GENSCAN 1.0 Date run: 3-Nov-116 Time: 15:45:54 Sequence gi568815596f:135641930_135882884 : 240955 bp : 41.51% C+G : Isochore 1 ( 0 - 43 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 + 3450 3598 149 1 2 91 55 100 0.838 6.03 1.02 Intr + 9801 10103 303 2 0 102 76 310 0.593 27.06 1.03 Intr + 15741 15764 24 2 0 100 82 28 0.618 0.70 1.04 Intr + 16491 16601 111 2 0 88 93 26 0.870 2.76 1.05 Term + 17007 17117 111 2 0 93 47 115 0.991 5.48 1.06 PlyA + 18204 18209 6 1.05 2.00 Prom + 20103 20142 40 -5.45 2.01 Init + 33363 33557 195 2 0 48 76 127 0.626 6.48 2.02 Intr + 38244 38395 152 2 2 60 113 75 0.768 5.24 2.03 Intr + 67504 67607 104 1 2 108 75 72 0.881 6.80 2.04 Intr + 68130 68302 173 1 2 64 110 123 0.943 10.84 2.05 Intr + 73621 73765 145 0 1 59 115 98 0.984 8.53 2.06 Intr + 79995 80077 83 1 2 68 91 26 0.723 -0.66 2.07 Intr + 80540 80624 85 1 1 70 91 76 0.732 4.57 2.08 Term + 82008 82363 356 1 2 94 42 348 0.990 24.47 2.09 PlyA + 82976 82981 6 1.05 3.00 Prom + 84913 84952 40 -5.05 3.01 Init + 86060 86071 12 1 0 67 91 -3 0.304 -1.78 3.02 Term + 90624 90755 132 2 0 84 48 189 0.883 11.61 3.03 PlyA + 95084 95089 6 1.05 4.00 Prom + 96600 96639 40 -9.05 4.01 Init + 99632 99804 173 1 2 88 58 106 0.779 6.56 4.02 Term + 99829 100633 805 1 1 52 47 598 0.999 43.80 4.03 PlyA + 101899 101904 6 1.05 5.00 Prom + 105631 105670 40 -5.45 5.01 Init + 105879 105927 49 2 1 86 58 16 0.729 -1.44 5.02 Intr + 106338 106440 103 1 1 68 76 129 0.745 8.01 5.03 Intr + 112255 112348 94 1 1 35 110 122 0.985 8.15 5.04 Intr + 113588 113762 175 1 1 80 93 149 0.986 13.19 5.05 Intr + 119889 119982 94 1 1 14 47 137 0.837 0.30 5.06 Intr + 127840 127894 55 1 1 50 103 45 0.800 0.26 5.07 Intr + 128642 128806 165 1 0 33 111 205 0.865 16.54 5.08 Intr + 130491 130618 128 2 2 20 74 158 0.993 6.16 5.09 Intr + 134320 134422 103 1 1 74 99 110 0.960 9.96 5.10 Intr + 138392 138456 65 1 2 55 65 25 0.445 -6.50 5.11 Term + 140820 140958 139 0 1 97 36 143 0.815 6.45 5.12 PlyA + 141456 141461 6 1.05 6.37 PlyA - 142051 142046 6 1.05 6.36 Term - 146615 146395 221 0 2 57 45 118 0.824 0.62 6.35 Intr - 147869 147642 228 0 0 29 94 163 0.956 7.92 6.34 Intr - 148101 147967 135 1 0 67 40 127 0.884 5.42 6.33 Intr - 148874 148729 146 1 2 70 102 183 0.800 16.91 6.32 Intr - 152846 152712 135 1 0 78 111 117 0.980 11.76 6.31 Intr - 156209 156100 110 2 2 71 99 89 0.912 6.46 6.30 Intr - 156862 156473 390 1 0 18 82 138 0.312 0.19 6.29 Intr - 158880 158678 203 1 2 84 62 146 0.998 9.68 6.28 Intr - 162301 162001 301 1 1 -7 111 356 0.604 23.78 6.27 Intr - 163128 162838 291 0 0 10 80 383 0.946 26.11 6.26 Intr - 165467 165199 269 0 2 48 94 269 0.961 19.83 6.25 Intr - 168064 166514 1551 2 0 109 93 1227 0.970 113.64 6.24 Intr - 171027 170382 646 0 1 51 90 403 0.766 27.43 6.23 Intr - 176132 175412 721 1 1 72 75 531 0.016 40.70 6.22 Intr - 180169 180091 79 