GENSCAN 1.0 Date run: 6-Nov-116 Time: 08:50:45 Sequence gi568815581r:1546445_1749804 : 203360 bp : 54.07% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.03 Intr - 1943 1852 92 1 2 71 117 82 0.372 9.54 1.02 Intr - 6705 6560 146 0 2 67 69 219 0.447 17.49 1.01 Init - 6886 6860 27 1 0 106 55 1 0.973 -1.83 1.00 Prom - 7267 7228 40 -5.41 2.00 Prom + 11827 11866 40 -2.71 2.01 Init + 16115 16479 365 1 2 90 59 213 0.606 13.14 2.02 Intr + 25153 25314 162 1 0 51 93 75 0.605 3.91 2.03 Term + 26848 26998 151 1 1 1 55 152 0.079 0.89 2.04 PlyA + 27495 27500 6 1.05 3.19 PlyA - 27982 27977 6 1.05 3.18 Term - 29321 29160 162 2 0 95 40 337 0.996 27.85 3.17 Intr - 30276 30153 124 2 1 93 86 153 0.691 16.69 3.16 Intr - 31879 31806 74 1 2 112 86 87 0.986 9.60 3.15 Intr - 36892 36760 133 0 1 123 94 285 0.988 33.75 3.14 Intr - 39607 39469 139 2 1 88 43 376 0.874 33.13 3.13 Intr - 44504 44358 147 0 0 112 96 264 0.899 30.32 3.12 Intr - 45072 44825 248 2 2 59 80 386 0.598 32.54 3.11 Intr - 45255 45122 134 0 2 80 99 156 0.999 15.85 3.10 Intr - 46835 46743 93 2 0 103 105 146 0.731 18.46 3.09 Intr - 58512 58296 217 2 1 3 78 98 0.006 -0.67 3.08 Intr - 61097 61000 98 2 2 128 78 65 0.288 8.81 3.07 Intr - 66827 66751 77 0 2 101 79 118 0.995 11.93 3.06 Intr - 68590 68535 56 0 2 94 113 42 0.935 6.41 3.05 Intr - 70325 70118 208 0 1 83 82 273 0.983 24.86 3.04 Intr - 73201 73036 166 1 1 44 59 72 0.002 -0.05 3.03 Intr - 75608 75405 204 2 0 105 96 -5 0.003 1.92 3.02 Intr - 77663 77512 152 0 2 15 35 116 0.011 -0.61 3.01 Init - 81430 81271 160 1 1 114 94 250 0.989 26.16 3.00 Prom - 82406 82367 40 -9.74 4.03 PlyA - 82419 82414 6 1.05 4.02 Term - 83367 83177 191 1 2 -7 47 208 0.006 5.13 4.01 Init - 85404 85314 91 0 1 76 71 80 0.371 5.71 4.00 Prom - 85462 85423 40 -3.21 5.17 PlyA - 85469 85464 6 1.05 5.16 Term - 89173 88314 860 2 2 91 45 709 0.283 60.30 5.15 Intr - 90411 90265 147 1 0 -24 63 157 0.216 2.72 5.14 Intr - 90618 90497 122 2 2 124 82 60 0.852 9.64 5.13 Intr - 92482 92362 121 2 1 89 66 167 0.992 14.66 5.12 Intr - 93298 93195 104 0 2 89 110 -17 0.991 0.92 5.11 Intr - 93596 93468 129 1 0 99 110 44 0.995 8.01 5.10 Intr - 94222 94004 219 0 0 78 94 205 0.997 18.04 5.09 Intr - 97523 96998 526 0 1 133 99 656 0.996 63.80 5.08 Intr - 98795 98734 62 1 2 104 75 14 0.996 0.57 5.07 Intr - 99336 99153 184 1 1 85 94 100 0.008 9.66 5.06 Intr - 100590 100466 125 2 2 120 -40 66 0.005 -2.27 5.05 Intr - 101513 101391 123 1 0 96 96 219 0.995 23.71 5.04 Intr - 102051 101906 146 0 2 96 77 202 0.879 19.49 5.03 Intr - 102600 102355 246 0 0 88 117 308 0.889 31.89 5.02 Intr - 103061 102756 306 2 0 52 77 428 0.498 35.29 5.01 Init - 103360 103133 228 1 0 103 109 288 0.999 28.76 5.00 Prom - 103949 103910 40 -8.48 6.44 PlyA - 104206 104201 6 1.05 6.43 Term - 104512 104358 155 2 2 90 47 169 0.948 11.40 6.42 Intr - 104866 104664 203 0 2 124 106 347 0.999 39.55 6.41 Intr - 105109 104970 140 1 2 84 80 124 0.982 10.97 6.40 Intr - 105344 105204 141 2 0 64 90 117 0.952 10.56 6.39 Intr - 107239 107098 142 0 1 109 89 212 0.953 24.26 6.38 Intr - 107572 107333 240 0 0 55 84 352 0.986 28.70 6.37 Intr - 109099 108906 194 1 2 88 63 218 0.995 18.11 6.36 Intr - 110121 109948 174 0 0 83 72 181 0.990 16.65 6.35 Intr - 110317 110204 114 1 0 78 94 164 0.999 17.15 6.34 Intr - 111937 111809 129 1 0 77 99 165 0.999 17.90 6.33 Intr - 112319 112082 238 1 1 118 113 310 0.999 34.65 6.32 Intr - 113104 112913 192 0 0 63 109 415 0.997 40.23 6.31 Intr - 113557 113397 161 1 2 113 108 142 0.999 18.00 6.30 Intr - 114134 113988 147 2 0 126 80 213 0.907 25.24 6.29 Intr - 114383 114188 196 1 1 127 46 221 0.591 21.74 6.28 Intr - 114718 114549 170 1 2 83 81 132 0.998 11.26 6.27 Intr - 114962 114827 136 1 1 43 91 131 0.999 9.98 6.26 Intr - 115346 115167 180 1 0 58 80 219 0.999 17.60 6.25 Intr - 115709 115462 248 2 2 88 92 260 0.969 23.19 6.24 Intr - 126753 126637 117 0 0 57 87 211 0.998 19.07 6.23 Intr - 127123 126913 211 0 1 79 77 313 0.999 28.74 6.22 Intr - 127448 127302 147 1 0 50 70 158 0.984 10.06 6.21 Intr - 128236 127998 239 1 2 84 94 64 0.962 3.54 6.20 Intr - 128895 128708 188 1 2 67 100 442 0.999 43.23 6.19 Intr - 129368 129176 193 2 1 112 70 198 0.986 19.99 6.18 Intr - 129610 129484 127 0 1 55 105 143 0.997 13.89 6.17 Intr - 129926 129763 164 2 2 60 95 104 0.987 7.59 6.16 Intr - 130267 130061 207 1 0 75 53 365 0.983 31.50 6.15 Intr - 130728 130532 197 1 2 67 98 150 0.940 13.55 6.14 Intr - 131250 131121 130 0 1 33 113 3 0.921 -1.93 6.13 Intr - 132208 132074 135 1 0 32 93 173 0.494 13.47 6.12 Intr - 132437 132318 120 2 0 102 110 121 0.952 16.89 6.11 Intr - 132762 132573 190 2 1 111 46 305 0.999 28.71 6.10 Intr - 132966 132847 120 2 0 73 94 93 0.997 8.51 6.09 Intr - 133355 133165 191 2 2 59 95 284 0.984 25.10 6.08 Intr - 134387 134282 106 1 1 107 100 46 0.999 8.42 6.07 Intr - 134610 134485 126 2 0 61 99 148 0.999 13.50 6.06 Intr - 135246 135034 213 2 0 68 79 256 0.999 21.06 6.05 Intr - 135594 135376 219 2 0 79 81 248 0.999 21.14 6.04 Intr - 135849 135685 165 2 0 57 64 169 0.927 10.99 6.03 Intr - 137257 137089 169 2 1 17 74 226 0.970 13.62 6.02 Intr - 138138 138028 111 1 0 68 100 136 0.484 13.65 6.01 Init - 142906 142774 133 1 1 80 59 73 0.381 1.89 6.00 Prom - 152733 152694 40 0.89 7.05 PlyA - 155920 155915 6 1.05 7.04 Term - 161778 161326 453 0 0 68 44 255 0.938 14.64 7.03 Intr - 163137 163055 83 1 2 