Result of GENSCAN for
pF1KE5805
GENSCAN 1.0 Date run: 8-Nov-116 Time: 03:37:49 Sequence gi568815586r:5463302_6022806 : 559505 bp : 44.43% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init - 2414 2339 76 2 1 75 58 89 0.161 5.85 1.00 Prom - 3397 3358 40 -1.76 2.00 Prom + 15124 15163 40 -1.36 2.01 Sngl + 22626 22958 333 2 0 91 44 148 0.640 6.73 2.02 PlyA + 25106 25111 6 1.05 3.00 Prom + 25306 25345 40 -4.66 3.01 Init + 27504 27619 116 2 2 109 69 88 0.945 8.68 3.02 Intr + 30166 30283 118 1 1 29 14 101 0.633 -2.73 3.03 Term + 30893 31687 795 1 0 128 38 829 0.908 75.18 3.04 PlyA + 31835 31840 6 1.05 4.22 PlyA - 32458 32453 6 1.05 4.21 Term - 47063 46960 104 0 2 124 43 91 0.695 6.64 4.20 Intr - 55628 55505 124 2 1 39 48 107 0.429 1.96 4.19 Intr - 57655 57495 161 2 2 98 52 78 0.508 4.91 4.18 Intr - 71456 71411 46 2 1 120 39 29 0.086 -0.82 4.17 Intr - 79002 78917 86 1 2 59 85 82 0.559 4.54 4.16 Intr - 82726 82629 98 0 2 21 116 48 0.049 0.55 4.15 Intr - 85101 84988 114 2 0 69 81 34 0.014 0.36 4.14 Intr - 91290 91212 79 1 1 96 69 39 0.014 1.41 4.13 Intr - 100267 100099 169 1 1 119 59 328 0.579 32.52 4.12 Intr - 102362 102257 106 1 1 95 109 74 0.991 10.42 4.11 Intr - 112714 112533 182 1 2 104 103 253 0.983 27.07 4.10 Intr - 114706 114654 53 2 2 107 111 54 0.999 8.23 4.09 Intr - 115217 115065 153 0 0 92 96 198 0.951 21.04 4.08 Intr - 136328 136111 218 1 2 100 97 144 0.805 14.65 4.07 Intr - 149657 149355 303 1 0 102 52 149 0.330 8.41 4.06 Intr - 151996 151885 112 2 1 83 105 146 0.986 15.24 4.05 Intr - 165115 164987 129 2 0 82 32 74 0.626 1.87 4.04 Intr - 166922 166848 75 0 0 78 100 42 0.828 3.89 4.03 Intr - 172046 171851 196 2 1 90 12 318 0.347 23.39 4.02 Intr - 184500 184426 75 0 0 132 46 71 0.646 7.01 4.01 Init - 185196 185158 39 0 0 72 53 28 0.418 -2.11 4.00 Prom - 187684 187645 40 -4.76 5.05 PlyA - 188641 188636 6 1.05 5.04 Term - 195631 195457 175 0 1 -27 39 275 0.966 8.33 5.03 Intr - 201847 201752 96 0 0 80 43 92 0.670 3.02 5.02 Intr - 206401 206239 163 2 1 42 110 60 0.247 2.63 5.01 Init - 206646 206559 88 0 1 54 113 26 0.307 2.51 5.00 Prom - 209867 209828 40 -4.26 6.04 PlyA - 212058 212053 6 1.05 6.03 Term - 219309 219110 200 1 2 111 41 69 0.770 2.06 6.02 Intr - 221982 221807 176 2 2 58 86 80 0.979 4.38 6.01 Init - 222055 222003 53 1 2 113 69 42 0.980 5.43 6.00 Prom - 226113 226074 40 -2.16 7.00 Prom + 232964 233003 40 -5.06 7.01 Sngl + 235188 235517 330 2 0 79 37 272 0.913 17.22 7.02 PlyA + 236425 236430 6 1.05 8.00 Prom + 236594 236633 40 -4.96 8.01 Init + 241061 241070 10 1 1 96 85 25 0.434 2.10 8.02 Intr + 255506 255643 138 0 0 76 71 70 0.849 4.54 8.03 Intr + 257696 257778 83 0 2 16 87 111 0.913 3.16 8.04 Term + 259913 260014 102 1 0 82 48 78 0.860 1.48 8.05 PlyA + 260393 260398 6 1.05 9.07 PlyA - 261273 261268 6 1.05 9.06 Term - 269329 269213 117 1 0 89 48 108 0.713 5.44 9.05 Intr - 273382 273350 33 1 0 86 102 9 0.571 0.52 9.04 Intr - 276098 276016 83 0 2 64 81 100 0.531 6.26 9.03 Intr - 281016 280856 161 2 2 82 63 117 0.924 8.23 9.02 Intr - 287669 287535 135 1 0 134 99 28 0.937 8.18 9.01 Init - 293223 293171 53 0 2 87 47 73 0.525 3.73 9.00 Prom - 298217 298178 40 -3.56 10.11 PlyA - 298285 298280 6 1.05 10.10 Term - 323731 323586 146 2 2 80 32 171 0.973 8.77 10.09 Intr - 324123 323988 136 0 1 -17 73 57 0.034 -6.16 10.08 Intr - 324323 324195 129 2 0 63 77 56 0.025 2.89 10.07 Intr - 327897 327849 49 2 1 58 69 63 0.045 0.08 10.06 Intr - 329695 329552 144 0 0 59 69 86 0.517 3.20 10.05 Intr - 336270 336206 65 0 2 87 110 50 0.752 4.62 10.04 Intr - 342792 342751 42 0 0 88 121 55 0.972 7.24 10.03 Intr - 344067 344012 56 1 2 130 105 20 0.958 6.60 10.02 Intr - 347700 347633 68 2 2 87 81 24 0.403 0.15 10.01 Init - 353560 353520 41 1 2 75 66 52 0.201 1.36 10.00 Prom - 354074 354035 40 -4.86 11.00 Prom + 355210 355249 