GENSCAN 1.0 Date run: 4-Nov-116 Time: 02:55:35 Sequence gi568815583r:52024471_52279879 : 255409 bp : 44.47% 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 + 6200 6251 52 1 1 80 26 78 0.199 2.12 1.02 Intr + 21360 21403 44 1 2 144 77 -3 0.015 2.16 1.03 Intr + 21910 22545 636 0 0 57 95 312 0.013 21.09 1.04 Intr + 25523 25667 145 1 1 88 92 57 0.930 5.96 1.05 Intr + 34163 34327 165 0 0 87 67 80 0.975 5.73 1.06 Intr + 36829 37030 202 2 1 101 94 112 0.997 11.44 1.07 Term + 39432 40530 1099 0 1 64 41 508 0.999 35.26 1.08 PlyA + 40735 40740 6 1.05 2.00 Prom + 55541 55580 40 -2.06 2.01 Init + 63294 63301 8 2 2 103 91 0 0.860 2.30 2.02 Intr + 69787 70018 232 1 1 99 74 88 0.903 6.28 2.03 Term + 70774 70941 168 0 0 37 42 202 0.999 8.38 2.04 PlyA + 71029 71034 6 1.05 3.03 PlyA - 71970 71965 6 1.05 3.02 Term - 78253 78164 90 1 0 92 39 57 0.045 -1.08 3.01 Init - 88256 87768 489 2 0 85 80 833 0.610 77.40 3.00 Prom - 92023 91984 40 -4.36 4.13 PlyA - 93921 93916 6 1.05 4.12 Term - 95436 95356 81 0 0 93 48 -1 0.191 -5.91 4.11 Intr - 95900 95832 69 2 0 63 86 75 0.399 4.18 4.10 Intr - 100169 100003 167 0 2 61 52 107 0.870 4.08 4.09 Intr - 101574 101478 97 0 1 68 83 93 0.984 6.38 4.08 Intr - 103774 103726 49 0 1 63 92 55 0.545 2.08 4.07 Intr - 108999 108908 92 0 2 88 77 183 0.438 15.99 4.06 Intr - 110635 110522 114 1 0 114 93 -16 0.797 2.14 4.05 Intr - 111286 111143 144 1 0 86 55 204 0.974 17.38 4.04 Intr - 116802 116670 133 2 1 86 99 181 0.983 19.65 4.03 Intr - 123065 122989 77 2 2 65 106 8 0.047 -1.39 4.02 Intr - 125455 125414 42 1 0 141 100 42 0.970 9.14 4.01 Init - 129709 129470 240 1 0 58 91 211 0.795 16.38 4.00 Prom - 133094 133055 40 -0.66 5.00 Prom + 133841 133880 40 -5.46 5.01 Init + 133890 133899 10 2 1 99 79 9 0.905 0.67 5.02 Intr + 134823 134953 131 1 2 58 77 108 0.935 7.11 5.03 Term + 135016 135150 135 0 0 76 47 72 0.693 -0.08 5.04 PlyA + 136152 136157 6 1.05 6.41 PlyA - 137852 137847 6 1.05 6.40 Term - 139516 139043 474 1 0 97 36 121 0.001 2.69 6.39 Intr - 149344 149301 44 2 2 90 24 54 0.002 -2.84 6.38 Intr - 155409 155298 112 0 1 23 75 263 0.013 18.45 6.37 Intr - 170987 170907 81 2 0 88 94 44 0.950 4.83 6.36 Intr - 172013 171839 175 1 1 114 60 123 0.985 12.04 6.35 Intr - 180677 180395 283 0 1 95 98 499 0.752 48.08 6.34 Intr - 184713 184677 37 0 1 62 95 -3 0.203 -4.36 6.33 Intr - 187414 187260 155 2 2 94 97 224 0.517 23.69 6.32 Intr - 188816 188718 99 0 0 87 0 124 0.578 3.58 6.31 Intr - 190220 190133 88 2 1 80 116 77 0.996 9.24 6.30 Intr - 194217 194049 169 2 1 120 76 154 0.999 17.35 6.29 Intr - 195352 195289 64 2 1 77 106 54 0.973 3.88 6.28 Intr - 196785 196692 94 0 1 61 88 91 0.989 5.94 6.27 Intr - 199254 199074 181 2 1 72 56 202 0.994 15.27 6.26 Intr - 200511 200431 81 2 0 104 41 55 0.681 1.15 6.25 Intr - 200668 200605 64 2 1 108 89 80 0.998 7.88 6.24 Intr - 201062 200969 94 2 1 74 75 69 0.995 3.74 6.23 Intr - 204843 204663 181 2 1 93 75 236 0.873 22.67 6.22 Intr - 208215 208152 64 1 1 80 20 129 0.839 3.08 6.21 Intr - 211293 211200 94 0 1 75 98 96 0.995 8.84 6.20 Intr - 213176 213012 165 2 0 105 60 212 0.774 20.26 6.19 Intr - 215409 215263 147 0 0 43 96 85 0.961 5.23 6.18 Intr - 217743 217578 166 2 1 49 100 184 0.938 15.66 6.17 Intr - 220097 219886 212 2 2 119 87 124 0.882 13.11 6.16 Intr - 220995 220884 112 2 1 114 82 215 0.983 23.88 6.15 Intr - 221572 221486 87 0 0 58 91 104 0.978 6.79 6.14 Intr - 222544 222447 98 1 2 59 80 126 0.998 7.71 6.13 Intr - 223122 222988 135 0 0 85 79 45 0.934 4.06 6.12 Intr - 224313 224230 84 0 0 69 66 83 0.827 4.22 6.11 Intr - 227045 226920 126 2 0 97 81 50 0.981 6.08 6.10 Intr - 228987 228847 141 0 0 27 21 209 0.996 8.65 6.09 Intr - 232250 232169 82 1 1 63 78 69 0.940 3.04 6.08 Intr - 236657 236392 266 2 2 45 86 291 0.993 20.91 6.07 Intr - 239826 239747 80 1 2 75 52 87 0.263 3.07 6.06 Intr - 245390 245283 108 0 0 73 82 91 0.944 7.26 6.05 Intr - 247374 247293 82 0 1 71 71 41 0.958 -0.09 6.04 Intr - 248253 248110 144 0 0 67 108 140 0.999 14.38 6.03 Intr - 251248 251092 157 0 1 49 92 201 0.967 16.61 6.02 Intr - 254547 254403 145 1 1 84 70 242 0.998 21.34 6.01 Intr - 255204 255039 166 0 1 80 79 222 0.986 20.03 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 21991 22545 555 0 0 68 95 316 0.956 25.27 S.002 Init - 120430 120360 71 1 2 98 45 101 0.949 7.26 S.003 Init + 138585 138645 61 2 1 94 101 41 0.944 7.42 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_1|780_aa MKEYSGAILAQCNLRFPGCIRVRWTVALIVIVIFPFDASFLPCLHKFNLKGKGNSKGFKM AEKFESLMNIHGFDLGSRYMDLKPLGCGGNGLVFSAVDNDCDKRVAIKKIVLTDPQSVKH ALREIKIIRRLDHDNIVKVFEILGPSGSQLTDDVGSLTELNSVYIVQEYMETDLANVLEQ GPLLEEHARLFMYQLLRGLKYIHSANVLHRDLKPANLFINTEDLVLKIGDFGLARIMDPH YSHKGHLSEGLVTKWYRSPRLLLSPNNYTKAIDMWAAGCIFAEMLTGKTLFAGAHELEQM QLILESIPVVHEEDRQELLSVIPVYIRNDMTEPHKPLTQLLPGISREALDFLEQILTFSP