109 69 31 0.933 3.15 7.02 Intr - 163442 163360 83 1 2 83 92 118 0.998 11.48 7.01 Init - 163798 163623 176 1 2 93 49 280 0.801 21.39 7.00 Prom - 170876 170837 40 -0.71 8.00 Prom + 177344 177383 40 -1.71 8.01 Init + 178516 182182 3667 0 1 85 111 3973 0.897 385.66 8.02 Intr + 183936 184043 108 1 0 64 87 131 0.830 11.36 8.03 Intr + 184311 184501 191 1 2 86 65 326 0.993 29.93 8.04 Intr + 184624 184814 191 0 2 72 49 296 0.950 23.00 8.05 Intr + 185881 186046 166 1 1 36 80 289 0.882 23.38 8.06 Intr + 186222 186387 166 2 1 101 19 279 0.914 22.35 8.07 Intr + 187083 187772 690 1 0 81 99 1201 0.916 112.63 8.08 Intr + 189128 189273 146 0 2 79 71 164 0.987 14.31 8.09 Intr + 189595 189774 180 0 0 84 61 205 0.899 17.98 8.10 Intr + 190921 191220 300 0 0 76 -20 450 0.138 30.47 8.11 Intr + 191916 191976 61 2 1 76 64 28 0.094 -2.00 8.12 Intr + 192325 192990 666 2 0 31 51 337 0.040 16.63 8.13 Term + 193061 195510 2450 0 2 -36 55 1218 0.080 92.32 8.14 PlyA + 198054 198059 6 1.05 9.00 Prom + 198331 198370 40 -6.60 9.01 Init + 198552 198614 63 2 0 100 65 115 0.997 9.54 9.02 Intr + 198731 198769 39 1 0 107 84 41 0.956 4.51 9.03 Intr + 198889 198951 63 0 0 92 87 52 0.949 4.91 9.04 Intr + 199264 199465 202 0 1 130 48 172 0.982 16.78 9.05 Intr + 200575 200718 144 2 0 66 102 96 0.993 9.56 9.06 Intr + 200865 201068 204 1 0 65 57 302 0.960 24.50 9.07 Intr + 202154 202296 143 0 2 111 41 310 0.376 29.18 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 99253 99153 101 1 2 87 94 181 0.987 16.33 S.002 Term - 100175 99998 178 1 1 96 38 61 0.948 -0.62 S.003 Term + 190921 191241 321 0 0 76 38 472 0.860 36.17 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_1|89_aa MEQHCQLLWYQVGQLYSVAEASKNETGGGEGVEVLVNEPYEKDGEKGQYTHKIYHLQSKV PTFVRMLAPEGALNIHEKAWNAYPYCRTX >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_1|267_bp atggagcagcactgtcagttgctttggtatcaagtggggcagctgtattctgtggctgag gccagtaaaaatgaaacgggtggtggcgaaggcgtggaggtcctggtgaatgagccctac gagaaggacggtgagaaaggccagtacacacacaagatctaccacctgcagagcaaagta cccacgtttgttcgaatgctggccccagagggagccctgaatatacacgagaaagcctgg aatgcttacccctactgcagaaccgnn >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_2|225_aa MSLRGSVAARGPPGLPPAARRPLSPWPGPARLPVRLRRALLRPRRPRRGRRAGSCRPGLV ASRAAADAARSSGSAAPRGGGASLRQPERHTPRCALTSRGAEPSQARPPVLKWAAAALSV PSPGAYGKVTPPSECTAGKEGLNGSSDQDDAGCKRGRGWSKTERIHQGLQPRLWPRRVTG QRQDLESPFGTSTREPLLGVIMEPHVEAGGSDGSSRSSAAQHTRS >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_2|678_bp atgtcgcttcgcggctcggtggctgcccgcggcccgcccggcctcccgcccgctgcccgc cggccgctctccccgtggcccggcccggcccggctgcctgtgcgtcttcgtcgtgctctg ctccgtccccgccgccctcgccgcggtcgccgcgccggctcctgccgcccgggcctcgtc gcctctcgcgccgctgccgacgccgcccggagctccggttccgcagcgccgcgcgggggc ggggcgtctctgcggcaaccagagcgtcacacgccgcggtgcgcgctgacgtcacgcggg gccgagccttcccaggcccgccctcccgtccttaagtgggccgcggcggcgctgtcggtt ccgagccctggggcctatggcaaagtgacgcccccctcggagtgcacggcaggcaaggaa ggtttaaacggaagttctgaccaggacgatgctgggtgcaagaggggacggggatggagc aaaacagaaaggatccaccagggcctgcaaccacgtctttggccccgcagagtcaccggt cagcggcaagacctggagtctccatttggaaccagcacccgggagcctctgctgggggtg atcatggagccgcacgtggaggctggtggctctgatggttcgagccgttcctcggcagca cagcacacccgctcctga >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_3|863_aa MAPTLATAHRRRWWMACTAVLENLLFSAVLLGWGSLLIMLKSEGFYSYLCTEPVNIDEGA VLGAEETSHHTHTCVTRIIPGGGRAPKKAGRQELEQQRRCGSCWTSTGHPWLLVSMKVLS SLGWLSGTSWESLSPIPTKRYSGPPGVAGTWAAFSRLCSLSIFSLGYEPLAQKLPHCGWA SGPGLSAVAVYMTALSSTLTGSRTPSAMCLADRVVELLFGKPRESGRENVTNGTVGGTAE PGHEEVSWMNGWLSCQAQDEMLNLAFTVGSFLLSAITLPLGIVMDKYGPRKLRLLGSACF AVSCLLIAYGASKPNALSVLIFIALALNGFGGMCMTFTSLTGGGSSMGIPLPPEASDEGS SACSLRTDPKREMSAQPSLRHRGFEQPLCAAETGGGREAGDGVSERGNVGSDPDVRMTYG SPQANASPSDAVALDHGEVSRRQQQELPNMFGDLRSTFIALMIGSYASSAVTFPGIKLIY DAGVSFIVVLVVWAGCSGLVFLNCFFNWPLEPFPGPEDMDYSRGPGQHPQTLSRGPRVKI KFSWLGFDHKITGKQFYKQVTTVGRRLSVGSSMRSAKEQVALQEGHKLCLSTVDLEVKCQ PDAAVAPSFMHSVFSPILLLSLVTMCVTQLRLIFYMGAMNNILKFLVSGDQKTVGLYTSI FGVLQLLCLLTAPVIGYIMDWRLKECEDASEEPEEKDANQGEKKKKKRDRQIQKITNAMR AFAFTNLLLVGFGVTCLIPNLPLQILSFILHTIVRGFIHSAVGGLYAAVYPSTQFGSLTG LQSLISALFALLQQPLFLAMMGPLQGDPLWVNVGLLLLSLLGFCLPLYLICYRRQLERQL QQRQEDDKLFLKINGSSNQEAFV >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_3|2592_bp atggcgcccaccctggccactgcccatcggcgccgctggtggatggcctgcacggccgtg ctggagaacctcctcttctcggcagtcctcctgggctggggctcgctgctcatcatgctc aagtcagagggcttttactcctacctgtgtaccgagccagtaaacattgacgaaggtgcc gtgctgggtgcagaggaaacaagtcatcacacgcatacctgtgtaacccgtataattcca gggggtggtcgggcccccaagaaagcagggcgccaggagctagaacagcagcggagatgt ggctcctgctggacatccactggccacccctggcttctggtgtccatgaaggtcctgtcc agcttaggctggctctcagggacctcgtgggagagtcttagtcccattcccaccaagcga tattcagggcctcctggtgttgccggcacatgggcagccttttcccggctctgttctctc agcattttctctctgggatatgagcctctagcccagaagctgccccactgtggatgggcg agtggcccaggcctgtcggctgtggcggtgtacatgaccgctctgagctccaccctgacg ggctcgaggaccccgtctgccatgtgtttggctgaccgtgtggtagagcttctttttgga aaaccgagagaaagtggccgagagaatgtcaccaatggcacagtgggcggcacagcagag ccggggcacgaggaggtgagctggatgaacggctggctcagctgccaggcccaggacgag atgctaaatttggccttcactgtgggctcctttctgctcagtgccatcaccctgcccctg ggtatcgtcatggacaagtatggcccgaggaagctcaggctgctgggcagcgcctgcttc gcggtttcctgcttgctgattgcgtacggagcaagtaaaccaaacgctctctccgtgctc atcttcatcgccctggctctgaatggctttggtgggatgtgtatgaccttcacctcatta acaggtggagggagttccatgggcattcccctgccccctgaggcctctgatgagggctcc agtgcctgctccttgagaacagaccccaaaagggaaatgagcgctcagccctcactccgg