GENSCAN 1.0 Date run: 5-Nov-116 Time: 20:32:33 Sequence gi568815596r:218354935_218658653 : 303719 bp : 45.36% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 2128 2253 126 2 0 132 49 106 0.944 11.75 1.02 Intr + 2600 2800 201 0 0 57 9 242 0.990 12.46 1.03 Intr + 3103 3158 56 2 2 100 75 90 0.961 7.60 1.04 Intr + 5639 5725 87 1 0 66 94 121 0.959 10.67 1.05 Intr + 7786 7968 183 0 0 25 64 184 0.620 9.68 1.06 Intr + 9694 9818 125 0 2 57 80 292 0.999 24.68 1.07 Intr + 12090 12166 77 0 2 93 96 51 0.999 5.56 1.08 Intr + 12496 12584 89 2 2 94 100 137 0.999 15.19 1.09 Intr + 12788 12938 151 1 1 68 -24 406 0.005 27.14 1.10 Intr + 14134 14178 45 2 0 99 72 28 0.002 0.68 1.11 Intr + 28026 28168 143 1 2 108 60 62 0.753 5.47 1.12 Intr + 29309 29431 123 1 0 113 27 179 0.997 15.08 1.13 Intr + 30213 30332 120 2 0 95 105 100 0.997 13.09 1.14 Intr + 31701 31807 107 2 2 108 33 211 0.999 16.61 1.15 Intr + 32226 32296 71 0 2 79 76 136 0.999 10.33 1.16 Intr + 32631 32698 68 1 2 94 75 35 0.967 1.42 1.17 Intr + 32890 33021 132 0 0 31 105 189 0.805 15.74 1.18 Intr + 34936 35094 159 0 0 71 81 254 0.996 23.18 1.19 Intr + 36264 36353 90 2 0 76 72 241 0.745 21.49 1.20 Intr + 36442 36561 120 0 0 95 75 144 0.939 14.49 1.21 Intr + 38047 38196 150 0 0 77 85 230 0.999 21.96 1.22 Intr + 39186 39259 74 2 2 90 76 155 0.999 12.70 1.23 Intr + 39698 39851 154 2 1 92 52 180 0.936 14.87 1.24 Intr + 42208 42314 107 0 2 30 86 85 0.488 1.51 1.25 Intr + 44366 44699 334 2 1 27 101 182 0.607 8.97 1.26 Intr + 45097 45223 127 0 1 76 81 89 0.926 7.25 1.27 Intr + 46630 46778 149 2 2 83 100 128 0.872 13.45 1.28 Intr + 47177 47281 105 1 0 54 86 220 0.651 18.81 1.29 Intr + 47415 47471 57 2 0 102 94 126 0.994 13.68 1.30 Intr + 48101 48193 93 1 0 95 105 144 0.585 16.96 1.31 Intr + 48298 48483 186 0 0 52 68 284 0.970 22.69 1.32 Intr + 49363 49490 128 0 2 105 47 148 0.473 11.88 1.33 Intr + 65113 65180 68 1 2 64 26 97 0.062 -0.35 1.34 Intr + 68834 68919 86 0 2 106 78 119 0.866 12.24 1.35 Intr + 69343 69417 75 0 0 128 68 136 0.999 15.31 1.36 Intr + 70681 70877 197 0 2 44 -3 360 0.950 20.71 1.37 Intr + 73031 73139 109 2 1 68 80 160 0.943 13.49 1.38 Intr + 73293 73403 111 2 0 91 59 93 0.928 7.28 1.39 Intr + 74282 74553 272 1 2 48 55 280 0.490 17.04 1.40 Intr + 74663 74741 79 2 1 112 94 75 0.998 10.05 1.41 Intr + 74915 75019 105 1 0 82 28 177 0.569 11.51 1.42 Intr + 75791 75944 154 1 1 88 68 232 0.997 20.85 1.43 Intr + 76923 77023 101 1 2 66 91 83 0.976 6.23 1.44 Intr + 77112 77249 138 2 0 100 71 299 0.998 30.06 1.45 Intr + 77859 78017 159 2 0 120 64 224 0.998 23.38 1.46 Intr + 79592 79771 180 1 0 121 93 138 0.997 17.66 1.47 Intr + 80355 80500 146 2 2 70 78 218 0.999 18.08 1.48 Intr + 81548 81692 145 2 1 97 91 216 0.987 23.08 1.49 Intr + 82190 82378 189 1 0 64 65 168 0.997 11.88 1.50 Intr + 83724 83792 69 2 0 64 68 82 0.900 3.18 1.51 Intr + 85788 85928 141 2 0 108 92 179 0.996 20.85 1.52 Term + 94289 94402 114 1 0 133 54 61 0.995 5.77 1.53 PlyA + 95324 95329 6 1.05 2.15 PlyA - 96311 96306 6 1.05 2.14 Term - 100083 99996 88 2 1 70 55 88 0.866 0.83 2.13 Intr - 100784 100646 139 0 1 82 71 128 0.881 10.02 2.12 Intr - 102227 102158 70 2 1 91 68 12 0.906 -1.75 2.11 Intr - 104971 104856 116 2 2 73 76 162 0.937 13.67 2.10 Intr - 108432 108372 61 0 1 115 70 54 0.997 4.61 2.09 Intr - 111242 111076 167 0 2 89 71 104 0.995 8.48 2.08 Intr - 119951 119696 256 2 1 70 69 256 0.998 18.92 2.07 Intr - 122047 121906 142 0 1 89 106 151 0.999 17.36 2.06 Intr - 127300 127136 165 0 0 83 101 19 0.705 1.78 2.05 Intr - 130809 130730 80 0 2 112 59 27 0.595 0.55 2.04 Intr - 133487 133370 118 1 1 104 61 8 0.482 0.17 2.03 Intr - 141016 140826 191 1 2 61 94 59 0.772 2.18 2.02 Intr - 142923 142800 124 2 1 92 82 50 0.899 5.39 2.01 Init - 150523 150477 47 1 2 55 46 25 0.240 -4.84 2.00 Prom - 151671 151632 40 1.64 3.00 Prom + 160645 160684 40 -4.16 3.01 Init + 160699 160823 125 0 2 62 