MDRLTAEEALSHPYMSIYSFPMDEPISSHPFHIEDEVDDILLMDETHSHIYNWERYHDCQ FSEHDWPVHNNFDIDEVQLDPRALSDVTDEEEVQVDPRKYLDGDREKYLEDPAFDTNYST EPCWQYSDHHENKYCDLECSHTCNYKTRSSSYLDNLVWRESEVNHYYEPKLIIDLSNWKE QSKEKSDKKGKSKCERNGLVKAQIALEEASQQLAGKEREKNQGFDFDSFIAGTIQLSSQH EPTDVVDKLNDLNSSVSQLELKSLISKSVSQEKQEKGMANLAQLEALYQSSWDSQFVSGG EDCFFINQFCEVRKDEQVEKENTYTSYLDKFFSRKEDTEMLETEPVEDGKLGERGHEEGF LNNSGEFLFNKQLESIGIPQFHSPVGSPLKSIQATLTPSAMKSSPQIPHQTYSSILKHLN >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_1|2343_bp atgaaggagtacagcggtgcaatcttggctcagtgcaacctgcgcttcccaggttgtatc agagtaagatggacggtagctttgattgtgattgtgatctttccttttgatgccagtttt cttccttgtttacacaagttcaatttgaaaggaaaaggcaatagtaagggtttcaaaatg gcagagaaatttgaaagtctcatgaacattcatggttttgatctgggttctaggtatatg gacttaaaaccattgggttgtggaggcaatggcttggttttttctgctgtagacaatgac tgtgacaaaagagtagccatcaagaaaattgtccttactgatccccagagtgtcaaacat gctctacgtgaaatcaaaattattagaagacttgaccatgataacattgtgaaagtgttt gagattcttggtcccagtggaagccaattaacagacgatgtgggctctcttacggaactg aacagtgtttacattgttcaggagtacatggagacagacttggctaatgtgctggagcag ggccctttactggaagagcatgccaggcttttcatgtatcagctgctacgggggctcaag tatattcactctgcaaatgtactgcacagagatctcaaaccagctaatcttttcattaat acggaagacttggtgctgaagataggtgactttggtcttgcacggatcatggatcctcat tattcccataagggtcatctttctgaaggattggttactaaatggtacagatctccacgt cttttactttctcctaataattatactaaagccattgacatgtgggctgcaggctgcatc tttgctgaaatgctgactggtaaaaccctttttgcaggtgcacatgaacttgaacagatg cagctgattttagaatctattcctgttgtacatgaggaagatcgtcaggagcttctcagc gtaattccagtttacattagaaatgacatgactgagccacacaaacctttaactcagctg cttccaggaattagtcgagaagcactggatttcctggaacaaattttgacatttagcccc atggatcggttaacagcagaagaagcactctcccatccttacatgagcatatattctttt ccaatggatgagccaatttcaagccatccttttcatattgaagatgaagttgatgatatt ttgcttatggatgaaactcacagtcacatttataactgggaaaggtatcatgattgtcag ttttcagagcatgattggcctgtacataacaactttgatattgatgaagttcagcttgat ccaagagctctgtccgatgtcactgatgaagaagaagtacaagttgatccccgaaaatat ttggatggagatcgggaaaagtatctggaggatcctgcttttgataccaattactctact gagccttgttggcaatactcagatcatcatgaaaacaaatattgtgatctggagtgtagc catacttgtaactacaaaacgaggtcatcatcatatttagataacttagtttggagagag agtgaagttaaccattactatgaacccaagcttattatagatctttccaattggaaagaa caaagcaaagaaaaatctgataagaaaggcaaatcaaaatgtgaaaggaatggattggtt aaagcccagatagcgctagaggaagcatcacagcaactggctggaaaagaaagggaaaag aatcagggatttgattttgattcctttattgcaggaactattcagcttagttcccagcat gagcctactgatgttgttgataaattaaatgacttgaatagctcagtgtcccaactagaa