caccgcggcttcgaacagccattatgcgcagctgagaccggtggaggcagggaagctggg gacggagtgagcgagagggggaatgtggggagtgacccagatgtcaggatgacctacggg agtccacaggcaaatgcaagcccatccgatgctgtggcgctggaccatggggaggtcagc cgaaggcaacagcaggagctgcccaacatgttcggcgaccttcggtccacgtttattgcc ttgatgattgggtcctacgcctcctcggcagtcacctttccaggaatcaagctcatctat gatgctggtgtctccttcatcgtcgtcctcgtggtctgggccggctgctccgggctggtt ttcctcaactgcttctttaactggccccttgagcccttcccggggccggaggacatggac tactcccggggtcccgggcagcacccacagacactctcccggggccccagggtgaagatc aagttcagctggctgggctttgaccacaagatcacagggaagcagttctacaagcaggtg accacggtgggccggcgcctgagtgtgggcagctccatgaggagtgccaaggagcaggtg gcgctgcaggagggccacaagctgtgcctgtccaccgtcgacctggaggtgaagtgccag ccggatgccgcagtggccccctccttcatgcacagcgtgttcagccccatcctgctgctc agcctggtcaccatgtgcgtcacgcagctgcggctcatcttctacatgggggctatgaac aacatcctcaagttcctggtcagcggcgaccagaagacagttggcctctacacctccatc ttcggcgtgctccagctgctgtgcctgctgacggcccccgtcattggctacatcatggac tggaggctgaaggagtgtgaagacgcctccgaggagcccgaggagaaagacgccaaccaa ggcgagaagaaaaagaagaagcgggaccggcagatccagaagatcactaatgccatgcgg gccttcgccttcaccaacctgctgctcgtgggctttggggtgacctgcctcattcccaac ctgcctctccagatcctctccttcatcctgcacacaatcgtgcgaggattcatccactcc gctgtcgggggcctgtacgctgccgtgtacccctccacccagttcggcagcctcacggga ctgcagtctctgatcagcgcgctcttcgcccttctgcagcagccgctgtttctggccatg atgggtcctctccagggagaccctctgtgggtgaacgtggggctgctccttctcagcctg ctgggcttctgcctcccgctctacctgatctgctaccggcgccagctggagcggcagctg cagcagaggcaggaggatgacaaactcttcctcaaaatcaacggctcgtccaaccaggag gccttcgtgtag >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_4|93_aa MRLCRELEEREQQVQKPQAIPCDWSIGDQADGDPEPPRTLPSLYQLADVARSIALQRGPS LKGTGNGVKVASAGREHPDDDQGWRVPGGPSSA >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_4|282_bp atgaggctatgtcgcgagctagaggagagagaacagcaggtgcagaaaccacaggcaatt ccatgtgactggagcatcggggaccaggcagacggggacccggagccccctcgaaccctc cctagcttgtaccagctggcggacgtggcccgtagcatcgccctgcagaggggaccttcc ctgaaagggacggggaacggggtgaaggtggccagcgcgggcagggagcacccagatgac gatcaagggtggagggtccccggaggaccgagcagtgcgtga >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_5|1215_aa MEPRRAAPGVPGWGSREAAGSASAAELVYHLAGALGTELQDLARRFGPEAAAGLVPLVVR ALELLEQAAVGPAPDSLQVSAQPAEQELRRLREENERLRRELRAGPQGKRSPGQGRAGDD LLGSSPPSRGPRAAAAKNAPSSEERALLRQLKEVTDRQRDELRAHNRDLRQRGQETEALQ EQLQRLLLVNAELRHKLAAMQTQLRAAQDRERERQQPGEAATPQAKERARGQAGRPGHQH GQEPEWATAGAGAPGNPEDPAEAAQQLGRPSEAGQCRFSREEFEQILQERNELKAKVFLL KEELAYFQRELLTDHRVPGLLLEAMKVAVRKQRKKIKAKMLGTPEEAESRALINGPHFSS LLCLSEDEAGPWILLSDDKGDHPPPPESKIQRKALRGSREGVGSCGGQTNPSAPTELPAM GLGLLLPLLLLWTRGTQGSELDPKGQHVCVASSPSAELQCCAGWRQKDQECTIRCPGQYW GPDCRESCPCHPHGQCEPATGACQCQADRWGARCEFPCACGPHGRCDPATGVCHCEPGWW SSTCRRPCQCNTAAARCEQATGACVCKPGWWGRRCSFRCNCHGSPCEQDSGRCACRPGWW GPECQQQCECVRGRCSAASGECTCPPGFRGARCELPCPAGSHGVQCAHSCGRCKHNEPCS PDTGSCESCEPGWNGTQCQQPCLPGTFGESCEQQCPHCRHGEACEPDTGHCQRCDPGWLG PRCEDPCPTGTFGEDCGSTCPTCVQGSCDTVTGDCVCSAGYWGPSCNASCPAGFHGNNCS VPCECPEGLCHPVSGSCQPGSGSRDTALIAGSLVPLLLLFLGLACCACCCWAPRSDLKDR PARDGATVSRMKLQVWGTLTSLGSTLPCRSLSSHKLPWVTVSHHDPEVPFNHSFIEPPSA GWATDDSFSSDPESGEADEVPAYCVPPQEGMVPVAQAGSSEASLAAGAFPPPEDASTPFA IPRTSSLARAKRPSVSFAEGTKFAPQSRRSSGELSSPLRKPKRLSRGAQSGPEGREAEES TGPEEAEAPESFPAAASPGDSATGHRRPPLGGRTVAEHVEAIEGSVQESSGPVTTIYMLA GKPRGSEGPVRSVFRHFGSFQKGQAEAKVKRAIPKPPRQALNRKKGSPGLASGSVGQSPN SAPKAGLPGATGPMAVRPEEAVRGLGAGTESSRRAQEPVSGCGSPEQDPQKQAEEERQEE PEYENVVPISRPPEP >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_5|3648_bp atggagcccaggagggcggcgcccggggtgcctggctgggggtctcgggaggccgcgggg tcggcatcggccgcggagcttgtgtaccatctagccggggccctgggcactgagctgcag gatctggcgcgccgtttcgggccggaggcggcggccgggctggtgccgctagtggtgcgg gcgctggagctcttggaacaggctgccgtggggcccgccccggactcgctgcaggtgtcg gcgcagccggcggagcaggagctgcggcggctgcgggaggagaacgagcgcctccgcagg gagctgcgcgcggggccacagggtaagcgcagccccggccagggcagggcgggtgacgac ctgctcgggtcctcccctccctcccgcgggccgcgcgccgccgccgctaagaacgcccct tcctcagaggagcgcgcgctgctgcggcagctcaaggaggtcacggaccgacagcgggac gaactccgggcgcacaaccgcgacctgcggcagcgcggccaggagaccgaggcgttgcag gagcagctgcagcgcctcctgctggtgaacgctgagctgcggcacaagctggcggccatg cagacccagctgcgcgccgcgcaggaccgcgagagggagcgccagcagcctggcgaagcc gcgactccgcaggctaaagagcgagcgcgggggcaggccgggcggcccgggcaccagcac ggacaggagcccgaatgggcgaccgccggcgcaggcgccccagggaaccctgaggacccg gcggaggccgcgcagcagctcgggcgcccctcggaggcagggcagtgccgcttcagtcgg gaggagtttgagcagatccttcaggagcggaatgaactcaaagccaaagtgttcctgctc aaggaggaactggcctacttccagcgggagctgctcacagaccaccgggtccccggcctt ctgctcgaggccatgaaggtggctgtccggaagcagcggaagaagatcaaggccaagatg ttagggacaccagaggaagcagagagcagggccttgatcaatggccctcacttctcctct ctcctctgtctcagtgaggatgaggctggcccatggatcctgctctccgatgacaaggga gaccatcccccacccccggagtccaaaatacagagaaaagccctgagaggaagcagggag ggggttgggagctgtgggggccagacgaacccgagcgctcccaccgagctgcctgccatg gggctggggctgctgctcccgctgctgctgctctggactcgggggactcaggggtccgag ctggaccccaaagggcagcacgtctgtgtggccagcagcccctctgctgagctgcagtgc tgcgcaggctggaggcagaaggatcaagaatgcaccatccgctgcccgggccagtactgg ggccccgactgccgtgagagctgcccctgccacccgcacggccagtgcgagccagccacg ggcgcgtgccagtgccaggccgaccgctggggagcccgctgcgagttcccgtgcgcctgc ggcccccacgggcgctgcgaccccgcgaccggcgtgtgccactgcgaacccggctggtgg tcgtccacgtgccgccgcccgtgccagtgcaacaccgcggcggcgcgctgcgagcaggcc acgggcgcctgcgtgtgcaagccgggctggtgggggcgccgctgcagcttccgctgcaac tgccacggctccccgtgcgagcaggactccggccgctgcgcctgccggccgggctggtgg ggtcccgaatgccagcagcagtgcgagtgtgtgcggggccgctgcagcgccgcctccggc gagtgcacctgcccgcccggcttccgcggagcgcgctgcgagctgccctgcccggcaggc