GENSCAN 1.0 Date run: 6-Nov-116 Time: 06:28:40 Sequence gi568815577r:32169040_32379014 : 209975 bp : 44.15% 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 + 15057 15217 161 0 2 69 72 79 0.502 4.03 1.02 Intr + 15615 15693 79 1 1 72 47 104 0.963 3.31 1.03 Intr + 15941 16034 94 2 1 111 95 -4 0.940 2.57 1.04 Intr + 16965 16988 24 2 0 113 121 -31 0.626 0.92 1.05 Intr + 17375 17404 30 1 0 99 100 21 0.829 2.73 1.06 Intr + 19491 19556 66 2 0 66 106 43 0.742 3.00 1.07 Term + 23412 23477 66 2 0 57 50 53 0.139 -3.66 1.08 PlyA + 24553 24558 6 1.05 2.00 Prom + 28994 29033 40 -3.46 2.01 Init + 32009 32085 77 1 2 109 81 35 0.305 5.46 2.02 Intr + 46289 46422 134 2 2 37 70 72 0.234 0.59 2.03 Intr + 51160 51457 298 2 1 38 71 160 0.064 5.23 2.04 Intr + 54972 56594 1623 0 0 31 53 439 0.133 22.02 2.05 Intr + 67555 67630 76 1 1 90 103 19 0.241 3.12 2.06 Intr + 69666 69725 60 2 0 95 84 31 0.396 2.33 2.07 Intr + 83119 83271 153 0 0 19 61 338 0.769 24.47 2.08 Term + 93583 93597 15 0 0 124 43 17 0.213 -0.96 2.09 PlyA + 93801 93806 6 1.05 3.00 Prom + 94708 94747 40 -2.96 3.01 Sngl + 96559 96792 234 0 0 97 36 165 0.585 7.46 3.02 PlyA + 97331 97336 6 1.05 4.05 PlyA - 97406 97401 6 -0.45 4.04 Term - 98817 98734 84 0 0 95 43 124 0.783 6.25 4.03 Intr - 103812 103758 55 2 1 79 81 33 0.317 0.68 4.02 Intr - 105857 105791 67 0 1 137 97 59 0.863 9.66 4.01 Init - 109975 109642 334 1 1 44 13 530 0.682 38.56 4.00 Prom - 120693 120654 40 -5.06 5.00 Prom + 120764 120803 40 -4.36 5.01 Init + 129933 130038 106 2 1 99 111 275 0.706 31.28 5.02 Intr + 131299 131709 411 2 0 25 34 179 0.105 0.36 5.03 Intr + 137601 137704 104 1 2 106 86 106 0.700 12.09 5.04 Term + 142645 142797 153 0 0 113 47 49 0.433 1.22 5.05 PlyA + 143223 143228 6 1.05 6.36 PlyA - 143788 143783 6 1.05 6.35 Term - 146051 145879 173 0 2 58 41 190 0.552 9.29 6.34 Intr - 148026 147427 600 1 0 82 116 402 0.988 34.88 6.33 Intr - 148878 148637 242 2 2 61 61 292 0.957 20.99 6.32 Intr - 150375 150178 198 2 0 55 105 209 0.999 17.77 6.31 Intr - 151601 151492 110 2 2 55 108 38 0.929 1.58 6.30 Intr - 152905 152762 144 1 0 37 88 200 0.991 15.38 6.29 Intr - 153545 153439 107 0 2 104 69 164 0.998 16.03 6.28 Intr - 155563 155452 112 1 1 64 81 102 0.999 7.05 6.27 Intr - 156350 156190 161 0 2 92 111 213 0.998 23.71 6.26 Intr - 164380 164278 103 1 1 92 93 54 0.964 6.05 6.25 Intr - 165295 165124 172 0 1 118 31 243 0.999 21.55 6.24 