ttgaaaagtttgatatcaaagtcagtaagccaagaaaaacaggaaaaaggaatggcaaat ctggctcaattagaagccttgtaccagtcttcttgggacagccagtttgtgagtggtggg gaggactgttttttcataaatcagttttgtgaggtaaggaaggatgaacaagttgagaag gaaaacacttacactagttacttggacaagttctttagcaggaaagaagatactgaaatg ctagaaactgagccagtagaggatgggaagcttggggagagaggacatgaggaaggattt ctgaacaacagtggggagttcctctttaacaagcagctcgagtccataggcatcccacag tttcacagtccagttgggtcaccacttaagtcaatacaggccacattaacaccttctgct atgaaatcttcccctcaaattcctcatcaaacatacagcagcattctgaaacatctgaac taa >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_2|135_aa MPSSSQLLALSSFPWKNIPAVGAWNTPASATPLWPDVYGCVNVQQEASGFHPGAKVYGAS RLERTVWLTEVACLAAGSTYVGTFNNVATLHCLTAAIMGRMHAPGKGPSRLALPYRHSIP TWLKLTSDDVKEQIY >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_2|408_bp atgcccagctcatctcagctgcttgccctctcatcctttccttggaaaaacatcccagct gttggggcctggaatactccagcatcagccacacccctctggcctgatgtgtatggctgt gtcaatgtgcagcaggaggcaagtggcttccaccctggtgccaaggtctatggagccagc agactggagaggacagtctggctgacagaggtggcctgccttgcagctggaagcacttac gtgggaacatttaataacgtggccacacttcactgcctgactgccgccatcatgggtcgc atgcatgctcctgggaagggcccgtcccggttggctttgccctatcgccacagcatcccc acttggctgaagttgacatctgatgacgtgaaggagcagatttactaa >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_3|192_aa MVDQLRERTTMADPLRERTELLLADYLGYCAREPGTPEPAPSTPEAAVLRSAAARLRQIH RSFFSAYLGYPGNRFELVALMADSVLSDSPGPTWGRVVTLVTFAGTLLERGPLVTARWKK WGFQPRLKEQEGDVARDCQRLVALLSSRLMGQHRAWLQAQGGWGELIACMNADGSDARDG AFDDAGRRGEEI >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_3|579_bp atggttgaccagttgcgggagcgcaccaccatggccgacccgctgcgggagcgcaccgag ctgttgctggccgactacctggggtactgcgcccgggaacccggcacccccgagccggcg ccatccacgcccgaggccgccgtgctgcgctccgcggccgccaggttacggcagattcac cggtcctttttctccgcctacctcggctaccccgggaaccgcttcgagctggtggcgctg atggcggattccgtgctctccgacagccccggccccacctggggcagagtggtgacgctc gtgaccttcgcagggacgctgctggagagagggccgctggtgaccgcccggtggaagaag tggggcttccagccgcggctaaaggagcaggagggcgacgtcgcccgggactgccagcgc ctggtggccttgctgagctcgcggctcatggggcagcaccgcgcctggctgcaggctcag ggcggctggggagaattaatagcatgcatgaatgcagatggaagtgatgcaagagatgga gcatttgatgatgcaggcaggagaggagaggagatctag >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_4|434_aa MGPPPSAEHMSVLCQPKAQNLVLSKGTDYGLVIPVHQVAERVEALGQFVMKTRRTLKGHG NKVLCMDWCKDKRRIVSSSQDGKVIVWDSFTTNKEHAVTMPCTWVMACAYAPSGCAIACG GLDNKCSVYPLTFDKNENMAAKKKSVAMHTNYLSACSFTNSDMQILTASGDGTCALWDVE