40 -7.06 11.01 Init + 358428 358518 91 2 1 104 111 40 0.481 8.55 11.02 Intr + 362088 362414 327 1 0 83 94 98 0.862 5.57 11.03 Term + 362574 362707 134 1 2 43 48 144 0.894 4.15 11.04 PlyA + 363128 363133 6 1.05 12.09 PlyA - 363211 363206 6 -0.45 12.08 Term - 363980 363805 176 0 2 57 49 75 0.458 -1.58 12.07 Intr - 364519 364468 52 1 1 97 82 86 0.922 7.38 12.06 Intr - 367188 367134 55 2 1 102 87 111 0.981 11.38 12.05 Intr - 369302 369151 152 2 2 112 76 191 0.965 19.26 12.04 Intr - 395397 395310 88 2 1 68 100 62 0.339 5.37 12.03 Intr - 398385 398301 85 1 1 100 40 71 0.365 2.38 12.02 Intr - 398789 398534 256 2 1 83 30 103 0.354 1.02 12.01 Init - 400171 400160 12 1 0 59 119 17 0.444 1.44 12.00 Prom - 401595 401556 40 -7.46 13.00 Prom + 402943 402982 40 -6.36 13.01 Init + 405438 405733 296 2 2 94 49 65 0.190 -0.09 13.02 Intr + 408739 408798 60 1 0 76 97 43 0.546 1.85 13.03 Intr + 415824 415951 128 0 2 110 99 71 0.750 10.72 13.04 Intr + 424867 425031 165 2 0 31 44 102 0.207 0.03 13.05 Intr + 426493 426585 93 2 0 55 84 77 0.667 3.94 13.06 Term + 426767 426804 38 0 2 107 38 18 0.327 -3.80 13.07 PlyA + 428542 428547 6 1.05 14.37 PlyA - 429443 429438 6 1.05 14.36 Term - 430635 430407 229 2 1 47 47 153 0.042 3.20 14.35 Intr - 444845 444736 110 2 2 101 3 108 0.038 2.68 14.34 Intr - 447711 447689 23 1 2 111 80 12 0.077 -0.04 14.33 Intr - 451066 450997 70 1 1 117 57 37 0.173 2.25 14.32 Intr - 458065 457739 327 1 0 118 105 433 0.993 43.89 14.31 Intr - 459503 459319 185 0 2 119 65 82 0.941 8.51 14.30 Intr - 460373 460288 86 1 2 78 96 28 0.304 2.06 14.29 Intr - 485902 485718 185 1 2 113 61 225 0.167 20.89 14.28 Intr - 486582 486485 98 1 2 102 110 133 0.997 16.63 14.27 Intr - 488582 488543 40 2 1 85 84 15 0.994 -1.40 14.26 Intr - 489218 489090 129 2 0 128 64 126 0.998 15.09 14.25 Intr - 490293 490195 99 0 0 67 97 20 0.538 1.11 14.24 Intr - 504301 504185 117 1 0 91 99 106 0.978 12.66 14.23 Intr - 504866 504826 41 0 2 137 72 64 0.985 7.64 14.22 Intr - 506090 505910 181 2 1 83 79 106 0.540 8.64 14.21 Intr - 508408 508351 58 0 1 128 48 27 0.553 1.59 14.20 Intr - 508924 508761 164 1 2 74 77 32 0.358 -0.53 14.19 Intr - 512959 512810 150 1 0 91 109 238 0.986 26.56 14.18 Intr - 518690 518485 206 0 2 67 116 132 0.947 12.82 14.17 Intr - 519953 519849 105 0 0 80 91 98 0.951 9.49 14.16 Intr - 521818 521744 75 2 0 116 68 78 0.766 8.09 14.15 Intr - 522364 522262 103 1 1 89 100 41 0.994 5.15 14.14 Intr - 528717 528518 200 1 2 103 91 155 0.923 16.37 14.13 Intr - 530902 530561 342 2 0 106 89 321 0.999 29.40 14.12 Intr - 531306 531114 193 0 1 91 83 89 0.953 7.77 14.11 Intr - 531560 531426 135 2 0 71 76 34 0.695 1.26 14.10 Intr - 532921 532701 221 2 2 83 78 199 0.616 16.42 14.09 Intr - 548493 548316 178 0 1 120 76 207 0.999 22.19 14.08 Intr - 548829 548786 44 1 2 87 110 27 0.998 2.76 14.07 Intr - 550344 550180 165 1 0 72 105 162 0.983 16.23 14.06 Intr - 552931 552788 144 2 0 97 61 148 0.986 13.25 14.05 Intr - 553355 553215 141 0 0 90 22 142 0.821 8.12 14.04 Intr - 553653 553453 201 1 0 39 80 185 0.338 12.06 14.03 Intr - 556442 555064 1379 1 2 109 72 2398 0.527 228.83 14.02 Intr - 557558 557401 158 2 2 53 51 116 0.756 3.21 14.01 Init - 559456 559439 18 1 0 90 94 4 0.339 1.00 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 115445 115391 55 2 1 100 80 5 0.935 2.35 S.002 Init + 153916 154514 599 0 2 59 68 273 0.822 17.18 S.003 Intr + 154920 155044 125 0 2 56 90 36 0.804 0.83 S.004 Term - 485902 485714 189 1 0 113 54 244 0.830 20.95 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_1|26_aa MGAWKSEKLKALRGHQQSECEPHDFX >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_1|78_bp atgggggcctggaaatcagagaagctgaaagccttgcgtggccatcagcagtctgagtgc gagccacatgatttctnn >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_2|110_aa