Intr - 168118 168055 64 2 1 79 109 69 0.999 5.88 6.23 Intr - 168475 168365 111 2 0 71 66 151 0.775 11.55 6.22 Intr - 169861 169668 194 0 2 49 55 261 0.858 18.04 6.21 Intr - 172485 172427 59 0 2 65 108 71 0.985 4.48 6.20 Intr - 175717 175531 187 0 1 119 111 118 0.999 16.89 6.19 Intr - 176536 176335 202 2 1 92 64 82 0.986 4.54 6.18 Intr - 178772 177917 856 2 1 84 94 792 0.999 70.33 6.17 Intr - 180444 180265 180 0 0 115 86 211 0.976 23.66 6.16 Intr - 181883 181665 219 2 0 93 76 305 0.968 28.30 6.15 Intr - 183867 183671 197 1 2 102 80 122 0.996 11.93 6.14 Intr - 185064 184894 171 1 0 102 82 188 0.999 19.51 6.13 Intr - 185958 185820 139 0 1 58 92 128 0.999 10.24 6.12 Intr - 186526 186410 117 1 0 96 70 167 0.999 16.36 6.11 Intr - 188617 188498 120 1 0 54 105 71 0.984 6.09 6.10 Intr - 190869 190757 113 1 2 121 91 140 0.999 17.70 6.09 Intr - 192084 191968 117 1 0 111 98 136 0.995 17.34 6.08 Intr - 192982 192853 130 1 1 104 91 140 0.999 16.17 6.07 Intr - 194290 194117 174 1 0 74 102 78 0.691 7.94 6.06 Intr - 197716 197579 138 1 0 96 83 79 0.984 8.86 6.05 Intr - 199559 199364 196 1 1 113 93 65 0.695 8.92 6.04 Intr - 203592 203468 125 0 2 38 103 82 0.425 4.08 6.03 Intr - 204733 204608 126 1 0 113 56 35 0.287 3.68 6.02 Intr - 206444 206359 86 0 2 75 95 -50 0.200 -6.06 6.01 Intr - 209502 209406 97 0 1 105 100 108 0.940 13.28 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_1|173_aa XGCVKTATSESPQHHNCHLGMTGISSAYHPRSGNYVDSVTALQTRLACLAAYSQVSYDQQ MSHLHFMLEMHKCALIPAHYRISTSQVCHRFISLKGCLKHFPEFSMAPIAYDHLPRVLLK YPSSMDAVSKTHDIKRWVEEKMRVIPLVNICWELGKFCWGAQDPQATKATLKL >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_1|522_bp nntggctgtgtcaaaacagccacttcagaaagcccccagcatcacaactgccacctgggc atgactgggatatcatctgcttatcatccccgctcaggaaattatgtagattctgttact gccctccagacgcgacttgcttgtttggccgcctactcacaggtctcatacgaccaacag atgtcccacttgcacttcatgctggagatgcacaaatgcgcgctcatccccgcccactac aggatatccacttcacaggtctgtcatagattcatctccctcaaaggctgcttaaagcat ttcccagaattttccatggctcccattgcctacgatcacctgcccagggtcttgctcaag taccctagtagcatggatgctgtgtccaagacccatgacatcaagcgctgggtggaagag aaaatgagggttattcccttagtgaatatttgttgggagcttggcaaattctgctgggga gcccaggacccccaggccaccaaagccacactgaagttgtag >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_2|811_aa MAPASAPGEASGSLQLWRKVKEEQSWGSTVGKHLGEISGCDPLLKASPLAIAKQKRLWLP SKADFPENSPGVNRHLIQESSSWHLEGVPLGRSFQRKEQAAIFAVLQPPLVIPWQTGSGV