2 1 86 90 33 0.045 0.99 6.21 Intr - 182074 181915 160 1 1 115 37 104 0.033 6.64 6.20 Intr - 184873 184697 177 1 0 30 40 123 0.004 0.89 6.19 Intr - 187747 187664 84 1 0 98 91 42 0.007 4.60 6.18 Intr - 191261 191182 80 0 2 96 61 110 0.012 7.45 6.17 Intr - 195020 194601 420 0 0 68 96 436 0.446 35.39 6.16 Intr - 202755 202612 144 1 0 76 29 96 0.330 1.83 6.15 Intr - 204463 204308 156 2 0 43 100 180 0.939 13.76 6.14 Intr - 206259 206124 136 0 1 47 81 213 0.795 15.72 6.13 Intr - 209670 209473 198 0 0 23 54 244 0.544 13.13 6.12 Intr - 210986 210858 129 2 0 62 86 99 0.992 7.07 6.11 Intr - 214954 214799 156 1 0 78 76 128 0.999 9.89 6.10 Intr - 216075 215968 108 0 0 71 95 134 0.967 11.96 6.09 Intr - 217513 217372 142 0 1 27 64 212 0.832 12.13 6.08 Intr - 220819 220678 142 2 1 100 82 166 0.996 15.69 6.07 Intr - 223234 223084 151 1 1 60 95 67 0.998 3.41 6.06 Intr - 224348 224203 146 0 2 75 56 130 0.992 7.58 6.05 Intr - 224799 224634 166 0 1 88 82 170 0.999 15.01 6.04 Intr - 226931 226682 250 1 1 72 63 163 0.955 8.72 6.03 Intr - 228432 228322 111 2 0 99 71 67 0.962 4.68 6.02 Intr - 230914 230768 147 0 0 78 52 163 0.922 10.13 6.01 Init - 234436 234330 107 1 2 80 83 148 0.858 13.48 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 176131 175412 720 1 0 63 75 531 0.953 44.18 S.002 Term - 191261 191146 116 0 2 96 55 132 0.984 8.45 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_1|232_aa XQPFINPDGSPVVYNPPMTQQPVRSQVPGPPQPPLPAPPQQPAANHIFSQQDNLGSQFSH MSLARQPSADGSDPHAAMFQSTVVLQSPQQSGYIMTAAPPPHPPPPPPPPPPPPPLPPGQ PVPTAGYPASGHPVSQPVLQQQGYIQQPSPQITQSEEQNPSEVLELTGVSNCARPKDFFK WNTDIVHLTMYAACRTKVFRGSNTRGAVVSYVELSSPMITMPSSEIPPERPT >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_1|699_bp ngtcagcccttcataaacccagatgggagtccagttgtgtataatcctcctatgactcaa caaccagttagatcccaagtgcctggacctccacagccacctctgccagccccacctcaa caaccagcagctaatcacattttctcacagcaggataacctagggtctcagtttagccac atgagtcttgctcgccagccatctgctgatggttctgaccctcatgccgccatgttccag tccactgtggttcttcagtctccacagcagtctggttatatcatgacagcagcccctcca ccacatcctcctccaccgccaccaccaccacctcctcctcctcccctaccacctgggcag ccagtccctactgctggatatcctgcctctggtcatcctgtcagccagcctgtgctccag cagcagggatatattcagcagccatcaccacagataacccaatcagaagagcagaatcct tcagaagtgctggaattaacaggtgtgagcaactgtgcccggccaaaagatttttttaaa tggaacaccgatatagtgcacttaaccatgtatgcagcttgcaggactaaggtcttcaga ggcagtaacacacgtggagctgtcgtctcctatgtggagctgtcatctcctatgataaca atgccttcttctgaaatacctcctgaaagacctacctga >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_2|430_aa MNSEQDLTHCTITGYQVIPNQQQNYQGIVGVQQPQSQSLVSGQPNSIGNQIQGVVIPYTS VPTYQVSLPQGSQGIPHQTYQQPVMFPNQSNQGSMPTTGMPVYYSVIPPGQQNNLSSSVG YLQHPGSEQVQFPRTTSPCSSQQLQGHQCTAGPPPPPGGGMVMMQLSVPNNPQSCAHSPP QWKQNKYYCDHQRGQKCVEFSSVDNIVQHSPQLSSPIISPAQSPAPAQLSTLKTVRPSGP PLSIMPQFSRPFVPGQGDSRYPLLGQPLQYNPPAVLHGHIPNQQGQPGSRHGNRGRRQAK KAASTDLGAGETVVGKVLEITELPDGITRMEAEKLFGELFKIGAKIRWLRDPQSQPRRHP