93 99 0.331 7.44 3.02 Intr + 171789 171828 40 0 1 92 111 20 0.292 2.93 3.03 Intr + 173491 173514 24 0 0 72 117 6 0.127 0.12 3.04 Term + 176958 177068 111 2 0 50 45 110 0.217 1.46 3.05 PlyA + 177689 177694 6 1.05 4.03 PlyA - 178016 178011 6 1.05 4.02 Term - 192157 191981 177 1 0 80 49 125 0.527 5.49 4.01 Init - 198648 198619 30 0 0 37 109 34 0.343 0.18 4.00 Prom - 205247 205208 40 -5.76 5.00 Prom + 205360 205399 40 -1.46 5.01 Init + 214021 214044 24 0 0 80 101 63 0.037 4.38 5.02 Intr + 225627 225806 180 2 0 50 94 49 0.309 1.76 5.03 Intr + 228037 228152 116 0 2 80 99 5 0.285 0.05 5.04 Intr + 229678 229787 110 1 2 97 111 -26 0.301 0.53 5.05 Intr + 232652 232761 110 0 2 91 45 81 0.982 4.10 5.06 Intr + 237370 237468 99 0 0 106 97 79 0.997 10.91 5.07 Intr + 237682 237773 92 0 2 24 97 51 0.294 -1.61 5.08 Intr + 239174 239303 130 2 1 55 41 131 0.085 5.80 5.09 Intr + 260773 260827 55 0 1 111 84 62 0.926 6.65 5.10 Intr + 260970 261128 159 1 0 87 68 152 0.967 13.06 5.11 Intr + 263645 263901 257 0 2 102 60 390 0.634 34.76 5.12 Intr + 267713 267944 232 1 1 100 83 222 0.912 20.25 5.13 Intr + 273095 273296 202 0 1 78 13 106 0.966 0.44 5.14 Intr + 274585 274729 145 1 1 38 67 191 0.997 12.28 5.15 Intr + 275716 275868 153 0 0 67 75 188 0.995 15.67 5.16 Intr + 277202 277378 177 1 0 90 121 272 0.999 30.82 5.17 Intr + 278494 278547 54 0 0 82 94 10 0.403 0.18 5.18 Intr + 278671 278827 157 0 1 93 41 128 0.981 8.18 5.19 Intr + 279171 279287 117 1 0 90 68 57 0.946 4.34 5.20 Intr + 279524 279696 173 0 2 46 92 174 0.979 13.26 5.21 Intr + 280862 280997 136 1 1 -13 81 184 0.995 7.74 5.22 Intr + 281309 281458 150 0 0 73 105 130 0.984 13.33 5.23 Term + 281537 281643 107 0 2 142 51 109 0.999 11.17 5.24 PlyA + 281717 281722 6 -3.64 6.09 PlyA - 281823 281818 6 -0.45 6.08 Term - 283874 283405 470 0 2 86 48 583 0.999 49.24 6.07 Intr - 285835 285730 106 1 1 86 109 220 0.999 23.69 6.06 Intr - 290130 287094 3037 2 1 112 90 1993 0.999 189.27 6.05 Intr - 291414 291237 178 1 1 52 87 221 0.999 17.38 6.04 Intr - 294525 293701 825 1 0 106 57 881 0.994 78.19 6.03 Intr - 295592 295425 168 0 0 66 90 134 0.798 11.32 6.02 Intr - 297366 296767 600 1 0 125 80 323 0.764 27.68 6.01 Init - 301447 301216 232 1 1 84 87 142 0.494 10.39 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 12788 13030 243 1 0 68 47 456 0.992 35.40 S.002 Term + 214167 214456 290 1 2 69 32 154 0.888 3.44 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_1|2191_aa XSAILASHPSVGSRAKDHQPSGPECLPLPEANAEAIDFLSSLHKEELQMLFFSETLAMVS DTGEPQGELTIEVQRGKYQEKLGMLTYCLFVHASSRGFLDKMLCGNSLLGYLSEKLELME QHSQDFIKFLILPMERKMSLLKQDDQLAVTRSIKEGEISSEQEVKTGVTSFPWSSIKGFI SEAANLVLLRVMAWRRMVPSNARFLTLDTEGKLCYLTYQNLGFQTIQVDHQQAEVFIVEQ TVHAEEGIPMSCQYYLLSDGHLAKRIQVGSPGCCIITKMPILREEDEIEPRPVFEKKPLV WEEDMELYSKFLDRKEELRLGHASYLRQHPEAHALISDFLLFLLLRQPEDVVTFAAEFFG PFDPWHLLLQTPETLCSLVDGDKGPQRLSGSSYGSISSPTSPTSPGPQQAPPRETYLSEK IPIPDTKPGTFSLRKLWAFTGPGFLMSIAFLDPGNIESDLQAGAVAGFKLLWVLLWATVL GLLCQRLAARLGVVTGKDLGEVCHLYYPKVPRTVLWLTIELAIVGSDMQEVIGTAIAFNL LSAGRIPLWGGVLITIVDTFFFLFLDNYGLRKLEAFFGLLITIMALTFGYEGALLRGLFL PSCPGCGHPELLQAVGIVGAIIMPHNIYLHSALVKSREIDRARRADIREANMYFLIEATI ALSVSFIINLFVMAVFGQAFYQKTNQAAFNICANSSLHDYAKIFPMNNATVAVDIYQGGV ILGCLFGPAALYIWAIGLLAAGQSSTMTGTYAGQFVMEGFLRLRWSRFARVLLTRSCAIL PTVLVAVFRDLRDLSGLNDLLNVLQSLLLPFAVLPILTFTSMPTLMQEFANGLLNKVVTS SIMVLVCAINLYFVVSYLPSLPHPAYFGLAALLAAAYLGLSTYLDGGRQSNGQVGQEDTE TRLKGYPGPGQRASDEVAPRPGAPRPGAAGGGDRPIQERDSEVCTAVSGQQSLRWLLTSL RGDLCDHQTGEKTHFTDEVVLSPSPQRGNREASSPGSSENAEVEPRRTRALPGVGAPGGR ALAEGARRPGTPGGRPGARARVRPERSAPGPMDSSAVITQISKEEARGPLRGKGDQKSAA SQKPRSRGILHSLFCCVCRDDGEALPAHSGAPLLVEENGAIPKQTPVQYLLPEAKAQDSD KICVVIDLDETLVHSSFKPVNNADFIIPVEIDGVVHQVYVLKRPHVDEFLQRMGELFECV LFTASLAKYADPVADLLDKWGAFRARLFRESCVFHRGNYVKDLSRLGRDLRRVLILDNSP ASYVFHPDNAVPVASWFDNMSDTELHDLLPFFEQLSRVDDVYSVLRQPRPGSYSELHDWE LGAVAAPHLQQSRNSSSLTMTKLSAQVKGSLNITTPGLQIWRIEAMQMVPVPSSTFGSFF