GENSCAN 1.0 Date run: 5-Nov-116 Time: 15:37:44 Sequence gi568815582f:27330072_27549280 : 219209 bp : 48.24% 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 + 10133 10202 70 1 1 56 119 100 0.848 9.11 1.02 Intr + 12050 12188 139 0 1 102 65 157 0.907 14.32 1.03 Intr + 14798 14949 152 2 2 96 89 208 0.997 21.51 1.04 Intr + 16396 16547 152 2 2 76 76 170 0.916 14.48 1.05 Intr + 22469 22555 87 1 0 98 76 44 0.566 4.37 1.06 Intr + 22727 22782 56 1 2 80 96 37 0.582 1.48 1.07 Intr + 24949 25118 170 1 2 42 79 53 0.455 -0.61 1.08 Intr + 25737 25836 100 1 1 99 89 144 0.975 14.77 1.09 Intr + 28845 28923 79 0 1 120 91 39 0.737 6.95 1.10 Intr + 30695 30744 50 1 2 96 52 31 0.474 -2.22 1.11 Term + 32181 33759 1579 0 1 102 43 894 0.806 76.08 1.12 PlyA + 34479 34484 6 1.05 2.00 Prom + 50690 50729 40 -5.86 2.01 Init + 53004 53051 48 2 0 111 92 38 0.853 5.77 2.02 Intr + 58713 58869 157 2 1 57 65 99 0.576 4.08 2.03 Term + 58985 59016 32 0 2 128 35 -3 0.319 -3.58 2.04 PlyA + 59318 59323 6 1.05 3.04 PlyA - 59969 59964 6 1.05 3.03 Term - 72523 72138 386 2 2 86 54 127 0.502 4.15 3.02 Intr - 74746 74723 24 2 0 96 72 33 0.337 0.50 3.01 Init - 78731 78713 19 2 1 89 98 18 0.598 3.23 3.00 Prom - 80402 80363 40 -3.66 4.00 Prom + 82820 82859 40 -3.96 4.01 Init + 100001 100049 49 1 1 94 107 139 0.998 15.51 4.02 Intr + 104198 104378 181 0 1 99 119 164 0.776 19.53 4.03 Intr + 106164 106217 54 0 0 85 103 37 0.887 2.99 4.04 Intr + 107417 107616 200 2 2 62 73 270 0.998 21.89 4.05 Intr + 112933 113045 113 2 2 80 65 130 0.612 10.00 4.06 Intr + 114471 114648 178 2 1 82 73 158 0.915 13.19 4.07 Intr + 115106 115205 100 0 1 112 78 -13 0.879 -0.73 4.08 Intr + 115936 116017 82 1 1 121 105 116 0.999 16.24 4.09 Term + 118463 119212 750 1 0 136 39 634 0.992 56.75 4.10 PlyA + 119983 119988 6 1.05 5.38 PlyA - 120233 120228 6 1.05 5.37 Term - 131491 131279 213 1 0 106 48 228 0.849 17.83 5.36 Intr - 132415 132223 193 0 1 91 64 291 0.943 26.49 5.35 Intr - 133521 133470 52 1 1 125 98 44 0.987 7.07 5.34 Intr - 134765 134249 517 2 1 105 71 410 0.545 33.53 5.33 Intr - 135469 135189 281 2 2 126 99 231 0.999 25.20 5.32 Intr - 139479 139220 260 2 2 58 105 505 0.999 46.31 5.31 Intr - 140324 140037 288 1 0 124 116 370 0.999 39.76 5.30 Intr - 141849 141677 173 0 2 101 109 323 0.990 34.44 5.29 Intr - 146473 146380 94 0 1 112 94 138 0.892 16.77 5.28 Intr - 148460 148398 63 1 0 143 111 77 0.999 13.33 5.27 Intr - 151120 151008 113 1 2 57 115 126 0.999 11.38 5.26 Intr - 153054 152973 82 2 1 118 100 