MAATGNRGERHLEEQKTVPAVSLQTPWFSGEGIQTRPPINIAADRQSIYLILVKGGCLCG SRETGGAIFDTSLLAKSKGVSLPSDHTFCSQVLWGPNQYGLSLSPTCCYG >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_2|333_bp atggcggccacagggaacagaggggagagacacctggaggagcaaaagacagtcccagct gtcagtcttcagacaccatggttttctggagaagggatccagaccagaccgccaatcaat atagccgcagaccgccagtcaatatacctcatccttgtgaaaggcggttgtctgtgtggc agcagggagacaggaggggccatatttgacacaagcctgctggccaagtctaaaggagtc agcctgccatctgaccacactttctgcagccaagtcctctgggggccaaatcagtatggt ttgagtttatccccgacttgctgctatggttga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_3|342_aa MASGGKPCGDRVGKDCCEPDVEEGALQTLGPSPVCVKGSAVAELRFVESVPGDGADQLVM RMYQKARQSTLERRPSRGILQVNKVMSILFYVIFLAYLRGIQGNNMDQRSLPEDSLNSLI IKLIQADILKNKLSKQMVDVKENYQSTLPKAEAPREPERGGPAKSAFQPVIAMDTELLRQ QRRYNSPRVLLSDSTPLEPPPLYLMEDYVGSPVVANRTSRRKRYAEHKSHRGEYSVCDSE SLWVTDKSSAIDIRGHQVTVLGEIKTGNSPVKQYFYETRCKEARPVKNGCRGIDDKHWNS QCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCALSRKIGRT >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_3|1029_bp atggcatctgggggaaagccttgtggggaccgtgttggtaaagattgctgtgagccagat gtagaggagggagctctccagactctgggtccctcgcccgtgtgcgtcaagggcagtgct gtggcagagctgcgttttgtggagagcgtccccggggatggagcagatcagttggtgatg cgtatgtatcagaaagctcggcagagcaccctggaacgtaggccctctcgcggaatctta caggtgaacaaggtgatgtccatcttgttttatgtgatatttctcgcttatctccgtggc atccaaggtaacaacatggatcaaaggagtttgccagaagactcgctcaattccctcatt attaagctgatccaggcagatattttgaaaaacaagctctccaagcagatggtggacgtt aaggaaaattaccagagcaccctgcccaaagctgaggctccccgagagccggagcgggga gggcccgccaagtcagcattccagccggtgattgcaatggacaccgaactgctgcgacaa cagagacgctacaactcaccgcgggtcctgctgagcgacagcacccccttggagcccccg cccttgtatctcatggaggattacgtgggcagccccgtggtggcgaacagaacatcacgg cggaaacggtacgcggagcataagagtcaccgaggggagtactcggtatgtgacagtgag agtctgtgggtgaccgacaagtcatcggccatcgacattcggggacaccaggtcacggtg ctgggggagatcaaaacgggcaactctcccgtcaaacaatatttttatgaaacgcgatgt aaggaagccaggccggtcaaaaacggttgcaggggtattgatgataaacactggaactct cagtgcaaaacatcccaaacctacgtccgagcactgacttcagagaacaataaactcgtg ggctggcggtggatacggatagacacgtcctgtgtgtgtgccttgtcgagaaaaatcgga agaacatga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_4|873_aa MAWVNWTQSEGKRDDEDKLTWKDRFPGYLMNFASILFMIALTFSIVFGVIVYRITTAAAL SLNKATRSNVRVTVTATAVIINLVVILILDEIYGAVAKWLTKIDLLIVEEAVSIRFAHQV QTAGVNNPKKFKFIGRATGNTTKVPEDLECSALTYVNDKRSSISGDGDNRVEVPKTEQTF EERLILKAFLLKFVNAYSPIFYVAFFKGRFVGRPGSYVYVFDGYRMEEASTATGVSCLAP QPSPILISSTAWLHSRPCFSELPFVLTGPFLIFSLQCAPGGCLMELCIQLSIIMLGKQLI QNNIFEIGVPKLKKLFRKLKDETEAGETDSAHSKHPEQWDLDYSLEPYTGLTPEYMEMSE NPWSCLPLGAGSDKGSVGLKGEVIQFGFVTLFVASFPLAPVFALLNNVIEVRLDAKKFVT ELRRPDAVRTKDIGIWFDILSGIGKFSVISNAFVIAITSDFIPRLVYQYSYSHNGTLHGF VNHTLSFFNVSQLKEGTQPENSQFDQEVQFCRFKDYREPPWAPNPYEFSKQYWFILSARL AFVIIFQNLVMFLSVLVDWMIPDIPTDISDQIKKEKSLLVDFFLKEEHEKLKLMDEPALR SPGDTPVKFFSTYVDSRSTALFHVRYVKSRLGHSLLTHSLLFKLLPPTPCCFAWALAASE QSSHSMERDQAVVLVLAPLLKATSGLPGSLCSSHPFIPGKDAEKALGKIQHPFMIKILST IGIEGTYLKAFGGPQMDIWLQGLKTLAASPWKTDHDLCEDTVPEAPACLRSSQFEEEPTA KHMDLISCLQWNSLQTEKIYFPPFSICSVLPADPFGPHQQAPVPAGMQLVQPMQNASRRL SSYEVLGPVQALERQRLNSHNSHVLLITFPLLY >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_4|2622_bp atggcctgggtgaactggacccagtccgaggggaaaagggatgatgaagataaactgacc tggaaggatcgtttcccaggttacctgatgaactttgcctccatcttattcatgattgcc ctgacattctcaatcgtctttggggtgatagtgtatcgaataacaactgcagccgctctg tctctcaataaggctacacgctccaatgtccgggtgacagtgacagcaacagcagtcatc atcaacctcgtggtcatcctcatcctggacgagatctacggcgctgtggccaagtggctc accaaaattgatctcttgatagttgaggaggctgtgagtatacgctttgctcaccaggtg caaacagctggtgtcaataaccccaaaaagtttaaatttattgggagagcaacaggaaac accacaaaggttccagaagatttagaatgcagtgcactcacatatgtgaatgacaagagg tcgagtatttctggggatggggacaaccgtgtggaggttccgaaaacagaacagactttt gaagagcgcctgatcctcaaagctttcttgctcaagtttgtcaatgcctactcccccatc ttctatgtggcctttttcaaagggaggtttgtgggcaggcctggaagctacgtctatgta ttcgatggttaccgcatggaagaggcaagtacagccactggtgtttcatgcctggcaccc