagactgtggacgtactgcctgagggggtg gagcccctcctcgtggaaggacgcaacaagatggatccgcccaggagctccatcttcttg caggaagtgattaccaccgtctacggctataaagtgcagctccaagctggtctggagctt gtggtcaacaaccagaagatggccgtcccctacaggccaaatgaacacctgcgggtcacc ctgtggggccaacggctctacctggtcaccgactttgagctggtcgtcagctttggtgga aggaaaaatgcagtgatctccctacccagcatgtacgaggggcttgtgagtggcctgtgc ggaaactacgacaagaaccgcaagaatgacatgatgctgcccagtggcgccctgacccag aacctcaacacctttggcaacagctgggaggtgaagaccgaggacgcactcctgcgcttc cccagggctataccagcggaggaggagggacaaggggcggagctgggcctccgcacgggc ctccaagtgtccgaatgtagcccggagcagctggcgagcaacagcacccaggcctgtagg gtgctggcagacccccagggcccctttgctgcctgtcaccagacggtggccccagagccc ttccaagagcactgcgtgctggatctgtgctctgctcaggacccaagagagcaagaggag ctgcgttgccaggtcctcagtgggtacgccatcctctgccaggaggcgggcgctgccctg gctggctggcgggaccgcaccctctgcgaccccggggactgcgagggcccctgcgtggaa ggctgcgccagcatcccaggctatgcctacagtggcacccagagcctcccctggctgact gtggctgcaccagcaatggcatctactaccaggtctgagctggcagcaggaggccctggg gagcagaggcgccaaggagagccagaccagggatggaactggaacctgggcagcagcttt ctgactgaggactgctctcagcggtgcacctgtgccagctcacggatcctgctgtgtgag cccttcagctgcagagcgggggaggtctgcaccctggggaaccacacccaaggctgcttt ccagaaagcccgtgtctgcagaacccctgtcagaatgacgggcagtgtcgggagcaggga gccaccttcacctgcgagtgtgaagttggttacgggggaggcctgtgtatggagcctcga gatgcgccacctcccagaaagccagaagcatctaacctggtgggcgtcctactgggactg ctggtgcctgtggtggtcgtactactggccgtgaccagagagtgcatttacagaacgagg aggaagagctacagctctctaggacaccttatctag >gi568815591f:100621557_100823130|GENSCAN_predicted_peptide_8|850_aa VDTVAAEHLTRKRPGAEATGKVNVKTLRLGPLSKAGFYLAFQDQGACMALLSLHLFYKKC AQLTVNLTRFPETVPRELVVPVAGSCVVDAVPAPGPSPSLYCREDGQWAEQPVTGCSCAP GFEAAEGNTKCRACAQGTFKPLSGEGSCQPCPANSHSNTIGSAVCQCRVGYFRARTDPRG APCTTPPSAPRSVVSRLNGSSLHLEWSAPLESGGREDLTYALRCRECRPGGSCAPCGGDL TFDPGPRDLVEPWVVVRGLRPDFTYTFEVTALNGVSSLATGPVPFEPVNVTTDREVPPAV SDIRVTRSSPSSLSLAWAVPRAPSGAVLDYEVKYHEKGAEGPSSVRFLKTSENRAELRGL KRGASYLVQVRARSEAGYGPFGQEHHSQTQLDESEGWREQLALIAGTAVVGVVLVLVVIV VAVLCLRKQSNGREAEYSDKHGQYLIGHGTKVYIDPFTYEDPNEAVREFAKEIDVSYVKI EEVIGAGEFGEVCRGRLKAPGKKESCVAIKTLKGGYTERQRREFLSEASIMGQFEHPNII RLEGVVTNSMPVMILTEFMENGALDSFLRLNDGQFTVIQLVGMLRGIASGMRYLAEMSYV HRDLAARNILVNSNLVCKVSDFGLSRFLEENSSDPTYTSSLGGKIPIRWTAPEAIAFRKF TSASDAWSYGIVMWEVMSFGERPYWDMSNQDVINAIEQDYRLPPPPDCPTSLHQLMLDCW QKDRNARPRFPQVVSALDKMIRNPASLKIVARENGGASHPLLDQRQPHYSAFGSVGEWLR AIKMGRYEESFAAAGFGSFELVSQISAEDLLRIGVTLAGHQKKILASVQHMKSQAKPGTP GGTGGPAPQY >gi568815591f:100621557_100823130|GENSCAN_predicted_CDS_8|2553_bp gtggacacggtggccgcggagcatctcacccggaagcgccctggggccgaggccaccggg aaggtgaatgtcaagacgctgcgtctgggaccgctcagcaaggctggcttctacctggcc