Result of GENSCAN for
pF1KE2094
GENSCAN 1.0 Date run: 6-Nov-116 Time: 09:09:57 Sequence gi568815597f:156760935_156981639 : 220705 bp : 51.07% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 6838 7305 468 0 0 98 76 164 0.146 11.83 1.02 Intr + 21348 21395 48 2 0 74 115 34 0.431 4.06 1.03 Intr + 25674 26240 567 2 0 38 94 453 0.733 34.48 1.04 Intr + 30133 30228 96 0 0 127 78 37 0.974 7.31 1.05 Intr + 30763 30858 96 0 0 95 92 124 0.967 14.21 1.06 Intr + 33731 33874 144 1 0 116 106 181 0.999 23.69 1.07 Intr + 36342 36407 66 2 0 117 94 45 0.992 7.59 1.08 Term + 39440 39526 87 1 0 124 49 140 0.999 11.66 1.09 PlyA + 39859 39864 6 1.05 2.33 PlyA - 41441 41436 6 1.05 2.32 Term - 41882 41607 276 2 0 79 32 208 0.853 10.10 2.31 Intr - 48556 48269 288 1 0 93 99 193 0.601 18.88 2.30 Intr - 48873 48727 147 0 0 70 57 71 0.723 3.14 2.29 Intr - 53082 52914 169 2 1 39 101 310 0.964 27.86 2.28 Intr - 53360 53271 90 1 0 99 94 88 0.999 10.11 2.27 Intr - 54287 54103 185 2 2 74 105 124 0.688 11.80 2.26 Intr - 55160 55072 89 0 2 82 101 126 0.988 13.49 2.25 Intr - 62879 62696 184 2 1 36 47 138 0.024 4.38 2.24 Intr - 77098 76929 170 2 2 81 17 84 0.028 0.78 2.23 Intr - 77891 77751 141 0 0 89 23 88 0.488 3.23 2.22 Intr - 80170 79953 218 0 2 83 -6 165 0.610 5.27 2.21 Intr - 80594 80460 135 1 0 52 68 190 0.999 13.59 2.20 Intr - 80860 80731 130 2 1 82 44 211 0.999 16.36 2.19 Intr - 81337 81178 160 1 1 63 44 209 0.573 14.07 2.18 Intr - 81574 81464 111 1 0 89 75 82 0.955 8.08 2.17 Intr - 82299 82070 230 1 2 93 79 190 0.999 16.72 2.16 Intr - 82545 82355 191 2 2 111 60 70 0.819 6.25 2.15 Intr - 83346 83241 106 1 1 64 49 140 0.999 7.47 2.14 Intr - 83714 83528 187 2 1 70 74 98 0.939 6.38 2.13 Intr - 83909 83773 137 0 2 79 92 179 0.996 18.20 2.12 Intr - 84362 84142 221 1 2 77 48 383 0.999 31.67 2.11 Intr - 84479 84438 42 1 0 69 105 39 0.740 1.54 2.10 Intr - 84880 84685 196 2 1 45 9 258 0.994 12.59 2.09 Intr - 85185 85018 168 1 0 91 62 346 0.999 32.73 2.08 Intr - 85823 85585 239 1 2 23 96 297 0.903 21.79 2.07 Intr - 88113 87987 127 1 1 45 72 336 0.993 27.94 2.06 Intr - 88526 88312 215 1 2 60 39 333 0.934 24.48 2.05 Intr - 90500 90356 145 0 1 96 82 153 0.950 15.35 2.04 Intr - 90854 90712 143 1 2 30 13 180 0.897 5.21 2.03 Intr - 91257 90954 304 1 1 93 109 226 0.797 21.39 2.02 Intr - 93369 92818 552 1 0 94 64 830 0.855 74.63 2.01 Init - 93804 93723 82 0 1 80 62 62 0.463 3.88 2.00 Prom - 94082 94043 40 -8.38 3.00 Prom + 97425 97464 40 -6.20 3.01 Init + 100001 100212 212 1 2 93 68 184 0.990 13.14 3.02 Intr + 103420 103494 75 1 0 138 48 95 0.790 9.62 3.03 Intr + 103794 103865 72 0 0 94 76 56 0.616 4.02 3.04 Intr + 107170 107315 146 1 2 111 66 88 0.984 9.34 3.05 Intr + 107571 107713 143 1 2 23 81 252 0.995 18.58 3.06 Intr + 110689 110821 133 0 1 79 76 157 0.999 14.32 3.07 Intr + 112699 113025 327 2 0 105 58 634 0.917 58.32 3.08 Intr + 113449 113466 18 2 0 124 92 15 0.855 2.56 3.09 Intr + 113637 113692 56 1 2 118 64 79 0.999 7.69 3.10 Intr + 113972 114074 103 1 1 94 84 143 0.962 14.75 3.11 Intr + 114469 114498 30 2 0 120 81 -10 0.507 0.09 3.12 Intr + 114586 114732 147 2 0 106 48 156 0.611 14.12 3.13 Intr + 115110 115276 167 1 2 4 100 240 0.451 16.99 3.14 Intr + 115466 115638 173 1 2 82 38 349 0.964 28.56 3.15 Intr + 118188 118428 241 0 1 122 58 351 0.970 33.58 3.16 Intr + 119065 119223 159 0 0 59 60 335 0.998 28.50 3.17 Term + 120523 120708 186 0 0 62 50 276 0.854 19.01 3.18 PlyA + 128596 128601 6 1.05 4.06 PlyA - 128609 128604 6 1.05 4.05 Term - 128860 128800 61 0 1 44 32 140 0.297 1.57 4.04 Intr - 134349 134202 148 1 1 107 81 49 0.426 5.90 4.03 Intr - 135628 135546 83 0 2 58 48 51 0.228 -2.12 4.02 Intr - 137291 137220 72 1 0 82 62 74 0.281 3.22 4.01 Init - 139606 139584 23 1 2 71 90 11 0.188 -1.22 4.00 Prom - 142131 142092 40 -7.99 5.00 Prom + 142295 142334 40 -3.21 5.01 Init + 142993 143093 101 0 2 35 100 202 0.973 13.79 5.02 Intr + 143814 143918 105 0 0 134 94 20 0.992 7.03 5.03 Intr + 144390 144490 101 0 2 89 75 139 0.994 12.95 5.04 Intr + 145342 145434 93 2 0 85 89 31 0.905 3.33 5.05 Intr + 145703 145946 244 0 1 127 91 115 0.454 12.79 5.06 Intr + 146676 146874 199 0 1 96 113 -22 0.522 0.98 5.07 Intr + 146981 147117 137 1 2 132 109 156 0.999 21.97 5.08 Intr + 147194 147406 213 2 0 -57 80 271 0.999 10.16 5.09 Intr + 147721 147895 175 1 1 91 89 74 0.998 8.26 5.10 Intr + 147982 148102 121 0 1 106 85 198 0.993 21.87 5.11 Intr + 148817 148980 164 0 2 57 117 36 0.900 3.61 5.12 Intr + 149072 149174 103 1 1 65 80 114 0.811 8.55 5.13 Intr + 149300 149446 147 0 0 129 48 106 0.999 11.42 5.14 Intr + 149684 149809 126 0 0 102 41 102 0.993 8.06 5.15 Intr + 151560 151688 129 1 0 106 97 -4 0.912 3.47 5.16 Intr + 151836 152048 213 1 0 58 99 308 0.989 28.11 5.17 Intr + 152260 152348 89 2 2 89 86 47 0.998 4.79 5.18 Intr + 152457 152589 133 2 1 118 61 109 0.951 11.92 5.19 Intr + 152758 152826 69 2 0 114 86 82 0.999 10.25 5.20 Intr + 152918 153166 249 0 0 120 89 252 0.999 26.44 5.21 Term + 153713 153864 152 0 2 104 55 137 0.989 10.38 5.22 PlyA + 155971 155976 6 -0.45 6.00 Prom + 156484 156523 40 -5.91 6.01 Init + 159870 160029 160 2 1 81 80 106 0.930 7.55 6.02 Intr + 163015 163164 150 2 0 118 95 224 0.996 26.75 6.03 Intr + 163490 163618 129 0 0 108 89 207 0.999 23.97 6.04 Intr + 163709 163784 76 0 1 118 52 30 0.970 1.47 6.05 Intr + 164004 164081 78 0 0 52 76 92 0.890 3.56 6.06 Intr + 164362 164416 55 1 1 94 99 -8 0.604 0.37 6.07 Intr + 166251 166336 86 2 2 92 57 63 0.499 2.72 6.08 Intr + 166562 166721 160 2 1 92 86 299 0.838 30.60 6.09 Intr + 166799 166882 84 1 0 95 90 172 0.999 18.61 6.10 Intr + 166981 167070 90 0 0 89 85 144 0.957 14.89 6.11 Intr + 168346 168495 150 0 0 27 69 141 0.949 6.97 6.12 Intr + 168702 168795 94 2 1 110 83 73 0.928 9.04 6.13 Intr + 169595 169683 89 0 2 61 107 83 0.999 7.69 6.14 Intr + 170982 171093 112 2 1 57 41 103 0.867 2.96 6.15 Intr + 171490 171611 122 2 2 44 68 153 0.987 9.62 6.16 Term + 171919 172035 117 0 0 104 41 74 0.967 3.14 6.17 PlyA + 173959 173964 6 1.05 7.40 PlyA - 174569 174564 6 -3.24 7.39 Term - 175124 175066 59 0 2 129 41 63 0.803 3.84 7.38 Intr - 176071 175882 190 1 1 51 101 64 0.803 3.68 7.37 Intr - 176562 176315 248 1 2 67 100 188 0.981 15.61 7.36 Intr - 178976 178614 363 0 0 76 93 272 0.893 22.22 7.35 Intr - 179491 179273 219 2 0 81 101 100 0.980 9.40 7.34 Intr - 180499 180438 62 0 2 102 94 86 0.931 9.47 7.33 Intr - 180731 180693 39 1 0 119 72 21 0.707 1.43 7.32 Intr - 181055 180930 126 1 0 13 61 114 0.575 1.50 7.31 Intr - 181846 181756 91 2 1 102 57 119 0.976 9.75 7.30 Intr - 183168 183001 168 1 0 45 82 342 0.996 29.73 7.29 Intr - 183499 183424 76 1 1 69 71 52 0.940 1.18 7.28 Intr - 184263 184085 179 1 2 79 97 302 0.999 30.36 7.27 Intr - 185228 185111 118 2 1 89 31 226 0.940 17.54 7.26 Intr - 185853 185728 126 0 0 94 96 108 0.999 13.58 7.25 Intr - 186081 186002 80 1 2 92 55 150 0.972 11.87 7.24 Intr - 186516 186370 147 1 0 28 70 227 0.902 15.62 7.23 Intr - 187022 186835 188 1 2 107 81 127 0.996 13.75 7.22 Intr - 187294 187247 48 0 0 66 111 21 0.583 0.48 7.21 Intr - 187564 187385 180 0 0 75 80 151 0.993 12.50 7.20 Intr - 190765 190639 127 2 1 77 69 183 0.997 15.54 7.19 Intr - 191090 190963 128 1 2 76 67 66 0.338 4.13 7.18 Intr - 194700 194508 193 1 1 37 57 62 0.254 -2.93 7.17 Intr - 194865 194769 97 0 1 53 73 86 0.457 3.68 7.16 Intr - 195630 195486 145 2 1 112 100 179 0.999 22.29 7.15 Intr - 196881 196858 24 2 0 129 99 31 0.984 5.92 7.14 Intr - 197930 197808 123 1 0 42 59 201 0.999 12.81 7.13 Intr - 198208 198112 97 2 1 89 52 183 0.999 14.37 7.12 Intr - 199526 199484 43 2 1 103 111 38 0.999 5.90 7.11 Intr - 200841 200743 99 0 0 104 91 64 0.998 9.11 7.10 Intr - 202370 202269 102 2 0 111 119 35 0.996 9.77 7.09 Intr - 202660 202586 75 1 0 95 82 78 0.994 8.11 7.08 Intr - 207190 207053 138 1 0 68 109 67 0.990 7.97 7.07 Intr - 208424 208348 77 0 2 81 105 -2 0.476 0.53 7.06 Intr - 209109 209064 46 0 1 109 115 18 0.964 5.07 7.05 Intr - 210882 210763 120 0 0 107 89 131 0.704 16.29 7.04 Intr - 216120 216049 72 0 0 93 110 23 0.968 5.10 7.03 Intr - 217448 217270 179 0 2 94 90 122 0.998 13.16 7.02 Intr - 218352 218295 58 0 1 105 82 80 0.759 8.05 7.01 Intr - 219552 219503 50 1 2 92 87 89 0.465 8.09 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 55774 55741 34 1 1 82 115 -2 0.909 1.91 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_1|523_aa MSLVAYASSDESEPDEAEPEPEEEEAVAPTSGPALGGLFASLPAPKGPALLPPPPQMLAP AFPPPLLLPPPTGDPRLQPPPPLPFGLGGFPPPPGVSPAEAAGVGEGLGLGLPSPRGPGL NLPPPIGGAGPPLGLPKPKKRKEPVKIAAPELHKGDSDSEEDEPTKKKTILQGSSEGTGL SALLPQPKNLTVKETNRLLLPHAFSRKPSDGSPDTKPSRLASKTKTSSLAPVVGTTTTTP SPSAIKAAAKSAALQVTKQITQEEDDSDEEVAPENFFSLPEKAEPPGVEPYPYPIPTVPE ELPPGTEPEPAFQDDAANAPLEFKMAAGSSGAPWMPKPGDDYSYNQFSTYGDANAAGAYY QGLQQHLGHSPLRGIMRFLNSKSGKRTCFVPSFDYYSGGYYPAQDPALVPPQEIAPDASF IDDEAFKRLQGKRNRGREEINFVEIKGDDQLSGAQQWMTKSLTEEKTMKSFSKKKGEQPT GQQRRKHQITYLIHQAKERELELKNTWSENKLSRRQTQAKYGF >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_1|1572_bp atgtcgctggttgcttacgccagcagcgatgagagcgagccggatgaggctgagcccgag