Homologs in group_25

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16 homologs were identified in 7 genomes with OrthoFinder.
The following table displays the locus tag of each homolog, the organism to which it belongs, the gene name and product.

	Locus tag	Identity	Source	Gene	Product
FBDBKF_09485	FBDBKF_09485	68.5	Morganella morganii S1	-	Big-1 domain-containing protein
EHELCC_09925	EHELCC_09925	68.5	Morganella morganii S2	-	Big-1 domain-containing protein
EHELCC_09935	EHELCC_09935	100.0	Morganella morganii S2	-	Big-1 domain-containing protein
NLDBIP_10280	NLDBIP_10280	82.5	Morganella morganii S4	-	invasin domain 3-containing protein
NLDBIP_19245	NLDBIP_19245	68.5	Morganella morganii S4	-	Big-1 domain-containing protein
NLDBIP_19255	NLDBIP_19255	99.7	Morganella morganii S4	-	Big-1 domain-containing protein
LHKJJB_11075	LHKJJB_11075	82.5	Morganella morganii S3	-	invasin domain 3-containing protein
LHKJJB_19115	LHKJJB_19115	99.7	Morganella morganii S3	-	Big-1 domain-containing protein
LHKJJB_19125	LHKJJB_19125	68.5	Morganella morganii S3	-	Big-1 domain-containing protein
HKOGLL_14135	HKOGLL_14135	82.5	Morganella morganii S5	-	invasin domain 3-containing protein
HKOGLL_18895	HKOGLL_18895	99.7	Morganella morganii S5	-	Big-1 domain-containing protein
HKOGLL_18905	HKOGLL_18905	68.5	Morganella morganii S5	-	Big-1 domain-containing protein
F4V73_RS10495	F4V73_RS10495	73.4	Morganella psychrotolerans	-	invasin domain 3-containing protein
F4V73_RS10505	F4V73_RS10505	46.7	Morganella psychrotolerans	-	Ig-like domain-containing protein
PMI_RS00110	PMI_RS00110	27.1	Proteus mirabilis HI4320	-	Ig-like domain-containing protein
PMI_RS19225	PMI_RS19225	38.4	Proteus mirabilis HI4320	-	Ig-like domain-containing protein

Distribution of the homologs in the orthogroup group_25

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Number of homologs in each genome (first column) and amino-acid identity of the closest homolog (second column).

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Phylogeny of group_25

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Phylogeny of the RefSeq best hits of group_25