caacccagccccattcttatctccagcacagcatggcttcattcgcgcccctgcttctca gagctcccttttgttctaaccggtcctttccttatcttctccctgcagtgtgctccaggg ggctgtctcatggagctctgcattcagctcagcatcatcatgttggggaagcagttgatc cagaacaacatctttgagattggagtcccgaagctaaagaaactatttcgaaagctgaaa gatgagaccgaagctggagaaactgactctgcccattcgaaacatccagagcagtgggac ctagactacagcttggaaccatacacaggactgactccggagtacatggaaatgagtgag aacccatggtcctgccttccactgggggcaggttcagacaaggggtctgtggggttgaag ggggaagtcatccagtttggttttgtcaccctcttcgtggcctcctttcccctggcacct gtgtttgccctcctcaacaacgtcattgaagtgcggctcgatgcaaagaagtttgttaca gagctgagacggccggatgctgtaagaaccaaagatatcggaatctggtttgacattctc tctggaattggcaagttctctgttatcagcaacgcttttgtcattgcgatcacctccgac tttatcccccgcctggtgtaccagtactcctacagtcacaatgggactctgcacggcttt gtcaaccacaccctctcctttttcaacgtcagccagctgaaggaggggacgcagccagaa aactcacagtttgaccaggaggttcagttctgcaggtttaaggattaccgagagccgcca tgggccccgaacccttatgagttttcgaaacagtactggtttattctgtccgcccgtctg gcttttgtcataatcttccagaacctcgtgatgttcctgagcgtcctcgtggactggatg attccagacatccccacggacatcagcgaccagatcaagaaagagaagagcttattagtg gatttcttcctgaaagaggagcatgagaagctcaagctgatggatgagccggctctgagg agcccaggagatacccctgtaaagttcttctccacgtatgtggacagcagaagtacagca cttttccatgtacgttatgtcaaaagcagactcggacacagccttctcacacattccctg ctcttcaagcttcttccaccaaccccctgctgctttgcctgggcactggcagcttcagag cagagctcccactcaatggaaagggatcaagcagtagtactggtgctggctcctctcctc aaggccacatcagggctgcctggtagcctctgctccagtcatcccttcattccagggaaa gatgcagaaaaagcacttggcaaaatccagcatccttttatgattaaaattctcagcaca atcggcatagaagggacatacctcaaggcgtttggtggccctcagatggacatatggctt caaggactcaagactcttgcagcctccccatggaaaacagaccatgacttatgtgaagac acagtccccgaggcacctgcttgtctacgaagcagccagtttgaggaagaacctacagcc aaacacatggaccttataagctgtttgcagtggaattctctgcagactgagaagatctac tttccacccttctccatctgctcggtgctgccggctgacccatttggaccacaccaacag gccccagtgcccgctggcatgcaattggtccagcccatgcagaatgccagcaggagattg agcagttacgaagtgctaggccctgtacaagcacttgagcggcaacgactcaattcccac aactcccacgtgctgctcatcacttttcctctgctctactga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_5|173_aa MDTTAYVCEGSAIHQTLSELLSSLIVRVKELPILPAIYDKPTANIILNGQKLEAFPLKTN TRQGCPLSPLLFNIVLEVLARTIRDILQFREETELKGMWKKNVTEMQGVGLLVGLSNDDD DAAVADDDFNDDNDVDDDDDIDDKDNIDAADDLMMMLMMMILMTMIILMLMMI >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_5|522_bp atggacacaactgcttatgtctgtgaaggatcagcaattcatcagacacttagtgagtta ctttcttctctgattgtcagagtgaaagaattaccaatacttccagccatttatgacaaa cccacagccaatatcatcctgaatgggcaaaagctggaagcattccccttgaaaaccaac acaaggcaaggatgccctctttcaccgctcctattcaacatagtattggaagttctggct aggacaatcagagacatcctgcagttcagggaagaaacggagctgaagggcatgtggaag aagaatgtcacggagatgcaaggggttgggttattggttggcttaagcaatgatgatgat gatgctgctgttgctgatgatgattttaatgatgataatgatgttgatgatgatgatgat attgatgacaaggataatattgatgctgctgatgatttaatgatgatgttgatgatgatg atattgatgacaatgataatattgatgctgatgatgatttaa >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_6|142_aa METRGDPWGHAKSLIATLTLPQSSENGQVQRQPIEPDDLRTKPFSKWLSKYLELSWPFLP LTSPGVDRTRASYLSQGHDLSWGAESSQDIGTEQHELQELLALPAARTLDCHKHSSFYLR PITTQASSPIVTTDLPYSPPFA >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_6|429_bp atggagactcgtggagacccctggggccatgccaagagtcttattgctaccctcactctt ccccagtcctctgagaatggccaggttcagagacagcccattgagcctgatgacctgagg accaagcccttctccaagtggctgagcaaatacttggagctttcttggcctttcctgcca ctcaccagcccaggagtggacaggactcgtgcctcatacctgagccaagggcatgacctg agctggggggcagaaagttcccaggacattggaactgaacagcatgaactgcaggagctc ttagccttgcctgcagcccgaacccttgactgccataagcacagttctttttatctcaga cccattactacccaggcctccagccccattgtcaccactgacctcccatattccccaccc tttgcctag >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_7|109_aa MRRNQTRKAENSKNQSTSSPPKERSSLPAMEKSWMENDFDELREEGFRQSNFSELKEDVR TRRKEAKNLEKRLDEWLTRITSVEKSLNDLMELKTMARELCDTCTSFSS >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_7|330_bp atgaggagaaaccagaccagaaaagctgaaaattctaaaaatcagagtacctcttctcct