134 0.999 17.24 5.25 Intr - 154282 154140 143 1 2 75 71 142 0.922 10.35 5.24 Intr - 156083 155926 158 0 2 100 76 270 0.922 26.73 5.23 Intr - 158344 158156 189 2 0 57 29 242 0.994 14.76 5.22 Intr - 158564 158483 82 2 1 75 94 38 0.952 2.31 5.21 Intr - 159107 158972 136 1 1 87 98 201 0.964 21.57 5.20 Intr - 159672 159531 142 1 1 74 56 275 0.995 22.31 5.19 Intr - 162444 162267 178 0 1 113 80 301 0.999 31.29 5.18 Intr - 162642 162546 97 2 1 119 95 117 0.999 15.51 5.17 Intr - 163225 163128 98 1 2 88 78 212 0.999 19.01 5.16 Intr - 164837 164692 146 0 2 75 67 217 0.983 18.30 5.15 Intr - 165421 165140 282 2 0 67 94 221 0.134 17.99 5.14 Intr - 165805 165688 118 1 1 116 53 -45 0.022 -5.16 5.13 Intr - 168662 168549 114 2 0 103 34 214 0.057 18.14 5.12 Intr - 171273 171120 154 2 1 41 86 244 0.996 19.57 5.11 Intr - 172924 172788 137 1 2 89 85 66 0.998 5.77 5.10 Intr - 176045 175828 218 0 2 134 86 198 0.992 22.42 5.09 Intr - 177085 176776 310 1 1 75 49 364 0.585 27.09 5.08 Intr - 178584 178469 116 1 2 73 87 95 0.994 8.07 5.07 Intr - 181875 181678 198 1 0 67 89 415 0.730 38.82 5.06 Intr - 194089 194021 69 2 0 96 106 10 0.455 2.75 5.05 Intr - 198650 198527 124 2 1 53 90 155 0.962 12.36 5.04 Intr - 203316 203220 97 2 1 76 93 143 0.999 13.61 5.03 Intr - 207856 207713 144 0 0 102 80 70 0.990 7.00 5.02 Intr - 208285 208109 177 0 0 91 108 162 0.956 17.53 5.01 Intr - 215452 215243 210 0 0 112 93 199 0.997 20.83 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 168662 168528 135 2 0 103 43 247 0.940 19.72 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582f:27330072_27549280|GENSCAN_predicted_peptide_1|877_aa MGWLCSGLLFPVSCLVLLQVASSGNMKVLQEPTCVSDYMSISTCEWKMNGPTNCSTELRL LYQLVFLLSEAHTCIPENNGGAGCVCHLLMDDVVSADNYTLDLWAGQQLLWKGSFKPSEH VKPRAPGNLTVHTNVSDTLLLTWSNPYPPDNYLYNHLTYAVNIWSENDPADFRIYNVTYL EPSLRIAASTLKSGISYRARDASNGNPAIRYTCRGVSASKYLLSSSYMASPVLDTGESAM NKADRNPHSCGADILEGETKSKHIKKERNHMDLDDTYREPFEQHLLLGVSVSCIVILAVC LLCYVSITKIKKEWWDQIPNPARSRLVAIIIQDAQGSQWEKRSRGQEPAKCPHWKNCLTK LLPCFLEHNMKRDEDPHKAAKEMPFQGSGKSAWCPVEISKTVLWPESISVVRCVELFEAP VECEEEEEVEEEKGSFCASPESSRDDFQEGREGIVARLTESLFLDLLGEENGGFCQQDMG ESCLLPPSGSTSAHMPWDEFPSAGPKEAPPWGKEQPLHLEPSPPASPTQSPDNLTCTETP LVIAGNPAYRSFSNSLSQSPCPRELGPDPLLARHLEEVEPEMPCVPQLSEPTTVPQPEPE TWEQILRRNVLQHGAAAAPVSAPTSGYQEFVHAVEQGGTQASAVVGLGPPGEAGYKAFSS LLASSAVSPEKCGFGASSGEEGYKPFQDLIPGCPGDPAPVPVPLFTFGLDREPPRSPQSS HLPSSSPEHLGLEPGEKVEDMPKPPLPQEQATDPLVDSLGSGIVYSALTCHLCGHLKQCH GQEDGGQTPVMASPCCGCCCGDRSSPPTTPLRAPDPSPGGVPLEASLCPASLAPSGISEK