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P19809	4.88e-84	302	34	22	642	1	eae	Intimin	Escherichia coli O127:H6 (strain E2348/69 / EPEC)
P43261	1.57e-83	301	35	18	585	1	eae	Intimin	Escherichia coli O157:H7
Q07591	1.35e-82	298	34	17	585	3	eae	Intimin	Citrobacter freundii
O31000	9.41e-82	295	40	9	380	3	eae	Intimin	Escherichia coli O111:H-
Q8X8V7	3.66e-81	304	33	11	548	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O157:H7
Q8X8V7	1.28e-60	236	27	75	1827	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O157:H7
Q8X8V7	9.59e-55	217	26	79	1951	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O157:H7
Q8X8V7	3.94e-49	199	26	89	2114	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O157:H7
B7NC15	1.44e-79	299	38	6	394	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15	2.15e-57	226	27	73	1814	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15	4.18e-52	208	26	71	1911	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15	4.82e-50	202	27	65	1800	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
B7NC15	1.4e-47	193	26	79	2080	3	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli O17:K52:H18 (strain UMN026 / ExPEC)
P76347	4.28e-79	297	33	12	552	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	5.94e-47	191	26	68	1735	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	8.26e-45	184	26	66	1721	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	3.66e-42	176	26	56	1582	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	1.12e-41	174	27	56	1302	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	1.21e-37	160	26	70	1677	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P76347	1.06e-26	124	27	31	820	1	yeeJ	Inverse autotransporter adhesin YeeJ	Escherichia coli (strain K12)
P11922	8.56e-72	266	30	25	785	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	5.35e-25	118	35	7	280	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	7.55e-21	105	33	6	296	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	8.08e-21	104	33	7	289	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	4.92e-20	102	33	7	270	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	1.14e-19	101	35	7	269	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	2.36e-19	100	34	8	277	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	1.24e-18	97	33	7	278	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	2.53e-18	96	33	8	272	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	5.32e-18	95	34	6	255	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P11922	1.06e-16	91	33	7	269	1	YPTB1668	Invasin	Yersinia pseudotuberculosis serotype I (strain IP32953)
P19196	3.5e-69	255	37	8	374	3	None	Invasin	Yersinia enterocolitica
P19196	1.68e-07	61	30	3	178	3	None	Invasin	Yersinia enterocolitica
P36943	8.04e-52	189	36	6	276	5	eaeH	Putative attaching and effacing protein homolog	Escherichia coli (strain K12)
P39165	3.47e-44	172	30	11	420	3	ychO	Uncharacterized protein YchO	Escherichia coli (strain K12)
P13466	2.3e-14	83	25	12	453	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	6.32e-14	82	25	18	566	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	4.26e-13	79	25	17	482	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	1.37e-12	77	24	19	592	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	2.42e-12	77	23	17	583	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	9e-12	75	25	13	450	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	6.37e-11	72	23	16	570	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	2.21e-09	67	24	13	466	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	1.3e-08	64	23	12	453	1	abpC	Gelation factor	Dictyostelium discoideum
P13466	0.000439	50	23	10	355	1	abpC	Gelation factor	Dictyostelium discoideum
Q80X90	3e-14	84	22	47	1271	1	Flnb	Filamin-B	Mus musculus
Q80X90	6.27e-14	82	22	26	824	1	Flnb	Filamin-B	Mus musculus
Q80X90	1.54e-13	81	21	33	975	1	Flnb	Filamin-B	Mus musculus
Q80X90	2.5e-13	80	22	25	831	1	Flnb	Filamin-B	Mus musculus
Q80X90	2.36e-11	74	22	29	804	1	Flnb	Filamin-B	Mus musculus
Q80X90	9.47e-10	68	23	23	606	1	Flnb	Filamin-B	Mus musculus
Q80X90	9.67e-09	65	20	54	1343	1	Flnb	Filamin-B	Mus musculus
Q80X90	1.57e-06	58	21	28	795	1	Flnb	Filamin-B	Mus musculus
Q80X90	7.94e-06	56	21	21	701	1	Flnb	Filamin-B	Mus musculus
O75369	1.95e-13	81	21	41	1172	1	FLNB	Filamin-B	Homo sapiens
O75369	9.23e-12	75	20	42	1329	1	FLNB	Filamin-B	Homo sapiens
O75369	2.63e-11	74	21	37	1046	1	FLNB	Filamin-B	Homo sapiens
O75369	5.58e-10	69	21	33	965	1	FLNB	Filamin-B	Homo sapiens
O75369	6.25e-07	59	21	28	798	1	FLNB	Filamin-B	Homo sapiens
Q14315	2.21e-12	77	21	58	1486	1	FLNC	Filamin-C	Homo sapiens
Q14315	5.8e-10	69	22	26	688	1	FLNC	Filamin-C	Homo sapiens
Q14315	3.86e-09	67	21	33	956	1	FLNC	Filamin-C	Homo sapiens
Q14315	5.05e-09	66	22	31	928	1	FLNC	Filamin-C	Homo sapiens
Q14315	1.3e-07	62	20	40	1138	1	FLNC	Filamin-C	Homo sapiens
Q14315	9.43e-06	55	21	38	999	1	FLNC	Filamin-C	Homo sapiens
Q14315	5.44e-05	53	21	20	593	1	FLNC	Filamin-C	Homo sapiens
Q8VHX6	6.92e-12	76	21	60	1493	1	Flnc	Filamin-C	Mus musculus
Q8VHX6	2.74e-11	73	21	30	927	1	Flnc	Filamin-C	Mus musculus
Q8VHX6	2.54e-09	67	22	28	691	1	Flnc	Filamin-C	Mus musculus
Q8VHX6	4.17e-09	67	20	28	946	1	Flnc	Filamin-C	Mus musculus
Q8VHX6	3.67e-07	60	20	39	1136	1	Flnc	Filamin-C	Mus musculus
Q8VHX6	1.57e-06	58	20	37	1018	1	Flnc	Filamin-C	Mus musculus
D3ZHA0	3.96e-11	73	21	30	924	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	1.47e-10	71	20	58	1482	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	1.56e-09	68	20	28	946	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	3.46e-09	67	21	26	687	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	1.79e-06	58	21	37	1018	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	3.64e-05	53	20	21	800	1	Flnc	Filamin-C	Rattus norvegicus
D3ZHA0	0.000109	52	21	26	793	1	Flnc	Filamin-C	Rattus norvegicus
P21333	3.92e-09	67	20	27	859	1	FLNA	Filamin-A	Homo sapiens
P21333	4.75e-09	66	20	41	1138	1	FLNA	Filamin-A	Homo sapiens
P21333	6.58e-05	53	20	30	914	1	FLNA	Filamin-A	Homo sapiens
P21333	0.000141	52	19	26	811	1	FLNA	Filamin-A	Homo sapiens
Q8BTM8	4.87e-07	60	20	31	922	1	Flna	Filamin-A	Mus musculus
Q8BTM8	0.000133	52	20	34	1013	1	Flna	Filamin-A	Mus musculus