ccaaaggaacgcagctccttgccagcaatggaaaaaagctggatggagaatgactttgac gagttgagagaagaaggcttcagacaatcaaatttctccgagctaaaggaggatgttcga acccgtcgcaaagaagctaaaaaccttgaaaaaagactagacgaatggctaactagaata accagtgtagagaagtccttaaatgacctgatggagctgaaaaccatggcacgagaacta tgtgacacatgcacaagcttcagtagctga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_8|110_aa MRPVAVTLHTSITCWTALPLAAPISTVQFPAWFQFPLEDLALGHLLLMGGSVQGDVYGRI LHISGILLHEARTTLEISPAAHSPLTLRCDVVAVKAGSPFGGLELLLGGC >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_8|333_bp atgcgccctgtggctgtaactcttcatacttccattacttgctggactgcccttcccttg gcggccccaatttccaccgtgcagtttcctgcatggttccagttcccactagaggacctg gcgctgggccacctcctactgatgggaggctccgtgcagggagatgtttatggacgcatt ctacacatctctggcatccttctccatgaagcccgaaccacgctggagattagtccagct gctcacagtccactcacattgcggtgtgatgtggtggccgtgaaggctggctctcccttt ggtggtttggagctgctgcttggaggctgctag >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_9|193_aa MTDEGLCLLKAVSKNWKRKYFGEKIGLYFAWLGLYTSFLIPSSVIGVIVFLYGCATIEED IPSREMCDQQNAFTMCPLCDKSCDYWNLSSACGTAQASHLFDNPATVFFSIFMALWATMF LENWKRLQMRLGYFWDLTGIEEEEAMGRHEDQDNKEHSRPEYETKVREKMLKESNQSAVQ KLETNTTECGDEV >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_9|582_bp atgactgatgaaggtctttgcctgctgaaagcagtcagtaagaactggaagagaaagtat tttggagaaaaaattggactgtattttgcctggctgggattatatacatcattcctcatc ccatcttctgtaattggagtgattgtgtttctttatggatgtgcaacaattgaagaagat attcccagcagagagatgtgtgaccagcagaatgccttcaccatgtgtcccctgtgtgac aagtcctgtgattactggaacctcagctcagcctgtgggaccgcgcaggccagccacctg tttgacaaccctgccaccgtcttcttctctatcttcatggctctgtgggctaccatgttc ctggaaaactggaagaggctacagatgcgactgggctacttttgggacctgactggcata gaagaggaagaagccatgggaaggcatgaagatcaggataacaaggaacattccaggcct gagtatgaaaccaaagttcgagagaaaatgctaaaggagagcaaccagtctgctgtccag aaattggaaacaaacacgacggagtgtggcgatgaggtatga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_10|291_aa MQTDVETDCDEAMWKPDMSMKLNARSQALYDKYVFSGINSLIANNIYEAAYPLHDGEYDS PEDDMNDRKLLYQEWARYGVFYKFQPIDLISLIIVIVLLGTHWWGNLEEEEPYIHLTEAV KPPHILHYPDTGPGDTEMICSFGNQTPKQVSTVCKALFYPLAFANSQHPVEIDTIILIIQ KRKLKHKDIIKWPKVTRLALGCWSFSSVAEMLVGSQVTEELLGWLGILDRTLRKGYIIER FGLCCAPVDMKHLSLLTYGGCVSGNVNDCCEHITQPALIKDQFTMPFVCMI >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_10|876_bp atgcagacagacgtggaaacagattgtgatgaggcaatgtggaaaccagatatgtctatg aagcttaatgctaggtctcaggctttgtatgacaagtatgtgttttcaggtattaactct ctgatcgcaaacaatatctatgaggctgcctaccctcttcatgacggtgaatacgatagt ccagaggacgatatgaatgacaggaagctgctatatcaagaatgggcgcgctatggagtg ttctataagttccaacctattgacctcatcagccttatcatcgtgattgtccttcttggg actcactggtggggtaacttggaagaggaggagccttacatacacctcactgaagcagtt aagccaccacatattttgcattatccagacactggtcctggggatacggagatgatttgc agcttcggcaaccagacacccaagcaagttagcactgtgtgcaaagcactgttctacccc ttggcatttgctaactcacaacaccccgtcgagatcgatactatcatcctcattatacag aagaggaaattgaagcacaaagacattattaagtggcccaaagtcacaaggttggcactg ggatgctggagcttcagctctgtagcggagatgcttgtggggagccaggtcacggaggag cttttgggctggttagggattttggaccgtaccctaaggaaagggtacatcattgaaagg tttggcttatgttgtgctccagtggacatgaagcatctctccctgctcacctatggtggc tgtgttagtgggaatgtgaatgactgctgtgaacatatcactcagcctgcgctcatcaag gaccagtttaccatgccctttgtgtgcatgatctaa >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_11|183_aa MAPELPIMNWVPSDPSNHKVGHEQQHSIIKPRIHGSKNQGTEVEVAPLTIAPSDPLAKFL LPVPTALRSAGLEILVSEGGMLPPGDTTTIPLNWKLRLPPGHFGLLLPLSQQAKEGITVL AGVIDPDHQDEISLLLHNRGRKPRPAEVLPEGKGNTECLVKKVVINTSYDHMTSCRNEDC QLS >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_11|552_bp atggcacctgaactgcctataatgaactgggtgccttctgacccatctaaccataaagtg ggtcatgaacagcagcattccatcatcaaacccaggattcacgggtccaagaatcaaggc actgaagtggaagtggcaccactcaccatcgcccctagtgatccactagcaaaatttttg cttcctgttcccacagcattacgttctgctggcctagagatcttagtttcagagggagga atgctgccaccaggagacacaacaacaattccattaaactggaagttaagattgccacct ggacactttgggctcctcctacctttaagtcaacaggctaaggagggaattacagtgttg