ttccaggaccagggtgcctgcatggccctgctatccctgcacctcttctacaaaaagtgc gcccagctgactgtgaacctgactcgattcccggagactgtgcctcgggagctggttgtg cccgtggccggtagctgcgtggtggatgccgtccccgcccctggccccagccccagcctc tactgccgtgaggatggccagtgggccgaacagccggtcacgggctgcagctgtgctccg gggttcgaggcagctgaggggaacaccaagtgccgagcctgtgcccagggcaccttcaag cccctgtcaggagaagggtcctgccagccatgcccagccaatagccactctaacaccatt ggatcagccgtctgccagtgccgcgtcgggtacttccgggcacgcacagacccccggggt gcaccctgcaccacccctccttcggctccgcggagcgtggtttcccgcctgaacggctcc tccctgcacctggaatggagtgcccccctggagtctggtggccgagaggacctcacctac gccctccgctgccgggagtgccgacccggaggctcctgtgcgccctgcgggggagacctg acttttgaccccggcccccgggacctggtggagccctgggtggtggttcgagggctacgt cctgacttcacctatacctttgaggtcactgcattgaacggggtatcctccttagccacg gggcccgtcccatttgagcctgtcaatgtcaccactgaccgagaggtacctcctgcagtg tctgacatccgggtgacgcggtcctcacccagcagcttgagcctggcctgggctgttccc cgggcacccagtggggctgtgctggactacgaggtcaaataccatgagaagggcgccgag ggtcccagcagcgtgcggttcctgaagacgtcagaaaaccgggcagagctgcgggggctg aagcggggagccagctacctggtgcaggtacgggcgcgctctgaggccggctacgggccc ttcggccaggaacatcacagccagacccaactggatgagagcgagggctggcgggagcag ctggccctgattgcgggcacggcagtcgtgggtgtggtcctggtcctggtggtcattgtg gtcgcagttctctgcctcaggaagcagagcaatgggagagaagcagaatattcggacaaa cacggacagtatctcatcggacatggtactaaggtctacatcgaccccttcacttatgaa gaccctaatgaggctgtgagggaatttgcaaaagagatcgatgtctcctacgtcaagatt gaagaggtgattggtgcaggtgagtttggcgaggtgtgccgggggcggctcaaggcccca gggaagaaggagagctgtgtggcaatcaagaccctgaagggtggctacacggagcggcag cggcgtgagtttctgagcgaggcctccatcatgggccagttcgagcaccccaatatcatc cgcctggagggcgtggtcaccaacagcatgcccgtcatgattctcacagagttcatggag aacggcgccctggactccttcctgcggctaaacgacggacagttcacagtcatccagctc gtgggcatgctgcggggcatcgcctcgggcatgcggtaccttgccgagatgagctacgtc caccgagacctggctgctcgcaacatcctagtcaacagcaacctcgtctgcaaagtgtct gactttggcctttcccgattcctggaggagaactcttccgatcccacctacacgagctcc ctgggaggaaagattcccatccgatggactgccccggaggccattgccttccggaagttc acttccgccagtgatgcctggagttacgggattgtgatgtgggaggtgatgtcatttggg gagaggccgtactgggacatgagcaatcaggacgtgatcaatgccattgaacaggactac cggctgcccccgcccccagactgtcccacctccctccaccagctcatgctggactgttgg cagaaagaccggaatgcccggccccgcttcccccaggtggtcagcgccctggacaagatg atccggaaccccgccagcctcaaaatcgtggcccgggagaatggcggggcctcacaccct ctcctggaccagcggcagcctcactactcagcttttggctctgtgggcgagtggcttcgg gccatcaaaatgggaagatacgaagaaagtttcgcagccgctggctttggctccttcgag ctggtcagccagatctctgctgaggacctgctccgaatcggagtcactctggcgggacac cagaagaaaatcttggccagtgtccagcacatgaagtcccaggccaagccgggaaccccg ggtgggacaggaggaccggccccgcagtactga