ccggaggaagaggaggcggtggctcctacatctgggcccgctttagggggcttgttcgct tctctccctgcgcccaagggtccggccttgctgcctccgccccctcagatgctggcgcca gcctttcccccgccgctgttgcttcccccacccaccggagaccccaggcttcagcctcct ccccccttgcccttcggcctgggaggcttccccccacctccaggcgtgagcccggctgaa gcggcgggagttggggagggactgggattggggttgccctcgccccgaggccctggcctc aatctgccccctccaattggcggtgccggtcccccgctggggcttcccaagccaaagaag aggaaagagcccgtgaagatcgcggcgccggagttgcataagggagattcagattctgag gaagatgaacccacaaagaagaaaactatccttcagggatccagtgaggggactggtttg tctgccttgcttccccaacctaaaaacctgactgtgaaagagactaacaggttgctcctg ccccatgccttctcccgcaaaccctcggatggctcccctgatactaagccctccagactg gcttctaagaccaagacttcctctcttgcccctgttgtgggcaccacaaccaccactccg tcgccctctgctatcaaggctgctgccaagagtgctgccctgcaggtgacaaagcagatc acgcaggaagaagacgacagtgatgaggaagtagcccccgaaaactttttctccctccct gaaaaggctgagccacctggagttgagccatacccttaccccatccccactgtccctgaa gagctgcctccaggcacggaaccagagccggctttccaggacgatgcagccaatgccccc cttgaattcaagatggcagcaggttcaagtggggccccttggatgcctaagcctggggac gactacagctacaatcagttttccacatatggcgatgccaatgccgctggtgcttattat cagggtctgcagcaacatctgggccactcgcctctaaggggaatcatgagattcctgaac tcaaaatctggtaaacgaacctgctttgttcccagctttgattattacagtggtggctac tatcctgcacaggacccggccctggtccccccccaggaaattgccccagatgcctccttc atcgatgacgaagcatttaagcggctgcagggcaagaggaaccgagggagagaagaaatc aactttgtggagatcaaaggtgatgaccagctcagtggggcccagcaatggatgactaag tcattgacagaagagaaaaccatgaagtcattcagcaaaaagaaaggtgagcagccaaca ggccagcagcggcggaaacaccagatcacatatcttattcatcaggccaaggagcgggag ctggaactgaagaacacctggtcagagaacaagctcagccgccgtcagacccaagccaaa tatggattctag >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_2|1925_aa MMVEAVKVLTSSSDPGHILKINPQDVQVCPSLDIRSEVAELRQLENCSVVEGHLQILLMF TATGEDFRGLSFPRLTQVTDYLLLFRVYGLESLRDLFPNLAVIRGTRLFLGYALVIFEMP HLRDVALPALGAVLRGAVRVEKNQELCHLSTIDWGLLQPAPGANHIVGNKLGEECADVCP GVLGAAGEPCAKTTFSGHTDYRCWTSSHCQRVCPCPHGMACTARGECCHTECLGGCSQPE DPRACVACRHLYFQGACLWACPPGTYQYESWRCVTAERCASLHSVPGRASTFGIHQGSCL AQCPSGFTRNSSSIFCHKCEGLCPKECKVGTKTIDSIQAAQDLVGCTHVEGSLILNLRQG YNLEPQLQHSLGLVETITGFLKIKHSFALVSLGFFKNLKLIRGDAMVDGNYTLYVLDNQN LQQLGSWVAAGLTIPVGKIYFAFNPRLCLEHIYRLEEVTGTRGRQNKAEINPRTNGDRAA CQTRTLRFVSNVTEADRILLRWERYEPLEARDLLSFIVYYKESPFQNATEHVGPDACGTQ SWNLLDVELPLSRTQEPGVTLASLKPWTQYAVFVRAITLTTEEDSPHQGAQSPIVYLRTL PAAPTVPQDVISTSNSSSHLLVRWKPPTQRNGNLTYYLVLWQRLAEDGDLYLNDYCHRGL RLPTSNNDPRFDGEDGDPEAEMESDCCPCQHPPPGQVLPPLEAQEASFQKKFENFLHNAI TIPISPWKVTSINKSPQRDSGRHRRAAGPLRLGGNSSDFEIQEDKVPRERAVLSGLRHFT EYRIDIHACNHAAHTVGCSAATFVFARTMPHREADGIPGKVAWEASSKNSVLLRWLEPPD PNGLILKYEIKYRRLGEPAVLRYSQEATVLCVSRLRYAKFGGVHLALLPPGNYSARVRAT SLAGNGSWTDSVAFYILGPEEEDAGGLHVLLTATPVGLTLLIVLAALGFFYGKKRNRTLY ASVNPEYFSASDSRSGSGWTGGVGKGDRRGAETDFQKTFLQKIALGQEPFRRGEEKLGVY VPDEWEVPREQISIIRELGQGSFGMVYEGLARGLEAGEESTPVALKTVNELASPRECIEF LKEASVMKAFKCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSHLRSLRPEAENNPGLPQP ALGEMIQMAGEIADGMAYLAANKFVHRDLAARNCMVSQDFTVKIGDFGMTRDVYETDYYR KGGKGLLPVRWMAPESLKDGIFTTHSDVWSFGVVLWEIVTLAEQPYQGLSNEQVLKFVMD GGVLEELEGCPLQLQELMSRCWQPNPRLRPSFTHILDSIQEELRPSFRLLSFYYSPECRG ARGSLPTTDAEPDSSPTPRDCSPQNGVPIVWMWKSLRKGLEVEEKRASEICHRGCTCKDG QVVSGPEVLLGEECSGYGAESGSWLSPSRKKNGVQGHESSASDTCSYQRVLSRPIIPSSK SQGAWMEEYQCWHNGLINIVDLVAFHGLKIMDTFSLRCRATAKRQTCLQHIDTEPYTWYY SLAGRENIQPYGSHEAPIPTFSTFQITDMTRRSCQNLGYTAASPQAPEAASNTGNAERAE EVPGEGSLFLQAETRAWFQKTQAHWLLQHGAAPAWFHGFITRREAERLLEPKPQGCYLVR FSESAVTFVLTYRSRTCCRHFLLAQLRDGRHVVLGEDSAHARLQDLLLHYTAHPLSPYGE TLTEPLARQTPEPAGLSLRTEESNFGSKSQDPNPQYSPIIKQGQAPVPMQKEGAGEKEPS QLLRPKPPIPAKPQLPPEVYTIPVPRHRPAPRPKPSNPIYNEPDEPIAFYAMGRGSPGEA PSNIYVEVEDEGLPATLGHPVLRKSWSRPVPGGQAPLNFNHSSIHWSFLDSELSTPARVE MWLGPSEGASSVAEALKHPHYDNRIISVRVLSLILVDLSFFSSTVLVNVTLHIQLCPGPT NIFQG >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_2|5778_bp atgatggtggaagctgtgaaggtgttgacaagcagttcagatcctggacatattttaaag ataaacccacaggacgtacaagtgtgccccagcctggatattcgctcagaggtggcagag cttcgtcagctggagaactgcagcgtggtggagggccacctgcagatcctgctcatgttc acagccaccggggaggacttccgcggcctcagcttccctcgcctcacccaggtcaccgac tacctgctgctcttccgtgtctacggactggagagcctgcgcgacctcttccccaaccta gcagtcatccgcgggacgcgcctcttcctgggctatgcactggtcatctttgagatgcca catctgcgtgacgtggcactgcctgcacttggggccgtgctgcgtggggctgtgcgtgtg gagaagaaccaggagctctgccacctctccaccattgactggggactgctgcagccagca cctggcgccaaccacatcgtgggcaacaagctgggcgaggagtgtgctgacgtgtgccct ggtgtgctgggtgctgctggtgagccctgtgccaagaccaccttcagcgggcacactgac tacagatgctggacctccagccactgccagagagtgtgcccctgcccccatgggatggct tgcacagcgaggggcgagtgctgccacaccgaatgcctggggggctgcagccagccagaa gaccctcgtgcctgtgtagcttgccgccacctctacttccagggtgcctgcctgtgggcc tgcccgccaggcacctaccagtatgagtcctggcgctgtgtcacagctgagcgctgtgcc