##gff-version3
##sequence-region UHGV-0200708 1 24127
UHGV-0200708	prodigal-gv:2.10.0	CDS	266	754	.	+	0	UHGV-0200708_1;genetic_code=11;partial_gene=No;start_type=ATG;product=terminase small subunit;PHROG=phrog_141: terminase small subunit;UniRef90=UPI000DF0F466: DUF1441 family protein;eggNOG-mapper=716541.ECL_01685: Protein of unknown function (DUF1441);Pfam=PF07278: Protein of unknown function (DUF1441);PHROG_category=head and packaging;structural_annotation=PF07278,COG4220
UHGV-0200708	prodigal-gv:2.10.0	CDS	754	2856	.	+	0	UHGV-0200708_2;genetic_code=11;partial_gene=No;start_type=ATG;product=Terminase;KOfam=K21512: gpA; terminase, large subunit [EC:3.1.21.4];PHROG=phrog_15: terminase large subunit;UniRef90=E3G2T9: Terminase GpA;eggNOG-mapper=701347.Entcl_1864: Terminase;Pfam=PF05876: Phage terminase large subunit gpA, ATPase domain;Pfam_2=PF20454: Terminase large subunit gpA, endonuclease domain;COG=COG5525: Phage terminase, large subunit GpA;HAMAP=MF_04144: Terminase, large subunit;PHROG_category=head and packaging;structural_annotation=PF20454,PF05876,MF_04144,TIGR01547,COG5525
UHGV-0200708	prodigal-gv:2.10.0	CDS	2847	3068	.	+	0	UHGV-0200708_3;genetic_code=11;partial_gene=No;start_type=ATG;product=Primosomal replication priB and priC family protein;PHROG=phrog_118: head-tail adaptor;UniRef90=W0BRV9: Primosomal replication priB and priC family protein;eggNOG-mapper=469595.CSAG_00955;PHROG_category=connector;structural_annotation=PF19645
UHGV-0200708	prodigal-gv:2.10.0	CDS	3065	4573	.	+	0	UHGV-0200708_4;genetic_code=11;partial_gene=No;start_type=ATG;product=portal protein;PHROG=phrog_12037;UniRef90=A0A0D7LS21: Capsid protein;eggNOG-mapper=469595.CSAG_00956: portal protein;Pfam=PF05136: Phage portal protein, lambda family;NCBIFam=TIGR01539.1: portal_lambda/phage portal protein;COG=COG5511: Phage capsid protein;PHROG_category=unknown function;structural_annotation=PF05136,MF_04135,TIGR01539,COG5511
UHGV-0200708	prodigal-gv:2.10.0	CDS	4518	6542	.	+	0	UHGV-0200708_5;genetic_code=11;partial_gene=No;start_type=GTG;product=Clp protease;KOfam=K01358: clpP, CLPP; ATP-dependent Clp protease, protease subunit [EC:3.4.21.92];PHROG=phrog_133: head maturation protease;UniRef90=A0A378GI95: ATP-dependent Clp protease proteolytic subunit;eggNOG-mapper=469595.CSAG_00957: Clp protease;Pfam=PF00574: Clp protease;Pfam_2=PF10124: Mu-like prophage major head subunit gpT;COG=COG0740: ATP-dependent protease ClpP, protease subunit;PHROG_category=head and packaging;structural_annotation=PF00574,PF05065,MF_00444,MF_04119,NF011089,TIGR01554,COG0740,COG4397
UHGV-0200708	prodigal-gv:2.10.0	CDS	6634	6960	.	+	0	UHGV-0200708_6;genetic_code=11;partial_gene=No;start_type=ATG;product=Recombinase RecA;PHROG=phrog_122: head decoration;UniRef90=A0A0D7LT74: Recombinase RecA;eggNOG-mapper=469595.CSAG_00958: Uncharacterized conserved protein (DUF2190);Pfam=PF09956: Uncharacterized conserved protein (DUF2190);COG=COG5471: Predicted phage recombinase, RecA/RadA family;PHROG_category=head and packaging;structural_annotation=PF09956,COG5471
UHGV-0200708	prodigal-gv:2.10.0	CDS	6953	7228	.	+	0	UHGV-0200708_7;genetic_code=11;partial_gene=No;start_type=ATG;product=ATP-binding sugar transporter from pro-phage;PHROG=phrog_153: minor tail protein;UniRef90=A0A0D7LRN1: ATP-binding protein;eggNOG-mapper=469595.CSAG_00959: ATP-binding sugar transporter from pro-phage;Pfam=PF13856: ATP-binding sugar transporter from pro-phage;PHROG_category=tail;structural_annotation=PF13856
UHGV-0200708	prodigal-gv:2.10.0	CDS	7239	7817	.	+	0	UHGV-0200708_8;genetic_code=11;partial_gene=No;start_type=ATG;product=tail protein;PHROG=phrog_8274;UniRef90=K7PMB7: Minor tail protein Z;eggNOG-mapper=61647.LG71_19525: tail protein;Pfam=PF06763: Prophage minor tail protein Z (GPZ);PHROG_category=unknown function;structural_annotation=PF06763
UHGV-0200708	prodigal-gv:2.10.0	CDS	7814	8215	.	+	0	UHGV-0200708_9;genetic_code=11;partial_gene=No;start_type=ATG;product=Phage minor tail protein U;PHROG=phrog_37: tail terminator;UniRef90=A0A0D7M043: Minor tail protein U;eggNOG-mapper=1147149.K7PME6_9CAUD: Phage minor tail protein U;Pfam=PF06141: Phage minor tail protein U;PHROG_category=connector;structural_annotation=PF06141,COG5003
UHGV-0200708	prodigal-gv:2.10.0	CDS	8225	8968	.	+	0	UHGV-0200708_10;genetic_code=11;partial_gene=No;start_type=ATG;product=peptidase activity;KOfam=K20846: cgkA; kappa-carrageenase [EC:3.2.1.83];PHROG=phrog_41: major tail protein;UniRef90=UPI000A3A6D1B: phage tail protein;eggNOG-mapper=10713.M9NYX0_BPPH8: peptidase activity;Pfam=PF16461: Lambda phage tail tube protein, TTP;Pfam_2=PF02368: Bacterial Ig-like domain (group 2);PHROG_category=tail;structural_annotation=PF02368,PF06199,MF_04116,TIGR02126,TIGR04225,COG5437
