FT repeat_unit 1..1959 FT /note="IS100 element" FT /label=IS100 FT misc_feature 1..48266 FT /note="identical to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF074611) from 48336 to 1, except where noted" FT /colour=0 FT misc_feature 1..57266 FT /note="identical to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF053947) from 1 to 57331, except where noted" FT /colour=0 FT misc_feature 60 FT /note="difference: A is G in EMBL:AF074611" FT /colour=2 FT CDS 87..1109 FT /note="YPMT1.01, probable transposase, len: 340 aa; FT identical to insertion sequence IS100 transposases found FT in Y.pestis plasmids e.g. TR:P74993 (EMBL:AF053947) from FT KIM5 plasmid pMT1 (340 aa), fasta scores; opt: 2328 FT z-score: 2755.3 E(): 0, 100.0% identity in 340 aa overlap FT and also in pathogenicity islands e.g. ORF12 FT (EMBL:AL031866) (100.0% identity in 340 aa overlap). FT Similar to Escherichia coli transposase for insertion FT sequence element IS21 IstA SW:ISTA_ECOLI (P15025) (390 aa) FT fasta scores: E(): 3e-27, 33.1% id in 329 aa. Identical to FT the previously sequenced Yersinia pestis, Yersinia FT pseudotuberculosis, and Escherichia coli pesticin plasmid FT insertion sequence transposase Y1055 TR:P74993 FT (EMBL:U59875) (340 aa) fasta scores: E(): 0, 100.0% id in FT 340 aa. Contains probable helix-turn-helix motif at aa FT 19-40 (Score 2045, +6.15 SD). Contains Pfam match to entry FT PF00239 recombinase, Site-specific recombinases, score FT 25.70, E-value 4.8e-06" FT /gene="YPMT1.01" FT /product="transposase for insertion sequence IS100" FT /label=YPMT1.01 FT /colour=12 FT /class="5.1.4" FT misc_feature 111..194 FT /note="Pfam match to entry PF00239 recombinase, FT Site-specific recombinases, score 25.70, E-value 4.8e-06" FT /colour=0 FT misc_feature 875 FT /note="difference: A is G in EMBL:AF053947" FT /colour=2 FT CDS 1106..1888 FT /note="YPMT1.02, probable transposase, len: 260 aa; FT identical to insertion sequence IS100 transposases found FT in Y.pestis plasmids e.g. TR:P74994 (EMBL:AF053947) from FT KIM5 plasmid pMT1 (260 aa), fasta scores; opt: 1658 FT z-score: 1841.0 E(): 0, 100.0% identity in 259 aa overlap FT and also in pathogenicity islands e.g. ORF11 FT (EMBL:AL031866) (259 aa) (100.0% identity in 259 aa FT overlap). Similar to Escherichia coli insertion sequence FT IS21 putative ATP-binding protein, IstB SW:ISTB_ECOLI FT (P15026) (265 aa) fasta scores: E(): 0, 47.4% id in 249 FT aa. Also almost identical to Yersinia pestis and FT Escherichia coli putative IS100 transposase ypmt1.57c FT TR:Q9R3L5 (EMBL:AL117211) (260 aa) fasta scores: E(): 0, FT 99.6% id in 260 aa. Contains PS00017 ATP/GTP-binding site FT motif A (P-loop)" FT /gene="YPMT1.02" FT /product="insertion sequence IS100, ATP-binding protein" FT /label=YPMT1.02 FT /colour=12 FT /class="5.1.4" FT misc_feature 1433..1456 FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(2022..2630) FT /note="YPMT1.03c, conserved hypothetical protein, len: 202 FT aa; unknown function, similar to Y194_LAMBD (EMBL:J02459), FT bacteriophage lambda ORF194 (194 aa), fasta scores; opt: FT 806 z-score: 936.8 E(): 0, 62.2% identity in 188 aa FT overlap. Identical to ORF Y1053 from Y.pestis KIM5 pMT1 FT (202 aa) (100.0% identity in 202 aa overlap)" FT /gene="YPMT1.03c" FT /product="hypothetical protein YPMT1.03c" FT /colour=10 FT /class="0.0.2" FT RBS complement(2639..2643) FT /note="possible RBS" FT CDS complement(2723..2935) FT /note="YPMT1.3Ac, hypothetical protein, len: 70 aa; FT unknown function, identical to ORF Y1052 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (70 aa), (100.0% identity in 70 aa FT overlap)" FT /gene="YPMT1.3Ac" FT /product="hypothetical protein YPMT1.3Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(2932..5820) FT /note="YPMT1.04c, possible phage tail protein, len: 962 FT aa; C-terminus similar to region of Y314_LAMBD FT (EMBL:J02459), bacteriophage lambda ORF314 (314 aa), fasta FT scores; opt: 1080 z-score: 1011.1 E(): 0, 66.4% identity FT in 250 aa overlap. Identical to ORF Y1051 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (978 aa) (100.0% identity in 962 FT aa overlap) / TR:O68722 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (860 aa) (100.0% identity in 860 aa overlap) except FT for differing putative start codons" FT /gene="YPMT1.04c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT RBS complement(5826..5830) FT /note="possible RBS" FT CDS complement(5901..6518) FT /note="YPMT1.05c, hypothetical protein, len: 205 aa; FT unknown function, identical to TR:O68723 (EMBL:AF053947) FT hypothetical protein from Y.pestis KIM5 pMT1 (205 aa), FT fasta scores; opt: 1385 z-score: 1656.3 E(): 0, 100.0% FT identity in 205 aa overlap and ORF Y1050 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (210 aa) (100.0% identity in 205 FT aa overlap) which has a differing putative start codon" FT /gene="YPMT1.05c" FT /product="hypothetical protein YPMT1.05c" FT /label=YPMT1.05c FT /colour=8 FT /class="0.0.0" FT RBS complement(6528..6531) FT /note="possible RBS" FT CDS complement(6536..11173) FT /note="YPMT1.06c, possible phage tail protein, len: 1545 FT aa; similar to TR:O64335 (EMBL:AF064539) bacteriophage N15 FT tail tip fiber protein GP21 (1061 aa), fasta scores; opt: FT 1383 z-score: 1321.3 E(): 0, 30.2% identity in 993 aa FT overlap and N-terminus similar to VHSJ_LAMBD (EMBL:J02459) FT bacteriophage lambda host specificity protein J (1132 aa) FT (32.0% identity in 923 aa overlap). Highly similar to ORF FT Y1049 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (1545 aa) FT (99.9% identity in 1545 aa overlap) / TR:O68724 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (1492 aa) (100.0% FT identity in 1472 aa overlap) which has a different FT putative start and stop codon. Contains probable FT coiled-coils from 856 to 950 (95 residues) (Max score: FT 1.724, probability 1.00) and from 977 to 1028 (52 FT residues) (Max score: 1.600, probability 0.99). Contains FT two Pfam matches to entry PF00041 fn3, Fibronectin type FT III domain, scores 18.40, E-value 0.036 and 0.80, E-value FT 1.5" FT /gene="YPMT1.06c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT misc_feature 6633 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT misc_feature complement(8702..8941) FT /note="Pfam match to entry PF00041 fn3, Fibronectin type FT III domain, score 18.40, E-value 0.036" FT /colour=0 FT misc_feature complement(8987..9244) FT /note="Pfam match to entry PF00041 fn3, Fibronectin type FT III domain, score 0.80, E-value 1.5" FT /colour=0 FT CDS complement(11189..11776) FT /note="YPMT1.07c, possible phage tail protein, len: 195 FT aa; similar to TR:O64334 (EMBL:AF064539) bacteriophage N15 FT minor tail protein GP20 (192 aa), fasta scores; opt: 251 FT z-score: 312.6 E(): 4.2e-10, 31.0% identity in 203 aa FT overlap and VTAI_LAMBD (EMBL:J02459) bacteriophage lambda FT tail assembly protein I (223 aa) (28.5% identity in 207 aa FT overlap). Identical to ORF Y1048 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (195 aa) (99.5% identity in 195 aa FT overlap) / TR:O68725 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (183 aa) (100.0% identity in 183 aa overlap) which FT has a different putative start codon" FT /gene="YPMT1.07c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT CDS complement(11764..12561) FT /note="YPMT1.08c, possible phage tail protein, len: 265 FT aa; similar to VTAK_LAMBD (EMBL:J02459) bacteriophage FT lambda tail assembly protein K (199 aa), fasta scores; FT opt: 263 z-score: 334.4 E(): 2.6e-11, 32.8% identity in FT 198 aa overlap and to TR:O64333 (EMBL:AF064539) FT bacteriophage N15 minor tail protein GP19 (243 aa) (35.1% FT identity in 251 aa overlap). Identical to ORF Y1047 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (252 aa) (100.0% FT identity in 252 aa overlap) / TR:O68726 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 which have a different putative FT start codon" FT /gene="YPMT1.08c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT RBS complement(11784..11789) FT /note="possible RBS" FT misc_feature 11902 FT /note="difference: G is T in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT CDS complement(12554..13285) FT /note="YPMT1.09c, possible phage tail protein, len: 243 FT aa; similar to VMTL_LAMBD (EMBL:J02459) bacteriophage FT lambda minor tail protein L (232 aa), fasta scores; opt: FT 542 z-score: 670.1 E(): 5.2e-30, 39.7% identity in 219 aa FT overlap and to TR:O64332 (EMBL:AF064539) bacteriophage N15 FT minor tail protein GP18 (251 aa) (36.3% identity in 251 aa FT overlap). Identical to ORF Y1046 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (243 aa) (100.0% identity in 243 aa FT overlap) / TR:O68727 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (232 aa) (100.0% identity in 232 aa overlap) which FT has a different putative start codon" FT /gene="YPMT1.09c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT RBS complement(12571..12574) FT /note="possible RBS" FT CDS complement(13342..13677) FT /note="YPMT1.10c, possible phage tail protein, len: 111 FT aa; similar to VMTM_LAMBD (EMBL:J02459) bacteriophage FT lambda minor tail protein M (109 aa), fasta scores; opt: FT 152 z-score: 208.6 E(): 0.00026, 26.7% identity in 105 aa FT overlap and to TR:O64331 (EMBL:AF064539) bacteriophage N15 FT minor tail protein GP17 (115 aa) (30.0% identity in 110 aa FT overlap). Identical to ORF Y1045 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (111 aa) (100.0% identity in 111 aa FT overlap) / TR:O68728 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (111 aa) (100.0% identity in 111 aa overlap)" FT /gene="YPMT1.10c" FT /product="putative phage tail protein" FT /colour=12 FT /class="5.1.2" FT CDS complement(13719..18296) FT /note="YPMT1.11c, possible membrane protein, len: 1525 aa; FT unknown function, contains region similar to YF14_HAEIN FT (EMBL:U32827) Haemophilus influenzae hypothetical protein FT (631 aa), fasta scores; opt: 304 z-score: 280.2 E(): FT 2.7e-08, 26.3% identity in 392 aa overlap. Weak similarity FT to the N-terminal binding domain of TR:O85472 FT (EMBL:AF067776), emb, Abiotrophia defectiva extracellular FT matrix binding protein (fragment) (2055 aa) (20.6% FT identity in 1489 aa overlap). Identical to ORF Y1044 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (1525 aa) (100.0% FT identity in 1525 aa overlap) / TR:O68729 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (1525 aa) (100.0% identity in 1525 FT aa overlap). Contains probable coiled-coils from 97 to 130 FT (34 residues) (Max score: 1.466, probability 0.90), from FT 646 to 680 (35 residues) (Max score: 1.566, probability FT 0.99), from 794 to 861 (68 residues) (Max score: 1.597, FT probability 0.99) and from 1044 to 1072 (29 residues) (Max FT score: 1.480, probability 0.93). Contains hydrophobic, FT possible membrane-spanning region" FT /gene="YPMT1.11c" FT /product="putative membrane protein" FT /colour=13 FT /class="7.0.0" FT misc_feature 17613 FT /note="difference: G is A in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT CDS complement(18304..18573) FT /note="YPMT1.12c, hypothetical protein, len: 89 aa; FT unknown function, identical to ORF Y1043 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (89 aa), fasta scores; opt: 584 FT z-score: 734.2 E(): 0, 98.9% identity in 89 aa overlap" FT /gene="YPMT1.12c" FT /product="hypothetical protein YPMT1.12c" FT /colour=8 FT /class="0.0.0" FT CDS complement(18654..18971) FT /note="YPMT1.13c, hypothetical protein, len: 105 aa; FT unknown function, identical to ORF Y1042 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (105 aa), fasta scores; opt: 664 FT z-score: 837.5 E(): 0, 100.0% identity in 105 aa overlap FT and TR:O68730 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (105 FT aa) (100.0% identity in 105 aa overlap)" FT /gene="YPMT1.13c" FT /product="hypothetical protein YPMT1.13c" FT /colour=8 FT /class="0.0.0" FT CDS complement(19031..19777) FT /note="YPMT1.14c, hypothetical protein, len: 248 aa; FT unknown function, identical to ORF Y1041 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (248 aa), fasta scores; opt: 1547 FT z-score: 1665.3 E(): 0, 100.0% identity in 248 aa overlap FT and TR:O68731 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (248 FT aa) (100.0% identity in 248 aa overlap). C-terminus FT similar to TR:O68736 (EMBL:AF053947) hypothetical protein FT from Y.pestis KIM5 pMT1 (143 aa) (43.0% identity in 86 aa FT overlap) and ORF Y1035 (EMBL:AF074611) hypothetical FT protein from Y.pestis KIM5 pMT1 (220 aa) (34.0% identity FT in 191 aa overlap)" FT /gene="YPMT1.14c" FT /product="hypothetical protein YPMT1.14c" FT /colour=8 FT /class="0.0.0" FT CDS complement(19852..20235) FT /note="YPMT1.15c, hypothetical protein, len: 127 aa; FT unknown function, identical to ORF Y1040 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (127 aa), fasta scores; opt: 817 FT z-score: 1082.2 E(): 0, 99.2% identity in 127 aa overlap / FT TR:O68732 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (118 aa) FT (100.0% identity in 118 aa overlap) which has a different FT putative start codon" FT /gene="YPMT1.15c" FT /product="hypothetical protein YPMT1.15c" FT /colour=8 FT /class="0.0.0" FT CDS complement(20237..20710) FT /note="YPMT1.16c, hypothetical protein, len: 157 aa; FT unknown function, identical to ORF Y1039 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (157 aa), fasta scores; opt: 1012 FT z-score: 1207.0 E(): 0, 100.0% identity in 157 aa overlap FT / TR:O68733 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (126 FT aa) (100.0% identity in 126 aa overlap) which has a FT different putative start codon" FT /gene="YPMT1.16c" FT /product="hypothetical protein YPMT1.16c" FT /colour=8 FT /class="0.0.0" FT RBS complement(20241..20244) FT /note="possible RBS" FT CDS complement(20701..21159) FT /note="YPMT1.17c, hypothetical protein, len: 152 aa; FT unknown function, identical to ORF Y1038 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (152 aa), fasta scores; opt: 1011 FT z-score: 1336.1 E(): 0, 99.3% identity in 152 aa overlap / FT TR:O68734 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (114 aa) FT (100.0% identity in 114 aa overlap) which has a different FT putative start codon" FT /gene="YPMT1.17c" FT /product="hypothetical protein YPMT1.17c" FT /colour=8 FT /class="0.0.0" FT CDS complement(21143..21976) FT /note="YPMT1.18c, hypothetical protein, len: 277 aa; FT unknown function, identical to ORF Y1037 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (277 aa), fasta scores; opt: 1786 FT z-score: 2141.5 E(): 0, 100.0% identity in 277 aa overlap" FT /gene="YPMT1.18c" FT /product="hypothetical protein YPMT1.18c" FT /colour=8 FT /class="0.0.0" FT CDS complement(21976..22410) FT /note="YPMT1.19c, hypothetical protein, len: 144 aa; FT unknown function, identical to ORF Y1036 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (144 aa), fasta scores; opt: 924 FT z-score: 1079.7 E(): 0, 100.0% identity in 144 aa overlap FT / TR:O68735 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (99 FT aa) (100.0% identity in 99 aa overlap) which has a FT different putative start codon" FT /gene="YPMT1.19c" FT /product="hypothetical protein YPMT1.19c" FT /colour=8 FT /class="0.0.0" FT CDS complement(22454..23116) FT /note="YPMT1.20c, hypothetical protein, len: 220 aa; FT unknown function, C-terminus shows similarity to a region FT within TR:Q45095 (EMBL:D17519) Bacillus circulans FT beta-1,3-glucanase precursor (877 aa), fasta scores; opt: FT 262 z-score: 290.2 E(): 7.4e-09, 48.3% identity in 87 aa FT overlap. Also similar to a region of VMTV_LAMBD FT (EMBL:J02459) bacteriophage lambda major tail protein V FT (246 aa) (34.0% identity in 141 aa overlap). Identical to FT ORF Y1035 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (220 aa) FT (100.0% identity in 220 aa overlap) / TR:O68736 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (143 aa) which has FT a different putative start codon. Similar at the FT C-terminus to ORF Y1041 (EMBL:AF074611) from Y.pestis KIM5 FT pMT1 (34.0% identity in 191 aa overlap) / TR:O68731 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (34.0% identity in FT 191 aa overlap)" FT /gene="YPMT1.20c" FT /product="hypothetical protein YPMT1.20c" FT /colour=8 FT /class="0.0.0" FT RBS complement(23123..23127) FT /note="possible RBS" FT CDS complement(23191..24066) FT /note="YPMT1.21c, hypothetical protein, len: 291 aa; FT unknown function, weak similarity to SRPI_SYNP7 FT (EMBL:U23436), srpI, Synechococcus sp. hypothetical FT protein from plasmid pANL (306 aa), fasta scores; opt: 200 FT z-score: 241.0 E(): 4.1e-06, 25.0% identity in 300 aa FT overlap. Identical to ORF Y1034 (EMBL:AF074611) from FT Y.pestis KIM5 (291 aa) (100.0% identity in 291 aa overlap) FT / TR:O68737 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (291 FT aa) (100.0% identity in 291 aa overlap)" FT /gene="YPMT1.21c" FT /product="hypothetical protein YPMT1.21c" FT /colour=8 FT /class="0.0.0" FT CDS complement(24093..24926) FT /note="YPMT1.22c, hypothetical protein, len: 277 aa; FT unknown function, a frameshift fusion of ORFs Y1032 and FT Y1033 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (151 aa, 123 FT aa) / TR:O68739 and TR:O68738 (EMBL:AF053947) from FT Y.pestis KIM5 pMT1 (146 aa, 105 aa) which have different FT putative start codons. Contains probable coiled-coil from FT 107 to 147 (41 residues) (Max score: 1.626, probability FT 1.00)" FT /gene="YPMT1.22c" FT /product="hypothetical protein YPMT1.22c" FT /colour=8 FT /class="0.0.0" FT misc_feature 24481..24482 FT /note="difference: TCAGTTCGGCGTTCTCGCTCTCCAGAGCGGA FT GTAGCGTTCGTCGCGCTGTGCCAGTTCA is present in EMBL:AF053947 FT and TCAGTTCGGCGTTCTTG is present in EMBL:AF074611" FT /colour=2 FT CDS complement(24949..26538) FT /note="YPMT1.23c, hypothetical protein, len: 529 aa; FT unknown function, identical to ORF Y1031 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (259 aa), fasta scores; opt: 3506 FT z-score: 4012.6 E(): 0, 100.0% identity in 529 aa overlap FT / TR:O68740 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (412 FT aa) (100.0% identity in 412 aa overlap) which has a FT different putative start codon" FT /gene="YPMT1.23c" FT /product="hypothetical protein YPMT1.23c" FT /colour=8 FT /class="0.0.0" FT CDS complement(26557..27813) FT /note="YPMT1.24c, hypothetical protein, len: 418 aa; FT unknown function, identical to ORF Y1030 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (418 aa), fasta scores; opt: 2863 FT z-score: 3413.3 E(): 0, 100.0% identity in 418 aa overlap FT / TR:O68741 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (402 FT aa) (100.0% identity in 402 aa overlap) which has a FT different putative start codon. Contains PS00017 FT ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.24c" FT /product="hypothetical protein YPMT1.24c" FT /colour=13 FT /class="0.0.0" FT misc_feature complement(27700..27723) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(27816..28457) FT /note="YPMT1.25c, hypothetical protein, len: 213 aa; FT unknown function, identical to ORF Y1029 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (213 aa), fasta scores; opt: 1361 FT z-score: 1495.2 E(): 0, 100.0% identity in 213 aa overlap FT / TR:O68742 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (213 FT aa) (100.0% identity in 213 aa overlap). Contains probable FT helix-turn-helix motif at aa 30-51 (Score 1936, +5.78 SD)" FT /gene="YPMT1.25c" FT /product="hypothetical protein YPMT1.25c" FT /colour=8 FT /class="0.0.0" FT CDS complement(28653..28919) FT /note="YPMT1.25Ac, hypothetical protein, len: 88 aa; FT unknown function, identical to ORF Y1028 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (88 aa), fasta scores; opt: 563 FT z-score: 793.0 E(): 0, 100.0% identity in 88 aa overlap" FT /gene="YPMT1.25Ac" FT /product="hypothetical protein YPMT1.25Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(28929..29828) FT /note="YPMT1.26c, hypothetical protein, len: 299 aa; FT unknown function, identical to ORF Y1027 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (299 aa), fasta scores; opt: 1986 FT z-score: 2370.4 E(): 0, 99.7% identity in 299 aa overlap / FT TR:O68744 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (296 aa) FT (100.0% identity in 296 aa overlap) which has a different FT putative start codon" FT /gene="YPMT1.26c" FT /product="hypothetical protein YPMT1.26c" FT /colour=8 FT /class="0.0.0" FT CDS complement(29825..30079) FT /note="YPMT1.26Ac, hypothetical protein, len: 84 aa; FT unknown function, identical to ORF Y1027 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (84 aa), fasta scores; opt: 551 FT z-score: 732.5 E(): 0, 100.0% identity in 84 aa overlap" FT /gene="YPMT1.26Ac" FT /product="hypothetical protein YPMT1.26Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(30072..30770) FT /note="YPMT1.27c, possible ABC transporter ATP-binding FT protein, len: 232 aa; weakly similar to many putative ABC FT transporter proteins e.g. ABC_ECOLI (EMBL:AE000129) FT Escherichia coli putative ATP-binding protein (343 aa), FT fasta scores; opt: 155 z-score: 178.2 E(): 0.013, 28.3% FT identity in 184 aa overlap. Identical to ORF Y1025 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (232 aa) (99.6% FT identity in 232 aa overlap) / TR:O68745 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (212 aa) (100.0% identity in 212 FT aa overlap) which has a different putative start codon. FT Contains Contains Pfam match to entry PF00005 ABC_tran, FT ABC transporter, score 7.60, E-value 6.1e-06 and PS00017 FT ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.27c" FT /product="putative ABC transporter ATP-binding protein" FT /colour=10 FT /class="0.0.2" FT misc_feature complement(30123..30566) FT /note="Pfam match to entry PF00005 ABC_tran, ABC FT transporter, score 7.60, E-value 6.1e-06" FT /colour=0 FT misc_feature complement(30522..30545) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(30707..31375) FT /note="YPMT1.28c, hypothetical protein, len: 222 aa; FT unknown function, N-terminus similar to YNAK_ECOLI FT (EMBL:AE000233) E.coli hypothetical protein (87 aa), fasta FT scores; opt: 224 z-score: 269.1 E(): 1.1e-07, 40.5% FT identity in 84 aa overlap and TR:O06671 (EMBL:AF000658) FT Streptococcus pneumoniae hypothetical protein (252 aa) FT (27.6% identity in 152 aa overlap). Identical to ORF Y1024 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (233 aa) (99.6% FT identity in 233 aa overlap) / TR:O68746 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (222 aa) (100.0% identity in 222 FT aa overlap) which have different putative start codons" FT /gene="YPMT1.28c" FT /product="hypothetical protein YPMT1.28c" FT /colour=8 FT /class="0.0.2" FT RBS complement(30784..30788) FT /note="possible RBS" FT CDS complement(31375..32073) FT /note="YPMT1.29c, hypothetical protein, len: 232 aa; FT unknown function, identical to ORF Y1023 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (232 aa), fasta scores; opt: 1495 FT z-score: 1681.6 E(): 0, 100.0% identity in 232 aa overlap FT / TR:O68747 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (226 FT aa) (100.0% identity in 226 aa overlap) which has a FT different putative start codon" FT /gene="YPMT1.29c" FT /product="hypothetical protein YPMT1.29c" FT /colour=8 FT /class="0.0.0" FT RBS complement(31384..31388) FT /note="possible RBS" FT CDS 32138..33697 FT /note="YPMT1.30, hypothetical protein, len: 519 aa; FT possibly involved in DNA repair, weak similarity to FT excinucleases and helicases e.g. UVSW_BPT4 (EMBL:X56097) FT bacteriophage T4 regulatory protein (587 aa), fasta FT scores; opt: 181 z-score: 212.2 E(): 0.00017, 22.0% FT identity in 478 aa overlap. Similar to TR:O57949 FT (EMBL:AP000001) Pyrococcus horikoshii hypothetical protein FT (444 aa), fasta scores; opt: 297 z-score: 349.9 E(): FT 3.5e-12, 27.8% identity in 500 aa overlap. Identical to FT ORF Y1022 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (519 aa) FT (100.0% identity in 519 aa overlap) / TR:O68748 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (492 aa) (100.0% FT identity in 492 aa overlap) which has a different putative FT start codon. Contains Pfam match to entry PF00271 FT helicase_C, Helicases conserved C-terminal domain, score FT 35.80, E-value 9.8e-07" FT /gene="YPMT1.30" FT /product="hypothetical protein YPMT1.30" FT /colour=10 FT /class="0.0.2" FT misc_feature 32569 FT /note="difference: T is G in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT misc_feature 33281..33526 FT /note="Pfam match to entry PF00271 helicase_C, Helicases FT conserved C-terminal domain, score 35.80, E-value 9.8e-07" FT /colour=0 FT CDS 33700..33978 FT /note="YPMT1.31, hypothetical protein, len: 92 aa; unknown FT function, identical to ORF Y1021 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (92 aa), fasta scores; opt: 563 FT z-score: 717.8 E(): 1.1e-32, 100.0% identity in 92 aa FT overlap / TR:O68749 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (92 aa) (100.0% identity in 92 aa overlap)" FT /gene="YPMT1.31" FT /product="hypothetical protein YPMT1.31" FT /colour=8 FT /class="0.0.0" FT RBS 34021..34024 FT /note="possible RBS" FT CDS 34038..34460 FT /note="YPMT1.32, possible lipoprotein, len: 140 aa; FT unknown function, identical to ORF Y1020 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (140 aa), fasta scores; opt: 899 FT z-score: 1113.6 E(): 0, 100.0% identity in 140 aa overlap FT / TR:O68750 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (85 FT aa) (100.0% identity in 85 aa overlap) which has a FT different putative start codon. Contains possible FT N-terminal signal sequence and appropriately positioned FT PS00013 Prokaryotic membrane lipoprotein lipid attachment FT site, so may be a lipoprotein" FT /gene="YPMT1.32" FT /product="putative lipoprotein" FT /label=YPMT1.32 FT /colour=3 FT /class="7.0.0" FT misc_feature 34062..34094 FT /note="PS00013 Prokaryotic membrane lipoprotein lipid FT attachment site" FT /colour=8 FT CDS 34465..34992 FT /note="YPMT1.33, possible transcriptional regulator, len: FT 175 aa; similar to repressors for phase-1 flagellin gene FT e.g. FLJA_SALAE (EMBL:D13690), fljA, Salmonella FT abortus-equi repressor for phase-1 flagellin gene (179 FT aa), fasta scores; opt: 326 z-score: 417.2 E(): 6.3e-16, FT 32.9% identity in 170 aa overlap. Identical to ORF Y1019 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (187 aa) (100.0% FT identity in 175 aa overlap) which has a different putative FT start codon / TR:O68751 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (175 aa) (100.0% identity in 175 aa overlap)" FT /gene="YPMT1.33" FT /product="putative transcriptional regulator" FT /colour=9 FT /class="6.1.1" FT misc_feature 35188..35189 FT /note="difference: TC is present in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT CDS 35314..35964 FT /note="YPMT1.34, hypothetical protein, len: 216 aa; FT unknown function, identical to ORF Y1018 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (216 aa), fasta scores; opt: 1348 FT z-score: 1590.1 E(): 0, 100.0% identity in 216 aa overlap FT / TR:O68752 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (216 FT aa) (100.0% identity in 216 aa overlap)" FT /gene="YPMT1.34" FT /product="hypothetical protein YPMT1.34" FT /colour=8 FT /class="0.0.0" FT RBS 36037..36041 FT /note="possible RBS" FT CDS 36049..36276 FT /note="YPMT1.34A, hypothetical protein, len: 75 aa; FT unknown function, identical to ORF Y1017 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (75 aa), fasta scores; opt: 469 FT z-score: 680.6 E(): 1.6e-30, 100.0% identity in 75 aa FT overlap" FT /gene="YPMT1.34A" FT /product="hypothetical protein YPMT1.34A" FT /colour=8 FT /class="0.0.0" FT misc_feature 36726 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT CDS complement(36915..37397) FT /note="YPMT1.35c, hypothetical protein, len: 160 aa; FT unknown function, identical to ORF Y1015 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (160 aa), fasta scores; opt: 1066 FT z-score: 1370.8 E(): 0, 100.0% identity in 160 aa overlap FT / TR:O68753 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (160 FT aa) (100.0% identity in 160 aa overlap)" FT /gene="YPMT1.35c" FT /product="hypothetical protein YPMT1.35c" FT /colour=8 FT /class="0.0.0" FT misc_feature 37593 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT CDS complement(37603..37890) FT /note="YPMT1.36c, hypothetical protein, len: 95 aa; FT unknown function, identical to ORF Y1012 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (116 aa), fasta scores; opt: 674 FT z-score: 918.2 E(): 0, 100.0% identity in 95 aa overlap / FT TR:O68754 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (93 aa) FT (100.0% identity in 93 aa overlap) which have different FT putative start codons" FT /gene="YPMT1.36c" FT /product="hypothetical protein YPMT1.36c" FT /colour=8 FT /class="0.0.0" FT RBS complement(37893..37897) FT /note="possible RBS" FT repeat_unit complement(37978..38685) FT /note="IS200 element" FT /label=IS200 FT CDS complement(38084..38542) FT /note="YPMT1.37c, trasnposase, len: 152 aa; similar to FT Salmonella typhimurium and Salmonella typhi transposase FT for insertion sequence IS200, TnpA, SW:TNPA_SALTY (Q57334) FT (152 aa) fasta scores: E(): 0, 93.4% id in 152 aa. Almost FT identical to the Yersinia pseudotuberculosis IS1541-like FT element transposase Tnp TR:Q9X9F5 (EMBL:AJ238014) (152 aa) FT fasta scores: E(): 0, 99.3% id in 152 aa" FT /product="transposase for the IS1541 insertion element" FT /gene="YPMT1.37c" FT /gene="tnpA" FT /colour=12 FT /class="5.1.4" FT misc_feature 38465 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT CDS complement(38751..39320) FT /note="YPMT1.38c, hypothetical protein, len: 189 aa; FT unknown function, identical to ORF Y1010 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (189 aa), fasta scores; opt: 1233 FT z-score: 1525.4 E(): 0, 100.0% identity in 189 aa overlap FT and highly similar to TR:O68755 (EMBL:AF053947) FT hypothetical protein from Y.pestis KIM5 pMT1 (195 aa) FT (97.3% identity in 187 aa overlap)" FT /gene="YPMT1.38c" FT /product="hypothetical protein YPMT1.38c" FT /colour=8 FT /class="0.0.0" FT misc_feature 38780 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT RBS complement(39329..39333) FT /note="possible RBS" FT CDS complement(39333..40079) FT /note="YPMT1.39c, hypothetical protein, len: 248 aa; FT unknown function, highly similar to ORF Y1009 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (248 aa), fasta FT scores; opt: 1636 z-score: 1943.4 E(): 0, 99.6% identity FT in 248 aa overlap" FT /gene="YPMT1.39c" FT /product="hypothetical protein YPMT1.39c" FT /colour=8 FT /class="0.0.0" FT misc_feature 39563 FT /note="difference: C is T in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT misc_feature 39700 FT /note="difference: G is absent from EMBL:AF053947" FT /colour=2 FT CDS complement(40069..41985) FT /note="YPMT1.40c, possible exonuclease subunit 2, len: 638 FT aa; weakly similar to e.g. EXO2_BPT4 (EMBL:X01804) FT bacteriophage T4 exonuclease subunit 2 (560 aa), fasta FT scores; opt: 204 z-score: 221.9 E(): 4.7e-05, 21.3% FT identity in 634 aa overlap. Identical to ORF Y1008 from FT Y.pestis KIM5 pMT1 (642 aa) (100.0% identity in 638 aa FT overlap) / TR:O68756 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (627 aa) (100.0% identity in 627 aa overlap) which FT have different putative start codons. Contains probable FT coiled-coils from 171 to 226 (56 residues) (Max score: FT 1.428, probability 0.81), from 349 to 377 (29 residues) FT (Max score: 1.451, probability 0.87) and from 440 to 481 FT (42 residues) (Max score: 1.493, probability 0.94). FT Contains PS00017 ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.40c" FT /product="putative exonuclease subunit 2" FT /colour=12 FT /class="2.2.03" FT misc_feature complement(41845..41868) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT RBS complement(41992..41995) FT /note="possible RBS" FT CDS complement(41994..42218) FT /note="YPMT1.40Ac, hypothetical protein, len: 74 aa; FT unknown function, identical to part of ORF Y1007 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (88 aa), fasta FT scores; opt: 503 z-score: 705.0 E(): 6.9e-32, 100.0% FT identity in 74 aa overlap" FT /gene="pMT1.40Ac" FT /product="hypothetical protein YPMT1.40Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(42215..43300) FT /note="YPMT1.41c, possible exonuclease subunit 1, len: 361 FT aa; similar to EXO1_BPT4 (EMBL:X01804) bacteriophage T4 FT exonuclease subunit 1 (339 aa), fasta scores; opt: 201 FT z-score: 234.7 E(): 9.3e-06, 23.3% identity in 339 aa FT overlap. Identical to ORF Y1006 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (361 aa) (100.0% identity in 361 aa FT overlap) / TR:O68757 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (317 aa) (100.0% identity in 317 aa overlap) which FT has a different putative start codon" FT /gene="YPMT1.41c" FT /product="putative exonuclease subunit 1" FT /colour=12 FT /class="2.2.03" FT RBS complement(42223..42227) FT /note="possible RBS" FT CDS 43716..44738 FT /note="YPMT1.42, possible periplasmic protein, len: 340 FT aa; similar to e.g. SSUA_BACSU (EMBL:L16808), ssuA, FT Bacillus subtilis putative aliphatic sulfonates binding FT protein precursor (332 aa), fasta scores; opt: 237 FT z-score: 281.4 E(): 2.3e-08, 24.3% identity in 350 aa FT overlap and TR:Q48929 (EMBL:U40213) Methanobacterium FT bryantii copper response extracellular protein (353 aa) FT (21.7% identity in 341 aa overlap). Unlike ssuA, it has no FT prokaryotic membrane lipoprotein lipid attachment site, FT but does have a potential N-terminal signal sequence. FT Identical to ORF Y1004 (EMBL:AF074611) from Y.pestis KIM5 FT pMT1 (340 aa) (100.0% identity in 340 aa overlap)" FT /gene="YPMT1.42" FT /product="putative periplasmic protein" FT /colour=3 FT /class="4.1.3" FT CDS complement(44876..45022) FT /note="YPMT1.42Ac, hypothetical protein, len: 48 aa; FT unknown function" FT /gene="YPMT1.42Ac" FT /product="hypothetical protein YPMT1.42Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(45098..45742) FT /note="YPMT1.43c, hypothetical protein, len: 214 aa; FT unknown function, identical to ORF Y1002 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (214 aa), fasta scores; opt: 1449 FT z-score: 1765.6 E(): 0, 100.0% identity in 214 aa overlap FT / TR:O68758 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (74 FT aa) (100.0% identity in 74 aa overlap) which has a FT different putative start codon" FT /gene="YPMT1.43c" FT /product="hypothetical protein YPMT1.43c" FT /colour=8 FT /class="0.0.0" FT misc_feature 45308 FT /note="difference: C is T in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT repeat_unit 45939..45958 FT /note="iteron 1" FT repeat_unit 45960..45979 FT /note="iteron 2" FT repeat_unit 45981..46000 FT /note="iteron 3" FT repeat_unit 46002..46021 FT /note="iteron 4" FT repeat_unit 46025..46044 FT /note="iteron 5" FT repeat_unit 46322..46341 FT /note="iteron 6" FT repeat_unit 46343..46362 FT /note="iteron 7" FT repeat_unit 46364..46383 FT /note="iteron 8" FT repeat_unit 46385..46404 FT /note="iteron 9" FT repeat_unit 46406..46425 FT /note="iteron 10" FT repeat_unit 46428..46447 FT /note="iteron 11" FT CDS 46487..47551 FT /note="YPMT1.44, repA, probable replication protein A, FT len: 354 aa; similar to many e.g. RP12_SALTI (EMBL:L01253) FT Salmonella typhi REPFIB replication protein A (325 aa), FT fasta scores; opt: 1262 z-score: 1419.3 E(): 0, 63.9% FT identity in 299 aa overlap. Identical to repA FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (354 aa) (100.0% FT identity in 354 aa overlap) / TR:O68759 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (354 aa) (100.0% identity in 354 FT aa overlap)" FT /gene="YPMT1.44" FT /gene="repA" FT /product="putative replication protein A" FT /label=repA FT /colour=2 FT /class="5.1.3" FT repeat_unit 47552..47571 FT /note="iteron 12" FT repeat_unit 47581..47600 FT /note="iteron 13" FT misc_feature 47584..47585 FT /note="difference: T is present in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT repeat_unit 47620..47639 FT /note="iteron 14" FT repeat_unit 47653..47672 FT /note="iteron 15" FT repeat_unit 47765..47784 FT /note="iteron 16" FT repeat_unit 47803..47822 FT /note="iteron 17" FT repeat_unit 47842..47861 FT /note="iteron 18" FT repeat_unit 47889..47908 FT /note="iteron 19" FT repeat_unit 47929..47948 FT /note="iteron 20" FT repeat_unit 47970..47989 FT /note="iteron 21" FT repeat_unit 48010..48029 FT /note="iteron 22" FT repeat_unit 48050..48069 FT /note="iteron 23" FT repeat_unit 48097..48116 FT /note="iteron 24" FT CDS complement(48120..48335) FT /note="YPMT1.45c, hypothetical protein, len: 71 aa; FT unknown function, identical to ORF Y1119 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (71 aa), fasta scores; opt: 453 FT z-score: 657.0 E(): 2.7e-29, 100.0% identity in 66 aa FT overlap / TR:O68760 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (66 aa) (100.0% identity in 66 aa overlap) which has FT a different putative start codon" FT /gene="YPMT1.45c" FT /product="hypothetical protein YPMT1.45c" FT /colour=8 FT /class="0.0.0" FT misc_feature 48269..57266 FT /note="equivalent to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF074611) from 100988 to 91991" FT /colour=0 FT CDS complement(48332..48667) FT /note="YPMT1.46c, hypothetical protein, len: 111 aa; FT unknown function, identical to ORF Y1118 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (111 aa), fasta scores; opt: 730 FT z-score: 964.3 E(): 0,100.0% identity in 111 aa overlap / FT TR:O68761 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (86 aa) FT (100.0% identity in 86 aa overlap) which has a different FT putative start codon" FT /gene="YPMT1.46c" FT /product="hypothetical protein YPMT1.46c" FT /colour=8 FT /class="0.0.0" FT RBS complement(48340..48345) FT /note="possible RBS" FT CDS complement(48664..48843) FT /note="YPMT1.46Ac, hypothetical protein, len: 59 aa; FT unknown function" FT /gene="YPMT1.46Ac" FT /product="hypothetical protein YPMT1.46Ac" FT /colour=8 FT /class="0.0.0" FT CDS complement(48884..49159) FT /note="YPMT1.46Bc, hypothetical protein, len: 91 aa; FT unknown function, identical to ORF Y1117 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (91 aa), fasta scores; opt: 620 FT z-score: 793.1 E(): 0, 100.0% identity in 91 aa overlap" FT /gene="YPMT1.46Bc" FT /product="hypothetical protein YPMT1.46Bc" FT /colour=8 FT /class="0.0.0" FT CDS complement(49227..49637) FT /note="YPMT1.47c, hypothetical protein, len: 136 aa; FT unknown function, identical to ORF Y1116 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (136 aa), fasta scores; opt: 935 FT z-score: 1186.7 E(): 0, 99.3% identity in 136 aa overlap / FT TR:O68762 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (98 aa) FT (100.0% identity in 98 aa overlap) which has a different FT putative start codon" FT /gene="YPMT1.47c" FT /product="hypothetical protein YPMT1.47c" FT /colour=8 FT /class="0.0.0" FT CDS complement(49621..49992) FT /note="YPMT1.48c, hypothetical protein, len: 123 aa; FT unknown function, similar to TR:Q38665 (EMBL:X78401), FT ninX, bacteriophage P22 protein (112 aa), fasta scores; FT opt: 298 z-score: 392.8 E(): 1.4e-14, 45.6% identity in FT 114 aa overlap. Identical to ORF Y1115 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (123 aa) (100.0% identity in 123 FT aa overlap)" FT /gene="YPMT1.48c" FT /product="hypothetical protein YPMT1.48c" FT /colour=8 FT /class="0.0.0" FT RBS complement(49645..49649) FT /note="possible RBS" FT misc_feature 49930..49931 FT /note="difference: C is present in EMBL:AF053947" FT /colour=2 FT RBS complement(49999..50004) FT /note="possible RBS" FT CDS complement(50146..50976) FT /note="YPMT1.49c, possible lipoprotein, len: 276 aa; FT unknown function, identical to ORF Y1114 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (276 aa), fasta scores; opt: 1784 FT z-score: 1941.7 E(): 0, 100.0% identity in 276 aa overlap FT / TR:O68763 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (261 FT aa) (100.0% identity in 261 aa overlap) which has a FT different putative start codon. Contains probable FT coiled-coil from 190 to 236 (47 residues)(Max score: FT 1.666, probability 1.00). Contains probable N-terminal FT signal sequence and appropriately positioned PS00013 FT Prokaryotic membrane lipoprotein lipid attachment site, so FT may be a lipoprotein" FT /gene="YPMT1.49c" FT /product="putative lipoprotein" FT /colour=3 FT /class="4.1.5" FT misc_feature complement(50914..50946) FT /note="PS00013 Prokaryotic membrane lipoprotein lipid FT attachment site" FT /colour=8 FT CDS complement(50980..51180) FT /note="YPMT1.49Ac, hypothetical protein, len: 66 aa; FT unknown function" FT /gene="YPMT1.49Ac" FT /product="hypothetical protein YPMT1.49Ac" FT /colour=8 FT /class="0.0.0" FT RBS complement(50985..50990) FT /note="possible RBS" FT CDS complement(51271..52347) FT /note="YPMT1.50c, probable recombinase, len: 358 aa; FT similar to many e.g. RECA_THEAQ (EMBL:L20680), recA, FT Thermus aquaticus recombinase (340 aa), fasta scores; opt: FT 334 z-score: 395.7 E(): 9.9e-15, 36.0% identity in 317 aa FT overlap. Highly similar to ORF Y1113 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (358 aa) (99.7% identity in 358 aa FT overlap) / TR:O68764 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (358 aa) (99.7% identity in 358 aa overlap). Contains FT Pfam matches to entry PF00154 recA, recA bacterial DNA FT recombination proteins, scores 81.60, E-value 8.7e-22 and FT 55.50, E-value 1.5e-14. Contains PS00017 ATP/GTP-binding FT site motif A (P-loop)" FT /gene="YPMT1.50c" FT /product="putative recombinase" FT /colour=2 FT /class="2.2.03" FT misc_feature 51408 FT /note="difference: C is T in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT misc_feature complement(51532..51744) FT /note="Pfam match to entry PF00154 recA, recA bacterial FT DNA recombination proteins, score 81.60, E-value 8.7e-22" FT /colour=0 FT misc_feature complement(52033..52212) FT /note="Pfam match to entry PF00154 recA, recA bacterial FT DNA recombination proteins, score 55.50, E-value 1.5e-14" FT /colour=0 FT misc_feature complement(52153..52176) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(52350..52616) FT /note="YPMT1.50Ac, hypothetical protein, len: 88 aa; FT unknown function, identical to ORF Y1112 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (88 aa), fasta scores; opt: 545 FT z-score: 761.5 E(): 0, 100.0% identity in 88 aa overlap" FT /gene="YPMT1.50Ac" FT /product="hypothetical protein YPMT1.50Ac" FT /colour=8 FT /class="0.0.0" FT RBS complement(52355..52359) FT /note="possible RBS" FT CDS complement(52616..53560) FT /note="YPMT1.51c, possible exonuclease, len: 314 aa; FT similar to the N-terminal (5'-3' exonulcease) domain of FT many DNA polymerase I proteins e.g. DPO1_STRPN FT (EMBL:J04479), polA, Streptococcus pneumoniae DNA FT polymerase I (877 aa), fasta scores; opt: 334 z-score: FT 393.7 E(): 1.3e-14, 28.0% identity in 304 aa overlap. FT Identical to ORF Y1111 (EMBL:AF07461) from Y.pestis KIM5 FT pMT1 (331 aa) (99.7% identity in 331 aa overlap) / FT TR:O68765 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (289 