DGDCYIILAIHKTASSLSYDIHYWIGQDSSLDEQGAAAIYTTQMDDFLKGRAVQHREVQG NESEAFRGYFKQGLVIRKGGVASGMKHVETNSYDVQRLLHVKGKRNVVAGEVEMSWKSFN RGDVFLLDLGKLIIQWNGPESTRMERLRGVGWQTLPHSPTTPDGSPGAFLQGMTLAKEIR DQERGGRTYVGVVDGENELASPKLMEVMNHVLGKRRELKAAVPDTVVEPALKAALKLYHV SDSEGNLVVREVATRPLTQDLLSHEDCYILDQGGLKIYVWKGKKANEQEKKGAMSHALVV NFIKAKQYPPSTQVEVQNDGAESAVFQQLFQKWTASNRTSGLGKTHTVGSVAKVEQVKFD ATSMHVKPQVAAQQKMVDDGSGEVQVWRIENLELVPVDSKWLGHFYGGDCYLLLYTYLIG EKQHYLLYVWQGSQASQDEITASAYQAVILDQKYNGEPVQIRVPMGKEPPHLMSIFKGRM VVYQGGTSRTNNLETGPSTRLFQVQGTGANNTKAFEVPARANFLNSNDVFVLKTQSCCYL WCGKGCSGDEREMAKMVADTISRTEKQVVVEGQEPANFWMALGGKAPYANTKRLQEENLV ITPRLFECSNKTGRFLATEIPDFNQDDLEEDDVFLLDVWDQVFFWIGKHANEEEKKAAAT TAQEYLKTHPSGRDPETPIIVVKQGHEPPTFTGWFLAWDPFKWSNTKSYEDLKAELGNSR DWSQITAEVTSPKVDVFNANSNLSSGPLPIFPLEQLVNKPVEELPEGVDPSRKEEHLSIE DFTQAFGMTPAAFSALPRWKQQNLKKEKGLF >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_1|6576_bp nggtctgccatcttagcctctcatccctctgtaggctccagagctaaggaccaccagccc tcgggtccggagtgtctgccactcccagaggccaatgctgaagccatcgacttcctcagc tccctccacaaggaggagctacagatgctgttcttctctgagacgctggccatggtctca gacaccggggagcctcagggagagctgaccattgaggtgcagagagggaaataccaggaa aaactcggcatgctgacatactgcctcttcgtgcatgcctctagccgaggcttcttggac aaaatgctctgcggaaattccctcctgggctatctctcagagaagctggagctcatggaa cagcacagccaagacttcatcaagttcctcatcctccccatggaacggaagatgagtttg ctgaagcaggatgatcagctggctgtgaccagaagtatcaaggagggtgagatcagttct gaacaggaagtgaagactggagtgacttctttcccctggagctcaatcaagggcttcatc tcagaggctgccaacctggtgctgctcagggtgatggcctggcggcggatggtgcccagc aatgcccgcttcctgaccttggacaccgagggcaaactctgctatttgacctatcaaaac ctgggcttccagaccatccaggtagaccatcagcaggctgaagtcttcatcgtggagcag actgtccacgcggaggagggcatccccatgtcctgccagtactacctgctctccgatggg cacctggccaagagaatacaggtgggctccccagggtgctgcatcatcaccaagatgccc atcttgagggaagaggatgagattgagccacgcccagtgtttgagaagaagcccctggta tgggaggaggatatggagctctattcgaagttcctggaccggaaggaggagctccggctc ggccacgccagctatctgcggcagcaccccgaagcccacgcgctcatctccgacttcctg ctcttcctgctgctgcgccagccggaggacgtggtcaccttcgccgccgagttcttcggc cccttcgacccgtggcacctgctgctgcagactccagagacgctttgctctctagtggac ggtgacaagggtccccaaaggctaagcgggtccagctatggttccatctccagcccgacc agcccgaccagcccagggccacagcaagcacctcccagagagacctacctgagtgagaag atccccatcccagacacaaaaccgggcaccttcagcctgcggaagctatgggccttcacg gggcctggcttcctcatgagcattgctttcctggacccaggaaacatcgagtcagatctt caggctggcgccgtggcgggattcaaacttctctgggtgctgctctgggccaccgtgttg ggcttgctctgccagcgactggctgcacgtctgggcgtggtgacaggcaaggacttgggc gaggtctgccatctctactaccctaaggtgccccgcaccgtcctctggctgaccatcgag ctagccattgtgggctccgacatgcaggaagtcatcggcacggccattgcattcaatctg ctctcagctggacgaatcccactctggggtggcgtcctcatcaccatcgtggacaccttc ttcttcctcttcctcgataactacgggctgcggaagctggaagctttttttggactcctt ataaccattatggccttgacctttggctatgagggagcgcttcttcggggcctgttcctg ccctcgtgcccgggctgcggccaccccgagctgctgcaggcggtgggcattgttggcgcc atcatcatgccccacaacatctacctgcactcggccctggtcaagtctcgagagatagac cgggcccgccgagcagacatcagagaagccaacatgtacttcctgattgaggccaccatc gccctgtccgtctcctttatcatcaacctctttgtcatggctgtctttgggcaggccttc taccagaaaaccaaccaggctgcgttcaacatctgtgccaacagcagcctccacgactac gccaagatcttccccatgaacaacgccaccgtggccgtggacatttaccaggggggcgtg atcctgggctgcctgttcggccccgcggccctctacatctgggccataggtctcctggcg gctgggcagagctccaccatgacgggcacctacgcgggacagttcgtgatggagggcttc ctgaggctgcggtggtcacgcttcgcccgtgtcctcctcacccgctcctgcgccatcctg cccaccgtgctcgtggctgtcttccgggacctgagggacttgtcgggcctcaatgatctg ctcaacgtgctgcagagcctgctgctcccgttcgccgtgctgcccatcctcacgttcacc agcatgcccaccctcatgcaggagtttgccaatggcctgctgaacaaggtcgtcacctct tccatcatggtgctagtctgcgccatcaacctctacttcgtggtcagctatctgcccagc ctgccccaccctgcctacttcggccttgcagccttgctggccgcagcctacctgggcctc agcacctacctggacgggggacggcagagtaatgggcaggttggtcaagaagacacggag acccggctaaagggctacccaggacctgggcaaagggctagtgatgaggtcgcgccaaga ccgggggcacctcgccctggggctgcggggggcggcgaccgtcccattcaagagcgtgat tctgaggtttgcacagctgtttcgggccagcagagccttcgctggctcttgacgtccttg cgaggtgatctctgcgaccaccagacaggagagaagacccattttacagatgaggtagtg