SGQLLQSFHGHGADVLCLDLAPSETGNTFVSGGARNRGFESSELADRATETQRSTRLGVR VPGSGLCYLTGCDKKAMVWDMRSGQCVQAFETHESDINSVRYYPSGDAFASGSDDATCRL YDLRADREVAIYSKESIIFGASSVDFSLSGRLLFAGYNDYTINVWDVLKGSRVSILFGHE NRVSTLRVSPDGTAFCSGSWDHTLRWVLSGFADEILDLDYVTACGDSGVISGLKQHRVVR AFVSRALIVARPAG >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_4|1305_bp atggggccgcctccctctgcggaacatatgtctgtgctgtgtcagcccaaagcccagaac ctggtccttagcaaggggactgactatggccttgtcattccagtgcaccaggtggcggag cgggtggaggccctggggcagtttgtcatgaagaccagaaggaccctcaaaggccacggg aacaaagtcctgtgcatggactggtgcaaagataagaggaggatcgtgagctcgtcacag gatgggaaggtgatcgtgtgggattccttcaccacaaacaaggagcacgcggtcaccatg ccctgcacgtgggtgatggcatgtgcttatgccccatcgggatgtgccattgcttgtggt ggtttggataataagtgttctgtgtaccccttgacgtttgacaaaaatgaaaacatggct gccaaaaagaagtctgttgctatgcacaccaactacctgtcggcctgcagcttcaccaac tctgacatgcagatcctgacagcgagcggcgatggcacatgtgccctgtgggacgtggag agcgggcagctgctgcagagcttccacggacatggggctgacgtcctctgcttggacctg gccccctcagaaactggaaacaccttcgtgtctgggggtgcaagaaacagaggctttgaa agctcagaattggcagacagggccacagagactcagagaagcactagactaggagtcagg gtgcctgggtcagggctttgctacctgactggatgtgacaagaaagccatggtgtgggac atgcgctccggccagtgcgtgcaggcctttgaaacacatgaatctgacatcaacagtgtc cggtactaccccagtggagatgcctttgcttcagggtcagatgacgctacgtgtcgcctc tatgacctgcgggcagatagggaggttgccatctattccaaagaaagcatcatatttgga gcatccagcgtggacttctccctcagtggtcgcctgctgtttgctggatacaatgattac actatcaacgtctgggatgttctcaaagggtcccgggtctccatcctgtttggacatgaa aaccgcgttagcactctacgagtttcccccgatgggactgctttctgctctggatcatgg gatcataccctcagatgggtgctgtcgggatttgctgatgagatacttgatttggactat gtgacagcatgtggagactcaggggttataagtggcttaaaacagcacagggttgtaagg gcctttgtgtcccgggctctcatagttgccaggccagctggctga >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_5|91_aa MAYTLEDSVDGDNTGGGKPGKRLLFFGSPLSSGHTICRTTLLCGPSKGEDACLCGLPAQL GPLKLEMLNILDASPDQGIRIKVMAGTQEEV >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_5|276_bp atggcgtacacgttggaggacagcgtcgatggagacaacactggaggagggaaaccaggg aagagactcctcttctttggcagccccctctccagcggacacaccatctgccgcaccacg cttctttgtggtccctccaagggagaggacgcttgcctctgtggcctccctgctcagttg ggtcctctgaagcttgagatgctgaatattctggatgccagtccagaccaaggaatcaga atcaaagtcatggctggaactcaagaggaagtgtag >gi568815583r:52024471_52279879|GENSCAN_predicted_peptide_6|1778_aa ELDYSVNPESLPPLRNPDILVGENDLTALSYLHEPAVLHNLRIRFAESKLIYTYSGIILV AMNPYKQLPIYGDAIIHAYSGQNMGDMDPHIFAVAEEAYKQMARNNRNQSIIVSGESGAG KTVSARYAMRYFATVSKSGSNAHVEDKVLASNPITEAVGNAKTTRNDNSSRFGKYTEISF