LCCGSGDNTANPERSKPSDLASTYTVLATFPSISAAQNALKKQINSVNKFKLRTSKKHYD FHILERASSQ >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_2|1293_bp atgaattcagagcaggatttaactcattgtaccattacaggttatcaagttatacccaac cagcagcaaaactaccaaggaatagttggagttcagcaaccccagagtcagagcctagtc agtggccaacccaacagcattggaaatcagattcaaggagtggtcatcccctatacttca gtgccaacatatcaggtttcactgcctcaaggttctcaaggaattccccatcagacttat caacagcctgttatgttccctaatcagtctaatcaaggatctatgcccacaacaggaatg cctgtttactatagtgtcattccacctggtcaacaaaacaatttaagctcttcagtaggt tacctgcaacatccaggatcagaacaagtacaatttcctcgaaccacttcaccatgcagt tcccagcagcttcaaggccaccaatgtacagctggaccaccaccgccacctggtgggggg atggtgatgatgcagctcagtgtaccaaacaatccacaatcttgtgcccactcacccccg cagtggaaacaaaacaaatattactgtgatcaccagagaggacagaagtgtgtagaattt agcagtgtagacaatattgtccagcacagccctcaactcagtagccccattatttcacca gctcagtcgccagcaccagctcagctgtccaccctgaaaactgtacgtccctctggacca ccactttccatcatgccccaattttctagaccttttgtccccgggcaaggagattccagg tatccattacttggccagccactgcagtacaatcctcctgctgttctgcacggacacatt ccaaaccaacagggtcagcctggcagcaggcatggaaaccgaggaaggagacaagctaaa aaagctgcatccacagaccttggagcaggagaaacagttgttgggaaggtcttggaaatt actgaactaccagatggaataactcgcatggaagctgaaaagctttttggggaactcttt aaaattggcgccaagatccggtggctccgggacccccagtcccaaccacgtcgtcacccc ctctgctgtggcagtggggacaacactgccaaccctgaacgctctaaacccagtgacttg gcctccacctacaccgtcttagccacattcccctccatttcagctgcacagaatgcactg aagaaacaaattaactcagttaacaagtttaagctgagaacaagcaagaagcactatgac tttcacattttggaaagggcaagttctcagtaa >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_3|47_aa MVPQDVMEASTQQVCETLANAVSTLMPVRCQLHMYSSDRKLKILAIA >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_3|144_bp atggtgccacaggatgtgatggaagccagtacccaacaggtatgtgaaacactggccaat gctgtgagtacactgatgcctgtccgatgccagcttcacatgtacagcagcgaccgcaaa ctcaaaatactcgctatagcctga >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_4|325_aa MPHCRRRRRVLAVSHPSYRFPPLPGLRDRRPSGRAPAPSTRQREKVLGHGHRRVATVTAR LRVPLTGVRACAEPEVGAEPAKVAGAAEPDEDGGRSRLRDCGDYTPSERLGPKGAMLWFQ GAIPAAIATAKRSGAVFVVFVAGEGGRGSRGGRDTPPAYLHPLVYLSRRPALPETRAPVG SHNCHYYPAPQGRLRLRRQIPQRGHADPQRPAPSGPGRPQPFLSVCEARAAGPWLFSASP VRLRYSGPGPTAASPGSRAGGTVWPWSPKRPEARRNLPARGDGRGQQAPAAQPRSSPRAS PLRSQTPATLSLTSLSVTKDPLCAA >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_4|978_bp atgcctcactgcaggcgccgccgacgtgtcttagcggttagtcatccctcttaccgcttt cctccacttcctggactgcgcgaccggaggcctagcgggcgcgcgcccgcaccatcgact cgccaacgagagaaggtcctggggcacggacaccgacgggttgcgactgtgaccgcgcgt ctccgggtgccgctgacgggcgtgcgcgcttgtgcggagccggaggtgggggccgaacca gccaaggttgcgggggccgcagagccggacgaagacggagggcggagccggcttcgggac tgcggagactacacaccgagcgagcgcctgggcccgaagggagcgatgctgtggttccag ggcgccattccggccgccatcgcgacggccaaaaggagcggcgcggtcttcgtggtgttc gtggcaggtgaaggaggcaggggttcgagaggcggccgggacacccctccggcctacctt catcctcttgtatacctcagccgccggcccgccctccccgagacgcgggctcctgtcggc