UHGV-0200708	prodigal-gv:2.10.0	CDS	8979	9410	.	+	0	UHGV-0200708_11;genetic_code=11;partial_gene=No;start_type=ATG;product=phage minor tail protein G;PHROG=phrog_42: minor tail protein;UniRef90=A0A4Q6HBV1: Phage minor tail protein G;eggNOG-mapper=61647.LG71_19510: phage minor tail protein G;Pfam=PF06894: Bacteriophage lambda tail assembly chaperone, TAC, protein G;NCBIFam=TIGR01674.1: phage_lambda_G/phage minor tail protein G;HAMAP=MF_04134: Tail assembly protein GT;PHROG_category=tail;structural_annotation=PF06894,MF_04134,TIGR01674
UHGV-0200708	prodigal-gv:2.10.0	CDS	9461	9733	.	+	0	UHGV-0200708_12;genetic_code=11;partial_gene=No;start_type=ATG;product=phage tail assembly protein T;PHROG=phrog_39: tail assembly protein;UniRef90=UPI001E14CD7B: phage tail assembly protein T;eggNOG-mapper=61647.LG71_19505: phage tail assembly protein T;Pfam=PF06223: Minor tail protein T;NCBIFam=TIGR01715.1: phage_lam_T/phage tail assembly protein T;HAMAP=MF_04134: Tail assembly protein GT;PHROG_category=tail;structural_annotation=PF06223,TIGR01715
UHGV-0200708	prodigal-gv:2.10.0	CDS	9717	12860	.	+	0	UHGV-0200708_13;genetic_code=11;partial_gene=No;start_type=ATG;product=peptidoglycan catabolic process;PHROG=phrog_24: tail length tape measure protein;UniRef90=A0A4V8ESQ1: Phage tail tape measure protein;eggNOG-mapper=1147149.K7PH85_9CAUD: peptidoglycan catabolic process;Pfam=PF06791: Prophage tail length tape measure protein;Pfam_2=PF09718: Lambda phage tail tape-measure protein (Tape_meas_lam_C);NCBIFam=TIGR01541.1: tape_meas_lam_C/phage tail tape measure protein;HAMAP=MF_04138: Tape measure protein [H];PHROG_category=tail;structural_annotation=PF06791,MF_04138,TIGR01541,COG5281
UHGV-0200708	prodigal-gv:2.10.0	CDS	12864	13211	.	+	0	UHGV-0200708_14;genetic_code=11;partial_gene=No;start_type=ATG;product=Phage minor tail protein;PHROG=phrog_14: minor tail protein;UniRef90=A0A4S2X3X1: Phage minor tail protein;eggNOG-mapper=469595.CSAG_00966: Phage minor tail protein;Pfam=PF05939: Phage minor tail protein;COG=COG4718: Phage tail protein;PHROG_category=tail;structural_annotation=PF05939,TIGR02217,COG4718
UHGV-0200708	prodigal-gv:2.10.0	CDS	13208	13963	.	+	0	UHGV-0200708_15;genetic_code=11;partial_gene=No;start_type=ATG;product=Phage minor tail protein L;PHROG=phrog_18: minor tail protein;UniRef90=A0A0D7LZW5: Phage minor tail protein L;eggNOG-mapper=1080067.BAZH01000027_gene3173: Phage minor tail protein L;Pfam=PF05100: Phage minor tail protein L;NCBIFam=TIGR01600.1: phage_tail_L/phage minor tail protein L;COG=COG4672: Phage tail protein;PHROG_category=tail;structural_annotation=PF05100,TIGR01600,COG4672
UHGV-0200708	prodigal-gv:2.10.0	CDS	13965	14675	.	+	0	UHGV-0200708_16;genetic_code=11;partial_gene=No;start_type=ATG;product=peptidoglycan catabolic process;KOfam=K21140: mec; [CysO sulfur-carrier protein]-S-L-cysteine hydrolase [EC:3.13.1.6];PHROG=phrog_30: minor tail protein;UniRef90=K7PGR2: Minor tail protein;eggNOG-mapper=1147154.K7PGR2_9CAUD: peptidoglycan catabolic process;Pfam=PF14464: Prokaryotic homologs of the JAB domain;Pfam_2=PF00877: NlpC/P60 family;PHROG_category=tail;structural_annotation=PF14464,PF00877,NF041370,TIGR02219,COG1310,COG0791
UHGV-0200708	prodigal-gv:2.10.0	CDS	14705	15040	.	+	0	UHGV-0200708_17;genetic_code=11;partial_gene=No;start_type=ATG;PHROG=phrog_914;eggNOG-mapper=1282356.H045_08390;PHROG_category=unknown function;structural_annotation=PF12092
UHGV-0200708	prodigal-gv:2.10.0	CDS	15097	15699	.	+	0	UHGV-0200708_18;genetic_code=11;partial_gene=No;start_type=ATG;product=phage tail assembly protein;PHROG=phrog_32: tail assembly protein;UniRef90=A0A0D7M0D1: Phage tail assembly protein;eggNOG-mapper=371042.NG99_26635: phage tail assembly protein;COG=COG4723: Phage-related protein, tail assembly protein I;PHROG_category=tail;structural_annotation=PF06805,NF008347,COG4723
UHGV-0200708	prodigal-gv:2.10.0	CDS	15729	18914	.	+	0	UHGV-0200708_19;genetic_code=11;partial_gene=No;start_type=ATG;product=Putative phage tail protein;PHROG=phrog_2589: tail protein;UniRef90=UPI001D77D210: host specificity protein J;eggNOG-mapper=1080067.BAZH01000027_gene3170: Putative phage tail protein;Pfam=PF13550: Putative phage tail protein;Pfam_2=PF00041: Fibronectin type III domain;Pfam_3=PF09327: Domain of unknown function (DUF1983);COG=COG4733: Phage-related protein, tail protein J;PHROG_category=tail;structural_annotation=PF09327,PF13550,PF16323,PF16383,PF14109,NF040662,COG4733
UHGV-0200708	prodigal-gv:2.10.0	CDS	18914	19228	.	+	0	UHGV-0200708_20;genetic_code=11;partial_gene=No;start_type=ATG;product=Phage-like protein;PHROG=phrog_557: outer membrane protein;UniRef90=A0A2R4PH40: Phage-like protein;eggNOG-mapper=40631.O64336_BPN15;PHROG_category=other
UHGV-0200708	prodigal-gv:2.10.0	CDS	19229	19903	.	+	0	UHGV-0200708_21;genetic_code=11;partial_gene=No;start_type=ATG;product=Gp23;PHROG=phrog_425: membrane associated protein;UniRef90=O64337: Gp23;eggNOG-mapper=40631.O64337_BPN15;PHROG_category=moron, auxiliary metabolic gene and host takeover;structural_annotation=PF20051