agccacggggtgcagtgcgcacacagctgtggccgctgcaaacacaatgagccgtgctct ccagacacaggcagctgtgagtcctgcgagccgggctggaacgggacccagtgccagcag ccctgcctgcctggcacctttggcgagagctgcgaacagcagtgccctcactgccgacat ggggaggcctgtgagccagatactggccactgtcagcgctgtgaccctggctggctgggg cccaggtgtgaagacccctgccccactggtacctttggggaagactgtggctctacctgc cccacctgtgttcaggggtcctgtgatactgtgacaggggactgtgtctgcagtgccggc tactgggggcccagctgcaacgcctcctgcccagccggtttccatggaaacaactgctca gttccttgtgaatgcccagagggactctgccaccctgtctctgggtcctgccagccaggc tctggcagtcgggacactgccctcatcgcgggcagccttgtgcctctgctgctgctcttc ctgggccttgcctgctgtgcctgctgctgctgggccccccgatcagacctcaaggacagg ccagcgagagatggagctaccgtgtccaggatgaagctgcaggtctgggggacactgacc agcttgggctccacgctgccctgccgttccctcagctcccacaagctaccctgggtgaca gtctcacatcacgacccggaggtccccttcaaccacagcttcatcgagccgccctctgcc ggctgggccactgatgactccttctcatccgatcctgagtctggagaggcagatgaggtt cctgcctactgtgtgccaccccaagaagggatggtccctgtggcccaggcagggtcgtca gaggccagcctggctgcaggtgctttcccgccccctgaggacgcctccacgccattcgcc atcccgcgcacctccagcctagctcgggccaagcggccatcggtctccttcgcggaaggt accaagtttgcaccacagagtcgccgaagctcaggggagctctccagcccgctccgaaag cccaagaggctctcccggggggcgcagtcgggtcctgagggccgggaagccgaagagtcc acaggcccagaggaagcagaagcccccgagtcctttccggcggctgccagtcccggggat tcagccactggccaccggcggcccccacttggtggccggacagtggctgagcacgtggaa gccattgagggcagcgtccaggagagctcgggccctgtgaccacgatctacatgctggca gggaagccccgcggatccgaaggccctgtccgctctgtcttccgccattttggtagcttc cagaaaggccaggcggaagccaaggtcaagagggccatccctaagcctccgcgccaggcc ctgaatcggaaaaagggcagccctggccttgcctctggctctgtcggccagagccccaac tcagccccaaaagctgggcttcctggggccacagggcctatggcagtcagaccagaggaa gcggtccgggggctgggggctggcaccgagagttcaaggagagcccaggagccagtctct ggctgtggctccccagaacaggatccccagaagcaggctgaagaggaaaggcaggaggaa cctgagtatgagaatgttgtacccatctccaggccaccagaaccctga >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_6|2405_aa MEVGGSAPRPASRPIREVRGASARPPLLGSEEPLCPASRPIWERDSPDMAGVFPYRGPGN PVPGPLAPLPDYMSEEKLQEKARKWQQLQAKRYAEKRKFGFVDAQKEDMPPEHVRKIIRD HGDMTNRKFRHDKRVYLGALKYMPHAVLKLLENMPMPWEQIRDVPVLYHITGAISFVNEI PWVIEPVYISQWGSMWIMMRREKRDRRHFKRMRFPPFDDEEPPLDYADNILDVEPLEAIQ LELDPEEDAPVLDWFYDHQPLRDSRKYVNGSTYQRWQFTLPMMSTLYRLANQLLTDLVDD NYFYLFDLKAFFTSKALNMAIPGGPKFEPLVRDINLQDEDWNEFNDINKIIIRQPIRTEY KIAFPYLYNNLPHHVHLTWYHTPNVVFIKTEDPDLPAFYFDPLINPISHRHSVKSQEPLP DDDEEFELPEFVEPFLKDTPLYTDNTANGIALLWAPRPFNLRSGRTRRALDIPLVKNWYR EHCPAGQPVKVRVSYQKLLKYYVLNALKHRPPKAQKKRYLFRSFKATKFFQSTKLDWVEV GLQVCRQGYNMLNLLIHRKNLNYLHLDYNFNLKPVKTLTTKERKKSRFGNAFHLCREVLR LTKLVVDSHVQYRLGNVDAFQLADGLQYIFAHVGQLTGMYRYKYKLMRQIRMCKDLKHLI YYRFNTGPVGKGPGCGFWAAGWRVWLFFMRGITPLLERWLGNLLARQFEGRHSKGVAKTV TKQRVESHFDLELRAAVMHDILDMMPEGIKQNKARTILQHLSEAWRCWKANIPWKVPGLP TPIENMILRYVKAKADWWTNTAHYNRERIRRGATVDKTVCKKNLGRLTRLYLKAEQERQH NYLKDGPYITAEEAVAVYTTTVHWLESRRFSPIPFPPLSYKHDTKLLILALERLKEAYSV KSRLNQSQREELGLIEQAYDNPHEALSRIKRHLLTQRAFKEVGIEFMDLYSHLVPVYDVE PLEKITDAYLDQYLWYEADKRRLFPPWIKPADTEPPPLLVYKWCQGINNLQDVWETSEGE CNVMLESRFEKMYEKIDLTLLNRLLRLIVDHNIADYMTAKNNVVINYKDMNHTNSYGIIR GLQFASFIVQYYGLVMDLLVLGLHRASEMAGPPQMPNDFLSFQDIATEAAHPIRLFCRYI DRIHIFFRFTADEARDLIQRYLTEHPDPNNENIVGYNNKKCWPRDARMRLMKHDVNLGRA VFWDIKNRLPRSVTTVQWENSFVSVYSKDNPNLLFNMCGFECRILPKCRTSYEEFTHKDG VWNLQNEVTKERTAQCFLRVDDESMQRFHNRVRQILMASGSTTFTKIVNKWNTALIGLMT YFREAVVNTQELLDLLVKCENKIQTRIKIGLNSKMPSRFPPVVFYTPKELGGLGMLSMGH VLIPQSDLRWSKQTDVGITHFRSGMSHEEDQLIPNLYRYIQPWESEFIDSQRVWAEYALK RQEAIAQNRRLTLEDLEDSWDRGIPRINTLFQKDRHTLAYDKGWRVRTDFKQYQVLKQNP FWWTHQRHDGKLWNLNNYRTDMIQALGGVEGILEHTLFKGTYFPTWEGLFWEKASGFEES MKWKKLTNAQRSGLNQIPNRRFTLWWSPTINRANVSVIDTGEGKLKTVAASCLGYVVYVG FQVQLDLTGIFMHGKIPTLKISLIQIFRAHLWQKIHESIVMDLCQVFDQELDALEIETVQ KETIHPRKSYKMNSSCADILLFASYKWNVSRPSLLADSKDVMDSTTTQKYWIDIQLRWGD YDSHDIERYARAKFLDYTTDNMSIYPSPTGVLIAIDLAYNLHSAYGNWFPGSKPLIQQAM AKIMKANPALYVLRERIRKGLQLYSSEPTEPYLSSQNYGELFSNQIIWFVDDTNVYRVTI HKTFEGNLTTKPINGAIFIFNPRTGQLFLKIIHTSVWAGQKRLGQLAKWKTAEEVAALIR SLPVEEQPKQIIVTRKGMLDPLEVHLLDFPNIVIKGSELQLPFQACLKVEKFGDLILKAT EPQMVLFNLYDDWLKTISSYTAFSRLILILRALHVNNDRAKVILKPDKTTITEPHHIWPT LTDEEWIKVEVQLKDLILADYGKKNNVNVASLTQSEIRDIILGMEISAPSQQRQQIAEIE KQTKEQSQLTATQTRTVNKHGDEIITSTTSNYETQTFSSKTEWRVRAISAANLHLRTNHI YVSSDDIKETGYTYILPKNVLKKFICISDLRAQIAGYLYGVSPPDNPQVKEIRCIVMVPQ WGTHQTVHLPGQLPQHEYLKEMEPLGWIHTQPNESPQLSPQDVTTHAKIMADNPSWDGEK TIIITCSFTPGSCTLTAYKLTPSGYEWGRQNTDKGNNPKGYLPSHYERVQMLLSDRFLGF FMVPAQSSWNYNFMGVRHDPNMKYELQLANPKEFYHEVHRPSHFLNFALLQEGEVYSADR EDLYA >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_6|7218_bp atggaggtgggggggtcagccccccgcccggccagccgccccatccgggaggtgaggggc gcctctgcccggccgcccctactgggaagcgaggagcctctctgcccggccagccgcccc atctgggagagagattctccggatatggccggagtgtttccttatcgagggccgggtaac ccggtgcctggccctctagccccgctaccggactacatgtcggaggagaagctgcaggag aaagctcgaaaatggcagcaattgcaggccaagcgctatgcagaaaagcggaagtttggg tttgtggatgcccagaaggaagacatgcccccagaacatgtcaggaagatcattcgagac catggagacatgaccaacaggaagttccgccatgacaaaagggtttacttgggtgcccta aagtacatgccccacgcagtcctcaaactcctggagaacatgcctatgccttgggagcag attcgggatgtgcctgtgctgtaccacatcactggagccatttccttcgtcaatgagatt ccctgggtcattgaacctgtctacatctcccagtgggggtcaatgtggattatgatgcgc cgagaaaaaagagataggaggcatttcaagaggatgcgttttcccccttttgatgatgag gagccgcccttggactatgctgacaacatcctagatgttgagccactggaggccattcag ctagagctggaccctgaggaggacgcccctgtgttggactggttctatgaccaccagccg ttgagggacagcaggaagtatgtaaatggctccacttaccagcgctggcagttcacacta cctatgatgtcgactctctaccgcctggctaatcagctcctgacagacttggtggatgac aactacttctacctgtttgatttgaaggccttctttacgtccaaggcactcaatatggcc