tcgcacaattgccactactaccccgcgccccagggacggctgcgactccgccgccagatc ccccagaggggccatgcagaccctcagcgccctgctccttcaggccccgggcgcccccag cctttcctcagtgtctgcgaggcccgggctgccggcccgtggctgttcagcgcctccccg gttcgtttgagatacagtgggcctggccccaccgctgcgtctcccggcagccgggccgga ggcaccgtctggccctggtctccaaagcgccccgaggcccgccgaaatctccccgctcgg ggcgacggacgcggccagcaggccccagccgcccagccccgctcgtcgccccgagcctct cccctgcgcagccagacccccgcgaccctctccctgacgtccctctctgtcaccaaggac cctctttgtgctgcttga >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_5|389_aa MGFYRVGQSGLEFLASGDDEQSTQMAASWEDDKVTEASSNSFVAIKIDTKSFFIGDSGIP LEVIAGSVSADELVTRIHKVRQMHLLKSETSVANGSQSESSVSTPSASFEPNNTCENSQS RNAELCEIPPTSDTKSDTATGGESAGHATSSQEPSGCSDQRPAEDLNIRVERLTKKLEER REEKRKEEEQREIKKEIERRKTGKEMLDYKRKQEEELTKRMLEERNREKAEDRAARERIK QQIALDRAERAARFAKTKEEVEAAKAAALLAKQAEMEVKRESYARERSTVARIQFRLPDG SSFTNQFPSDAPLEEARQFAAQTSVRVTSSEPPNPASSSKSEKREPVRKRVLEKRGDDFK KEGKIYRLRTQDDGEDENNTWNGNSTQQM >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_5|1170_bp atggggttttaccgtgttggccagtctggtctcgaattcctggcctcaggtgatgatgaa cagtctacacagatggctgcaagttgggaagatgataaagttacagaagcatcttcaaac agttttgttgctattaaaatcgataccaaaagtttctttattggagacagtggaattccc ttggaagtaatagcaggaagtgtttctgcagatgaacttgttacaagaattcacaaggtc cgacagatgcatttgctaaaaagtgaaacatcagtagcaaatggcagtcagtcagaaagt tcagtgtctactccatctgcgtcatttgaacctaacaacacttgtgaaaactctcagtcc agaaatgcagagctttgtgagataccacccacttctgatacaaagtcagatactgcaaca ggaggagaaagtgcaggccatgccacttcctctcaggagcctagtggatgctcagatcag agacctgcagaggacctcaacatccgagtggaaagactaacaaaaaaacttgaagaaagg agagaagagaaaagaaaagaggaagaacagagagaaattaagaaggaaattgagaggaga aaaactggaaaagaaatgttggattataaaagaaaacaagaagaagaattaacaaaaaga atgctggaggaaagaaacagagagaaagcagaagatagggcagctcgagaacgtataaaa cagcagattgcattggaccgtgcagagagagctgctcgttttgcaaagacaaaggaagaa gtagaggctgccaaagctgctgccttgctagcaaaacaggcagaaatggaagtcaagagg gaatcttatgcaagagaaagaagcactgttgcaagaattcaattccgtcttcctgatggt tcttcctttacaaatcagttcccttctgatgctcctctagaagaggcaaggcagtttgct gcacagacttcagtgagagtaacatcgtcagaacccccaaaccctgcatcatctagcaaa tcagaaaaaagggaaccagtgagaaaaagagtgctggaaaaacgtggagacgactttaaa aaggaggggaaaatttatagattaaggactcaagatgatggtgaagatgaaaacaacact tggaatggaaattccactcaacagatgtag >gi568815596f:135641930_135882884|GENSCAN_predicted_peptide_6|2911_aa MDLAAAAEPGAGSQHLEVRDEVAEKCQKLFLDFLEEFQSSDGEIKYLQLAEELIRPERNT LVVSFVDLEQFNQQLSTTIQEEFYRVYPYLCRALKTFVKDRKEIPLAKDFYVAFQDLPTR HKIRELTSSRIGLLTRISGQVVRTHPVHPELVSGTFLCLDCQTVIRDVEQQFKYTQPNIC RNPVCANRRRFLLDTNKSRFVDFQKVRIQETQAELPRGSIPRSLEVILRAEAVESAQAGD KCDFTGTLIVVPDVSKLSTPGARAETNSRVSGVDGYETEGIRGLRALGVRDLSYRLVFLA CCVAPTNPRFGGKELRDEEQTAESIKNQMTVKEWEKVFEMSQDKNLYHNLCTSLFPTIHG NDEVKRGVLLMLFGGVPKTTGEGTSLRGDINVCIVGDPSTAKSQFLKHVEEFSPRAVYTS GKASSAAGLTAAVVRDEESHEFVIEAGALMLADNGVCCIDEFDKMDVRDQVAIHEAMEQQ TISITKAGVKATLNARTSILAAANPISGHYDRSKSLKQNINLSAPIMSRFDLFFILVDEC NEVTDYAIARRIVDLHSRIEESIDRVYSLDDIRRYLLFARQFKPKKCFSNLSDDLKQISK