DEQNQIIGANMSTYLLEKSRVVFQSENERNYHIFYQLCASAQQSEFKHLKLGSAEEFNYT RMGGNTVIEGVNDRAEMVETQKTFTLLGFKEDFQMDVFKILAAILHLGNVQITAEDDSHL KVFCELLGLESGRVAQWLCNRKIVTSSETVVKPMTRPQAVNARDALAKKIYAHLFDFIVE RINQALQFSGKQHTFIGVLDIYGFETFDVNSFEQFCINYANEKLQQQFNMHVFKLEQEEY MKEDIPWTLIDFYDNQPVIDLIEAKMGILELLDEECLLPHGTDENWLQKLYNNFVNRNPL FEKPRMSNTSFVIQHFADKVEYKCEGFLEKNRDTVYDMLVEILRASKFHLCANFFQENPT PPSPFGSMITVKSAKQVIKPNSKHFRTTVGSKFRSSLYLLMETLNATTPHYVRCIKPNDE KLPFEFDSKRIVQQLRACGVLETIRISAQSYPSRWTYIEFYSRYGILMTKQELSFSDKKE VCKVVLHRLIQDSNQYQFGKTKIFFRAGQVAYLEKLRLDKLRQSCVMVQKHMRGWLQRKK FLRERRAALIIQQYFRGQQTVRKAITAVALKEAWAAIIIQKHCRGYLVRSLYQLIRMATI TMQAYSRGFLARRRYRKMLEEHKAVILQKYARAWLARRRFQSIRRFVLNIQLTYRVQRLQ KKLEDQNKENHGLVEKLTSLAALRAGDVEKIQKLEAELEKAATHRRNYEEKGKRYRDAVE EKLAKLQKHNSELETQKEQIQLKLQEKTEELKEKMDNLTKQLFDDVQKEERQRMLLEKSF ELKTQDYEKQIQSLKEEIKALKDEKMQLQHLVEGEHVTSDGLKAEVARLSKQVKTISEFE KEIELLQAQKIDVEKHVQSQKREMREKMSEITKQLLESYDIEDVRSRLSVEDLEHLNEDG ELWFAYEGLKKATRVLESHFQSQKDCYEKEIEALNFKVVHLSQEINHLQKLFREENDINE SIRHEVTRLTSENMMIPDFKQQISELEKQKQDLEIRLNEQAEKMKGKLEELSNQLHRSQE EEGTQRKALEAQNEIHTKEKEKLIDKIQEMQEASDHLKKQFETESEVKCNFRQEASRLTL ENRDLEEELDMKDRVIKKLQDQVKTLSKTIGKANDVHSSSGPKEYLGMLQYKREDEAKLI QNLILDLKPRGVVVNMIPGLPAHILFMCVRYADSLNDANMLKSLMNSTINGIKQVVKLCL HCLFLFFLPFPGMLEYESLQGISGLKPTGFRKRSSSIDDTDGYTMTSVLQQLSYFYTTMC QNGLDPELVRQAVKQLFFLIGAVTLNSLFLRKDMCSCRKGMQIRCNISYLEEWLKDKNLQ NSLAKETLEPLSQAAWLLQVKKTTDSDAKEIYERCTSLSAVQIIKILNSYTPIDDFEKRV TPSFVRKVQMATEGLHENETLASLKSEAESLKGKLEEERAKLHDVEPLSLIDEKAAEIQG GGCCGLLGVHSRPLLPGSLLHLEVSPVKAAKQQRWHPAPSSGDSIPEGHQPDASWNAPGG GICRPLLGGLTQSRGMGSGTRLKKQSGCPLVEQIRCAGGNLPHPDHPDSPEHPGPTESSS LAMICHSSCAALWGIPPSLDHPDSQELAGQDGLLELQR >gi568815583r:52024471_52279879|GENSCAN_predicted_CDS_6|5337_bp gagctggattattctgtcaatccagaatctctgcctccacttcggaatcctgacatcctc gtgggcgagaatgacctcacggctctcagctatcttcacgagcccgcggtgctccacaac ctcagaatccgctttgcagaatccaaactcatttacacctacagtggaatcattttggtg gccatgaatccttacaagcagttgccaatatacggagatgccatcatccacgcctacagc gggcagaacatgggcgatatggacccacacatatttgccgtggcagaagaggcatacaag cagatggccagaaacaacagaaaccagtccataattgtaagtggggagtcaggtgctgga aagacagtgtcggctcgctatgccatgaggtactttgccaccgtcagcaaatcgggcagc aacgctcacgtggaagacaaggtcctggcatccaatcccatcaccgaggccgttggaaat gccaagaccacccgcaatgacaatagtagtcggtttgggaaatacacagaaatcagtttt gatgaacaaaatcaaattataggagccaacatgagcacttacctcctggagaaatccaga gttgtctttcaatcggaaaatgaacgaaattaccacattttctatcagctttgtgcatct