ctatctccaagtcctcaacgaggaaaccgagaagcctctagtcccgggtcttcagaaaac gcagaggtggagccgcgccgcactcgggcactccccggcgtgggcgctcccggcgggcgg gccttggccgagggcgctcggcggcctggaacgccgggggggaggccgggcgcccgggcc agagtccggccggagcggagcgcgcccggccccatggacagctcggccgtcattactcag atcagcaaggaggaggctcggggcccgctgcggggcaaaggtgaccagaagtcagcagct tcccagaagccccgaagccggggcatcctccactcactcttctgctgtgtctgccgggat gatggggaggccctgcctgctcacagcggggcgcccctgcttgtggaggagaatggcgcc atccctaagcagaccccagtccaatacctgctccctgaggccaaggcccaggactcagac aagatctgcgtggtcatcgacctggacgagaccctggtgcacagctccttcaagccagtg aacaacgcggacttcatcatccctgtggagattgatggggtggtccaccaggtctacgtg ttgaagcgtcctcacgtggatgagttcctgcagcgaatgggcgagctctttgaatgtgtg ctgttcactgctagcctcgccaagtacgcagacccagtagctgacctgctggacaaatgg ggggccttccgggcccggctgtttcgagagtcctgcgtcttccaccgggggaactacgtg aaggacctgagccggttgggtcgagacctgcggcgggtgctcatcctggacaattcacct gcctcctatgtcttccatccagacaatgctgtaccggtggcctcgtggtttgacaacatg agtgacacagagctccacgacctcctccccttcttcgagcaactcagccgtgtggacgac gtgtactcagtgctcaggcagccacggccagggagctactcagagctgcacgactgggaa ctaggagccgtggcagcaccccacttacaacagagccgcaactcaagctcactcaccatg accaagctgagcgcccaagtcaaaggctctctcaacatcaccaccccggggctgcagata tggaggatcgaggccatgcagatggtgcctgttccttccagcacctttggaagcttcttc gatggtgactgctacatcatcctggctatccacaagacagccagcagcctgtcctatgac atccactactggattggccaggactcatccctggatgagcagggggcagctgccatctac accacacagatggatgacttcctgaagggccgggctgtgcagcaccgcgaggtccagggc aacgagagcgaggccttccgaggctacttcaagcaaggccttgtgatccggaaagggggc gtggcttctggcatgaagcacgtggagaccaactcctatgacgtccagaggctgctgcat gtcaagggcaagaggaacgtggtagctggagaggtagagatgtcctggaagagtttcaac cgaggggatgttttcctcctggaccttgggaagcttatcatccagtggaatggaccggaa agcacccgtatggagagactcaggggtgtagggtggcagacactgcctcattccccgact actcccgatgggtcaccaggggccttcctgcagggcatgactctggccaaggagatccga gaccaggagcggggagggcgcacctatgtaggcgtggtggacggagagaatgaattggca tccccgaagctgatggaggtgatgaaccacgtgctgggcaagcgcagggagctgaaggcg gccgtgcccgacacggtggtggagccggcactcaaggctgcactcaaactgtaccatgtg tctgactccgaggggaatctggtggtgagggaagtcgccacacggccactgacacaggac ctgctcagtcacgaggactgttacatcctggaccaggggggcctgaagatctacgtgtgg aaagggaagaaagccaatgagcaggagaagaagggagccatgagccatgcgctggtagtg aacttcatcaaagccaagcagtacccaccaagcacacaggtggaggtgcagaatgatggg gctgagtcggccgtctttcagcagctcttccagaagtggacagcgtccaaccggacctca ggcctaggcaaaacccacactgtgggctccgtggccaaagtggaacaggtgaagttcgat gccacatccatgcatgtcaagcctcaggtggctgcccagcagaagatggtagatgatggg agtggggaagtgcaggtgtggcgcattgagaacctagagctggtacctgtggattccaag tggctaggccacttctatgggggcgactgctacctgctgctctacacctacctcatcggc gagaagcagcattacctgctctacgtttggcagggcagccaggccagccaagatgaaatt acagcatcagcttatcaagccgtcatcctggaccagaagtacaatggtgaaccagtccag atccgggtcccaatgggcaaggagccacctcatcttatgtccatcttcaagggacgcatg gtggtctaccagggaggcacctcccgaactaacaacttggagaccgggccctccacacgg ctgttccaggtccagggaactggcgccaacaacaccaaggcctttgaggtcccagcgcgg gccaatttcctcaattccaatgatgtctttgtcctcaagacccagtcttgctgctatcta tggtgtgggaagggttgtagcggggacgagcgggagatggccaagatggttgctgacacc atctcccggacggagaagcaagtggtggtggaagggcaggagccagccaacttctggatg gccctgggtgggaaggccccctatgccaacaccaagagactacaggaagaaaacctggtc atcaccccccggctctttgagtgttccaacaagactgggcgcttcctggccacagagatc cctgacttcaatcaggatgacttggaagaggatgatgtgttcctactagatgtctgggac caggtcttcttctggattgggaaacatgccaacgaggaggagaagaaggccgcagcaacc actgcacaggaatacctcaagacccatcccagcgggcgtgaccctgagacccccatcatt gtggtgaagcagggacacgagccccccaccttcacaggctggttcctggcttgggatccc ttcaagtggagtaacaccaaatcctatgaggacctgaaggcggagcttggcaactctagg gactggagccagatcactgctgaggtcacaagccccaaagtggacgtgttcaatgctaac agcaacctcagttctgggcctctgcccatcttccccctggagcagctagtgaacaagcct gtagaggagctccccgagggtgtggaccccagcaggaaggaggaacacctgtccattgaa gatttcactcaggcctttgggatgactccagctgccttctctgctctgcctcgatggaag caacaaaacctcaagaaagaaaaaggactattttga >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_2|587_aa MSFMRPRVTGETLTKTRFAHLLVKKDICNSETKKDLLKKVKNAISATAERFSGYMQNDAH EFLSQCLDQLKEDMEKLNKTWKTEPVSGEENSPDISATRAYTCPVITNLEFEVQHSIICK