UHGV-0200708	prodigal-gv:2.10.0	CDS	20311	21384	.	+	0	UHGV-0200708_22;genetic_code=11;partial_gene=No;start_type=ATG;product=Peptidase S74 domain-containing protein;PHROG=phrog_17834;UniRef90=A0A837GN46: Peptidase S74 domain-containing protein;eggNOG-mapper=1080067.BAZH01000027_gene3168;Pfam=PF13884: Chaperone of endosialidase;PHROG_category=unknown function;structural_annotation=PF12195
UHGV-0200708	prodigal-gv:2.10.0	CDS	21452	21694	.	-	0	UHGV-0200708_23;genetic_code=11;partial_gene=No;start_type=ATG;product=DinI-like family;KOfam=K12149: dinI; DNA-damage-inducible protein I;PHROG=phrog_36550;UniRef90=A0A2T1LMJ3: DinI family protein;eggNOG-mapper=1080067.BAZH01000027_gene3167: DinI-like family;Pfam=PF06183: DinI-like family;PHROG_category=unknown function;structural_annotation=PF06183,NF007893
UHGV-0200708	prodigal-gv:2.10.0	CDS	21773	22162	.	+	0	UHGV-0200708_24;genetic_code=11;partial_gene=No;start_type=ATG;product=Represses a number of genes involved in the response to DNA damage (SOS response), including recA and lexA. In the presence of single-stranded DNA, RecA interacts with LexA causing an autocatalytic cleavage which disrupts the DNA-binding part of LexA, leading to derepression of the SOS regulon and eventually DNA repair;KOfam=K03503: umuD; DNA polymerase V [EC:3.4.21.-];PHROG=phrog_811: UmuD-like protein;UniRef90=A0A376I2F8: DNA repair protein;eggNOG-mapper=90371.CY43_11975: Represses a number of genes involved in the response to DNA damage (SOS response), including recA and lexA. In the presence of single-stranded DNA, RecA interacts with LexA causing an autocatalytic cleavage which disrupts the DNA-binding part of LexA, leading to derepression of the SOS regulon and eventually DNA repair;Pfam=PF00717: Peptidase S24-like;COG=COG1974: SOS-response transcriptional repressor LexA (RecA-mediated autopeptidase);PHROG_category=DNA, RNA and nucleotide metabolism;structural_annotation=PF00717,MF_00015,NF007621,COG1974
UHGV-0200708	prodigal-gv:2.10.0	CDS	22163	22831	.	-	0	UHGV-0200708_25;genetic_code=11;partial_gene=No;start_type=ATG;product=SOS response associated peptidase (SRAP);PHROG=phrog_1599;UniRef90=A0A0D7M0E2: Abasic site processing protein;eggNOG-mapper=469595.CSAG_00978: SOS response associated peptidase (SRAP);Pfam=PF02586: SOS response associated peptidase (SRAP);NCBIFam=NF007413.0: PRK09951.1/hypothetical protein;COG=COG2135: ssDNA abasic site-binding protein YedK/HMCES, SRAP family;PHROG_category=unknown function;structural_annotation=PF02586,NF007413,COG2135
UHGV-0200708	prodigal-gv:2.10.0	CDS	22917	23072	.	+	0	UHGV-0200708_26;genetic_code=11;partial_gene=No;start_type=ATG;product=Preprotein translocase subunit SecY;UniRef90=A0A6N7KD44: Preprotein translocase subunit SecY
UHGV-0200708	prodigal-gv:2.10.0	CDS	23047	23157	.	-	0	UHGV-0200708_27;genetic_code=11;partial_gene=No;start_type=ATG;product=Conserved protein, UPF0759 family;UniRef90=A0A2X6CWL2: Conserved protein, UPF0759 family;eggNOG-mapper=1005994.GTGU_00189: Protein of unknown function DUF72;COG=COG1801: Sugar isomerase-related protein YecE, UPF0759/DUF72 family
UHGV-0200708	prodigal-gv:2.10.0	CDS	23154	23720	.	-	0	UHGV-0200708_28;genetic_code=11;partial_gene=No;start_type=ATG;product=Isochorismatase family;KOfam=K09020: rutB; ureidoacrylate peracid hydrolase [EC:3.5.1.110];PHROG=phrog_19499;UniRef90=A0A0D7LXQ1: Hydrolase;eggNOG-mapper=500640.CIT292_06703: Isochorismatase family;Pfam=PF00857: Isochorismatase family;NCBIFam=NF008517.0: PRK11440.1/hydrolase;COG=COG1335: Nicotinamidase-related amidase;PHROG_category=unknown function
UHGV-0200708	prodigal-gv:2.10.0	CDS	24009	24125	.	+	0	UHGV-0200708_29;genetic_code=11;partial_gene=Yes;start_type=ATG;product=Catalyzes the attachment of L-aspartate to tRNA(Asp) in a two-step reaction L-aspartate is first activated by ATP to form Asp-AMP and then transferred to the acceptor end of tRNA(Asp);KOfam=K01876: DARS2, aspS; aspartyl-tRNA synthetase [EC:6.1.1.12];PHROG=phrog_19509;UniRef90=G5S9W2: Aspartyl-tRNA synthetase;eggNOG-mapper=1080067.BAZH01000024_gene3466: Catalyzes the attachment of L-aspartate to tRNA(Asp) in a two-step reaction L-aspartate is first activated by ATP to form Asp-AMP and then transferred to the acceptor end of tRNA(Asp);COG=COG0173: Aspartyl-tRNA synthetase;PHROG_category=unknown function
##FASTA
>UHGV-0200708
GCGAACTGCTCCCCTGCCGCGTAGCATTGCCAACTGAATAACACCTCCCCGTCAATACGG
TTCTCGCTGCACGCTTACATTGCAAGTGATAATCATTATTATTAAGCGGGTCCTCCTGGC
GGGGTGGCCTGCCACGGGGCGGCGTGCTCGCGGAAAACGGCTAGTTTTTCAGATCTAAGG
TCATCATCATCATTTGCGCAGGTTATTGATCTCATTGGAGGCGATTTCGTGCAGATGTCG
AATCGTTTAAAAAGTGTTCACCATCATGGACCAGGAAATTGCCACTTTAAAACTGAATAT
CAACCAGTTGGCGGGGATCACTGGCGTACACCGTCAGACGGTCGCCGCCAGGCTGAAAAA