attcctggaggccccaaatttgaacctcttgttcgagacatcaacctacaggatgaagac tggaatgaattcaatgatattaacaagattatcatccggcagcctatccgcactgagtac aagattgcttttccttacttgtacaacaatcttccacaccatgtccacctcacctggtac catactcccaatgttgtattcatcaaaactgaggatcctgacttgccagctttctacttt gaccctttgatcaacccaatctcccataggcactcagtcaagagccaggaaccattgccg gatgatgatgaggaatttgagctcccggagtttgtggagcccttcctgaaggacacaccc ctctatacagacaatacagccaatggcattgccctgctctgggccccgcggcccttcaac ctacgctctggtcgcacccgtcgggccctggacataccccttgtcaagaactggtatcgg gagcattgtcctgccgggcagcctgtgaaagtgagggtctcctaccagaagctgcttaag tactatgtgctgaatgccctgaagcatcggccccctaaggctcaaaagaagaggtatttg ttccgctccttcaaagccaccaaattctttcagtccacaaagctggactgggtggaggtt gggctccaggtttgccgccagggctacaacatgctcaaccttctcattcaccgcaaaaac ctcaactacctgcacctggactacaacttcaacctcaagcctgtgaaaacgctcaccacc aaggaaagaaagaaatctcgttttgggaatgctttccacctgtgtcgggaagttctgcgt ttgactaagctggtggtggatagtcacgtgcagtatcggctgggcaatgtggatgccttc cagctggcagatggattgcagtatatatttgcccatgttgggcagttgacgggcatgtat cgatacaaatacaagctgatgcgacagattcgcatgtgcaaggacctgaagcatctcatc tattatcgtttcaacacgggccctgtagggaagggtcctggctgtggcttctgggctgcc ggttggcgagtctggctctttttcatgcgtggcattacccctttattagagcgatggctt ggcaacctcctggcccggcagtttgaaggtcgacactcaaagggggtggcaaagacagta acaaagcagcgagtggagtcacattttgaccttgagctgcgggcagctgtgatgcatgat attctggacatgatgcctgaggggatcaagcagaacaaggcccggacaatcctgcagcac ctcagtgaagcctggcgctgctggaaagccaacattccctggaaggtccctgggctgccg acgcccatagagaatatgatccttcgatacgtgaaggccaaggctgactggtggaccaac actgcccactacaaccgagaacggatccgccgaggggccactgtggacaagactgtttgt aaaaagaatctgggccgcctcacccggctctatctgaaggcagaacaggagcggcagcac aactacctgaaggacgggccttacatcacagcggaggaagcagtggcagtatataccacc acagtgcattggttggaaagccgcaggttttcacccatcccattccccccactctcctat aagcatgacaccaagttgctcatcttggcattggagcggctcaaggaagcttatagtgtg aagtctcggttgaaccagtctcagagggaggagctaggtctgatcgagcaggcctacgat aacccccacgaggcgctgtcccgcatcaagcgtcacctcctcacacagagagccttcaaa gaggtgggcattgagttcatggatctgtatagccacctcgttccagtatatgatgttgag cccctggagaagataactgatgcttacctggaccagtacctgtggtatgaagccgacaag cgccgcctgttcccaccctggattaagcctgcagacacagaaccacctccgctgcttgtt tacaagtggtgtcaaggcatcaataacctgcaggacgtgtgggagacgagtgaaggcgag tgcaatgtcatgctggaatcccgctttgagaagatgtatgagaagatcgacttgactctg ctcaacaggctgctgcgcctcatcgtggaccacaacatagccgactacatgacagccaag aacaacgtcgtcatcaactataaggacatgaaccatacgaattcatatgggatcatcaga ggcctgcagtttgcctcattcatcgtgcagtattatggcctggtgatggatttgcttgta ttgggattgcaccgggccagtgagatggctgggccccctcagatgccaaatgactttctc agtttccaggacatagccactgaggctgcccaccccatccgtctcttctgcagatacatt gatcgcatccatatttttttcaggttcacagcagatgaggctcgggacctgattcaacgt tacctgacagagcaccctgaccccaataatgaaaacatcgttggctataataacaagaag tgctggccccgagatgcccgcatgcgcctcatgaaacatgatgttaacttaggccgggcg gtattctgggacatcaagaaccgcttgccacggtcagtgactacagttcagtgggagaac agcttcgtgtctgtgtacagtaaggacaaccccaacctgctgttcaacatgtgtggcttc gagtgccgcatcctgcctaagtgccgcaccagctatgaggagttcacccacaaggacggg gtctggaacctgcagaatgaggttactaaggagcgcacagctcagtgtttcctgcgtgtg gacgatgagtcaatgcagcgcttccacaaccgcgtgcgtcagattctcatggcctctggg tccaccaccttcaccaagattgtgaataagtggaatacagctctcattggccttatgaca tactttcgggaggctgtggtgaacacccaagagctcttggacttactggtgaagtgtgag aacaaaatccagacacgtatcaagattggactcaactccaagatgccaagtcggttcccc ccggttgtgttctacacccctaaggagttgggtggactcggcatgctctcaatgggccat gtgctcatcccccaatccgacctcaggtggtccaaacagacagatgtaggtatcacacac tttcgttcaggaatgagccatgaagaagaccagctcattcccaacttgtaccgctacata cagccatgggagagcgagttcattgattctcagcgggtctgggctgagtacgcactcaag aggcaagaggccattgctcagaacagacgcctgactttagaagacctagaagattcatgg gatcgtggcattcctcgaatcaataccctcttccagaaggaccggcacacactggcttat gataagggctggcgtgtcagaactgactttaagcagtatcaggttttgaagcagaatccg ttctggtggacacaccagcggcatgatgggaagctctggaacctgaacaactaccgtaca gacatgatccaggccctgggcggtgtggaaggcattctggaacacacactctttaagggc acttacttccctacctgggaggggcttttctgggagaaggccagtggctttgaggaatct atgaagtggaagaagctaactaatgctcagcgatcaggactgaaccagattcccaatcgt agattcaccctctggtggtccccgaccattaatcgagccaatgtgagtgtgattgacact ggagaggggaagctaaagacagttgctgcttcttgccttggttatgtcgtatatgtaggc tttcaggtgcagctagacctgacgggtatcttcatgcacggcaagatccccacgctgaag atctctctcatccagatcttccgagctcacttgtggcagaagatccatgagagcattgtt atggacttatgtcaggtgtttgaccaggaacttgatgcactggaaattgagacagtacaa aaggagacaatccatccccgaaagtcatataagatgaactcttcctgtgcagatatcctg ctctttgcctcctataagtggaatgtctcccggccctcattgctggctgactccaaggat gtgatggacagcaccaccacccagaaatactggattgacatccagttgcgctggggggac tatgattcccacgacattgagcgctacgcccgggccaagttcctggactacaccaccgac aacatgagtatctacccttcgcccacaggtgtactcatcgccattgacctggcctataac ttgcacagtgcctatggaaactggttcccaggcagcaagcctctcatacaacaggccatg gccaagatcatgaaggcaaaccctgccctgtatgtgttacgtgaacggatccgcaagggg ctacagctctattcatctgaacccactgagccttatttgtcttctcagaactatggtgag ctcttctccaaccagattatctggtttgtggatgacaccaacgtctacagagtgactatt cacaagacctttgaagggaacttgacaaccaagcccatcaacggagccatcttcatcttc aacccacgcacagggcagctgttcctcaagataatccacacgtccgtgtgggcgggacag aagcgtttggggcagttggctaagtggaagacagctgaggaggtggccgccctgatccga tctctgcctgtggaggagcagcccaagcagatcattgtcaccaggaagggcatgctggac ccactggaggtgcacttactggacttccccaatattgtcatcaaaggatcggagctccaa ctccctttccaggcgtgtctcaaggtggaaaaattcggggatctcatccttaaagccact gagccccagatggttctcttcaacctctatgacgactggctcaagactatttcatcttac acggccttctcccgtctcatcctgattctgcgtgccctacatgtgaacaacgatcgggca aaagtgatcctgaagccagacaagactactattacagaaccacaccacatctggcccact ctgactgacgaagaatggatcaaggtcgaggtgcagctcaaggatctgatcttggctgac