aa) FT (100.0% identity in 289 aa overlap) which has a different FT putative start codon. Contains Pfam match to entry PF01367 FT 5_3_exonuclease, 5'-3' exonuclease, score -16.20, E-value FT 7.6e-11" FT /gene="YPMT1.51c" FT /product="putative exonuclease" FT /colour=2 FT /class="2.2.03" FT misc_feature complement(52652..53557) FT /note="Pfam match to entry PF01367 5_3_exonuclease, 5'-3' FT exonuclease, score -16.20, E-value 7.6e-11" FT /colour=0 FT RBS complement(53568..53572) FT /note="possible RBS" FT CDS complement(53621..54649) FT /note="YPMT1.52c, hypothetical protein, len: 342 aa; FT unknown function, identical to ORF Y1110 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (359 aa), fasta scores; opt: 2214 FT z-score: 2315.7 E(): 0, 100.0% identity in 342 aa overlap FT which has a different putative start codon / TR:O68766 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (342 aa) (100.0% FT identity in 342 aa overlap)" FT /gene="YPMT1.52c" FT /product="hypothetical protein YPMT1.52c" FT /colour=8 FT /class="0.0.0" FT RBS complement(54656..54660) FT /note="possible RBS" FT CDS complement(54769..55242) FT /note="YPMT1.53c, hypothetical protein, len: 157 aa; FT unknown function, highly similar to ORF Y1109 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (157 aa), fasta FT scores; opt: 981 z-score: 1141.4 E(): 0, 98.7% identity in FT 157 aa overlap / TR:O68767 (EMBL:AF053947) from Y.pestis FT KIM5 pMT1 (143 aa) (99.3% identity in 143 aa overlap) FT which has a different putative start codon. Contains FT probable coiled-coil from 43 to 83 (41 residues) (Max FT score: 1.683, probability 1.00)" FT /gene="YPMT1.53c" FT /product="hypothetical protein YPMT1.53c" FT /colour=8 FT /class="0.0.0" FT misc_feature 55020 FT /note="difference: C is A in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT misc_feature 55208 FT /note="difference: G is T in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT CDS 55745..56308 FT /note="YPMT1.54, hypothetical protein, len: 187 aa; FT unknown function, identical to ORF Y1108 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (187 aa), fasta scores; opt: 1224 FT z-score: 1434.0 E(): 0, 100.0% identity in 187 aa overlap FT / TR:O68768 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (187 FT aa) (100.0% identity in 187 aa overlap). Contains probable FT helix-turn-helix motif at aa 81-102 (Score 1497, +4.29 FT SD)" FT /gene="YPMT1.54" FT /product="hypothetical protein YPMT1.54" FT /colour=13 FT /class="0.0.0" FT CDS complement(56338..56781) FT /note="YPMT1.55c, hypothetical protein, len: 147 aa; FT unknown function, identical to ORF Y1107 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (147 aa), fasta scores; opt: 942 FT z-score: 1149.0 E(): 0, 100.0% identity in 147 aa overlap FT / TR:O68769 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (147 FT aa) (100.0% identity in 147 aa overlap)" FT /gene="YPMT1.55c" FT /product="hypothetical protein YPMT1.55c" FT /colour=8 FT /class="0.0.0" FT CDS complement(56778..57266) FT /note="YPMT1.56c, probable DNA polymerase III pseudogene, FT len: 489 bp; identical to the C-terminus of putative DNA FT polymerase III, alpha subunit, ORF Y1106 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (1174 aa) / TR:O68770 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (1135 aa). FT YPMT1.89 is the N-terminal region of the same gene" FT /gene="YPMT1.56c" FT /product="putative DNA polymerase III pseudogene" FT /label=pseudo FT /pseudo FT /colour=11 FT /class="2.2.03" FT repeat_unit complement(57266..59220) FT /note="IS100 element" FT /label=IS100 FT misc_feature 57267..81056 FT /note="identical to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF074611) from 74730 to 50942, except where noted" FT /colour=0 FT CDS complement(57333..58115) FT /note="YPMT1.57c, IS100 transposase, len: 260 aa; FT identical many other IS100 transposases e.g. TR:P74994 FT (EMBL:U59875) Yersinia pestis pesticin plasmid putative FT insertion sequence IS100 ORFB (259 aa), fasta scores; opt: FT 1658 z-score: 1841.0 E(): 0, 100.0% identity in 259 aa FT overlap with a different putative start codon and similar FT to Escherichia coli insertion sequence IS21 putative FT ATP-binding protein, IstB SW:ISTB_ECOLI (P15026) (265 aa) FT fasta scores: E(): 0, 47.4% id in 249 aa. Contains PS00017 FT ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.57c" FT /product="insertion sequence IS100, ATP-binding protein" FT /colour=12 FT /class="5.1.4" FT misc_feature complement(57765..57788) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(58112..59134) FT /note="YPMT1.58c, IS100 transposase, len: 340 aa; FT identical to many other IS100 transposases e.g. TR:P74993 FT (EMBL:U59875) Yersinia pestis pesticin plasmid putative FT insertion sequence IS100 ORFA (340 aa), fasta scores; opt: FT 2328 z-score: 2755.3 E(): 0, 100.0% identity in 340 aa FT overlap and similar to Escherichia coli transposase for FT insertion sequence element IS21 IstA SW:ISTA_ECOLI FT (P15025) (390 aa) fasta scores: E(): 3e-27, 33.1% id in FT 329 aa. Contains probable helix-turn-helix motif at aa FT 19-40 (Score 2045, +6.15 SD). Contains Pfam match to entry FT PF00239 recombinase, Site-specific recombinases, score FT 25.70, E-value 4.8e-06" FT /gene="YPMT1.58c" FT /product="transposase for insertion sequence IS100" FT /colour=12 FT /class="5.1.4" FT misc_feature complement(59027..59110) FT /note="Pfam match to entry PF00239 recombinase, FT Site-specific recombinases, score 25.70, E-value 4.8e-06" FT /colour=0 FT misc_feature 59221..81506 FT /note="identical to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF053947) from 100984 to 79151, except where noted" FT /colour=0 FT CDS complement(59258..61267) FT /note="YPMT1.59c, possible DNA-binding protein, len: 669 FT aa; unknown function, similar to many hypothetical FT proteins e.g. TR:O82909 (EMBL:AB011549) Escherichia coli FT hypothetical protein from plasmid pO157 (652 aa), fasta FT scores; opt: 2220 z-score: 2530.2 E(): 0, 52.9% identity FT in 660 aa overlap. Identical to ORF Y1092 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (669 aa) (100.0% identity in 669 FT aa overlap) / TR:O68794 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (669 aa) (100.0% identity in 669 aa overlap). FT Contains probable helix-turn-helix motif at aa 156-177 FT (Score 1078, +2.86 SD). Contains a {gct}4 repeat" FT /gene="YPMT1.59c" FT /product="putative DNA-binding protein" FT /label=YPMT1.59c FT /colour=13 FT /class="7.0.0" FT CDS complement(61340..61570) FT /note="YPMT1.60c, conserved hypothetical protein, len: 76 FT aa; unknown function, similar to e.g. ORF L7085 FT (EMBL:AF074613) Escherichia coli hypothetical protein from FT plasmid pO157 (86 aa), fasta scores; opt: 318 z-score: FT 470.3 E(): 6.8e-19, 62.3% identity in 77 aa overlap and FT YKFF_ECOLI (EMBL:AE000133) Escherichia coli hypothetical FT protein (79 aa) (55.4% identity in 74 aa overlap). FT Identical to ORF Y1091 (EMBL:AF074611) from Y.pestis KIM5 FT pMT1 (76 aa) (100.0% identity in 76 aa overlap) / FT TR:O68793 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (76 aa) FT (100.0% identity in 76 aa overlap)" FT /gene="YPMT1.60c" FT /product="hypothetical protein YPMT1.60c" FT /colour=10 FT /class="0.0.1" FT misc_feature 61892 FT /note="difference: C is absent from EMBL:AF053947" FT /colour=2 FT misc_feature 61939 FT /note="difference: G is C in EMBL:AF053947" FT /colour=2 FT misc_feature 61942..61946 FT /note="difference: CGGAG is ATTGT in EMBL:AF053947" FT /colour=2 FT CDS complement(62283..62789) FT /note="YPMT1.61c, probable antirestriction protein, len: FT 168 aa; similar to TR:Q52021 (EMBL:U72482), ardA, FT Escherichia coli antirestriction protein from plasmid FT pKM101 (169 aa), fasta scores; opt: 698 z-score: 847.0 FT E(): 0, 59.8% identity in 164 aa overlap. Identical to ORF FT Y1090 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (168 aa) FT (100.0% identity in 168 aa overlap) / TR:O68792 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (168 aa) (100.0% FT identity in 168 aa overlap)" FT /gene="YPMT1.61c" FT /product="putative antirestriction protein" FT /colour=2 FT /class="2.2.03" FT repeat_unit 62824..62854 FT /note="repeat 1; 31 bp imperfect inverted repeat" FT misc_feature 62994 FT /note="difference: T is C in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT repeat_unit complement(63038..63068) FT /note="repeat 1; 31 bp imperfect inverted repeat" FT CDS complement(63188..63967) FT /note="YPMT1.62c, conserved hypothetical protein, len: 259 FT aa; unknown function, similar to TR:O82899 (EMBL:AB011549) FT Escherichia coli hypothetical protein from plasmid pO157 FT (258 aa), fasta scores; opt: 998 z-score: 1227.5 E(): 0, FT 59.3% identity in 258 aa overlap. Identical to ORF Y1088 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (259 aa) (100.0% FT identity in 259 aa overlap) / TR:O68791 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (259 aa) (100.0% identity in 259 FT aa overlap)" FT /gene="YPMT1.62c" FT /product="hypothetical protein YPMT1.62c" FT /colour=10 FT /class="0.0.2" FT CDS complement(64021..64512) FT /note="YPMT1.63c, conserved hypothetical protein, len: 163 FT aa; unknown function, similar to TR:O82898 (EMBL:AB011549) FT Escherichia coli hypothetical protein from plasmid pO157 FT (184 aa), opt: 587 z-score: 704.6 E(): 6.2e-32, 53.3% FT identity in 169 aa overlap. Identical to ORF Y1087 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (163 aa) (100.0% FT identity in 163 aa overlap) / TR:O68790 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (139 aa) (100.0% identity in 139 FT aa overlap) which has a different putative start codon" FT /gene="YPMT1.63c" FT /product="hypothetical protein YPMT1.63c" FT /colour=10 FT /class="0.0.1" FT CDS complement(64451..64672) FT /note="YPMT1.63Ac, conserved hypothetical protein, len: 73 FT aa; unknown function, similar to TR:AAD47179 FT (EMBL:AF106329) Escherichia coli hypothetical protein from FT the F plasmid (73 aa), fasta scores; opt: 400 z-score: FT 634.7 E(): 5.7e-28, 82.2% identity in 73 aa overlap and to FT TR:Q9Z4D9 (EMBL:AB021078), yceA, Escherichia coli FT hypothetical protein from plasmid IncI1 ColIb-P9 (73 aa), FT fasta scores opt: 368 z-score: 585.5 E(): 3.1e-25, 75.3% FT identity in 73 aa overlap. Identical to ORF Y1086 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (100.0% identity FT in 73 aa overlap)" FT /gene="YPMT1.63Ac" FT /product="hypothetical protein YPMT1.63Ac" FT /colour=10 FT /class="0.0.1" FT CDS complement(64672..65349) FT /note="YPMT1.64c, possible DNA methylase, len: 225 aa; FT similar to many e.g. MT22_STRPN (EMBL:M14339), DpnA, FT Streptococcus pneumoniae modification methylase FT (adenine-specific) (268 aa), fasta scores; opt: 189 FT z-score: 238.7 E(): 5.4e-06, 27.1% identity in 240 aa FT overlap. Identical to ORF Y1085 (EMBL:AF074611) from FT Y.pestis KIM5 pMT1 (225 aa) (100.0% identity in 225 aa FT overlap) / TR:O68789 (EMBL:AF053947) from Y.pestis KIM5 FT pMT1 (213 aa) (100.0% identity in 213 aa overlap). FT Contains PS00092 N-6 Adenine-specific DNA methylases FT signature" FT /gene="YPMT1.64c" FT /product="putative DNA methylase" FT /colour=2 FT /class="2.2.03" FT misc_feature complement(65260..65280) FT /note="PS00092 N-6 Adenine-specific DNA methylases FT signature" FT /colour=8 FT repeat_unit 65383..65408 FT /note="repeat 2; 26 bp imperfect inverted repeat" FT repeat_unit complement(65591..65616) FT /note="repeat 2; 26 bp imperfect inverted repeat" FT CDS 65742..66050 FT /note="YPMT1.65, hypothetical protein, len: 102 aa; FT unknown function, identical to ORF Y1083 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (102 aa), fasta scores; opt: 674 FT z-score: 874.5 E(): 0, 100.0% identity in 102 aa overlap" FT /gene="YPMT1.65" FT /product="hypothetical protein YPMT1.65" FT /colour=8 FT /class="0.0.0" FT CDS complement(66212..67609) FT /note="YPMT1.66c, possible DNA-binding protein, len: 465 FT aa; unknown function, identical to ORF Y1080 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (465 aa), fasta FT scores; opt: 3044 z-score: 3505.7 E(): 0, 100.0% identity FT in 465 aa overlap. Contains probable helix-turn-helix FT motif at aa 162-183 (Score 1554, +4.48 SD). Contains FT PS00017 ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.66c" FT /product="putative DNA-binding protein" FT /colour=13 FT /class="7.0.0" FT misc_feature complement(67415..67438) FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS complement(67988..68959) FT /note="YPMT1.67c, parB, probable partitioning protein B, FT len: 323 aa; similar to e.g. PARB_ECOLI (EMBL:X02954), FT ParB, Escherichia coli plasmid partition ParB protein from FT plasmid P1 (343 aa), fasta scores; opt: 725 z-score: 818.2 FT E(): 0, 44.4% identity in 302 aa overlap. Also similar to FT VIRB_SHIFL (EMBL:X14340), VirB, InvE, Shigella flexneri FT virulence regulon transcriptional activator from plasmid FT pWR100 (309 aa) (43.1% identity in 297 aa overlap). FT Identical to ParB (EMBL:AF074611) from Y.pestis KIM5 pMT1 FT (323 aa) (100.0% identity in 323 aa overlap) / TR:O68788 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (323 aa) (100.0% FT identity in 323 aa overlap). Contains probable coiled-coil FT from 203 to 236 (34 residues) (Max score: 1.447, FT probability 0.87)" FT /gene="YPMT1.67c" FT /gene="parB" FT /product="putative partitioning protein B" FT /colour=2 FT /class="2.2.03" FT CDS complement(68956..70161) FT /note="YPMT1.68c, parA, probable partitioning protein A, FT len: 401 aa; similar to PARA_ECOLI (EMBL:K02380), ParA, FT Escherichia coli plasmid partition parA protein from FT plasmid P1 (398 aa), fasta scores; opt: 1566 z-score: FT 1814.5 E(): 0, 57.4% identity in 394 aa overlap. Identical FT to ParA (EMBL:AF074611) from Y.pestis KIM5 pMT1 (424 aa) FT (100.0% identity in 401 aa overlap) which has a different FT putative start codon / TR:O68787 (EMBL:AF053947) from FT Y.pestis KIM5 pMT1 (401 aa) (100.0% identity in 401 aa FT overlap). Contains Pfam match to entry PF00991 ParA, ParA FT family ATPase, score 30.80, E-value 3.3e-06" FT /gene="YPMT1.68c" FT /gene="parA" FT /product="putative partitioning protein A" FT /colour=2 FT /class="2.2.03" FT misc_feature complement(69217..69528) FT /note="Pfam match to entry PF00991 ParA, ParA family FT ATPase, score 30.80, E-value 3.3e-06" FT /colour=0 FT CDS 70463..70690 FT /note="YPMT1.68A, hypothetical protein, len: 75 aa; FT unknown function, identical to ORF Y1075 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (81 aa), but with a different FT putative start codon, fasta scores; opt: 455 z-score: FT 626.1 E(): 1.7e-27, 100.0% identity in 75 aa overlap" FT /gene="YPMT1.68A" FT /product="hypothetical protein YPMT1.68A" FT /colour=8 FT /class="0.0.0" FT CDS 70690..71016 FT /note="YPMT1.69, hypothetical protein, len: 108 aa; FT unknown function, identical to ORF Y1074 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (108 aa), fasta scores; opt: 722 FT z-score: 914.3 E(): 0, 100.0% identity in 108 aa overlap" FT /gene="YPMT1.69" FT /product="hypothetical protein YPMT1.69" FT /colour=8 FT /class="0.0.0" FT CDS 71216..71836 FT /note="YPMT1.70, probable resolvase, len: 206 aa; similar FT to many e.g. PAA4_ECOLI (EMBL:M59825), parA, Escherichia FT coli partition resolvase from plasmid INCP-beta RP4 (219 FT aa), fasta scores; opt: 396 z-score: 474.0 E(): 4.2e-19, FT 39.4% identity in 198 aa overlap. Identical to ORF Y1073 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (206 aa) (100.0% FT identity in 206 aa overlap). Contains probable FT helix-turn-helix motif at aa 182-203 (Score 1811, +5.36 FT SD). Contains Pfam match to entry PF00239 recombinase, FT Site-specific recombinases, score 86.80, E-value 4.5e-23, FT PS00397 Site-specific recombinases active site and PS00398 FT Site-specific recombinases signature 2" FT /gene="YPMT1.70" FT /product="putative resolvase" FT /colour=2 FT /class="2.2.03" FT misc_feature 71225..71812 FT /note="Pfam match to entry PF00239 recombinase, FT Site-specific recombinases, score 86.80, E-value 4.5e-23" FT /colour=0 FT misc_feature 71231..71257 FT /note="PS00397 Site-specific recombinases active site" FT /colour=8 FT misc_feature 71399..71437 FT /note="PS00398 Site-specific recombinases signature 2" FT /colour=8 FT CDS 71857..72843 FT /note="YPMT1.71, conserved hypothetical protein, len: 328 FT aa; similar to YADD/YFAD/YHGA/YJIP family e.g. YHGA_ECOLI FT (EMBL:U18997), yhgA, Escherichia coli hypothetical protein FT (292 aa), fasta scores; opt: 1001 z-score: 1151.9 E(): 0, FT 50.5% identity in 309 aa overlap. Identical to ORF Y1072 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (328 aa) (99.7% FT identity in 328 aa overlap) / TR:O68786 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (285 aa) (100.0% identity in 285 FT aa overlap) which has a different putative start codon" FT /gene="YPMT1.71" FT /product="hypothetical protein YPMT1.71" FT /colour=10 FT /class="0.0.2" FT CDS complement(72866..73141) FT /note="YPMT1.72c, hypothetical protein, len: 91 aa; FT unknown function, identical to ORF Y1071 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (96 aa), fasta scores; opt: 605 FT z-score: 787.0 E(): 0, 100.0% identity in 91 aa overlap / FT TR:O68785 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (63 aa) FT (100.0% identity in 63 aa overlap) which have different FT putative start codons" FT /gene="YPMT1.72c" FT /product="hypothetical protein YPMT1.72c" FT /colour=8 FT /class="0.0.0" FT RBS complement(73150..73154) FT /note="possible RBS" FT repeat_unit 73165..73200 FT /note="repeat 3; 36 bp imperfect inverted repeat" FT misc_feature 73419 FT /note="difference: A is absent from EMBL:AF053947 and from FT EMBL:AF074611" FT /colour=2 FT repeat_unit complement(73437..73472) FT /note="repeat 3; 36 bp imperfect inverted repeat" FT CDS 73881..74369 FT /note="YPMT1.73, conserved hypothetical protein, len: 162 FT aa; similar to possible endonucleases e.g. TR:Q46707 FT (EMBL:U09868), nuc, Escherichia coli ORF from plasmid FT pKM101 (177 aa), fasta scores; opt: 380 z-score: 484.0 FT E(): 1.2e-19, 38.1% identity in 155 aa overlap and FT TR:O07482 (EMBL:Y13308), nuc, Yersinia enterocolitica ORF FT (181 aa) (37.8% identity in 164 aa overlap). Identical to FT ORF Y1070 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (162 aa) FT (100.0% identity in 162 aa overlap)" FT /gene="YPMT1.73" FT /product="hypothetical protein YPMT1.73" FT /colour=10 FT /class="0.0.2" FT RBS 74595..74599 FT /note="possible RBS" FT CDS 74612..76210 FT /note="YPMT1.74, ymt, murine toxin, len: 532 aa; similar FT to TR:Q56977 (EMBL:X92727), ymt, Yersinia pestis murine FT toxin from plasmid pFRA (531 aa), fasta scores; opt: 3587 FT z-score: 4109.7 E(): 0, 99.6% identity in 532 aa overlap. FT Identical to ymt (EMBL:AF074611) from Y.pestis KIM5 pMT1 FT (587 aa) (100.0% identity in 532 aa overlap) which has a FT different putative start codon / TR:O68784 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (532 aa) (100.0% identity in 532 FT aa overlap). Contains Pfam match to entry PF00614 PLDc, FT Phospholipase D. Active site motif, score 20.90, E-value FT 0.029" FT /gene="YPMT1.74" FT /gene="ymt" FT /product="murine toxin" FT /colour=7 FT /class="1.4.2" FT misc_feature 76004..76087 FT /note="Pfam match to entry PF00614 PLDc, Phospholipase D. FT Active site motif, score 20.90, E-value 0.029" FT /colour=0 FT CDS complement(76455..76925) FT /note="YPMT1.75c, conserved hypothetical protein, len: 156 FT aa; similar to ORFs within group II introns e.g. the FT N-terminus of TR:Q46033 (EMBL:X98606) Clostridium FT difficile ORF (609 aa), fasta scores; opt: 344 z-score: FT 429.5 E(): 1.3e-16, 41.9% identity in 148 aa overlap, some FT of which have been shown to have reverse-transcriptase FT and/or RNA maturase activities. Identical to ORF Y1068 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (156 aa) (99.4% FT identity in 156 aa overlap) / TR:O68783 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (151 aa) (100.0% identity in 151 FT aa overlap) which has a different putative start codon" FT /gene="YPMT1.75c" FT /product="hypothetical protein YPMT1.75c" FT /colour=10 FT /class="0.0.2" FT CDS 76996..77304 FT /note="YPMT1.76, conserved hypothetical protein, len: 102 FT aa; unknown function, similar to TR:P71290 (EMBL:U70214) FT Escherichia coli chromosomal hypothetical protein (102 FT aa), fasta scores; opt: 586 z-score: 814.4 E(): 0, 85.3% FT identity in 102 aa overlap Identical to ORFY1067 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (102 aa) (100.0% FT identity in 102 aa overlap)" FT /gene="YPMT1.76" FT /product="hypothetical protein YPMT1.76" FT /colour=10 FT /class="0.0.1" FT CDS 77219..77590 FT /note="YPMT1.76A, conserved hypothetical protein, len: 123 FT aa; unknown function, similar to TR:P71289 (EMBL:U70214) FT Escherichia coli chromosomal hypothetical protein (145 FT aa), fasta scores; opt: 742 z-score: 992.9 E(): 0, 87.0% FT identity in 123 aa overlap. Identical to ORF Y1066 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (131 aa), but with FT a different putative start codon, fasta scores; opt: 842 FT z-score: 1125.6 E(): 0, 100.0% identity in 123 aa overlap" FT /gene="YPMT1.76A" FT /product="hypothetical protein YPMT1.76A" FT /colour=10 FT /class="0.0.1" FT CDS complement(77583..77666) FT /note="YPMT1.77c, possible transposase remnant, len: 28 FT aa; similar to many transposases e.g. YIS2_SHISO FT (EMBL:X05952) Shigella sonnei insertion element IS600 FT hypothetical 31 kD protein (272 aa)" FT /gene="YPMT1.77c" FT /colour=11 FT /class="5.1.4" FT /partial FT CDS 77764..78087 FT /note="YPMT1.78, possible pseudogene, len: 324 bp; similar FT to part of YADD/YFAD/YHGA/YJIP family members e.g. FT YHGA_ECOLI (EMBL:U18997), YhgA, Escherichia coli FT hypothetical protein (292 aa)" FT /gene="YPMT1.78" FT /product="putative pseudogene" FT /label=pseudo FT /colour=11 FT /pseudo FT /class="7.0.0" FT CDS complement(78286..79308) FT /note="YPMT1.79c, probable transposase, len: 354 aa; FT similar to many e.g. TRA8_YEREN (EMBL:Z48244) Yersinia FT enterocolitica transposase for insertion sequence element FT IS1328 (334 aa), fasta scores; opt: 778 z-score: 897.6 FT E(): 0, 36.3% identity in 333 aa overlap. Identical to ORF FT Y1063 (EMBL:AF074611) from Y.pestis KIM5 pMT1 (354 aa) FT (100.0% identity in 340 aa overlap) which has a different FT putative start codon / TR:O68780 (EMBL:AF053947) from FT Y.pestis KIM5 pMT1 (340 aa) (100.0% identity in 340 aa FT overlap). Contains probable helix-turn-helix motif at aa FT 240-261 (Score 1094, +2.91 SD)" FT /gene="YPMT1.79c" FT /product="putative transposase" FT /colour=12 FT /class="5.1.4" FT RBS complement(79317..79321) FT /note="possible RBS" FT repeat_unit complement(79734..81056) FT /note="IS285 element" FT /label=IS285 FT CDS complement(79777..80985) FT /note="YPMT1.80c, probable transposase, len: 402 aa; FT similar to many e.g. TR:Q45111 (EMBL:U44828) Burkholderia FT cepacia IS402/IS1356 hybrid insertion sequence transposase FT (419 aa), fasta scores; opt: 1293 z-score: 1512.0 E(): 0, FT 47.5% identity in 394 aa overlap. Identical to ORF Y1062 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (402 aa) (100.0% FT identity in 402 aa overlap) / TR:O68779 (EMBL:AF053947) FT from Y.pestis KIM5 pMT1 (402 aa) (100.0% identity in 402 FT aa overlap). Contains Pfam match to entry PF00872 FT Transpo_mutator, Transposase, Mutator family, score FT 430.40, E-value 1.6e-125 and PS01007 Transposases, Mutator FT family, signature" FT /gene="YPMT1.80c" FT /product="transposase for the IS285 insertion element" FT /colour=12 FT /class="5.1.4" FT misc_feature complement(79849..80985) FT /note="Pfam match to entry PF00872 Transpo_mutator, FT Transposase, Mutator family, score 430.40, E-value FT 1.6e-125" FT /colour=0 FT misc_feature complement(80218..80292) FT /note="PS01007 Transposases, Mutator family, signature" FT /colour=8 FT misc_feature 81056..96180 FT /note="identical to Y.pestis KIM5 plasmid pMT1 FT (EMBL:AF053947) from 72482 to 57357, and to Y.pestis KIM5 FT plasmid pMT1 (EMBL:AF074611) from 76840 to 91965, except FT where noted" FT /colour=0 FT CDS complement(81334..82257) FT /note="YPMT1.81c, caf1R, probable F1 operon positive FT regulatory protein, len: 307 aa; highly similar to FT CAFR_YERPE (EMBL:X61996), Caf1R, F1 operon positive FT regulatory protein from Yersinia pestis plasmid pFRA (301 FT aa), fasta scores; opt: 2016 z-score: 2508.4 E(): 0, 99.3% FT identity in 301 aa overlap. Identical to Caf1R FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (307 aa) (99.7% FT identity in 307 aa overlap) / Caf1R (EMBL:AF053947) from FT Y.pestis KIM5 pMT1 (301 aa) (100.0% identity in 301 aa FT overlap) which has a different putative start codon. FT Contains Pfam match to entry PF00165 HTH_2, Bacterial FT regulatory helix-turn-helix proteins, araC family, score FT 116.30, E-value 5.9e-31 and PS00041 Bacterial regulatory FT proteins, araC family signature" FT /gene="caf1R" FT /gene="YPMT1.81c" FT /product="putative F1 operon positive regulatory protein" FT /colour=9 FT /class="6.1.1" FT misc_feature complement(81916..82176) FT /note="Pfam match to entry PF00165 HTH_2, Bacterial FT regulatory helix-turn-helix proteins, araC family, score FT 116.30, E-value 5.9e-31" FT /colour=0 FT misc_feature complement(81937..82074) FT /note="PS00041 Bacterial regulatory proteins, araC family FT signature" FT /colour=8 FT RBS 82553..82558 FT /note="possible RBS" FT CDS 82567..83343 FT /note="YPMT1.82, caf1M, probable F1 chaperone protein, FT len: 258 aa; highly similar toCAFM_YERPE (EMBL:X61996) FT Yersinia pestis chaperone protein Caf1M precursor from FT plasmid pFRA (258 aa), fasta scores; opt: 1725 z-score: FT 2033.0 E(): 0, 99.6% identity in 258 aa overlap. Similar FT to MYFB_YEREN (EMBL:Z21953), myfB, Yersinia enterocolitica FT chaperone required for fimbrial biogenesis (267 aa) (37.9% FT identity in 253 aa overlap) and PSAB_YERPE (EMBL:X97759), FT psaB, Yersina pseudotuberculosis chaperone required for FT fimbrial biogenesis (273 aa) (41.4% identity in 261 aa FT overlap). Identical to Caf1M (EMBL:AF074611) from Y.pestis FT KIM5 pMT1 (269 aa) (100.0% identity in 258 aa overlap) FT which has a different putative start codon / TR:O68774 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (258 aa) (100.0% FT identity in 258 aa overlap). Contains Pfam match to entry FT PF00345 pili_assembly, Gram-negative pili assembly FT chaperone, score 366.40, E-value 4.3e-107 and PS00635 FT Gram-negative pili assembly chaperone signature" FT /gene="caf1M" FT /gene="YPMT1.82" FT /product="putative F1 chaperone protein" FT /colour=0 FT /class="1.3.1" FT misc_feature 82690..83304 FT /note="Pfam match to entry PF00345 pili_assembly, FT Gram-negative pili assembly chaperone, score 366.40, FT E-value 4.3e-107" FT /colour=0 FT misc_feature 82894..82947 FT /note="PS00635 Gram-negative pili assembly chaperone FT signature" FT /colour=8 FT CDS 83368..85869 FT /note="YPMT1.83, caf1A, probable F1 capsule anchoring FT protein, len: 833 aa; highly similar to CAFA_YERPE FT (EMBL:X61996) Yersinia pestis F1 capsule anchoring protein FT from plasmid pFRA (833 aa), fasta scores; opt: 5556 FT z-score: 6311.1 E(): 0, 99.4% identity in 833 aa overlap. FT Similar to PSAC_YERPS (EMBL:L76301), PsaC, Yersina FT pseudotuberculosis outer membrane usher protein (823 aa) FT (40.1% identity in 826 aa overlap) and MYFC_YEREN FT (EMBL:Z21953), myfC, Yersinia enterocolitica outer FT membrane usher protein (841 aa) (41.0% identity in 835 aa FT overlap). Identical to Caf1A (EMBL:AF074611) from Y.pestis FT KIM5 pMT1 (833 aa) (100.0% identity in 833 aa overlap) / FT TR:O68773 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (833 aa) FT (100.0% identity in 833 aa overlap). Contains Pfam match FT to entry PF00577 Usher, Fimbrial Usher proteins, score FT 1369.40, E-value 0 and PS01151 Fimbrial biogenesis outer FT membrane usher protein signature" FT /gene="caf1A" FT /gene="YPMT1.83" FT /product="putative F1 capsule anchoring protein" FT /label=caf1A FT /colour=0 FT /class="1.3.1" FT misc_feature 83437..85809 FT /note="Pfam match to entry PF00577 Usher, Fimbrial Usher FT proteins, score 1369.40, E-value 0" FT /colour=0 FT misc_feature 84247..84279 FT /note="PS01151 Fimbrial biogenesis outer membrane usher FT protein signature" FT /colour=8 FT CDS 85950..86462 FT /note="YPMT1.84, caf1, probable F1 capsule antigen, len: FT 170 aa; identical to CAF1_YERPE (EMBL:X61996) Yersinia FT pestis F1 capsule antigen from plasmid pFRA (170 aa), FT fasta scores; opt: 1050 z-score: 1191.5 E(): 0, 100.0% FT identity in 170 aa overlap. Identical to Caf1 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (170 aa) (100.0% FT identity in 170 aa overlap) / Caf1 (EMBL:AF053947) from FT Y.pestis KIM5 pMT1 (170 aa) (100.0% identity in 170 aa FT overlap)" FT /gene="caf1" FT /gene="YPMT1.84" FT /product="putative F1 capsule antigen" FT /colour=0 FT /class="1.3.1" FT CDS 87147..88325 FT /note="YPMT1.85, possible integrase, len: 392 aa; weakly FT similar to INTA_ECOLI (EMBL:U03737), intA, Escherichia FT coli prophage CP4-57 integrase (413 aa), fasta scores; FT opt: 210 z-score: 255.3 E(): 6.4e-07, 22.1% identity in FT 263 aa overlap. Identical to ORF Y1101 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (392 aa) (99.7% identity in 392 aa FT overlap). Contains probable coiled-coil from 434 to 465 FT (32 residues) (Max score: 1.490, probability 0.94). FT Contains Pfam match to entry PF00589 Phage_integrase, FT 'Phage' integrase family, score 29.10, E-value 7.9e-07" FT /gene="YPMT1.85" FT /product="putative integrase" FT /colour=10 FT /class="0.0.2" FT misc_feature 87648..88199 FT /note="Pfam match to entry PF00589 Phage_integrase, FT 'Phage' integrase family, score 29.10, E-value 7.9e-07" FT /colour=0 FT CDS complement(88320..88706) FT /note="YPMT1.86c, hypothetical protein, len: 128 aa; FT unknown function, identical to ORF Y1102 (EMBL:AF074611) FT from Y.pestis KIM5 pMT1 (128 aa), fasta scores; opt: 801 FT z-score: 1004.7 E(): 0, 100.0% identity in 128 aa overlap" FT /gene="YPMT1.86c" FT /product="hypothetical protein YPMT1.86c" FT /colour=8 FT /class="0.0.0" FT CDS 88969..89181 FT /note="YPMT1.86A, hypothetical protein, len: 70 aa; FT unknown function" FT /gene="YPMT1.86A" FT /product="hypothetical protein YPMT1.86A" FT /colour=8 FT /class="0.0.0" FT CDS 89291..91657 FT /note="YPMT1.87, possible porphyrin biosynthetic protein, FT len: 788 aa; weakly similar to COBT_PSEDE (EMBL:M62869), FT CobT, Pseudomonas denitrificans cobalamin biosynthesis FT protein (631 aa), fasta scores; opt: 279 z-score: 262.6 FT E(): 2.5e-07, 26.3% identity in 407 aa overlap. Identical FT to CobT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (788 aa) FT (100.0% identity in 788 aa overlap) / TR:O68772 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (784 aa) (100.0% FT identity in 784 aa overlap) which has a different putative FT start codon" FT /gene="YPMT1.87" FT /product="putative porphyrin biosynthetic protein" FT /colour=7 FT /class="3.2.06" FT misc_feature 91670..91671 FT /note="difference: A is present in EMBL:AF053947 and in FT EMBL:AF074611" FT /colour=2 FT CDS 91754..92989 FT /note="YPMT1.88, possible porphyrin biosynthetic protein, FT len: 411 aa; weakly similar to COBS_PSEDE (EMBL:M62869), FT CobS, Pseudomonas denitrificans cobalamin biosynthesis FT protein (332 aa), fasta scores; opt: 384 z-score: 453.4 FT E(): 6e-18 28.6% identity in 308 aa overlap. Identical to FT CobS (EMBL:AF074611) from Y.pestis KIM5 pMT1 (411 aa) FT (100.0% identity in 411 aa overlap) / TR:O68771 FT (EMBL:AF053947) from Y.pestis KIM5 pMT1 (411 aa) (100.0% FT identity in 411 aa overlap). Contains PS00017 FT ATP/GTP-binding site motif A (P-loop)" FT /gene="YPMT1.88" FT /product="putative porphyrin biosynthetic protein" FT /colour=7 FT /class="3.2.06" FT misc_feature 92276..92299 FT /note="PS00017 ATP/GTP-binding site motif A (P-loop)" FT /colour=8 FT CDS 93170..96208 FT /note="YPMT1.89, probable DNA polymerase III pseudogene, FT len: 3039 bp; identical to the N-terminal region of FT putative DNA polymerase III, alpha subunit, ORF Y1106 FT (EMBL:AF074611) from Y.pestis KIM5 pMT1 (1174 aa) / FT TR:O68770 (EMBL:AF053947) from Y.pestis KIM5 pMT1 (1135 FT aa). YPMT1.56c is the C-terminus of the same gene" FT /gene="YPMT1.89" FT /product="putative DNA polymerase III pseudogene" FT /label=pseudo FT /colour=11 FT /pseudo FT /class="7.0.0" >plasmidC.seq TGTAACGAACGGTGCAATAGTGATCCACACCCAACGCCTGAAATCAGATCCAGGGGGTAA TCTGCTCTCCTGATTCAGGAGAGTTTATGGTCACTTTTGAGACAGTTATGGAAATTAAAA TCCTGCACAAGCAGGGAATGAGTAGCCGGGCGATTGCCAGAGAACTGGGGATCTCCCGCA ATACCGTTAAACGTTATTTGCAGGCAAAATCTGAGCCGCCAAAATATACGCCGCGACCTG CTGTTGCTTCACTCCTGGATGAATACCGGGATTATATTCGTCAACGCATCGCCGATGCTC ATCCTTACAAAATCCCGGCAACGGTAATCGCTCGCGAGATCAGAGACCAGGGATATCGTG GCGGAATGACCATTCTCAGGGCATTCATTCGTTCTCTCTCGGTTCCTCAGGAGCAGGAGC CTGCCGTTCGGTTCGAAACTGAACCCGGACGACAGATGCAGGTTGACTGGGGCACTATGC GTAATGGTCGCTCACCGCTTCACGTGTTCGTTGCTGTTCTCGGATACAGCCGAATGCTGT ACATCGAATTCACTGACAATATGCGTTATGACACGCTGGAGACCTGCCATCGTAATGCGT TCCGCTTCTTTGGTGGTGTGCCGCGCGAAGTGTTGTATGACAATATGAAAACTGTGGTTC TGCAACGTGACGCATATCAGACCGGTCAGCACCGGTTCCATCCTTCGCTGTGGCAGTTCG GCAAGGAGATGGGCTTCTCTCCCCGACTGTGTCGCCCCTTCAGGGCACAGACTAAAGGTA AGGTGGAACGGATGGTGCAGTACACCCGTAACAGTTTTTACATCCCACTAATGACTCGCC TGCGCCCGATGGGGATCACTGTCGATGTTGAAACAGCCAACCGCCACGGTCTGCGCTGGC TGCACGATGTCGCTAACCAACGAAAGCATGAAACAATCCAGGCCCGTCCCTGCGATCGCT GGCTCGAAGAGCAGCAGTCCATGCTGGCACTGCCTCCGGAGAAAAAAGAGTATGACGTGC ATCTTGATGAAAATCTGGTGAACTTCGACAAACACCCCCTGCATCATCCACTCTCCATCT ACGACTCATTCTGCAGAGGAGTGGCGTGATGATGGAACTGCAACATCAACGACTGATGGC GCTCGCCGGGCAGTTGCAACTGGAAAGCCTTATAAGCGCAGCGCCTGCGCTGTCACAACA GGCAGTAGACCAGGAATGGAGTTATATGGACTTCCTGGAGCATCTGCTTCATGAAGAAAA ACTGGCACGTCATCAACGTAAACAGGCGATGTATACCCGAATGGCAGCCTTCCCGGCGGT GAAAACGTTCGAAGAGTATGACTTCACATTCGCCACCGGAGCACCGCAGAAGCAACTCCA GTCGTTACGCTCACTCAGCTTCATAGAACGTAATGAAAATATCGTATTACTGGGGCCATC AGGTGTGGGGAAAACCCATCTGGCAATAGCGATGGGCTATGAAGCAGTCCGTGCAGGTAT CAAAGTTCGCTTCACAACAGCAGCAGATCTGTTACTTCAGTTATCTACGGCACAACGTCA GGGCCGTTATAAAACGACGCTTCAGCGTGGAGTAATGGCCCCCCGCCTGCTCATCATTGA TGAAATAGGCTATCTGCCGTTCAGTCAGGAAGAAGCAAAGCTGTTCTTCCAGGTCATCGC TAAACGTTACGAAAAGAGCGCAATGATCCTGACATCCAATCTGCCGTTCGGGCAGTGGGA TCAAACGTTCGCCGGTGATGCAGCACTGACCTCAGCGATGCTGGACCGTATCTTACACCA CTCACATGTCGTTCAAATCAAAGGAGAAAGCTATCGACTCAGACAGAAACGAAAGGCCGG GGTTATAGCAGAAGCTAATCCTGAGTAAAACGGTGGATCAATATTGGGCCGTTGGTGGAG ATATAAGTGGATCACTTTTCATCCGTCGTTGACACCCTGATGAATAGTCAAATCGGGATG GCATATTTATATCACATTATATAAATAACTACCTACCTACTTTATTTAATCAAATTTGCC GAATCTTCTTCCTCGTTTCCCAATATCGGCCAGTCAATATCTGGAGCCAACGAAGTATCA ACTCGGTTAAGCAAGACACGGTACTTTTTCAACGCAACCAGTGTTTCCTTTTCTTCATCA GTTGCCATATCCAGATCAATCGCATCTTGAAGCAAGGAAATTTGTTGGCTGACGTTCTTC ATCAGCACCGATTTATTCTGCTCGGCTTCACCGACAAGGGCAGTCTTCTCTGCTTCTTCG TCTTTAACCCAAGCAGAACCATCCCATTTCTGGTATTCCCCGTTTGGAGAGATGTAGGTT ACATTTTCGGGCAACGGGCCAAGTTCAGCGATGAACACCGGTTCACCGGTTTCTGTGCTG TAAAGCGTTTTGCCACGATGATCTTCTTCAAGGCTCCACTCTTGCTTTGTGAAGTCAAAA ACTGCGGCAAACCCTTCCGTAGTCGTCGGTGGTTCAATCTCAGTGCAGTTGGCCGGTAAC CCAGTAAACGGTGGGATATAGGCATCTCCAACTCCGATATATTCATTTGTCCCCTCCAGC AGATTGTACACTTTGAGAGTTCTCGCTTTATCAGTCATTTTGAAAGTCATTTCGTCAACT CCTTTAACGATACAGATTTAAAAGAATGCGCATTAGAATTGTCCCCTGATGTCTCGGACG TGATGCACGCCAACCAAAAGCCTCACAAACTATTGGTAAAAACCTTGCCCGATATATTCA GCATTCGCGCTCCCATCCACCTGACCAAACTGTTCGTAGCACTGACAATGCAGTCAAACT CAGCGCTCGCTTCGAGCGACCTGTAAATTATCTCGACATTTTCGCTATATCCAAATTCAC ATGTACAAGCATCAGCCATTTCTGCAACAGGTGCCGAAAAAACTAATATAATCATGCGAG TCTCACTATGTAGTTATATGCAATGTTTTTCACGGTGTTCTCCGCATTACCACAAGCGGC AATAGTGATAGTGTGTGAGTGCGCCCCAATTGCCACTGAATGCGAGTGTGATCCAATACT CAATGAGTGAGCATGTGCGCCAATACCAACGGTATGGGCATGAGCACCGGCACTGACAGC AGTACCGGAGATTGAGTGGGCATGATCACCTGCACTACTTGTCCAGACATTGAAAGCATT GGCTGTAGTCTGCTGTGTGTTGTATTGCTTACCGACAGCATTCTGGTTCCTCGAATCTGT AGATCTTGGATACTGAGTATGAGCAGTTACCGTATGCGCATGGGCACCTGAACTCGATGT AGAGCCAGACAGCGAGTGTGCATGAGCACCAGTGCTGTTAGACGATTTCGTTCCATAATC GAAGCCACTGGACGTTTTTGTCCCGTAATCAAATGTTGTGGTTGGTTTTGTACCAAGATC TGTACTGGAAGCGGCTGCATTGTGCGCATGTGACTTAATTCCATCTTGCTCCAGTGACAA CACTGCACGAGAAGTTGGTTTACCCTTAATCATCCATCCACGCATGTCAGGTAACACACC TGATGGGTATGCGGCCGCCAGCTTCGGATACACACTCTTGTCAAACGTCTGCCCTTGCAT GATGGCGAAACCAGACGGGGCCACATCGTTCGGCCACGGAATAGGGGCACCTACTGGATA TGACTCAGGCGGTGGTAGAACACTACTGTACAATATATAATTTGCGCCGTTCGTGGAACT TGCAGGTTTGGTCGCCACATACTCTGGTGTGCCGAACAACACTATGCTTGCATTATTTGT ACAATCGCTCAGAGCAATAACATCAATAGAGTACTGTCCAACGTTTACATAAATATCGTA AACATCTCCTGATGTATTTATCCACGCCACCCCTTGAGCACCTGCTGGTGAGCGTTGCCA TAATGTTGCTGTGATGCCAACAGGATTCCAGTTCCCTGATCGCAACACTATTTCGCTTAT CGCTGCCTGGTCATAAAGCCCCGCGTTGTATCCAGCACCTCCAATAAGAGTAATTAAAGC GGTTGAAGCTCCTTGAGGCATTGTTACTGTCGCTAACTTATACCACCCGGATTCCTTAAC AAACGAAATTCTGGCGGAGCTAACTGCACCTATATTTTTCACAAATAATCTTTTGTCAGG AATATCTGCCCCATTCTGGGATTTCTGAATTGAGCCAGCCGCCAGGTTAACCGTATTCAA CAAGCCAAGATAATCAATTACCCCTTGAGGTGAACGACCAGAAAGCGCAGTTAGTGTTCC ATCCAAAGGCTGCTTTCTAGCCAACATGTTCGTAATAGTCGTAGCAAAGTTTGGATCATT GCCTAACGCAGCAGCCAGCTCATTTAACGTATCCAGTGCTTCAGGCGCTGAGCCAACAAG TTGTGCTACTTTTGAAGCCACAAACGCGGCTGTCGCGATCTCACGTCCAGCAGCAGTAAT TGCCGGAGTTGGAGCTGTTGGTGCGCCAGATAGCGCGGGGCTATCTATAGGAGCCTTTAG AGCAACGGCATCCATGACTGTTTTCACAGCTTTTGGTGTAGAGGCAAGAGTTTCACTCTC GCTATCAGTTGCACTACTCAACTGAACAACCCCCTGCTGTGAGGTTGTTGCATCGTTTAC CTTGCTGCCTTCAGCTATTTCCTGAGCTTCGTCTCTAAATCGCTTGGCGTCATCGGCAAA ACCTTGAGCACTTGCGCTAGCACTGTTTGCCTTTTCCGCCTCTGATTTAACCGCCGACAG GAGCTGATCAGATGTTTTCGTGGCTGCTTCTCTTGCCGCTGTATCAGCCGCTGTTTTAGC CTCTTCGCTATACTGAATCGTTGAGTCCCTAGCAGCGAAAACTTCATCTTTCATTCTCGA TACTTCGGCTTTATTGGTATCGACATCATGTCTGGAGGCATCAGCTGATGTGGCATTAGC TGATGCCTCTGCCGCAGCCGCTACAGCGGTATCTTTTGAGGTTCTGGCTTCATTTTCACT ATTGGCTGCCGCTGCTTCTGAAGCAGCAGCAGCCTCTTTAGAGGTCTTGGCTGACTCCGC GTATTGCAATGCTTCTGAGGCGCTATTTGCCGAAGAAGACGCACTTAATGCCGCAGCAGC CTTGCTTTCAGCCGCATTGGTCTCTGACGCGGCAGAATTATCTTCAGATGTTTTAGCCGC AGAGGCACTTGCCTTCGATGAAGCTGCGCTTTCTGCCGCGCCGTGCTCCGATGCTTTTGA TGCAGCGGCACTTAGCTCTGCCGCAGTTTTATACTCAGATGCTGAAGCTGAACTTTGAGC GGCTTCATCTGCTTTTGCTCTTGCTTCTGAAGAGCTTTGCGCCGCAGCTAATGCGCGCTC AGCGGCCTCACGAGCCTTCTCGCCTGCCGCATTAATAGCGTCTGCATTATCCGTATACCA TTTCTGGTTTGCGTTGTGCTCATCGACGATCTGCGTCAGCGACTTCACGGTCACTTCCGT ACCGTCTTCACGCTCAAGCGTTACCTCATCAACTGCCGTCAACCAGCTGCGCATCGTCTT CGAGTCGGCTGACATACGGGTCATAAGCGCGGTAAAACGTGCGCTGAACTGCGTTAAGTC GCCCTCATAGGTTGTGATGATGCGGCACGGAACTTCCTTCTGGGTCTCCCCTGTGTACGG CTCTGCGAGAATCAGACTTGTGTCGCTAATTACGCGCTTAATTTCGTACAACTTGTTGTC AGGGCCGATGACGATCATGCCCGGCAGAACGCCGTTGGCGGTCACATTCCAGTACGTGCC AGTGCCAGAAAGTGCGTCACTTCCCTGTGTAAATGTGATAGTACCTTCCCTGTACCACAT ATTCGCTCCTTGTAAAGGCGGGCATCCCTGCTCGCCATAGGTAATCACTTACTTATTTTT ACCGATATAAAGAAAGATGTCTACCGCCGAGCAGAGCCATCCCCCCACCCGACCTGATAA TTTTTGATTAGCTCAGGATCACACATCTCCAGAATGTCTTTTTTCATCACCCTCTGTCGT TCGTGGGCGCCGAACTTGCGGTCGAACAACGTCTGGGTCATTCTCATCCCTAATTCCTTC AGTTGCTCCTGCGTTACCGGAACATCGTTATTATCCGCATCGGTCCAGAAGAAATTGTCA GGGAGACCGCTTTCCGCTGCTTTAAGCGAGATATCCAAACGTTCTTTGGAAATGTCATTC GCGTCCCAGCGGTGGCCGTTCCATTCGAAATAAACGGTGCGACACTCCTGACGAAGACGC CAGTCATTAATTACTGCCAGTTTCTCAACTTTCAATCTTTCGATGTACTCGCCTTGTTCG GGGTACGGAGCGATACCACCACTGGATTCCGACTCCAGAGCCTCCAGTATTTTCTTGGCC AAAGGTGATGTGTCACTTTCCGACAACGTGTATGGCAAAAACAAAGGGGTTACACCATCG TCCATAACAAGGCCATCAAATTGAATCTCACAAGAGATACCGCCACTAAGACTGCGCACT GCGTTCCTTACAGCAGAGATGACAGGGGTTTCGTCCATAATATCCTTCTCCATTTTTAAG CCTTAAACACCAGAATGAGATAAGGTTCATTCACGCGGTGATCGTATTTACGCTGTCTAT GCCAGGTATAAACATCAACAGTCGCAGACTGACCTGCCGGCAAATTGTAATAACCAAACA AGCCAGATTGATTTTTAGAGCCTTCTCTCATTCCATATATCTGCTGCTTCACTCCATTTA CCGTATACTCGGTAATTCTTGACCATGAGTAGGTGTTAATATCCTCCGATGGCTTGTTAT AGTAGTAACCATTTACCACATAGATAATTCTGGCGAATGTTTGAGGTGCAATATAAATAC TGCTGCCATTAACCATGTAGGCTTTAACAATATCGCCATCAATCTGGTTCGCGTGCAGTT TCCCCAGAATCTGGCAGTTCTGCGCGATGGTGACGTTATTCAGCGTGCCGGAGTTTGCAG CAATATTTCCCCTGAACGTACCGTTGTTGAACTCAGGGCTACCATCTTTGGGGATAATCC AGCCTCTACTGCCTGCGGCGTAATCGTTCGACTGAATGACATTACCAATTTTGGCGTTCG TAATTGTGCCGTCTTTGATATAAGCGCCGTTCATATACGCCACGCTGTTTTCGATGACAA ATGGCGTAGTGATCTTCCCGTTTACGGAGTTGACCAGGCCAAAACGGTCTGCCTGCACCA AAAATTGTGATAAACCGGTACTGTCGATACCCAGCGCGATACCTGCAACGTACTTCTGCC CGCCGCTGGTAGATGTTTCCATCTTCAGCGTCCAGGCAGCAGAAACCTTCTTATCGGTAT CGGCAATCGCCTTCGCTTGCTGCTGAATGAGAGCCGAGTTGCCATCAACTTCAGCCTTAA CCGTATCAATTCTCTTACCGAGAGCACCGTCAGCGTTTGCACGCGCGGTGGCTTCGGATG TGATAGCAGCGTTGATATCTTTGCCGGTCTGAGCCTGGAGATTGGTGATCTGCCCGGCCA GAGCAGAGTCGGCATCGGTACGCGCTTTCGTCTCTGTGTCGACAGCGGCCTTGATGTCCT CTGCCGTCTGAGCCTTCAGCGAGCTGATCTGCGAAGCCAGAGCACCATCTGCATCGGTTC GAGCCTGGGTCTCTTCTGCAACGGCGGCTTTGATATCCTCACCATTCTGTGCCTTCAGTT GGGTAATTTGCTTCGATAGCGCCTCATCCGCTGTGGCTCGGGCAATCTGCTCTTCAGTAA GTGCAGCGCTGATATCACCTTCAACTTTCGCCTGCAACGTGGTGATCTGACGAGAAAGCG TTTCATCCGCAGTCGCACGCGCCTCTTGCTCGGAAACGATTGCCGCTGAAATATCGTCGT TGAGCTGGGCTTCCAGCTTGGAGATATGCGTCGCAATTGTCTTGTCAGCCTCTACGCGAG CCGTTGTCTCTTCCAGAATCGACGCCCGGATGTCCTCACCAATTTCTGCGCGGATTTCTT CCACTTTTGAGGCCATTGCAGACATATCGTCGGCAAACGTCTTCTGAGTGGTTGCGATCT TCGCATTATTGACCATCTGCTTGTGCTGGTCTTCATCCTGACGCAGAGCGAGGTCAATAT TGGTTTTGGCCAGAGCCTCGATATTGGTCGACGCTTCCGCGCTGGCGCGTTCGACTTCGG CAACGGTCTTTTTCATCTCTTCGACGGCGGCAACACTGTCATCGACGGAGGATTTCATTG CCTCAATCTGTTTGGCATTTGCCTTATCACCTTCGACACGGGCTTCACGCTCTTCAGCAA TCAGCGCGGAGGCGTTGTCGAGCGCAGCGTGCGCCGCTTCCACAGCGCCAGCTATGGCTT TGCCCTGCTCGGAAACGGTTTCCTGCAACTCGACCAGAGCCGCATTAGAGTCCTCAACTT GTTGCAGCGCGTCGTTGACCTTGTCCAGCGTGCCAGAGACTTCATTTTTGAGGTCGTTCT GCACCTGCTCAAGCCGACCGCTGGTGTCTTCCAGTTTGCTGTCCAGATCGGCAACGGACT GATCAAGCTCTTTCAGACTCTCTTCCATCTGTTTGTTGATGGCGTCGACCGCATCCTGAG AGGCTTTAGCGTCGATTTCCTCCAGCAGCTCCTGCCCCAGCTCGGAAGAGGTGATCTTCC CGGTAAGGAACGAGAGGACGTCTCGCGTCATCGCTTCCGTACCCAGATTGGAGTTCGGCG GACTTAACATGCCACGCTTGTTCACCGCGCGAACCCAATAGTACCAGGTCTCACTATCTC CCAGACCGGCATGAGTGAACGTGGTGCTGGCGGCCTCTGCAACCAACTTCGCCGTTTCCA GATCGTTGGTCTGGGAGGCATACACGTTGATGTGATCAAGGTCGATTGAGTCCGGGTTGA CCCAATTCAGAATCACGTTGCGGTAGTCACCAACGGCCGTCAGAGAGGTAGGAGAGCCTG GCGGCGTCATCGTACCTTTCACCTGATAAACGGTGCTGATGATGTCCGTTTTCTTGCCGC TGAACGAAACCGCATAGAGCTGAATGTCGTATTGACCATTCTCAGCAATATTGAGGATCT CGAACTGCTCTTCGGTAACGCGTGCGGACTGCCAGTTAGAAACGTTGTTTTCATCGGAAC GACGCCAGCTGATCCAATATTCCGCAGACTTACCCTCCCAGGTGGCTACGAGCTTGATTG AGAGGTTACCCGGACTGGAGATATACGTCCCTTCCGTCACCTGCAGGTTAGTCGGCTTCG AATAAGTCGGGTCGAGAACTGTGTTGTTCTCGGGGATCAGCGTCGCACCGTTGTCGATGG CTTCGTACTTCGATGCATTATTCTGGACAACCGTAACGTTAAACGTCCCCTGAGCCTCGC CCTGGGCAACGTTGATAACACGCACGCGCATTGGCTCCAGATCTGGCTCGGTAATCGTCC AGACGCCATTCATCACCGGCATATCACCGGAATTGAGCGCTTTGGAGAAGGTCACTTTGG TAATGTCTTCCCCGGTCTCAAGAATATCGCGCTCAACGATTTCGCCTTCCTGATTCAAGA TCCGGATGTAGCTACCGGCTTTATTCAGCGTAACCGGTGCGTCGAGAGTGATGCTGTTCT TTGTGAACGCCACAATGCGGCCAGAGTTGCGTTTACCAGCACGGTATTTGTTCTGAATCA GCACCGTTTCACCCGGCATAAGGAAGGAAGCATCAAGCCCTGCCGTAAAGCTGATAACGT CCGACTCCATGCGTGCGGTATACAGCAGCCACAGACCGACACGATGCGCCTGGCCACGGC TTGTACAGCCGAACGCAACCACTTCGGTTTTACGCTCGCCATAACGACGCATCGCCTCCT GGTCTTCGACGTACTCGATGTTCTGCTTGTAGCCGTCTTCCTTGTTGTTGTAGGTCACAA GAGCTACTGACGGACGGTCTTTACGCGCAGATCCCTTGTAGCTGAACATGCCGTCTTTGA CGTTCGCGTTGGTGAACATCATGACCGGATCTGACGGACTATCCTGCATGACGTTAACCA TGCCACCAGCCCAGAAGACCATACCGCGGAAGGCGCCAGCGATATCCTGAATCAGTCGGT ACGCGTCCTGACGGCTAGTGATCTGGGTGTTGATAGCGAAGCGCTTCTCTTTGCCCCCGA ATCCATTGTCAATTTCTTCGTCACAGTAGCGACCAATCTGGTAGATCTGCCCGAGGTCAA TCATGGACTCAGAAACGTACTGCCCCAGGCCATAACGAGCGTTGGTAAGCAGGTCGAAGA GAATCCAGGCAGGGTTGGAAGATGACAACAGCTTGAATGTGCCATCCCATACGCCGATAT AGGTGTTTGTGTGTTCATCGTAGTTGGACGGTACGCGGATCTTCAGGCCACGCACCAGAT ACGAACGAGACGGCATCGAGCTGCCGAACTGCTCTGAGTTGACCTTGAGGCCAACCAGCG CGGAGTTCGGATAGTTCATCGGCGTATCGACGATCTCACCGATAGAGTCCACCCACGTAT CGTTAAAGATGTACTGAGTATTGCTGTCATCGGTCAGACGCAGCACGCGAACCTTGTAGG CACGACCTGGCTTGGGCAGTTTTAGCTCATAGCTGCGGTAGTAGACGCCTGTCTTTTTTG CCGTCAGCGCAATTTCGGAAGCACTCTCCCCTTCTGCGATGGCGTCCTTGAAGGCATTAT