SKSSSSFHPAPGNAQSSSQTPKIVNFVSVGPTYMRVS >gi568815582f:27330072_27549280|GENSCAN_predicted_CDS_1|2634_bp atggggtggctttgctctgggctcctgttccctgtgagctgcctggtcctgctgcaggtg gcaagctctgggaacatgaaggtcttgcaggagcccacctgcgtctccgactacatgagc atctctacttgcgagtggaagatgaatggtcccaccaattgcagcaccgagctccgcctg ttgtaccagctggtttttctgctctccgaagcccacacgtgtatccctgagaacaacgga ggcgcggggtgcgtgtgccacctgctcatggatgacgtggtcagtgcggataactataca ctggacctgtgggctgggcagcagctgctgtggaagggctccttcaagcccagcgagcat gtgaaacccagggccccaggaaacctgacagttcacaccaatgtctccgacactctgctg ctgacctggagcaacccgtatccccctgacaattacctgtataatcatctcacctatgca gtcaacatttggagtgaaaacgacccggcagatttcagaatctataacgtgacctaccta gaaccctccctccgcatcgcagccagcaccctgaagtctgggatttcctacagggcacgg gatgcctctaatggcaatcctgccattagatacacctgccgtggtgtatctgccagcaaa tatttgctgagttcctcctacatggctagccctgtgctagacactggggaatcggcgatg aacaaagcagatagaaatccccactcttgtggagctgacattctggagggagagacaaaa agcaaacatataaagaaagaaagaaatcacatggatctggatgacacctacagggagccc ttcgagcagcacctcctgctgggcgtcagcgtttcctgcattgtcatcctggccgtctgc ctgttgtgctatgtcagcatcaccaagattaagaaagaatggtgggatcagattcccaac ccagcccgcagccgcctcgtggctataataatccaggatgctcaggggtcacagtgggag aagcggtcccgaggccaggaaccagccaagtgcccacactggaagaattgtcttaccaag ctcttgccctgttttctggagcacaacatgaaaagggatgaagatcctcacaaggctgcc aaagagatgcctttccagggctctggaaaatcagcatggtgcccagtggagatcagcaag acagtcctctggccagagagcatcagcgtggtgcgatgtgtggagttgtttgaggccccg gtggagtgtgaggaggaggaggaggtagaggaagaaaaagggagcttctgtgcatcgcct gagagcagcagggatgacttccaggagggaagggagggcattgtggcccggctaacagag agcctgttcctggacctgctcggagaggagaatgggggcttttgccagcaggacatgggg gagtcatgccttcttccaccttcgggaagtacgagtgctcacatgccctgggatgagttc ccaagtgcagggcccaaggaggcacctccctggggcaaggagcagcctctccacctggag ccaagtcctcctgccagcccgacccagagtccagacaacctgacttgcacagagacgccc ctcgtcatcgcaggcaaccctgcttaccgcagcttcagcaactccctgagccagtcaccg tgtcccagagagctgggtccagacccactgctggccagacacctggaggaagtagaaccc gagatgccctgtgtcccccagctctctgagccaaccactgtgccccaacctgagccagaa acctgggagcagatcctccgccgaaatgtcctccagcatggggcagctgcagcccccgtc tcggcccccaccagtggctatcaggagtttgtacatgcggtggagcagggtggcacccag gccagtgcggtggtgggcttgggtcccccaggagaggctggttacaaggccttctcaagc ctgcttgccagcagtgctgtgtccccagagaaatgtgggtttggggctagcagtggggaa gaggggtataagcctttccaagacctcattcctggctgccctggggaccctgccccagtc cctgtccccttgttcacctttggactggacagggagccacctcgcagtccgcagagctca catctcccaagcagctccccagagcacctgggtctggagccgggggaaaaggtagaggac atgccaaagcccccacttccccaggagcaggccacagacccccttgtggacagcctgggc agtggcattgtctactcagcccttacctgccacctgtgcggccacctgaaacagtgtcat