gctggggtgattgacccagaccatcaagatgaaatcagtctactactccacaacagagga agaaaaccacgacctgctgaggtgcttcctgaaggcaaagggaatacagaatgtttagtg aagaaggtagtcatcaacaccagctacgaccacatgaccagctgcagaaacgaggactgc caattgtcatga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_12|291_aa MVQLEDQAEPAPNQRLYILESQKEVKALIFTMTQVDYGVPQMEQMGGLSQMNSCSYFKSP LSQGYTSLSSFACDDGCPGHHLSTPVLQLSPFPGADVLQLTFLPHSRARDQSTLRPLGHT SRDFTYFICSSHNSHATFLILLIQIKKMYEIKAGGSIAKKFSAALQKLSSHLQPRVPEHS NNKMKNLSYPFSREKMYLYNIQEKDTFFDNATRSRIVHEILKRTACSRANNTMAFFSPYP AESVCPVVCFLNIRVIVLEAFGTKYKAGSIRQAVQILTDCVEDICDGPGTM >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_12|876_bp atggtgcagctggaggaccaggcagagcctgctccgaatcagaggctgtacattcttgag agccaaaaggaagttaaggctttgatcttcacgatgacacaggtagactatggtgttcct caaatggagcagatgggaggcctgtctcagatgaattcctgctcttatttcaaaagccct ctgtctcaaggctacacctcactctcctccttcgcctgtgacgatggctgccctggccac catctcagcacccctgtcctccagctgtcgccattcccgggcgccgatgtgctgcagctg acgttcttgcctcacagcagggcccgggaccagagtacactcaggccccttgggcacact agcagggacttcacctacttcatctgcagttctcacaacagccatgcaacatttctcatc ctccttattcagataaagaagatgtacgagatcaaagcaggaggcagcattgcaaagaag ttcagcgcggctctgcagaagctgagctcgcacctgcagccccgagttccagaacacagc aacaacaagatgaaaaacctctcctacccattctccagggagaagatgtacctgtacaac atccaggaaaaggacaccttctttgataatgccacccgcagccgcattgtgcacgagatc ctgaagcgcacagcctgctcccgagccaacaacacgatggcattcttctcaccatatccg gctgaatctgtttgccctgtggtttgtttcttaaatattagggtaattgtcttggaagca tttgggaccaagtataaggcaggcagtataaggcaggcagtccagatcctgacggattgt gtggaagacatctgtgatggcccaggtacaatgtga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_13|259_aa MTLHAHHMEPVLPETAGLEEKGSSALLIKSADDNKLGGSANSTREDRDINEKGPREFTKY GTGNHKMRFNAEECKELQLWGIIRNIDPGGEGEAGKRQRVREAVQKLALGCQPALNGDRY KDGEKGKEAEAGSELRSHVKLIPHKQFFLQIINNQQMKPQAGVKLQTFAVSVTALKAARL ELFFPPGGFVVSLASGVKLQTFAVSVTAHKNSVDPKRGINFLLIIELRSMKHPVQDPLPP PGGLEDSYLHLGKTSTAQK >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_13|780_bp atgaccctgcatgcacaccacatggaaccagtcctgcctgagaccgcaggtctggaagag aaggggtcatcagccctgctaattaaatctgcagatgataacaaactgggcggctctgca aacagcaccagagaggacagggatataaatgagaagggacctagggagtttacaaaatat gggacaggaaatcacaaaatgagattcaatgcagaagaatgcaaggaactccaactgtgg ggaataatcagaaacatagaccctggaggggaaggggaagctggaaaaaggcagagagtc agagaagcagtccagaaactagctctaggatgtcagccagctcttaatggggacaggtat aaggatggggaaaagggaaaggaagcagaagcagggtcagagctaaggagccacgtgaag ctgattccacataaacaattttttcttcaaatcatcaataatcagcagatgaagccgcag gcaggagtgaagctgcagaccttcgcggtgagtgttacagctcttaaggcggcgcgtctg gagttgttctttcctcccggtgggttcgtggtctcactggcttcaggagtgaagctgcag accttcgcggtgagcgttacagctcataaaaacagtgtggacccaaagagaggtattaac ttcctactgatcatagagcttcgctcaatgaagcaccccgtccaagaccctttaccacct cctggtggcctggaggactcatacctgcatcttgggaaaaccagcactgcccagaagtga >gi568815586r:5463302_6022806|GENSCAN_predicted_peptide_14|2099_aa MPTALQGQLPRCTLKLQAVCGQKSHSRLVASPGIKPQGDTSQAQGAAALSALLGVLKASH CDVVNLTCEACQEPGGLVVPPTDAPVSPTTLYVEDISEPPLHDFYCSRLLDLVFLLDGSS RLSEAEFEVLKAFVVDMMERLRISQKWVRVAVVEYHDGSHAYIGLKDRKRPSELRRIASQ VKYAGSQVASTSEVLKYTLFQIFSKIDRPEASRITLLLMASQEPQRMSRNFVRYVQGLKK KKVIVIPVGIGPHANLKQIRLIEKQAPENKAFVLSSVDELEQQRDEIVSYLCDLAPEAPP PTLPPDMAQVTVGPGLLGVSTLGPKRNSMVLDVAFVLEGSDKIGEADFNRSKEFMEEVIQ RMDVGQDSIHVTVLQYSYMVTVEYPFSEAQSKGDILQRVREIRYQGGNRTNTGLALRYLS DHSFLVSQGDREQAPNLVYMVTGNPASDEIKRLPGDIQVVPIGVGPNANVQELERIGWPN APILIQDFETLPREAPDLVLQRCCSGEGLQIPTLSPAPDPIGCQVVGLVAIVPAGTCVLT FLVVFADCSQPLDVILLLDGSSSFPASYFDEMKSFAKAFISKANIGPRLTQVSVLQYGSI TTIDVPWNVVPEKAHLLSLVDVMQREGGPSQIGDALGFAVRYLTSEMHGARPGASKAVVI LVTDVSVDSVDAAADAARSNRVTVFPIGIGDRYDAAQLRILAGPAGDSNVVKLQRIEDLP TMVTLGNSFLHKLCSGFVRICMDEDGNEKRPGDVWTLPDQCHTVTCQPDGQTLLKSHRVN CDRGLRPSCPNSQSPVKVEETCGCRWTCPCVCTGSSTRHIVTFDGQNFKLTGSCSYVLFQ NKEQDLEVILHNGACSPGARQGCMKSIEVKHSALSVELHSDMEAFRFLVHGHPYSITTAC FLVKLCKVKLCFLVKLFFILEELPTNIKVTVNGRLVSVPYVGGNMEVNVYGAIMHEVRFN HLGHIFTFTPQNNEFQLQLSPKTFASKTYGLCGICDENGANDFMLRDGTVTTDWKTLVQE