CGCCATTGGCAATCTGGAATTTGTACTTCACGGTCGTACCGTTGGTATCACCGGTCTTTT TGTCGATGCTACGCAGAGACGGGAACTTCAGAATGACGCGGACACGGTCTGCCTCATCGT TATCGATGGCAATCGTAACGTCGTGCATTCTTTTCAACTGGATGTTGACTGACTTCGGCG TTTCAACGAAATCGAACCCAGCCATCGGCGTCTGGTCTTGTGAACCATCGCGGAAGTCCC AGGTGATACCGCTAAAGTTTGAAGACCCGTCTTCGTTAAGGATTGGCAGATCATCAACGA AGATCGACTTTGCACCATCCACCAGCCCGCCAATGACACCTTCCCCGAGCAGGTCGAGGA TGGACGCCATAGCACGCGAGTTTACGGTATCGTCGGCTTCAACCGGTGTGCGGCTGGAGC CACTGCTTTTCTTACCGCCAGCACCTGCAATCAGGAGAGGCAGTCTCTTCTTCTTGAACT GTTCCATGTTCAAAAATTTCCCTTCTTACTAAAGCTGGTCGATGGTGATCGAAGAACTTA CTACCTGTGAGCCGACCAGAATTTCCTCACCATAAATGAGCTGAACCGGGTTGCCCTGGT TAGTGGTGTTTTGTGGTCCGTCGAAATAAAACGAGTTCGAGTTATCTGCCTGCCTTACAC TGTCATTGGTCGCCTGGGGCGAAATTAACTGCGAAATACCCCCCATCATTAGCGACAAGC CGAGCGGGGCCAGCGCGGGAAACCAGAATGAGGCAACCATGACGAGTGCCCCTACGACTG TCTGAAACCAACCAAAAGCCTTACCGCCGCTACCGCGAGGAACCGGCGTGATGCGGATCT TCGCGATGTTGTCGGACTGCCCCATCATTTGAAACTCGCTCTCATCAACCGACCACTTAT GCCCCTGCTTATTGGTGATCTGGATGTGATACTTGTCGTAGGTCTTCATGTTGCGCTTCA TCCAGGCTTTTAAGCCCGGACGATTGGCTTCGACCAGATCCAACGCCTGTTTGGTGTTGC GCACTTTTAAATGCCAGTGGCGGCCGAAATGTCTGGCCATCGGGCCACCAAGTTGCACAT GAACTAACTCAGACACGTCTCATCTCCCTTGAGTAAGTCTCTGTGACGCAGGTGGTGCGT CGTGTGTTTCTGGTACATGCCACCGTAATAAGCGCGACAGCTCAGACGGTCGATCTGGTG GTGCAGGATCATTCCGTCTCCGATGTACACCGCGCAGTGGTCAGGCATCTTTCCGTACTG AATGAAGAAGACGTCACCACGCTGGGGTTCCGTCCCCGGCGCCAGACGAACAAGCCCTTC ATTGCGGTAGTTCTGATCGAGAATGTCGGTATCGCCCGTGTACCACGATGGAATATGCAG GTGCGGGTTCGGATTCAGCTCGACGTTGAACTCACGCTTCAGGTAGTCGCGGCACAGCAT CCAGCAGTCGAAGACACCGAACACATAGGGTCGACCCAGATAAGGCATCTCAAAGCCGTC TGGGGTGATCACATTCATCTCACTGAAGTGAAATGGCGCATCGCCCTCGACGTTCTTCCG AACAGCCAGAATCAGCCACGGAACTTCCGTTGCCTCGCATCCGGCGCGGTCGGCATCTGA CGCATCAGCTGATTCGTCAGTGTGGGAGTGCCAGATGGCAACCACGTCTCCCGCATCTTC CGCTGCGATAATGTCGTCAGCGTGCATCACAAACGTGTTTTCCGGGTTCTCCGACACGTT CCGGGCTTCCATGAAGCGATATTTCTCGCCAGTAGTACGCACCAGAAAGCCACACGCTTC GTTCGGGTAGCGTTTGATGGCTGTCAGATAGATTTCCTGCATAATGTCCGACCCAAGCTC AGGGAAAGCTCTATTACCCATAACGTGTTGCTCCAATGAATCCGCCAAAGTGGATTACGC CATTGGCAAAGTAGTTACGGCGTGCGTTGCATGAGTCGTAGCGTTTCGTGCAGTAATCCG CGCCTGACATGGTGGTTTGCTGGTTGTTTTTGTCGAAATAGGGGCCGGTATAGCCGCACT CTGGGCCGCGGTATTTCCACGGGCAGGTGTTTTTGATGATCTGGCGGTACGGCAGTTGCA CGCCCATCAGATCGAACACGCTCGACAGCTCAAACTCGACAACCTCATGGGTTTCAAGAG TCTTCTGCTCGACGAACCACATCTCATCGGGAAAATGCTGATTCGGATCTGCGGTCGGAT TTCCGTCTTTGAAGTTGGCCGCGTCGAGAAAACGCGCCAGCGTCATCTTGCGGATGATGC GACAACCCACCAGATAGTCATTTGCCTGGACTTCAGCGGAGACGGTTCCGGCAAAGTTGG AGACCTGGATTTTTGGACGCGGCAAAGTACCCTGACCAGTCTTATCAAAGCCTGACGCCT TGATTGGCCACGGTTCGTAGGACACACCTTGCCAAACGACTGGCTCCATCAGTTCGTTTG TACCGGCGTGGAAAAACAGCTTGCCCCCAGAGGTGGTGTTCGACATATCAAGTTCGAACA GCTCAATGAGCGCGGAGGGCGACAAGCTCTGAATATCAGCTTTAATACCCATCGTTTCTT CCTTGAAATAAAGAGGCGCCAACATCCTGTCAGCGCCTATAGATAATAGTAAATAAGCAC CTACTTATCTAGTGGGTTAAATTATCCTTCATAAATTTGTCGGAAGGTCGCAGTGAGAAC GAGATAGCCCTGATAACGCTTCACAGTATGGCTGTCGCACACCACAACCATCTTTTTGCC TCGAGGGTTCGTCCAGTAGAACGACTCAACGGCCGCGCGTGCCGTCAGAAAGTCATCGAC GGCATTGATGACGTCATAAGAACGCGTAAAAGTAAGGCTCCACTCTTCTTTAATGCGATT AAGCCCTTTTGCCTGACGCTGTTCGTAATCGTCACCGAAATTCAGCACCGTCACGTTAGG CTTCACGGTCTTTTCCGACTCGTAGTCGGGATACCAGTTAAAAGTCAGTCTTTCCATCTC ACATCCTTGTGAGACCGCCCCTTCCGGGGCAGCCGTGGTTAGTTACGTTGAGAGTTAGGG TTGAGCGAACCGCCTGGCCGCTTCTCCTGAGCGATGGTTTCAAGCGCGATCGCCTTCATG CGCTGCGCAGCCTGACTCCATGCGCCTTCGGAATTGCTGTTCTCCGAGACACTGCCGTCG CTGTTGACGTTGATTTCAATGCTGACAGGTGAGAAAACGCCGCCGCCTTTAACACCCTCT GCGTTGAGCGTGACCGGGATGGAACGCCCATCCGGAAGAGGAACGTAGGCTTCGTTCATA TCCCCTTCGCCAAATAACGCCAGCTGTGGAGAGTCAGCGATGCCACCTTTCTGGTAAGCA CGCAGCGGAACCACGCCGTCTTTCCCGAAAATGCCGCCTTTGGCGAACTTCGGGATTGCC GGAATGCCGCCAGTACCATCAGATGCCGATCCGGTGAGATTGTTGAATCCGGAGTTAGAG CCGGAGGAACCAGATCCGATGTTATCGAAGCCACCACCAGCCCAGGCAGACACCAGCCCG GAGGCAATGGTAGCGCCGAAACTCAACCACTTATTGCCAGAGCCGGACATGTTTGCGCCC AGCATAGCAAACGCGGCAGAAAGCGCCCCCGTGACAGAGCTAAGGTTCTGCATGGAGAAG ATGGACGTCTTCACCGCTTTGGTTTCCGCGTCTTTGGCTTCAGTACTGGTGAACAGTCCA TTTACCCAGTTGCCGATCGCGTTGGTTGCAGAACCAATCGCGCTGGTCGTCTGCTGAGTG GTCTGCCCCAGACCGGAGACCGAGCTGGAGGTCTCTTTCGTCGCCTCACCCACGCTCTTA TCGCCGTTGACCGCATTCATCCGGACGCCCTGGTTGGCAACCGCAGACGCGACACCAGAA AGCAGATTGCCACTCTGAGAGCTGCCCGCTGCCGTCGTCCCCATCCCCAGCATGTTCATG AGAGGTAGAGTGATCTGCGTCTTCACAACCATGTTGGTGATGTCGCGGAGAATGGACTCT GCCAGGCTGGAGAAGTCCAGTTTCCCCTTCATGACGAAGTCGGTCAGCGTATCCGTCATG TTGCTGAACAGGTTGCTCCAGCTGTTTTCCAGCTGTTCGGCCAGATTCTCGTACTCAAGC GCCAGCTTCTGTGTCGCCGTACCCGTCTCTTTGATGAGCGCGGTGTTGCCTGCCGCCACC AGCTGGTTAATCTGCTTGGTGTAGAGCGCCACGATTTTCGGATCAGAAGCCTGGTCACGC AAATCCATCAACGCTTTCAGATTACGGTTGTAGGTGTCGTTGAAATCGGCCACCTTCTCT TCACGAGACGGCTTGTAACCCGCGCTGATGATGGAATCGGATTCCGGCGCCCAGGTGGAG ATCATCTGCTCGACGTTGCGGCGGTTGAACATCTCGCGATAGTCGTCGCTCGCGTTCGCC AGGTCAGCGAGGCGTGACTTGGCTTTGTCGATCATCTCCTGAGTGATGAACTCATTCGGT ACGGCGTTGGCCAGTTCGGTCAGCGATTTGGTGGTATCGCGGAGAGACTGGTCAAACGAC ACGGTCGCTTTTGAGCTTTCCCCCATCTGCCCCATAAGCTGATCGGCTTTATCCAGGGCT TTCTGGTAGCCGGCCGCCAGCTTACGCTGCGCATTTTCTTCCTTCCTCGCGGCACGCTGA GAAGCATTGGCAGTACGCTGCCCGGCTTTTTCCGCTGCTGCTGCGTCCTGCTCACGCGCT TTGGTCAGTGCGGCGATCGCGGCAGCACGTTCCTCGTCGCTCATTTTCTCCAGAGAGCTG GCGCTGGAGGCTTTCTGCAGGTTCAGCTGGGTTTTGAGCTGTTTCGGCCCGATGATCGGC TTGCCTTCGAAGTCCAGCATCGCCGTACCGTCTGGCAGTGTGCGCTGGTAGGTCGCGGAG TCCATCTGGTTCCGCATATACTGCGCCAGTGCTTTCTGAGCCGCCTTATCGGTCGTCCCC AACCCCAGAACGGTGCCCTGGTTGGACATTACGCCCTTACCGGTTTTCGCCGCGCTATCA CGCTCGAACTCCGCCTGAGTCAGCTCCTGAGCTACAGCTTCAAGATGCTCCTGATACCCG CGGATGCTGCCCTGCAGCTTCTGAACCTGCTCGGTGTTCCCCTCTTTCTTCGCTTTCTCC AGCATGTCGCTGAAGTGGGCAATTTGCTTCTCGGTGGCGTTTTTACGAGAAGACAGGTCG TAGACCAGCTTCTGTGCCGGTTCCAGATAGGACTTGTTCACCTTCTCGCGAAGCGGTGCA AGCAGCTTGTTCTTCTCGTCGTCCGAAAGCGATTTGTCGTCGTTGATTTTCTGGATCTTA TCCAGAGCCTCCTGACGGGCTTTCACAAACGTCGCAGAGAAGACCTGGTTATCTGCCCGG ATTTTCTCAATCTGGGATTCGGCAGCTTCTTTTGCCAGGCGTTTGGCCACTGCGCCATCA CCCAGCGCCATCGTGCCGGTTGTTCTTTCGTACTCTTCCTGATTTTTCTTCAGGCGAGCC TCAACAACCTCTTTGGACTCCTTCACGGCGACAGGGCCAGCCGCTGTGGAGTAGTAGTTC ACGCTTTCGCCAGTTTTAAGCGCCTGCTGGTCTCGCTGGATCTGCTTTTCAAGCTCGGCT GCACGCGCTGCCATCTGCGCACGCTTGGCCGCCGTCATCGCCTCCGGGATTTTGCGGATC TCGTCCACGACTTTGGACGTTTCGCTGCGGAGCATGGTCATATACGTGATAAGACCGGCC ACAGCCACGGTAGCTACGGTGAACGCTGCACCAATTGGGTTTGCTGCAATGAACGCAGTT AGCCCAGCAAACGCGCCCTGAAGCCCCGTAATCGCGCCACGGATAGCGAAGATCAGCGAT GGGATTGGGGCCAGCCCCATACGAGCCGCACGATTAAAGCGGGTGACAGCTGTCGCGCCC AGATTGAACGGAGCCTGGAGAACGGTCGACATCTTGGTAAATGTGTTAACCATTTGCCCG GCAGTGCCAATCACGCCTGCAATCCCGGCACGCATCAGCTTGAACGCCACCATTGCGGCA ACGACTTTGCCCAGGCTGATAACCAGCTCCTGGTTTTTAGCCAGCCACTGCGCCAGCTCG CGTAAGCCGTCGATCGCCGTGGAGAGTCCGGAACCCAGCGAGTTAGCGAACGAAATGCCT TCAGCGCTGTTCATGATGGAAGCAAGCTCTTTCATCCCCTTTGTGAGAGAATCCAGATAG CCCGCCTGACCGACACGATCGGCAAACAGCGTAAAGGAGGTTTGCAGTTGCGCCAGCGCA CCGGTGTAGGTTTGCATCATGTCTTTGGCGGCGTTTTCGTTCTCCGCACGCAGACCAACG AACATCAGCGATAGCGCCTGTTTCGCTTCCACAGTACCGGTGGAGACTGCTTTGGTCAGT TCCCCCATAGTGATACCGGCAGCGTCTGCCATCGCCTTCATCGCGTTAGGAACGGCTTCA CCTAATTGCTGACGCAGTTCTTCCATCGACACGACGCCCTTACCGGACATCTGCTGGACA GCCACGGCAGCACGTTTAAGCAGTTCGCTATCGCCGCCGAAGCGTGCAACGGAGTCCACC AGTGCTTTCAGCGATCCGTCAGTAGGATCGAGACCTGCCGAGCGAAATTTAACGAAGGAA TCGGTCAGCGCCTGCATCGCAAACGGGGCGTTTTGCGCCATATCCACGATGTACTGCATA TCCTCTGCGGCGGCTTTTCCAGGGTTGGCCTTATCCTTGTTCAGCCCGCGCAACATGACA CGCATACGCTCCATTTCGGAGGCGGCTTCGATGATTGGCTTCTGCCAGCCGAACAGGATG TCAGTTACCGTTCTTGCCGCATCACCAATCTCGCCAAGCAAGAAAATGTTGCCGCGCAGA CCAGAGAACACACCACTTTCAGCACTACGCCCGCCGTGGCCATAGGAACCGCTGTGTCGA CCTCCACCGCCATTACCACCGCCATCACCGTAGCTACTGGTGCGTACACGTACCGGCTTG CTGATCAGTTGCTGGCGGCCAATCACCGCATCCATCTGATCGCGGACTTTCTTCAGCCCC TCAGCAGCCTGGCTCGTTGTGACACCCCAATTACTGAGACGCTTTGTCGTGGTGTTAAGA CGCGTATTCATGCCGCTCACGGATGCAGAGGCTTCTTTTACCTCCGTACCGAAGCGGCTG GCGCTCTTGCCAGCGAACGTTGCCCAATCGGAAAACTCATTGAGTTCAGACTGAACCTTG CGCAGCGATGTGGTGAGCTTATTAACGGATGAGGTGGTTGTGTCGACGCGCTCAATCAGG GTTTTGAGACCTGAGTTGAGGCTGGTAATGCTGCCTCGCGTCTTGCGCGAAACATCAGAC ACAAGCTCGAAGCCGGCAGCTACATCCTGTAGTTTTTCTGCCGTGACATCGAGCTTGGAC TCCAGAACGCCGATGATGCGGGAGACCGAACCCAACGAGCGTTCCAGATTGTTAATTTTC TGAGCTGGCTTTGTGGCCTGCTCCCCGAATCTGGTAAGTAGCTTACCCGCCCGGTCGATT GACGCTGTAAACTGCTTGTCTTCCAGCGACAGGATAAACTCTACGTTTTGTGACATTCCC TTGTCATCCTCTGCCAAAAATTTGCATCAGTTGCTCTTTGGCGTCAGGGTCTGCCTTATC CTTGCGTGGATCGTAGACTTTATCGGTTACGACTGGTCTTCCAATCCTGAGTTGCAAACC CTCCATGAACGCCTTTACGCCCTCGCCATCTGCCTGGGCAGCGCGAGCGACTTGCAGGTT GCGGACATCCTCTTCCGCACGCAGACGGTCGATGTTGCGACTGAGCATCCAGAACATCGT TAGAGGGACGCCCAGCAGCTCTAATGGCGACACGGCGTAGTGAGCAACTACACGACTGAA ATAGAATCCGAGATCTATCGATACGGTCTTTACCCCGGATTCATCGCGGGAAATTACTTT GCCCCTTCACCAGCCGCTTTTTCGTTCTCTTCATCAATCACTTCCATAGCGAAGGTGAAG ATCTGCTGGAGCTGCGGAACAGTCAGTTTTTCCAGTACAGCGTCCGGCACGGATGGGATG ACCTTGCGAACCAGGTCGGCGTAAGCAGTAACCTGCTCAACAGGCGACATATTCTGGAGG TCTTTGCCTTCCATCTGCTTGATAGAGACGAACAGGCCAACAGTCATTTCAACGATGGGA TATTCCTGACCGCCGAACTTGATGCTTTTCTTCGGAGGCAGAATGGAGTCGAGATCGAGT AATTTGGTCATTGGTTAAAGTCCTTTTAAAAGAGAGGCTCTTCCTGAGCCTCTGCTTAAT TACGTCGCGATTATTGGGCAGAATTAACCGTTACTGCTTTGGTCGCTTTCTTGCCGCCGC TATTGCTGGTAAAGGAGATATTTGCCGAACCTTCAGCTACTCCGCGAACCAGACCAGTCT GGTCAACGGTTGCTTTCTCCTGATTGTCGGATTCCCACACACCGGTTTTGTCGCCGGCAT CTGCAGGGGTGATCTGGGCAGTCAGTTGCACGGTCTCACCGGCTTTAACTTCCGGAGATT CCGGAGAGATAGAGACGGTTTTAACCGGCTTTGGGCCGCTCATTTTCCCCAGCACGCCGT CGTCATCCGGGTAAGCGGTGAACTGAACGGAGAACACGCGAACATCATCAGACTGGTAGG TCATGGTGAAGTTACCTGCGGTTGCAGCTTTCGGGATGGTCAGGACATAGTCGGTGGTAT CTTGCGGGGTCAGAACCAGCTCTTTGGCTACGTCGATCAGGTTGACGCCCTGTGCGGAAG TGATGGTCACAGAGTTCTCTTCTTCGCTCAGGGTAGAACCCGGCATCAGATCGACCATAT TCTGCAACACAGACTCGGCCAGCGGCGCAGTGATAGTGATGTTACGACCCTGTACCAGCT CGGAGATGGTGGTCTGCCCCAGCTGGTCTACGGTGACTTTCAGAGTTTCGGTCGCAACTT CAACCTGAACACCGCCTTTGGTGTAACCCAGATCAACGCCACCAAACGACACTTTGCAGG CGCCAAGTTTGATGTTTTTTACATGGGTATTGGACATTTTTGGAAAACTCCTTTTTCCGT TAAATCAGCACCTTCATGGTGTTAATGATAAGTATATACTTACCTATTTTATTAATTCAA CAAATAGCCCGCAAATTCAATCGGGATACCCGCTTCAATCAACGAACCTTCATTTTTGGG ATAAGTAATCGGCATCGACATTGGTCGAACCAACCGGAAGTAAACGCCATCTGACACGGT TTCTTCGACCGGGAACATGTCCATGATCTTATTGGCTTTCGCCACCGTCTTTGTAATCGT CGCATTACGCACGATGACGGTGAAAGAGTCGTGATAGAAGCCTTTTAACTCATGGTCAAT GGTGATCCCCGTATTGGGAGTAACCAACAGAACACCGGACTTCACATTGGCTGGCATGTA GTGACAGAAAATGTCAGTGCCGACTGTACCGATCTTCGCCTTCTGCATCAGGCTCGCAAA TGCTTCAATAAACACATCAACCTCTCGTAAAACCTGCTTTCCTTGCCGCTTCTGCTATCG TCTGAGTGAACTGTTTCTCACTGATCTGCACGGCTCTCTCAAGGAACAAAGGCCCAACTC GTGGCTTCACTCCAGCAACTGGCGGGTTGGTGACGCTCTTCATGCGGGATAGATAGCCGA GACGATACTTGCCCAACTCCATGTACTCCGCATAATCGCCAACCTCAACGCCCGGATGAC CTTCGCGTGGTTTGGCTCCAGATACCGATAACTCAATACGCAGCCCGGTATAGCCTTCTT TGACAACTCTCGCGAAGATCGCGCTTTCGAGTGAGCCAGTCTCCAGCGGGGCCATTGCCC GCGCCAGACGCTCAACCAGACGCGCCAGCTTCTCCATGTCACGGATGAGATAACGCTTAA AGGCTTTCTGGCTGTTATTGAGCCTGTCGCCAGCACGCTTAAAATGATGCGCGTCGTACT TCAGACCCATATGTTTGCCCCTACTTCCAGATGCCCAGGGCGCCCACGCAGTCCCCAGCG ACGATGCACGCTGGATACCTTCAGCTTTTGCCCCTCCAGAATGAGAACGTCATCAAGCTG TACTGCGGCCTCAAGTGGGATCACCAGAACAGCATCGAACAATTCCAGATTCGCTTTACC GCGACTGCCGGAGCTGTCAGCACGTACCGATGACTTCTCGTTACTTTGCTCAAACTTAAC GACGCCGACGTTCGTCTTTCTGACGAACTGCAATTGCGCTTCACCGTAGACGTTCTTCGA ACCCAGACGGTAAATCGCTATCTCTGCTTGCCATGAAATGTTCATGCACTCTCCCTGTGG TTGGCAGCCGCACTCATTACCAGGCGAAGGCGCGATTGCTCGTCTTGAGCCTTTCGACCA GAAGTAAATAATGCGACTGGCGTTACGCACGGCGAACAATCATGCGGTTATTGATGTAAC TGACCAGCAGTCGCCAGGTACTGCGAGCCACCTGCACGTTTGCCGCTTTGCCGGTACGGT ACATATTGGTCGTTTCGCCAATGGACTCAGACAGAATGCCGTCCTCGCGGGCTGCCGCTA CGTCATTACCGTTAGCGATTTCGCAGGCTTCATTAACCACGGCCAGCATTAATGCCTGTT TGAAGTAGTCCGGGAACTCGTCGAATTTCTCCGGCGTCATCTGCTCCCAATCGATCAGAT CGTGACGATATGCCCCGTCAGCGCCCCACGGAATGTCATAGACGTTCAGCATGTTTTGCG GGCGATCGTACCGGTCGAAGTCGATACGCAGGACTTTGCGGATTGAGAACGGCAGCGTTT TGACGCGTCTGGTGGCCTCAATGAGACGTTTGCGCATCAGCCCTTCGCCATCAGCTAACA GGGTGTCGCCGTTCAGCATATCGATAGCTTGCATCTGGGCGTCTGCGACCGTTGCGAATG ACTGGCCTGGAATTGACAGCTCGAAGCTATTCAGCAAAACGTACATCTTGCGCTCTTCAT GCGTCAGCCCGGATGCCACCGCTTTGACAATGACGTGTCGCAGATCGCGCTCTTTATCTG AAAGCAGGTTGTGTTCGGCCGACACGACAACCGGAATGGACATCTGCCCCTCAGTAATAT CGAGAGGTTCGTTATCGACGATGATCGCGCCAGCGCCATCTCTGACGGTATACGTGGCCG ACTCAATATCCAGAACGTTAAATGCAAACGACAGGGAAACAGCTTCCCCGCTACGGTACG TGTCGATCTGCGCCATTACTCACCGCCCTGTGCTTTCAGGATGCCTTCGATCATTTCAAC GATGCCTTTGGCTTTCACGCCAATCTGGTTGCCGATCTGACGCAGACCCGCAATACCTTC ACAGTCCGCAATCGACTCCAGTTCTTCACGAGTAAAGCGCTGTACCGGTTTGGCTTCCAC TTCAGCTGTACCACGTTTCATTGGCACAATATCCGGGGCCGCCGTCTCGACAATGTCGTC CGCAGTCAAATCATTGCGGCTGCTGTACGCGGCAGAAGGAGATACATTTTTGCCTTCAAC GGTAGTGGCACGCATGGAGGCACAAATCCGCTGCTGATCGATGAATCGCAGTTCGGCAAC CGAGATGCCGTCGACAAACTGGATACCGCAGAGAATGCCCGTGTACCCCAAAAATTGAGG CTCCAATAAACGAATTTTTGCTGGTTTCATTCTTCTTCTCACTTAATGGGCGGCTATGCC GCCCATGTATTGGTTACGCAGCCGGTGCTGCAGTCACTTCCACAGTCGCAGTAGCTTTGT GGCTGCCATCCTGCGAAACCACTTCAATAGTTGCCGTACCAACGGCTACGCCAGCTACGT TACCGTTCTGGTCAACAGTCGCTTTGTCGCTATTTTTGGAAGTCCAGGTGACTTTTTTAT TGGTTGCATTTGACGGTTGTACATCAACACGCAACTTGACCGATTTCCCCTTCTCAACGG AGGTAGAGTCAGGCGTTACGGTTACGGACTCCACGCTGACAGGCTTAACGATCACTTCGA CTGAGGCAGAAAGCTGAGTCTGCTTATCGGTGGCGGTGATCTTCACTTTGCCCGGAGTCA CGCCAGTAACCAGACCCGTACCGCTGACTGTGGCGACCCGGTCATTGTCTGACGTCCAGG TGAATGAATCTGCACTTTTGCTCATGGTGATACCTGCACTAAGTTGAACGGTTTTGCCCA CCAATACGGACGGCGCAGTCGGTGTAATGGTGACAGACTGAGTGAACGGAATTGCCCGGA AGCAAGCCGCAAGATGATTCTGCTGGCGCTCGCTCAGAGGCTCGTTGGAGATGGAATTGG TGAATCCGGCACGGCACATATGCCCCGTGAAATCCGAAAACGCCTCTTCCGTGATCTTCA TCTTTTGTTCTGGCATTTCTCGCTCCTACAAAAAGGGTGGGCGTATAGCCCACCCTTAAA TGGTAGATAATTACTTACCTACGATACTGATCAAATTTTTACGTTGGTCAGCGCGGCGAT AGCCTTATCGTGCTTGTTCGCCAGAGAGCAGTACCACTTAACGCGGGTACGGGTTGCGTC TTTGTTCTGAACAGTACCGATGTTCTCAACAACGATACCGGCGTTTTCGCCGCCATACAG ACCGGTCACACCGTTCTCTTCGGACAGGTGCAGGCAGTAGATGCTTGCTTTGCCAGCATC AGTCGGGATGAAGTCGTTCACGATGAACGGTACACCGTTGTGGCACAGCATCGGGCGGCC GAAGTTTTCCATCATGATTTCTGACGGGCCGAGGCTAACGGTACGCAGCAGAGCGCGATA AGCACGCAGGTGCTCGGAACGCATCATGATGCAGTCTGCGCCCAGATCTTTCACCGCGTC GACCAGCTCGTCGAACATGGAGAAGGTCATGGAAGCGCCTTCGATGTCGATCTTCTGATC GTCGTGCATCAGCTTCGGAATACCGTCGAAAGCTTTGGTGTTGGTGGTGGAGTCGCCCAG AATCAGGTTGCGGCGGAATGCGCGGGCCAGACCTTTCACCTTCTGACGAACCTGGATTGC CAGCTGGTTGTTGGTGTCGGACATAGTGGTCGCCAGGAATTTGTCGACGTCTACGTCGCC TGCCAGGATACGCAGCTTCGCAACGTGTTCGGTGAAGGTTGCAGCGCCTTCGGTGATGGT GTCGTTCACATCAATGAAGGTTGCTTCGCTCAGGGTAGCTTCGCGGTTGTAGAGGTATGC CTTAGAGTTAATCTTCATGAAAGGCAGAACAGCGAACAGGTCATCGCGATCGATGATGGT CTCGATCACACCCTGCTCAAGTTCGTTGTTAGATAGCTTTTCAGCTTCATCACGCAGTAA TGGCATCTTTCATTTCCCTATGATTTAAGATGTTACTTGAGTCCGATTTTCCCCAGACCG GAGGTCAACTTATCCATAGTCGACTTGCTCTTCGGCTGGTTTACTTTGTGGGTCGGTTTG CTATTGGAACCAGCACCCTGCTTGGCTTCGCTGCGCAACAGTGCGTCAGCTTCCGGATCT GCACGCAGAATGCGTTCAATCGCGGATTCGAACGGTAACGGTTTGCCTTCACCGTCAACC AGAACTGCACGCTCTTTCTGACCGGCTGGCTTATCAAAGCCCACAACACTACCGTCTTCA CCCACTTCGAAATGAGAGCCGTAGATAACGCGAGCCTTAGCCGGAGTCATCAGAACTTTG TCACGCAGGAAGGCAGAGCCGCTGAAGGAAGCGCCAACAGTCATTTCGACCAGTTGAGCC TGGTGCGCTTCGATCATCTGCTTTTTCACAGCATCGAACTCACCACGGCGTTCCAGTTCA GCCTGCTCCGCCTCCCGGCGTGCGGTTTCTGCGGCTTGTTCAGCTTCGAGAAGCTGGCGA GCACGCGCCGGGTCAATATCACCGTACTGAGCCAGCTGATCGGCCAATGTGCGCTCTTTC TCCTTGCGCTTCATGTTCTCTTTCAGCAGGTCAGCACCAGCTTTCTTGGACTTACGCAGT TCTGCCAGCAACTCTTCCTGAGTCATACCGGCATACTCGTCGTCGTCACCCTTCGGTTGC TCTTTTTGCTCGCCCTGTTTACCTGGGTCTTGATTGCCCTGCTCGTTGTCTCCAGCAGGA GCACCGCCACCAGCGCCTCCGCGCTCATGCGCTTCAGCTGCATCCATCAGGCCACGACGG GCCATAAGCATTTGCCACAGATTCATAGAAATTCCTTTTCGTTACTTATCACTCGGTCTC TTGAGTAGATGAGTCCCCATTCCCTCGGGGTTGATCTTGCCCGCTTTCTTGGGATATATC TCGATCATAAGTAAGTACTGACTTATTTTCAAGGGTGTTAAGATCATTTTTTGGAGGAAA TTTCAAGAGATCTTTTTGAAATTCCTTTTGCATCGCCTCAGAAATGTTCGGGAAGACCTT CTCGATGAGCATTTCCATCTGATGACGACGAACAGAATCAGGCGCCTGGAGCAGCGACAG TTTCTCAGCAACGGCAAACTCGTCAGTCAGACCGCGAATGTCAAAACTTTCCGGGTACGC GATCAGAGAGTGGTCTTCATCCAGTTCGACACCCATCCATTTCGCTGCCAGTTGCATCAT CTGGCGCTCTGCCCTTTCGAGGCGTTCTGCTTTTGTCACCAGCAGACTGTTAACGCGCTG GAAGTCGTACATCTTCGCTGCGCCCGAAGAGTTATCGATGCCCTGTGCGTTATCCTGCTT GGTTCGCTCACCTGCCACACCAACGGAGTGGTAGATCTCGTTAATCACCGTCTTAATCGT GGTGATGATCATCTGGGCCTGTTTCGGGTCTGGAGACAGATAGAATGGCTGATTACCGCT CTCAGAGTCGAAGGTGAAGACGCGTTTTGTCCCCATTTCGAGCACTTTGGTGTGGTTTTC ATCGCCCGGCAGCAATGACTGAACCGGGATCGCCAACTGGCTGAATGTCTGATCCTGAAT AATCGCATCAAGGTTCGACAGGTAGTTGGCCACGGCGCGGTCAAGATAGGCGATATCATC AATCAACGACGGGCTGAAATACGGAGACTCGCTTTCACCAATGCAATCCACCGGGAACAC CGGCACCACGCCCAGATTATGCTCGCCGCTATCCTCCAGAACGACTTTGGCCTGACGACG ACCGCTATTTCCGGAACCTTTCTTCACTTCTTCACGGAACAGATACCACTCGTTTTGCGT CCACAGACGGTAACGCTGGTATTCCTGCCCGGTTGACGTGAACGGATCTTCGTCGTCGCG CGCGATTTCAACAATCAGCGCCCACAACATATTGCCGTCTTCGTCCCAGGCAACATCAAG CAGCTGCTGCGGCGAAATCCAGTAAGCGTAGGCGCGCGCATCATTTTTCTTCTCGTCTGC AACAGACTCAACATCGACGTTCATGGTGCTGTCCACAACAACCCAGATGCGACCATAGAT GGATGATTGCAGATCGATAGCCGCCATAAACGCATCGATGGAGGCGTTCTGGCGCGTGGC TCGCTTCCAGAAATTGCGGATCTGCTCCGGTGCTTCATCCGTGTTGCGATGAATGACCTC TTTGAAGAGGTATTTGTTGATGAGGTTTACCACTTCACGAGTGTGGTTGAAGCGATAGGC ACGTTCCAGACGCTCTTTGAACTCCTGATCGCCCTCTTTGAAGTAACGAAAGATATTGTC GTTGAACCAGGCACGCCCGCCAGCGTAGGTGCTGGCGAGGAAATCCCAATGTTCTTTTTT CTTCTCATATTCCGGGTGGCGTCGTGCCACAAGGTCCTTGATTTGCTTATCAGTCAATTC CATTTGTTTCTTTTCCATATTTAGGTAGGCACTTACTTATCTAGATCCACCAAGAATAAC ACGATTTTTCACCGGATACCTACGATGAACCGGATAACCCAACGCATCCGCACTGTGTTC GATGCCGCCAGTCTTATCCATATCGCGTGAGCCTGGCTTGTAGATCACCTTCTCCAGCGA GTCGATGAGATGTTTGCACTTCGGATCGATGTACAACCGGGTTTCGCCCGAGGCACTCAT CAACATCCGGTTCACGGCGTTCACACGGTCTGCGATAGGCGGGTGCTTCTTCGGATAATC GACTCGGAGGAAACCTTTTTCCTTGAATATATCGACGTCAGATTCGCCGCGTGCGTGCTG GCGATACGCACCAGCCGGGTCAGGGAAGATAGTGACCTGAGACTTCCAGCGCCAGAAACG GCGCTCCAGCTCATCACACACTTCAGCCGTGTTGGAAGAGAACAGCACAACCTCGTCCAC GGCCCACAACTCACCATTTGGCTGCGGCTGCAGGATGACCGATGACATAGGGTCGATGTT GAAGTCCTGACCAACCCAGATCGGCAGTTTCGGATTGAACTGGAGTGGCTTCACATGCAC ATTGCGGTCGAACGGGTAGTAAACGCGTCCGGACATGTTTTCGAAGCTGGCCAGGTATTC CTGTGCGAACGATTTAGGGTCCATATCGTTCTTCGCCGCTTCGATTTCCGCGCTCGGTAC GAACGGAGAATCGGCCGTAACGAACTGCCAGCTCTTCCACTGCCCTTTGCGTTGCAAATC TTTGTTCTGACCGATAGTCCACAGCTTGTGGAACTCGGAGAAGCCTTTTGGCGTACCGAT GATCAGCGCACCGCCACGGGTTGAGGACAGTGTCGGACGAAGTACCTTGTACCAGGTATC CGGCTTCATATCCTGAAATTCATCGAGCACCACAAAGTGCAGTGCCACACCACGAAGCGT ATCGGGCTTATCCGCACCTTTCAGCGCGATTTCAGAGCCGTTCTTCAGCACGATGGTCAT CGTGGTGTCGTTTTTCTTACGAACCCATTTACGCGGCAGAACTTCCTGCAGGTCATCCCA CAAGATCTGGCGAGCCATCTGGTACGTCGGTGCGACGTACCAGACACGTTGCTTCTTCTC TTTGGCTGCCGCGCGAATGATGGTGGAAATCGACAACCGGGATTTACCCCAGCGTCGACC CGCACACACTACTTTGAAACGATGTGGCGACTGGAAGACTTGCATCTGCCCAGAATGCAG CTGTACGAGACTCAGAGACGACGGGATGGCCATAGTTAGACGCTCCCATCACTTTCATCA CCAGACGCGTCAGAATCGCCCTCAGCTTCGCTCAGTGCTTCCTCTTCGAGTGACTCAAGC AGATCGTCATCAATCAGATCCGGCTCATCATCTTCCTTACGCAGCTGCGCCACCTGGGAA GGCGTAAGTTCGCCAAATACCAGATTCGGGATTTCGTCGTCCTCGTTTTCGGCGCGATCC ATACCGAGCGCTTTCGACGATACTTCGAAGCACTTAGCGAGTGTGCCGCTGGCACGCTGG AGACTCTTCAGGTCATCTTCGATGGTTGCGAGTGGCTTGCCGTCCTTCTTGGCTGTGGCC ACCTCATGCATCACCATCCGACCGAGTGCGAACGCCCAATCGTCGTAACGAGTCCGGCGC TCTTCGATTTTCTCTGCACGCGCCTTCGCACGCAGCTCTGCGTCGGATTTGAGCGACTCG CGCACCATCTTCCCCACGGAGTCCGCGCCTTTCTCTAATCCACGCTTTTTGAAATGTCTG GAGAGCGTTTCACGACGAATGCCGTACTCTTCCTCCAGCTTGGAGAGTGTGTATTCACCG GAAGTCCACTTCGCTTCGGCTTCTGCCCACTCAGCTGGCGTCAGGCGAGTTTTGCTCTCG TCTTTTTCTACAGTCATAGATCCCTCTAAAACACTCAGAGCGCATCCTTGCGCTCCTAAA CAACTTGTTTAATTCTATGCCTAACCAATTTGTTTTCTGGGTGTTTAAAACCGGGCTGGG GAGTATTCAGAACCTGCTTCCGTATATATTTAATAAGTCACTTAGTATTTATATATACGG AAGCAGGCTCTCAAACTGGCTCCCAGACCGACTTACATCACCAGTAATTTGGCTCTGGCA CGACCTAACGTGGTCAGCCCCAGCGTGCGACGGTGGTAGCCAGAATCACCGCGCTGGCGG CACATTCCTTTCTCCACCAGCCCCTTTTTCACCAGTGCGCGGATAGAGAACTGCATACTC TGTTTGGTCGTTTTGTACGGCAGCACTTCAAGCAGCTCGTCCAGATCGAGCAGATGCCCA CGCTCATGGCCTAAATTGATGGTTTTGATGATGTCTTTTTGTTTGTCGGTCAACGTCATG GCAAATCCTTATGCCGGTAATGCAATTTCAAGAGGTTTGTTCAAAGGCTGTTTGTCGAAT GCCAGCAGTGGCAGCGTGTCAGGCAACTGACGGCCAAAGTCCGGGTTTCGGTACACGCCA TACAGCGGAGACGTGAAGCTCAGGTTGTGAATATCCTTGAGCAGCTTCACAATGCTGGCC TCGTCCACCAGGCTGTCGGCAATGTCCTGAATCGTCGTGCCACGATTACGCCCGGCTTTG GCCAGGGAACTGTTCTTGTGGTAGTCAGCGACCAGATCACGCAGCGCACGACGACGGCGA GACTCACTCATGGCGAACAGCTCTTTGACGATCGCTTCGTTGTCGCCAGGGTCGGAACGG AAATGACGCTGGAAGACGCGCAACGCACTCTCATAGCTCTTCGGACGCTCCGGACGGATG AACTGGAACCCTGCTTTCATGGCAAACGGGTTGTATTTGCTCATCGACGACTGGATCTCG ATGATTGGCCGGTCGTGCATCCTGCTAACCAGGTTAATCATTCGATAGGAGACGCCGACG CCGCGGTACTGAGTGTCCACAACGGAACGGCTAATCACCGCAAAGTTGTTGTTCACGTAC CGCCCCCAATACTGGTTGGCCACGGTGGTATTGGTGGTTGGCTTCAGCTTAGGAAACATG CGATGGCGAGGCGCCAGCAGCAGTTTCGGGTAAGCCATAACCACGACGCCCACCAGCCGG TCGTCCAGTTCGCAGCGATAATACGTTGGCGCGAACGGCTTACCATCCGTCTTATAGTGC AGCGACTTCAGCGCGTGCCAGTCTTCAACCGTGCCTTTGGTAACGGTCATACGCTCCAGA AAGTCCAGATGACGCGGGAACTCTTCCGGGCGGTAGCGTTTGATGATGATGTCTGTCATG TCGATCACCTGCGCTCGATATTGGCATTGATGAAGTCCAGGCGAAGCGATTCCATCGCCC CAACCATGACGTATGGACGCCCACCGTTATGCCAGCAATCCAGAACACTGCCGTCGTTGT TGATCATCAGCAACGCCAGACTCTGGCTTTTACCTTCTCTGGCGTGCTGGAGTGCTTCTT CCAGCAGGCGGATGACTTCAACGTTGTTGTTGTCAGCCTCTTTCGATGGCTTCAGCTCAA CGATCTTCAAATCAGGCATATTCCACCTTCACGCGTTCTTTGTAGTGCTTGGTGATCTGC ATATCCGGGCGCAGCGCGTTCTTCAGGTCTTCGTGGGTCGTCGCCACCATTACCGTCGCA CCAACCTTGCGGGCGGCACGCTGGAGGTTCGACGCCACAACCTGAGCTGTTACACGGTCG AGAACAGCACCAAATTCGTCGGCGGCCCAGACTTTGGCGCCGGACTCAATCAGCTTGGCG ATCTTGAGGCGGTATTTCTGGCCGTCGGACATTTCGGATGGTTTGCGCACAAAGAGATAA GCGTCATTCAATCCGGCCATAGACAGCAGCCCCAGCGCATCGCTGGTGGTTTTGCCCAAC TGGTCGATGACGTTAACCTCATTGTTGAAGGTAAAGTCATCGATGGAGGCTACAGAAAGC CCTTCATCCTTCATCTGGCGTTGCAGCTCGCGCAGCACAACGGATTTGCCGGAACCGGAC TGACCGGTGATGTACACCACATCGCCCTGCTTCACTTCCAGCTCCAGATTGTCGTAAAGC GTCCACTCTTTTTCGTCCAGGCCAAGACCGAACGATTCGGCAATCTCCAGCGTGCGCATG GTTTTATTCACGCGGGTCTGAAACGATACGTTGATGGTGTATTTGCTCATGCAGCCAGCT CCCCAGAAGAAACTTTCTCCGCATACGCCACGAAAGCGTCTACCCCGCACTCTCCCGTGA TTTCCTCCATGTGGGCAAGCAAATCCCCAACCACAATGGCAGAGCCAGCAGGGAGCGTTT TAAAGCCCAATACGTCGATGACGCGGACTTCTTCAGCGGCCACTTCGCGACTGATCTCGG TGTGCTCTTCTTTCTGGCGTTCCGTCTCTTCGCCCAGATCGAGCACCAGAGCGCCGGTTT CCATCTCTTCGGTCATGCTGCCGACAAGCACGTTCAGCTCGCGCTCTTCAAAACCGAAGA CCTCAACGTCGCCCAGCACCAGGGATTCAAGTTCCTGCTGCAATTTGATGGCGTCGTAGT CAATACTGGCCAGGCGGTTGTCTTCCAGGCGTTTTGCCTTCACTTCTTCTTCGCTCAGGT CGTCGCGAACGATGACCGGCACACGCTCCAGACCAGCCAGAAGTGCCGCCTCGCGACGAC CGTGGCCAGTAATGATGACGTCGTGCTTGTCGACCGTGATCGGCTGGTCAAAACCGCGCT TTTTGATGGCGGCAGCCAGGTCGCGGATCTGCTGTTCGTCATGTTTTTTGGCGTTCATCT CATACGGGATGAGTTCTGCCGGGTTTCGATAGACGATTTCAAAGTTTTTGGTCATTACAT ACGCTCCTTGTAGTAGTCGACCAGCCACACCAGGGCTTCCCCGGCGTTCTCCATTTCGTT ACCGGTATTGATTCCCTGCTCTTTGATGATGGTTTTGATGGTGTCGGCGACGCGATCTGA TGCATCAAATGTCACCTTGAAGCGCATCGTCTGGTGTTCAGCACCGACTCGCTCGGTTTT CTCGCGTTTGTCCTCTTCGATCGGCTCGTCATCTCCACGGGAGAGCGCTTCCAGCGCTTC AAGATCGATAACGGACGCTTTGGCGAGTGTTGCCGCCATTTCGTCGTCATACGGGGCGAT ATCGGACAACCGGTAGTCGATTTCAGACTGGATTTCTTCGATTAAGCGCTGCAAAGCAAC CTGATCGTCTTCGCCGTAGCGCTCGTTATCGACGAGGGACATCTGTTTGGCCACCAGGTC GTTAATTTTGCCCACGGAGATGACGGGAACCGTTGAAATGCCCTGCTCCATCGCGGCACG CCAGCGGTGTTCGCCACCGAGGATCTCAAAAATGCCCCCGTCCAGCTCCCGCGCCAGAAT TGGCTTAAAAAAGCCCAATTTTTCGATAGAGCCTTTCAGTTTTTCGAAGTTTTGCGCCCC AACGGAGTTGGTATTCCAGGGATTCGGACGCAGGTTCGCGACTTCCACCTGCAGAATCGT