Number of RefSeq hits:

General

Source	Morganella morganii S1
Locus tag	FBDBKF_09475
Feature type	CDS
Gene	-
Product	Big-1 domain-containing protein
Location	122348 - 132379 (strand: -1)
Length	10032 (nucleotides) / 3343 (amino acids)

Contig

Accession	contig_10
Length	146103 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_25
Orthogroup size	17
N. genomes	7

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Genomic region

Domains

PF02369	Bacterial Ig-like domain (group 1)
PF09134	Invasin, domain 3
PF11924	Inverse autotransporter, beta-domain
PF13620	Carboxypeptidase regulatory-like domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG3210	Intracellular trafficking, secretion, and vesicular transport (U)	U	Large exoprotein involved in heme utilization or adhesion

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K13735	adhesin/invasin	Bacterial invasion of epithelial cells Yersinia infection	-

Protein Sequence

MPVTSYYSKTKRVTAYLLLFLQLFFPVSTATLSVAQAAEQNDALIMSETFDGLNALMDTSQAPPPKPQDGKTTSGSKLSGEGFTVEMPSGSEYGVMPAGSDNGFISGQNGMPFPMSVSTLPDPANPAPRDNTVRTDDIFSALPTLGLPDISPEDEAAKNEARWAGNASQAGQILSSEDAVDASLGYVRGIGENLLNQQVNDWLNQVGHARIQFGSNKTGDADVLVPLVDNPNSLFFSQIGLRANEERTTTNLGLGYRQYEDGWMWGVNSFYDYDITGSNSRVGVGGELWANYLKFAANGYFRVTDWHQSKLHEMRDYDERPANGFDIRAEGYLPDYPQLGAFAKYEQYFGDGVSLASTTSSGELKSNPSVSTIGLSYTPFPLITFKGQTSRGDSNDSQIGMELSYRFGVPLSQQLDTDNVDLMRNLAGNRYDFVDRNYNIVMQYRKQELLRIALPPTLNGEAAQTLPVTVSVLKAKYGLKSLRWSAPELLANGGEIKQTGLTTADITLPEYIFMDRNGGPQGYRVTAVGEDNEGNPSNTAEMWVNVIPSVETITKLTVTPNQSLIANNSDQFTAVALLQNDKGEVLPNKAVTFSVSGLKNPEGVTIYDADGNSGQTLTVISGPDGTATVKIISKSAGKGLLKAKMRNGNSRTEAITYIADLSTAKIKTLELTNNKAVADGQAKNIAVATVTDQFDNLVENFPLTARADNGATVIDPNQQTDSNGLVTIRFSSETAGDSKLVVEGTGTSKSVTAQFIADISTAKIQSAVVTQDGAKADGKAKNEVLVTVTDSRNNPLAGAPVTIKVPGTARYQTQPVSGLTDSRGQLRVSISNTKAGSDNYTFSINGDDAVRALKFVADETTATITDASLVIVTNNQKADGAAANSVRATIVDAYNNPVPGIAVQFVTDHGALPSQMQINTDADGNALFELTNTRAGNTKVTAQVNTKSASKTVMFTADSSTAEILASNLTITADNSAADGASVNSVKAIVTDAQGNVVPYVAVLFTADNGASPASQSLLTNEQGEVTFSLTSTRAVQVAVKAKINTSEPSVTVTFKADSANPDAQKSSLTADPMTIVADGQTTSTLHFILKDRQGNLIPGQTVVFGTALAGTTVSGTTENPDGTYTATLKGVKAGDAKVSITLNGKAFAVAPVTVKLTADNGNLSGDKSQLTAVPDTIVADGKTSSTLTLSLKDVNDNAVSGQEVVFSTTLADTVFSAVRDNADGTYTATLKGTKSGTAKIKVTVNNAVLAVTEVSIKLTADSGNLDKGKSSLAAVPDTIVADGNTTSAITLTLRDVNNNPVAGQVALFSTTLKDTTFGTVTDNQDGTYTATLKGTKSGNAQISVTLNGKAFAVAPVTVKLTADSSNLDQGKSSLTAAPLSIVANDTATSSLTLTLKDGNDNPVPGQTVLFSTTLGGTTFSGVTDNQDGTYTATLKGKTAGDAVLKVTVNGAVLTVAPVTVKLTADSGNLDKDQSVLEASPLTIVANDTTTSALKLTLKDANGNLVSGQTVLFSTTLGGTTFSGVTDNQDGTYTATLKGKTAGDAALKVTVNGTELPVSQVTVTLTPDSTNLDKNKSSLTAVPLSIVADDASVSDLKLILKDANGNLVPGQQVLFSTTLGGTTFSGVTDNHDGTYTATLKGTKAGDALLTVTVNGAVLEVAPVTVKLTADSGNLDKDQSVLEASPLSIVANDTTTSALKLTLKDANGNLVSGQTVLFSTTLANTTFGTVTDNQDGTYTATLKGKTAGDAVIKVTVGGNPLDVAPVTVTLTPDSTNLDKNKSSLTAVPLSIVADDTSVSDLKLILKDANGNLVPGQTVLFSTTLGGTTFSGVTDNHDGTYTATLKGKTAGDALLKVTVNGAVLEVAPVTVTLTADNGNLDKDKSVLEAAPLSIVANGTAESTLKLTLKDVNGNLVSGQTVQFTTTLADTTFSGVTDNQDGTYSATLKGTKSGAAPLTVIVNGTGLAVAPVTVTLTPDSANPDKDKSVLTASPLTIVADNATTSSLKLTLKDTYGNLIPGQTVLFSTDLENTTFSGVTDNHDGTYTATLKGTKSGTAALKVTVNGTELAVAPVSVKLIGDKDHLDEDKSSLTAAPLSIVANNTATSSLTLTLKDVNNNPVIGQTVLFSTDLADTTFTTVKDNQDGTYTATLKGTKAGDALLKVTVNGAVLEVAPVTVTLTADSSNLDKDKSSLTAAPLTIVANNTTTSEVKLTLKDANGNLVSGQTVLFSTTLANTTFGTVNDNQDGTYTATLKGKTAGDAVIKVTVGGNALEVAPVTVKLTADSSNLDKDKSVLEAAPLSIVADNATESTVKLTLKDVNGNLVSGQTVLFSTTLANTTFGTVKDNQDGTYTATLKGKTAGAAEIKVTVGGNALEVAPVTVTLTPDSSKLDKDKSSLTAVPLTIVADGATESALTLTLKDVNGNLVPGQTVLFSTGLADTTFSGVTDNQDGTYTATLKGTKSGNALLKVTVNSAELAVAPVTVKLIGDQDNLDKDKSALTADPLTIVANNTTTSLVKLTLKDINDNPVTGQTVLFSTTLANTTFGTVTDNQDGTYTATLQGKTAGAAVIKVTVGGNALEVAPVTVTLTADSSKLDKDKSSLTAVPLTIVADGATESVLTLTLKDVNDNPVTGQTVLFSTGLADTTFSTVTDNLDGTYTGTLKGTKSGDALLKVTVNGTVLEVAPVTVKLTADSSNLDKDKSALTADPLTIVANNTATSALKLILKDANGNLVSGQTVLFSTELANTTFGTVTDNHDGTYTATLKGTKAGDALLKVTVNGTVLEVAPVTVKLTADSSNLDKDKSSLTATPLTIVANNTTTSEVKLTLKDAYDNPVSGQTVLFSTTLANTTFGTVTDNHDGTYTATLKGKTAGDAEIKVTVGGNALEVAPVTVKLTADSSNLDKDKSVLTATPLTIVANNTATSALKLTLKDANDNPVAGQTVLFSTTLGGTTFSGVTDNQDGTYTATLKGKTAGDAPLTVTVNGTELPVAGVTVTLTGDAATATITNVKLNGALARKIANGTDSFEFIAEVRDANGNPVSGVTTNWTSTAGSAAVLSATSKQTDAAGNATVKLTSTKTPVYDIVVSAAQGSQAAVNADKKVSFEELFSTSVLVIDAIAAGDKPVNGAHVKIFSEDGSELLYETTTDATGKFKVDLVGGKYAVKITANNYDDYDDFMDVKSGADTNFKFALSPALGTEFGRIILQWSENPRDLDSYLLVPPASGSGSRIKVNYQNKTPSGADASLDKDQTTAPGIETITMTKSHKGTYTYYVQNFAGPNAKLSTAKVQIFLNKDLTLKPGTSRTMSFSAPDLVVDAKAQWIVFDIIVDSNNEVQVVTRGTVDANQPN