WTVQRPGQTCQPILEEQCLVPDSSHCQVLLLPLFAECHKVLAPATFYAICQQDSCHQEQV CEVIASYAHLCRTNGVCVDWRTPDFCAMSCPPSLVYNHCEHGCPRHCDGNVSSCGDHPSE GCFCPPDKVMLEGSCVPEEACTQCIGEDGVQHQFLEAWVPDHQPCQICTCLSGRKVNCTT QPCPTAKAPTCGLCEVARLRQNADQCCPEYECVCDPVSCDLPPVPHCERGLQPTLTNPGE CRPNFTCACRKEECKRVSPPSCPPHRLPTLRKTQCCDEYECACNCVNSTVSCPLGYLAST ATNDCGCTTTTCLPDKVCVHRSTIYPVGQFWEEGCDVCTCTDMEDAVMGLRVAQCSQKPC EDSCRSNTVPYKLLGKCQVTSWGSPNLHVGEQYWDRVFVLYGRLALREWRLDPSHPECAS RASLTFCMKASAVEGACHLPVGSQWASPENPCLINECVRVKEEVFIQQRNVSCPQLEVPV CPSGFQLSCKTSACCPSCRCERMEACMLNGTVIGPGKTVMIDVCTTCRCMVQVGVISGFK LECRKTTCNPCPLGYKEENNTGECCGRCLPTACTIQLRGGQIMTLKRDETLQDGCDTHFC KVNERGEYFWEKRVTGCPPFDEHKCLAEGGKIMKIPGTCCDTCEEPECNDITARLQYVKV GSCKSEVEVDIHYCQGKCASKAMYSIDINDVQDQCSCCSPTRTEPMQVALHCTNGSVVYH EVLNAMECKCSPRKCSKGDTGIFLKWSCIPAEKGLQTSGAWVEAADIPLLPGSPRRLSPQ AGSRGGQGPKHGQQCLKMPGPRAPGLQGGSNRDPGQPCGGESTRSSSVINNYLDANEPVS LEARLSRMHFHDSQRKVDYVLAYHYRKRGVHLAQGFPGHSLAIVSNGETGKEPHAGGPGD IELGPLDALEEERKEQREEFEHNLMEAGLELEKDLEVWQSLDVWHLNLNCSTESKGDILD AGVQQEWTREPPKASEWKPQGPRSWCGFAAGSLHTLPVRGYEFVTIDNSKDLEPTQMPIK VDWIKKMWHIYTVEYYAAIKKDEFMSFAQTQMKFETIILSKLTQEQKTKHHVFSLTSGS >gi568815586r:5463302_6022806|GENSCAN_predicted_CDS_14|6300_bp atgcccactgccctccaggggcagctgccacggtgcacgctgaagctgcaagcagtgtgt ggacagaagtcccacagcaggctggtggcatcacctggtatcaagccgcagggggacact tcccaggctcagggcgctgccgccttgtcagctttactgggagtgctgaaggccagccac tgtgatgttgtcaacctcacctgtgaagcctgccaggagccgggaggcctggtggtgcct cccacagatgccccggtgagccccaccactctgtatgtggaggacatctcggaaccgccg ttgcacgatttctactgcagcaggctactggacctggtcttcctgctggatggctcctcc aggctgtccgaggctgagtttgaagtgctgaaggcctttgtggtggacatgatggagcgg ctgcgcatctcccagaagtgggtccgcgtggccgtggtggagtaccacgacggctcccac gcctacatcgggctcaaggaccggaagcgaccgtcagagctgcggcgcattgccagccag gtgaagtatgcgggcagccaggtggcctccaccagcgaggtcttgaaatacacactgttc caaatcttcagcaagatcgaccgccctgaagcctcccgcatcaccctgctcctgatggcc agccaggagccccaacggatgtcccggaactttgtccgctacgtccagggcctgaagaag aagaaggtcattgtgatcccggtgggcattgggccccatgccaacctcaagcagatccgc ctcatcgagaagcaggcccctgagaacaaggccttcgtgctgagcagtgtggatgagctg gagcagcaaagggacgagatcgttagctacctctgtgaccttgcccctgaagcccctcct cctactctgccccccgacatggcacaagtcactgtgggcccggggctcttgggggtttcg accctggggcccaagaggaactccatggttctggatgtggcgttcgtcctggaaggatcg gacaaaattggtgaagccgacttcaacaggagcaaggagttcatggaggaggtgattcag cggatggatgtgggccaggacagcatccacgtcacggtgctgcagtactcctacatggtg actgtggagtaccccttcagcgaggcacagtccaaaggggacatcctgcagcgggtgcga gagatccgctaccagggcggcaacaggaccaacactgggctggccctgcggtacctctct gaccacagcttcttggtcagccagggtgaccgggagcaggcgcccaacctggtctacatg gtcaccggaaatcctgcctctgatgagatcaagaggctgcctggagacatccaggtggtg cccattggagtgggccctaatgccaacgtgcaggagctggagaggattggctggcccaat gcccctatcctcatccaggactttgagacgctcccccgagaggctcctgacctggtgctg cagaggtgctgctccggagaggggctgcagatccccaccctctcccctgcacctgatcct attggatgtcaggttgtaggcctggtggccattgtccctgctggcacctgtgtgctcacc ttcctggttgtctttgcagactgcagccagcccctggacgtgatccttctcctggatggc tcctccagtttcccagcttcttattttgatgaaatgaagagtttcgccaaggctttcatt tcaaaagccaatatagggcctcgtctcactcaggtgtcagtgctgcagtatggaagcatc accaccattgacgtgccatggaacgtggtcccggagaaagcccatttgctgagccttgtg gacgtcatgcagcgggagggaggccccagccaaatcggggatgccttgggctttgctgtg cgatacttgacttcagaaatgcatggtgccaggccgggagcctcaaaggcggtggtcatc ctggtcacggacgtctctgtggattcagtggatgcagcagctgatgccgccaggtccaac agagtgacagtgttccctattggaattggagatcgctacgatgcagcccagctacggatc ttggcaggcccagcaggcgactccaacgtggtgaagctccagcgaatcgaagacctccct accatggtcaccttgggcaattccttcctccacaaactgtgctctggatttgttaggatt tgcatggatgaggatgggaatgagaagaggcccggggacgtctggaccttgccagaccag tgccacaccgtgacttgccagccagatggccagaccttgctgaagagtcatcgggtcaac tgtgaccgggggctgaggccttcgtgccctaacagccagtcccctgttaaagtggaagag acctgtggctgccgctggacctgcccctgcgtgtgcacaggcagctccactcggcacatc gtgacctttgatgggcagaatttcaagctgactggcagctgttcttatgtcctatttcaa aacaaggagcaggacctggaggtgattctccataatggtgcctgcagccctggagcaagg