ggccaggaggatggtggccagacccctgtcatggccagtccttgctgtggctgctgctgt ggagacaggtcctcgccccctacaacccccctgagggccccagacccctctccaggtggg gttccactggaggccagtctgtgtccggcctccctggcaccctcgggcatctcagagaag agtaaatcctcatcatccttccatcctgcccctggcaatgctcagagctcaagccagacc cccaaaatcgtgaactttgtctccgtgggacccacatacatgagggtctcttag >gi568815582f:27330072_27549280|GENSCAN_predicted_peptide_2|78_aa MGTPPHTPFSSLASLQVHAIGKLEVSESRGPGSSPQLTTNEVLEKKYPRFLVSPLGQVGD MFYIVSQRGLFPKSMTYP >gi568815582f:27330072_27549280|GENSCAN_predicted_CDS_2|237_bp atggggaccccgccccacacgccgttcagctctttagcctcgctccaggtgcatgcaatc ggcaagctggaagtgtcagagagtcgtggccctggaagcagccctcaactaacaacaaat gaagtcctggaaaagaaatatcccagatttcttgtttctcctttgggacaagttggagac atgttctatattgtctcccagagaggattatttcccaaatctatgacttatccttaa >gi568815582f:27330072_27549280|GENSCAN_predicted_peptide_3|142_aa MGLKVKDAATELQKEIHSVCWGQSDGLLGVAAGFSVGVTDEGLRKQAEAWGENPHPARVT NQAVIRPVTLMTGSWASRQVSHRAADRGKRRQGRYQAAAAGMHGPQTDRHSCVAVSHTQG EAGRGPDAELTVTQQRDASGSV >gi568815582f:27330072_27549280|GENSCAN_predicted_CDS_3|429_bp atggggctgaaagtgaaagatgcagcaactgagctgcagaaagaaatccattccgtgtgc tgggggcagtctgatgggcttctgggggtggcagctgggttcagcgtgggggtgacagat gagggtctgagaaagcaggcagaggcctggggtgagaatccacacccagcccgagtcacc aatcaggctgtcataagacctgtcactctgatgacgggcagctgggcctccaggcaggtg tcccacagagcagcagacagaggaaagagacggcaaggaaggtaccaggcggccgcagca gggatgcacgggccgcagacagacagacacagctgcgtggctgtcagccacactcaggga gaggcaggcagagggccagacgccgagcttacggtcactcagcagagagacgccagtggg tctgtctga >gi568815582f:27330072_27549280|GENSCAN_predicted_peptide_4|568_aa MPRGWAAPLLLLLLQGALEGMERKLCSPKPPPTKASLPTDPPGWGCPDLVCYTDYLQTVI CILEMWNLHPSTLTLTWILSNNTGCYIKDRTLDLRQDQYEELKDEATSCSLHRSAHNATH ATYTCHMDVFHFMADDIFSVNITDQSGNYSQECGSFLLAESRQYNISWRSDYEDPAFYML KGKLQYELQYRNRGDPWAVSPRRKLISVDSRSVSLLPLEFRKDSSYELQVRAGPMPGSSY QGTWSEWSDPVIFQTQSEELKEGWNPHLLLLLLLVIVFIPAFWSLKTHPLWRLWKKIWAV PSPERFFMPLYKGCSGDFKKWVGAPFTGSSLELGPWSPEVPSTLEVYSCHPPRSPAKRLQ LTELQEPAELVESDGVPKPSFWPTAQNSGGSAYSEERDRPYGLVSIDTVTVLDAEGPCTW PCSCEDDGYPALDLDAGLEPSPGLEDPLLDAGTTVLSCGCVSAGSPGLGGPLGSLLDRLK PPLADGEDWAGGLPWGGRSPGGVSESEAGSPLAGLDMDTFDSGFVGSDCSSPVECDFTSP GDEGPPRSYLRQWVVIPPPLSSPGPQAS >gi568815582f:27330072_27549280|GENSCAN_predicted_CDS_4|1707_bp atgccgcgtggctgggccgcccccttgctcctgctgctgctccagggagccctcgagggg atggagaggaagctctgcagtcccaagccaccccccaccaaggcctctctccccactgac cctccaggctggggctgccccgacctcgtctgctacaccgattacctccagacggtcatc tgcatcctggaaatgtggaacctccaccccagcacgctcacccttacctggatactttct aataatactgggtgctatatcaaggacagaacactggacctcaggcaagaccagtatgaa