agcctgcactctgtgcccggccgtgcctccaccttcggcatacaccagggcagttgcctg gcccagtgcccttctggcttcacccgtaatagcagcagcatattctgccacaagtgcgag gggctgtgccctaaagagtgcaaggtaggcaccaagaccatcgactccatccaggcggca caggatcttgtgggctgcacgcatgtggagggaagcctcatcctcaaccttcgccagggc tacaacctggagccacagctgcagcacagcctggggctggtagaaaccattactggcttc ctcaaaatcaagcactcctttgccctcgtgtccctgggctttttcaagaacctcaaacta atccggggagacgccatggtggatgggaactacactctctacgtgctggacaaccagaac ctacaacagctagggtcctgggtggccgcggggctcaccattcccgtgggcaagatctac ttcgccttcaacccgcgcctctgcttggaacacatctaccgactggaggaggtgacaggc acgcgaggtcggcagaacaaggctgagatcaacccccgcaccaacggagaccgcgccgcc tgccagactcgcaccctgcgcttcgtgtccaacgtgacggaggcagaccgcatcctgcta cgctgggagcgctatgagccactggaggcccgcgacctgctcagcttcatcgtgtactac aaggagtccccattccagaacgccacagagcacgtgggtccagatgcttgtggaacccag agctggaacctgctggatgtggagctgcccctaagccgcacccaggagccaggggtgacc ctagcctccctcaagccttggacacagtacgcagtgtttgtgcgggccatcacgctaacc actgaggaggacagccctcatcaaggagcccagagtcccatcgtctacctccgaacgctg cctgcagctcccacggtgccccaagacgtcatctccacgtccaactcctcctcccacctc ctggtgcgctggaagccaccgacccagcgcaatgggaacctcacctactacctggtgctg tggcagcggctggcagaggacggcgacctctacctcaatgactactgccaccgcggcttg cggctgcccaccagcaacaacgatccgcgcttcgacggcgaagacggggatcctgaggcc gagatggagtccgactgctgcccttgccagcacccacctcctggtcaggttctgcccccg ctggaggcgcaagaggcctcgttccagaagaagtttgaaaactttctacacaacgcgatc accatccccatatccccttggaaggtgacgtccatcaacaagagcccccaaagggactca gggcggcaccgccgggcagctgggcccctccggctggggggcaacagctcggatttcgag atccaggaggacaaggtgccccgtgagcgagcggtgctgagcggcctgcgccacttcacg gaataccggatcgacatccatgcctgcaaccacgcggcgcacaccgtgggctgcagcgcc gccaccttcgtctttgcgcgcaccatgccccacagagaggctgatggtattccaggaaag gtggcctgggaggcctccagcaagaacagtgtccttctgcgctggctcgagccaccagac cccaacggactcatcctcaagtacgaaatcaagtaccgccgcttgggagagccagctgtt ctgcgttactctcaggaggccacagtgctgtgtgtgtcccgtcttcgatatgcgaagttt gggggagtccacctggccctgctgccccctggaaactactctgccagggttagggcaacc tcactggctggcaatggctcttggacagacagtgttgccttctacatccttggcccagag gaggaggatgctggggggctgcatgtcctcctcactgccacccctgtggggctcacgctg ctcatcgttcttgctgcccttggtttcttctacggcaagaagagaaacagaaccctgtat gcttctgtgaatccagagtacttcagcgcctctgatagtaggtctgggagtgggtggaca ggtggtgtgggaaagggagacaggagaggagcagagacagacttccagaagaccttcttg cagaagatagccttgggacaagagcccttcagaagaggagaagagaagttgggggtgtat gtccctgatgaatgggaggtgcctcgggagcagatctcgataatccgggaactgggccag ggctcttttgggatggtatatgaggggctggcacgaggacttgaggctggagaggagtcc acacccgtggccctgaagacggtgaatgagctggccagcccacgggaatgcattgagttc ctcaaggaagcttctgtcatgaaagccttcaagtgtcaccatgtggtgcgtctcctgggt gtggtatctcagggccagccaactctggtcatcatggagttaatgacccgtggggacctc aagagccatcttcgatctttgcggcctgaggcagagaacaaccctgggctcccacagcca gcattgggggaaatgatccaaatggctggtgagattgcagacggcatggcctaccttgct gccaacaagtttgtgcaccgagatctagcagcccgcaactgcatggtgtcccaggacttc accgtcaagatcggggacttcgggatgactcgggacgtgtatgagacagactattaccgc aagggtgggaaggggctgctgcccgtgcgctggatggcccccgagtccctcaaagatggg atcttcaccacccactcggatgtctggtcctttggcgtggtactctgggagattgtgacc ctggcagaacaaccctaccagggcctgtccaatgagcaggtgctgaagttcgtcatggat ggcggggtcctggaggagctggagggctgtccccttcagctgcaggagctgatgagccgc tgctggcagccgaacccacgcctgcgcccatctttcacacacattctggacagcatacag gaggagctgcggccctccttccgcctcctctccttctactacagcccggaatgccggggg gcccggggctccctgcctaccaccgatgcagagcctgactcctcacccactccaagagac tgcagccctcaaaatggggtgccgattgtctggatgtggaagagcttaaggaagggattg gaagtcgaagaaaagagggcttcagaaatatgccatcgcggctgcacctgcaaagatggg caggtggtgtctggcccagaagtacttctgggggaagaatgctctggctacggagcagag agtggttcctggctgtcaccaagtaggaagaagaatggggtacaaggacatgagagctca gcttccgacacctgctcataccaacgtgttttatcccgccccataataccaagctccaag tcccagggagcttggatggaagagtaccagtgctggcacaatggcctgatcaacatagtg gacttggtggcttttcatgggctcaagatcatggacaccttctcactgaggtgcagagct acagccaagcgccaaacttgcttgcaacacattgatactgagccctatacctggtactat tccttagcagggagagaaaacatccagccatatgggagtcacgaagcccccatcccaacc ttcagcaccttccagatcacagacatgacccgcaggagctgccagaacctgggctacact gcggcatctccccaggccccggaggctgcctccaacacagggaatgctgagagggcagag gaggtgcctggagaaggaagcctgttcctgcaggccgagacccgggcttggttccagaag acccaggcccactggctcctgcagcacggggcagcccctgcctggttccatggcttcatc acccggagggaggcagagaggctgctggagcccaagcctcaggggtgctacttggtgcgg ttcagcgagagcgcggtgaccttcgtgctgacttacaggagccggacttgctgccgccac ttcctgctggcccagctcagggacgggcgccacgtggtgctgggcgaggacagcgcccac gcgcggctgcaggacctgctgctgcactacaccgcgcacccgctcagcccctacggggag acgctcaccgagcccctcgcccgacagactcctgagcctgcaggactttccctgaggacc gaagaatcaaactttggaagcaaaagccaggacccaaacccccagtacagcccaatcatc aaacaggggcaagccccagtcccgatgcagaaagagggggccggggagaaggagccctcc