gcacagcagtcggaatttaaacatcttaaattggggagtgccgaagaatttaattataca agaatgggaggcaatactgtcattgagggtgtgaatgatcgagctgaaatggtagagact caaaagaccttcacgcttctgggtttcaaggaggattttcagatggacgtttttaaaatc ctggcagccatcctacatctgggcaatgtgcagatcaccgcggaggatgacagtcacctg aaggtgttctgtgagctcctgggcctggagagtggcagagttgctcagtggctgtgcaat cgcaaaatcgtcacaagctctgagacggtggtaaaacccatgaccaggcctcaggctgtc aacgccagggatgcactggccaaaaagatctatgctcacctgttcgacttcattgtggag agaattaaccaagcgttgcagttttcaggcaagcagcacacttttattggtgttttggac atttatggttttgaaacctttgatgtgaacagctttgaacaattttgcatcaattacgct aatgaaaaactgcaacaacagtttaacatgcatgtcttcaaactggaacaagaagaatac atgaaggaagatataccttggacgctgatagatttttatgacaatcaaccagttattgac ctgattgaagcaaaaatgggaattctggagttactggatgaagaatgtttgttaccacat ggaactgatgaaaactggcttcaaaagctgtataataattttgtcaacaggaaccctttg tttgaaaagcctagaatgtcaaacacatcctttgtcatccagcactttgctgataaggta gagtataaatgtgaaggtttcctggagaaaaacagagacaccgtctatgacatgctggtt gaaatcctgagagcaagcaagtttcatctctgtgccaacttttttcaagaaaatccaact cctccttctccttttggttcaatgattacagttaaatctgcaaagcaagtcatcaagcca aacagcaagcatttccggaccacagttgggagcaagttccgcagctctctgtacttgctc atggagaccctcaatgcgacgacgccccactacgttcgatgcatcaagccaaatgatgag aagttaccctttgaatttgactccaaaagaattgttcagcagctgcgagcctgcggcgtt ttagaaacgattcgcattagtgcacagagctacccttccaggtggacatacatcgagttc tacagtcgctacggcattctcatgaccaagcaagagctttccttcagcgataaaaaggag gtgtgcaaggtggttttacacagactcatccaggattctaatcagtaccagtttggtaaa accaaaattttcttcagagcaggacaagtggcttatttagagaaacttcgattggataaa ctgaggcagagttgtgttatggtacaaaagcacatgcgtggctggctccagaggaaaaaa ttcctccgagagagacgagccgccctgataatccagcagtacttccggggtcagcaaact gtgaggaaagctattactgcagtggccttaaaagaagcttgggcagccataatcattcag aagcactgccgcgggtatcttgttcgcagcctgtatcagttgattcgcatggccaccatc acaatgcaggcctacagccgaggattcctggcaaggaggaggtatcgaaagatgctggag gaacataaggctgtgatcctacagaaatacgcacgggcgtggctggccagacgcagattc cagagtatccgacgattcgtgcttaatattcagcttacttacagggtccagcgtttgcag aaaaagttggaagatcagaacaaagaaaaccatgggctggtggagaagctgactagcctg gctgctcttcgagctggggatgtggaaaagattcagaagctggaagcagaactagaaaaa gcagccactcacaggcgaaattacgaggagaaggggaagagatacagggatgctgtggaa gagaaattggcaaagcttcagaagcataattcagaactggaaacacagaaagaacaaata cagctgaagcttcaagagaagactgaagagttaaaagaaaaaatggacaacctcaccaag cagctctttgatgatgtacaaaaggaagaacggcaaagaatgcttcttgaaaaaagtttt gaactgaaaacacaagactatgagaagcagattcagtctttgaaagaagaaattaaagct ctcaaggatgagaagatgcaactccaacacctggtggagggggagcacgtcacttctgat