ESEDFIVEQYKHLRQRDGSGVTKSSWRITVRQLESMIRLSEAMARMHCCDEVQPKHVKEA FRLLNKSIIRVETPDVNLDQEEEIQMEVDEGAGGINGHADSPAPVNGINGYNEDINQESA PKASLRLGFSEYCRISNLIVLHLRKVEEEEDESALKRSELVNWYLKEIESEIDSEEELIN KKRIIEKVIHRLTHYVEYFSSLHASQITHYKVFLSWAQLLPAGSTQNPDEKTVQCYRRLL KALKTARLQPMVILHHQTLPASTLRRTEAFADLFADYATFAFHSFGDLVGIWFTFSDLEE VIKELPHQESRASQLQTLSDAHRKAYEIYHESYAFQGGKLSVVLRAEDIPELLLEPPISA LAQDTVDFLSLDLSYECQNEASLRQKLSKLQGLRGLLVPVMTKAAFCPPHGIKPELVARL MGSDKAAILKPSLLCGGGVPLTGSRGTAWLTIEPKVKVFIFNLKLPDCPSTMKNPASLLF SLFEGEWAIAEEVLSDIWCTGVLAINKDQVLTIGFDINEFLSCSSSSKKSMSCSLTGSLA LQPDQQQDHETTDSSPASAYQRIWEAFANQSRAERDAFLQDTFPEGFLWGASTGAFNVEG GWAEGGRGVSIWDPRRPLNTTEGQATLEVASDSYHKVASDVALLCGLRAQVYKFSISWSR IFPMGHGSSPSLPGVAYYNKLIDRLQDAGIEPMATLFHWDLPQALQDHGGWQNESVVDAF LDYAAFCFSTFGDRVKLWVTFHEPWVMSYAGYGTGQHPPGISDPGVASFKVAHLVLKAHA RTWHHYNSHHRPQQQGHVGIVLNSDWAEPLSPERPEDLRASERFLHFMLGWFAHPVFVDG DYPATLRTQIQQMNRQCSHPVAQLPEFTEAEKQLLKGSADFLGLSHYTSRLISNAPQNTC IPSYDTIGGFSQHVNHVWPQTSSSWIRVVPWGIRRLLQFVSLEYTRGKVPIYLAGNGMPI GESENLFDDSLRVDYFNQYINEVLKAIKEDSVDVRSYIARSLIDGFEGPSGYSQRFGLHH VNFSDSSKSRTPRKSAYFFTSIIEKNGFLTKGAKRLLPPNTVNLPSKVRAFTFPSEVPSK AKVVWEKFSSQPKFERDLFYHGTFRDDFLWGVSSSAYQIEGAWDADGKGPSIWDNFTHTP GSNVKDNATGDIACDSYHQLDADLNMLRALKVKAYRFSISWSRIFPTGRNSSINSHGVDY YNRLINGLVASNIFPMVTLFHWDLPQALQDIGGWENPALIDLFDSYADFCFQTFGDRVKF WMTFNEPMYLAWLGYGSGEFPPGVKDPGWAPYRIAHAVIKAHARVYHTYDEKYRQEQKGV ISLSLSTHWAEPKSPGVPRDVEAADRMLQFSLGWFAHPIFRNGDYPDTMKWKVGNRSELQ HLATSRLPSFTEEEKRFIRATADVFCLNTYYSRIVQHKTPRLNPPSYEDDQEMAEEEDPS WPSTAMNRAAPWGTRRLLNWIKEEYGDIPIYITENGVGLTNPNTEDTDRIFYHKTYINEA LKAYRLDGIDLRGYVAWSLMDNFEWLNGYTVKFGLYHVDFNNTNRPRTARASARYYTEVI TNNGMPLAREDEFLYGRFPEGFIWSAASAAYQIEGAWRADGKGLSIWDTFSHTPLRVEND AIGDVACDSYHKIAEDLVTLQNLGVSHYRFSISWSRILPDGTTRYINEAGLNYYVRLIDT LLAASIQPQSLSGFAADVDAGTSNLGLPMESMTDATADLASSQVTIYHWDLPQTLQDVGG WENETIVQRFKEYADVLFQRLGDKVKFWITLNEPFVIAYQGYGYGTAAPGVSNRPGTAPY IVGHNLIKAHAEAWHLYNDVYRASQGGVISITISSDWAEPRDPSNQEDVEAARRYVQQQP VGEERIWRDYRRLSNPQHHSVWVPRIPAHDKDGLGLIRENRSNGSPLWGCESPLRVILCP ESQESLAFQPSPESSVCSLGTLMRKCSRSVVRKRTGSLEACGFSLLLCRTHPRAARKHLL STRASAQFMGGWFAHPIFKNGDYNEVMKTRIRDRSLAAGLNKSRLPEFTESEKRRINGTY DFFGFNHYTTVLAYNLNYATAISSFDADRRILNWLKEEYNDPPIYVTENGVSQREETDLN DTARIYYLRTYINEALKGLSLSKDAGGSTSPSTEDPLTVTACKERGSFLTELKPKLTAIC EGAVQDKVDLRGYTVWSAMDNFEWATGFSERFGLHFVNYSDPSLPRIPKASAKFYASVVR CNGFPDPATGPHACLHQPDAGPTISPVRQEEVQFLGLMLGTTEAQTALYVLFSLVLLGVC GLAFLSYKYCKRSKQGKTQRSQQELSPVSSF >gi568815596f:135641930_135882884|GENSCAN_predicted_CDS_6|8736_bp atggacctcgcggcggcagcggagccgggcgccggcagccagcacctggaggtccgcgac gaggtggccgagaagtgccagaaactgttcctggacttcttggaggagtttcagagcagc gatggagaaattaaatacttgcaattagcagaggaactgattcgtcctgagagaaacaca ttggttgtgagttttgtggacctggaacaatttaaccagcaactttccaccaccattcaa gaggagttctatagagtttacccttacctgtgtcgggccttgaaaacattcgtcaaagac cgtaaagagatccctcttgccaaggatttttatgttgcattccaagacctgcctaccaga cacaagattcgagagctcacctcatccagaattggtttgctcactcgcatcagtgggcag