cagctgctcaggcccaagcctcccatccccgccaaacctcagctgcccccagaagtctac acaatccctgttccacgacaccgcccggccccacgccccaagccctccaatcctatctac aatgagcctgatgaacccatagctttctatgccatgggccggggcagccctggggaagcc cccagcaacatctatgtggaagtggaagatgagggcctacccgccacccttgggcaccct gtcctacggaagagctggtccaggcctgtcccaggaggccaggccccactgaactttaac cactcctccatacattggagcttcttggacagtgagctcagcaccccggctagagtggag atgtggctgggcccctccgaaggggccagcagcgttgcagaggcactgaaacaccctcat tacgacaaccgtatcatctctgtgagggttctaagtctgatcctcgtagacctcagcttc ttcagctccactgttctggtcaatgtgacactgcacatccagctttgccccggccccacc aacatcttccagggctaa >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_3|795_aa MLRGGRRGQLGWHSWAAGPGSLLAWLILASAGAAPCPDACCPHGSSGLRCTRDGALDSLH HLPGAENLTELYIENQQHLQHLELRDLRGLGELRNLTIVKSGLRFVAPDAFHFTPRLSRL VLSGNPLHCSCALRWLQRWEEEGLGGVPEQKLQCHGQGPLAHMPNASCGVPTLKVQVPNA SVDVGDDVLLRCQVEGRGLEQAGWILTELEQSATVMKSGGLPSLGLTLANVTSDLNRKNV TCWAENDVGRAEVSVQVNVSFPASVQLHTAVEMHHWCIPFSVDGQPAPSLRWLFNGSVLN ETSFIFTEFLEPAANETVRHGCLRLNQPTHVNNGNYTLLAANPFGQASASIMAAFMDNPF EFNPEDPIPVSFSPVDTNSTSGDPVEKKDETPFGVSVAVGLAVFACLFLSTLLLVLNKCG RRNKFGINPSQSLPCKLQGPAVLAPEDGLAMSLHFMTLGGSSLSPTEGKGSGLQGHIIEN PQYFSDAYWGYRLTLQAPSGVHHIKRRDIVLKWELGEGAFGKVFLAECHNLLPEQDKMLV AVKALKEASESARQDFQREAELLTMLQHQHIVRFFGVCTEGRPLLMVFEYMRHGDLNRFL RSHGPDAKLLAGGEDVAPGPLGLGQLLAVASQVAAGMVYLAGLHFVHRDLATRNCLVGQG LVVKIGDFGMSRDIYSTDYYRVGGRTMLPIRWMPPESILYRKFTTESDVWSFGVVLWEIF TYGKQPWYQLSNTEAIDCITQGRELERPRACPPEVYAIMRGCWQREPQQRHSIKDVHARL QALAQAPPVYLDVLG >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_3|2388_bp atgctgcgaggcggacggcgcgggcagcttggctggcacagctgggctgcggggccgggc agcctgctggcttggctgatactggcatctgcgggcgccgcaccctgccccgatgcctgc tgcccccacggctcctcgggactgcgatgcacccgggatggggccctggatagcctccac cacctgcccggcgcagagaacctgactgagctctacatcgagaaccagcagcatctgcag catctggagctccgtgatctgaggggcctgggggagctgagaaacctcaccatcgtgaag agtggtctccgtttcgtggcgccagatgccttccatttcactcctcggctcagtcgcctg gtcctgtcggggaaccctctgcactgttcttgtgccctgcgctggctacagcgctgggag gaggagggactgggcggagtgcctgaacagaagctgcagtgtcatgggcaagggcccctg gcccacatgcccaatgccagctgtggtgtgcccacgctgaaggtccaggtgcccaatgcc tcggtggatgtgggggacgacgtgctgctgcggtgccaggtggaggggcggggcctggag caggccggctggatcctcacagagctggagcagtcagccacggtgatgaaatctgggggt ctgccatccctggggctgaccctggccaatgtcaccagtgacctcaacaggaagaacgtg acgtgctgggcagagaacgatgtgggccgggcagaggtctctgttcaggtcaacgtctcc ttcccggccagtgtgcagctgcacacggcggtggagatgcaccactggtgcatccccttc tctgtggatgggcagccggcaccgtctctgcgctggctcttcaatggctccgtgctcaat gagaccagcttcatcttcactgagttcctggagccggcagccaatgagaccgtgcggcac gggtgtctgcgcctcaaccagcccacccacgtcaacaacggcaactacacgctgctggct gccaaccccttcggccaggcctccgcctccatcatggctgccttcatggacaaccctttc gagttcaaccccgaggaccccatccctgtctccttctcgccggtggacactaacagcaca tctggagacccggtggagaagaaggacgaaacaccttttggggtctcggtggctgtgggc ctggccgtctttgcctgcctcttcctttctacgctgctccttgtgctcaacaaatgtgga cggagaaacaagtttgggatcaacccttctcagtctctcccctgcaagttacaaggcccg gctgtgctggctccagaggatgggctggccatgtccctgcatttcatgacattgggtggc agctccctgtcccccaccgagggcaaaggctctgggctccaaggccacatcatcgagaac ccacaatacttcagtgatgcctactggggctaccgtctgaccctgcaagccccctcaggt gttcaccacatcaagcgccgggacatcgtgctcaagtgggagctgggggagggcgccttt gggaaggtcttccttgctgagtgccacaacctcctgcctgagcaggacaagatgctggtg gctgtcaaggcactgaaggaggcgtccgagagtgctcggcaggacttccagcgtgaggct gagctgctcaccatgctgcagcaccagcacatcgtgcgcttcttcggcgtctgcaccgag ggccgccccctgctcatggtctttgagtatatgcggcacggggacctcaaccgcttcctc cgatcccatggacctgatgccaagctgctggctggtggggaggatgtggctccaggcccc ctgggtctggggcagctgctggccgtggctagccaggtcgctgcggggatggtgtacctg gcgggtctgcattttgtgcaccgggacctggccacacgcaactgtctagtgggccaggga ctggtggtcaagattggtgattttggcatgagcagggatatctacagcaccgactattac cgtgtgggaggccgcaccatgctgcccattcgctggatgccgcccgagagcatcctgtac cgtaagttcaccaccgagagcgacgtgtggagcttcggcgtggtgctctgggagatcttc acctacggcaagcagccctggtaccagctctccaacacggaggcaatcgactgcatcacg cagggacgtgagttggagcggccacgtgcctgcccaccagaggtctacgccatcatgcgg ggctgctggcagcgggagccccagcaacgccacagcatcaaggatgtgcacgcccggctg caagccctggcccaggcacctcctgtctacctggatgtcctgggctag >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_4|128_aa MRKQAQRGGCCQCQSQPSPPPWKVLVIVIPIWDPDSHINRNPSRRLSPVPVPTLAATLEG FRLVDEAAWSVSFLFWESLIGDVEGGQRVEEQMPTLSFILQWRERKAENTQDTGNDIDDD HDDDNSNY >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_4|387_bp atgaggaagcaggcacagagaggagggtgttgccagtgccagtcccaaccctcgccgcca ccctggaaggtgctggtgattgtcatccccatttgggatcctgattcacacatcaatcgc aacccctcccgcaggctgtcgccagtgccagtcccaaccctcgccgccaccctggaaggt ttccgactggtggatgaggctgcctggagcgtgagtttcctcttctgggagagtctgata