TATTGAACCGGCACCAGGTAGCAACAGCAAATTAAAGCTTTACCTGATCACCGACATTCT
GACCGAACTGATGATCCCCACTGTGTCAGCCAATATCGATGACATGCTGCCATCGGACAG
GCTTTCCCACTGGAAAGCGGAGAATGAGCGACTCAAGTTTGAGCAGGATACGGGGCAGCT
CATTCCCGCTGATGAAGTGGCGCGCGAATTCTCATTGATGGCGAAAGCCGTCGTCATGGT
ACTTGAAACCCTCCCTGATGTACTTGAGCGTGACTGTGCATTAACGCCTGTTGCGGTTTC
TCGCGTGCAGAGCGTTATTGATGACCTGCGCGATCAGATGGCGGAGAGGGTGCAGGACGC
TGAAGCAGAGGAGGAAGAGCCAGAGGAGGACTGATGGCAAAGCGGGCATCCGCCAGAGGC
ATCCGCCGCGATGTTTCCGGTATCTTACGTGCCCCGCGTCGAATGCAGGTGGCCGATGCG
GTCAGTACTTATATGCGCGTGCCGATGGGGGCGGGTAACTCCGTTCCATGGGATCCGGAT
CTGGCACCTTACGTGATTGAACCGATGAACTGCCTGGCATCGCGTGAATATGACGCGGTA
GTGTTTGTTGGTCCGGCGCGAACGGGTAAAACCATTGGTCTGATTGATGGCTGGATTGTT
TACAACGTTGTCTGTGATCCGGCTGATATGCTCCTGATTCAGATGACTGAGGAAAAGGCG
CGCGAGCACTCCAAAAAGCGTCTTGATCGTACATTCCGTTGCAGCCCTGAAGTGAAATCC
CGACTGAGCCCGCGGCGTAATGATAACAACGTATATGACCGCACGTTTCGCGCCGGGAAC
TACCTGAAAATCGGCTGGCCATCGGTCAATATCATGTCCTCATCGGACTATAAATGTGTG
GCACTGACCGACTATGACCGTTTCCCGGAAGACATTGACGGGGAAGGTGACGCCTTTTCA
CTGGCATCAAAGCGAACAACAACGTTCATGTCGTCAGGTATGACACTGGTTGAGAGTTCG
CCGGGCCGCGACATACGTGACACAAAATGGCGCCGTAGCTCACCGCATGAAGCACCTCCT
TCAACGGGGATTCTGGCGCTGTACAACCGTGGTGATCGCCGTCGCCTTTACTGGCCGTGC
CCACATTGCGGTGAATATTTCCAGCCTGAAATGGACAATATGACAGGTTACCGCGATATC
GCGGACCCTGTTCAGGCCAGCGAGAAAGCCTGTCTTCAATGCCCTGCCTGTAAAGAGCAC
ATCACTGCGGATATGAAGCGTTCGCTCAATATGAAAGGGAAGTGGCTGCGGGATGGGCAA
ACCATCGACAACGATGGTGTTATCACTGGGGAAGGGCGACGCTCGCGCATTGCCTCCTTC
TGGATGGAAGGCCCTGCCGCCGCGTACCAGACCTGGGCGCAGCTCATCTATAAATTTCTT
ACCGCTGAGCAGGACTATCAGGCCACTGGCAGCGAGGAAGCACTGAAGACGGTAATCAAC
ACCGACTTTGGGCGTCCGTATCTTCCTCGTTCCAGCATGGAACAGCGCAAAAGTGAACTG
CTTGAGCAGCGTGCGGAGGTTGTACCAAAGCGCTCTGTTCCGGACGGGGTTTGTTTCCTT
ATGGCGACCGTCGATGTTCAGGCGGGGCGCAACCGGCGTTTTGTTGTTCAGGTTACTGGC
TACGGCAGCATGGGAGAGCGCTGGCTGGTGGACCGCTACAATATCAGGCAGTCGATGCGC
TATGACGCCAATGGCGAGAGCCAGCAGATTGACCCGGCAAGCTATCCGGAAGACTGGGAT
TTATTGCTGACCGATGTGTTTAACAAAGCCTGGCCAATGGCATCGGATCCGACTAGTTGT
ATGCGGCTGATGGCGATGGCCGTTGACTCCGGCGGTGAGGATGGTGTGACCGACAACGCT
TATAAATTCTGGCGTAAGTGTCGTCGTGAAGGACTCGGAAAACAGATTTACCTGTTCAAA
GGCGACAGTGTCCGCCGATCCAAACTTATCTCCCGAACCTTTCCTGATAATACCGGACGT
TCAAGCCGACGGGCACAGGCTTCTGGTGATGTCCCGCTTTACTTGATCCAGACCGATGCT
CTGAAAGACCGGGTGAACAACTCTTTGTGGCGTGATTCACCAGGCCCTGGCTATGTGCAT
TTCCCTGACTGGCTCGGCAGCTGGTTTTACGATGAACTGACCTATGAGGAGCGATCGACT
GATGGCAAATGGAGTAAGCCGGGACGTGGTGCAAACGAAGCATTTGACCTGCTGGTCTAC
GCTGATGCGCTCGCCATCCTCCACGGCTACGAGAAAATCAAATGGCCCGCTGCTCCTGAG
TGGGCGAGGCGGGAAACCTGGCTGGAGAACGCGCCGCCGGAAGCTGGCGAAGCGGCATCC
CAGACACCAGAACCAGTACCCACCAATAAACGGAAGCGGAAAAAGCCCGTAACCGATGAT
TCTAACCCCTGGAGTACATCAGGAGGATGGTTGTGAACCGTGTTGATATTGAAGCCATGA
TCCAGCGATATACCGAAGCCGAAATGGCGGTGCTGGATGGCAAAACTATCCGTTTCAATG
GGCAGGAAATGACGATGGAGAACCTGTCTGAAATCCGAAAAGGGCGTCAGGAGTGGGAGC
GTCGGCTCTCTTCTCTTATTTCTCATCGCCGCGGGCGACCCGGTTACCGACTGGCGAGGT
TTGAATGAGCCTTTTAGATGATGCGATTGGGGTCTTTTCGCCAGGCTGGAAAGCAGCCCG
TCTGCAGGCGCGCGCGAAAATCAGGGCATATGAAGCCGTTACCCCGACCAGAACGCACAA
AGGGCGCCGTGAAAATCGTTCAGCTGATCAGCTCAGCAAAATGGGGGCGGTATCACTGCG
GGAGCAGGCCCGGTGGCTCGATAACAATCACGATCTGGTGATTGGGGTGTTCGATAAGCT
GGAAGAGCGGGTGGTTGGGAAAGCCGGAATTATTGTTGAACCCCATCCCAAACTGATGAA
CGGTAAAATCGCCAAAAAGCTGGCAGATCAGATCCGTAATAAATGGGCAGAATGGTCTGT
CAGGCCTGATGTCACGAACCAGTTTACCCGCCCGATGCTTGAGCGCCTGATGTTGCGCAC
CTGGCTGCGGGATGGCGAAGTGTTTGCCCAGCTTGTCAGTGGAACCGGGAATGGTCTTAC
GCCAGCAGCCGGTATCCCTTTCTGGCTTGAAGCGCTTGAACCAGATTTTATTCCCATGAA
CAGCGATGCTGCCAGCCAGCTTAATCAGGGGGTATTCGTCGACAACTGGGGCAGACCAAG
GAAATATCAGGTTTATAAAAGCCTGCCCGTTTCAGGCCGTCAGCTTGATACCAAAGAAGT
GGATGCGGAAAACATGCTGCATCTTAAATTTGTCCGCCGTCTGCACCAGACCCGGGGCGT
ATCGATGCTATCCGGTGTACTGATGCGTCTGAGCGCACTTAAAGAGTATGAAGATGCTGA
GCTCACCGCCGCACGTATTGCTGCTGCGCTGGGTATGTACATCAAAAAGGGAGACGGGCA
AAGCTTCGAAGAGAGTAACAGTTCTTCCGATGATGATGATCGGGAAGTGATGATTCAACC
AGGCATCATTTATGACGATCTGAAGCCTGGTGAAGATATCGGCATGGTGAAATCTGACCG
GCCCAATCCTAACCTTGAAACCTTCCGAAATGGGCAACTTCGCGCTGTCGCAGCAGGTAG
CCGACTCAGCTTTTCAAGCACAGCCAGAAACTACAACGGCACCTACAGCGCGCAGCGGCA
GGAACTGGTGGAATCAACAGATGGCTATCTCATTTTACAGGACTGGTTTATTGGCGCGGT
GACCCGGCCAATGTACCGCGCCTGGCTGAAAATGGCGGTGGCCGCTGGCGAGATTAAATT
ACCCCGCGGTCTGGATATGGAGTCGCTGTACTCGGCGGTGTATTCCGGCCCTGTTATGCC
GTGGATCGATCCGGTTAAAGAGGCCAATGCCTGGAAGTTACAGATCCGGGGCGGAGCGGC
AACGGAATCCGACTGGGTCCGCGCCAGCGGACGTAACCCGAACGATGTGAAGGCGCGCCG
GAAGGCAGAGATCGACGAAAACAAAGAGATGGGGCTGGTGTTTGACACTGACCCTGCCAA
TGACAAAGGAGGCACAAGTGCCGAAGCCAAAGAACCGGGCGCACCACCGTCCGAAAGCCA
GCGCAAAAAGTAATTCCTGGTTCCGTATGCAGGCCAGCGCCGACAACGAAGCGGATATTT
ATATCTACGACGAGATCGGCTACTGGGGGGTGACGGCGCGCCAGTTTGTGAATGAGCTGA
AGGCGCTGGGCGACATTACCCATATCAACCTTCATATCAATTCGCCCGGTGGCGATGTCT
TTGATGGCATCGCCATTTTTAATGCCCTGAAGCATCACGGCGCGGCGATCACCGTTCACA
TTGATGGTCTGGCAGCTTCTATGGCTTCGGTGATTGCGATGGTTGGCAACCCGGTCATTA
TGCCGGAAAACACGATGATGATGATCCACAAACCATGGGGATTCGCAGGTGGCGATGCCA
ACGACATGCGGGATTATGCCGATCTGCTGGATAAGGTCGAGTCTGTCCTGATCCCGGCGT
ACGCGGAGAAAACAGGAAAAACGACCGATGAAATCGCCGCCATGCTGGACGATGAAACCT
GGATGGATGGTAAAGAATGCTTAGCGCATGGCTTTGCCGATCAGGTCACTACATCTCTGC