ACGEIIPKREQFNDLSIDLPRRKKPLPPRSIQDSLDLFFRAEELEYSCEKCGGKCALVRH KFNRLPRVLILHLKRYSFNVALSLNNKIGQQVIIPRYLTLSSHCTENTKPPFTLGWSAHM AMKFTFKSKSSLALCLDSDSEDELKRSVALSQRLCEMLGNEQQQEDLEKDSKLCPIEPDK SELENSGFDRMSEEELLAAVLEISKRDASPSLSHEDDDKPTSSPDTGFAEDDIQEMPENP DTMETEKPKTITELDPASFTEITKDCDENKENKTPEGSQGEVDWLQQYDMEREREEQELQ QALAQSLQEQEAWEQKEDDDLKRATELSLQEFNNSFVDALGSDEDSGNEDVFDMEYTEAE AEELKRNAETGNLPHSYRLISVVSHIGSTSSSGHYISDVYDIKKQAWFTYNDLEVSKIQE AAVQSDRDRSGYIFFYMHKEIFDELLETEKNSQSLSTEVGKTTRQAL >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_2|1764_bp atgagcttcatgcgtccaagagtaactggagaaacattgacaaaaacacgctttgcacac ttgcttgttaaaaaagatatctgtaattcagagaccaaaaaggatttactcaagaaggtt aaaaatgccatttcagctacagcagagagattctctggttatatgcagaatgatgctcat gaatttttaagtcagtgtttggaccagctgaaagaagatatggaaaaattaaataaaact tggaagactgaacctgtttctggagaagaaaattcaccagatatttcagctaccagagca tacacttgccctgttattactaatttggagtttgaggttcagcactccatcatttgtaaa gcatgtggagagattatccccaaaagagaacagtttaatgacctctctattgaccttcct cgtaggaaaaaaccactccctcctcgttcaattcaagattctcttgatcttttctttagg gccgaagaactggagtattcttgtgagaagtgtggtgggaagtgtgctcttgtcaggcac aaatttaacaggcttcctagggtcctcattctccatttgaaacgatatagcttcaatgtg gctctctcgcttaacaataagattgggcagcaagtcatcattccaagatacctgaccctg tcatctcattgcactgaaaatacaaaaccaccttttacccttggttggagtgcacatatg gcaatgaaattcaccttcaaatccaagagctccttggctttatgccttgattcagacagt gaggatgagctaaaacgttctgtggccctcagccagagactttgtgaaatgttaggcaac gaacagcagcaggaagacctggaaaaagattcaaaattatgcccaatagagcctgacaag tctgaattggaaaactcaggatttgacagaatgagcgaagaagagcttctagcagctgtc ttggagataagtaagagagatgcttcaccatctctgagtcatgaagatgatgataagcca actagcagcccagataccggatttgcagaagatgatattcaagaaatgccagaaaatcca gacactatggaaactgagaagcccaaaacaatcacagagctggatcctgccagttttact gagataactaaagactgtgatgagaataaagaaaacaaaactccagaaggatctcaggga gaagttgattggctccagcagtatgatatggagcgtgaaagggaagagcaagagcttcag caggcactggctcagagccttcaagagcaagaggcttgggaacagaaagaagatgatgac ctcaaaagagctaccgagttaagtcttcaagagtttaacaactcctttgtggatgcattg ggttctgatgaggactctggaaatgaggatgtttttgatatggagtacacagaagctgaa gctgaggaactgaaaagaaatgctgagacaggaaatctgcctcattcgtaccggctcatc agtgttgtcagtcacattggtagcacttcttcttcaggtcattacattagtgatgtatat gacattaagaagcaagcgtggtttacttacaatgacctggaggtatcaaaaatccaagag gctgccgtgcagagtgatcgagatcggagtggctacatcttcttttatatgcacaaggag atctttgatgagctgctggaaacagaaaagaactctcagtcacttagcacggaagtgggg aagactacccgtcaggccttgtga >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_3|99_aa MSKDFMTKTPKAFATKAKTDKWDLIKLKSFCTAKETIIRVNRILLRHGGYTKKTNPPTPR QTPTLMDVELLPTDEQRKKSPEMKSNPGKETMNIVEVTT >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_3|300_bp atgagcaaagacttcatgactaaaacaccaaaagcatttgcaacaaaagccaaaacagac aaatgggatctaattaaactaaagagtttctgcacagcaaaagaaactatcatcagagtg aacagaatactgttaagacatggagggtacaccaagaagaccaacccccccaccccacga cagaccccgactttaatggatgtggagttgcttcctacggatgagcaaagaaagaagtct cctgagatgaaatctaatcctggtaaagaaaccatgaatattgttgaagttacaacatag >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_4|68_aa MQSIKTDFLQASAKRGSLETKDDIPFRKVLGNPGRGSIKTVAGSGIARTIPSLTSTSTPL RSGLLENR >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_4|207_bp atgcagtccatcaaaacagacttcctgcaggcttctgcaaaaagaggaagtttggaaact aaagatgatattccatttcgaaaagttcttggtaatccgggtagaggatcgattaagact gtagcaggaagtggaatagctcggacgattccttctttgacatctacttcaacacctctt agatcagggttgctagaaaatcggtag >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_5|1044_aa MHSLATAAPVPTTLAQVDREKIYQWINELSSPETRENALLELSKKRESVPDLAPMLWHSF GTIAALLQEIVNIYPSINPPTLTAHQSNRVCNALALLQCVASHPETRSAFLAAHIPLFLY PFLHTVSKTRPFEYLRLTSLGVIGALVKTDEQEVINFLLTTEIIPLCLRIMESGSELSKT VATFILQKILLDDTGLAYICQTYERFSHVAMILGKMVLQLSKEPSARLLKHVVRCYLRLS DNPRAREALRQCLPDQLKDTTFAQVLKDDTTTKRWLAQLVKNLQEGQVIWCQLVEQWVMA SLLQDQLTTDQDLLLMQEGMPMRKVRSKSWKKLRYFRLQNDGMTVWHARQARGSAKPSFS ISDVETIRNGHDSELLRSLAEELPLEQGFTIVFHGRRSNLDLMANSVEEAQIWMRGLQLL VDLVTSMDHQERLDQYRQDGVRVGAADTSQSGTLEGEEFVQFYKALTKRAEVQELFESFS