ggagatgttgaggggggacagagggtggaggaacagatgccaactctcagcttcatcctc cagtggagagagaggaaggcagagaatacccaggacacaggaaatgacattgatgatgac catgatgatgataatagcaactactaa >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_5|1020_aa MSPPLCPLLLLAVGLRLAGTLNPSDPNTCSFWESFTTTTKESHSRPFSLLPSEPCERPWE GPHTCPQPTVVYRTVYRQVVKTDHRQRLQCCHGFYESRGFCVPLCAQECVHGRCVAPNQC QCVPGWRGDDCSSECAPGMWGPQCDKPCSCGNNSSCDPKSGVCSCPSGLQPPNCLQPCTP GYYGPACQFRCQCHGAPCDPQTGACFCPAERTGPSCDVSCSQGTSGFFCPSTHSCQNGGV FQTPQGSCSCPPGWMVWRVGPVGMGCGSGENSVGGAKQGSKGTICSLPCPEGFHGPNCSQ ECRCHNGGLCDRFTGQCRCAPGYTGDRCREECPVGRFGQDCAETCDCAPDARCFPANGAC LCEHGFTGDRCTDRLCPDGFYGLSCQAPCTCDREHSLSCHPMNGECSCLPGWAGLHCNES CPQDTHGPGCQEHCLCLHGGVCQATSGLCQCAPGYTGPHCASLCPPDTYGVNCSARCSCE NAIACSPIDGECVCKEGWQRGNCSVPCPPGTWGFSCNASCQCAHEAVCSPQTGACTCTPG WHGAHCQLPCPKGQFGEGCASRCDCDHSDGCDPVHGRCQCQAGWMGARCHLSCPEGLWGV NCSNTCTCKNGGTCLPENGNCVCAPGFRGPSCQRSCQPGRYGKRCVPCKCANHSFCHPSN GTCYCLAGWTGPDCSQRCPLGTFGANCSQPCQCGPGEKCHPETGACVCPPGHSGAPCRIG IQEPFTVMPTTPVAYNSLGAVIGIAVLGSLVVALVALFIGYRHWQKGKEHHHLAVAYSSG RLDGSEYVMPDVPPSYSHYYSNPSYHTLSQCSPNPPPPNKVPGPLFASLQNPERPGGAQG HDNHTTLPADWKHRREPPPGPLDRGSSRLDRSYSYSYSNGPGPFYNKGLISEEELGASVA SLSSENPYATIRDLPSLPGGPRESSYMEMKGPPSGSPPRQPPQFWDSQRRRQPQPQRDSG TYEQPSPLIHDRDSVGSQPPLPPGLPPGHYDSPKNSHIPGHYDLPPVRHPPSPPLRRQDR >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_5|3063_bp atgtcaccgcctctgtgtcccctccttctcctggctgtgggcctgcggctggctggaact ctcaaccccagtgatcccaatacctgcagcttctgggaaagcttcactaccaccaccaag gagtcccactcccgccccttcagcctgctcccctcagagccctgcgagcggccctgggag ggcccccatacttgcccccagcccacggttgtataccggaccgtgtaccgtcaggtggtg aagacggaccaccgccagcgcctgcagtgctgccatggcttctatgagagcagggggttc tgtgtcccgctctgtgcccaggagtgtgtccatggccgttgtgtggcacccaatcagtgc caatgtgtgccaggctggcggggcgacgactgttccagtgagtgtgccccaggaatgtgg gggccacagtgtgacaagccctgcagctgcggcaacaacagctcgtgtgatcccaagagt ggggtatgttcttgcccttctggtctgcagcccccgaactgccttcagccctgtacccct ggctactatggccctgcctgccagttccgctgccagtgccatggggcaccctgcgatccc cagactggagcctgcttctgccccgcagagagaactgggcccagctgtgacgtgtcctgt tcccagggcacttctggcttcttctgccccagcacccattcttgccaaaatggaggtgtc ttccaaaccccacagggctcctgcagctgcccccctggctggatggtatggagggtgggg cctgtgggcatggggtgtgggtctggggagaattctgtgggtggtgctaagcagggctcc aagggcaccatctgctccctgccctgcccagagggctttcacggacccaactgctcccag gaatgtcgctgccacaacggcggcctctgtgaccgattcactgggcagtgccgctgcgct ccgggttacactggggatcggtgccgggaggagtgcccggtgggccgctttgggcaggac tgtgctgagacgtgcgactgcgccccggacgcccgttgcttcccggccaacggcgcatgt ctgtgcgaacacggcttcactggggaccgctgcacggatcgcctctgccccgacggcttc tacggtctcagctgccaggccccctgcacctgcgaccgggagcacagcctcagctgccac ccgatgaacggggagtgctcctgcctgccgggctgggcgggcctccactgcaacgagagc tgcccgcaggacacgcatgggccagggtgccaggagcactgtctctgcctgcacggtggc gtctgccaggctaccagcggcctctgtcagtgcgcgccgggttacacgggccctcactgt gctagtctttgtcctcctgacacctacggtgtcaactgttctgcacgctgctcatgtgaa aatgccatcgcctgctcacccatcgacggcgagtgcgtctgcaaggaaggttggcagcgt ggtaactgctctgtgccctgcccacccggaacctggggcttcagttgcaatgccagctgc cagtgtgcccatgaggcagtctgcagcccccaaactggagcctgtacctgcacccctggg tggcatggggcccactgccagctgccctgtccgaaggggcagtttggagaaggttgtgcc agtcgctgtgactgtgaccactctgatggctgtgaccctgttcatggacgctgtcagtgc caggctggctggatgggtgcccgctgccacctgtcctgccctgagggcttatggggagtc aactgtagcaacacctgcacctgcaagaatgggggcacctgtctccctgagaatggcaac tgcgtgtgtgcacccggattccggggcccctcctgccagagatcctgtcagcctggccgc tatggcaaacgctgtgtgccctgcaagtgcgctaaccactccttctgccacccctcgaac gggacctgctactgcctggctggctggacaggccccgactgctcccagcgctgccctctg gggacatttggtgctaactgctcccagccatgccagtgtggtcctggagaaaagtgccac ccagagactggggcctgtgtatgtcccccagggcacagtggtgcaccttgcaggattgga atccaggagccctttactgtgatgccgaccactccagtagcgtataactcgctgggtgca gtgattggcattgcagtgctggggtcccttgtggtagccctggtggcactgttcattggc tatcggcactggcaaaaaggcaaggagcaccaccacctggctgtggcttacagcagcggg cgcctggacggctccgagtatgtcatgccagatgtccctccgagctacagtcactactac tccaaccccagctaccacaccctgtcgcagtgctccccaaaccccccaccccctaacaag gttccaggcccgctctttgccagcctgcagaaccctgagcggccaggtggggcccaaggg catgataaccacaccaccctgcctgctgactggaagcaccgccgggagccccctccaggg cctctggacagggggagcagccgcctggaccgaagctacagctatagctacagcaatggc ccaggcccattctacaataaagggctcatctctgaagaggagctcggggccagtgtggct tccctgagcagtgagaacccatatgccaccatccgggacctgcccagcttgccagggggc ccccgggagagcagctacatggagatgaaaggccctccctcaggatctccccccaggcag cctcctcagttctgggacagccagaggcggcggcaaccccagccacagagagacagtggc acctacgagcagcccagccccctgatccatgaccgagactctgtgggctcccagccccct ctgcctccgggcctaccccccggccactatgactcacccaagaacagccacatccctgga cattatgacttgcctccagtacggcatcccccatcacctccacttcgacgccaggaccgt tga >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_6|583_aa