AGGCGATGGCCTGTATTCAATCAAAACGTATTGAGGACTTTGAAAAGATGCCAAACAGCA
TTCGTAACATGCTCACCCCGCCGCGCAATACTACCCAGCGCGAACCGCAGCAACCGCAAC
CACAGGTGGCGGCAACGACGACCCCAGCGCCAGCGTCCACTTCTGATGAAGCCACTATCC
GAGCACAGGTGCTTGCCGAGCAAAAGAACCGTGTTAACGCAATTAACGATCTCTTTGCGA
TGTTCGGCGGCAAGCATCATGAGCTGCAGAATAAATGCATCGCGGATCCGGAATGCACAG
TGGCTCAGGCTAAAGATGAACTGCTGGCGGCGCTGGGCAAAAATGCAACACCGTCGAATA
AAACCACGGATGCGCACATTTACGCCGGGAACGGTAACTTTGTTGGCGACGGAGTTCGCC
AGGCACTGATGGCGCGCGCGGGCTTCGAGAGCCTGGAGCGGGACAACGTCTATAACGGCA
TGACGCTGCGCGAATATGCCCGTATGGCACTGACCGAACGCGGCATCGGCGTTTCCAGCT
ATAACCCGATGCAAATGGTCGGTATGGCACTGACGCACAGCACGTCTGACTTCGGTAATA
TCCTGCTCGACGTTGCTAATAAAGCGTTACTGCAGGGCTGGGAGGAAGCGGCAGAAACTT
TTGAGCAGTGGACCAAGAAAGGCCAGTTGTCTGACTTTAAAACGGCGCATCGTGTCGGTC
TGGGAGGCTTCTCATCCCTGCGTCAGGTACGCGAAGGTGCTGAATATAAGTATGTGACCA
CCAAAGATAAAGGTGAAAGCATCGCGCTGGCCACCTACGGCGAAATCTTCTCTATTACCC
GTCAGGCGATCATCAACGACGATCTGAATCAGTTAACCGATGTACCGATGAAGATGGGCC
GTGCAGCAAAAGGGACGATTGGCGACCTAGTGTATGCCGTTCTGACCGAAAACGCGAAAT
TGTCTGATGGTAAGCCGCTGTTCCATGCTGATCACGGTAATATTTCCGCAGGCGCGATTT
CTGTAGCCAGCCTTGATGAAGCGCGCAAGATGATGCGTCTGCAGAAAGAGGGTGAGCGTC
CCCTGAATATTCGCCCGGCATTCATGCTGGTGCCTGTCGCGCTCGAAACCCTGGCAAACC
AGACGATCAAGTCTGCCAGTGTGAAAGGGGCGGATATCAACGCCGGTATCATGAACCCAA
TTCAGAACTTTGCTGAAGTTATCGCGGAGCCGCGTCTTGACGCCAAAGACACCAGCGCCT
GGTATCTGGCCGCCGCTAAGGGCACGGACACCATCGAAGTGGCTTACCTGAACGGCGTTG
ATACTCCGTATATCGATCAGCAGGAAGGCTTCACGACCGACGGTATTGCCACCAAAGTGC
GCATCGATGCCGGTGTATCTCCTCTGGATTATCGCGGCCTGGCGAAATCAACCGGGAAAT
AATCCCTTCCACTCAAGCAGCACATCACAGCCCATAAGGGCTTTTTTTTTATCTGAATTC
GGCCCCGCATGGGGCTGGATGGAGACTGAATTTATGGCGAAGAATTTTGTACAGCATGGC
AAAACTATTGAGATTGCCAACACGGGCAGCACTGCGATCCTGAGTGGTTCGCCGGTGATG
GTGGGGAAAGTCGTGGCGATTGCCATTACTGATATTGCGGCAGGCCAGACAGGGGACGGT
TTTTCCGAAGGGGTTTTCCTGCTGCCTAAGCTGACTACCGATGCGATCACCATCGGTGAG
CAGGTTCATATCAAAGATGGAAAAGTGCAGAACGACGCGACAGGTGCCGATCTGGCCGGG
GTTGCCTGGGAAGATGCTGCTGCCAGTTCCGCAATTGTAGCCGTGAAAATCAATGCCTAA
TCCCTTTGACAGACTTGTCAGTCGCATGGATGCGGTCACGGTGAACAAAATGGGCAAGCC
AGCGACCATCAACGGGGAGCCCATGATTGTTATTCCGGCTGAGTTTCTGGAAGAAATGGG
GCCTTTAAGCGGAACAGGGCGGTCGCTGGTGGTGTTTACCGCTGGCTACCAGCCACGCCG
TAATGATGTGGTGATTTTTGAGGGGGAGGAATTCCATCTGACCCGTCACGAGCGCTTTAA
CGGTAAGCCGCGCATCTTTATCGAATAGGAGGGGGGGGATGTCGGTTAAAGGCCTGGAAA
GGGCTATTCAGAATCTCAACAGCCTCAGCCGGTTAATCGTTCCTGAGGCAACTGCGAAAG
CACTTAACCGTGTGGCCAGCAGAACGATAAGTCAGGGCAGCAAAACTGTAGCGAAAGAGG
CAAAGGTGGATGATAACCGGAAAACGGGGCTTCCGGTTCGTCTGGTCCGGCAGCGTTCCC
GTTTACGCAAGGCCCGCCACGATCGTCCGGTCGCATCGATAAAAATCAACCGCGGTAATC
TTCCCGCGATAAAGCTCGGCACGGCGCGCGTCCGGCTGTCGCGTAAAAAAGGGGCCAGAA
ACGGATCGGGCAGTGTCCTTAAAATCGGACCCTATACCTTTCGCAATGCGTTTATTCAAC
AACTGGAGAACGGGCGCTGGCAGGTCATGCGGCGCGTAGGTCAGGCCCGTTATCCGATTG
ATGTGGTCAAAGTACCTCTTGAGACACCGCTCACCGTGGCATTCACCTCTATTTCCAAGC
GCCTTATTGAAAGCGATATGCCCAAAGAACTTTCCGCAGCACTGAAAAATCAACTGAGGA
TCCACCTGAAGCGATGAACAAACACAGCGCAATTCGTGCAGCCATTCTGGCAAAACTGAA
AGCCGATATCACCGACACCGTCACCTGGTTTGACGGGCGCCCTGTTTTTCTTGAAGAGCA
GGATCTCCCTGCCGTGGCTGTTTACCTTTCTGACGCGGAGTACACCGGCGATTCGCTTGA
TGAAGATTCGTGGCAAGCCGTTCTCCACATCGAAGTATTTCTTAAGGCCTCCAGCCCTGA
CACAGCGCTGGATTCCTGGATGGAAGAGAAAATATATCCGGCAATGGAGGGCATTCCGGG
TCTTGACGCATTAATCGAAACAATGACTCCCCAGGGCTACGACTACCAGCGGGATGATGA
GATGGCCACGTGGGGTTCCGTCGATTTCACGTACACATTAACGTATTCAATGTAAGAGGT
ATTTATGCCTACACCCAATCCACTGGCGCCCGTAAAAGGTGCTGGCACCACGCTCTGGCT
GTACACCGGCTCGGGTAACGCATTTGCTAACCCCCTCTCTGATATCGACTGGAGTCGTCT
GGCAAAAATTAAGGAACTCACGCCGGGCGAAATGACCGCCGAATCGTATGACGACACCTA
CCTCGACGATGAGGACGCTGACTGGAACGCGACCGCTCAGGGTGCAAAATCGGCAGGTGA
TACATCACTTACGCTTGCCTGGAAGCCGGGAGAACAGGGACAGAAAGAACTGGTCACCTG
GTTTAACGATGGTTCTGTCCGGGTGTACAAGATTAAATATCCGAATGGTACCGTCGACGT
TTTCCGCGGCTGGTGCAGCAGCCTGGGTAAAGCTATCCCGGCAAAAGAGGTTATTACCCG
CACAGCGAAAATCACCAATACTGGCAAGCCTGAACTGGCTGAAGAAAGTGGTTCTGCGCC
CATTGCTGTTACAGGCGTCACGCTTGATAAATCCACGGCAAGCGTCGTTGTTGCGGCGAC
CACCACGCTTAATGTGACGGTTAATCCAGCCAGTGCATCGGATCCTTCGTTCCGGGTTGC
CACATCTGATGGGACCAAAGCGACCGTATCTGTAAGCGGCAGCACGATCACCGTAACGGG
CGTGGCAGTCGGTACCGCAGACATCATTGTCATGACCAGCGACGGCAATTTCGTTGCAGT
CTGCAAAGTCACTGTCACCGCTTCCTGAGGAGGGGGATATGTTCCTCAAAAAAGAAACAT
TTAACTACCTTGGTGAATCCACCACGCTGAATGAACTGTCAGCGCTTCAGCGTATTGAGT
ACCTTGAATTTCTGGCTGCGGAAGAAAAGACACTTGGCCATGAAAGCGACAGTATCAGCG
ATCAGGAAATGACTGCCCGTCTGGTGGGTTCAAACATCCGCTGCGGTGCGCGCGTGATCG
CACTTTCTCTCTGGCATAATGACCCCGCAGGTCCCGACGAAGAAGCACTTTACCAGCAGG
TTCTCAAAGGCTGGCCGCCGGAAGCGATCGGCAAGGCTGAAATGCAGGTTAAGTTGCTCT
CCGGCATGCTCGTTCCGGTTGAGGATGGCAACGATGCCGATCCGGAAGCCCCACTGGAGG
TTGAAGGCGCTGAAGAAGTTACGGCGGAAAAGCCCTTGCCAGCGAGCTGAAATTTGTCCT
GAATCTGGCGCGCGAATTCGGGCGACCCGACTGGCGCGCCATGCTGGCTGGAATGACTTC
TGGTGAGCTGGGCGACTGGCACCAGTTCTACCGGGAGCATTATTTTCAGGACGCGCAGCT
CGATGCGCATTTTTCCGGGCTGCTTTATTCCATCTCTTCTCTTTTCTTCCGCGATCCGGA
ACTTACCCCCGCACATTTCAGCCTGCTTTCTCCTTCCGGTAGCTTCATCAGTGATGATGA
ACCGGATGATGACACGCTGATGGCCGCAGCTGAGGGGATCACAGGAGGTATCCGATATGG
CCCAGCAGATTAGCGATCTGGTCATCAACCTTGATGTCGACAGCGCCACGTTCAGCGAAC
AGGTTGCCCGTATAAAGAGCCAACTCACAGGGATGGCTGATGACTCTGAAAAAGTCCAGA
CGCGAATGCAGCGCGCCTCAGAGCGACAGGTTGCAGCATTAAAAAGTATGGGGGATACAG