tacggcaagaaaaacaatgtgaacgtggcatcactgacacaatcagaaattcgagacatc atcctgggtatggagatctcggcaccgtcacagcagcggcagcagatcgctgagatcgag aagcagaccaaggaacaatcgcagctgacggcaacacagactcgcactgtcaacaagcat ggcgatgagatcatcacctccaccaccagcaactatgagacccagactttctcatccaag actgagtggagggtcagggccatctctgctgccaacctgcacctaaggaccaatcacatc tatgtttcatctgacgacatcaaggagactggctacacctacatccttcccaagaatgtg cttaagaagttcatctgcatatctgaccttcgggcccaaattgcaggatacctatatggg gtgagcccaccagataacccccaggtgaaggagatccgctgcattgtgatggtgccgcag tggggcactcaccagaccgtgcacctgcctggccagctgccccagcatgagtacctcaag gagatggaacccttaggttggatccacactcagcccaatgagtccccgcagttatcaccc caggatgtcaccacccatgccaagatcatggctgacaacccatcttgggatggcgagaag accattatcatcacatgcagcttcacgccaggctcctgtacactgacggcctacaagctg acccccagtggctacgaatggggccgccagaacacagacaagggcaacaaccccaagggc tacctgccttcacactatgagagggtgcagatgctgctgtcggaccgtttccttggcttc ttcatggtccctgcccagtcctcgtggaactacaacttcatgggtgttcggcatgacccc aacatgaaatatgagctacagctggcgaaccccaaagagttctaccacgaggtgcacagg ccctctcacttcctcaactttgctctcctgcaggagggggaggtttactctgcggatcgg gaggacctgtatgcctga >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_7|264_aa MAPTGLLVAGASFLAFRGLHWGLRRLPTPESAARDRWQWWNLCVSLAHSLLSGTGALLGL SLYPQMAADPIHGHPRWALVLVAVSVGYFLADGADLLWNQTLGKTWDLLCHHLVVVSCLS TAVLSGHYVGFSMVSLLLELNSACLHLRKLLLLSRQAPSLAFSVTSWASLATLALFRLVP LGWMSLWLFRQHHQVPLALVTLGGIGLVTVGIMSIILGIRILVNDVLQSRPHPPSPGHEK TRGTRTRRDNGPVTSNSSTLSLKD >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_7|795_bp atggcgcccacggggctcctggtggccggcgcctccttcctcgcgttccgggggctgcac tgggggttgcggcggctgcccacgccggaatcggccgctcgggaccgctggcagtggtgg aacctctgcgtctccctggcgcacagcctgctctcggggaccggggcgctgctcggcctg tcactgtaccctcagatggccgccgaccccatccatggccacccgcgctgggctctggtg ctggtggctgtgtctgtgggttacttcctggcagacggagctgacctgctgtggaaccag accttgggcaagacctgggatcttctctgtcatcatttggtggtggtgagctgcctcagc accgctgttctgtctggccactacgtgggcttctccatggtgtctctgctcctggaactg aactctgcctgcttgcacctgcggaagctgctgttgctttctcgccaggccccatccctg gccttcagcgtgaccagctgggcctccttggccaccttggccctcttccgcctggtcccg ctggggtggatgagtctgtggctgttccggcagcaccaccaggttcctcttgctctggtc accctgggtggaattgggctggtcactgtgggcatcatgagcatcatattggggatccgt attctggtcaatgatgtcctacagtctcgaccccatccacccagccctggccatgagaaa accagggggaccaggacacgtcgtgacaatggacctgtcaccagcaacagttcgactctc agcctgaaagactag >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_8|2993_aa MAQGSGGREGALRTPAGGWHSPPSPDMQELLRSVERDLSIDPRQLAPAPGGTHVVALVPA RWLASLRDRRLPLGPCPRAEGLGEAEVRTLLQRSVQRLPAGWTRVEVHGLRKRRLSYPLG GGLPFEDGSCGPETLTRFMQEVAAQNYRNLWRHAYHTYGQPYSHSPAPSAVPALDSVRQA LQRVYGCSFLPVGETTQCPSYAREGPCPPRGSPACPSLLRAEALLESPEMLYVVHPYVQF SLHDVVTFSPAKLTNSQAKVLFILFRVLRAMDACHRQGLACGALSLYHIAVDEKLCSELR LDLSAYERPEEDENEEAPVARDEAGIVSQEEQGGQPGQPTGQEELRSLVLDWVHGRISNF HYLMQLNRLAGRRQGDPNYHPVLPWVVDFTTPHGRFRDLRKSKFRLNKGDKQLDFTYEMT RQAFVAGGAGGGEPPHVPHHISDVLSDITYYVYKARRTPRSVLCGHVRAQWEPHEYPASM ERMQNWTPDECIPEFYTDPSIFRSIHPDMPDLDVPAWCSSSQEFVAAHRALLESREVSRD LHHWIDLTFGYKLQGKEAVKEKNVCLHLVDAHTHLASYGVVQLFDQPHPQRLAGAPALAP EPPLIPKLLVQTIQETTGREDFTENPGQLPNGVGRPVLEATPCEASWTRDRPVAGEDDLE QATEALDSISLAGKAGDQLGSSSQASPGLLSFSVASASRPGRRNKAAGADPGEGEEGRIL LPEGFNPMQALEELEKTGNFLAKGLGGLLEVPEQPRVQPAVPLQCLLHRDMQALGVLLAE MVFATRVRTLQPDAPLWVRFQAVRGLCTRHPKEVPVSLQPVLDTLLQMSGPEVPMGAERG KLDQLFEYRPVSQGLPPPCPSQLLSPFSSVVPFPPYFPALHRFILLYQARRVEDEAQGRE LVFALWQQLGAVLKDITPEGLEILLPFVLSLMSEEHTAVYTAWYLFEPVAKALGPKNANK YLLKPLIGAYESPCQLHGRFYLYTDCFVAQLMVRLGLQAFLTHLLPHVLQVLAGAEASQE ESKDLAGAAEEEESGLPGAGPGSCAFGEEIPMDGEPPASSGLGLPDYTSGVSFHDQADLP ETEDFQAGLYVTESPQPQEAEAVSLGRLSDKSSTSETSLGEERAPDEGGAPVDKSSLRSG DSSQDLKQSEGSEEEEEEEDSCVVLEEEEGEQEEVTGASELTLSDTVLSMETVVAGGSGG DGEEEEEALPEQSEGKEQKILLDTACKMVRWLSAKLGPTVASRHVARNLLRLLTSCYVGP TRQQFTVSSGESPPLSAGNIYQKRPVLGDIVSGPVLSCLLHIARLYGEPVLTYQYLPYIS YLVAPGSASGPSRLNSRKEAGLLAAVTLTQKIIVYLSDTTLMDILPRISHEVLLPVLSFL TSLVTGFPSGAQARTILCVKTISLIALICLRIGQEMVQQHLSEPVATFFQVFSQLHELRQ QDLKLDPAGRGEGQLPQVVFSDGQQRPVDPALLDELQKVFTLEMAYTIYVPFSCLLGDII RKIIPNHELVGELAALYLESISPSSRNPASVEPTMPGTGPEWDPHGGGCPQDDGHSGTFG SVLVGNRIQIPNDSRPENPGPLGPISGVGGGGLGSGSDDNALKQELPRSVHGLSGNWLAY WQYEIGVSQQDAHFHFHQIRLQSFPGHSGAVKCVAPLSSEDFFLSGSKDRTVRLWPLYNY GDGTSETAPRLVYTQHRKSVFFVGQLEAPQHVVSCDGAVHVWDPFTGKTLRTVEPLDSRV PLTAVAVMPAPHTSITMASSDSTLRFVDCRKPGLQHEFRLGGGLNPGLVRALAISPSGRS VVAGFSSGFMVLLDTRTGLVLRGWPAHEGDILQIKAVEGSVLVSSSSDHSLTVWKELEQK PTHHYKSASDPIHTFDLYGSEVVTGTVSNKIGVCSLLEPPSQATTKLSSENFRGTLTSLA LLPTKRHLLLGSDNGLRGQPLGPEPLLGLHDPERRGWGKSRPSSFQDSEGGKGPDGGSEE QDSEGRRRPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEA QDSEGGKEPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEE PDSEGGRRPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEEQDSEGGKEPDAGSEE PDSEGGKEPDAGSEEQDRSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEP DAGSEEQDSEGGKWPDAGSEAQDSEGGRRPDAGSEAQDSEGGKEPDAGSEAQDSEGGKGP DAGSEAQDSEGGKEPDAGSEEPDSEGGKEPDAGSEEQDSEGGRWPDAGSEEPDSEGGKEP DAGSEAQDSEGGRRPDAGSEAQDSEGGKEPDAGSEEQDSEGGRRPDAGSEAQDSEGGKEP DAGSEAQDSEGGKEPDAGSEAQDSEGGKWPDAGSEAQDSEGGKEPDAGSEEPDSEGGKEP DAGSEAQDSEGGKGPDAGSEAQDSEGGKEPDAGSEEQDSEGGRRPDAGSEEPDSEGGKEP DAGSEEPDSEGGKEPDAGSEAQDSEGGRRPDAGSEAQDSEGGKEPDAGSEEQDSQGGRRP DAGSEAQDSEGGKEPDAGSEAQDSEGGKEPDAGSEAQDSEGGKWPDAGSEAQDSEGGKWP DAGSEAQDSEGGKGPDAGSEAQDSEGGKGPDAGSEEPDSEGGKEPDAGSEAQDSEGGKGP DAGSEAQDSEGGKGPDAGSEEPDTEGGKEPDAGSEAQDSEGGKGPDAGSEAQDSEGGKGP DAGSEEPDSEGGKEPDAGSEAQDSEGGKGPDAGSEAQDSEGGKEPDAGSEAQDSEGGKEP DAGSEEQDSEGGKEPDAGSEEPDSEGGKEPDAGSEELDSEDGKEPDAGSEEQDSEGGKWP