ggcttgaaggcggaagtggcccgcctgagcaagcaggtcaagacaatctctgagttcgaa aaagagatagaactacttcaggcacagaagatagatgtggagaaacatgtgcagtcacaa aaacgggaaatgagagaaaagatgtcagagatcaccaaacaacttctcgaaagctatgac attgaagatgtaagaagcaggctctctgtggaagatctggaacatttaaatgaggatgga gaactttggtttgcttatgaaggactaaagaaagcaacacgtgttttggagagccatttc cagtctcagaaggattgctatgaaaaggagattgaagctttgaacttcaaagtggtgcat ctcagtcaagaaatcaaccacctgcagaagttattcagagaagaaaatgacatcaatgaa agcatccgtcatgaagttaccaggctaacatcagagaacatgatgatcccagactttaaa cagcaaatttcagaattggagaaacagaagcaagatcttgaaatccgcctgaatgaacaa gctgagaaaatgaaaggaaaactagaagaattgtctaatcagttacatcgcagtcaagag gaggaaggaacacaaagaaaggccttggaagcccaaaatgaaatacataccaaagagaag gagaagctgattgataagattcaagaaatgcaggaggccagtgaccacttgaagaaacaa tttgaaactgaaagtgaagtcaagtgtaacttccggcaggaagcatcccggctcactttg gaaaacagggatcttgaagaagaattagacatgaaagacagagtgattaaaaagctacaa gatcaagtcaagacactaagcaagacaattggaaaagccaatgatgtgcactcgtcctca ggacccaaggagtaccttggaatgctgcaatacaagagagaagacgaggccaagctcatt cagaacctcattcttgacttgaagccccgtggcgtggtggtgaacatgatccccgggctg ccggctcatatcctgttcatgtgtgtgcgctacgcagactctctgaatgatgccaacatg ctgaagtccctcatgaacagcaccattaatggcatcaagcaggtggttaagctctgcctt cactgcttgttcctcttcttcctgccctttccgggaatgctggagtatgagagcctgcag ggcatttccggcctgaagcccacaggcttccggaagcgctcctctagcatagacgacacg gacggctacaccatgacctccgtcctgcaacagctgagctacttttacaccaccatgtgc cagaacggcctggaccccgagcttgtgaggcaggcggtgaagcagctcttcttcttgatc ggggcggtcacgctgaacagcctcttcctgcgcaaggacatgtgctcctgcagaaaaggg atgcagatcaggtgcaatatcagctacttagaagaatggcttaaagataagaacttgcag aacagcttagcaaaggaaactttggagcccctctctcaggcagcctggttgcttcaggtc aagaagaccacagacagtgatgccaaggagatctacgaacgctgcacctcactgtctgct gtgcagatcataaagatccttaattcatacacacctatagatgactttgagaagagagtg actccatcctttgttcgcaaagtacagatggcaaccgaggggctgcacgagaacgagacg ctggcgtcgctgaagagcgaggccgagagcctcaagggcaagctggaggaggagcgagcc aagctgcacgatgtggagcccctgtcccttatagatgaaaaagcagctgagatccaggga gggggctgctgcggtttgctgggggtccactccagacccttattgcctgggtccctcctg cacctggaggtatcaccagtgaaggctgcaaaacagcaaagatggcatccagctccttcc tctggagactccatcccagaggggcaccaacctgatgccagctggaacgctcctggagga ggcatttgtagacccctgttgggaggtctcacccagtcaagaggaatgggatcagggacc cgcttaaagaagcagtctggctgccccctggtggagcagatacgctgtgctgggggaaac ctccctcatccagaccacccagactctccagagcatccaggtcccactgaaagtagcagt ctggccatgatctgccacagcagctgtgctgcgctgtggggaattcctcccagtttggac caccctgactcccaggagctggcaggccaggatggcctacttgagctgcagagatag