GTGCTTCTGCTGCGGCGGAAATCAAATCCCGCCAGGCAGACGCCACGGAAGGGTTGGCTC
AAAACTGGCAAAAAGTATCTAAATCCGTTGATGAAACACACCGCCGGGTGTCAGACCTCA
GCCAGCGCATGCGTGAGAATGACGGCCAGGCGGCAGTGCTCGCAAGGCGGCAGGATGAAC
TTGCTGCATCTTTTTTTCGCCAGATAGACAGTGTTCGCCAGTTGAACGGAGAAACACAAT
CTCTCGCTAATGTGCAGGCACGCTTTCGTGCCGCAAGGGCTCAGGGAAATATTACACAGC
AGGATTACCTTGCGTTGATATCTCATACGACAGCCCGACAGAAAGAGCTTCAGATTGTCG
AAGAGAAAGCAGGGATTGCACGGGCACGTTTTCTCCGTCAACTGAAGTCTCAGGTTGTGG
AGCAAAAGCTCTCCGGTACCGAACTGCTGCGAATGAAGGCTGCACAGGTTGGAGCCAGTG
ATGCCGCAGAAGTTTATATCCGTAAGCTTGAAGCGGCTAAAGTCGCCACGCACGGGCTGG
GTCTGCAAAGTGCTGCGGCGCGTCGGGAACTTGGCGTTCTGATGGGCGAAGTCATGCGCG
GTAACTTTGGTGCCCTTCGTGGTTCCGGTATTACGCTGGCCAACCGCGCCGGATGGATAG
ATCAGCTGATGACTTTACGCGGGCTGGGCATGGCCGGCATGGTCGGGGGGATTGCTGCGG
CGGTTGTTGGGTTGGGTAAAGCCTGGTATGACGGCAGCAAAGAGTCTGAGGAATTTAATA
AACAGCTAATCCTGACCGGGAACTACGCGGGTAAAACATCCGGTCAACTTCAGGCGCTGG
CGCGCTCGCTGGCCGGTAATGGTATCACGCAGCATGCCGCTGCAGGCGTGCTGGCGCAGG
TCGTTGGAAGCGGCGCGTTCAGCGGTAATGACGTCAGCATGGTCAGCAATGTCGCCGCCA
GGCTGCAGCAGGCTACCGGGCAGGCCGTCGACGAAACCATAAATCAGTTTAAACGCCTGA
AGGATGATCCGGTTAACGCGGTCGCGACGCTCAATGATTCCCTTCATTTTCTGACGGCTA
CCCAGTATGAACAGATTGCCTCTGCTCAGGCGCTGGGGGATTCGCAGAAAGCAGCCGAGC
TGGCAATGCGGGCATATTCTGACGCCGTTATACAACGAGCGGGGGCTGTAGAGGACAATC
TTGGCTCTCTCGAAAAAGCGTGGAACTGGGTGAAGAATGCTGCTTCCGGGGCGTGGGATG
CGATGCTGGGCGTAGGGCGTAATCCTGACACCGCGATGAAGCGCCAGGACTCTTTCGCTG
AATGGCAGGCAGCAGAGAAAGAGTACCGCGCGCTGTCCAGCAATCTTAAAGTCGACCCAG
ATTATGCCGGTAACAACGTTCTGCAGAAAGCTGATGCGGAAAGGCTGAGAAACGCGCGCC
AGCAGGTGGAACTTAAAAAGCAGGCTTATGATCTGGCTGATCAGCAATATGCCCAGGAAG
GACTGACAGCCGCGCGGGAAAAAATGCGGACGGACCAGCAGACTCAGGCAATCCGCAGCC
AGCAGCAGTTTAACCAGTTGGTGGAATCCGGCGCGACTGCGGCAGAAAAGCGGGCTTCAG
CAGAGAAAAAGCTCAGTCAGCTTATTGAGAAAAACCGCCAGGATGCGAAAGACGGTATCG
CCACGCTGTGGACTGACAAGGACATTGCTGCAGCGCGGGCAGGGATCGAAAAGCAGTTTA
AGGACGTCAAAACCCCAAAAGGCAAAAGCTATTCAACGCCTGCCGGGGACAAAGCCGAGG
AAAAGGCGCAGGCCGAACTTCTCACCCTTCAGGCCCAGCTTAAAACGCTTGAGCAACATA
CCAGCGTAAACGACGTCATAAGCAAACAGCGTCAGGACCTCTGGCAGACTGAAAATCAGT
TCACCGTTCTGCAGGAGGCTGCTGGTCGTCGTCAGCTTACGGCGCAGGAAAAATCCCTGC
TGGCGCACAAGGAAGAAACGCTTGAGTACAAGCGGCAGTTGGCCGACCTGGGCGATAAGG
TTGCTCAACAGCAAAAACTCAATCAGCTTGCCGACCAGGCGGCTAAATTCCATCAGCAGC
AGAGTGCGGCGAGGGCCGGTCTTCAGGCACAGTCAGAGGGGGTATCCAGCCGGCAGGCTG
GGAGAGAATCAACCCTGAAGCGTCTCAGCGAAAGCTATGCCTACAATCCGGCAGAGCAGC
GAAAGGTTCTTGAAGATCAAAGGGCGACATTCGAGGCTGAAGATGCCCTGCGCGCAAACT
GGCTGGCCGGTGCCAAACAGGGCTGGGCTGAATATCAGGATTCAGCGACAAACGTCTTCA
GCTCGGTTCAGCAGATTTCACAGGCAACGTTCAGCGGACTGGCGGGCCAGCTTACCAGCC
TGGTGACAACCGGCAAAGCCAGCTTTAAGGACTTTACCAGTTCGATCCTCAAAATGATTG
TGTCCGTGATTAATCAGTTGCTGGTGGCTTACGCCATCCAGAGCGCGATGGGCTGGGTGA
GTGGCGGTGCTAAAGCGCCAGCGTCAGGCCAGTCTTTTGCGGTACCGTCTTTCAGCCCCT
CGGGCTATGACGTAGGTGGTTATACCGGGCACGGTGGCAAATATGAGCCTGCCGGTATTG
TTCACCGCGGCGAGTTTGTTTTCACCAAAGAATCTACCAGCCGTATCGGCGTGTCCAACC
TGTACCGACTTATGCGTGGGTATGCCTCTGGCGGTCTTGTCGGTGGTGGTAAGGTCCCCG
CGGCTGGCATCGGTGGGGTTAGCGTTTACGCACCTGTTTCAGTCGCTACTGCTCAGCCCG
GCGATCAGAAACAACAGCAGGGCAGTGGTGATGCGCTGACTAAGGCATATCAGAAAGTGA
TCGACCGCTCCATTCGTGATGGTATCGCCAGGGAGATTCGTCCCGGGGGAATCATCTGGA
GCGCCAACAAACAGAGGTAAGTGATGGCTGTAGAACACTTTACCTGGCGTATTCAGGCTG
CGAGCCAACCCACTCTCAGCAGCAAGGATACTGTCAGAACAGCTAAGTTCGGTGATGGAT
ACAAGCAGATTAGTGGTTCTGGCCTGAACGATGAGGTTCTAAATTATGCCTTTTCTTTTA
CTGGTGATCCGGTAATAGCCAGAGAGATTTATTCATTTTTACGAAGGCATAAAACCAAGT
CTTTCACATTCACTCCACCTGGTGGTGATTTAGCCCTCTGGCGTGTTGAGGCAGACAGTC
TGCAGCGAGTCACCCTGAATAAAAAAGTGGAAACCGTAACTGCAACGTTTGAACAGGCAT
TTGCACCATGAGCTTAAACAGTGATTATCAGAAACTTGAGCCGGGCAATGCTGTCCGGCT
TTTTGATGTCGATGGCACCGCATTTGGTGTTTCCGACGTTCTCCGCTTCCACGCCCATAA
TATTGCCCACACTGCTGATGAGATCGCCACTGCTGGTGGAGATGAAAATAAGCTACAGGC
GAAATCGATCTGGTGGCAGGGACAGGAATATAAAGCCTGGCCTTGTCAGATTGAAGGTAT
CGAGGCTTCAACTGATGGTAGTTCGGCCCAGCCGAAACTGTCAGTTGCTAATCTCGACAG
TTCAATTACTGCTTTGTGTCTTGCTTATGACGATCTGCTGCAGGCGAAGGTCACTATCCA
TGACACGCTGGCCAAATACCTTGATGCGCGGAATTTTACGGACGGGAACGCCACGGCAGA
CCCTACGCAGGAAAAAGTGAAGGTATTTTACATCGATGCCAAAAGCGGTGAGACAAACGA
GTCCGTTGAATTCTCGCTTTCAAGCCCGATGGACCTGCAGGGGCTGATGATCCCGACGCG
CCAGCTACATTCGCTTTGTACCTGGTGTATCCGTAACAAATACCGCTCCGGTGATGGATG
CGACTATGCCGGAACGCGCTATTTCGACAAGCACAACAACCCGGTGAGCGATCCGTCGCT
GGATGAATGCAACGGAACGCTGACGGCCTGCAAACTTAGGTTCGGAGAAGATAACGAGCT
ATCTCATGGGGGCTTCGTGGGTACATCGTTGATCAGGAGCTGATATGCGTCAGAAAATTA
TCGATGCCATTATGGCGCATGCTGCTGCTGAATATCCGCGCGAATGCTGCGGCGTAGTGG
TGCAAAAAAGCAGGGTGCAGCGGTACATTCCCTGCCGTAATCTGGCAACCGATCCGACAG
AGCATTTCCACCTGTCGCCGGAAGATTACACCGCTGCTGAAGACTGGGGAACAGTGATTG
CCATTGTCCACAGCCACCCGGATGCCACGACGCAGGCGAGCGAACTGGATAAAGCACAGT
GTGACGCTACGTTACTTCCCTGGCATATCGTCAACTGGCCGGAAGGGGATTTACGCACCA
TTCAGCCGCGCGGCGAGTTACCGCTGCTGGAACGTCCGTTCGTGCTCGGCCATTTCGATT
GCTGGGGGCTGGTGATGAGCTATTTCCGGCAAACGCATGGTATCGAACTCCACGATTACC
GTGTTGATTATCCATGGTGGGAAAACGACTATCCGGACAACTTCTATCAGGATTGCTGGT
ATGAATGCGGTTTCCGTGAATTCGAGGGGCCACCGAAACCCGGCGATATGGTGATCATGC
AGGTCCAGGCCAACAAGTGGAACCATGCAGGGATACTGCTGGAGGGTAACATGCTGCTCC
ACCATCTGTATGGGCATCTGAGCCAGCGAGTGCCGTATGGGGGATACTGGCAAGAACGGA