AATTTTCACATCCATAATTCTGATACAATCCATTATATAAGTACTTACTTACTATAATAG CCAATTACCATACAAAAGGCACGAAGGAAAGAGGTTTATGACAGTTCGGATTGTATCGAA TGCAGTCAATGCGCTGATTTCTGGCGCTGATGACAACGTGAAGCGGCTCGTTCAGGAGAT GTTGAGCTATGAAGTGGAGGCTGGTGACTGGAAAGGGACCAGCACGATGTTCAACTGGAG CAAAAACGCGTTCCCGGCTGGGTTTGCGAAGCCAGTAGCGGCCAACCTTCTGAAAGCTGG CATCAAATGCGTGCATGTGCGCAAGGAAAAAGCCCCCGCGCTGGGCAAGCCGAACCCGGT AGTTAACCCATTCCCGTATAACCCGGACTATGCGTATCAGGATCAGACTGTGGAAACACT GGTGCGCGAAGGGATGATGATTGCCCAGATTGCGACGGGTGGCGGTAAATCGAACGTAGC GTGTAAGGCAGCTGCTCGCATTGGTCGTATGACGCTGTTTTTAACCACTCGCTCGGTTCT GATGTTCCAGATGGCAGAGAACTTCCAGAAATCAATCGACTACCGCGCGGAGAATGGCGA GCCGTGGCTGAAAGGTCAGAAAGTTGGGGTGATTGGATCTGGTGAGTTCCAGGTCTCGCG CCATATCAACGTTGCCACGGTGCAGACCCTGGCCAGTTTTCTCGAAGAGCCGCCGCGCGA TGCCTCACCAGAGAAAAAACGGTACCACCTGAAGCGCCGGGAACTGGTTAAGCGCTTCCT GTCCAGCGTTTCTCTGCTGATTCTGGAAGAGGCACACGAATCATCTGGTTCAAACTTCTA CGATATCGCCCGGTTGTGCATTAATGCCGACTACCGTCTGGCGCTGACTGCTACGCCGTT CATGAAGGACTCAACCGAAGCAAATATGCGTCTCATGGCCGTTGCAGGTCGCATTGAGAT AAAGGTGACGGAAAAATATTTGATCGACCGAGGTATTTTAGCAAAACCCTACTTTCTATA TCATAAAATCGCGTACACTCCAGACGAGGTGCGAATCAGGGCCGAACTTGCTTCGAAACA CCTTAACTTTCGGGTTGGGATGAGTACGGCTTACCAGAAAGCCTATCAGTTAGGCATCGT TTACAATCTGGGCCGCAACGAGGCCATTGTGCGCGAAGCGTTAATGTACAAAAGTCACGG TCTAAACTGTATGACGCTGGTTCGTTTGAAGCGTCATGGTCAGATTCTGATGGAAATGAT GAAGGAAAGCGGCCTGAAGGTCGATTTCATCTACGGAGAATCAAACCAGACTACCCGACA AGCAAAGCTCAGCAGTCTGGCGGCAGGCAGGATAGATGTTTTGATTGGTTCAACCATTCT GGATGTTGGCGTCGACGTTCCAAGCGTAGGTGCGGTGATTCTGGGTGGCGGTGGCAAAGC CGAAGTTGAGATGCGCCAACGAGTTGGTCGCGGTCTTCGAGCCAAAAAGAATCAGGCTAA CGTGTGCTTTATTACCGACTTCATCGACGTGAGCAATAAATACCTCATGTCGCATTCATA TGAGCGGAAGCACATTATCGACACGACGCCAGGGTTTGCCGAAGGAGTCTTGCCGGTGGG TAGCACATTCGATTTTACTGTTTTGAATAGAGAGTAAGCATGAGCGAGAAACGCGCTATA CACTGCCAGGTTCAGTTAACCGAAAAAGCTAACGACAAGCTGGAAACCTTTCAGAATCGA CTGCGTGAGCGCAACATAAAGCTGTCAAAAGCAGACGTCATCAATCTGGTACTGTCCAAC ATGACGATGGCCGATTTTGATAAGGCGGCTACGTCATTAGAGGCTTCTGCAAAGGCTCGT GAAAAGGTCATGAAGATTTACGAATCCTCTGGCATGACCAAAGAAGATCTGGCCGATATT CTCAAACGTCTCGATTAAGCATTAAGGGCGTCGCAAGACGCCTTGTTCGTTGAAGTGATA AGGATTTAGTTCAAGCCATGAAACACGTTCTACTTCCACTGATTACCATCCCCGTTTTAC TCCTGAGTGCATGTTCATCCCGCCCAGTGTCTGTAGCCAATGCAAAACCGGCTCCGCAGG CAAGAGTTTTCAAATACCAGACGTCTGCCCCAACCACGCTGGTGGTTATGAGGGACAAAG GTATGATAGGTGCGGGCTGCGACGCATCCATCTTCATTAATGGAGAGACAGTTGCGAAAC TGGAGACCGGCGAAAAAGCGACGTTCCATCTTGATGCCGGGCAGTGGATTGTTGGCGCCT CACTTGAGGGCGCCGGGCTGTGCGCACTGAACCCTGCTCGTCAGGAACGCGAGACCATCA CCAAAGCTGGCGAGACGAAAGTCTTCCGGGTATTCACCAGCAACGCAGGTGACATCGATA TCCTACCAACGACACTGTGACGATATGACGAATAAAACTGACATCACCTACGGGATTCCT GCAGAAGTCTGGCCGCGCGATTACTCCAACGTGGAGAAAGCGCTGATGTTCTGGCGTAAG TCTCTCATTCCTGTAAGGGTCACGATGGAAGATGGTCAGGTGTTCTGCATGTACGTTCAG GGTCTCATGTCGTCGCGCAACAAAGTCGACCTTTGCCCTGCCCCGTTCGACAAAGAAAAT CGTATAAGGCTCCCACTTGAGCGAATCAGCACGATTGAATCAGGTGTGACAGAAGGCATT GCGCACGATTTCACGGGTCGGACAACGGTACACCCAGACTATGTGGACAATCGGCCATCT CGCCGTGATTTCTTTAAAATTTGTCGCCAGGCTCATGAGATGCAGAAGTCTATAAGGGTC TACATGGCGGATGGCCGTGAAATTGAGGGGGGGTCTTCAGGCGTAGACGCTTGCCAGGCC ACGCTCAACATGGGGGACGGTCGGAAGACAGTCGTCATGTTCGATTGGGTCGAACGGATT TTACCGTTTTAAATCTATAAGGGTAATAACCGGCTAAGTCCGGTTATTATTTTATGTGTC ACTTCCCGTTATATTTACCTCCCCTAATCCCGGTTCCGTTTTAAATATATAAGGGTGATT GACCGAATAGGGAATTTATTTAGGCAACACCTTCGAGAAAACGCGTTTTATTTCTAAGAC TTTGATTTTTATTGAAGAAAATTTTTTTATTCCCGCGCAAAAAACTCTTGATTTTAATTT TTGTATATCGATAATTAGTCACATCGAAAGCGAACACGCTAACGATAAATAAATAACAAA TTAAGTTATCAATATTACATAAGGATTAATATCATGTCTAACGTTGCTATCTCTAAAAAA TCTATCATCGACGCTGCTGTAGTTATCGCTAATGAATTGCAAGTTGCAGCCAACAATGCG ACTCAGACTTATAACAATCATTATCAGAATGGTACGCACACCAAAGCAGATAAAGCTAAC ATGCTTGCAGCGACTACCAAACTTGCATACTTTACCAACAACGTTTTAAACGCTGTTAAT GATGAGAAATTAGCTGGTGTCTTTTACTACGCGATTAAAGCAAGCAAACAAGCACCTGAA GCGTTTTTCCGTGAAGCTATGACCAATAGCTATTCACTCGAAAAACTGGTTTATCTGGTT AAATCTATCAAGTCTGGTAAATGCGTTTATTCCGTCGCTGATATGTCCGGATCTCGCGTA TTCGCATTAATCGAAATGATTAATGATGAATTGGAAACATTCACTAATGGCGCTGTTTTC GATTTGATGAATGAAGCGAAAAAAGCCAACGAAATTAAATTGGACGCTGGCTACACTCAA GCCAACCAACTAATCAATCTTTGTGAACGTCTCGGACTGGTCGAGAAGATCAAAGGAATG GGCGCTGCTAAAAACGGATCGCAGCAATATCGCTTTATCAAAAATGATTTTTATAACTAT CTGGCTGACGCTTTCAAAGCGTAATTAATTGAATATAGCGCCCACTATGGGCGCTTATTC AAAAGATCTTAAGTCTGTATTCAATTTTATTTTTTAAGGAGCGTTTTTATGGTTATTTTT ATCGCTGGCGTTAACATCCATAATCATACTCTTGTTTATGATATCGCTGGTTTAGCTGGA TACGCTCTCAGCTCTGAAGTAGTCGACGAAACCACGTTTAAAATAGATCTGAATAGCGCG GAGCATAGGAAGCGCGCAGGAATCAAAGAATCCGATGTTCTTTTAATGATTCAAGAATTT TTAAACGCTGGCTTTAAAATTCACTTAGAAAAATAAAAACAATAGCGCCCACTATGGGCG CTTTTTTCGTTTCAAGATCCGCACACCATAACGCGCCATTGTTGGCGCGTTTTTTATTGT CTGAAGTCAGCCAAAACAGACCAAAAATAAGCGCCATAAACGCGCCAATTTAACGCGTTT TTATGTGTGGTGGTACATACTCATTACCCACAATAAAAAACACGTTATAGCGCGTTTTAG CGCGTGGCTTATTTTGTCGTGTCGTGGGCGTGATCGTCTGGCGATATCTGGCGACGTGAT CCGCGCTATCCTTCGGGACGTGTCGGCAATATTGGCATGATCCGTGGGCGCTCGCGTATC ATTGGCACGTTGACGCGACGTGTACGCGCTTGCAGTGGCTTTCCCACGGATTCACATAAT CACATGGCGAAAGCTATCTGGGTGGCTCAGGAGCTGAAACTCCACCGGCAACTACCCCAG CGCCGCTACGCAATTTCTGGAGCGATTTTTGGCTTCTCCCGCTCTGTTTTCTACATAAAG GCAAACCCCGCCGTTTCCCGAAAATTCCCTGGCCGTTTCCCTTCGGTTCCCCGGACAGCT CTCTGGCCGTTTCTGAAGTTTCCCTGCGGCAACTGGTGGACGAAAAGAAAGGGGCGTTTC CAGCCCCTCCCCTCTTACTTGCCAGCCAGGATGTGAATGCGGTTCTTTCCGTACACCTCT TTCACGTAGTCCCCGCACGAGATACTCCACGAGTCGATTCCTGCTTCATAGATGACGTTT TTGCACTTGATGGCGTTGTTGGCGATGCGCATCCCCTCCCCCACTGCTTCCTGTTCGGTA AAGTCGAATCCGGATTCTGTTTTAACCCATAGCGCGATCTGCGTGGCGAACTCGATGAGT TTTGACCGGCAGAAGCGACCGCTGCGTACCGGGAAGATGAATACACCAAATCCCGAGGTG GAGACATACGCTTTTTCAAATACGCGCTTATGGCGACGGTTGCAGATAATGTCATTGGTG ATCTGCTGTTTCTCTTTACCGGACAGCTCGATGGTTACATTGTCACGCCAGGCGCCCAGC ACGCTTTTATCGTTATCAGAGAACGTCACAGAAATATGGCCATGCGAAGGGGTGTTAACA GTAGCGATAAAATTCATGGTGATAATCCTTTAAACAATTTGTTTTCTTGTTGGTTTAATT ATCGCTACGCGCATAAGGCGTCCAAGCGTTCTGTTCCGGCAGATGGTGGCCTGCAGGGAG TCGGAGGGTTGTTCGGTAGCCTGGCGGTAAGAGGTGGGTGTTTTTAGCCTGCGGGAAACA GGATGGCCATTTAAGGCCACCAGCATGGGTGGCCTCGTTCTCTTAGTGGAGCAAACCGAC GTCGATGGTATCGCCTGAGCCATCCACGCGGATCATCAGCATGGCGAAGGCATTTAATGG GTAGCCTGCGTGCCAGCCCGGGAATCGGTCATCGCGCATGAAGTCGGCAATGTCATAAAC GCTGCCCTCAAAGTGGAAGAAGCGGGCATCACACTGTTCGTCCTGTTCAATATGATCCAT TTCTCGCTTCTCTTCCGATGACAGGTCGAGCCAGGATTCCAGCCATACGTTTTCAGCTTT AGGGGAGATAGTGAAATCGGTCATGTGCATATCCTCCATGCGTAAACATCTTGTTTTCTT GTTGGTGTAATTATCGCAATGTGGATAAGGCAAAAAACATTTTGTTATCGGGTATAATAA ATATCCTCCGGCATAGCCGGAGGTTTTTCATATGCGCCTATAAGGCTCTGTTACCAGCCG CGCCCTAACAGGCGCATCGCGATCTGACATTTGCATCTATGGATTACTTACGGCCCGTAA ACGGGCTACCGGGATACGGGATCGAGAGTTGCTCACCCATTTTATCCTCTTCCAATTGGT GCTTTATGTATTCTTGTATCCTGGCCGTGTTTTTCCCTACCGTATCAACGTAATACCCTC GACACCAAAACTCCCTGTTACGGTATTTGAACTTCAAATCGCCAAACTGCTCATAAAGCA TCAGACTGCTCTTTCCCTTCAGGTACCCCATAAATCCCGAGACACTCATCTTGGGCGGGA TCTCCAGAAGCATATGGATGTGATCCACACAGTATTCTGCTTCCAGGATATTCACGTTTT TCCATTCGCACAGTTTTCTTAAAATACTGCCAATCGCTCTGCGTTTTTCCCTGTAGAACA CCTGCCTTCGGTACTTCGGCGCAAAAACTATATGATATTTACAGTTCCATCGGGTGTGCG CTAAGCTCTTTTCATCCCTCATTGGGACCCCCTTTTGATTTCTTGTTGAACATTTGCAGT TGCCAGACCGCAAACTGTTTTAACAAATCAAAAGGGGTTTTTATAACTGACCCAAAGCTG AAAGCTTTACTGAACCCCCAGCCTAGCTGGGGGTTTTCTGGGCACAAAAAAGGCCACTAA ATATAGTGGCCTTATGTTAATAGATAAGCACCTACCTATCAATTATCGACTTATAAAATC CCTGCAAGCACATCGCGAACCTGACGGAATTGATCAGTTTGCATTCCGGTGTAAATCGAC GCGACAGCGTCCGCAAGGTGCTCGTTTTTATTCACCAGCACTTCCTTACCAGATTGCTTG CGGCGCAACCACGGGGCGTTTGGCTGCTTCTGCGTAGCCCACTGAATGATCTCTTCCTTC GACGTGGTCAGCTTATTCCCGACATAGTGCTTAATCTCGTTTGGCGTGACCTGTATCAGT GGCTTATCCACGCACGCCAGTACGCCAATGCAGATGCCGTATGAGGTTTGTGCGCGACTG GACTGGCTACCAACCGGCAACTCGCAAAACACCATATGAGCCTGCTCGATTATGGGCTTG GCGGTGCGCCAGATTTCGTTAGCGCGGCGTAGATCGTCGCTGTTTACGCGAACCGTCTTC TTGTTGCCACCAGCTTTGGTTTCCACCAATGTCAGGCCATGAATGTCCAGCTTATCCGTT TCCAGATCCAGCGTGCCAATCGCCAGGCCAAAGTTGCTCATTGAAGGGTCGACGCCAACC ACACGAATGGTTTTACTCATTTTTTGGTCTCCTTACCACGTAGCCCAGGTTGGGCATTCC ATTAGTTTCTGTTCAAGTGTCTTCTCCGGCTCGCGAGTTGGCGGCTTCGGAATGTCGCTA ACAACATGAATGCTATCGTTGGTTAGAACACCTGCAGCAATGTCTGCATCAATCATGCTC TGGCCGATGAAATGTCGCATGATGTCGATCAGATGGTGTGCAACCTTTTCATTCGCGCTG AATACATGGGGGAGAAGAACTTCAATAACCGCTACTTCACATCCCTCCTCGTAAAAGCAG AGTTTCGCCCGCTTTGAGATTGGCGCGTGCCGATCATAGTCAACAGAGACGCTGGCGAAA GCAGCACCAGGCATTGCAACGTGATCAGCGCGTGCGTTAGCGTGTCGAATCAGATTGGTG AATGCGGTGCTGATGTGCGTCTCCATTGCATTGAAGAGCGCATTTTCTTGGATATTCAGC GTTCCGGTTTCAGGTATCGCAACGAACCCCGGCCCAGAATGTGGGAGATATCCACCTTCC GTAAATGGGTTAACAAGGATCGGCGCAGTGCTTCCTGACGGCAACATAGCCAAGCTCGGC ATCAACGGAGTCGATGACAACAGACTGGTTAATACCGAGAACTGGTCGTCATTGATGTTT TCGTTTTTCCACAAAAGTGCAGGCGCAGCTGCTTTTGCCGTATGGTGGTTTATCAGCTTT ATAGATTGCATCACGGCAAACATCTGCAAAAACTGCGTGCGGCTCAAGTTAAACGACATA GCTGCGACCCTCTTTGACTTCGACAGTGATGGTTTCCCGGAACCACGATTTCATCTCTTT GTGGGAGATGATCATCACTGTGCCGCGTTCACGCGCTTTGGCTTCCAGAATCCCCATGAG ACGCTCCAGACCGGCAGTGTCGAGCGCGTCGTCAATTTCATCGCCGATAAACAGCTCGAT ATTCTTACTGGCGCGACTGGCAACCAGATCCTGCAAGGCTAGAGAGCACGCAATACGTAC CTTACGCTTCTCACCACCAGACAACGTCTGGAAGGATTTGCTGGAACCTGTTTTGGTCAC GCTTATATTGAATTTGTCGCGATACTCGCCTTTCTTCGTTGTCTCCATTGTCGACCATTC GGCAACGATATTGCCGTCCGATAGCGTGTTGAGATACTCCGCAGTCCTGATGTTCAGGAA AGGCGTAACGGAGGTCAGGATGTGTGAACGAACACCTGCAGGGGAGTAAACCTGGCGAGC CTTCTCCAGCAACAGAGCCTGTTCTTGAATACTCTTTAACTCATTTTTAAGTACTGCATG ATTAGATTTATTGGCAGCCAGGTTGTCCTCATGACGCTTAATAACGGCCAGAAATGGGTT TACCTCTGCCATAATGCGATTCACATCGGTACGCGCCCGCGCCACCATCGCTTCGACGGC CACAACTTCACGTTCGCGATGACGCAGCGCACTTAGCTCATTGGTCAGGCGTTCGATTTT GGCGATGATTTCTGAAACGTCGGGTGTGGCTGCGACCAGTGCAGATTCGATGCCGAGCGC TTTCTCAAGACGAGCTTTGTGTTGAGCCACTGCCGAAGCTGATGCTTGCGCCTGGCCGAT CTCATTACGCGCTTGTTCAATGAAACTCTCCTTCACGGTGGACAAATCTTCTTCGCAGTA GGGCTTTCCGCAAGTAACACAAGGTGCTCCGACCTTTGTGCTGACCTCTTCTGCTTTGGT TTTAAACGAGCGAGCACGGTTCATCGACTCGTTCTGTGCCGCTTCTGAAGTGCGGATGCT TGAGCGGATCTCCGTAATCGCACCGCGCACCTTCAGCAGTTTGGCGTCATGCTCTTCTTT GGAGGCCAGCTTGCAGCGTTCGCCAGCAATCGCGTTTTCCGTATCCCGGATCTGTTCCGG CAGCGAGCGAATTTCCATCACGACTTCAGACAGCGTTACCTCCGCGCCAGCCAAATCTAC GCGGGCCTTGTCCAGACGTTCGCCGCGATCGCGTTCCCAACTATCAGAGGACGCTTTGGC CGCCTCAATCTCTGACTGCGCGGTCTCGATAAGCGTGAGACAGGCGTCCATTTTGGATTT GGTAACATCCATGCGTGCGGCAGCTGCATTAGCACGCTCGCGAGCAATGGCATAGGCTCG CGTTAACCGGTCGACGCCAGCGGCTTCTTCAACGATGGTTTTGAGGTTCTTGTCGGACAT ACCCGGCAGATCTGGCATTGCTTCCTGACTGGCGTAGATGGACGCCATGAACACCTCTTT CGATGCACCAATCAGGCGTTCAACGAACTCCTGCGTCAGTGTGTCTTTGCCTTTGGTCAT GTCACCGTCTTCGCCACGGACGATCAGCCGGTTCTTGAACTCTTTGTGTTTGCGGTGGCG AATGATGGCGTAACGCTTTCCTTCATCCTCAACAGTTACCATCACACGACAGTTTTTTTC GTGACCTGTAGACAGCACGTCGTCACCTTTGACGCCATGCGCAGTTTCGCCATACAGACA CCACATCAGGCTGTTCATCAAAGTCGATTTGCCCGCGCCATTGCTGGCAGCGGAAGAGTC GCCACTGTTAACACCCTGAATGAGCACCAGACCGCGTTGGTCTAACTCAACTTCGGCGCT GGCTAACGCCATGAAGTTCTCAACCTGGAGCTTTAGAAATTTCATACAATGCCTCAAACT TTTTGATTCAAATGCTGGCCTTTTCGTAGTTGAAACTCCGTGTGAGCCGGGAAGGATTTG CGTTTTAGTACGCCCTTTTTGCTCAATCTTCCCAGGTAAAACGCCACAGGGTTTCCATTA GGTGGGTAGGGCTTGTGGAACATCACCGTCTGGCCTCGTTCAAGTCTTCTCATTGTGGAG ACGAAGTCCCGAAAGCTCCCAGAATGGTTCGTACTCACACTGCCTCCGCACTCTCCGCTT CGGTCAGGATTTCCTGACACAGCATGTCCAGCTTGCTCAGGTCGAAGCCGCCATCAGTGT CGTGAACGATCTTGCAGTACGCCGCGACGGACTCGCCCAGGCTGTCTATTTTGCTGGTCT CCGCAGTACTGGCAGAGCCTTCCATCATCGATGCCTTGCGGATGAAGTTGCAGACGACAC CCTTCGCGCCCATTGTTTTCAGGACGTTCTGGAGTTTGATGCCTTCTTCATCGTTCTCAA CAACGGCACGAAAGCGCACGTAGTTACCGCGAATTTGATCGTCTTCCACATCGTCCTCAA GGTTCACGAACTTGGGTGCAGAGGTTTCGTGGTGGGTGAATGTGCCGTCAGGGTTGACGA TCATGAAGCCAGCCAGCGAGCCAACATCACCCCAATTCTGGTGCGTCAGCGCCCCGATGC TAACCACCCCAGGCAGCACTTCTTTGTGGTTGTGGTAGTGTCCGGACAACAACAAACGGA AGCCGATATCTTTCAGTTCCTGTGCGTCGATGCCGACATCAGGCATGGTAGGGATCGCTT TGTTGATCGAGGTATGCACAACGACATCGTGATTGTCGCCATCCAGCCCGGAACGCAGTG TTTTGAGGTCGCTGATAAGCTCTGCGTGGTTATTGCGCCAGCTAATCAGATGGACGGTAA CGTCGCCAATTTTGATGGAGTGAGGACGTTTGCCGCAGACGATTTCCACACCGATTGAGC GCAGAGAGGCCGCTGCATTGGCGCTGTATACGGAATCGTTGGTTTCGAGGTCGTGGTTGC CGGCCAGCATAACCACTTCGAGGCCCAACTCTTTGATGATCCACTCGTAAGTTTCGGTCA CGAAATGCAGGACGGAAGGCGATATAGCACCACGAACATGGAAAGTATCACCAGCCACCA GCATGTGCTTGCAGCCCGCAGCTTTCATGGCTTTGGCAGCTTCTTTCGTGGCATCCAGTT GGATCTCCAGTCGAGAGTTCAGCCCGTCAGCGTTTGTTGTCGCAAAAGCATCCCAACGAT GATAATGGGGATCTGATATCACCCCGTATGGCAATGTCATGTGTCTTTTCCTTTGTGGTT ATTTTGATACAGATATTAAGCGTGCTTGAGAGGCGAACAACCCAGACAACACGGCACAGA AGAAAATCTACAGGCACATGATTATGACAAAATACATAAGTAAGTGAATACCTATTTTCA TGGCGGTAATGATTTCTAAATGTAACGAGCAACTCTTCGTCACGTCAGAATTTATAGGCA TGTCTCTAGAATCCGCTCTCAGCAGTCTGGGCTTTCGTCACTGGCAATGGACCGAGATCT GCGCATTCGAGGCTGCCTTACCGGCGCTTATGCTTATCCATTTGCTGGTAAAAATGAGCC AGTTATTCGCCAGATAGCCAGAATGCTTTCTACTTTATTATCATTACCCATTTTTTTAAA CTCTTACGAACTGTTCACAGTAAGAGGTAAATATTATGTTCAGATGCTTGGCTTTAACCG TTTCACTTGCATTTATCCTGCCCGGCGCCCTACACGCGGCGGATACCCGGGAATCAAGCT CATCTATCAGGGATATTAACGTCATTACTTTTCAGGGGGGGTGGAACCTGCCTGTTTGGG TTGCCCAGGAAAAAGGCTTTTTCAGAAAAAATGGTCTTAATGTGAAAATGGATTACACAC CCAATTCCGGTCAACTGGTCAGAAACCTGCTGAATGGCAAGTATAATATTGCAGTAGCAG GTATTGATAACGTCATCGCGTATCAAGAGGGCCAGGTGAAAGAGCCGGTAGTGAATCCGG ATATGTTCGCGTTTTATGGAGTGGATAACGGGCTTCTTTCATTAGTTGCTAACCCTCAAA TTAAGAACATCAGTGATCTTAAAGGAAAACAAGTTTCAGTCGACGCTTTGACCACTGGCT ATGCCTTTGTTATCCGGAATTATCTTGAGAAAAACGGGCTGACACAAAATGATGTCCACT ATACAAGTGTTGGCAGTACGAATGATCGCTTTAATGCACTTCTCGCCGGTAAGACAGATG CAACACTTCTCCGTACTCCATTAAATCTGCAGGCGAAAGAAAATGGGTTTAAGATCCTTG CCTCCGGAAGTGAACTTGGCGACTATCAGGGCACAACTGGCATTACAACCCGCTCCTGGG CGGCTCAGAATGGTGATATTCTGGTAAGTTACATCCGTAGCTATATCGACGGACTGAACT GGATTTATGACCCCCGTAACCAAAAAGAAGCAGAAGAAATTCTGGTCAAAAAGGCACCAG GAATGACGGCGGAGCTGGCAGGACCTGCATTACAGGAATTACTTAACAATGGGCTGCAAC GGGATGCTGCTATTAATGCAGAAGGGGTAAAAAATGTTCTACTGTTGCGAAGCAGGCTTG CTAAGCCAGAGAAAAATCTGACAGATACGCATAAATATTATGATACCAGCTATTATCAGA AAGCAGTGGGCTTAAACAAGCAAGAAACAGGCAAATAGTCTCATTACAGGCGGTTGTCTA CTGGACAATCGCCTATTTACCTGGAGTGCATTACTATTATTTATGTGATGCGTACCAGTA AACATGTACCTGTTTTAACCTAGTACATATTTTTCTTCTGACCACTACTGAGATCCTAAT CTCTCTCGTACTGTTTTTGTGACAGATATTTTACTGTCACTATGATTAACGGGGGCTGCA AATTAAAAACCGGCCCTGCTCGTTCGTCTTCATTGCCAGCTTGGTCTGCCACAGCCGCCG CCCTTGAATAAAATTCACTCATGTATTAATCCCTAAAGCTCTCAGTGTCTTTCTAAGACA CCATATTTTATGCCCCGGTAAAACCATGAGTTTACGTTTAAAACGTCTCAGAGGGCTTCT GACGCGCTACGCTGATGTCGATTACCCCAGCTTTTGGGCGAGGGTCGACAAGATTCAACT CTTCAGCACTGTGATACTCCGTATCGAACTCCCGATCGACATGGCGAATGTAGATGGCCG TGAGAAGGCTGTCGTCGTTCAGGAAGTGTCCGTAGGATTTGCGGATCACTTCGCCAACCT TATCAATCTTCTCTCCGCCCATGCAGAGATGGTTAAACCGGCTGTGTTTCCGCAGCATCT CATCCACGGGGCCGGAGTAGACTTTATCGACTCTCCCGAACCGGATGATATTTCCAGTAT CAGCCTCAACCAGACAAACGAGCTTGCCAGGTTCGACCCGGTCTCGCCATGTTACACCAG AGCGGAGCGTGTTGAAGTAGGGTGCGTCCAATCCGATGATCGGTTTACGAAATGCCAGCA GTGGCACGTAACGTATGCAGCTGTTCAAGTGGAAGTGCGCACCGGCGTCGTAGAGTTTGA GCCGAGTTTCGTTAATCGGGCACTTCGACGCTATGCCGCATAGGTCGCAGAGCAATTTCT GTTTGTTCAGGATAGTGTTCGATTCAATGGTGTAGGAGCCATCTTCAAGACGGCGAACCC AGCGCGTGCGTTTGAGATCCATAATTCTTATTCAAATAGTTTTGTCCGGGGCAACGATAA CTGACAAGGCGCACCGATGTTTGCAAATGCCTGTTTTACTTATACCCATTATTCACAGGA CCGATCCAATAATTAGATCCCCAGAGAGATCCTACAGAAGATCAAAAGAGATCCCCGATC GTCTCCAGCCGTTGCGGTTACTGGCCTGAGAGGGGGTTACTATCCACTATGGGGAGCAAA GTAACCTCTGTAGAGAGCATAATAACCGCTATGAAGAGCAAAACAACCTCTCTGGAGAGT GGTCGGTATCCACTGTAGTGAGTAGGAGGCATTGTCTTGACTGGATAACTCTTTGCCTGT TTTTCTGTGTTAGATAGCTGATATTCATGGATATATCGTTAATCTTGCGTTCAGGCGTGT TTGTTTCCACCACACATTATCCCCAGAAAGGGAGTGATGGCTGGTTTTGCAATTACCTGA TTTTTATACACAGGCCCGATCCAGTAATTCAGATCCCAAATAGAACCAAAGAGACCCACA AAGACCCAAAAAGATCCCCGCATCCCGCAAACCGTTGTGCCATCTGGCCTCAGAGGTGAT CGATATCCACTATAGAGAGAAGATCAGCCACTATGAAGAGTAAACCAACCACTGTAGAGA GTAGAAAAACCACTATAGGCGGTAGGATAACCGCTGTGATGAGTGCTAATATCCACTGTA ATCAGCAAAGGCCACCAAAGCCGTCGAATAAAAAGAGACACTTGGAATGAGCGAAAACGG CAATAAAAACATAGCGATCGTTGAAGCATTCTCAGAAACAGACAAAAAGACAGGCGAAGT TGTTACGTTAGTTCCTAACACCAACAACACTGTTCAGCCCGTTGCTCTGATGCGTCTTGG TCTCTTCGTTCCGACGCTGAAATCGACGTCCAGGGGCAGGAAGGGGCAAATGGTCTCTAT GGACGCCTCTGCTGAACTCAAACAGCTGTCTCTGGCCAAAGCCGAAGGGTATGAGGACAT AAGGATCTCCGGCGTTCGTCTGGATATGGATAACGACTTTAAAACGTGGGTAGGCATCAT CCACGCGTTCGCCAAGCACAAGGTTGTTGGCGACACTGTCACGTTACCGTTCGTCGAGTT CGTCAGGCTCTGTGGCATACCAACGGCCAGATCGTCCGCGAAGTTACGTAAGCGCCTGGA CAGTTCTCTAACTCGTATCGCCACAAACACTATCTCATTCCGCAGTAAAGGCTCTGATGA GTATTACGTAACTCACCTTGTGCAGACAGCAAAGTACAGCACTAAGAACGACACGGTCTC GCTGCAGGCTGATCCTAAGATTTTCGAACTCTACCAGTTCGACAAAAAGGTTCTTCTGCA ACTCCGGGCAATCAACGAACTCTCCAGAAAAGAATCCGCCCAGGCACTCTACACATTCAT CGAAAGTTTGCCACCTGACCCGGCACCAATCTCGTTGGCTCGCTTACGCGCCAGACTTAA CTTAACCAGCCGCACCATTACCCAGAACGCGACAGTCAGGAAGGCGATGGAGCAGCTGCG GGAGATCGGCTATCTCGATTACACCGAAGTGAAGCGCGGCAGCTCGGTCTACTTCATCAT CCACTATAGGCGGCCGAAGTTACGCCCGGCATTGCCACCAACTAAAGCTGCGCCGGAAGA ACCAGAAGAGCAGGAAGATAACTTGCCTGGCGATGGTCAGGAGGACATCATCGATGTTGT TCCTGAAGAAAAAGACGGTGAGATGGTCATGTTGAGCAAGGAAGAACTGGCGATTCTCGA AGAGCTGCGCAAGGCAAAGGCTCGCAAATAGCCCAATCACTGTAGAGAGTAGAAAGGCTC ACTATCCGCTGTAGTGGGCCTTTTGTTTATCTGAAGTCCGCTATCCACTGTAGTGAGTAA CAACAACCGAATAGTAACCACTGTAGGCAGTAGCGCTCAAATAACGAAATGAATGTTAGT GGTTACAAACCTAGATGAAACAAGGGCTGCGAGGTTAGTGGTCACTGGGTGACTTGTTAA ATCCACTCTCTATAGTGGTTATCGTTGCTCCCTTCGCTATTGGCTATCCACTATGGAGAG CAGAATCGGTTGGCTGGATTTACTATCCACTGTGGAGAGTAGACATCCGCTGAAAACAGT GAAGGTTTACTCTCCATAGTGGATACCCGCTGGAGGTCGCATTCCATCACTCTCCATAGT GGTTGTTTGCTGTGAATGAACGCCTGTTTACTCTCTACAGTGGATAGTGAAGTCGATAAT CACCACTTTACTCACTACAGTGGATACCGGATGCCACGGCAGCCGTTTTACTCACTACAG TGGTTATGACCCAGATACGCGCGCGGTGAGCTGGCTACTCACCGCAGTGGTTGGTGTTAT CAGTGGATTTTCTTCAGCAGACCCCAGAGCGTTCCGGCCTTCGTCGTGAGCTTACCTGTT TCCGGATCGTACATGCGCCACTCGCGACGCTGGTGGATAATGACACCGTCCTCACGTTCC AGTCGCTCCAGCACGCCGGGCTGTTTAAACCCTTTGGCACGCCAGTAGCCGCTTGTTTTT TCGATTTCAAGACCTGCCATTGTAACCGCCATCAACCAACCTCCTTGCAGTCATCGAAAA GGTAGCTGGCGTTCTTCGCGTGAACGCCGTAAACATCACCTGATTTGTCGTAAACGAACT TATCTTCACCCACGCCAGACAGTTTGCCGTTACGTCTGGTGAGATAGGGTGAAGACAGGA CGCGATCATCGCGCACGACATAAAACTGTTCGCCGCTGTCCACAATCATCGCGCCGTAGT TAGCTTTGACGACGTTGCAGATCTCGTCGTTTTTCACTTCGGCCACAGACATTTCACACT CATAGACATGTGTGTTCGCGTAGACAGGGAGAGTGAACAGTGCCAGAGCCAGGGCTGTTT TCTTCATGCCACGACTCCTTGGATAACGCCGAATGCTGAGTCGAATAACAGCACTACGGC CAGCGCATTAATCATCGCGCTATTAACAGGCGCCAGCGCTTTATGGATTACTCCGGTGAA GATGCAATCGAGCACAAAAGCTATCGAGATAATAAGTAATAAGGTGTCTAATACGGTTTT CATGATAGGTAAATACTAACTTATATATTATTTGCTGTAAATATCACTCAAAAGTGCTGA TGCCTAAAATACGCTCAAGGTGAGCAGCGTCTTCATCGCTTACCGGCGTCGTGTCGTCTA CATACCAACAACTACCATTGCTCCAACAAACACCGTCATCATCGACATGCACAGAATCCG CATCCATACCAGTATACTCAACGAGATTGCGCTCAATTGCCGCTTGGATTTCTTCATCGT TCAGACCGTCGCACTTGACCATGAACAACGGATAAACGTCATAGTCGGTGCTTGATGAAA TGCGAACCAAAATCTTCATGTGCTTCTCCTTGTTGGTAAGTACTTATTTATACTAATGTG CGCCATGCGGTACACAATCATTGTGTTCAGGCTGGTGGAAAGAACTTCTCCAGCGTGCGG TCGACAGCCTTATCAATGTGCATCAGATGCCAGACGACCATATCTTTACTTCCCAGATCG CGGGTGTAGATCACGTCGAACTTACGCCAGGCGGCGTGAAACCAGTGCGGTGTGTCATCA ACCGGCAGATTCTCCCCAGCCTCCTTGAAGTACTTGAGCAGCATGGCCTGTTCAGCGGTT GGCGTCGGGCCAATCTCTTCCGCGTACATTCTGATGAAACGCTGCCAGTCGGCTTCATCT TCTGAAGGTTCCGGTGCGTTCATCTCTGCAATCGCCTCACGCAGCTGCGTCGCCCATTCT GGCTCCGGGAAGCCCTGGGCAATTTCGGTATCCACTACATCCAGCGCAGCGTTGGCCGCG TCATACAGTTTTTTCACGTTTTTTCTCCTGCATCAAAAGAAACACGATCATTGCCGCTCT GAAAGGGTTAGGGTTCTGGATCAGATGTTGTGGTGTTGAGCTATCCACCAGCCTGTGGGC CGCTCTCCACTCGCCAGCCTGTCTGGCTGGAATGATGCCGATTCTGTTTCTGGAAATGAT GTCCCAGGCATCTACCGGATTGTTGCACCAGTCGAAAGAACCCGCTCCGTTTGGCCCAAT CGCAATCACTTTTGTGTAATCTCCAACTTGTGAGCCTTTCCAGCCATATTGTGAGATGAG GGGGCGATGGCCGGTTGCTTCCGCGACCAGGCAGTTAATCTCAAAGTCCGTCATTTCAGC GTAGTTTTTCATTCATCATCTCCTTCTTTCAGAAATTGCGTGGCGTTGTCACTTTTTACT TCAACGGAAGTTAATTCCGTATTAGTAACCAATTTGTTTTCTTGTTGGTGATAATACGGA AATAAAAAAGGCGTCCAAGTGGACGCCGTATCTTTGAAAAGGGTGTTACTTCAACGCGAT AAACGGAGTATTAGCCCCTTCAGTCATGTACTGAGGCAACTGGCCATTCCATTTGTTGAT GGCTTCCAGCTCCATGACGTTCGGGTTCTGACGTAATGCTTCACCGCGCAACTTGATGGC GTCAGCTTCTGCTTGAGCACGTTTGCGGATAGCGTCGGCTTCACCTTCGGCTTGTTCACG CAGCATGTTCGCTTCTGCCTTGCGCTGCTCAACTTCCTGCTGGCGCTGGAGCGTTTTCTG GTTCGCGGTCACTTTGGCATTGATAGATTCGATGACCGTGTCCGGGTAGTCTGGTTTGCC CACCCATGACAGGCTAATAACCTCAATACCTACCGGTGACATTTCTGCCTGAATGTCTTT CAACGCATTGTCGAGCAGAGACGCCTTGCCACCGTCGATGAACGTGTCGGTAGTCATGCG GCTGGCCAGACGGTTCAGTGAATCCGCAATCTTCTGGCGCAGATCAGTGTCGGTAATGTC GTCAACACCTTTGCGATAGGTCTGGAATACGGTAGTTACTTTGTTGCGATTAACCAGATA TGCCACACCAATTTTGTGGCCGATGGCTGTACCGTCGCTCATCTGGAATGTGAACGGCTC ATCGTAGGTTTTCATCTGTTTGAAAGTGGGGAAGGTGTACAGCTCGGTATTCAGACCAGT CCACTGACGGCCAACGCCGACAACTTCACCGATACCTTTGTCTTCACCCAATTTGTTTAC CTTAATGCCAACGTATCCCGGTTCCACGCGATCGCAGCCGGTCAGACCCATTGTGCAAAT AGCAGCCAAAGTCACCGCCAGTAAACCTTTCTTCATTACTTACTTCTCCTTAGTTTTATT GAGTGAGTTGATATACCTGCGGCCAGCTTTTAACAAGGCAACCGGGAAGACTACAGCGAT GGCAAGTCCGATAAAGAAGGCCAGATCGCTTTTAGCTGAGATAAGCGATGGAACCAGTAA ACCGTAGATAAAGCAGACTGACACCACCGCTGAAACAGCCATGAGATAACCCTTAATCAT GTGTTTCCTTTTGTCGTTTTGGTGCAGAAATAATAAGTAAGTACTTATATATTTTCAAGT ATAAAAAGGCGCCCAATGGGCGCCTTGTGATTACGCTTCTTCTGTCTCTGCTGGGGACGA CTCTTTCGCTCGCCGTTCGTCTATCGCCTGGAGTGCTGCGATGATTTCCGGGAGTGGCTT CTCGCGGTACATCTCGACGATCTGCGATTTGGTATATCTCTTATCGCCAATTTCCACACG CCCGCTGGCGTTCTTTGGCAGGTATCCTTCTTCCAGCATGTACTCAACCAGAGATTCGAT GACGTCCAGCCCGCGAGTCGGGTCGAAGTAGAATTTCCATGAGCATTTACCAAACGGAGG CGCGACTTTGTTTTTAATGCACTCGGCGCCAACGTCCTGTCCGATCTTCTCTTTGCCATC CTTCATGACGGATGCTCCCAGACGGATGCGCACCGACGCGTAGAACTTCGGAGAGTCGCC GCCCGGAGACGTAGTCGGATCGCCAAACATCACGCCAATTTTGGTACGCACCTGGTTTAA GAAGATAATGCACGCGTTGTACTTACGCGCCCAAAGCGCCAGAGTAGGGAAGTTCGCACT CGTCGCGCGCGCCAGCGCCGTGTTGTCGTTCATGTTCAGCTGATCTTTGTCCTTCGCAGT GCCTTCTGCCATCTTGTCGAACTTCTCAGCTTTCGAGTTCGGTACCATCGACGCCAGAGA GTCGGCAACGATGCAGATAGGGGCTGTTTCCGGGATAAGCTCTTCGTCGCGCACCAGCTT GAGGATTGTGCCGATCAGCTCAACGGAGTCTTCGAAGGTATCCGGCTGTTTGTAGACCCA CTGACCGTCGTCTTCGTCGGCGTTCAAGCCATTCGCCACCGCAAGACCAACGTCGAAGCT GTTTTCGTGGTCAAGGAATACGGCCAGACCATCCTGTTTCTGTGCTGATACCATCGCAGC CGTCGCCAAAAAGGTTTTACCGGCGCTTGGTGGCCCGAAGACTTCAACGATACGCCCACA CGGAAAACCACCGTCGTAACGTCCGGAAATGGCTTTGTTCAGTGGAGGGAAACCGGAGTC AATCCAGTGGGAGACCTTCTGAATCTCGTCATTGCTGCCGATTTTCTTTTTCAGCGCCAG TGCCAGTGCGGATTTGCCTTTTGCCATGATTAGGCTCCTTTTGATTCGTTGATTCGCTTC GAAGCTGCGGCTTCGTCAAACTTGATTGCGTCGTGGTTCAGGTGTTTGGCGACGCGAGCG ATGATCTTCACGACCTGCTCGCTGACCAGCGCGAACTCACGCTCAGTAGCAGAAATGCCA GCAGCGCCCAGAATGTTCGGCAGCGCCACCACAGCGTGTTCGCCGTGGCAGAAGACAATC TCTTTAGCCAGCATGGTTGGCGTAGTTGCCCCGCCATTAATGATGGATTTCAGCATCAGC AGTACCTCTCAAATGGCAGAACAAACACTTCCAGATCTTCCAGAAACGACCGGAAATTCA GCTCGCAACACATCTGTTCGAAGGCGTTCATGTCGCGTGCGCCTTTAATCGACTCGATTT CGCTGGGTGGGAATTTTGTGTCGATAAGGTTCATCAGCATCATGTTGCGCTTAAAGGCTT CGAGCATCCGGCAGCCTGTCTTCTCGTTGAAGGCGTTCTTTGCCAGCTTGTTGAATGCCG TCTTATAGCGACCTTTGTTGATGACAATGGAGCCGTCGTTAATGCCGCGTACCATTGCGG CCACACTTCCCCATTCATGAAGCAGCTCTTTCGCGCCACCATCACCAATGCCACCTACGC CTTTGATGTTGTCCGAGGTATCGCCCTGCAACGCTTTCGCTTCCAGAAACGCGCGTGGCG TCGGCAGACCGGTCAGCTCTGCGAACTGTTCGAAGTTCACCTGCTTGTGCTTGGCATCTT CACGCAGGCTTACCCAGCTCACATTCTCGCGAACCAGCTGAAGCCAGTCGCCATCGCCAG TCAGCAGGTAGATATGATCAACGGTCGGCTGCGGAGCCAGGCGAGAGACCAGCATTCCTG CCAGGTCGTCCGCTTCTGCATCCTTTGCAATGAGTTGGTTAACGCCCAGCGCGGTCATCA TTTTCAAGATGTACGGCTTCTGGATGGCAAAACCTTCTTTCATCTTCTTCATATCCGGGT CGTCATCGCGATTCGCTTTGTACTCCGGGTAGAAGTCGCGACGTTTGTCGCTGAATCCAT CCCACAAGATCATTGGGCGGGCATGGAGAATTGAGGCGTAACGACGAACGTTCTTCACGA