gagctgaaggacgaggccacctcctgcagcctccacaggtcggcccacaatgccacgcat gccacctacacctgccacatggatgtattccacttcatggccgacgacattttcagtgtc aacatcacagaccagtctggcaactactcccaggagtgtggcagctttctcctggctgag agcagacagtataatatctcctggcgctcagattacgaagaccctgccttctacatgctg aagggcaagcttcagtatgagctgcagtacaggaaccggggagacccctgggctgtgagt ccgaggagaaagctgatctcagtggactcaagaagtgtctccctcctccccctggagttc cgcaaagactcgagctatgagctgcaggtgcgggcagggcccatgcctggctcctcctac caggggacctggagtgaatggagtgacccggtcatctttcagacccagtcagaggagtta aaggaaggctggaaccctcacctgctgcttctcctcctgcttgtcatagtcttcattcct gccttctggagcctgaagacccatccattgtggaggctatggaagaagatatgggccgtc cccagccctgagcggttcttcatgcccctgtacaagggctgcagcggagacttcaagaaa tgggtgggtgcacccttcactggctccagcctggagctgggaccctggagcccagaggtg ccctccaccctggaggtgtacagctgccacccaccacggagcccggccaagaggctgcag ctcacggagctacaagaaccagcagagctggtggagtctgacggtgtgcccaagcccagc ttctggccgacagcccagaactcggggggctcagcttacagtgaggagagggatcggcca tacggcctggtgtccattgacacagtgactgtgctagatgcagaggggccatgcacctgg ccctgcagctgtgaggatgacggctacccagccctggacctggatgctggcctggagccc agcccaggcctagaggacccactcttggatgcagggaccacagtcctgtcctgtggctgt gtctcagctggcagccctgggctaggagggcccctgggaagcctcctggacagactaaag ccaccccttgcagatggggaggactgggctgggggactgccctggggtggccggtcacct ggaggggtctcagagagtgaggcgggctcacccctggccggcctggatatggacacgttt gacagtggctttgtgggctctgactgcagcagccctgtggagtgtgacttcaccagcccc ggggacgaaggacccccccggagctacctccgccagtgggtggtcattcctccgccactt tcgagccctggaccccaggccagctaa >gi568815582f:27330072_27549280|GENSCAN_predicted_peptide_5|2055_aa XYEEIDLETGILESRRDPVALEDVYPIHMILENKDGIQGSCRYFKERKNITNDIRTKSLQ PRCTMVEAFDRWGKKLIIVASQAMRYRALIGQEGDPDLKLPDFSYCILERLGRSRWQGEL QRDLHTTAFKVDAGKLHYHRKILNKNGLITMQSHVIRLPTGAQQHSILLLLNRFHVDRRS KYDILMEKLSVMLSTRTNHIETLGKLREELGLCERTFKRLYQYMLNAGLAKVVSLRLQEI HPECGPCKTKKDTRFPLYSLRPASCWYVICLTLETLLSLIAGKPVLVLPGTDVMVRCLKL LKEFKRNDHDDDEDEEVISKTVPPVDIVFERDMLTQTYDLIERRGTKGISQAEIRVAMNV GKLEARMLCRLLQRFKVVKGFMEDEGRQRTTKYISCVFAEESDLSRQYQREKARSELLTT VSLASMQEESLLPEGEDTFLSESDSEEERSSSKRRGRGSQKDTRASANLRPKTQPHHSTP TKGGWKVVNLHPLKKQPPSFPGAAEERACQSLASRDSLLDTSSVSEPNVSFVSHCADSNS GDIAVIEEVRMENPKESSSSLKTGRHSSGQDKPHETYRLLKRRNLIIEAVTNLRLIESLF TIQKMIMDQEKQEGVSTKCCKKSIVRLVRNLSEEGLLRLYRTTVIQDGIKKKVDLVVHPS MDQNDPLVRSAIEQVRFRISNSSTANRQVEECAGHTPTSGPLHLPCRQAPRVLHCQQLLH RLEFTLRLPIPGLGRSLGFLPKMPRLRVVHMFLWYLIYGHPASNTVEKPSFISERRTIKQ ESGRAGVRPSSSGSAWEACSEAPSKGSQDGVTWEAEVELATETVYVDDASWMRYIPPIPV HRDFGFGWALVSDILLCLPLSIFIQIVQVSYKVDNLEEFLNDPLKKHTLIRFLPRPIRQQ LLYKRRYIFSVVENLQRLCYMGLLQFGPTEKFQDKDQVFIFLKKNAVIVDTTICDPHYNL