CAATGAAGGTACTACGCTATAGATCTCTGTGCTAACCTTTTGCAAAACCAAAGGGGATAG
GGATATGAAAAAGTTATCGTTAGCGCTGGTTATTTTAGGCTTAATTGGGTGCGCAAGTAT
GGAAGATTTGCGAGCGACTAAACCAATCATCGCCGCTTCAAGTGATAAGGCGTCTTCTGT
ATTAGCGCAGTGCATTTTACAAAAATGGCAGCAACAAACTGTCTTTAATGTTTATATGCA
ACCGCGAGGTACTGGCTTTACTGTTTATCTTGATGGTCAATGGGAGATTGCTGATATCGA
TGCTGTTGGTAGTGGGTCAAAAGTTTTATTGTATAAAAAAGGATCAATGTTTGATGCTCC
ATACAAAAAGTATGCAGATTGGGTAAATGATTGCCTTTAAAGAATTGAATATGACCAAGC
CGCTTCTTAGCGGCTTTTTTTATAGTAGGAGATAAAATGGCTGAGGTAATGACGCAAATT
GAATTGGGTGGTGTATTAGGTAAGGTATTTGGGAAAACACATCAGCGTATAATTTCAACC
CCTCAAGAAGCAGGTAAAGCTTTAGCTGCAACTATTCAAGGCTTTGAGCAATACATGATA
AGCAGCAAAAGTCGCGGGTTAACGTATGCGATATTTAAAGGGAAAAAAAATTTAGGGGTG
GATGACTTGGGTTATCCAGTCTCGGGGGAAATAATTAGAATTGTCCCCGTTATTATTGGC
AGCAAAAAGGCTGGATTATTGCAAACCATTCTTGGTGTTGTGATTGTGACGGCTGCTGTT
ATTGCTGGGCCAGCAGGTATGGCTGCTTTATCAGGAGCTCAAGCATTTAGCGTGGGAGCT
ATTGGTGCTTCAATGGCCTTAGGTGGTGTTATACAGATGCTTTCGCCACAGCCAGCAGGA
CTTTCTAGCAAACAAAGCGCAGACAACCGGGCTTCGTATGCATTCGGTGGAGTAACTAAC
ACTACTGCTCAGGGTAATCCAGTTCCGCTTCTATACGGACGCAGGCGTATTGGCGGTGCG
ATCATCTCTGCTGGTATATACGTCGAAGACCAGCAATAACCAAAGTAATCTTCCTTTCAG
GCTACCATATGGCTACAGCAACCCCGATTAAAGGCCGCAAGGGCGGCAGTTCCAGTTCAA
GAACCCCTACCGAACAGCCTGATGATCTGCAATCTGTAGCGAAGGCAAAAATCCTCGTTG
CGCTGGGAGAGGGCGAATTTGCAGGGCAGCTGACGGCGAAAGATATCTATCTGGACGGAA
CGGCTCTGGAAAATGCCGACGGCTCCCAAAATTTCAGCGGAGTGACGTGGGAGTTTCGCG
CAGGAACGCAGGCGCAAAAATATATTCAGGGTATTCCCGGTACCGAAAACGAAATCAACG
TTGGAACTGAGGTATCAAGCGCAACAGCCTGGACGCGTACCTTCACCAACACCCAACTAT
CAGCCGTTCGCCTGCGACTGAAATGGCCTTCACTGTTTAAGCAGGAGGACAACGGCGATC
TGGTAGGGTATTCCATCAATTATGCAATAGACCTGCAAACTGATGGTGGGACTTGGCAAA
CCGTTCTTAATACCAGCGTAACCGGCAAAACGACGTCTGGTTATGAGCGCAGCCACCGTA
TTGATTTACCGCAGGCTGGCAGCACCTGGACAATCCGACTGCGTAAGATTACCGCTGACG
CAAACAGCGCCAAGATCGGCGACACGATGACGCTGCAAAGCTTCACGGAGGTGATTGATG
CCAAGCTGCGCTATCCGAACACCGCGCTGCTGTACATCGAATTCGACTCAAGTCAGTTCA
ATGGTTCGATTCCACAGATATCCTGTGAACCACGTGGCCGAGTGATCCGAGTGCCTGATA
ACTATGACCCCGATACGCGGACTTATAGTGGTACATGGCAGGGCGCGTTTAAGTGGGTCT
GGACCGATAACCCGGCGTGGATATTTTACGATCTGGTTATTACCGATCGCTTTGGTCTGG
GTAATCGCCTGAGTGCAGCCAACATCGATAAATGGACGTTGTACCAGGTATCGCAATATT
GCGATCAGCCGGTACCGGATGGAAAGGGTGGAAGCGGGACAGAGCCACGCTATACCTGTA
ACGTCTATGTTCAGGACAGGAATGACGCTTACACTGTGCTGCGTGACTTTGCGGCTATAT
TCCGGGGTATGACGTACTGGGGCGGTGATCAGATTGTGGCGCTTGCCGATATGCCAAGAG
ATGTGGATTACGCTTACACCCGCGCTAACGTTATCGACGGACGCTTTACCTATTCCAGCA
GTACAACAAAAACGCGGTATACCACGGCGCTGGTTTCCTGGTCTGATCCGGATAACGCCT
ATGCGGATGCGATGGAGCCGGTATTTGAGCAGCCTCTGGTGGCCCGGTACGGATTTAATC
AGCTGGAAATGACAGCCATCGGCTGTACCCGGCAATCAGAAGCGAACCGAAAGGGGCGCT
GGGGTATTCTCACCAACAATAAGGATCGCGTTGTTTCGTTTGATGTTGGCCTGGACGGAA
ACATTCCGCAGCCGGGATACATCATCGCTGTATCAGACGAGCTTCTGTCCGGCAAAGTTA
TGGGGGGGCGCATCAGCGCCGTTAATGGTCGCGTTATCAAACTTGACCGCGTTGCTGATG
CAGCAGCAGGCGATCGACTGATTCTCAACCTTCCTTCAGGAGCGTCACAGAGCAGGACCA
TTCAGGCAGTTAACGGGGAATTTATCACAGTCACCACGGCATACAGTGAGACACCACAGG
CCGAAGCTGTATGGGTGGTTGAGTCAGACGAGCTCTACGCCCAGCAGTATCGAGTTGTCA
GCGTCTCCGATAATGATGATGGCACTTTTTCTATTACTGGCGCATGGCATGACCCGGATA
AATATGCCCGTATCGATACCGGAGCCATCATTGACCAGCGGCCGGTGAGTGTAATCCCGC
CGGGTAACCAGTCGCCGCCGGCTAACATTGTGATCAGCTCGTTTTCAGTGGTGCAGCAGA
ATATCAGCGTCGAAACCATGCGTGTGAGCTGGGACCAGGCGCATAATGCTATCGCCTACG
AGGCACAGTGGCGCCGCAATGATGGTAACTGGGTAAACGTGCCGCGCAGCTCCACCACGT
CATTCGATGTTTCTGGTATTTATGCAGGGCGCTACCTCGTGCGTGTGCGTGCCATTAATG
CCGCTGAAATTTCCTCTGGCTGGGGCTACTCCGAAGAGAAAACGCTAACGGGCAAGGTGG
GAAATCCACCGAAACCTGTCGGCTTTGCGACAACTCCGATCAACTGGGGGATTCGCCTGA
ACTGGGGATTCCCGGCTAACACCGGGGACACACTGAAAACGGAAATTCAGTACACCGCGA
ACAGTGATTTCTCTAATCCTCTTTTGCTGTCGGATGTGCCTTATCCGTCAGCCGAATACA
CCCAACTTGGACTAAAGGCGGGGCAGGAATTCTGGTACCGCGCGCAGCTGGTAGACAGAA
CGGGTAATGAATCAGGCTGGACCGACTGGGTTCGTGGTGAATCTAATGCGAATGCTGACG
ACTACCTGGGCGATATTGCAGATGACTTTCTCACATCTGCCGATGGTGACCGCCTGACAG
GCGACATTGATACCAATCTCGAAGCCGCTTTGCAGAACGCGCTGGCCAACCATGCAACCG
TGGAACATCAGTGGGCGCAGTACGGCGAGGTACGTGCGGATATTCTGGTGGTTAAAACGA
CCATTGCAGATGTTGATAAAGCGATGGCTGAAATGTCCACACAGGTGCAGGCGCAGATTA
AAGATGTAACCGCCTCGCTTGAGGATAAGCTCACTGCCACCGTTGATGCTACAAGTGCTA
CGGCCATTCATACCCTGAAAGTCGGAGTGCGCATCAACGATATTTTTTACGGTGCCGGGA
TGTCGATTGCCGTGCTGGCCGAAGCGGGTAAGCCGGTAGTCACCCGCGTCGGGTTTAACG
CCAATCAGTTCGTCCTGATGAGTGGCAGCGATGATACGCAATATTCACCCTTTGCTGCTG
TTAATGGTCAGGTGTTTATCAGCGATGCTTTTATTCAGTATAGTCAAATCACTCTGGCAA
AAATTGGCGAACTGCGCTCCGCTAATTATGTTCAGGGACAAACAGGCACCATTATGAAAT
CAGACGGAACGTTTGAAATGAATGGGGCTGTTGCCGGGGAGGGGGCAACGAAAATGACAA
ATCTGAATTACAGCGTTAAAGATGGCAATGGCGTTCTTCGCGTACAGATTGGCAAATTAA
CAGGGGTATTCTGATGACATGGGGAATTCAGACATGGGACGCTAACGGTGTCCCGAATAA
CTATGGCATTAAACCTGTAACTGTGGTGGGTATCATCGATCTTGCTTTAGGTCAGAAAAC
GGGAAGCTACCAGTTCAACCTCGAGCCCGGTTTAAAGGTCGGTTTTGCGGTTGGTACTCT
GGAGGATAAAGGGACAATAAGTTACACAGATAAAAGAAATATTATTGCATCTGGAAACAC
CATAACAATACAGCCTTCAGGTAGTGATGGGATTAATGATTACCCGGCAGTCAAAGTGCA
GTTAATCGTTTTTGCGGAGACTGCGTAGATGGCTAAATATGGCGCATTAATTTCATTATC
TAACGGAAACCCTTTTATTACGCCAGATTCCACACCAATGACGCTTTACCGAAAAGTAAC
TGTAAACTCAACTTTTGGGGGGGATTTTAACAGTGCTTCGGCGTCAGTGACTATCGACGG