DLLQTPPDLQKRVLTVRRKTNNQKAIASTSTKRTPTQKPHPKVTNIKDQRTNDKNQMIIS IDAEKPFNKIQLPFMLKTLNKLGIDGTYFKIIRAIYDKPTANIILNGQKLEAFPLKTGTR QGCPLSPLLFNIVLEVLARAIRQEKEIKGIQLGKEEVKLSLFADDMTVYLENPIVSAQNL LKLISNFSKVSGYKINVKKSQAFLYTSNRQTESQIMSELPFTIASKRIKYLGIQLTRDVK DLFKENYKPLLKEIKEDTNKWKNIPCSWVGRINIVKMAILPKVIYRFNAIPIKLPMTFFT ELEKTTLKFIWNQKRACIAKSTLSQKNKAGGITLPDFKLYYKATVTKTAWYWYQNRDIDQ WNRTEPSEITPHTYNYLIFDKPEKNKQWGKDSLFNKWCWENWLAICRKLKLDPFLTPYTK INSRWIKDLNVRPKTIKTLEENLGITIQDIGMGKDFMSKTPKAMATKDKIDKWDLIKLKS FCTAKETTIRANRQPTTWEKIFATYSSDKGLISRIYNELKQIYKKKTNNPIKKWAKDMNR HFSKEDIYAAKKHMKKCSSSLAIREMQIKTTMRYHLTPVRMAIIKKSGNNRASLLSGESS VVHHCIWTSASSKWEQNSVGPKPFLYLCDCTTLVTSSGQQSEILSQKKEEEEKKKKKKKK KKKKEEEEEEEEEEEEEEERRGGGKERGYVN >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_2|2436_bp atggcgccagcatctgctcctggtgaggcctcaggaagtttacaattgtggcggaaggtg aaggaagagcagtcatggggtagcactgtggggaaacatttgggagagatctccggctgt gacccactgttaaaagcatctccactggctattgctaaacagaaaagattgtggcttccc agcaaggctgatttcccagaaaacagccctggggtcaacagacacctcatacaggagagc tccagctggcatctggagggtgtccctctgggacgaagcttccagaggaaggagcaagca gcaatctttgctgttctgcagcctccactggtgataccctggcaaacaggatctggagtg gacctcctgcaaactccaccagacctgcagaagagggtcctgactgttagaaggaaaact aacaatcagaaagcaatagcatcaacatcaacaaaaaggacgcccacgcaaaaaccccat ccgaaggtcaccaacatcaaagatcaaagaactaatgacaaaaaccagatgattatctca atagatgcagaaaagcccttcaataaaattcaacttcccttcatgctaaaaactctcaat aaattaggtattgatgggacatatttcaaaataataagagctatctatgacaaacccaca gccaatatcatactgaatgggcaaaaactggaagcattccctttgaaaactggcacaaga cagggatgccctctctcaccgctcctattcaacatagtgttggaagttctggccagggca atcaggcaggagaaggaaataaaaggtattcaattaggaaaagaggaagtcaaattgtcc ctgtttgcagacgacatgactgtttatctagaaaaccccatcgtctcagcccaaaatctc cttaagctgataagcaacttcagcaaagtctcaggatacaaaatcaatgtaaaaaaatca caagcattcttatacaccagcaacagacaaacagagagccaaatcatgagtgaactccca ttcacaattgcttcaaagagaataaaatacctaggaatccaacttacaagggatgtgaag gacctcttcaaggagaactacaaaccactactcaaggaaataaaagaggatacaaacaaa tggaagaacattccatgctcatgggtaggaagaatcaatatcgtgaaaatggccatactg cccaaggtaatttacagattcaatgccatccccatcaagctaccaatgactttcttcaca gaattggaaaaaactactttaaagttcatatggaaccaaaaaagagcctgcatcgccaag tcaaccctaagccaaaagaacaaagctggaggcatcacactacctgacttcaaactatac tacaaggctacagtaaccaaaacagcatggtactggtaccaaaacagagatatagatcaa tggaacagaacagagccctcagaaataacgccgcatacctacaactatctgatctttgac aaacctgagaaaaacaagcagtggggaaaggattccctatttaataaatggtgctgggaa aactggctagccatatgtagaaagctgaaactggatcccttccttacaccttatacaaaa