MSSEQSAPGASPRAPRPGTQKSSGAVTKKGERAAKEKPATVLPPVGEEEPKSPEEYQCSG VLETDFAELCTRWGYTDFPKVVNRPRPHPPFVPSASLSEKATLDDPRLSGSCSLNSLESK YVFFRPTIQVELEQEDSKSVKEIYIRGWKVEERILGVFSKCLPPLTQLQAINLWKVGLTD KTLTTFIELLPLCSSTLRGSRSPSWLPGALALYWGLISPALRKVSLEGNPLPEQSYHKLM ALDSTIAHLSLRNNNIDDRGAQLLGQALSTLHSCNRTLVSLNLGFNHIGDEGAGYIADGL RLNRSLLWLSLAHNRIQDKGALKLAEVLRAFELTHTEVVERRRLLLEKGTQERSRSPSSS RHGDSKTDREKSQMVGISNSALVDKTDKTQTMKTPKGLGKKKEKSWELAKKEEKLGSGQS PTQGTPKKEDATKAGKGKVTIPEQKPSRAKGIKIGSREKRSILLESELVVEATEVVNPLL EPVEHRDGKVFMPGNKVLLHLNLIRNRITEVGLEGFLATVQYQMQFSKAKSASKGPVGLL WLSLAKNCFAPQCPAYAIIQELMLPRDPIKAKLREDEAMAFFP >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_6|1752_bp atgtcgagcgagcagagcgcgccgggggcctcacccagggccccgcgtccggggacccag aagtcttctggcgcggtgaccaaaaagggagagcgcgcggccaaagagaagccagcgacc gttctgcctcccgtgggggaggaggagcccaaaagccctgaggagtaccagtgctccggg gtcctcgagaccgacttcgccgagctctgcacgcggtggggctacacggacttccccaaa gttgtcaaccggccccgcccccacccgcccttcgtcccctccgcctctttgtcggaaaag gccaccttagacgatccgcggctgtcggggtcctgcagcctcaatagcctggagagcaaa tacgtgttcttccggcccaccatccaggtggagctggagcaggaggacagcaagtcagtg aaggaaatctacatccgcggttggaaggttgaggaacggattctgggtgtcttctctaaa tgtctgcccccgcttacccagctacaggccatcaacttgtggaaggtggggctgaccgat aagaccctgaccaccttcatcgagctcctgcctctctgttcatccacgctcagaggttct cgctctccttcctggctgcctggggctctggccctgtactgggggctgatctcccctgcc ctcaggaaggtgtctctggaggggaacccactgccggagcagtcctatcacaagctcatg gccttggacagcacgattgcgcacttgtctctgcggaacaataacatcgacgaccgcggg gcgcaactcctgggccaggcgctgtccacgctgcacagctgcaaccggaccctcgtctcg ctcaacctgggtttcaaccacatcggtgacgagggcgcaggctacatcgcggacggcctc cggctgaaccgttccctgctctggctgtccctggcccacaaccgcatccaggacaagggc gccctgaagctggctgaggtcctgcgcgccttcgagctgacacacaccgaagtggtggag cgccgacgcctcctgctggaaaaagggacacaggagcgctcgcgatcgccctcctcctct cgacacggggactccaaaacggaccgtgagaagagtcagatggtagggatcagcaatagt gcattggtggacaagacagacaagacgcagacaatgaaaacccctaagggcctgggcaag aaaaaggagaaatcatgggaattggccaagaaagaggagaagttggggtctgggcagtca cccacacaaggaacccctaagaaggaagatgccacaaaggcaggcaaggggaaggtaacc atccctgaacagaagccaagcagggcaaaagggatcaagatcgggagcagagagaagcgc agcatcctcctggagtccgagctggttgttgaggctactgaggtggtcaaccctctcctg gagcctgtggagcaccgagatgggaaagttttcatgcctgggaacaaggtccttttgcac ctcaacctcatccggaaccgcatcacagaggtggggctggagggcttcctcgccacggtg cagtatcagatgcagttctccaaggccaagagtgcatccaagggtccagtggggctgctg tggctgtccctggctaaaaattgcttcgccccacaatgtcctgcgtacgccataatccag gagctgatgttgccaagggatcccatcaaggccaaactcagggaggatgaggccatggca ttcttcccctag >gi568815597f:156760935_156981639|GENSCAN_predicted_peptide_7|1566_aa XGAAMKAGVKEGDRIIKVNGTMVTNSSHLEVVKLIKSGAYVALTLLGSSPSSMGISGLQQ DPSPAGAPRITSVIPSPPPPPPLPPPQRITGPKPLQDPEVQKHATQILRNMLRQEEKELQ RICEVYSRNPASLLEEQIEGARRRVTQLQLKIQQETGGSVDILPLYGDTSQRPSEGRLSL DSQEGDSGLDSGTERFPSLSESLMNRNSVLSDPGLDSPRTSPVIMARVAQHHRRQGSDAA VPSTGDQGVDQSPKPLIIGPEEDYDPGYFNNESDIIFQDLEKLKSRPAHLGVFLRYIFSQ ADPSPLLFYLCAEVYQQASPKDSRSLGKDIWNIFLEKNAPLRVKIPEMLQAEIDSRLRNS EDARGVLCEAQEAAMPEIQEQIHDYRTKRTLGLGSLYGENDLLDLDGDPLRERQVAEKQL AALGDILSKYEEDRSAPMDFALNTYMSHAGIRLREARPSNTAEKAQSAPDKDKWLPFFPK TKKSSNSKKEKDALEDKKRNPILKYIGKPKSSSQSICWQRAFLCFWEPQAQTQTTATFSP CQIQCRISEVQVNVSEPGKPCRSLGLSLGTQSSSSYQTTTKNLIMTFKQKRYYNNVRAKR MLMENILPNPLILRMRKESTQKVKPGNVRNIIQHFENNQQYDAPEPGTQRLSTGSFPEDL LESDSSRSEIRLGRSESLKGREEMKRSRKAENVPRSRSDVDMDAAAEATRLHQSASSSTS SLSTRSLENPTPPFTPKMGRRSIESPSLGFCTDTLLPHLLEDDLGQLSDLEPEPDAQNWQ HTVGKDVVAGLTQREIDRQEVINELFVTEASHLRTLRVLDLIFYQRMKKENLMPREELAR LFPNLPELIEIHNSWCEAMKKLREEGPIIKEISDLMLARFDGPAREELQQVAAQFCSYQS IALELIKTKQRKESRFQLFMQEAESHPQCRRLQLRDLIISEMQRLTKYPLLLESIIKHTE GGTSEHEKLCRARDQCREILKYVNEAVKQTENRHRLEGYQKRLDATALERASNPLAAEFK SLDLTTRKMIHEGPLTWRISKDKTLDLHVLLLEDLLVLLQKQDEKLLLKCHSKTAVGSSD SKQTFSPVLKLNAVLIRSVATDKRAFFIICTSKLGPPQIYELVALTSSDKNTWMELLEEA VRNATRHPGAAPMPVHPPPPGPREPAQQGPTPSSLPPGYNRAEPEEGVELDDSDVFHGEP EPEELPGGTGSQQRVQGKHQVLLEDPEQEGSAEEEELGVLPCPSTSLDGENRGIRTRNPI HLAFPGPLFMEGLADSALEDVENLRHLILWSLLPGHTMETQAAQEPEDDLTPTPSVISVT SHPWDPGSPGQAPPGGEGDNTQLAGLEGERPEQEDMGLCSLEHLPPRTRNSGIWESPELD RNLAEDASSTEAAGGYKVVRKGNCFYVSMPSGPPDSSTDHSEAPMSPPQPDSLPAGQTEP QPQLQGGNDDPRRPSRSPPSLALRDVGMIFHTIEQLTLKLNRLKDMELAHRELLKSLGGE SSGGTTPVGSFHTEAARWTDGSLSPPAKEPLASDSRNSHELGPCPEDGSDAPLEDSTADA AASPGP >gi568815597f:156760935_156981639|GENSCAN_predicted_CDS_7|4701_bp ngaggtgcagccatgaaggccggtgtgaaagagggcgaccggatcatcaaagtcaacggc accatggtgaccaatagctcacacctggaagtggtaaagctgatcaaatctggcgcctat gtcgcactcaccctcctgggctcttcaccttcatccatgggcatctctgggctccagcag gacccatccccagcaggagctccccgaatcacgtcagtgatcccctcaccaccacctcct ccacctctaccacctccacaacgcatcacaggacccaaacctctgcaggatcccgaagtt