gtggtgcggactcacccagttcacccagagcttgtgagcggaacttttctgtgcttggac tgtcagacagtgatcagggatgtagaacagcagttcaaatacacacagccaaacatctgc cgaaatccagtttgtgccaacaggaggagattcttactggatacaaataaatcaagattt gttgattttcaaaaggttcgtattcaagagacccaagctgagcttcctcgagggagtatc ccccgcagtttagaagtaattttaagggctgaagctgtggaatcagctcaagctggtgac aagtgtgactttacagggacactgattgttgtgcctgacgtctccaagcttagcacacca ggagcacgtgcagaaactaattcccgtgtcagtggtgttgatggatatgagacagaaggc attcgaggactccgggcccttggtgttagggacctttcttataggctggtctttcttgcc tgctgtgttgcgccaaccaacccaaggtttggggggaaagagctcagagatgaggaacag acagctgagagcattaagaaccaaatgactgtgaaagaatgggagaaagtgtttgagatg agtcaagataaaaatctataccacaatctttgtaccagcctgttccctactatacatggc aatgatgaagtaaaacggggtgtcctgctgatgctctttggtggcgttccaaagacaaca ggagaagggacctctcttcgaggggacataaatgtttgcattgttggtgacccaagtaca gctaagagccaatttctcaagcacgtggaggagttcagccccagagctgtctacaccagt ggtaaagcgtccagtgctgctggcttaacagcagctgttgtgagagatgaagaatctcat gagtttgtcattgaggctggagctttgatgttggctgataatggtgtgtgttgtattgat gaatttgataagatggacgtgcgggatcaagttgctattcatgaagctatggaacagcag accatatccatcactaaagcaggagtgaaggctactctgaacgcccggacgtccattttg gcagcagcaaacccaatcagtggacactatgacagatcaaaatcattgaaacagaatata aatttgtcagctcccatcatgtcccgattcgatctcttctttatccttgtggatgaatgt aatgaggttacagattatgccattgccaggcgcatagtagatttgcattcaagaattgag gaatcaattgatcgtgtctattccctcgatgatatcagaagatatcttctctttgcaaga cagtttaaacccaagaaatgtttctctaacttgagtgatgatctgaaacagatttccaaa gagtcagaggacttcattgtggagcaatataaacatctccgccagagagatggttctgga gtgaccaagtcttcatggaggattacagtgcgacagcttgagagcatgattcgtctctct gaagctatggctcggatgcactgctgtgatgaggtccaacctaaacatgtgaaggaagct ttccggttactgaataaatcaatcatccgtgtggaaacacctgatgtcaatctagatcaa gaggaagagatccagatggaggtagatgagggtgctggtggcatcaatggtcatgctgac agccctgctcctgtgaacgggatcaatggctacaatgaagacataaatcaagagtctgct cccaaagcctccttaaggctgggcttctctgagtactgccgaatctctaaccttattgtg cttcacctcagaaaggtggaagaagaagaggacgagtcagcattaaagaggagcgagctt gttaactggtacttgaaggaaatcgaatcagagatagactctgaagaagaacttataaat aaaaaaagaatcatagagaaagttattcatcgactcacacactatgtagaatacttcagc agtctccatgccagtcagatcacccattataaggtatttctgtcatgggcacagctcctc ccagcaggaagcacccagaatccagacgagaaaacagtgcagtgctaccggcgactcctc aaggccctcaagactgcacggcttcagcccatggtcatcctgcaccaccagaccctccct gccagcaccctccggagaaccgaagcctttgctgacctcttcgccgactatgccacattc gccttccactccttcggggacctagttgggatctggttcaccttcagtgacttggaggaa gtgatcaaggagcttccccaccaggaatcaagagcgtcacaactccagaccctcagtgat gcccacagaaaagcctatgagatttaccacgaaagctatgcttttcagggcggaaaactc tctgttgtcctgcgagctgaagatatcccggagctcctgctagaaccacccatatctgcg cttgcccaggacacggtcgatttcctctctcttgatttgtcttatgaatgccaaaatgag gcaagtctgcggcagaagctgagtaaattgcagggtcttcgaggtctgcttgtgcctgtg atgactaaagctgccttttgtcctcctcatggaattaaaccagagcttgttgctaggcta atgggttcagacaaagctgccattttaaaaccatctctgttgtgcggaggtggcgtgcct ctgacaggcagcagaggcactgcatggctgaccattgagccaaaagtgaaagttttcatc