TCAGAAGGGAGGGATTGCATTTGCAAGAACCAGCGCCCCAGCGAAAATATCAGCTTCAAA
AAGTGGTAACACGTTCAGTGTTGATGCGTCTAATTACAAAGGTTCGGCTTTCGTTCTGGA
GGCGTATTTTTTTGCTATATATCCGCTCACCCTTCCTGCTTGGGGGGTAGCTATATGGGA
TGCCGAAGGGACACTGGTACTTACGAATGAGTCCCGGGTATTAAGCGACCTTACAACTAT
AGGTTCACCTGGCGCTGCAACGGGTGGGCTTAACATCGATACATACATGACAGGCAAATG
GGCTGTAAATCCGATGGGGCTGGGGTCTGTTCTTCTGCATGCTGGTTCAGCACCTGGCGG
GCAACCAATAATCCAGCCTGTGGATGTGGGAACGGGGTGCTTCAATGAAGGTGCGGGAAC
AAGAATAAAAGGACTTTCATCAACAACAGCAAGTGGTTCTTCAGTCGGAACGACGAATAG
CGGGATTGTGATAACGGCGATAAACACAGCCGCATATGATTAAACCGATCGATTTAAACG
ATCAATTTAAGAATATTGATCTATTAAAACTATTTTTATTATTCAACGCCATTGGTTATT
TTTTTGTTTAAATAATTAACTCTGGTGTCGAAATGAAAAATATAATTATTCCCGTTATTG
CCTGTCTGGTGCTTTCTGCATGTTCAGGACCTGTTCTGGAGAAACAGAAACCGGTTTGTC
AGGCTGAGATAGTGGCTGGTGGACTGCCCCAGTCAGTGCAGATTTACGGTGTGCGAAAAG
TTGCTAATCAGACTGAGTACAGGGCCGGTTATCCCTTTAACTGGCGATGGGTGAATAAAA
ATAACTTCACCAGTTCGAATTGCCCTCAATGAAACACCAAAAATAACCCGCTCCGGCGGG
TTTTTTATTATCTGAATTCTGGAGGTATTCATGTCAGCAGGAACTTTAACCCTGACGCAT
AACTCTGATGCGGTCGCTGGTAGCGGGACCGCATTTACCACCGAGGTGGCGGCAGGCGAT
TTTATTGTTGTCACTGTCGGCGGCGTCCCCTATACGCTCCCGGTTAAATCAGTGGAAAGC
GGTACAGCGTTGACGCTGGTCAGTAACTTTACCGGACCAACACAATCTGGTGCGGCCTGG
TCAGCTGTTCCTCGTGTGGCGCTGAACATGGTCACCGCGGCGCTGGTGGCTCAGAGCACA
GAAGCGCTTCGAGGCCTGAACTACGATAAACAGAACTGGCAGCAGTTCTTCACCGCTACC
GGCGATGTAACCATCACGCTTCCAGACAACAGCCAGATGACAGGGCCATCAGCGAAAAAA
TTAATCAATAGTGTGGGTGACAAAGCTGATAAAACAGATCTGAATAAAAAGGCAGACTCA
CATTTTCCGAGTTTTACCGGGATAATGAATTTTGATGGAGGTGCCGCATCAATATACCAG
TCATCATATGTGATGATTATGAGGACTGCCGGCGTTGATCGCTTGCAGCTGAGCTCGAAT
GGAATTTATTTAGTCAGCGTCATGGATGCGGCGGGGGGGTATCGTTCACGTCAGGGGCAA
AGTGGGGCGACAACATCAAACGTCTGGAATTTTCACTGGAACGGCTCACTCAATGCATGG
GTTGATTCGTCTAACGTCGGTCAGGTGTCACTTGTCACTACATCAGATAAATTTCTGAAG
AAAGACATAATTTATCAGTCAGATGAATCGCCAACATTTTACATCCAATGCCTTGATGAG
GTATTGCGCTGGAAACCTGCATTATTCAAATATAAAGAGCGCGGGGTTATTCCGGAATCT
GATGAGAAGCTCGGGTTTATTGCAAACGACCTTGTTGAAGTATCACCCGAGTGTGTTACC
GGAGAGGGTTTGAAAGAAGACTTTGATCCACTCAACCCAGTCGGGGCGTATAGTCTGAAC
GAAGTCGCAATGCTTGCAAAACTGACCGGAGCAATTCAGGCATTGCAGAAACAAATTAAT
GAACCTCAGGGCAGTAGGGTGTGATGCCTTTCTTGTGATATGAATTGCCGCAGTCACGTC
GTATACAGAACGGACTGCGGCAGACCGTCACTTAATCTGAAACCAGCCACATATCAGCCT
CTTCAAACATTTCCTGCACCGTTCGGCTTATCTGTTCTTTCTCATGCTTGCTGGCGTCAG
TGTTGATCGCCGGCAGTGTCATCATCGGTTTAACCCGGACATCAGCATCCGGGAAAATCC
GGTGAACTCTCTTACTCAGTTCGCCGAGAATGATGTCTTTTGCACCGGGCAGACCATCAA
AATTCCTTTTGTCATAAACGAGTTCCACGAACATTGCTCATTGCCTCTTTACTGGATGGA
TATACAGTATTTATACTGTGTTTTTATCCGGTATTCAAGAGAGGGCGTAAACATGGGCTT
TCCATCACCTGCGGCAGATTATGTTGAAACACGAATCTCCCTCGACCAGCAGTTTATTCG
TCATCCATCAGCGACTTATTTCATGCGGGCATCGCGTTCACATTTCAGGGAAGGGATACT
TCAGGGGGCGCTGCTTGTTGTGGATGCGTCACTTACTGCCTGCGATGGCTCGCTGCTGAT
ATGCGCGATAGACGGGGAATTCAGGATCAAGCGATATCGGAATCACCCTCAGCCCCACCT
GGTTAATCTGGATAACGGGAGAAGGGAGGCGCTGCCAGTAGATGATGATGGTTACAGTTC
TGCGCCCGCTATATTCGGGGTGATCACGTACATCATTAATGATGCCAGGAACGCGGAGTT
TGATGATTGCCCGGTGATGTAATCACATTGGCTGTATCAGTTCGGAGCCCTGATTTTTCA
CATTCCCTACGGCACGCGTCACGGCGTGCCATATAAAATTCTCAGCCGGTACGGAACCAT
CGGCCGCAATTTCCGCCGCTTCTTTCCCTCCAACGTCCTGCCTCATCCATTCGCGAGCAG
CATCTGGTGACAGTACCAGTGGCCGCCTGTCGTGAATATCTACCAGTCCTTTGTCTGCAG
CAGCTGTCACTATCAGGAATCCTTCTGCTTCATCTCCACGTTCGAATGGTGTGCTGCCGA
TCGCCGCCATGAATATCGGCTGGCCATCGGCTCGATGAATGAAGTAGGGCTGCTTTTTGT
CACCTTCCTTTTTCCATTCATACCAGCCATCAGCAAAGCAAATGGCACGACCATGCTGCC
AGAGTGGTTTAAACATTCTGCTGGTGGCCGCAGTTTCAGAGCGTGCGTTAATTAGCGGTG
GTTTATCCCACCATCCGGGGGCGTATCCCCAGATAACTGGATCAAGATGGAGTTTCTCGT
CACGTTCGCTCAGAAGCAGAACTTTGGTACCTGGCGCGACGTTAAAACGTCCGATTGGTT
CGGGTTCGTAAGGGATATCTCGTTCTGCTTCTTCAGCAAGCAGAGCTAGATAGTCTTCAC
GCGTCATTGACTGTGAAAAGCGTCCACACATAGAAACCTCCCAATTTACAACATACAGAT
AGTATAGAAGTTATAGGCAGCGGACGGTCGACTTATGGGGCAAGGATGGGACAAAAATGA
CTGTTATGGGGCATGAATGGGACATTATTGCACACATGAAGTTTACCGAATTTCATGCGA
AACTATATTTTAATGTATTGAATACACTAAAGAAAACACATGCTCTTGGGCGTTCTTTAG
TGATTTTTAAAATACCCGCGTCACGCAGTTAAAGTGGCGGGCATACTCTTCAAGGCTTGT
GATCCCCAAACGCACCCATTTTGGATGCGACCACTGGGGTAAACCGATATAGATCATAGC
GCTTGCAAAATCTCCTCCACGCTGCGAACGCGCGCAATGCGGGGGAAAATGTGAGTCATG
CTACCCTGGTGTTGCTCAGCACTGGCGGCGCTACAGGCATCCTCTGCAATGATAAGACTG
AAACCCAGCTCCCACGCATTTCGCGCCGTCGACTCAACGCCAATGTTCGTAGAGATGCCG
CACAGGACGATGGTATCGATACCCCGGCGACGCAGCTGTAATTCCAGATCGGTGCCATAG
AAGGCTCCCCACTGGCGTTTGGTTACTTCGAGATCGCTGGTGCATTTACCCAGAGCAGCC
GGGTAATTCCACCAGTTTTCGGGCAACGCTTTTGCTGGAGTCTGAGCATCTACTGGTTGT
TTCAGTGCTTCGGCGTAATCGTCAGACCACCCGACGCGCACCATTACCACCGGGGAACCG
TGGGTACGGAATTTTTCCGCCAACTGCGCGGTGCGGGCAACCACAGCGTGTGCCGTATGA
GGTCCGCCAGCGAAAGGCAGGATCCCTTCCTGTAAGTCAATCACGACAAGGGCAGTTGTT
TTTGCGTTCAGTTCCAGCATGTTCACTCCAGTAAAAAATAGAATTCCGTTACACCTTAAG
CGCGAATCAGTGTGAAAGGGGCGACAATTTTTGTTATTTTTTGTGAGATTACGCAATGCC
CGTCCAGGAAACAGGCGTACAGTCAGTACCGGACTAAGAGTCTATCCCAGTAGGCTCTTA
TCGTGCGGCAGAATTTCCAGTATAATAGCCGCCTTTTTTCATTCAGTTGTGACATTCAGC
TAAAGCTGCGACTTCGTCATCTGCGAGACAGGTGACAATCCGCCTGCGGCAAAGTTAAGG
GATATCTCATGCGTACAGAATATTGCGGACAGCTACGTCTGTCCCACGAGGGGCAGCAGG
TGACTCTGTGTGGTTGGGTCAACCGTCGTCGTGATCTTGGTAGCCTGATCTTTATCGATA
TGCGCGA