ARSSRPFERRLYVLNSMQDVENYWFDLQCVCLNTPLGVVRCPRVRKNSSTDQGSDEEGSL QKEQESAMDKHNLERKCAMLEYTTGSREVVDEGLIPGDGLGAAGLDSSFYGHLKRNWIWT SYIINQAKKENTAAENGLTVRLQTFLSKRPMPLSARGNSRLNIWGEARVGSELCAGWEEQ FEVDREPSLDRNRRVRGGKSQKRKRLKKDPGKKIKRKKKGEFPGEKSKRLRYHDEADQSA LQRMTRLRVTWSMQEDGLLVLCRIASNVLNTKVKGPFVTWQVVRDILHATFEESLDKTSH SVGRRARYIVKNPQAYLNYKVCLAEVYQDKALVGDFMNRRGDYDDPKVCANEFKEFVEKL KEKFSSALRNSNLEIPDTLQELFARYRVLAIGDEKDQTRKEDELNSVDDIHFLVLQNLIQ STLALSDSQMKSYQSFQTFRLYREYKDHVLVKAFMECQKRSLVNRRRVNHTLGPKKNRAL PFVPMSYQLSQTYYRIFTWRFPSTICTESFQFLDRMRAAGKLDQPDRFSFKDQDNNEPTN DMVAFSLDGPGGNCVAVLTLFSLGLISVDVRIPEQIIVVDSSMVENEVIKSLGKDGSLED DEDEEDDLDEGVGGKRRSMEVKPAQASHTNYLLMRGYYSPGIVSTRNLNPNDSIVVNSCQ MKFQLRCTPVPARLRPAAAPLEELTMGTSCLPDTFTKLINPQENTCSLEEFVLQLELSGY SPEDLTAALEILEAIIATGCFGIDKEELRRRFSALEKAGGGRTRTFADCIQALLEQHQVL EVGGNTARLVAMGSAWPWLLHSVRLKDREDADIQREDPQARPLEGSSSEDSPPEGQAPPS HSPRGTKRRASWASENGETDAEGTQMTPAKRPALQDSNLAPSLGPGAEDGAEAQAPSPPP ALEDTAAAGAAQEDQEGVGEFSSPGQEQLSGQAQPPEGSEDPRGFTESFGAANISQAARE RDCESVCFIGRPWRVVDGHLNLPVCKGMMEAMLYHIMTRPGIPESSLLRHYQGVLQPVAV LELLQGLESLGCIRKRWLRKPRPVSLFSTPVVEEVEVPSSLDESPMAFYEPTLDCTLRLG RVFPHEVNWNKWIHL >gi568815582f:27330072_27549280|GENSCAN_predicted_CDS_5|6168_bp nngtatgaagaaattgatttggaaactggaattttggagtctaggagggacccggtggct ttggaggatgtctaccccattcatatgatcttagagaataaggatggcatccagggctca tgccgctactttaaggagaggaaaaacattaccaatgacatcagaaccaagtccttgcag cctcgctgtacaatggtggaagcctttgacaggtgggggaagaaactgatcatcgttgcc tcccaggccatgcggtacagggccttgataggccaggagggggatcccgacctgaagctg cccgacttctcctactgcatcctggaacggctaggccggtccaggtggcaaggggagctc cagcgagaccttcacaccactgctttcaaggttgatgctgggaagctgcactatcacaga aaaattttgaacaaaaacgggctgattacaatgcagtcccatgtgatccgattacccact ggagcccagcaacactcaatcctcctcctactgaaccggtttcatgtggacaggaggagc aaatacgacatcctcatggagaagctttcggtcatgctgagcacacggactaaccacata gagacgctgggaaagctgagggaagagctggggctgtgcgaaaggacgtttaagcgtctg taccagtatatgctgaacgccgggctagccaaggtggtgtctcttcgcttgcaagagatc caccctgaatgtggaccttgtaagacaaagaaagacacccgcttcccactgtatagcctg cggcctgcttcatgctggtatgtcatttgcctgacccttgaaacactgctttcactcatt gctggcaaacccgtgcttgtgttgccagggaccgacgtcatggttcggtgcctcaagctg ctgaaggaatttaaacggaatgaccatgatgatgacgaggacgaggaggtcatctccaag acagtgcctccagtggacattgtgttcgagcgggatatgctcacacagacctacgacctc attgagcgcagaggcacgaaaggaatttcccaagctgaaatccgagtggctatgaatgtg ggaaaactagaagcaagaatgctgtgccgacttcttcaaagattcaaagttgtcaaggga ttcatggaagacgaaggtcggcagcgaaccaccaagtacatttcctgcgtgtttgcagag gagagcgacctaagccggcagtaccaaagagagaaggcccgcagcgagctcttgaccacc gtgagcctggcgtctatgcaggaggagtcgcttctgcctgaaggcgaggacaccttcctc