ttcaacctaaaactcccagactgcccctccaccatgaagaacccagccagtctgctcttc agcctttttgaaggtgagtgggccattgctgaagaggttttgagtgacatctggtgcact ggtgtgctagccataaataaagaccaagtgctcaccattgggtttgatattaatgagttt ctgagttgttcatcaagttccaagaaaagcatgtcttgttctctgactggcagcctggcc cttcagcctgaccagcagcaggaccacgagaccacggactcctctcctgcctctgcctat cagagaatctgggaagcatttgccaatcagtccagggcggaaagggatgccttcctgcag gatactttccctgaaggcttcctctggggtgcctccacaggagcctttaacgtggaagga ggctgggccgagggtgggagaggggtgagcatctgggatccacgcaggcccctgaacacc actgagggccaagcgacgctggaggtggccagcgacagttaccacaaggtagcctctgac gtcgccctgctttgcggcctccgggctcaggtgtacaagttctccatctcctggtcccgg atcttccccatggggcacgggagcagccccagcctcccaggcgttgcctactacaacaag ctgattgacaggctacaggatgcgggcatcgagcccatggccacgctgttccactgggac ctgcctcaggccctgcaggatcatggtggatggcagaatgagagcgtggtggatgccttc ctggactatgcggccttctgcttctccacatttggggaccgtgtgaagctgtgggtgacc ttccatgagccgtgggtgatgagctacgcaggctatggcaccggccagcaccctcccggc atctctgacccaggagtggcctcttttaaggtggctcacttggtcctcaaggctcatgcc agaacttggcaccactacaacagccatcatcgcccacagcagcaggggcacgtgggcatt gtgctgaactcagactgggcagaacccctgtctccagagaggcctgaggacctgagagcc tctgagcgcttcttgcacttcatgctgggctggtttgcacaccccgtctttgtggatgga gactacccagccaccctgaggacccagatccaacagatgaacagacagtgctcccatcct gtggctcaactccccgagttcacagaggcagagaagcagctcctgaaaggctctgctgat tttctgggtctgtcgcattacacctcccgcctcatcagcaacgccccacaaaacacctgc atccctagctatgataccattggaggcttctcccaacacgtgaaccatgtgtggccccag acctcatcctcttggattcgtgtggtgccctgggggataaggaggctgttgcagtttgta tccctggaatacacaagaggaaaagttccaatataccttgccgggaatggcatgcccata ggggaaagtgaaaatctctttgatgattccttaagagtagactacttcaatcaatatatc aatgaggtgctcaaggctatcaaggaagactctgtggatgttcgttcctacattgctcgt tccctcattgatggcttcgaaggcccttctggttacagccagcggtttggcctgcaccac gtcaacttcagcgacagcagcaagtcaaggactcccaggaaatctgcctactttttcact agcatcatagaaaagaacggtttcctcaccaagggggcaaaaagactgctaccacctaat acagtaaacctcccctccaaagtcagagccttcacttttccatctgaggtgccctccaag gctaaagtcgtttgggaaaagttctccagccaacccaagttcgaaagagatttgttctac cacgggacgtttcgggatgactttctgtggggcgtgtcctcttccgcttatcagattgaa ggcgcgtgggatgccgatggcaaaggccccagcatctgggataactttacccacacacca gggagcaatgtgaaagacaatgccactggagacatcgcctgtgacagctatcaccagctg gatgccgatctgaatatgctccgagctttgaaggtgaaggcctaccgcttctctatctcc tggtctcggattttcccaactgggagaaacagctctatcaacagtcatggggttgattat tacaacaggctgatcaatggcttggtggcaagcaacatctttcccatggtgacattgttc cattgggacctgccccaggccctccaggatatcggaggctgggagaatcctgccttgatt gacttgtttgacagctacgcagacttttgtttccagacctttggtgatagagtcaagttt tggatgacttttaatgagcccatgtacctggcatggctaggttatggctcaggggaattt cccccaggggtgaaggacccaggctgggcaccatataggatagcccacgccgtcatcaaa gcccatgccagagtctatcacacgtacgatgagaaatacaggcaggagcagaagggggtc atctcgctgagcctcagtacacactgggcagagcccaagtcaccaggggtccccagagat gtggaagccgctgaccgaatgctgcagttctccctgggctggtttgctcaccccattttt agaaacggagactatcctgacaccatgaagtggaaagtggggaacaggagtgaactgcag