atcaattcaagatggattaaagatttaaacgttagacctaaaaccataaaaaccctagaa gaaaacctaggcattaccattcaggacataggcatgggcaaggacttcatgtccaaaaca ccaaaagcaatggcaacaaaagacaaaattgacaaatgggatctaattaaactcaagagc ttctgcacagcaaaagaaactactatcagagcgaacaggcaacctacaacatgggagaaa attttcgcaacctactcatctgacaaagggctaatatccagaatctacaatgaactcaaa caaatttacaagaaaaaaacaaacaaccccatcaaaaagtgggcgaaggacatgaacaga cacttctcaaaagaagacatttatgcagccaaaaaacacatgaaaaaatgctcatcatca ctggccatcagagaaatgcaaatcaaaaccactatgagatatcatctcacaccagttaga atggcaatcattaaaaagtcaggaaacaacagagcatcactcttgtctggtgagtccagc gtggttcatcattgcatctggacttcagccagcagcaagtgggaacagaactctgtgggt cccaagcccttcttgtatctttgtgactgtaccactctagtgacttcttctgggcaacaa agtgagatcctgtctcaaaaaaaggaagaggaggagaagaagaagaagaagaagaagaag aagaagaagaaggaggaggaggaggaggaggaggaggaggaggaggaggaggaagagaga agaggaggaggaaaagaaagaggttacgtgaattag >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_3|77_aa MPEPPTHSMGSCVARASPTSTTPCSMAPSPIDHPRAEECEHRAQDGQAAPPAAPVRDPLG EASWAPESGGDVESLYI >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_3|234_bp atgcctgagcctcccacccactccatgggctcctgtgtggcccgagcctccccgacgagc accaccccctgctccatggcgcccagtcccatcgaccacccaagggctgaggaatgcgag cacagggcacaggacgggcaggcagctccacctgcagccccggtgcgggatccactaggt gaagccagctgggctcctgagtctggtggggacgtggagagtctttatatctag >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_4|179_aa MAGVRSLRCSRGCAGGCECGDKGKCSDSSLLGKRLSEDSSRHQLLQKWASMWSSMSEDAS VADMERAQLEEEAAAAEERPLVFLCSGCRRPLGDSLSWVASQEDTNCILLRCVSCNVSVD KEQKLSKREKENGCSSSSHFDITIIFVLFVYQATLPLTDYGAVEANVNTRWQQGSIQLQ >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_4|540_bp atggcaggcgttcggtcactgaggtgtagcagaggatgcgctggcggctgtgagtgcggc gacaagggcaaatgcagcgactcctcgctgttgggcaagagactctccgaagactcgagc cgccaccagctgttgcagaagtgggcgagcatgtggagctccatgagcgaagacgcgtcg gtggccgacatggagagggcgcagctggaggaggaggcggcggctgcggaggagaggccg ctggtgttcctgtgctccggctgccggcggccgctgggcgactcgctgagctgggtggcc agccaggaggacaccaactgcatcctgcttcgctgtgtttcctgtaatgtttctgtggat aaggaacagaagctatccaaacgtgaaaaggaaaatggttgctctagctctagccatttt gatatcaccatcatttttgtcctatttgtgtaccaggctactctcccactaacagactat ggtgctgtggaagcaaacgtcaacacccgctggcaacaaggcagcatccagctgcagtaa >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_5|257_aa MANGTNASAPYYSYEYYLDYLDLIPVDEKKLKAHKRASRVLCQMSHILCQGRHASYVGCI TRPASDASCVLCQMFHTSYVRGAMRPMSDVSRILCHVMRRMSDASRVLCQMFHTSCQGRH TSYVGYVTRRMSDASHVLCRGRHTSYVGCVTRPMSGASCVLCRGVIRPMSVCHSIVIAFW