tctgagtcggacagtgaggaggagaggagcagcagcaagcggagaggcagagggtcccag aaagacacaagagcctctgcaaacctccggcccaagacccagcctcatcactccacccca accaagggtgggtggaaagttgtaaacctacacccattgaaaaagcagccgccctccttc ccaggagctgctgaagagagagcctgccagagccttgccagcagggacagcctcttagat accagcagcgtctcagaacccaacgtgtcctttgtctcccactgtgcggacagcaacagt ggtgacatagctgtgatcgaggaggtccggatggaaaacccaaaggagagtagcagttcc ctgaagactgggaggcacagctcaggccaagacaaaccacacgaaacttaccgactgctg aaacgcaggaatctgatcatagaagctgtcaccaatcttcgcttaatcgagagtttattc acgattcagaagatgatcatggatcaggagaagcaggaaggcgtgtccaccaagtgctgc aagaagtccattgtccgcttggtgcggaacctgtctgaggaaggtctcttgcgattgtat cggaccactgtcattcaagatggcatcaagaagaaggtggatctggtggtgcacccgtcc atggaccagaacgaccctctagtgagaagtgccatcgagcaggtccgcttccggatctcc aattcaagcacagccaacaggcaagtggaggaatgtgcggggcacacccccacctcaggc cccttgcatttgccctgtaggcaagccccaagggttctgcactgccagcagctccttcac cgactggagttcactctaaggctccccattcccggactggggcgttctctaggatttctg cccaaaatgcctcgcctgcgggtggtccacatgtttctgtggtacctcatctacgggcac cctgccagcaacaccgtggagaagccaagcttcatcagtgaacggagaacgataaagcag gagtcaggcagggcaggcgtccggccgtcctcctctggaagtgcctgggaggcctgctct gaagccccatctaaaggcagccaagatggtgtcacctgggaggctgaagtggagcttgcc acggagacagtgtatgtcgacgatgcctcgtggatgcgctacatccccccaatcccagtc cacagggacttcggctttggctgggctctcgtcagcgacatcctcctctgccttcccctc tccatcttcatccagattgtgcaagtcagctacaaggtggacaacctggaggaatttctg aacgacccgctgaagaagcacacgctgatccgctttctccccaggcccattcggcagcag cttctgtacaagaggcgttacattttttcggtggtggagaaccttcagaggctgtgctac atggggctgctacagtttggtcccacggaaaagtttcaggataaagatcaggtctttatc ttcttgaagaagaatgcagtcattgttgacactaccatctgcgacccacattacaacctg gcccgcagcagccggcccttcgagaggcgcctctatgtcctgaactcaatgcaggatgtg gaaaactactggtttgacctgcagtgcgtctgcctcaacaccccactaggcgtggtgcgc tgcccgcgcgtcaggaagaacagcagcacagaccagggcagcgacgaggagggcagcctg cagaaggagcaggagagcgccatggacaagcacaacctggagcgcaagtgcgccatgctg gagtacaccactggaagccgtgaggtggtggatgaaggcttgatccctggagatgggctg ggtgccgcagggctcgattccagcttctacggacacctcaagcgcaactggatctggacc agctacatcatcaaccaggccaaaaaggagaacactgccgcagagaatggactcacagtg aggctccagacatttctgtccaagcgcccaatgcccctcagtgccagaggcaacagcagg ttgaatatttggggggaagcaagagtaggctccgagctctgtgctggctgggaagagcag tttgaggtggaccgagagccctcgctggaccgaaaccggagagtgaggggtgggaaaagc cagaagcggaagcggctgaagaaggaccctgggaagaagatcaagagaaagaagaaagga gagttcccaggagaaaaaagcaaaaggctgcgctaccatgatgaagccgaccagagtgcc ctgcagcggatgacgcggcttcgtgtcacctggtctatgcaggaggatgggctgcttgtg ctgtgccgcattgccagcaatgtcctcaacaccaaggtgaagggcccatttgtcacctgg