AGCCAAAAGCCGCCTGAACTTCCATCTCGCCGTTGTGTAATTTGTCGGATTGCTGGTGGT AATAGCCCAGGCTGTTACCGTCCACAAAGAGATAATTCACCGGTACACTCCTTCCAAAAA GTAAGGCGTCCGTAGACGCCTTACTGGTCACGTTATGGGATTACAGAGCGTCCAGTTCAG CCAGCAGGTCATCGAGACCTTCGTCAGCTGGTACAGATGCAGCGGCAGCAGATGCGGAAG CACTTGCAGCTGCGGCGGCTTCCGGAGCTTTAACCTTTTCCGGTTTAGTTTCCGGTTTGA ACTCAGCTTCAGCGGCACGCAGGATCTCTTCATCAACCAGGCTGGTGGACTCTGGAGCCG GTGTGTGTGCTGTAGCGACAGCAGCTGCGCCTTCCGTATGACCAGTGATAGAGCCAAAGC CTGGCAGTTCAGCAGCAGCTGATTTTGCAGCGGAAGAAATGGCCGGAGAGGACATTGTTG CTGCCGGAGCCGCAATACCAATCAGACGACCCATAGTGCGAGCCGTAGACAGCAGACGGG TTTCGTCAGCCTGGTTCGCGTATGCGATCAGATCGTGTTGGGTAGTCCAGAGCTTCTCAG GAATGTCGCCTTTGTAGACTTTACGTTTCGGGGATACGTCATACTTGGTGTCACGACCGG AACCGGTACGCTTAATCAGGAACGCATAGCCTTCTTCTTTGCTCAGTGGGTTGCCGATAT CATCAGCAATATCTTCGGACATCACTTTGCAGATATCGTCGAAGACCGTAGACGGCAGCT CAATCAACTGGCATTTCTCTGCGTCTGCAAAGTCTTCTCGCGCAGACAGAACACCATTGA CCAGATAACGCGGTGTAGCACGCATACTGTTAATGCGCTCTTCCATCGCTTTGTTGCCCT TAAAGCGAGCACGACCTTCCATAACCATCTCACACAGCTGGCAAGCGTGGCCGTGGGTGT GCTGTTCGCAGATGTAGGCGGTGGTTACATCTTTGCCTTCCTCATTCTGATGCTTAACGT AGTGCATACCGAAAGTCTGGAAGAACACACCATTCGGGTCGTCCTTGTTCGGAAAAATGC GCAGATAGTTATTGCCGTCTTTCAGACGGGTCAAATCAACGTTATTGCCACGTTTAGAAG CAATATCGCCACGGGTCTTGTTAAGCAGATCAAGTAATGACTTAGACATGTATTTCTCCT TTTTGTGATTGTGGCCATTGGCGCTATGCGCGTTGGGCATTCGTTTATTCGTGGCTCTTT CGAGCGAGAAGGATAATAGATCAGTACTTACTTATCATCTAGGATAAATTAACGGGGCGA GTGGAAACGTTCGGCGCCCAAGCGTTCAATCTCCACGATAGCCATTTTGGACGCCTGGAC AATCATGTCACGGCGGTGAGAGAAGGCGGTTACAGCGTGCTTGTATAGATCTGCAATGTG CCGGGCATCATCGAGTTTCTGGCGCTTTGCGAGGTATTGCGGGTTGGTTCTAACCTTCGC CTCCAGTACGGATTCATTGAACTTAATGCCGTTCATACTCAGGTTCTTACGCTCATTGTC GTAGATTTTTGCCTCAATCGCATCGAGGGAGAGTTTTGCATCTGCGACCTCGCGTTCTGC CCGCGCCAGCTTAGAGCCGTACTCCATCAACAGGCGCGGTTGCTGACGCCAGACTTCCTC AAGATTGTCGCGGTCGAACTCCAGATCGGACATGATTTTTTCGTAGATATCTGCACTCAT TTTGATAGGTTCCAGCTTATTTCTATATATCAATTTTACCATGAAAGAAATGAAGGATGG AGCTTATAGAAGGAAGAAGTTAGGGGGTGGGGTCGGTAAGTTGATGAAAACAGGGAGTGT TCTGATAATCTATAGCCGTTTTCTGCGGCCGTAGACGTCAGAAAATAGACAGTGTTGACA CGCGCTCACACTATACCTATCATAATGACATCGGAGGAAAATGAAATCACATCCGAATAA GCATATTCAAGAGGCCATTGAATACGCGTTGAGTAAAGGCTGGGTTTGGGTTCCAGCAGG TAAGTCAGCACATTGCTTCTGCAAGCTGCGCTGCGGCGATAAATCAGGTGAACATACAAG TCACCACAGAAGTGTATGGTCGACTCCAGATGTACCGGAGCACCATGCCACGCAAATCAG GCAAGCGGTCGACCAGTGTGGTCGCATCAAAAACCAGATGAGCAAAAAATAGTAGTTAGT GGCGGTTTTGGCCGCCATTTGTTCCAAAGGTACATTAATACTTCACTTTAGATAAAGAGG TTTTATGGCGCTTTATAACTTCACTCTGACTCTCTCAGGCGTAACCTATGAGACCGAAGG ATTGGAAGATGCGCTGTACGAAAGCGGCTGTGGCGATGCGATTGTTTGCGCATATGGAAA CTCCGTCTATGTTGAGTTCGACCGCGAAGCCAAATCGCTGGATGCAGCCATTGCATCAGC GGTCGACAATATCGAATCTGCCGGTATCGGCGCGATTGTAGAATCAGTCGACTCGGCCTT AGTTGGCCTGAGCGATGTAGCTGAAATGACGGGCATGTCCCGACAAGCAATTACCATGCT TAAAGATGGGCTTCGTGGTGGTGGCGACTTCCCTTGCCCTATCCAGAGAATCCAGGGACA GTCCCCGCTATGGGATTGGGCTGATGTGGCGAACTGGCTTGAAGCCAATGGACGCCTTAA AGAAAACGCAGAGCTGGCACACAATGCTCGCGTATTAAGTAAGTGGAATTTGGCCCTTCG CAATAGCGTCTCAAAAGACTTTGTTGAGATTGAACATATCGCTTCTTCACTTATCGCACG TCGACGTCATCACGCCGAATGCGCATGAAAAAACCCGCCGATTGGCGGGTTTTTGCTTTA TGCGACTTTCTTACCAAAAATGTTGGATAGCGTGACTCTGGTCTGGCGTTTCAGCCTGTA CTGTCTCACATCGCCAATCTTGTTCACTTCCATAAACTCTTTGGCCACCTTCAGCACCAG CCGATTGCGGAACACTTTGAACGCCTCCAGCTGTTCCTCTGGGTTATCCGATTCGTAAAT CTCCAGCAGATACTGGCACGCCTTCGGATCTTGCGTTTTAAGCGCCAGCGCTCTGGCACA TTTACGCAGACGACTGACTTTATCGGCACCATCCAGCCCGGCGAACGCCAGCGCCAGATC TAACGTGACCGGGCAGTCGATGATTTCCCAGAACTGCGACCGCATGGTGGCTGCAACTGC TTTATCCTGAAAATCCGCTGGGATAGCCGCCAGCGCTTGTGCAATCTTCTGTGCTTCGTT CATGGTGTTCTCTTTATTCATTTGCTAATTGTCTCCGCTACCTCTGCCAGAATTGCTTCC AGCTTTTCGCCTTCCTCTGGGCGAAAGTACAAAATGTTCGGGTTAAATCCGTAGAAAACG GTCACATCCAGCTCTGGCAGATACTCTTTGCGTCCAACCAGGTCGGATGGTTTGCTCTTG TTGTTGAAGAGTGACGTCGCCCGGCTGCCACACGTCAGCACATAGGTCGGACGCACCAGA TTGATCTCTTCACGCATAAAGTCGGTGAACTGGCCTATCTCGTCTTTGGTGTAGTCCTTC TCTTTGTCCTTCACCTTTTTGCACACGCCGGTGACGTAGAGATCTCCCATGCGCAAATCG CCTGCAGTAAGCAACTTCGCCTTAAAGTCGTCGTAGCCGTTCTCCATGAAGTAGCCAGTA CGCCCATCATTGCCGTTCGCGTTGTCCAGAATGACCATGATTTTCGGCTTAATGCCAATG CTTGGGCGTATCAGGTCGTCTCCCAGTGTCAACGACGGATGAAAAGTGATCCACTTATAT CTCCACCAACGGCCCAATATTGATCCACCGTTTTACTCAGGATTAGCTTCTGCTATAACC CCGGCCTTTCGTTTCTGTCTGAGTCGATAGCTTTCTCCTTTGATTTGAACGACATGTGAG TGGTGTAAGATACGGTCCAGCATCGCTGAGGTCAGTGCTGCATCACCGGCGAACGTTTGA TCCCACTGCCCGAACGGCAGATTGGATGTCAGGATCATTGCGCTCTTTTCGTAACGTTTA GCGATGACCTGGAAGAACAGCTTTGCTTCTTCCTGACTGAACGGCAGATAGCCTATTTCA TCAATGATGAGCAGGCGGGGGGCCATTACTCCACGCTGAAGCGTCGTTTTATAACGGCCC TGACGTTGTGCCGTAGATAACTGAAGTAACAGATCTGCTGCTGTTGTGAAGCGAACTTTG ATACCTGCACGGACTGCTTCATAGCCCATCGCTATTGCCAGATGGGTTTTCCCCACACCT GATGGCCCCAGTAATACGATATTTTCATTACGTTCTATGAAGCTGAGTGAGCGTAACGAC TGGAGTTGCTTCTGCGGTGCTCCGGTGGCGAATGTGAAGTCATACTCTTCGAACGTTTTC ACCGCCGGGAAGGCTGCCATTCGGGTATACATCGCCTGTTTACGTTGATGACGTGCCAGT TTTTCTTCATGAAGCAGATGCTCCAGGAAGTCCATATAACTCCATTCCTGGTCTACTGCC TGTTGTGACAGCGCAGGCGCTGCGCTTATAAGGCTTTCCAGTTGCAACTGCCCGGCGAGC GCCATCAGTCGTTGATGTTGCAGTTCCATCATCACGCCACTCCTCTGCAGAATGAGTCGT AGATGGAGAGTGGATGATGCAGGGGGTGTTTGTCGAAGTTCACCAGATTTTCATCAAGAT GCACGTCATACTCTTTTTTCTCCGGAGGCAGTGCCAGCATGGACTGCTGCTCTTCGAGCC AGCGATCGCAGGGACGGGCCTGGATTGTTTCATGCTTTCGTTGGTTAGCGACATCGTGCA GCCAGCGCAGACCGTGGCGGTTGGCTGTTTCAACATCGACAGTGATCCCCATCGGGCGCA GGCGAGTCATTAGTGGGATGTAAAAACTGTTACGGGTGTACTGCACCATCCGTTCCACCT TACCTTTAGTCTGTGCCCTGAAGGGGCGACACAGTCGGGGAGAGAAGCCCATCTCCTTGC CGAACTGCCACAGCGAAGGATGGAACCGGTGCTGACCGGTCTGATATGCGTCACGTTGCA GAACCACAGTTTTCATATTGTCATACAACACTTCGCGCGGCACACCACCAAAGAAGCGGA ACGCATTACGATGGCAGGTCTCCAGCGTGTCATAACGCATATTGTCAGTGAATTCGATGT ACAGCATTCGGCTGTATCCGAGAACAGCAACGAACACGTGAAGCGGTGAGCGACCATTAC GCATAGTGCCCCAGTCAACCTGCATCTGTCGTCCGGGTTCAGTTTCGAACCGAACGGCAG GCTCCTGCTCCTGAGGAACCGAGAGAGAACGAATGAATGCCCTGAGAATGGTCATTCCGC CACGATATCCCTGGTCTCTGATCTCGCGAGCGATTACCGTTGCCGGGATTTTGTAAGGAT GAGCATCGGCGATGCGTTGACGAATATAATCCCGGTATTCATCCAGGAGTGAAGCAACAG CAGGTCGCGGCGTATATTTTGGCGGCTCAGATTTTGCCTGCAAATAACGTTTAACGGTAT TGCGGGAGATCCCCAGTTCTCTGGCAATCGCCCGGCTACTCATTCCCTGCTTGTGCAGGA TTTTAATTTCCATAACTGTCTCAAAAGTGACCATAAACTCTCCTGAATCAGGAGAGCAGA TTACCCCCTGGATCTGATTTCAGGCGTTGGGTGTGGATCACTATTGCACCGTTCGTTACA ATTGCCGCCCTGTTCACACAAGGGCGGCTCTCCGTTATCAGGCGGCGTGTGCCGTGTTGG TGGTGTCGTTGTCAGTGCTGTCGGTATCGGAAACCGCGTCGTCAGCACCGGATTCAGCCG CTGGCTCTGGTCCTTTCAGCCATGCCGGAACCCAGCGGGTGTGCTGCATAAAGTGCTCCG CATGCGCTGCTGCATCGCCCTTCTTCATCTTCTCCGCGTCACCCGCCGCGCCCGTCAGCC CCGCCTCTTTCAGGGAGGCCACAATCTGCGGATGTTTCAGGCTACCGAAATAGTTGTCCT TCGTCGGCTGCCACCAGTCGCGCAGGTGGAATCCGATTGCCGCCTCGACCGTATCGAGTG GACTTCGGGAGGTGTGCCCCATATCGCGGGTCTGTACCCCGTCCACGGAACAGGCCGTGC AGAAGGCCATCAGCGACATCAACACCCCGCCGTCAAGGGCAAAGAAGGTGGTGAAGTCCT TCTCCCACCCTTCCGGCAGCAGGGCTTTCAGCCTTGCCCGTTCGGTCATGAGCATCTCAA ACGCTGCGCCATCCTTACCGGACGGGGCGTTCTCCGTCAGGCTGCCGTGGGACACGGTCA GACTGATACGGAACGGGTGCGTCGTGGTCAGACAGCCCGAGAAGACGCAGGTACACATGC GCCAGACCATCAGCGCCACCGCTTTTTCGGGCTGCTGCATCAGCGCCGCCTGTACTGCCA GCGTACGCTCGGAGGTCATTTTAGTGAGCAGCGGAACGCTGATCCCCTCTGCGGCGTCGG GCTGGCGTGAGGTGAATGGCACCGTTACGCTGCTGGTTACGGTTTCTTCCGGCATATCCG CTTTCAGGCGCACACCGCGCTGCACGTACACCTGCCCTTCGTACAGGCTGACCATCACTC CCGCGCCTGACTTCATGTCGTCAGTCCACGCGCTGGCTTCTGCCGCCTCCTGAATGGCGA GGATGTCCGCTTCGATCGCATCTGACTCGTCGCAAACGCTGTCATATGTATCGTACTGCT CCCGCAGCGCATCAAGACGCTGCTGCTGCTCAGGGGTGTACACCGGATCGGGTTCAACAG GCTGCACGAACTCCTTACCGTCTTCGCCGTGGTACCAGATGCGGGCTGCGCGTCCGCGAC TCCATGCCCAGCCCTCCCGCTGCTGAATGTCCTGCGCGATACGCTCCAGCTTCTCCTGCA CCAGACGCTCAACCAGCACGCTGTCTGCCGTGCCGTCGCCCTCGTCCTGGCTGAACAGAT CTTCACGGACGTAACCCCCTGCTGCCTCGTAGGCATCGCGCCCGATAAAACGAAATTTGG CGTTGTCGGTGCGCATCTCGGTTTCGGTAATAGCGCGTTTAATCAGGTGTGCGGGCGCGT TCGACCAGCTGGCCTTCACGTTTTCGAATACCTCGACCTGACGGGCAGGATCGTCCTCGA GACAGAGCGCCTGACACTGCTCAACGGTCAGTTCGTCCTGCGCGAGCTTCTCCATCAGGG ACGGGGCGAGGTTTGCCAGCTTCAGCATGCGCTGCACGTGGCGGGAGCCGAAGCCGAGGG CGTCGCCAATCTGTGCGGGAGTTTTGCCCTGCTCTGCCAGCGTACGGAAACCTGCGATTT GCTCGGCGGGATGCATGGCGGCGCGCTGCTCGTTCTCGGCAACCGAGGCGAGGGCCGCAA TGTCGTCTGAGACTCGCTTCACCATGACGGTATGATCAGCCGCAAGACGATCTTCCTGCG CCAGCAGATTCAGGGCAGTCAGTCGGCGACCACCTGCGGCCACGCCGGATTGTCCGTCCG CGAGGGTGTGAACAATCAGGTTCTGCAGCAGTCCGAGCGCCTCGATGGAGTCAGCCAGAC CGCGAACGCTGTCCACGGAATACGGGATAGTGCGCACGTTCAGCGGGGATTTAGCGAGAC TGGACAGCGGAACATACTCGATGACAGCGGCCTCAAGGGCGGCTTTCAGAGCTTCTTCCT GCGCCTTCGTGATTTTTTTGCTGCTCGCTTTTTTGGGGGCTTTTGCTTTAACATCGGTTA CTGACATAGTTGATACCTCACTGGATATTGATGATTGTCTGGCCCTGCGGAGTTCGCGCT CCGGCAGGGCACCTCTTTCTTACTGCGGCTTGCGGATACCGTAGTCCGCGATATAACGGT TGAGCCAGTACGTGCCGCCCGGCTCAAAGTTCCACGTGCGCCAGACCATTTCACCGTTCT GACGGACAACCAGGCGAAAATGCGCCCCCTGATCGTCCTCAATTGCCACGTTGGTGTACT GCGCCGCAACGACCTCAGCCTGTTCGCGGGTAAAGGTGTCGTCGGGTAAAACCGCCAGCG CCTCGCTCATGTTGCTCCTCCTTCTGAACCTGTTTTGCTTTTAAAAACCATCACCCGTTT GAGAGCCGTTCGCCGCAGGGGCGTAAACCAGCGCGGGCGATGGCGGATGTCCAGGGCGCG GTTTACCGCGTGCCATTTACCCTGGACAGCTGACAGCGGCTGTGCTTGTCTCAGCCCCGG CGAAAGGACTCAAAAGGGTGAAATGACCAGGAGAAAATGAGCAGGAACCCGCTGCAACGA CGGAACGCGCGGGCGCGAAACGGCGTTGCCCCGAAGAAGCCCGGCAGCATTACCGCCGGG CTGGTGAGAGCGGCGCATCCGTTTACGGATGCCGCAAGCGTGATGTTGAACCTGCGACAG TGCGATGGAAGCCCGACAGGGCGGAGACGGTTTACCGGCTCCGTTTACGACAGCGCCGGT TCCCGCTAGGGAAGTCGCCCACAGTCATATCGCCCGGGAAGAAAAGCCGACAGGACAGCG ATATCAGCCAGTACGCCACCGGTATGGCCACTATTGCCTACGGCAGCGCAGGTATTAACA CCGGAACAGAAATAACACCGACCCGCTGCAACAAACCGGTATTCATACCCTGACACCACC GGGACATCAGGCACTGGCGGAGATACGCGGCGCCGCAGGCGCGGCGTACTTCGCCGGCAG GCAGAGCCTGCCAGGGTTTTGCGCGCGGGCTGACAGGCGGCTAAACCGCCTGCCGGGGAA AATCAGTTACCGAAGACATAACCGTCATGGAACACATAGCCGCTGCTGAACAAATCCCGG GCATACGCCTCAAAATCGAAGTAGCTGCGCAGCGGCTCCGGCACCTCATTTAACAGGCCG TTATCGTCAACCATCTCCTGCGCATAGTCTTCCTCACTTTCCGCCTCGCCGCGGTATGCA TCATCAAACGCGTCATAGTCACACTCGCCGGTATACTCCGCCCAGGCGATAAAAGCGGCT TCCCTGCCCTCTTCTTCGGCGCGTTTGTAAGCGGCGATAAAATCCCAGTCAATGGCGCTT TCAGAGACGAACTGCGACGGGATACCTTCCTGGTCCTGGAACATAAATTCTGCGTCCCAT TCATCGGCGTGCAGCGCCTGGCAGGCCTCGTAAAAATCCTCCCTGCCGTCAAACTCCGTC AGTTCAAACCATTTGCCAAAAATGCTGCCGCAGTTGTATTTGTGATACGTACCCACATAA ACAGCCGGTGTGGTGGTCGTAGTGCGCATAAAAAATCCTCCATAGTCGATGTTGTCTGAG TTACGGCTTACGCCGTGCCGACACGACAGCCCGACAGGGAGCGAAAAATGCAGGGGCGAT GCATGAAGCCGCAGCGCCGGTAAATAGCGGAGAGGGTCTGGACGGTTAGCGAGCGAATAT TGAGCGAGATAACGACGGGAAGAACCGCGACAGGCATTTAAACATACGGCGACTGGGTGA AAGCATCGACGTCAGTGAACCCTTGCATTTGCAGCGTTCGGGCTAGAGTAGAGGCACGGC GTAAGCCGCAGACCGCTCGGGACGTTACTCACCGCGAAGCCGGAACAACGTGGAGGAAGA GCCGTAAAAGCGGAGCCGGCGACATCCTTCGTGGTAGATTCAGGGGGCCGCCGCCCCCTG CTGTTCGCTACACTGGCCGGATTGCTGACAGGGCATTGCGGACAAGACTGATTTCTGCAC GCGCTTCTGCCATGACCTCATGTAACAGGGTTAAATCCATCCACCGGCGCGGAGGCTCGC CCGGAATACGCAGCACATCGCACATCTGGCCACATGCCAGGATTTGATCAACTTTGTCGC TGATAACAAAGAACTCGACGCTGCTGTAGCGTGCCCCTTTGTTCAGGATGGCATCGAGCA CCACCGGCAAATTGTCATCATCGTCCAGCCAGCAGGGCATATCATTTTCCTTCACAACCA GACGGAAATTTCGGGTCTGACGATAAAACAGCGTTTCCCCGCGCGTGGTCAGCGCCGCCT TTATCCGGCGCGCATCCTCCCATACCTGCCGGGATACATCCCGCACGGCGCGGGACAGGC AATCCGTTACAGCCTGAATCTCCGGCTCCGTCAGCCATTCCCCGGCCCAGGGGAACGCTA TCTGTGTTCCGTCCTCCGGAAGCTGCGGCGCGTCGGCATAGCGGCTGCCGGATAAAATAA TCTGCGCTGACGTCCCGGCTATTTTTGTCATGGCATTTTGCAGCTCTGCGGGTATGTCAC CGCTACAAAGTAAAGGAAGCAGATGAACAATATTTGCCGCATCCAGACGGACATAAATGC TTATCCATCCCGGTTTATTGACCGGATCACGCTGATCAACATCGGTATGGTCAGGCCATC CATAATCAGCAATCAAATCGCGCGCACGGCGCATCACAAGGGCGTTTAACGTGGTGGTTT CCTGCATAATGGGTTCCTCTGAACGGGGTCAGTACACGCCGCCCGGGCGGCGTGTTGATT TCATTTTTTCAGTAATGCGCGAACTTTCGCCGCATCAGCCAGGCGGCGGGTAACGCTTTC CGGGACCGGATGATTGCTGTCACGGGCGGTCCATTCCCTGTGCCATAACGCCTGTTCGGC AGTGGTTAGCAGGGTTTCAAGCAGATCCGCCGGCACCATCACCGCCGGAACTGCCTCTTT CACCTGTTCAATCAGATCCATCACTGCACCGGCAGACACGCCCGACTCAAGCTGTTGTTC TTCCGGTATGGCGTCCATACGCGCCAGTACCGCCCTTGTGTCCTGTTCCGAAACGGCATA TTCCATTCCGTCGGCCAGTGCTTCGATATCCGCCGGGGACCAGACAATGAGGTTCAGCGG GGTTTCTGCGGGATACTGCTCACGCAACAAGCGGCAGAGGGTTTCACAGGTTCCGTACAT GTTTTTCTCCTTAGTCCTTAAAGCAGGCATCCAGCTCAAGCATTTCGTTGTATGCCGCCA TAAACAGGGCATTGATGCGAAAAAGGGTCTGACGGGTCAGGCGTTCGACCAGCACATCAG AGTCAAAGCGATAGCGGTGCTCCATCCCGTTCAGCGTCGCCCGCAGGTCACACATGCTGT TGGCTACTTCCGCCACTTCTGCGCGGAGTTTTTCGTGTCCTGCATAGTTCATTACGCGGC CTCCGGGAACTCGTCGTTAGCGGCCGGGTACTGCATGGCGCGCCGGACGGCGGCCAGACG CTGCTGTCCGGCCCGGTGATACTGCTCAAGCAATTCAATACCGATGTAACGACGGCCAGC CTGGAGGGCGGCCACGCAGGTGGAGCCACTGCCGGCAAAGGGGTCGAGCACAATCGCGCC GGGATGTGTGAAGGACTCAATCAGCGGTTGCAGGCTGGTTACGGGTTTTTCGGTCGGGTG GTGCCGGTTGCCTGAATATTTCCACGCAATTACGTCATTCAACGGGTTTTGCGGCAGGGG CGGACGGCCTTTTGCAAGGATGTAGGCGCATTCGTGGCGATAGCCCACATATGCGGCCTT CGATGTGTAGGTTTTGGTAAACACCAGGTGGCCGACAACGCTGAATCCCGCATTTTTCCA GGCGGCCATAAAGCGATCGACGCGGTTCCAGCCGTAGAAGCTCACCATCAGCGCGTCTTT TTTCAGCACGCGATACATCTCATGGCAGGCGGGTTGCAGCCATTCATCGGTTTTATCGCC GGCGATGGTACGCCCCTGACGGTCACGAAAACCGACGAGATATGGCGGGTCGGTGAGAAT GAAATCGACAGCATTATCCGGAAAGCCGGACATGATATGGACGCAATTACCCTGGATAAA TCGGGACATGGTAGTTCTCCTTTCTCAAATGCGGCGCCAGTTACGCCGTGCCGATACGAC AGCCGGGCGAAAAGCGGAGAATGCAGGGGCGGTGCCGCAAGCCGCAGCGCAGTGAAAAAG CCCACGCTGGCTGGACGGTTTGACGGCGAAAATTGAGACGGAAAACGACGGGAAGACAGC GGGTAAAGCCTTTGAAATAAACTGCGACCGGGTGAGGACACCGGCAGAGCGAACCCTTGC ATTCGCAGCGGCCCGGCTACAGTAGCGGCACGGCGTTCACAGCAGAGCGATATGAATGAG GAGCGCAGCGACATCGTATTTTCATCGTTGCTGTCCACAATTTCGGTGGGCAATCCTGTG TATAAAATGAGGGTATTCCGCGCAGGTCGCTACCAGCACGGATGACAGCGCGCCTGACAA AACGGTCATCTTTTAACCACACTACGCAGACTTCACTTTTTCTGGTGTGGTATGTTGATG CTGAATGTACACAACCGGAGCGGAGAAAGATGGACAGAGAAATGCTGGCAGAGTGGCTGC GGGATATTGCCCGACATATAGAAGAGGAAAGTCCACTGATTCGTGATGTCAGTGTGGATG ATGCCCTTTCAGAGGAGGGGCTGGCCAGAAAGATCATCACTATCACGTTCAATGCGCCTG GTCGTGCCCCACAGCCTGAAGAAGATGTTAGCAGCATCCCCCGACACTAAAACAGCATTA AGATGTTAGCCTCGAAAATTGAGTAATTGCCTGATCAAGAGACAGGAGAAGAGCAAGACT CCGCTGTACGGGTAACTCGACATGATGCAAACGCTGAATACCCGAGTATTGCATATATAA TTCGCGGGTATTCCATTCATTTACAAATACGTTATTCGTTTTCTTCAGCTTCCTTTTCAT CATCACGTCTGAGGCGAGCTACGCTGCGTTCCACCGTGCTGAGGGGATTGTATACCCCTC TAACTGCAGCTGTTCTGGTACTTGCTGTATGGGCGCTATACTGCCGATCAAAATCCAGAA CTATTCCGCACTTCTCTGCCTGCATTCTGACAAAGCCTCTGATCATGTTTTCCCTGAACC GAAACCATCCTGGCCGGACACCATCCTTCCCGACAAGCGCATGGCACAGAATAGATCCGT GATTCTCTTTACGAAGCCGAGCAAAACGACTGTCGAAGTTTTTCTGCGTCAGAGGTTCAA TGTCGAGGTACTTCATCACCTGGATATAGGAGGTAATGATGTGGTCTTTCATTCTGTTGA GGTCTGCACCTTCAGCCATCGCCCAAAGAATGTGATGCATATGCTCATCTCGGCAGGTAG CTGCCTCATAACATGATCTGAGCGTTTCCTCAGCAGACAATACAGCTGCATCGAGCGAAG CTAGAAATAGATCACGTGTAACTGTGCTAACGACTTCATCTGCCATGTAACACTCATGAA GGAGCTTGCTGCACATGAGATGGACATAGTAGGGAAATCCATCACTCAACGCGCATATAC GGTCTGCGATATCATCAGGGATATTAATATCAAAATATCTAAATGCACTTTCAACGATAC GCTGACGACCTGTCCAGTGCAGACGTTCAAGATCAACCTGCTCAATCTGTCTCTGACTGG ACAGATGTCCGCCAATCAAATCAGATACCGACTGCCCAATCCCGGTGAAGATGATACGAA CGGGTACATCCCCATCGCTTAACTGCTTGAGCAAAACACCAAAGCGGGCACGCTGCTCCT CGCTACGGATCAGGTCAAATTCATCAATAACAATAACCGTGTTATCCGAATAGCGTTCCG TCAGATAGTTCAGGGCTTCAACAGCACTGGCCATATTAACGACTGAACGAACGCGAGAAG TTTCACGCTCTTCAACACGGGCTTCGGCTTTTAAAACAGGAATATTGAGACCAAAAGTTG CAGACGTTTTGTACCGGTCTACCGGCATGCGCATCATTCCTTGGCTAATAACCGATTCGA TGACTGTTTCCAGGGTCGAGTCATGGTCACAACTGACGGTAATAGGACGGTTATCCGAAG ACTGGATAAGCGAAGCGGCTGTGTGGGCGAGGGAGGTTTTACCTACTCCGCGATCGCCAT AAATGAACACATGTCGGCCCGGTGAATGAAGTGCCAGTTGTATCGTCTCCAACTGCTTAT CCCGCCCAAAAAGCTTTTCAGGTGTACGCACTGGCACACTGAGAGTAAGCACTTCATTGA GCCGGGTGGCAAAAGTTGGTAAATCGCAACCTGCAATAGCCATGTCCATTCACTCCGAGA AGATGATTTAGGGGCTATTATACTGATTTCCTGAAAGCGAGTGCATGGCAACGCAGTGTA AATGGAGAAAGTAAATTACATAAGTTGGAACAGATGAGATACATGGATATTCATGTCTGG GAAAAGTGTGGTTTGCTGGAAGGGGTAGCGTCTGAATGGCATATAAAACGGGAGATGCTT TCGCCTGCCTATACAACTCGCTGGTCTGAACTGCCAATAGCGAAATTATGAGTCACGAAG AGGTTGAAAAGCGTGGTGATTTCAGTGTGAAAGAATTTTCAATTTTCCTTTATAATCAAA CAAATAACCATGAAATTGGCGTGGTGAAAAACATACAAAAAAGGATGCTCTTCGGCATCC TTATCCCTTACTCACCTGATTCTGGAAGTCTTTCCAGAATACGTTTTATTGCCTTATCAA TCTCCGACTGTGCCTCAGCGGAAATACGGGAAAACTCATAAACAACAAGTCGCTTCTTTG GATCAGTTTTCTTTCTGGCAAACTGATTACGATCTGAAAATTCTCTCAGCTTCTCTGTTT GAACCGTTCTAGTTGGGAGGGCTGTCAGCAATTTGCTCTCCGACCGGATAACCGCAAGAA TTTTGCTTTTATCAATTGCCGGATAATCTGGCATGGTCTTCAACCGATGCTGAACTTTTT CCATCAGCTCTGTTACCGATGTTTGCTTGTTGTTTGCTTCTTCGGCCAGTTTCAGTAAAA ACTGATAATCTGACAACGAAATATCATTTATCACCGGGAACACTGCAACCATTTCGTCTG GCACTGCTGCGGCCTGAAACGCACGTGTCACTTTCGCCGGAGAGAGATTTTCTTTCAACG CAATATCTTCTTTCGTCATGCTGGTTCCGTAGGTAACTTCGAGTCGCTTCCCCAGCTCGC GAAGACTATGTTCTCTGGCAGTCTGGATATCTTTCGCCAACTGCCGTGCATCGGCGAGTG AGATATCATCTTTTGTTACCAGAATTTCGAATTTAACGTTATTAAAGATGCAGGCAGCAC GACGTCGGGTTCCATCTAATATCTCAATTAGTCCATTAACCTCCCGACCAATAGCCGGAA AGAACTGCTGCAGCTTTATCGTCCGGGAAATATCACTGACGGACTCGCGCGTAAGCATTG TCTGATCACGTCCATTAACCGAAGCATCAACGAACGTTTTTGATTCAACTTCTCCGCTTA ACACAACTGTTTTGACAAACCTAGCCTGCACGCCTGATTTAAGGGTAAATGTTTTAACAT CACCGTCGCCTTCGAGCATTCTAGCGAACTCTGAATTACTATTTCCCAGAACCCGACCAC GAGCTATAACCTGTTTCATTTTGACGCTCCCCTGATATATTCAATTCGGTCAAATACGGC CTTAGTAAACCGTTCAGCTTCAGTACGTGCCTTTTTCAATGCCTCTGCACTTCCCGGGTA CGAAACAGGGTTAGCACTAATGATGGTGTCAAAAGACTCACCACATCGTTCGAATCCGTC CAACCTCGGGAGCGATGAGTCTAGGATGTTACTCGCATACACCTCACGAGCCAGACTATG GGACGTTTCGTGATCGCGCTTACTGGTCATTTTTGACATAAATCCAATACTTGCACTCAG GCGTGGCTCTACACCTTCTTCTTCAAGACGCTCAAGCATTTCTGGCAAACGAGTCAGATA CTTAAGGGTTGAATGGAAATCAACCTGTGCCGGAGGGGTAGGGGTCAAAAGCAAATCACT CGCAGCTAAGCCATTCAGAAGGAATGGATCAAGATGAGGGCCAGTATCAATAAAGACAAA ATCATAATCACCAGCGATACGGTCAATGATTGTTTTTCTGAGAACTTCAGAAGGTTTAAG ACCAGGTAAATGTTCTGCTACCAGAGACTCCCACTGGCTCGCCACGAAACCATCATCAAT AGAAGCAGGTATAACATCAACACCTGGAATAATAGTCGGCCGTATAACCGCTTCTCGCAA CGTTTCAGCATCCAGATCATTCAGCATTGCCTGAGCGGCGGTTTCAAGGACTGTGCCGAT GCTGTGGGTGTGATCCAGAAACATGGTGCTGGATGCCTGCGGGTCGAGGTCTATAACCAA AATACGAAGATCATGGCGAAGCAAATCCTGATGTACACGTAATGCATGTGCCAGCGTTAC TGTACTGACTGTTTTTGATACCCCACCTTTTAGGTTGACGACAAAAATTACGTAAGGTGC TTTATGAATATCACGGTACTTAGGTATCTGTCGGTGAGCATATATATCAATAACGTTCTG AATTGTTAGTGCATATTGCTCGACGTTGCCAACCTGCTTTTTATTAAATTCATAGCCGCT TTCTTCCATTTCTTTAACGGCCAGCTCTACGATGCGTCGGCTCAGCTTAGGCAATTTTGC GACCGCATTACGAGTATATGTTTGATGATATTCTGTCAGATTGAATTCTTTTCTTTGTTC CTCAATATCCCGACTCATTGCCTGAAGTAGAGCACTTGCTCTGAGCGCTATGGTACCGAC ACTACCGTAATCTCGTTTCATAGTTTCCCCTGAGATAGATTCCCTGCCCATATATTGCCT ATAAAGTTCAATCACATTGTACATACACACAAAAAATGTACAACATATTTTGTATTGTCA TTAAATTATTGTACGTATCCAACCATCATTCACATCAAACCGCGCAGTTAGACATCGTTT CTGAGCAGGCGAGGGGGTGGAGGGTATGGTGGTAACAAGTAATCACTACACAGCTAGGAC ATTCAGGTCATTCTGTCCAGAAATTGTTGCAACAAGACCAAATATAGACTATATTTAAAC CTCTTTGTTATGTGAGGTTGTTATGAAAATTGAAACCATTAGCTATGTGAAAAAAAACGC AGCGTCACTCGATCTGGAAGAACCAATTCTTGTTACTCAAAATGGGGTTCCGGCATATGT TATTGAGTCATACGACGCGCAACAGGAGCGACAGAACGCGATTGCACTACTGAAGTTGCT GACGCTTTCAGAGCAAGATAAGGCAGACGGCAATATTTTCAGTAAAGAACAACTACTGGC GGGTCTGTAATGGCGATTGTTATTCAGTACACCAGAACTGTCAAAACCTGCATTGATGAT ATTGCGAGCCACTTACGTCATATCGAGTCAGAACCAAAGGAAGTGATCAGCGGCATCATT GAGCACTTCGAAAAACGAGTCAGTGATTTTCCACTTGGGTGTCAGGTCTGCCCGGAGTTA CTCAAGATAGGTTGTGCTAAATATCGTGAGTGCAACACCCCTGACGGCTACAGAGTATTG TACTCAGTGGAGGATAATGTAATAACAGCACACGCAATACTATCCCACAGGCAGGATATA CAAAACCTTCTCTTTAAACGCCTAATTAGAATTTGACCAGAAACGAAAACCGTGAGTCTG TTCAGAGCTTGCATCTGAGGCGAAGGGTTGGATAAGCCCTACGGGCGCGTCAGCCTGTCA CATTCGGGTATACTTCTGAGATACCGCATTAAAACATGGTATTCCATATCAATGTGACCA CATAAGTGATACCATTAACAAAATGACTACTTAAACGTTACCTCAAGGCTAAAAAATGCT CATTTTTGGTTATCTGCGAGCATCAACCTCTGAACAAGATGCCACTCGCGCAAAAAATGC ACTGAAGAATTTTGCTCGCCTACATGGCCACCGAATTGCAGGCTGGTATGTCGACAATAT CTCTGGCGCAACGATGACACGTCCAAAACTCGTGCAACTTTTGGAAGAGGCTGAGCCTGG GGATATTATTCTCATTGAGCAAGTGGATAGGCTTTCTCGATTGGACGACGTAGGATGGGA AGCGCTAAGAAAGCAGATAACGGATAAGCAGCTGTCTATCGTGAGTCTTGATTTACCAAC CAGTCATTTGGCGCTCAATAACGCCGTTAGCGATGAATTCACTCGCAGCATGCTCAAAGC TGTTAATGGCATGATGCTGGATATGCTCGCGGCTATATCCAGAAAAGATTATGAGGATCG ACGTCGCCGTCAGGCGGAAGGGATCAGCAAAGCGAAAGCGGAAGGTAAATATCGGGGCAG GGTGGCTGATGCACAAAAACACGAGCTCATCCGAACGCTACGCCTATTGCATGGTAAGTC ATTGCGTGAAACAGCCCGTCTCGCAGGGGTATCCAAAATGACGGTGATCCGCGTCTGCCA GCAAGCTGAGGGGTAAACTTAACATCTTGTATTGCTTTGATTGTGATAGCATTCACTCAT CATTTTTCAGAGTCTGAGCTGATGAAGAAGAAAAACAGTACCCCCACACCCCATGATGCC ACATTTAGGCAGTTTCTCACCCAGCCCGAGATTGCACGTGACTTTATGGAGTTGCATCTA CCCGCTGAGCTACGCGCTATCTGCGACCTCAGCACGCTAAAGCTGGAGTCAGGCTCCTTT GTTGAAGATGATTTGCGTCAGTACTTCAGCGATGTGCTTTACAGCCTCGATACCGTGGAA GGCGAGGGCTACGTCCATGTGTTGATCGAGCATCAAAGCTCACCCGATAAGCATATGGCT TTTCGCTTAATTCGTTACGCGATCGCTGCCATGCAACGCCACCTTGAAGCGGGCCATGCT AAGCTGCCGCTGGTGATACCGGTGCTCTTTTACGTGGGTAAACGCAGTCCTTATCCGTAC TCCACGCGGTGGTTAGATGAGTTTGACGACCCTGAGTTGGCACATAAACTCTATAGCGGT GCATTTCCACTGGTTGATGTGACGGTTATTCCAGACGATGATATTATGGAGCACCGCAGC ATGGCGGCACTGACGCTGCTGCAAAAGCATATTCATCAACGTGATATTGCTACCCTGACG GACAGACTGGCGACGTTGCTGATGGCAGATTATCTCTCTTCACCGCAGGTGATGGCGCTG ATACACTATTTATTACAGGCAGGCGAGTCAGCCGACTCGGAAGCCTTTGTTCGCGAACTG GCACAGCGTGTGCCGCAACACGGAGACGCACTTATGACCATCGCACAACAGCTTGAACAG AAGGGCATAGAAAAAGGTCGTATGGAAGGCCGTACTGAAGGAATTCAACTCGGTGAACAA CGTGGCATAGAGAAAGGCAAACTCGAAGTGGCACGCAGTTTGTTAAAAATGGGCATGCCG ATTGAGTCGGTCCAAGAAGCAACCGGCCTTTCTGAAGACGATTTGGCGCAAATCCGCCAC TAATCATTTAAACGACTAGCGCTCGCTAGTCGTTCTCTTTCTCATGTTCATTTAGATGCG GTGGTACCACCACAAACGGCGGGCCTTTAGCTTGGTGTATCGCTTCTTTCAATACCCGCA GTAGTAGCGCATCATTCCAGTTTGCATGAATGTGGATAACCGGTTTTCCCACGGCAAAGC GGGCGGCAATTAACTCACGCAGCGTATCTTCCGCCATGAGCTGCGCGGACGTTTTGGCCG GTTTTGGCTTTTCCGAACGTACCGGTGGCAGCTGTGATAAACGTAAACCACGACGCGACA TTGATACGTCCTCCACGTTAATAGGGGTTTGACGCTCAACGGAACGGTTTCACACGTTAA GGGCTTTTTGTCCGATAAATCAAAACATTATAGACAGTGAAAAATGCGCCTAAAACGGTG TCTTTTTAATCGGTAAATAGCATTTAACGGACATCGCTGTCCATTAATCGATTTTTCAGA CGACCTTTCTCGCCTAACGTGAGTTTTCGTTTGACTTAGCTTCAGACCCCTAAAAAAACG CCCCTATGCACCTGTTTTTTGTTATCTATAACACTATGAATTTATCATACAAAATATTAA GATGTAAAACCGTTCTACTGAACCTCAAACCCTTTTATATAAAACTTATATGATTATGCA AAGTTAGTCACAAAATGTAGGCATCGCATACCATTACTATGTATGTGGACTTATATGGTG ATGCAGCCTACATTATGTTTAATATTCAAAAAATGTACGGTAAGCCTGTTTTTTAGCAGA CCTTATCGCAACAGCGTTTTCACTTGATATTCGCCCAAGAAGGGGCTAAAAATTAGATTA AAAGTGACCGTAATACTTTTTAAATCAGTTTAAGGTCAAGCACCGTCCTGATGGGCTGAT TACCTTACCGAACGGCCGACGGATCGCCACAATGGAAACCGAGCGAAGCATAAAAGCCAA AGCTCGATACAGCAAGCCAAACATAGGCGTTTTTTTTCGGTTTTACATAATGGATGAACT ACAAACTTTGGACATAACTCATGAGATTTAAACTCTCAGTCATCATTTTTGTACTGGTCA GCGCTTCGGCGCTCGCAACCCCGTCCTTTAATGTTGGATTCTCTCCTTCTCACACTGCAT TAGAGAATGTATTAAGCGTGGTCAATAATGCTCAATCCTCGCTCGATGTTGAAGCCTATA CTTTTACAAGTAAGCAGATCTCGACAGCCATTGTCTCGGCTCAAAAGCGAGGGGTTAACG TCCGAGTTGTTGCTGATGCCAAAGCTAACCGTCTGAACTATTCAGCCATTCACTATCTGG CACAACAACATGTTCCGGTAAGGTTAAATAACAACTATTCAATTCATCATAACAAGGTGA TGATAGCTGATGGTGACACGATACAAACAGGGTCAATGAATTACACCACCAATGGCGATA CTCACAATGCAGAAAATGTTCTCGTCATACGTGGTGCGCCTGAAATAGCGGGAAAATATC AGGTTGAGTTTAACCGACTATGGGCGTAAAGTACCCCGCTATCTCCCCGCTATTAATTGC TGCAACGGCGATATTTATTAACACATCGATAAACAAAGGATAAAATATGCTTCAAATAGA TAATGTCATTAATAATATTGGAAACTACTTTCATCATCTAAGTAACATTAATTATATACG ACTTCTGGATACCCCCCATGCTTGGGGAGCCCCATTTGGTAAAGAAATCATGCAGCAATC TTACTTACGGCAAGAGGAGTTTGCAGGGGCAATGACTGAAGTACTGCGGAATTCGCGTTA TCGCTGTGATATATCATCACTTAATAGCCCCGATGCAGAGTGGCGAAAAGTGATTTTTAA GGCCATTGATGAATCCTTATCGAAAAAAATGGGGCGAACTCAGCCAACTCAGTATAGGTT TCTTTTCGGCCAATCTCCAACAGTATTTATGAATGGGTTATCTGCTGCAACAAATGGCTC