DAGSEAQDSEGGKEPDAGSEEQDSEGGRRPDAGSEEPDSEGGRRPDAGSEEQDSEGGKWP DAGSEAQDSEGGKEPDAGSEEPDSEGGKEPDAGSEEPDSEGGKEPDAGSEEQV >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_8|8982_bp atggcccagggcagcggggggcgggaaggcgctctcagaaccccggccgggggctggcat tccccgccaagcccagacatgcaggagctgctccggagcgtggagagggacctgagcatc gatcccaggcagctggctccggccccggggggcacccacgtggtggccctagtgcctgcg cgctggctggccagcctccgcgatcgccggctgcccctgggaccctgtccccgcgcagag ggcctgggagaagcggaagtcaggactctcctgcagcgctctgtgcaaaggctgcctgcc ggctggacgcgcgtggaggtgcatgggctgcggaagcggagactgtcctaccctctgggc gggggcctgccctttgaggacgggtcctgcggccctgagaccctcactcgcttcatgcag gaggttgccgcccagaattatcgcaacctgtggcgccatgcataccacacttacggccag ccgtacagtcacagccctgccccctcagctgtccctgccttggactcagtacggcaggct ctgcagagggtctatggttgctccttcctgccagtgggtgaaactacccaatgcccttca tatgccagagaaggcccctgcccccctcggggcagccctgcttgccctagtcttttacgg gctgaggccttgctggagtcgccggagatgctgtatgtggtacacccttacgtacagttc tccctacatgacgtggtcaccttcagccctgccaagctgaccaacagccaggccaaggtg ctgttcattctcttccgcgtgctgagggctatggacgcctgtcaccgccaggggctggcg tgtggggccctgtctttgtatcacatcgcagtggatgagaagctttgcagcgagctgcga ctggacctgagtgcttatgagaggcccgaggaggacgagaatgaggaggcccctgtggca agggatgaggcgggcattgtgtctcaagaggagcagggagggcaacctgggcaacccact ggccaggaggaacttcggagcctcgtgctagattgggtccacggccgcatcagcaacttc cactacctcatgcagctgaatcggttggcaggtcggcggcagggggaccccaactaccac cccgtgctgccctgggtggtggacttcactacgccccatgggcgcttccgagacctgcgc aagtccaagttccgcctcaacaagggggataagcaactggacttcacgtatgagatgaca cggcaggcattcgtagcaggcggggcgggcggcggggaaccccctcatgttccccaccac atctcagacgtgctctccgacatcacgtactatgtgtacaaggctcggcgcacgcctcgg tcggtgctctgcggacacgtccgcgcgcagtgggagccccatgagtatccggccagcatg gagcggatgcagaactggaccccggatgagtgcattccggagttctacaccgatccctct atcttccgctccatccaccccgacatgcctgacctggatgtgccagcctggtgcagctcc agccaggagttcgtagctgcccaccgagccctgctggagagccgcgaggtatcccgggac ctgcaccattggatcgacctcacgtttggctataaactccagggtaaggaggctgtcaag gaaaagaatgtgtgtctgcacctggtggacgcccacactcacctggccagctacggggtg gtgcagctcttcgatcagccacacccccagcgcctggctggggctcctgcccttgccccc gagcctcccctcatccccaagctgttggtccagaccatccaggagaccacaggccgggag gacttcacggaaaacccgggacagcttccaaatggagtgggccggccagttttagaggcc actccctgtgaggctagctggaccagagacaggccggtggcaggagaagacgacttggaa caggccacagaagctctggattccatttcccttgctgggaaagcaggtgaccagctgggc tcctccagtcaagcgtcccctggacttctctctttctcagtggcctcagcctcccgtcca ggccgcaggaataaagctgctggggcagaccctggggagggtgaggaggggaggattctt cttcccgagggcttcaatcccatgcaggccctggaggagctggagaaaacgggcaacttc ttggccaaaggcctagggggcctgttggaggtgcctgagcagccccgggtccagccggct gtgccactgcagtgcctactccacagggacatgcaggcgctgggtgtcctattggcagag atggtgtttgccaccagggtgcggacgctgcagcccgatgcacctttgtgggtacgcttc caggctgtccgagggctctgcacgcgccaccccaaggaggtccctgtgtctttgcagccc gtgctggacacactcctgcagatgagtggccccgaagtccccatgggagcagagaggggc aagctggaccaactgtttgagtacaggcctgtctcccagggcctgcccccaccctgccca agccagcttctcagccccttcagctccgtggttcccttcccaccctacttcccggcactg cacagattcatcctcctgtaccaggcaaggcgtgtggaggacgaggcccaggggcgcgag ctggtgtttgctctgtggcagcagctgggcgcggtgctgaaggacatcacccctgagggc ctggagatcctgctgcccttcgtgctctcactcatgtccgaggagcacacagctgtgtac acggcctggtatctgtttgagcctgttgccaaggcactgggccccaaaaatgccaataag tacctcctgaagccgctcattggtgcctacgagagcccctgccagctacacggccgcttc tacctgtacacggactgctttgtggcccagctgatggtgcggctgggcctgcaggcattt ctcactcacctgctgccccatgtcctgcaggtgctggcgggcgcagaggcctcccaggag gagagcaaggacctggcaggggctgctgaggaggaggagagcgggctgcccggggccggg cctggctcctgtgcttttggggaggagattcccatggatggggagcctcctgcctcctcg ggcctggggctcccagactacacgtctggcgtcagcttccacgaccaggctgacctccct gagacagaggacttccaagccgggctctatgtgactgagtctccccagccccaggaggct gaggctgtgagcctgggccggctgagtgacaagagcagcaccagcgagacctccctgggt gaggagcgggctccagacgaggggggtgcccccgtggacaagagcagccttcgatcaggt gacagcagccaggacttgaagcaaagcgagggctccgaggaggaagaggaggaggaggac agctgcgtggtgctagaggaggaggagggggagcaggaggaggtcaccggggcatctgag ctcactctgtctgacacggtgctgtccatggagacggttgtggccggcggcagtggggga gatggagaagaagaggaggaggcactgcctgagcagtcagaaggcaaagaacagaagatc ctccttgatacagcctgcaagatggtccgctggctgtctgccaagctcggccccacagtg gcctctcgccacgtggcccggaacctgctccgcctgctgacgtcttgttatgttggaccc actcggcagcagttcacagtgagcagtggcgagagcccaccgctgagcgccggcaacatc taccagaagaggccggtcctgggcgacatcgtgtcagggcctgtgctcagctgcctcctc cacatcgcccgcctgtatggggagcctgtcctcacctaccagtacctgccctacatcagc tacctggtggccccagggagtgcctcaggccccagccgactgaacagccgtaaggaggcg gggctgctggccgcggtgacgctgactcagaagatcatcgtgtacctctcagacaccaca ctcatggacatcctgccccggatcagccatgaggtcctgctgcccgtgctcagcttcctc acctccctcgtcacggggttcccaagtggggcccaggctcggaccatcctgtgtgtgaaa accatcagcctcatcgccctcatctgcctgcgcattggacaggagatggtccagcagcac ctgagcgagcccgtggccacctttttccaggtcttctctcagctgcatgagcttcggcaa caggatctgaagctggaccctgcgggccgtggtgagggccagctgccacaggtggtcttc tctgatgggcagcagcggcccgtggaccccgccctgctggacgagctgcagaaggtgttc accctggagatggcatacacaatctacgtgcccttctcctgcctgttgggtgacatcatc cggaaaatcatccccaaccacgagctggttggggagctggcggcgctgtacttggagagc atcagccccagcagtcgcaaccctgccagcgtggagcccaccatgcccggcaccgggccc gagtgggacccccatggtgggggctgccctcaggatgacggccactcagggacctttggg agcgtcctggtggggaaccgcattcagatccccaatgactctcggcctgagaaccccgga ccactgggccccatctcgggggtgggtggcgggggcctgggcagcgggagcgacgacaac gccctgaagcaggagctgccgcggagcgtgcacgggctgagcggaaactggctggcgtac tggcagtacgagatcggcgtgagccagcaggatgcccactttcacttccaccagatccgc ctgcagagcttcccgggccactcgggggccgtcaagtgcgtggcacccctaagcagcgag gacttcttcctgagcggcagcaaggatcgtaccgtgcgcctctggccgctgtacaactac