caggtggtacgggacattttgcatgccacgtttgaagagtctttggataaaacatctcat tccgttggacgaagagctcgctacatagtcaaaaacccacaggcctatctcaactataaa gtgtgcctggccgaggtgtaccaggataaagcacttgttggagatttcatgaatcgaaga ggtgactatgatgacccaaaggtttgtgccaacgagtttaaagaatttgtggagaagctt aaagaaaagttcagttcagccctaaggaattctaaccttgaaatcccagacacactccag gagctgttcgccaggtaccgagttttggcaattggggatgaaaaagatcaaaccaggaaa gaggatgaacttaacagcgtggatgacatccactttctggtgcttcagaacctgatccag agcacgctggccctctcagacagtcagatgaagtcctaccagtcattccagactttccgc ctctatcgggagtacaaggaccacgttcttgtgaaggccttcatggagtgccagaagagg agcttggtcaaccggcgccgggtcaaccacacgctgggccccaagaagaaccgggccctc cccttcgtgccaatgtcctaccagctatcccagacctactacaggatttttacgtggcga tttccaagcaccatctgcacggagtcattccagtttttggacagaatgcgggctgccggc aagttggaccagcctgatcgtttctctttcaaagaccaggataataacgagcccacaaac gacatggtggccttttcactggacggccctggaggaaattgtgtggccgtcctgaccctc ttctctctgggcctcatttctgtggatgtcaggatcccggagcagatcatcgtggtagac agctcaatggtggagaatgaggtcatcaaaagcttggggaaggacggcagcctggaggat gacgaggatgaagaggatgacttggacgaaggtgtagggggcaagcgccggagcatggag gtgaaacctgcgcaagcctcccacaccaactacctgctgatgaggggctactactccccc ggcatcgtcagcacccgcaacctcaaccccaacgacagcattgtggtcaactcctgccag atgaagttccagctccgctgcacccctgtgcccgcccggctcaggcccgctgccgctcct ctggaagagctaacaatgggaacctcctgcctccctgatacgttcaccaagctgataaac ccccaggaaaacacctgcagcttggaggagtttgtcctccagctggagctgtctgggtat agtcccgaagacctgactgctgccttggagatcttggaagccattatagccacgggttgt tttgggattgacaaggaggagctgcgcagacggttctcggccttggagaaggcaggtggt gggcgcaccaggacattcgcagattgcatccaggccctcctggagcagcatcaggtgctg gaggtcggtggcaacactgcgcgcctggtagccatgggctctgcctggccttggctcctg cactccgtgcggctgaaagacagagaagacgccgacatccagagagaagacccccaggcc agacccctggaggggtcttccagtgaggacagcccccccgaggggcaggcacctccttct cacagcccccggggcaccaagaggcgcgccagctgggccagtgagaatggggagaccgac gccgagggcacccagatgacccctgccaagaggccagcgctccaggactcaaatttggcc cccagccttgggcccggagctgaagatggggcagaagcccaggccccatctccaccccca gctcttgaagacaccgctgcagcgggagcagcacaggaagaccaagagggtgtcggtgag ttcagttccccaggccaagagcagctgagcggccaggcgcagcctccagagggctctgaa gaccccagagggttcacagagagtttcggagctgccaacatctcccaggcagcacgggaa agggactgtgagagtgtctgcttcatcggccggccgtggcgtgtcgtggatggccacctg aaccttcctgtatgcaagggtatgatggaggccatgctgtaccacatcatgaccaggcct ggcatccccgagagctccctgctgcgccactaccagggggtcctgcagcccgtcgccgtg ctggagttgctccagggcctggagtccctcggctgcatccggaagcgctggctgagaaag ccaaggcctgtctcgctcttctctacacccgtggtggaagaggtggaagtgccctccagc ctggacgagagccccatggctttctatgagcccaccttggactgtaccctccggctgggc cgtgtgttcccccacgaggtcaactggaacaagtggatccacctctag