VSLAAFVVLLFLILLYMSWSASPQMRWEQPQAPPNMPLESRPQPPPLHPEVPAVPQGTPG NLTGSGELSGAREQNWP >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_5|774_bp atggccaacgggaccaacgcctctgccccatactacagctatgaatactacctggactat ctggacctcattcccgtggacgagaagaagctgaaagcccacaaacgggcgtcacgcgtc ctatgtcagatgtcacacatcctatgtcaggggcgtcacgcatcctatgtcggatgcatc acgcgtcctgcgtcggatgcgtcatgcgtcctatgtcagatgtttcacacgtcttatgtc aggggcgccatgcgtcctatgtcggatgtgtcacgcatcctatgtcacgtcatgcgtcgc atgtcagatgcgtcacgtgtcctatgtcagatgtttcacacgtcatgtcaggggcgtcac acgtcctatgtcggatatgtcacgcgtcgtatgtcagatgcgtcacacgtcctatgccgg gggcgtcacacgtcctatgtcggatgtgtcacgcgtcctatgtcaggggcgtcatgcgtc ctatgtcggggcgtcattcgtcctatgtcagtgtgtcattccatcgtgatcgcattctgg gtgagcctggctgccttcgtggtgctgctcttcctcatcttgctctacatgtcctggtcc gcctccccgcagatgaggtgggaacagccccaagcaccaccaaacatgcccctggagtca cggcctcaacctccacctctgcatccagaagtgcctgccgtgccacagggaacccctggc aacctcacaggctcaggcgagctcagtggagccagggagcagaactggccctga >gi568815577r:32169040_32379014|GENSCAN_predicted_peptide_6|2079_aa GVYDVRQAYVQFALSFLIAGDDSTIVQVLEVKEFIPCIFSSGIKEDRISTINILLSTLKT KVVHNKNITKTQKVRFFTGQLLNHIASLYNWNGITDVNPENVKVSAEEAGKTMVRELVHN FLMDLCCSLKHGINFYDASLGTFGRGGNLTLLHFLLGLKTAADDDLVADLVVNILKVCPD LLNKYFKEVTFSFIPRAKSTWLNNIKLLNKIYEAQPEISRAFQTREFIPLPRLLAMVMVT TVPLVCNKSMFTQALNLDSTSVRHTALSLISVILKRALKTVDHCLNKEVWQESGVYTAVM MEEFVQLFREALSKILPDLNTVVWVWQSLKKQETKQDDKKGQKRSDGPPAACDAHQCDDA ETILLKAVLLQVICLYQKVVPHVVMQYNFDFSKLLKGVISEQGLREEVPPILQHHMLKVA LELPASKFLWLKAQEGPDAEIIGGERSVFYLLMKMFVTSSHLQLKSLTKLLIMKILRDTG VFEHTWKELELWLEHLENTMEEDKETVIQFLERILLTLVANPYSYTDKASDFVQEASMLQ ATMTKQEADDMSIPISHIDDVLDMVDVLVEGSEGLDEEIGFTLSEDMILLTFPFSAVVPA ALEARNKLLLGTGNEAAENVVTYLTAVLTDLLHTQRDPLALCLLLQAYDKLEPPCLVPCC QQLSRFNRYYSLWIPEQAREAWLLQAQGSPSPPALPLASSFTALLQAAYESQALRDEHIQ VQLQATMPHLSMQQVLLAAKQVLLYLRSTVENFGQLGRSVGPPLLQLFLDLLRRLVVHCE QLDAQNQQRCEAARAEADLFLDMESVASLELANDQTLEEVLVAILRHPTLEGWFLALEQQ ALPPHTLSPVLVKLLATHFSAGVLQLLAASAPILQNIGQLGLLARYSEAITQSVLKELQN RRAGPATSPPKTPPQLEALQELHPYMEGAQLREVTLALLSLPETHLVTQQPTKSPGKERH LNALGKTLVQLLTCSPQDQLQSGELLWSSEYVRGLGALLPTLAVDELDTVLLHTLQRDPV LAPAVGADLLDYCLARRTQAALSIAALLLQESCTHLLWFEQWCLQAGPGLGLQGDLDDFL PLIHVYLQCRTRSHFTRPAGVSSAVIPVLRKTLWRQLQSRLLSTDSPPASGLYQEILAQL VPFARAKDLSVLMDRLPSLLHTPSSHKRWIVADSISAALEGSAEELCAWRRTLLESCVKW LIVSFSGGQQDDDNTQNQEKEMLLRLNALLHALNEVDPGDWQKFVKKGLKFRYQDHTFLK MLLTAVQLLYSPESSVRTKLIQLPVVYVMLMQHSLFLPTLLTSDGEESPDSQVKEALVDL MLTVVEMCPSVCESSHFAVLLGAYGATLSVLDQKILLLLRAYEQNKLSLINFRVLLWGPA