ADGQKLTLLEFLDFLQEEQKERDCTSELALELIDRYEPSDSGKLRHVLSMDGFLSYLCSK DGDIFNPACLPIYQDMTQPLNHYFICSSHNTYLVGDQLCGQSSVEGYIRALKRGCRCVEV DVWDGPSGEPVVYHGHTLTSRILFKDVVATVAQYAFQTSDYPVILSLETHCSWEQQQTMA RHLTEILGEQLLSTTLDGVLPTQLPSPEELRRKILVKGKKLTLEEDLEYEEEEAEPELEE SELALESQFETEPEPQEQNLQNKDKKKIVAQAPISKPESLLLSRQKSKPILCPALSSLVI YLKSVSFRSFTHSKEHYHFYEISSFSETKAKRLIKEAGNEFVQHNTWQLSRVYPSGLRTD SSNYNPQELWNAGCQMVAMNMQTAGLEMDICDGHFRQNGGCGYVLKPDFLRDIQSSFHPE KPISPFKAQTLLIQVISGQQLPKVDKTKEGSIVDPLVKVQIFGVRLDTARQETNYVENNG FNPYWGQTLCFRVLVPELAMLRFVVMDYDWKSRNDFIGQYTLPWTCMQQGYRHIHLLSKD GISLRPASIFVYICIQEGLEGDES >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_5|3135_bp atgcacagcctggcgacggctgcgcctgtgcctactacactggcacaagtggatagagaa aagatctatcagtggatcaatgagctgtccagtcctgagactagggaaaatgctttgctg gagctaagtaagaagcgagaatctgttcctgaccttgcacccatgctgtggcattcattt ggtactattgcagcacttttacaggaaattgtaaatatttatccatctatcaacccaccc accttgacagcacaccagtctaacagagtttgcaatgctctggcattactgcaatgtgta gcatcacatccagaaaccaggtcagcgtttctcgcagcacacatcccactttttttgtac ccctttttgcacactgtcagcaaaacacgtccctttgagtatctccggctcaccagcctt ggagttattggggccctggtgaaaacagatgaacaagaagtaatcaactttttattaaca acagaaattatccctttatgtttgcgaattatggaatctggaagtgaactttctaaaaca gttgccacattcatcctccagaagatcttgttagatgacactggtttggcttatatatgt cagacgtatgagcgtttctcccatgttgccatgatcttgggtaagatggtcctgcagcta tccaaagagccttctgcccgtctgctgaagcatgtagtgagatgttaccttcgactttca gataaccccagggcacgtgaagcactcagacagtgcctccctgaccagctgaaagacaca accttcgcccaggtgctaaaagatgacaccaccacgaaacgctggcttgcacaactggtg aagaacctgcaagagggccaggtgatctggtgccagctggtggaacagtgggtgatggcg tccctgctgcaagaccagctgaccactgatcaggacttgctgctgatgcaggaaggcatg ccgatgcgcaaggtgaggtccaaaagctggaagaagctaagatacttcagacttcagaat gacggcatgacagtctggcatgcacggcaggccaggggcagtgccaagcccagcttctca atctctgatgtggagacaatacgtaatggccatgattccgagttgctgcgtagcctggca gaggagctccccctggagcagggcttcaccattgtcttccatggccgccgctccaacctg gacctgatggccaacagtgttgaggaggcccagatatggatgcgagggctccagctgttg gtggatcttgtcaccagcatggaccatcaggagcgcctggaccagtatcggcaggatgga gtcagggtgggggcagcagacacgtcccagtctggaaccctggaaggagaagaattcgta cagttctataaggcattgactaaacgtgctgaggtgcaggaactgtttgaaagtttttca gctgatgggcagaagctgactctgctggaatttttggatttcctccaagaggagcagaag gagagagactgcacctctgagcttgctctggaactcattgaccgctatgaaccttcagac agtggcaaactgcggcatgtgctgagtatggatggcttcctcagctacctctgctctaag gatggagacatcttcaacccagcctgcctccccatctatcaggatatgactcaacccctg aaccactacttcatctgctcttctcataacacctacctagtgggggaccagctttgtggc cagagcagcgtcgagggatatatacgggccctgaagcgggggtgccgctgcgtggaggtg gatgtatgggatggacctagcggggaacctgtcgtttaccacggacacaccctgacctcc cgcatcctgttcaaagatgtcgtggccacagtagcacagtatgccttccagacatcagac tacccagtcatcttgtccctggagacccactgcagctgggagcagcagcagaccatggcc cgtcatctgactgagatcctgggggagcagctgctgagcaccaccttggatggggtgctg cccactcagctgccctcgcctgaggagcttcggaggaagatcctggtgaaggggaagaag ttaacacttgaggaagacctggaatatgaggaagaggaagcagaacctgagttggaagag tcagaattggcgctggagtcccagtttgagactgagcctgagccccaggagcagaacctt cagaataaggacaaaaagaagattgtggcccaggctcctatttccaagcctgagtccctt ctcttgtcccggcagaaatccaagcccatcttgtgtccagccctctcttccctggttatc tacttgaagtctgtctcattccgcagcttcacacattcaaaggagcactaccacttctac gagatatcatctttctctgaaaccaaggccaagcgcctcatcaaggaggctggcaatgag tttgtgcagcacaatacttggcagttaagccgtgtgtatcccagcggcctgaggacagac tcttccaactacaacccccaggaactctggaatgcaggctgccagatggtggccatgaat atgcagactgcagggcttgaaatggacatctgtgatgggcatttccgccagaatggcggc tgtggctatgtgctgaagccagacttcctgcgtgatatccagagttctttccaccctgag aagcccatcagccctttcaaagcccagactctcttaatccaggtgatcagcggtcagcaa ctccccaaagtggacaagaccaaagaggggtccattgtggatccactggtgaaagtgcag atctttggcgttcgtctagacacagcacggcaggagaccaactatgtggagaacaatggt tttaatccatactgggggcagacactatgtttccgggtgctggtgcctgaacttgccatg ctgcgttttgtggtaatggattatgactggaaatcccgaaatgactttattggtcagtac accctgccttggacctgcatgcaacaaggttaccgccacattcacctgctgtccaaagat ggcatcagcctccgcccagcttccatctttgtgtatatctgcatccaggaaggcctggag ggggatgagtcctga >gi568815596r:218354935_218658653|GENSCAN_predicted_peptide_6|1871_aa MDGLCPELLLIPPPLSNRGILGPVQSPCPSRDPAPIPTEPGCLLVEATATEEGPGNMEII VETVAGTLTPGAPGETPGVLVKVVEVYFCERCEQSFAEPTLLALHQCSETHIQPVQGLSS PPCSVELPPSNPTLPGPLQGQSPPVSPLSCPVCRQEFAQPQALKSHFKIHRGTPDTFSCP ESGCVFSAEDRKGLQHHLRQTHRAVPVPCSFRGCPLLFGSQQGMELHRQAHYPFHCSHCS FIGSNVKLFRQHQRSHGAGTQGELSAVQGLPSQELLPAPKLPPGEREPSQEAGTPLPGQE TAEEENVEKEEKSDTQKDSQKAVDKGQGAQRLEGDVVSGTESLFKTHMCPECKRCFKKRT HLVEHLHLHFPDPSLQCPNCQKFFTSKSKLKTHLLRELGEKAHHCPLCHYSAVERNALNR HMASMHEDISNFYSDTYACPVCREEFRLSQALKEHLKSHTAAAAAEPLPLRCFQEGCSYA APDRKAFIKHLKETHGVRAVECRHHSCPMLFATAEAMEAHHKSHYAFHCPHCDFACSNKH LFRKHKKQGHPGSEELRCTFCPFATFNPVAYQDHVGKMHAHEKIHQCPECNFATAHKRVL IRHMLLHTGEKPHKCELCDFTCRDVSYLSKHMLTHSNTKDYMCTECGYVTKWKHYLRVHM RKHAGDLRYQCNQCSYRCHRADQLSSHKLRHQGKSLMCEVCAFACKRKYELQKHMASQHH PGTPAPLYPCHYCSYQSRHKQAVLSHENCKHTRLREFHCALCDYRTFSNTTLLFHKRKAH GYVPGDQAWQLRYASQEPEGAMQGPTPPPDSEPSNQLSARPEGPGHEPGTVVDPSLDQAL PEMSEEVNTGRQEGSEAPHGGDLGGSPSPAEVEEGSCTLHLEALGVELESVTEPPLEEVT ETAPMEFRPLGLEGPDGLEGPELSSFEGIGTSDLSAEENPLLEKPVSEPSTNPPSLEEAP NNWVGTFKTTPPAETAPLPPLPESESLLKALRRQDKEQAEALVLEGRVQMVVIQGEGRAF RCPHCPFITRREKALNLHSRTGCQGRREPLLCPECGASFKQQRGLSTHLLKKCPVLLRKN KGLPRPDSPIPLQPVLPGTQASEDTESGKPPPASQEAELLLPKDAPLELPREPEETEEPL ATVSGSPVPPAGNSLPTEAPKKHCFDPVPPAGNSSPTEAPKKHHLDPVPPAGNSSPTEAL KKHRFEQGKFHCNSCPFLCSRLSSITSHVAEGCRGGRGGGGKRGTPQTQPDVSPLSNGDS APPKNGSTESSSGDGDTVLVQKQKGARFSCPTCPFSCQQERALRTHQIRGCPLEESGELH CSLCPFTAPAATALRLHQKRRHPTAAPARGPRPHLQCGDCGFTCKQSRCMQQHRRLKHEG VKPHQCPFCDFSTTRRYRLEAHQSRHTGIGRIPCSSCPQTFGTNSKLRLHRLRVHDKTPT HFCPLCDYSGYLRHDITRHVNSCHQGTPAFACSQCEAQFSSETALKQHALRRHPEPAQPA PGSPAETTEGPLHCSRCGLLCPSPASLRGHTRKQHPRLECGACQEAFPSRLALDEHRRQQ HFSHRCQLCDFAARERVGLVKHYLEQHEETSAAVAASDGDGDAGQPPLHCPFCDFTCRHQ LVLDHHVKGHGGTRLYKCTDCAYSTKNRQKITWHSRIHTGEKPYHCHLCPYACADPSRLK YHMRIHKEERKYLCPECGYKCKWVNQLKYHMTKHTGLKPYQCPECEYCTNRADALRVHQE TRHREARAFMCEQCGKAFKTRFLLRTHLRKHSEAKPYVCNVCHRAFRWAAGLRHHALTHT DRHPFFCRLCNYKAKQKFQVVKHVRRHHPDQADPNQGVGKDPTTPTVHLHDVQLEDPSPP APAAPHTGPEG >gi568815596r:218354935_218658653|GENSCAN_predicted_CDS_6|5616_bp atggatggactgtgccctgagctattgctgatccccccgcctctctctaaccgtggaatc ctggggcctgtccagagcccctgtccttcccgggaccctgcacctatacctactgagcca ggctgcctgctggtagaggccacagcaactgaagagggaccagggaacatggagatcatt gtggagacagtagctggaaccctgaccccaggtgctcctggagagaccccaggtgtcctg gtaaaggtggtggaggtgtacttctgtgagcgctgtgaacagagcttcgcagagcccact ctgctggccctgcaccagtgcagtgagacccatatacagcctgtgcagggcctctctagc cccccatgctctgtagagctgcctcccagcaacccaaccctccctggccctctgcagggc cagagcccgccagttagccccctatcatgccctgtgtgtagacaggagtttgcccaaccc caggccctgaagagccacttcaagattcaccggggcactcctgacaccttctcctgccca gaatctggctgtgtgttctctgctgaagatcgcaagggtctgcagcaccacctgaggcag actcacagagcagttcctgtgccctgttctttccggggctgccccctgcttttcgggagc cagcagggcatggagctgcaccggcaggcgcattaccctttccactgcagccactgcagc ttcataggctccaacgtcaaactcttccggcagcatcagcggagccatggtgctgggaca cagggagaactttctgccgttcagggccttccatcccaggagctgctgccagctcccaaa ctgcctccaggagagagagaaccttcacaggaagcaggtacacccttgcctgggcaggag acagctgaagaggagaatgtagagaaagaagagaagagtgacacccagaaggactcccaa aaggctgtggataaaggccaaggggctcagcggctggaaggggatgtggtctctggcacc gagtccctcttcaagacccatatgtgtccagagtgtaagcgctgctttaagaagcggact catctggtggagcacctgcatctccacttcccagaccccagcctccagtgccctaactgc cagaagttcttcaccagtaagagcaagctcaagacccatctgctgcgggagctgggtgaa aaggcccaccactgcccactgtgccactacagtgcggtggagaggaatgcactcaaccgc cacatggccagcatgcatgaagatatttccaacttctactcagacacctatgcctgtcct gtctgccgtgaggaattccgcctcagccaggccctaaaggagcacctcaagagccacacg gcagcagccgcagcagagccattaccccttcgctgctttcaggagggctgcagctatgca gcacccgaccgcaaggccttcattaagcacctgaaggagacccatggggtgcgggctgtg gagtgccgccatcactcatgtcccatgctctttgccacagccgaagccatggaggcccac cacaagagtcactacgccttccactgcccccactgtgattttgcttgttccaataagcac ctattccgtaaacacaagaagcagggccaccctggcagtgaagagctgcgctgcaccttc tgcccctttgccaccttcaacccagtggcttaccaggatcatgtaggcaagatgcatgct catgaaaagatccaccagtgtcctgagtgcaactttgccactgcccacaagagggtgctc