CCCTGACTTTGTTGCTTTTAAATCAGAGTTAATTCAGCTAATTAAGGAGCGAGGACAATA TTGGGAAAAAATGCCTGAAATTTGGCTAGGCCGTTTCTTTAGAATAGAAGAAGGGTTGGC TACATCATTTATGAGAAACGTGTATCCTGATTTCCCACCAATCAACGATACAAGAATGAC ATGGAATCACACAAAAATAATGGCCTCAGATGGTACTGAAGCTCTTGTTGGTGGACATAA CATGAACATGGATCTATTTAGAAATTATCCACCTGTTCATGATGTATCAATTATCACTCA TGGTTCTTCTGCTTATGGCTCCCAGCTATATCTTAACGAACTATGGTCATGTAATTCAGA TTTACTAAAAAAAGAATATTTTGATTATGAAAGCATGATGTGGGCGGTCGGAACAAAGTT CTATGATAAGCCTGAAGATCCGCTTAAAAGCTCAGTTGCTATGAATTATATGAAGCAACG GCAAGAGGACCTACTCAACTTGCATGAAAACTTTAATCAGAAGGTAGCGACTCGTATTAG TGAATACGAAAACATGGAAGAGTATAAAAAAGCAGACAGAGTTTTATCAGTAGGTAAATA TTGGACAGGACCTAATATGGAGCATGACTACCAAAGAGGGTCTGAAATAATGAAAGAGCA ACTGATAAAAAATGCTAAGCGCATAATTAGAATTTCACAGCAAGATCTCGTGAGTGCTTG GAAAAAAAAATGGAAAGACCACTTTACGTGTAATTGGATTATTGAGGCTTTGTTAGAAAA TAAAGATCTTCATATTCATGTTGTAGTCTCTGCTCTAGATGCAGCAGCTGGAGCTGCTGG TGATCAGTACTCATTTGGTTCTGGAGCAGAACGGACCTATGAATTATTTAAGTATTACCT AACCCATGATATTGATACCGATGAAGTATTAGACGATCCTGATGGTAGCCGTGCTGATGC CTTAAAAAGAATATTGATTGCACCATTCTTCTTTACAGATAAAGTACCTGATGAAAATAC AATTGAAGGCGAAACCTACAAGTGGCCTGATTTAGAACAAAGCGCTTATACTGCAACACT TAAGCAAAAACCACTTTCGGAAAAACCCCCGCATCAAGGTATTATTGGTAGTGCACTAAT GTCAGCAATTAAAGGTAGTGGACTTTTCTATCCTAAAGTCCCTGTTGCACCTGGTAATCA CGCCAAATTAATGATTATTGACGATGAGTTGTACGTTGTTGGATCAGATAATCTTTATCC CGGTTATCTGTCAGAGTTTGACTATTTAGTCGAAGGAAAAGATGCAGTTAATGAATTAAT GAAATCTTACTGGGAACCATTGTGGAAATATTCTAGCCCACATGCATTTCCAAAATTAAG CCCAAATTGATGACTAGAATACACTAGTAAGTAATAATCAGTCATAAATCACATAAACCA TCATGCTAATAATCATGATGGTTATCATCTCTGTTTCGTCGCAGTTTTGACGCCGACATC GGTGGTCGTTTTAGGTAGCGTCCGAGATATTTTACGCATGTGCCATGCGCCCCAAGTCTT CTTAGCGAAGTGGACTTTCTAATAACGACCATACTGGACTGTTCTGGTCAAGTTAAACGA CAGGTCGCCTTCAATTACCCAGCGCCCTCGTGTTTCCCCACAATCGGTGAGCTGATCGCA TGATGGACGCTGCGTTCAGGCCGGAAGCCATATGACAGAGTATGAAAATCACTCTCCCAT ATAGGCTCCATCGCCATCAGCATGGCCCGCTGAACAATACGATCCCGCAGCGTGGGGATA CCCAGCGGTCGCTGTTTGCCGTTGCTTTTGGGGATATAAACCCGTCTGGCTGGCAGAGGT TGGTAACAACCAGAGAGAAGTTCATCCCTGAGTATTTGTAGCTCAGCAGCCAGTCTGGCC TGTAGCGTTGTTTTGTTCACACCATCAACGCCGGGGGTATGCGCCCCCTTTGATGCAAGT GTGATCCGCGCCGCTTCAGCCAGCCATTCTGGTTGTGTTATCAGACGCAGCAGCCGTTCA ACCCGTCGGGGCGGGTCGGTGGCTGCCCATGTGGCAAGCTTGCGTTGCATTTCGCTGATT ATCAAAGGTCTTCACCTCATTAGGTCAGTTAATTCACGTCGCAAACACATTTAAACTGCT TCCCTTCGCCATGTAATGGGCTTTCCCCATCGCGGACTACTATGGAAGCTCCGCCAGCCA GCGCGTCATCGGAGCCATGCCCCCTTAACATCCGTCGCTGACCTTCCCCGGTTCACCTGC CTGGACTCAGACATACTGAGGAGGCTGCCCGTCGCACTCTTTGTCCTTGCTTGCCGCAAG TTGGCAGAAGTCAGCAACGCGAGCGTGATAGACGTTGCTGTCCCGGTGTTCTGCTTACAT GTCAAAACACTTTCGACCAACACTGCATATCTATCAATGTCGGTGCCTTCTGCACGGCCT GTCAGATCACATAGGCCGTGGTGACATTTTCAACCCACAGAGGCGGATTAACGGGTTCAT GTTCTTCAGCCTTTCAGCACTTAACCTTGAGGATCATCTCGGCTTAGTGATCTCGCCTCA ATCCCCGTTGTCAGCGGGTTACATCACCCTGCGGGCATGCCGCAGGTCACTGCCGCTCAG GTTCTCCACCGTCACACCCGGTAGGATTGTTGGGTTTCTCATCGTGAGTTACCGGTTCAA TATTCCAGACAGACTCGTGGTTCATTTGAGCGTCCATGCTCGCCCTGAACTCCGGGCACA CGATAGGTGATATCGCTCACCCACACCTGGTTAATTCCCAGTGGATTAAAATTCTGATTC AATAGGTTAGGCGATACTTCAGCACTCTGGCGTGCTTTGGTGGTGACCCTATAGGCCTGC CGCTGGCGGCAGAGCAAACCTTCTTAACGTGATATAGCCACCCTGACGGACAGACTGGCT ACGTTGCTGATGGCAGATTATCTGTCTTCACCGCAGGTAATGGCGCTGATACACTATTTA TTACAGGCCGGCGAGTCTGCTGACTCCGAAGCCTTTGTTCGCGAACTGGCACAGCGTGTG CCGCAGCATGGAGACGCACTCATGACCATCGCACAACAGCTTGAACAGAAAGGTATCGAG AAGGGCATCGAGAAAGGAATTCAACTCGGTGAACAGAAAGGCAAACTTGAAGTTGGGGTC AGTTTGGATATCGAAAATTATTGTACTATAAGGGCTTCCCCGGCATGTCAACGTCGGTAT TCAAGGTTTCTGTCTGCTCTTCAGTAAAAATAAAGGGGAGAGACTGCGGTACTATAAACG GCCATGATGAATCGTCATCGATTCGGGCCCTGATGAAAGACGCGCGTGAGGTTCTTGTTC GTTAAGCGGATACGTATATCCTGTACAATAGCCAGATAGGCCTCACGGGGTCTAACCCTT TATCATCAACGAGTTGCAGGTCAGATGGTTATACTACTTAGTGCTTTAGCTGGCTGAGTA CAGCCGGAAATCATCACCGTAATGCAATGATGCCCAGCACAGCCTTGCGTTTTTGGCGGC GATGGCAACAACAGCACGCCAGTATCCTCTGCGTTCAACCAGCGTACAAACCCAACGACT GAAAGAATCAGTCCTTTTATCAGCGCCAATCAGAACTGAACGGGCCCCCTGAACCAGCAG TGTTCGCAGATACGAATCGCCAGCTTTCGTTATCCTGCCAAGCTTTGATTTTCCGCCGCT GCTGTACTGTGAAGGCGTGAGCCCCAGCCAGGCGGCCAGTTGACGCCCATTCTTAAAATC ATGTGCATTACCGATACTGGCGACCAGCGCACAGGCCGTTGTGGGGCCAACTCCCTTCAG CTCCATCAGTCGCTGACTGCGGTGATCTGTTTTGGCCATGCGGGACAAAATTCGGTCATA GTCAGCAATGTTGGCTTCAATGCGATCAACGTGCTCCAGCAAATCATCAATACATTGCTG AACCTGGAACGGTAAAGAATTCTTCTGCTCAGAAACCATGCGGCGTAAGGCATCAGTACT CTGCGGGGCGATGACGCCAAATTCAGAGATCAATCCTCTCAGGCGATTATACGTTGCTGT TTTCTCTTCGATAAAACCCTGTCGGGTACGATGTAAACACTGCATAGCCTGCTGGCTTTC GTCCTTCACTGGCACAAACCGCATATGCGGACGACGGACAGCCTCACAGATAGCCTGAGC ATCGGCAGCATCATTCTTTCCTGATTTACCGGCCATGTGGTAAGGCGATACAAACTTTGC AGCCATCAGGCGCGGTTCATGACCATACTCTCGAAACAGCCTCGCCCAGTAGTGCGCCCC GGAGCATGCCTCCATCCCGATAACACAGGGAGGTAAACCTGCAATCAGCTCAGGAAGTGC AGCACGCGATACTTTGGGCTTAACCAGAACCGTTTTACCATTCTGATCAACGCAGTGAAC AGCGAACACGTTTTTAGCAAGATCGATACCGACAGTAGTGATGGTCATAACGAATCCCTC CGGAGTGATATTTATCCCATGATTGCACAAGAGTTAATCAGGTTCATAATCAGGGGAAGT CCCTTCCATTCGTTAAGCTCATTTTTTGAGCACAATAACGTTACACAGAGGCTTAACTGA CACACCGCTATGCAACGTAGGTCACGATCAATCGACTAATGAAACAATGCCTTCAAGAAT GTCTATAAGCTCAATTTTGTCATTATTATCATCTCTATAAGTAGAGCATTTTATGATTTT TTCGGCAGTCATTAAGGGCCAGAACCTGTCCAGTACGTCGTTAGGTTTCGTGCTGGTTGC CCTTCCTATGGTTTTTTTGCGTCGCATGTGTCTGTGAAAAAAACCTGAACCCCTGTCTCA TCTCTTATTAGATCTGGGCAAAGATAGTTTTCAATTTCACGTTTACGTGTGGCAAAAAAC AGAGCCTGTCCATAATTCTGTGTAACTGCCACCGTATTAAAGGTGATCGCTCAGGCGGTC ACCGAACTCGATAATAAAACGGCTCATCGCTAACCGCCAGTTCTGGATCGGCATACTCCA TTTTTTTGATGCATCCTTGATCGCCAAATAAACAACCTTCCGCACTGAGTCGTCTGTCGG GAACACTTTGCGCTTTTTAATGGCTGCACGGATCACGCTGTTCACCGATTCGATGGCATT CGTGGTGTAGATAGCCTTGCGGATATCGGGCGGATAGCCGAAGAATGTATTGAGATTTTC CCAGTGCGTACGCCAACTTTTGCTAATTTGCGGGTATTTGTCGTCCCAGGCCTCCGCAAA CTTATCCAGCGCCATCAGCGCCGCCTCTTCTGTCGGAGCCTGATACACCATTTTCAAACC GCTGGTGACGGCTTTATAGTCCTTCCATGACACATATTTCAGGCTGTTGCGTACCATATG GATGATGCACAGCTGGATGTGAGTCTGCGGATAAACACTGTTTATCGCATCCGGGAACCC CTTCAGGCCATCCACGCAGGCAATCAGAATGTCCTGAAGACCGCGATTTTTCAGCTCTGT CAGCACACTTAGCCAGAACTTCGCACCTTCATTTTCTGCCAGCCACATGCCCAGCAGCTC TTTCTGACCTTCAGTGTTGATGCCCAGCGCTAGGAACACTGCTTTGTTTATCACGCTACC GTTCTGGCGGACTTTTACGACAATGCAGTCCATATAAACAATGGGATACAGAGCATCCAG TTGGCGGTTTTGCCATTCAGCAACCTGCTCTTTTACGGCATCGGTGACTTTAGATATCAG CGTGGGAGACACATCGGCGTCATACATCTCTTTGAAGGTGGCGACGATTTCGCGGGTGGT CATGCCTTTGGCGTACAGGGACAAAATCTGGCTGTCCATCTGTGTGATACGCGTCTGATT TTTCTTTATCAGCTGCGGTTCAAAGGTGTTTTCGCGGTCGCGTGGCGTATTCAGCTCGAT TTCGCCGTCGTCGCATAGCAGTGTTTTGGACGAATAGCCGTTGCGGGTATTCGAGCCTGA TTTAGGGGTATTTTTCTCGTGCCCGAGGTGTTCGGTAAGCTCTGCATTTAACGCTGTTTC GACGGTAAGCTTTGTTAGCATACGAGAAAATGCATTAAGGTCGGCTTCGGTTTTAAGACC TTTAGCCAGTTCAGCCGCAAGTGCTTTAAGTTTCTTTTCGTCCATAATTTGCCTGTCTCC GTTGTTGGAGTGAAGATATCAAAAACAGGCAATTACACAATATTGTTTACAGTCTCAGGA TGGGCGGTTGGTTTCCTCATTCCATTCCATCATCCCGGTTTCAGCCAGCTGACCGTCCAT CCTGTTACGTCATTTCCATTACTTATGTCGTTTAATCTTGGGTTAAAAGCGGCGACGTAA CCCGGCTGGCTCGGTTAGCCAGCGCACAACGTTGAGGTCACTGTTTTTTCTTTTAATCAT ACAGGTGATTCCACAGAACTGTAGTGACTGATCAATATGTTGGGTCGAACATAAATCGGT TCAGTGGCCTCAACGCTGTGAAATCCAAAATAATTAACTCTTTGGTAATCCTAATGTTAC TGACATTTCCGGCTTCACAATATTATTGTGATATACCTGCATTTCATTGTAAAACTCCAT GTCATCACAATAAATCGGGAGAAAATAATGACAATCAATAGTATTGTCATTTCGTCTTTT TATGACCTCCACATCGTAACCATCCCGCTTATTTAAATTATAAATAGGCAAAGAGTTATA ATATATGTTGTACATGTGATGAACATACTGATCATATGTATCATTGAAGAAAAAATAAGC ATACAGGCCTTTATCTACCTTTATTTCACTATCGCTGAAATGCTTATTCCTATCCCAAAC AACCGTTCTTGCAATAATGTCATTCGTTTTATCATGAAAGGGGATTCTGTTTGATACTGT TATAGCTGTATTTTTCTTCAACGAATCATATAACTTACCCAATCTACATTTTGAATCTAT CCCAGAGTAGAACACTAAATCCCTAAAATTAAAGCATTGACCAATTATATTTCTCTCTTT AAGGTAACAGATTCGTGGTTGAAGGTATTCACAGTTAATTTCCCTTCTACCCAACAAACC TTTAAAGGACCAAAAAGGGATCATCCTATACTGCCGTGGGGTATAACCAAATATTTTCTT AAATTCTCTGGTGAATGTCTGTTGCGAATCATAAAAAAGCTTTGCTGATATCTCTATTAT TGTCAGCCTGGTAAGCCGTAATAGTGCAGCAGCTCTACTAGCCCTTCTAACTCTAATATA TGTTCCAATAGGCATTCCGACATATTCCTTAAAGGAAATTTGCAAATACCTTCTGCTGAA TCCTGAATACAAAACCAAACAGTCAATGTTAATGAATTTCGACTCGAGATTCTCTTCTAT ATATTGAATAATTGAATTTACAGTCATCTGTTTTAGCATGAATATAACCCAAATCAAAAT AATAGCATTCTAGATAGTGGGCCGGCGCCGGGACTTAGCTATTTGCGCATACCCAGCAAC ACCAATCTTAGCTATTTGTGCACGCGCATCAATATCAAAATTAGCTATTTGCGCAACAAG CAAGTGGAGTGCGCGAAAAGCTAAACTTTGTGTGCATTTTTAAATAAAATTGTTCTCAGT GAGGCTGTGCTACGGATATAAAAATCCCCTTCATTTGTTACCCACCTTTTTACGCATATC GTCGATATGAAATGATGGGGAGGGGGTGGGAAGGTGTTGTCACCATTCCGTAAGGAGGTT AAGCTCATGATTTTAAATAGATTAAGTACGTTAGGAATTATTACTTTCGGCATGCTTAGT TTTGCTGCGAACTCTGCTCAACCAGATATCAAATTCGCAAGCAAAGAGTATGGCGTGACT ATAGGTGAGAGTAGGATCATATACCCGTTAGATGCTGCTGGCGTTATGGTCTCGGTGAAA AACACCCAAGATTATCCGGTTCTCATTCAGTCTAGGATCTACGACGAGAATAAAGAAAAA GAATCAGAGGATCCTTTCGTGGTCACTCCGCCATTGTTTCGATTGGATGCTAAGCAACAA AATTCTTTGCGTATAGCTCAGGCTGGAGGTGTTTTCCCGCGAGATAAAGAGAGCCTAAAG TGGTTATGCGTAAAAGGGATTCCACCAAAGGATGAAGATATATGGGTTGATGATGCGACA AATAAGCAAAAATTCAATCCAGACAAAGATGTGGGAGTGTTCGTGCAATTCGCAATTAAT AATTGCATTAAGCTTTTGGTTCGACCGAATGAATTAAAAGGAACCCCTATACAGTTTGCT GAAAACTTAAGCTGGAAAGTTGATGGGGGGAAGCTAATTGCTGAAAACCCCTCACCTTTC TACATGAACATAGGTGAATTAACATTTGGAGGGAAAAGTATTCCTTCTCACTATATTCCA CCTAAATCGACGTGGGCTTTTGATTTGCCAAAAGGACTAGCGGGAGCACGTAATGTTTCG TGGAGAATAATTAATGATCAGGGAGGGTTGGATCGTTTGTATTCCAAAAATGTGACTTTA TGATGATGTTTAAAGGGGACGGGAATAATGAGGTATTCAAAGCTGTTCCTGTGTGCAGGG TTAACTTTGGCAACATTGCCTTGTTGGGGACGCGCATATACTTTTGACTCTACTATGCTT GATACGAATAGTGGAGAGAGTATAGATGTATCTCTTTTTAATCAAGGACTTCAACTTCCA GGTAATTATTTTGTTAATGTTTTTGTAAATGGTCGAAAGGTAGACTCTGGAAATATCGAC TTCCGTCTAGAAAAACATAATGGAAAAGAACTTCTTTGGCCATGCCTATCATCCTTACAA TTGACAAAGTATGGCATTGATATAGATAAATATCCTGATTTAATAAAATCTGGTACAGAG CAATGTGTTGATTTATTAGCAATACCACATTCAGATGTGCAGTTTTATTTTAATCAGCAG AAATTATCGTTAATTGTGCCACCACAGGCACTTTTACCTAGATTTGATGGCATTATGCCA ATGCAATTGTGGGATGACGGCATTCCTGCTCTGTTCATGAATTATAATACGAACATGCAG ACAAGAAAATTCAGAGAAGGAGGCAAGTCTCTGGACTCTTATTATGCTCAGTTGCAACCG GGATTAAACATAGGGGCTTGGCGCTTTCGTAGTTCAACCTCATGGTGGAAACAACAAGGA TGGCAGCGTTCGTATATTTATGCCGAGCGAGGATTGAATACAATTAAGAGCCGTTTGACA TTGGGGGAAACCTATTCTGATAGCAGTATCTTTGACAGTATCCCGATTAAGGGGATAAAA ATTGCTTCAGATGAATCGATGGTTCCTTATTACCAATGGAATTTTGCTCCAGTTGTTCGC GGTATCGCACGTACACAAGCCAGGGTAGAGGTTTTAAGAGATGGCTACACTGTAAGTAAT GAGTTGGTGCCCTCGGGACCATTTGAGTTAGCAAATCTTCCTCTGGGTGGGGGGAGTGGT GAGCTGAAAGTCATCATTCATGAAAGTGATGGAACAAAGCAAGTTTTTACAGTTCCATAT GACACACCAGCAGTGGCATTACGGAAGGGCTATTTCGAATATTCAATGATGGGGGGAGAA TATCGTCCAGCTAATGATCTTACACAAACATCGTATGTTGGCGCTCTTGGGATGAAATAT GGTTTGCCAAGGAATCTTACGTTATATGGTGGACTACAAGGGTCCCAAAATTATCATGCC GCAGCTCTGGGTATCGGTGCTATGTTGGGTGATTTTGGTGCCATATCTACAGATGTTACT CAAGCAGACAGCCAGAAAAATAAACAAAAAAAAGAAAGCGGCCAACGTTGGCGCGTTCGA TATAATAAGTACTTGCAGAGTGGAACATCGTTAAACATTGCTAGCGAGGAATACGCCACA GAAGGATTTAACAAACTCGCTGACACGTTAAATACTTATTGTAAACCTAATACTAGAAAC GATTGCCGTTTTGATTATGCTAAACCCAAAAACAAAGTGCAATTCAATTTAAGTCAAAGC ATACCTGGTTCGGGGACGCTTAATTTCAGTGGCTACAGAAAAAACTATTGGCGTGACAGT AGGAGCACAACTTCTTTTTCTGTAGGCTATAACCATTTTTTTAGGAATGGTATGTCATTG ACTTTAAATTTATCGAAGACACAGAATATCAATAAGTATGGAGAAAAAACTAGTGAGCTA TTATCTAATATCTGGTTGAGTTTTCCTCTCAGTCGCTGGCTAGGTAATAACTCAATAAAT TCAAATTACCAAATGACATCAGATTCTCATGGTAACACTACCCATGAGGTAGGTGTGTAC GGTGAAGCCTTTGATCGCCAATTATACTGGGACGTTCGCGAACGTTTTAATGAAAAGGGC AGAAAATATACCTCCAATGCACTGAATTTGAATTATCGAGGAACTTATGGGGAGATCAGT GGTAACTACAGCTACGATCAAACCCAAAGCCAACTTGGTATAGGTGTAAATGGCAATATG GTAATAACTCAGTACGGTATAACGGCTGGCCAAAAAACTGGAGATACTATTGCATTAGTA CAAGCCCCTGATATAAGCGGTGCTTCAGTGGGATACTGGCCAGGCATGAAAACAGACTTT AGGGGGTACACCAATTATGGTTACTTAACCCCTTACAGAGAGAATAAGGTAGAAATTAAC CCAGTTACTTTACCCAATGATGCAGAGATAACAAATAATATTGTTAGCGTGATCCCGACA AAGGGAGCTGTAGTATTAGCAAAATTTAACGCAAGGATTGGTGGACGATTGTTTTTACAT TTAAAACGCTCTGACAATAAACCTGTTCCATTTGGTTCTATAGTTACCATTGAAGGGCAA TCATCCAGCTCTGGCATTGTCGGAGATAATAGCGGTGTCTATTTGACTGGACTACCTAAA AAATCAAAAATACTTGTTAAGTGGGGGAGAGATAAAAATCAATCATGTTCATCTAATGTA GTTCTACCAGAAAAAACGGATATTTCTGGTGCTTATAGGTTATCCACAACCTGCATCTTA AATAACTGAAACGGATGTTTATTTCAAACAGGACACAAGCCCTCTCTACGAATTTGTTCG TGGATTGGATTATTCGATAGAGGTAATATATGAAAAAAATCAGTTCCGTTATCGCCATTG CATTATTTGGAACTATTGCAACTGCTAATGCGGCAGATTTAACTGCAAGCACCACTGCAA CGGCAACTCTTGTTGAACCAGCCCGCATCACTCTTACATATAAGGAAGGCGCTCCAATTA CAATTATGGACAATGGAAACATCGATACAGAATTACTTGTTGGTACGCTTACTCTTGGCG GCTATAAAACAGGAACCACTAGCACATCTGTTAACTTTACAGATGCCGCGGGTGATCCCA TGTACTTAACATTTACTTCTCAGGATGGAAATAACCACCAATTCACTACAAAAGTGATTG GCAAGGATTCTAGAGATTTTGATATCTCTCCTAAGGTAAACGGTGAGAACCTTGTGGGGG ATGACGTCGTCTTGGCTACGGGCAGCCAGGATTTCTTTGTTCGCTCAATTGGTTCCAAAG GCGGTAAACTTGCAGCAGGTAAATACACTGATGCTGTAACCGTAACCGTATCTAACCAAT AATCCATATAGATAATAGATAAAGGAGGGCTATTATGCCCTCCTTTAATATTTATGAATT ATCCTACTTTGAGCCTAACCCTCGCTTTTCTTAATCACGGCATTGATAGCAAGACTGACA AATTTATGTGAAGATCAATGTTAGGAACTAATGCAGAAAGCCACGCCCTCAATAGATTTC ACATAATACACTATTAGCTAAGAATAGAGAGCGCGAAGCAATATAATAGGCTCATATTTA TAACTCTCACCTTAATATGCACTTGCAATACCATTGAGTATATTATCTGGTGGGAATTTT TTTCTCCTAAGCGAGGATATGGTGTTCCAAAAGCGATTTCAACATATCCGCCTAACTGCG GGAAGAATTATTGTTTTAGGTGTGGCAATTATTTTAATGGAAATCTTGTTGTTAGGGATT TTGTTTTTTATTAGCGAAATAATCCGAAATTTATAATCACCCTCCCTTTTGCGTCATTTC TTTCAGGCGCCCTCACCCTCTTGAGGAGAGCAAGAGGGGTATCCATCATCCATGCAACTT CAACAAAGCAGCCTTTGCCCTCACCCCGGGGTTTTTTTATTTGGTAGCAACCCACGTCCT GCAGCCCTCAAAACCTTCATAGCCGGTAAAAATGATTCCATACCTATTAAGTATGGAATC ATTGTACAAAACAGGCTATTTTATGGTTGATCATACAAAAACTTATGCCTAATATACTGT TCATGCATACAGTTAAAAGGGCTTCACTCAGTGAGTGGACGATGAAAAACACCTTTGATA AAGCACGCGCAGCAGAAAATACCTCTCGGGAAGCCATCGAGTACCTCGAACGCGCTTCCG GTTTGTCGGCAGTGTCGACCGCCAATTTCGACGGAGACATGTCGTTTTCTTCCGCCTTCA TGTTGTTCACCCGCTTATCCTTACTGATAACGAGACGTCGACCTGAAATTGCCGTTCATT GTGTTTTGATACATGTGATGCCGCATATCTCTGAAGTAAAGGTAAGTGATATAAGTAGGG TCTTGGTCAACCAGCTGGTGAACCCACTGATACTGGAAGGCAAGATCGTCCAGGGCAGAC GCGTGTTCTCCCTGATGAAACAGTTCCTGAGCTGGTGTGCCTTTCAGGGATTGATTGATA CTTCACCTTTGAATGATATGTCGCTCAACAAAGTTGCCGGTGGCGCAAAGCCAGTACCGC GCGAACGTAAGCTGACCGACGCTGAAGTCTGGGTATTCTGGAATATCTGGGATTATTTCA ACGTATGTGAAGGTACAAAGTGGGCGGCAAGGCTATGTCTTGTTGCTGCCAGGCGTCCAG ATGAAGTGCTCCGGGCCAGAAAGGATGAGTTCAACCTTCAACGTGATGTATGGAATCAAG GTACGCGAAACAAATCGGCCAGACAGCACGCGCTGCCGCTAAGTCCATTAATGCGCAAAT GCGTGGAAGAGTTGTTCGAATACGGAAAGGGCAGCCAGTGGCTTGTTCCGTCAAATAAGA AGAAGGGCGTTGATACACCAATGTCGAAGGTGGCCATTGCACAAGCGTTGAGAAGAATTC TGGAGCGCCCAGAGCTGATGGATTTGGAACCTTTCACACCACGAGACCTGAGACGTACCG CTCGTAGTTATTTTCCAGCCCTGGGGATCAATCAAGAAGTGGCTCGTAAAATAATGAATC ACAGTTTGGAAGGCATAGATCGCGTGTACGACCGGCACGACTATATGGATGAGATGCGAG ACGCCTTGGATAGATTCTCAGCGTACATCGCATCCATCGTAGAGCAACAAGATTTAGACG AAATTGACCACAAATTTAAGGGAGATCGTCTAGCAACTGAGCTTATTCGTGTAAATTTCT CATAGTTTCTTGATTGCTTCAACAACCTGATCTGATGCGCCGCGTTGATCACCGAAACGG TTGCGAAACGCTTCTAATACTCTTTTTTCGTCTGCGGAAAGGGGAGCCGTTCCTTCTTCG CGGAAGAACTCAAGCAACTCCGGGTGACGCTCTTCCAGGACCATCAGCATTAGCCGAACA GGGTCAGCGTCCAGAGCTACGGCCAGCGCTCTTACCTTATCAACGGGGAGAGGGATCTTT CCGCTTTTGATGAGAGACAGGTTGTTGGCGTTTTTATACCCTACTTCCTTGGCAATAGTA GCCTGACTTTTCGGTGAGATAGTGATCAGGGAATCAATATAAGCCGCGTAGCGACCTTGT TTGCTATCTGTTTCGTTGGTAGCCATGTAATAACCTTGCGTGTTTAATTTGTCTCTGGTA AGTGCTTACTGATATTACATTAAAGGTGAGGGTTGTAAAGACTTATCTATTTCTTTCGAT AGGCATCAAAACCCTTTACCTATGCGCATTATACATCTATTAAGCGGCAAATTGTCATTA TCAGCTTGCATGGTTTGTCAGACAAATCTGATATAGATGTATTCCGTATTGATACAATAG GTAGTAGTATTTCCGAACTTTCGAACGTGTTGAGTTGGATGATATGAGATGAAAAATATA ACTTCTAATTTGAACGCCCTTGAGGTTGGACATGCATATGCGCTCGGGATGGATGGCGTG GCAACGATACTTACAGAACTTAATACTGAAGAACTTCCGATAGACATGAGCGACACGACT GTCTTCACTTTCGAACTCAGCAACAAACATTTCACTCTCATCAATACTGGCTGCGGCTCA CTTGCCGTAAGAACCCATTAACTGCAAATCCTACCTATTGAAACCTGTACGAACAGCTTG GCCACCTGTTCGTACAGCATAAAATTACACACATTAGAAAACAAATTGTTTTAATAACAA GGAAATTCTCATGTCCAAAGCCATGACCAGAGCTGTGCTGAAAGAGGTACAGGACTTCCG CGACTGCGTAAAACGAGTTGTAGCGATGCTTTCAGGCAAACAGATACCTGTTGCAGAACG AGGCAATGAAGCGTATGTCCGCTACAACCGGCGCGGCGAACCAGTGCTGGTAAACATCCC ATCTATACCGGACGACGCATCACCAACCCTCATGAACGCAGTACGTGGTTTTCTCGACCA TGAAGTAGCCCATATCCTCTTTACTGATCCGAAAGTCGCGATGAAGATGCGCGAGAGAGG AAAGGCTCCGTCTACCGGGCTTTGGAACGCGCTGGAAGACGTTTTTATTGAACGCAGAAT GGGACAGGTATTCAACGGAACCCGTCGTAATTTGCTAGCCACACAGAACCTGGTGATCGA CAAATACTTCAAGGGCAAAGTGTCAGAGGCGGTTTCAATCTGCCACGGCAACCAGCGTGA ATTGTTCCTGAAATTCTTCCTTTGCCCGGTCGTCCGCGCCTGGGATGGCCAAAGCCCTTT CATCGACTTTATGGAAGAACACTGGCACCTCATCGATAAGCCTGTAGCCTTGCTCAAAGA GCATGGTATCGACGTGGCCGTTCGCAATATGTCGAACACAGAGGACTGCGTAAAGGTCGC AGCTGCTATCGCCCAAATCATGCAGGATATGAAAGACAAGCCAGAGGGCAAATTACCTGA GCTTAAATCATCTGCCAAAAAGCCGTCTAAGAGCAAAGACGAGTCCGAGGAAACACCAGA GTCAGGCGACGATCCGTCTCATAGTGAATCTGCACCAAAGCGAACCAAAGGCGAAGACGA CGACAAGGAAGAGCAAGAAGATGATGCCTCAGAAGAGGAAGATTCTGGGGATTCTGATTT GCCTGATTCATTAGATAAGGACTTACCTATACATGATAAAGAAATTAGTGATACAGAAAG TAAATATACAGAAGCAGGCGAAGATGAGTCAGGAGACACCCCAGAATCCGATGATGCCGG CATGGAATCAGGTGATTCTGACGACGAAGGTGGTAGTGATGGCACTGGCGCTCCAACGCC TGGTGATGGCATTCGCGAAGACGCCGATGACTCCGATGGTTATGGCTCTGGCGCCGCTGG CGATGGGGATAGTGATAACGGCGAAGACTCCGATGCCGGTCGTGAGGAGTCCGAAGGAGA AGACGAAGGCGAAGAGGACGTCGCCGATCACACTGACGGCGAAGGCAAGGAAAATGAGGA TGCCGCGGAAGCGCCTGAAGACAGTGAGTCAGGCTTTGTTCCTGCGCCGGATGAAATGAC TCTGGAGGACGCACTCAAGGCGCTCGACGAGATGGAAGAAGGAACAGACGAAATGACCGA AGACGCACTGTCGGCCACCATCAGCAAAGAGCTTATGAGCGCCTCACTTTCTGAGTATCG CCCATACGATCGTTCATACGACTTTATCGGGTTGATTGATGAGGCTGAAGAGCATGTAAA ACGCACCAGAAAGACATTCGGCGCAATCCCAATGCACTCACCTGTCGATCGCTACCGCAT GGTTCCGGAAGGCAGAAAACTCTTTGAACTGAAAATCGAAAAACATCTGTCTGCCGGCGT TTCTTCGACTCTGGCCAAAGACCTGGAGCGAGCTATCGCCAGCCGCAACCGAGTTCAGTT CATACCGGGTCAGAGACGTGGGCGGATACATGGCGCGAACCTGTATCGTCTGGCAATGAA CGACGACCGCGTGTTCCGCAAGAAAGAAGACCACAGAGCGGTGAACGCGTGCGTCCAGCA GGTGATCGACTTGTCCGGCTCAATGGGCGGCAGGAAGATTCAACTGGCACTCGCCAGCGC CTACACCATTGCGGATGCTCTGGATCGTATCAATGTGCCTAACATCATCACCGGCTTTAC AACGTTTGGTAGCCCAGATTATGAAACCATGTCGAAGCGCGGGTTTACACGTTTCGAGGC GCTCATGCTGCCCATTATCAAAAACTGGAATGAGAAAGCTAACTCACCAGAGATCCGCGC CCGCATGGGCTGCGTATGTGAGACGTTCCCCCTGCTCAATAACGTCGATGGTGAGAGCGT CGCGCAGCTGGCCACTCTGTTTGCAGGGCGAATGGAGGACAAAAAAATCATGCTGGTTAT GAGCGACGGGGCACCATGTGCTGCAGGCGATGGGTTCCATGAGCATTTGCGAACCGTCAC CAAAGAAATTGAGACGTTAAGTGACATCGATTTGATGGCTATCGGTGTTCTGACTGACGC ACCACGACGCTACTACAAAAATTACGCACTGGTTAACAGCGTAGAAGAGTTAGGGCCGTC AGTCGTCACTGAGCTATCTCGTATCATTCTTGGGTAAGAACTTCACCCTTAAAAATAAGT AATTACTTACTATACAGTCTAATATATTTATATAAGATATACCCCACGAACGACAAACAG TAAGGAAAAACACATGACCGCTACTGCACTACAGCAAGAAGAACATTTGCCGGAAGCCAT CGTCTGCAAGTGGTGTGGCAAATCTTTTCATTACCTGAAATCCCATATCTCTATGGGCCG TTGCGAGAACATTCCTGAGTCCGCGAAGGGTCTGGACGTGGACGAAGTGGTGAAAATGTA CACCTCTGCGTTTCCAGATGAACCAACGATCTCTCGCACGGCACTGGTCAAACTCAATGA GAAGCGTGCCGAAAGACATTCAGGAGAAGGAAAAGTAGCGGAGATTAGCGCACATCCGGG CTACGCAGGAACGGTCGAATACAAGACCGAACTGGTGGCCGCGCACGAGCTGCTTGGCGT AACGATCAAAGAGCTGGGAACGCCACGCGGAAAACCACTACAGGTGACGGTTAACGTCAA CACACCCTATCCGGAGTTCGTGCCTGAAGCGAAGAAGAACTATGTGTATGGCGACTTTGA CCTGATTAAAGACATCTTCATGATGCTGGAAATCGGAATCCCAGGCTATCTCTGGGGTCA TGCAGGAACCGGTAAATCTTCTCTTCCTACGCAGCTATGCGCCCTGCTGAATCGACCACT GATCCGCGCCCAGCATACGGCGTCTATGGAAGAAGCACACGTTACAGGCCAGATCCTCGC TCGCGATGGCTCCACCTACTTCGAGCCGGGTTTGCTGGCGCTGGCGATGAAAAATGGCTG GGTGTACCTAGCTGATGAATATGACTTCGCGTTCCCGCAGATTCTGGGTGTGTACCAGCC AGTTCTTGAAGGAGAACCGCTGATCATCAAAGAGGCAACTCCGGACTGGCGCCGTATCAC TCCGCATAAACGCTTTGCCTTCATTGGCACTGGCAACACTAACGGCTCTGGCGACGAAAC GGGTCTCTATCAAGGTACGAACATCCAGAACGCGGCGAACTTCTCGCGCTTCGGCATTGT TTCGAACGTGAAGTACATGAGCACTAAGGCTGAAGTCAACATGCTGGCTGAGGCTGGCGT CATCCGCGAATACGCCGAGAAGATGGTGAAATTCGCGAACCTTGTCCGTGAAGGTTATGA GCAGCATCTGATCAGCCAGCCAATCGGTCCTCGCGAGCTGCTGCTATCCGCAAAAATCGG AATGATGCGCGGTGATTTCTCTGCCGGCATCGAAAAGTCATTTATCAATAAACTTCCATC CACGTCTGCACAGGCAGCGCGTGAAGTGGTTCAGAAGATCTTCGGTTAATCGTGCGTAAA GGATGTTTCGGCTCTCTTATCGCAGCGTCTGAAACTGGCCGGGCTTGTCTGGCGTGTCCG GATAGGTCCGAGTGCCACCAGTCAGCCAAAGAGGTTGCGATTTCGATGTATGGGAAGTTC GTTGGCTTCCCCAATGACAAAATCAAGAAAACCAGAAAGGTAAAAACACATGAAGGCTCT GATGGTCAGAACTGACTTCTCCCTGGGAGAGTCAGCTCTAAAAGCAGAAAACGCGGTGAA AATCGCGAGAGACGCTGGCTACACTGCTGTCATTTCCGCTGACAGCATGAACATTGCCAG TGTGATTCCCCTGCAGCGTGCCGCTGGCGACGATATGGCGGTTATTTGTGGTGTTAAGCT GAATGTGGTCGACGATCCGACATACGAGCACCGCGCCCGCCTTGCGAAAGAATCAGAGAG ATGTATGGAATCATTGGTGCGTGATCGCAGCTACTGCTTCACGGCACTGATAAAGAATGA GCAAGGTTATCGCGACGTGTGCGAACTGATGACCTTAGCGAACAAGCGCGAGCAATTCTA CTTTGTCCCGCGTCTGGCGCTCGACCAACTGGCGGCCGCGTATGCCAAAGGCAACATCAT CCTGCTGACGTCCGACATTGGCAGTGTATTCCAGCGCCGGGACTTCGCAAAGATTATCGG GACGCTGGTCACAGCTGGAGGACGCGATAACTTCTACAGCGTGGTTTATCCGCACCCTAC CCCATTCTACGACCAGATTAACGTCCGGGCGATGAAAGTAGCGAGCGCACTGAAAATAGA GCCAGTGGCGTTCTATCCCGCTTATTACGAAGCGGTCGACGACGCTGACATTAAAGACAT TGCGCACATGGTTACGAACAACATCAAAATCGACCAGCCGCATCGTCTGCGTATTCCCCA CCAGCGAGATAACGCCGTTAATGGTCGCCGCCATCTCCTTGAAGCGCTGAAAGCCTTCTC CGTTCGCATGGATGTACCGGTAACAGCTGCAATGGCCTCAACAACGCAGGACACCATTAT CGAAGCCTGCACATGGCGCTGGCATGAATTGCCACCAGCACTGCCCAAGATGGCAGACGA CGAGCCTGCAACGCTGATGAAGCTGGCTGTCGCGGGGCTGCGCAAGCGTCTTACTACCAA AGAGTTTGGCTACACACCACCGGCTTCTGAGCACCGCGTGTATGTTGATCGTCTGAAGTA CGAAATGGACACGCTGACCCGTCTGGGCTTCTGTGGCTACTTCCTGATGGTGCGCGACCT GATGAATCACAGCCGTGAAACTGGCATTCCTGTCGGGCCAGGTCGTGGTTCCTCTGCCGG TTCTCTGGTGGCGTGGTGCATCGGCATAACCAACGTCGATCCTATCCGTCACGGTCTTCT GTTTGAGCGTTTCATCAACCCTGAACGTCTCGACTTACCGGATGCGGATCTGGACTTCAG CCAGGCACGTCGCCATGAGGTGATCGAGTATCTGAATGAACGCTATGGCGAAGATTACGT TGCCGGTATTCCGAACTTCACCTATCTGGGCGCGGCTTCTGCGCTGCGTGACACCGCACG TATTTACGGTGTCGATGCTGCGGATATGGCGGTATCCAAAGAGTTCAAGAATCTGGAGGA CGATAGCCTGTCGCTGGAAGAGCTGCGCGAGCAACTGGCCAGCCTGGACAAATACGCCAC GAAATACCCGGAAGCGTTCAAAGCGGCGTGTAAGCTGCAAAGCCTGATGCGTGGTTTTGG TCGCCACGCTGCGGGGATGATCGTCGCTGGCGTTCCACTGGTAGAGCGCACGCCCGTCGA GCTGCGTGGCAATGCTCGCTGTATTGCATTCGATAAACGTTACTGCGAGGCGATGGGGCT GATTAAGCTGGACGTTCTCGGTCTGGCAACGCTCGATCTGTTGGATAGCGCGAAACGCTA CATCAAAGAGAGTACCGGGGAAGACATCAATCTCGATGCTATCCCACTGGACGATCGTAA GGTTCTGGATGGGTTCGCTGCAGGGTACACGCAGGGCGTATTCCAGCTGGAGTCCGGTCC CATGCGCAAGCTGCTTAAAGATCTGGGCGGTGGCATCGAGCCAATGAGCTTCAAAACCGT TGTCGCCACGACCGCACTCTTCCGACCTGGCCCGATTCAATCCGGCATGTTGGACGACTA TGTCTCCGTGGCCAAAGGCTTCATGGCTCCACAGTCGCTGCACCCGGTACTGGACGAGCT TACCGCGGAAACCAACGGCGTGATTCTGTATCAGGAACAGACGATGAACGCGACACGATT GCTGGCCGGTTTCACGATGGCCGAAGCAGATGGTGTACGTAAAGCGATCGGTAAAAAGGA TATGGAAAAGATGAAGAGCATGGGCGAGAAGTTCGTCGTTCAGGCTCAAGCTGGTTGGAT CGACGTTGAGATGGAAGACGGCACCACGCAGCGTATTCACCGCGCGGAACACTTCAAATG TGAGGACGGCGCACTGCGGACGGTCGAAGAAGCGCTGGAGGCAGGTGTGAAATTGCCGAT GGCTGCTGTACGCGTTACAGGGTCACAACCGGGCTTGTCTGAGACGAAAGCTAAGGAGAT CTGGGATGCCTTCGAGAAGAACGGTGCGTATCAGTTCAACAAATCACATCCCGTTGCCTA CTCGCTGATCAGCTATCAGTCTATGTGGTTAAAGACACATTACCCTGCTGAGTTTTTCGC TGCTGCGCTCACCATTCTGGGCGAGGATAAGCACCAGGGGCTGGTTAAGGATGCGCTGAC CTATGGCATTCACGTATTGCCACCAGACGTTAACGTGTCATCTAACCGAATTGAGATCCG CACGCTGGAAGACGGCAGCCAGGTTCTGTATGCGCCATTCTCTGCTGTAAAAGGCTGCTC TGAGAATGGTTGCCAGGCCATCATGAGAGCGCGTGAGAAAGTTGGCGGCAAATTCGAGTC ACTTGAGCAATTTGAGGAAGCGGTCGAGAAGCGTGCGTGTGCGTGTAACAGCCGGGTACG CGAGTCACTGCAAAAAGTAGGTGCGTTCGCATCGATTGAGCCTGGCAGTCTGCCAGCGAC AGATCCGGAACGGCTGCGCGACCAGGCTGAATTGATGGGCAATCTGGTGATCGACGCTGT AAAAGCCTCTCGACCGTTCGAGATGAACCCTAAACGCTCTGCCGAAGTGAATGTACTGAT GACACGCATGGCGGCTGAAATGGGTCTGGG