AVEHHKTCRSLGRSLWQQPSVGDILRLLDRDRMMQTILHFPQNRRLLPPEDTQELIFKDK SRVDLDGLYDPCFLLQLFSELTRPEFVVDCRKFLDSNALGLTVTALSSYDPQMRAIAYHV LAAYYSHLEGARFQEQSQLLYLLDVVRNGIRTQDMRLTFTLALFIAKAALQILKPEEHMY LKVSNFLLSHEYLNMDKVPGFYQFFYSSDFEQKTEQKWVFGVLRQGIRDKQCYELCARRG IFHIILSFFHSPLCDEAAQNWILEILQNAAQVARSAYEIIRDYSLLTWILHILESKFLET PLLSNVISLLHTLWVTNLGDKAVEWESQRLCQPSSQEPAKRLALHLVNEFLYVLIVLMKH LRPTLAPVQLTNFFGTLDSVLRYRATVIQAFRDMNRFTVNETVLSTKDVLVLLHKWSLIE RDLKLQEDLRAAIEKAQARELMKMLKDKNKPVMPARAKGPRGRKRRPGEAEEMADPELMA STLETCKGLLRSILTYWRPVIPGPDPTQEPVDSASPESDAPGPVYAAASLAVSWVLRSVA EHPLSRAEAAGLIGWLKSHILPHPVVVADLLKDSAVRSSIFRLYSRLCGAEGLAGPVQEV ACLFNTVMLQLVAAQGRAGSPFHPAMEALSLSSLSEKDEATQAFLVSLYIKDIWLGAQRP DTLLTHVRMVCEAADDAPSSEEEAIVVLCKDAASAASDA >gi568815577r:32169040_32379014|GENSCAN_predicted_CDS_6|6240_bp ggagtgtacgacgttcggcaggcctacgttcagtttgctctctcctttttaattgcgggt gatgacagcactatagtgcaggtgttggaagtgaaagaatttattccttgcatttttagc tcagggataaaggaagataggatctctaccatcaatattttattatccacactgaaaaca aaggtagttcacaataaaaatatcacaaaaacccagaaggtgcgtttctttacggggcag ttattgaaccacatagcatcgctgtacaactggaatgggattaccgatgtgaacccagaa aatgtcaaggtttctgccgaagaagcagggaaaaccatggtgcgggagcttgttcataac ttcctgatggatctttgctgttcactcaagcatggaattaatttttacgatgcatctttg ggtacctttggcagaggcggaaacctgacactcttgcacttcttgctgggtttgaaaact gcagctgatgatgatctggtggctgaccttgtggtaaacatcctcaaagtgtgcccggac ttactgaacaaatacttcaaggaagtaacgttttcctttatcccacgagcgaagtctact tggttaaataatatcaaactactaaacaagatctatgaggctcagccggagatttcccgg gcatttcagaccagagagtttatacccttgcctcggctcctggcaatggtgatggtgacc accgtgcccctggtgtgcaataagagcatgttcacccaagcattaaacttggacagcacc tcagtgaggcacacagccttatcccttatttctgtcattttgaagagggcattaaaaact gttgaccactgcctgaataaagaggtgtggcaggaatcaggcgtgtacacagctgtgatg atggaagaattcgtgcagctcttcagagaagccctgagcaagattttgccagacctgaac actgtcgtgtgggtctggcagtcacttaaaaagcaagagaccaaacaggatgacaagaaa gggcagaaaaggagcgatgggcccccggctgcctgcgatgctcaccagtgcgatgatgca gaaaccattcttttgaaagctgttttgctccaggtcatatgcctctaccagaaggtggtc ccccacgtggtcatgcagtacaactttgacttcagcaagctcctgaaaggtgtcatctct gagcagggccttcgagaggaggtgcctcccattctgcagcaccacatgctgaaggtggcc ctggagctgccggccagcaagtttctgtggttaaaggcacaggaaggcccagatgcagaa attattggaggtgaacgatcagtattttacttactaatgaaaatgtttgtgaccagtagc catttacaactgaagtcattgaccaaacttctgatcatgaagattctgcgggacacgggg gtgtttgagcacacctggaaggagctggagctctggctggagcatttagagaacaccatg gaagaggacaaagagactgtgattcagtttctggaacgcattttattgacattggtggcg