atccgacacatgcttctacatacgggtgagaagccccacaagtgtgagctgtgtgacttc acatgccgagacgtgagctacctatccaagcacatgctgacccactccaacaccaaggat tacatgtgcactgaatgtggctatgtcaccaagtggaagcactacctccgtgtgcacatg cgaaaacatgcaggggacctcaggtatcagtgcaaccagtgctcctatcgctgtcaccgg gctgatcagctgagcagccacaagctgcggcatcagggcaagtctctgatgtgtgaggtg tgtgccttcgcctgcaagcggaagtatgagctgcagaagcacatggcttcccagcaccac cctggcacaccggccccactctacccttgccactactgcagttaccagagccgccacaag caggctgtgctgagccatgagaactgcaagcatacccgcctccgtgagttccactgtgcc ctctgtgactaccgcaccttcagcaacaccacactcttgttccataaacgcaaggcccat ggctatgtacctggagaccaggcctggcagctccgctatgcaagccaggagccagaaggg gccatgcagggcccaacacccccaccagattcagagccctcaaaccagctgtcagcccga cctgaggggccaggtcacgaacctgggactgtggtggaccccagcttggaccaggccctg ccagagatgagtgaggaggtcaacactggaagacaggagggcagtgaggctccccatggg ggtgacctgggtggcagtcccagcccagcagaggtggaggagggcagctgcacactacac ctagaggccctgggagtagagctggagtctgtgactgagccaccccttgaggaggtcact gaaacagcccctatggagttcaggcccctgggactggaagggccagatggactggaagga ccagagctatctagctttgaaggtattgggacttctgacttgagtgctgaagaaaatccc cttctggaaaagccagtgtctgagccctccacaaatcctccatccttagaggaggctcct aacaactgggtaggaaccttcaagacaactccacctgctgagacagcacccttgccccca ttacctgagtcagagtcattactcaaggccctaaggagacaggacaaagaacaagcagag gcattggtgctagaggggcgggtgcagatggtagtgatccagggagaggggcgagccttc cgctgcccacactgcccttttatcactcgccgggagaaggccctgaatctgcactccagg actgggtgccaaggccgccgagagcccctgctgtgccccgagtgtggggctagcttcaag caacaacgcggcctcagcacccacctgctgaagaagtgccctgttctactcagaaagaac aagggcttgcccagaccagattcacccatccctctgcaacctgtgctcccaggtacccag gcctcagaggacacagaaagtgggaagcccccacctgcatcacaagaagcagagctactg cttccaaaagatgctcctttggagcttcccagggagccagaagaaacagaagagcctctt gccacagtctctggttccccagtccctcctgcaggaaactccttgcccacagaggcccct aagaagcactgctttgacccagtccctcctgcaggaaactcctcacccacggaggcccct aagaagcaccaccttgacccagtccctcctgcaggaaactcctcacccacagaggccctg aagaagcaccgctttgagcagggcaagtttcactgcaactcctgcccattcctttgttcc cggctctcctctattacctctcacgtggctgaaggctgcagggggggacgtggcggggga ggaaaacgagggaccccccagacccagcctgatgtgtccccgttgagcaatggggactct gctcccccgaagaatgggagtacagagtccagctctggtgatggggatacagttctggtt caaaagcagaagggggctcgcttctcctgccctacatgtccctttagctgccagcaggaa cgggctctgaggactcaccagatccggggctgccccctcgaggagtctggagagctgcac tgcagcctctgcccattcactgctcctgctgccactgccttaaggctccaccagaagcgg aggcaccccactgcagccccagcccgtgggccccggccccatctacagtgtggggactgt ggcttcacctgtaaacagagccgttgcatgcagcagcaccggcggctcaagcacgagggg gtgaagccccatcagtgccccttctgtgacttttcgaccaccagacggtaccggttagag gctcaccagtcccgacacacaggcattggccgcatcccctgcagctcttgcccccagacg tttggtaccaactcgaaactgcgcttgcaccggttaagggtacatgacaaaacacctacc cacttctgtccactttgtgactatagtggctaccttcgccatgacatcactcgtcatgtc aacagctgccaccaaggcaccccagcctttgcctgctcccagtgtgaagcccagttcagc tcagagacagcacttaagcagcatgctctgcgccgacaccccgagcctgcacagcctgcc cctggctctcctgcagagaccactgagggccccctgcactgttcccgctgtgggttgctg tgccccagccctgccagcttacgaggacacacccgtaaacagcacccacggcttgagtgt ggggcctgccaggaggccttccctagccgactggctctggatgagcaccggaggcagcag catttcagccaccgctgtcagctctgtgactttgctgcccgggagcgggtgggcctggta aagcactacctggaacagcatgaggagacttcagcagccgtggcagcctcagatggggat ggggatgctggccagcccccgctacactgccccttttgtgacttcacatgccgccatcag ctggtactagatcaccatgtgaaagggcatgggggcactcgtctctacaagtgcaccgat tgtgcttacagcaccaagaaccgacagaagatcacctggcacagccgcatccacactggg gaaaagccttaccactgtcacctctgcccctatgcctgtgctgatccctctcgtctcaag taccacatgcggatccacaaggaggaacggaagtacctgtgccctgagtgtggctacaag tgcaagtgggtcaaccagctgaaataccacatgaccaagcatacaggactgaagccatac cagtgtcccgagtgtgagtactgcaccaaccgggctgatgcactgcgtgtgcaccaggag acccggcatcgagaagcacgggctttcatgtgtgagcagtgtggcaaggccttcaagacg cgcttcctgctgcgcacccaccttcgcaagcacagtgaggccaaaccctatgtgtgcaat gtgtgccaccgtgctttccgctgggctgctggcctgcgccatcatgccctcacccacacc gaccgccaccccttcttttgccgcctctgcaactacaaggccaagcaaaagttccaggtg gtcaagcacgtacgcaggcaccaccctgaccaagccgacccaaaccagggtgtgggcaaa gaccccaccacccccacagtgcacctgcatgatgtgcagctggaggatcccagccctcct gctcctgccgctccccacactggacctgagggctga