cagggctgcatgaaatccatcgaggtgaagcacagtgccctctccgtcgagctgcacagt gacatggaggcttttaggttcttggtgcatggccacccgtacagtattacaacagcctgt tttctggtcaagctctgtaaagtcaagctctgttttctagtcaagctcttctttatctta gaagagctgccgacaaatatcaaggtgacggtgaatgggagactggtctctgttccttac gtgggtgggaacatggaagtcaacgtttatggtgccatcatgcatgaggtcagattcaat caccttggtcacatcttcacattcactccacaaaacaatgagttccaactgcagctcagc cccaagacttttgcttcaaagacgtatggtctgtgtgggatctgtgatgagaacggagcc aatgacttcatgctgagggatggcacagtcaccacagactggaaaacacttgttcaggaa tggactgtgcagcggccagggcagacgtgccagcccatcctggaggagcagtgtcttgtc cccgacagctcccactgccaggtcctcctcttaccactgtttgctgaatgccacaaggtc ctggctccagccacattctatgccatctgccagcaggacagttgccaccaggagcaagtg tgtgaggtgatcgcctcttatgcccacctctgtcggaccaacggggtctgcgttgactgg aggacacctgatttctgtgctatgtcatgcccaccatctctggtctacaaccactgtgag catggctgtccccggcactgtgatggcaacgtgagctcctgtggggaccatccctccgaa ggctgtttctgccctccagataaagtcatgttggaaggcagctgtgtccctgaagaggcc tgcactcagtgcattggtgaggatggagtccagcaccagttcctggaagcctgggtcccg gaccaccagccctgtcagatctgcacatgcctcagcgggcggaaggtcaactgcacaacg cagccctgccccacggccaaagctcccacgtgtggcctgtgtgaagtagcccgcctccgc cagaatgcagaccagtgctgccccgagtatgagtgtgtgtgtgacccagtgagctgtgac ctgcccccagtgcctcactgtgaacgtggcctccagcccacactgaccaaccctggcgag tgcagacccaacttcacctgcgcctgcaggaaggaggagtgcaaaagagtgtccccaccc tcctgccccccgcaccgtttgcccacccttcggaagacccagtgctgtgatgagtatgag tgtgcctgcaactgtgtcaactccacagtgagctgtccccttgggtacttggcctcaact gccaccaatgactgtggctgtaccacaaccacctgccttcccgacaaggtgtgtgtccac cgaagcaccatctaccctgtgggccagttctgggaggagggctgcgatgtgtgcacctgc accgacatggaggatgccgtgatgggcctccgcgtggcccagtgctcccagaagccctgt gaggacagctgtcggtcgaacaccgtaccctataaattactaggtaaatgtcaagtaacc tcttggggaagcccaaatctgcacgttggtgagcagtattgggatcgagtgttcgtcttg tatgggaggctagccctgcgagagtggagactggatcccagtcatcctgagtgtgcctcc cgggcttcacttacgttctgcatgaaggcgagtgctgtggaaggtgcctgccatctgcct gtcggctcccagtgggcctccccggagaacccctgcctcatcaatgagtgtgtccgagtg aaggaggaggtctttatacaacaaaggaacgtctcctgcccccagctggaggtccctgtc tgcccctcgggctttcagctgagctgtaagacctcagcgtgctgcccaagctgtcgctgt gagcgcatggaggcctgcatgctcaatggcactgtcattgggcccgggaagactgtgatg atcgatgtgtgcacgacctgccgctgcatggtgcaggtgggggtcatctctggattcaag ctggagtgcaggaagaccacctgcaacccctgccccctgggttacaaggaagaaaataac acaggtgaatgttgtgggagatgtttgcctacggcttgcaccattcagctaagaggagga cagatcatgacactgaagcgtgatgagacgctccaggatggctgtgatactcacttctgc aaggtcaatgagagaggagagtacttctgggagaagagggtcacaggctgcccacccttt gatgaacacaagtgtctggctgagggaggtaaaattatgaaaattccaggcacctgctgt gacacatgtgaggagcctgagtgcaacgacatcactgccaggctgcagtatgtcaaggtg ggaagctgtaagtctgaagtagaggtggatatccactactgccagggcaaatgtgccagc aaagccatgtactccattgacatcaacgatgtgcaggaccagtgctcctgctgctctccg acacggacggagcccatgcaggtggccctgcactgcaccaatggctctgttgtgtaccat gaggttctcaatgccatggagtgcaaatgctcccccaggaagtgcagcaagggagacact ggaatttttctgaagtggtcctgcattcctgccgagaaggggctgcagacctctggggcc tgggtagaggcagcagatatacccctgctccctggctccccacgccggctgagccctcag gcagggtccagagggggccagggccccaaacatggacagcagtgtctcaagatgccaggt ccccgggccccaggtctgcagggcggttccaacagagatcctggccagccctgcggtgga gagagcacccgcagcagctctgtcatcaacaactatctggatgccaatgagcctgtgtcc ttggaggcccgtcttagccgcatgcacttccatgacagtcagaggaaggtcgactatgta cttgcctaccactaccggaaacgcggggtgcacctggcccaaggcttccctggccactcg ctggctatcgtctccaatggggagacaggcaaggagcctcatgctgggggcccaggtgac attgagctgggaccgctcgatgccctggaggaggagaggaaggagcagcgggaggaattt gagcacaatctgatggaggctggactggagcttgagaaggacttggaggtctggcagagc ctggatgtctggcatctcaacctgaattgcagcactgagtcaaagggggatatcttggat gctggggtccagcaggagtggacacgggaacccccaaaggcttcagagtggaagccccag ggtcctcggagctggtgtgggtttgctgctggctccctgcacacgctgcccgtgcgtggt tacgagtttgtcactattgacaatagcaaagacttggaaccaacccaaatgcccataaag gtagactggataaagaaaatgtggcacatatacaccgtggaatactatgcagccataaaa aaggatgagttcatgtcctttgcacagacacagatgaagtttgaaaccatcattctcagc aaactaacacaggaacagaaaaccaaacaccacgtgttctcactcacaagtgggagttga