aatccctattcatacacagacaaagcatctgactttgtccaagaagcaagcatgctgcag gccactatgacgaagcaagaagccgatgacatgagcattcccatctcccacattgacgat gttctcgacatggtggatgtcctggtggagggcagtgaaggcttggatgaggaaataggg ttcacgttgagtgaagacatgatcctgctcacgttcccattcagtgcggtagtccctgcg gccctggaagccaggaataagttgctccttgggacaggcaatgaagcagcggaaaacgtt gtgacatatctgacggcagtgctgactgacctcctccacacccagagggaccccctggct ctgtgtctcctgctccaggcatatgataagcttgagcctccatgcctggtgccttgctgc cagcagctctcacggtttaacagatactacagcctctggatcccggagcaagcccgagag gcctggctgctgcaggcacagggcagcccctcgccccctgcccttcccttggcctcgtcc ttcacagccctgctgcaggcagcctacgagagccaagcgcttcgggacgagcacatccag gtgcagctgcaggccaccatgccacacctgtccatgcagcaggtcctgctcgcggccaag caggtgttgctctacctgcggagcactgtggagaacttcggccagctgggcagaagtgtg ggcccgcccctcctgcagctcttcctggatctcctcaggcgcctggttgtccactgtgag cagctggatgcccagaaccagcagagatgcgaggccgcccgggccgaagccgacctcttc ctggacatggagtccgtggcctcgctggagttggccaatgatcagacgctggaggaggtg cttgtggccatcctcaggcaccccaccctggagggctggttcctggccctggagcagcag gccctcccgccgcacacgctcagccctgtcctcgtgaagctcctggccacccactttagt gcaggggtccttcagctgctggcagcaagtgccccgatcctccagaacattgggcagctg ggccttctggccaggtactcagaggccatcacccagagtgtgctgaaggaacttcagaac aggagggcgggcccggccacatcaccaccaaagaccccgccgcagctggaggccctgcag gagctgcatccatacatggagggtgcccagctccgtgaggtcaccctggccttgctgagc ctgcctgagacacacctggtgacccagcaacccacgaaatcccccgggaaggaaagacac ctgaatgctcttggaaagaccctggtgcagctgctgacctgcagcccccaggatcagctg cagagtggtgagctcctgtggtcctccgagtatgtgagaggcctgggggctctgctgccc acgctagcagtggacgagctggacacagtgctcctccacactctgcagagagaccctgtg ctggcccccgcagtcggggctgatctgcttgactactgcctggcccggcgcacacaggcg gccctcagcatcgctgccctgctcctccaggagagctgcacccacttgctgtggttcgag cagtggtgcctgcaggctggcccagggctcggcctccagggggacctggacgacttcctt cccctcatccatgtgtacctccagtgcaggacacggagccacttcacacgcccagcagga gtgtcttccgctgtcattcctgtcttgaggaagaccctgtggaggcagctacagagcagg cttcttagcactgacagtcccccagcatctgggctgtaccaggagatcctggcacagctg gtcccgtttgcacgagccaaggatctcagtgtactcatggaccgcctgcccagcttgctt cacaccccaagcagtcacaagaggtggatcgtggccgactccatttcagcagctctggaa gggtcagcagaagagctgtgtgcctggagaaggacccttttggagtcctgtgtgaagtgg ctgatcgtgtctttcagtggtggacagcaagatgatgataatactcagaatcaggagaag gaaatgctgcttagattaaatgcgttgttgcatgcacttaatgaagttgatcctggtgac tggcagaaattcgtgaagaagggactcaaatttcggtaccaggaccacacatttttaaag atgctcctcaccgccgtacagctcctgtacagcccagaaagctccgtgcgcacgaagctc atccagctcccggtggtctacgtgatgctcatgcagcactcgctgtttctgccgactcta