ggcgacgggaccagcgagacggccccacgcctcgtctacacccagcaccgcaagagcgtc ttcttcgtgggccagcttgaggccccgcagcacgtggtgagctgtgacggggctgtgcac gtctgggaccccttcacagggaagacccttcgcacagtggagccgctggacagccgggtg cccctgactgcggtggctgtcatgcccgccccccacaccagcatcaccatggccagctct gactctaccctgcgctttgtggactgcaggaagcctggtctgcagcacgagttccgactg ggcggtgggctgaaccctgggcttgtccgtgccctggccatcagccccagtggccgtagt gtcgtggccggcttctcctcaggcttcatggtgctcctggacacccgcacaggcctggtt ctgcgaggctggccagcccacgagggggacattctgcagatcaaggcggtggagggcagc gtcctggtcagctcctcctctgaccattccttgaccgtctggaaggagctggagcagaag cccacccatcactacaagtcagcatccgaccccatccacacctttgacctgtacggcagc gaggtggtcactggcaccgtgtccaacaagattggcgtctgctccctgcttgagccaccc tcgcaggccaccacgaagctcagctctgagaacttccgcggcacgctcaccagcctggcc ttgctgcccactaaacgccacctcctgctgggctcagacaacgggctgagggggcagcct ctgggccctgaacccctgctggggctccacgaccctgagagaagggggtggggaaagtcg agacccagcagtttccaggacagtgagggtgggaaggggcctgatggagggagtgaggag caggacagtgagggtaggaggcggcctgatgcagggagtgaggcgcaggacagtgagggt gggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgat gcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggcg caggacagtgagggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgagggt gggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgat gcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggag ccggacagtgagggtgggaggcggcctgatgcagggagtgaggcgcaggacagtgagggt gggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgat gcagggagtgaggagcaggacagtgagggtgggaaggagcctgatgcagggagtgaggag ccggacagtgagggtgggaaggagcctgatgcagggagtgaggagcaggacaggagtgag gcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgag ggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcct gatgcagggagtgaggagcaggacagtgagggtgggaagtggcctgatgcagggagtgag gcgcaggacagtgagggtgggaggcggcctgatgcagggagtgaggcgcaggacagtgag ggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggggcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgag gagccggacagtgagggtgggaaggagcctgatgcagggagtgaggagcaggacagtgag ggtgggaggtggcctgatgcagggagtgaggagccggacagtgagggtgggaaggagcct gatgcagggagtgaggcgcaggacagtgagggtgggaggcggcctgatgcagggagtgag gcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggagcaggacagtgag ggtgggaggcggcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgag gcacaggacagtgagggtgggaagtggcctgatgcagggagtgaggcgcaggacagtgag ggtgggaaggagcctgatgcagggagtgaggagccggacagtgagggtgggaaggagcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggggcctgatgcagggagtgag gcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggagcaggacagtgag ggtgggaggcggcctgatgcagggagtgaggagccggacagtgagggtgggaaggagcct gatgcagggagtgaggagccggacagtgagggtgggaaggagcctgatgcagggagtgag gcgcaggacagtgagggtgggaggcggcctgatgcagggagtgaggcgcaggacagtgag ggtgggaaggagcctgatgcagggagtgaggagcaggacagtcagggtgggaggcggcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgag gcgcaggacagtgagggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgag ggtgggaagtggcctgatgcagggagtgaggcgcaggacagtgagggtgggaagtggcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggggcctgatgcagggagtgag gcgcaggacagtgagggtgggaaggggcctgatgcagggagtgaggagccggacagtgag ggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggggcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggggcctgatgcagggagtgag gagccggacactgagggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgag ggtgggaaggggcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggggcct gatgcagggagtgaggagccggacagtgagggtgggaaggagcctgatgcagggagtgag gcgcaggacagtgaaggtgggaaggggcctgatgcagggagtgaggcgcaagacagtgag ggtgggaaggagcctgatgcagggagtgaggcgcaggacagtgagggtgggaaggagcct gatgcagggagtgaggagcaggacagtgaaggtgggaaggagcctgatgcagggagtgag gagccggacagtgagggtgggaaggagcctgatgcagggagtgaggagctggacagtgag gatgggaaggagcctgatgcagggagtgaggagcaggacagtgagggtgggaagtggcct gatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgag gagcaggacagtgagggtgggaggcggcctgatgcagggagtgaggagccggacagtgag ggtgggaggcggcctgatgcagggagtgaggagcaggacagtgagggtgggaagtggccc gatgcagggagtgaggcgcaggacagtgagggtgggaaggagcctgatgcagggagtgag gagccggacagtgagggtgggaaggagcctgatgcagggagtgaggagccggacagtgag ggtgggaaggagcctgatgcagggagtgaggagcaggtgtga >gi568815581r:1546445_1749804|GENSCAN_predicted_peptide_9|286_aa MALLWGLLVLSWSCLQGPCSVFSPVSAMEPLGRQLTSGPNQEQVSPLTLLKLGNQEPGGQ TALKSPPGVCSRDPTPEQTHRLARAMMAFTADLFSLVAQTSTCPNLILSPLSVALALSHL ALGAQNHTLQRLQQVLHAGSGPCLPHLLSRLCQDLGPGAFRLAARMYLQKGFPIKEDFLE QSEQLFGAKPVSLTGKQEDDLANINQWVKEATEGKIQEFLSGLPEDTVLLLLNAIHFQGF WRNKFDPSLTQRDSFHLDEQFTVPVEMMQARTYPLRWFLLEQPEIQ >gi568815581r:1546445_1749804|GENSCAN_predicted_CDS_9|858_bp atggcgctgctctgggggctcctggtgctcagctggtcctgcctgcaaggcccctgctcc gtgttctcccctgtgagcgccatggagcccttgggccggcagctaactagcgggccgaac caggagcaggtgtccccacttaccctcctcaagttgggcaaccaggagcctggtggccag actgccctgaagagtcccccaggagtctgcagcagagaccccaccccagagcagacccac aggctggcccgggccatgatggccttcactgccgacctgttctccctggtggctcaaacg tccacctgccccaacctcatcctgtcacccctgagtgtggccctggcgctgtctcacctg gcactaggtgctcagaaccacacgttgcagaggctgcaacaggtgctgcacgcaggctca gggccctgcctcccccatctgctgagccgcctctgccaggacctgggccccggcgcgttc cgactggctgccaggatgtacctgcagaaaggatttcccatcaaagaagatttcctggaa caatccgaacagctatttggggcaaagcccgtgagcctgacgggaaagcaggaagatgac ctggcaaacatcaaccaatgggtgaaggaggccacggaggggaagattcaggaattcctc tctgggctgccggaagacaccgtgttgcttctcctcaacgccatccacttccagggtttc tggaggaacaagtttgacccgagccttacccagagagactccttccacctggacgagcag ttcacggtgcccgtggaaatgatgcaggcccgcacgtacccgctgcgctggttcttgctg gagcagcctgagatccag