cacttagccacctcccgcctgccaagcttcactgaggaagagaagaggttcatcagggcg acggccgacgtcttctgcctcaacacgtactactccagaatcgtgcagcacaaaacaccc aggctaaacccaccctcctacgaagacgaccaggagatggctgaggaggaggacccttcg tggccttccacggcaatgaacagagctgcgccctgggggacgcgaaggctgctgaactgg atcaaggaagagtatggtgacatccccatttacatcaccgaaaacggagtggggctgacc aatccgaacacggaggatactgataggatattttaccacaaaacctacatcaatgaggct ttgaaagcctacaggctcgatggtatagaccttcgagggtatgtcgcctggtctctgatg gacaactttgagtggctaaatggctacacggtcaagtttggactgtaccatgttgatttc aacaacacgaacaggcctcgcacagcaagagcctccgccaggtactacacagaggtcatt accaacaacggcatgccactggccagggaggatgagtttctgtacggacggtttcctgag ggcttcatctggagtgcagcttctgctgcatatcagattgaaggtgcgtggagagcagat ggcaaaggactcagcatttgggacacgttttctcacacaccactgagggttgagaacgat gccattggagacgtggcctgtgacagttatcacaagattgctgaggatctggtcaccctg cagaacctgggcgtgtcccactaccgtttttccatctcctggtctcgcatcctccctgat ggaaccaccaggtacatcaatgaagcgggcctgaactactacgtgaggctcatcgataca ctgctggccgccagcatccagccccagtcactctcaggatttgcagcagacgttgatgct ggcacatctaacctagggcttcccatggaaagcatgactgatgcaacagctgatctggct tcttcccaggtgaccatttaccactgggacctaccacagacgctccaagatgtaggaggc tgggagaatgagaccatcgtgcagcggtttaaggagtatgcagatgtgctcttccagagg ctgggagacaaggtgaagttttggatcacgctgaatgagccctttgtcattgcttaccag ggctatggctacggaacagcagctccaggagtctccaataggcctggcactgccccctac attgttggccacaatctaataaaggctcatgctgaggcctggcatctgtacaacgatgtg taccgcgccagtcaaggtggcgtgatttccatcaccatcagcagtgactgggctgaaccc agagatccctctaaccaggaggatgtggaggcagccaggagatatgttcagcagcagcca gtgggtgaggagaggatttggagagactacagaaggctctcaaacccccagcatcatagt gtttgggtgccacgtatccccgcacatgataaggatggcctaggcctcattagagaaaat aggtcaaacggttccccactctggggctgtgaaagcccattaagagttatactttgcccg gaaagtcaggaaagccttgcatttcagccctccccagaaagttctgtttgctccttgggc actttgatgaggaagtgcagccgctcagtggtgagaaagagaaccgggagcctggaggct tgtgggttctcccttctcctctgcaggacccatccaagggcagccaggaagcatttgttg agcaccagggccagtgcccagttcatgggaggctggtttgcacatcctattttcaagaat ggagattacaatgaggtgatgaagacgcggatccgtgacaggagcttggctgcaggcctc aacaagtctcggctgccagaatttacagagagtgagaagaggaggatcaacggcacctat gacttttttgggttcaatcactacaccactgtcctcgcctacaacctcaactatgccact gccatctcttcttttgatgcagacaggaggatcctgaactggttaaaggaggaatacaat gaccctccaatttatgtcacagagaatggagtgtcccagcgggaagaaacagacctcaat gacactgcaaggatctactaccttcggacttacatcaatgaggccctcaaagggctgagc ctttctaaagatgctggtggctctacatctccatccacagaggacccgctaacagtcact gcatgcaaagaaaggggcagctttctcacagagctaaagccaaagcttaccgccatctgt gaaggcgctgtgcaggacaaggtggaccttcgaggatacacagtttggagtgcgatggac aattttgagtgggccacaggcttttcagagagatttggtctgcattttgtgaactacagt gacccttctctgccaaggatccccaaagcatcagcgaagttctacgcctctgtggtccga tgcaatggcttccctgaccccgctacagggcctcacgcttgtctccaccagccagatgct ggacccaccatcagccccgtgagacaggaggaggtgcagttcctggggctaatgctcggc accacagaagcacagacagctttgtacgttctcttttctcttgtgcttcttggagtctgt ggcttggcatttctgtcatacaagtactgcaagcgctctaagcaagggaaaacacaacga agccaacaggaattgagcccggtgtcttcattctga