caaaaacatgccacccagatcctcaggaatatgctgaggcaggaagaaaaagaattacag cgtatctgtgaggtctatagccggaaccccgccagcctactggaagagcagatcgaaggt gcccggcggcgagtcactcagttacagctgaagatccagcaggagactggtggctcagtg gacatacttccactatatggtgacaccagccagagaccatcagaaggccggctctctctg gattcccaggagggggacagtggcttggactctgggacagaacgctttccttccctcagt gagtcattgatgaatcggaactcggtactgtcagaccctgggctagacagtcctcgaacc tcccctgtgatcatggccagggtggcccagcaccacaggcggcagggctcggatgcagca gtcccctcaaccggtgaccagggtgtagatcaaagcccaaagcctttaattattggccca gaggaagactatgacccgggttatttcaacaacgagagcgacatcatattccaggatctg gagaaactgaagtctcggccagctcacctgggggtttttctacgttacatcttctctcag gcggaccccagtccactgcttttttacctgtgtgcagaagtttatcagcaggcaagcccc aaggattcccgaagcttggggaaagacatctggaatattttcctggagaaaaatgcgcct ctgagagtgaagatccctgagatgctacaggctgaaattgactcgcgcctgcggaacagc gaagatgcccgtggtgttctctgtgaagctcaagaggcagccatgcctgagatccaagag cagatccacgactacagaacgaagcgcacactggggctgggcagcctgtatggtgaaaat gacctgctggacctggatggggaccctctccgagagcgccaagtggctgagaagcagctg gctgcccttggagatattttgtccaagtatgaggaagacaggagcgcccccatggacttc gccctcaatacctacatgagccatgctgggatccgtcttcgagaggcacgaccttccaac acagctgaaaaggcccagtctgctcctgacaaggacaagtggctaccgttcttccctaag accaagaagagcagcaattccaagaaagaaaaggatgccttggaggacaagaagcgaaac cctatcctcaaatacattgggaagcccaaaagctcttctcaaagcatatgttggcagagg gccttcctgtgtttctgggagccacaggcccaaactcagaccacagccactttctcccct tgccaaatccagtgcaggatctctgaggttcaggtgaatgtttccgagccagggaagccg tgccggtccctgggtcttagtctaggaacccagagcagttctagctaccaaacgaccacg aaaaacctaatcatgactttcaagcagaagcgttattataataatgtgagagccaaaaga atgcttatggaaaatatacttccaaaccctctcattttgcgcatgaggaaagaatcaacc cagaaagtcaaaccaggcaatgtgaggaacatcattcagcactttgagaacaaccagcag tatgatgccccagaacctgggacacaacgactctcgaccggaagctttcctgaggacctg ctggagagtgacagttcacgctcagagattcgcctgggccgctctgaaagcctcaagggc cgggaagagatgaaacggtctcgaaaggcagagaacgtgccccgctctcgcagtgatgtt gacatggatgctgctgcggaggctactcgcctgcaccagtcagcctcgtcctctacctcc agcctctccaccaggtctcttgagaacccaacccctccattcactcccaaaatgggccgc aggagcattgagtcccccagtttggggttctgcacagataccctccttccccacctccta gaggatgatctgggccagctgtctgacctggagccagagccagatgcccaaaattggcag catacagtgggcaaggatgtggtggctgggctaacccagcgggagattgaccggcaagag gtcatcaatgagctgtttgtgactgaagcttcccacctgcgcacactccgggtcctggac ctgatcttctaccagcgaatgaagaaggagaacctgatgccccgggaggagctggcccgg ctcttcccgaacctgcctgaactcatagagattcacaattcctggtgtgaagccatgaag aagctccgggaggaaggccccatcatcaaagagatcagtgacctcatgctggcccggttt gatggccctgcccgagaggaactccagcaagtggctgcacagttctgttcctatcagtca atagccctagagctaatcaagaccaagcaacgcaaggagagtcgattccagctcttcatg caggaggctgagagccaccctcagtgtcggcggctgcagctgagagacctcatcatctct gagatgcagcggctcaccaagtacccgctgctgctggagagcatcatcaagcacacagag ggtggcacctctgagcatgagaagctgtgccgggcccgggaccagtgccgggagattctc aagtatgtgaatgaagcggtaaaacaaacagagaaccgccaccgtttagagggctaccag aaacgcctggatgccaccgccctggagagggccagcaaccccctggcagcagagttcaag agcctggatcttacaaccagaaaaatgatccatgagggacccctgacctggaggatcagc aaggataagaccttggacctccacgtgctgctgctggaggacctcctagtgctgctacag aaacaggatgagaagctattgctgaagtgccacagcaagactgctgtgggctcctcagac agcaagcagaccttcagccccgtgctcaagctcaatgctgtgctcatccgctctgtggcc acagataaacgggccttcttcatcatctgcacctccaagctgggcccaccccagatctat gagctggttgcattgacgtcatcagacaagaacacatggatggagctcttagaagaggcc gtgcggaatgccaccaggcaccccggagctgccccaatgcccgtccatcctccaccccca ggtccccgggagccagcccagcagggccccacacccagcagcctgccacctggctataat agagctgagcctgaagaaggggtagaactggatgactcagacgtgttccatggtgaacct gaacctgaggagctgcctggaggcactgggtcccagcagagggtccaagggaagcaccag gtcctgctagaggaccctgagcaggagggcagtgcagaggaagaggaactgggtgtcctg ccttgcccttccacatccctggatggagagaacaggggcatcaggacaaggaaccccatc cacttggccttcccaggccctctgttcatggaagggctcgctgactccgctctggaagat gtggagaacctgcgacatctgatcctgtggagcctgctgccaggtcacaccatggaaact caggctgcccaggagcccgaggacgacctgacacccacaccttctgtcatcagcgtcacc tctcacccctgggacccaggctccccagggcaagcaccccctgggggtgaaggggacaac acccagcttgcagggctggagggggaacggccagagcaggaagacatgggtctctgttct ctggaacacctacccccaaggaccagaaattctgggatatgggagtctccagaactggac aggaatctggctgaagatgcttcaagcacagaggcagcaggaggttacaaagttgtgaga aaagggaactgcttttatgtcagcatgccatcaggacccccggactcaagcaccgaccac tcagaggcacccatgagcccccctcagcctgacagcctccctgcagggcagacagagcct cagcctcagctgcagggaggcaacgatgatccaagacgccccagccgctctcctccaagc ctggccctcagggacgtgggcatgatcttccataccattgagcagctcactctcaagctc aacaggctcaaggatatggagctggcccacagagagctgctcaagtcccttgggggagag tcatctggtggcaccacgcctgtgggcagtttccacacagaagcagctagatggacagat ggctccctctcacctcccgctaaggagcccctagcttctgactccaggaacagccatgaa ctggggccctgccctgaggatggctctgacgcccccctggaagacagcacagcagacgca gccgcgtcaccaggaccataa