ctgacgtctgacggagaggagagcccggacagccaagtaaaagaagcgctggtggacctg atgctgacggtggtggagatgtgcccctctgtctgtgagagcagccactttgcagtgctt ctcggggcctatggcgccactctcagcgtcctagatcagaagattttacttctgcttcga gcgtatgagcagaacaagctcagcctcatcaacttcagggtgctgctgtggggcccagcg gccgtggagcatcacaagacgtgccggagcctgggcaggtcactgtggcagcagccgagt gtcggggacatccttcgcctgctggaccgggaccggatgatgcagaccatcctgcacttc ccccagaaccggaggctgctgccccccgaggacacacaggagctgatattcaaagacaaa agcagggtggatcttgatggcctctatgacccctgctttctccttcagctcttcagtgag ctgaccaggccagagtttgtggtggattgtcgaaaatttttggattcaaatgctctgggc ctaactgtcacagccctcagcagctatgacccccagatgcgagccatagcctaccatgtc ctggcggcctactactcgcacttggagggcgcacggttccaagagcagtcccagctactt tacctgttggatgtagtccggaatgggattcgaactcaggacatgagacttacttttacc ttggctctcttcattgccaaagcagccctgcagattttgaaaccagaggagcacatgtac ctgaaggtcagcaacttcctgctgtcgcatgagtacttgaacatggacaaagtgccaggc ttctaccagttcttctacagctccgactttgagcaaaaaacagagcagaagtgggtgttt ggcgttctgcggcaggggatccgtgacaagcagtgctacgaactgtgtgcccggcgtggc atcttccacatcatcctgtccttcttccacagcccgctgtgtgacgaggcagcacagaat tggattctggaaattctacagaatgctgcccaggttgccagatctgcgtatgaaatcata cgagactatagccttttaacatggattttacacatccttgaaagcaagtttctggagact ccgctgctgtctaatgtgatctccttgctacacacactgtgggtgaccaacctgggggac aaggcagtggagtgggagagccagcgcctttgccagcctagctcccaggagcctgccaag cggcttgccctgcacctggtcaatgagttcctttatgttctcatcgtgctcatgaagcac ctgaggcccaccttggcccccgtccagctgaccaacttcttcgggacacttgactccgtg ctgaggtaccgggccactgtcatacaggcctttagggacatgaacagattcaccgtaaat gagacagtgctttccaccaaggacgtccttgtcctcttgcacaagtggagcctcattgaa agagacctcaagctccaggaagacctgagagcagccattgagaaggcccaagcccgggag ctcatgaaaatgctcaaggataagaacaagcctgtcatgccagcccgagccaaaggccca cggggccgaaagaggaggcctggggaggcagaggagatggctgaccctgagctgatggca tctaccttggagacatgcaagggcctcctgaggtccatcttgacttactggagaccagtg atccctggtcctgaccccactcaggagcctgtggactcagccagccccgagagcgatgcg ccaggccccgtatatgctgccgcttccctggcagtcagttgggtgctgcggtcggtggcc gagcacccgctcagcagggcagaggctgcaggactcattggctggcttaagagccatatt ttgccacaccctgtggtcgtggctgacctccttaaggacagtgccgtgaggagcagcata ttcaggctgtatagccggctctgtggggctgaggggctggcagggcctgtgcaggaggtg gcctgcctgttcaatacggtcatgctgcagctggtggctgcccagggccgggcagggagc cccttccacccggccatggaagccctctccctgtcttctctgagtgagaaggatgaagcc acacaagcattcctagtgtctctctacataaaggacatctggctgggggctcagcggccg gacaccctcttaacccacgtccggatggtgtgtgaggccgcagatgatgccccgagcagt gaagaggaggccatcgtggtgctctgcaaggacgccgccagcgcagcctcagatgcttga