Flanking regions ( +/- flanking 50bp)

TTTTCTGATTATTACTTTATGGCTTTAATCTTACTTTCGGGGATGTATTCATGCCTGTGACTTCGTATTACTCAAAAACAAAAAGGGTAACAGCTTATCTGTTGCTCTTTTTGCAGTTATTTTTTCCGGTGTCGACGGCAACATTATCTGTTGCACAGGCGGCAGAGCAAAACGATGCATTAATCATGTCAGAAACATTTGACGGACTTAATGCACTGATGGATACATCTCAGGCTCCGCCTCCGAAACCGCAGGACGGAAAAACCACCTCCGGCAGTAAGCTGAGCGGTGAGGGATTTACCGTTGAGATGCCGTCCGGCAGTGAATACGGTGTGATGCCGGCCGGTTCGGATAACGGTTTTATCTCCGGTCAGAACGGCATGCCGTTCCCGATGAGTGTCAGCACGCTGCCTGACCCGGCAAATCCGGCACCGCGTGATAATACCGTGCGGACCGATGATATCTTCAGTGCCCTGCCGACCCTCGGTCTGCCGGATATTTCTCCGGAAGATGAAGCAGCAAAGAATGAAGCCCGCTGGGCGGGTAACGCTTCACAGGCCGGGCAGATCCTCTCCAGTGAGGATGCGGTGGATGCATCCCTCGGTTATGTGCGCGGTATCGGTGAAAACCTGCTTAACCAGCAGGTGAATGACTGGCTGAACCAGGTGGGCCATGCCCGCATTCAGTTCGGCAGTAATAAAACCGGTGATGCGGACGTACTGGTCCCGTTAGTTGATAACCCGAACAGCCTGTTCTTCTCACAGATCGGGCTTCGCGCTAATGAAGAACGTACTACCACCAACCTCGGTCTGGGTTACCGTCAGTATGAAGACGGCTGGATGTGGGGGGTTAACAGCTTTTATGACTACGATATCACCGGCAGTAACTCGCGGGTCGGTGTCGGCGGTGAGTTATGGGCCAATTACCTGAAGTTTGCGGCTAACGGCTACTTCAGGGTAACAGACTGGCACCAGTCAAAACTGCACGAAATGCGCGATTACGATGAACGCCCGGCGAACGGGTTTGATATCCGTGCGGAGGGCTATCTGCCTGATTATCCGCAGTTAGGTGCATTTGCAAAATATGAACAGTACTTCGGTGACGGCGTCAGCCTGGCCAGTACCACCTCTTCCGGTGAGCTGAAAAGTAACCCGTCGGTCTCCACCATCGGGCTCAGTTACACCCCGTTCCCGCTGATCACGTTCAAAGGTCAGACATCCCGTGGTGATTCCAACGACAGCCAGATTGGTATGGAGCTTTCCTACCGTTTCGGCGTACCGCTGTCACAGCAGCTGGATACCGACAATGTTGATCTGATGCGTAACCTGGCGGGTAACCGTTACGACTTCGTCGACAGAAATTACAACATCGTGATGCAGTACCGTAAGCAGGAACTGCTGCGGATTGCCCTGCCGCCGACACTCAACGGTGAAGCGGCACAGACACTGCCGGTGACGGTCAGTGTGCTGAAAGCCAAATACGGCCTGAAATCACTGCGCTGGTCAGCACCTGAACTGCTGGCAAACGGCGGTGAGATCAAACAGACCGGGCTGACCACGGCGGATATTACGCTGCCGGAATATATTTTTATGGATCGTAACGGCGGGCCGCAGGGCTACCGTGTGACAGCTGTCGGTGAAGATAACGAGGGCAACCCGTCTAACACCGCAGAAATGTGGGTGAATGTTATTCCGTCAGTGGAAACCATCACCAAACTGACCGTCACGCCGAACCAATCCTTAATCGCCAACAACAGCGACCAGTTTACCGCTGTGGCACTGTTACAGAATGACAAGGGCGAAGTGCTGCCGAATAAAGCAGTGACTTTCAGCGTTTCCGGCCTGAAAAATCCGGAAGGCGTGACCATTTATGATGCGGACGGCAACAGCGGCCAGACACTGACCGTGATTTCCGGGCCGGATGGCACGGCGACCGTGAAAATCATCAGTAAATCCGCCGGTAAAGGATTGCTGAAAGCCAAGATGCGTAACGGTAACAGCCGTACCGAAGCGATCACCTATATTGCGGATCTCAGTACCGCAAAAATCAAAACGCTTGAATTAACCAATAACAAAGCAGTGGCTGACGGCCAGGCGAAAAACATCGCTGTGGCAACGGTGACTGACCAGTTTGATAACCTGGTGGAAAACTTCCCGTTAACGGCCAGAGCGGATAACGGTGCAACAGTTATTGATCCGAACCAGCAGACTGACAGCAACGGCCTGGTCACTATCCGTTTCAGCAGTGAAACTGCCGGGGATTCCAAACTGGTGGTTGAGGGAACGGGCACGTCGAAGAGTGTGACAGCACAGTTTATCGCGGATATCAGTACCGCGAAGATCCAGAGTGCGGTCGTGACTCAGGATGGGGCGAAAGCAGACGGTAAAGCGAAAAATGAGGTTCTGGTGACTGTCACTGACAGCCGCAATAACCCGTTAGCCGGTGCACCGGTCACCATCAAAGTGCCGGGAACCGCCCGTTATCAGACCCAGCCGGTCAGTGGTCTGACAGACAGCCGTGGTCAGTTGCGTGTCAGTATCAGCAATACCAAAGCCGGTTCTGATAACTATACCTTCAGTATTAACGGCGATGATGCGGTACGTGCACTGAAATTTGTGGCGGATGAAACCACGGCAACCATTACGGATGCCAGCCTGGTTATCGTCACCAATAATCAGAAAGCAGATGGTGCGGCAGCAAACAGTGTAAGAGCGACCATTGTTGATGCTTACAATAACCCGGTTCCGGGGATCGCGGTGCAGTTTGTCACCGATCACGGCGCACTTCCGTCTCAGATGCAGATCAATACGGATGCGGACGGTAATGCACTGTTTGAACTGACAAATACCCGTGCGGGTAACACTAAAGTCACTGCACAGGTCAATACCAAATCCGCATCAAAAACCGTGATGTTTACAGCGGACAGCTCGACAGCGGAAATTCTGGCATCGAACCTTACGATAACCGCAGATAACAGCGCGGCGGATGGTGCATCCGTCAACAGTGTGAAAGCGATTGTCACCGATGCACAGGGTAACGTTGTGCCGTATGTGGCCGTTCTTTTCACTGCGGATAATGGCGCGTCTCCGGCTTCACAATCACTGCTGACCAATGAGCAGGGTGAGGTAACCTTCAGCCTGACCAGTACCCGTGCGGTACAGGTTGCGGTTAAAGCGAAGATTAACACCAGTGAGCCTTCTGTTACTGTCACCTTTAAGGCAGACAGTGCGAACCCTGATGCTCAGAAATCCTCGCTGACAGCTGATCCGATGACGATCGTGGCAGACGGGCAGACAACATCAACGCTGCATTTCATCTTAAAAGATCGTCAGGGGAACCTGATCCCGGGCCAGACTGTGGTCTTCGGAACCGCGCTGGCGGGAACCACGGTGAGCGGTACGACCGAAAATCCGGATGGTACTTACACGGCGACACTGAAAGGTGTTAAAGCCGGGGATGCGAAAGTCAGCATCACGCTGAACGGAAAAGCGTTCGCGGTTGCACCGGTCACCGTAAAACTGACAGCGGATAACGGTAACCTGAGTGGTGATAAATCTCAGCTGACTGCTGTTCCTGACACGATTGTGGCTGATGGCAAGACGTCTTCAACGCTGACCCTGAGCCTGAAAGACGTGAACGATAATGCCGTGAGCGGACAGGAAGTCGTATTCAGCACCACGCTGGCAGATACCGTATTCAGTGCGGTAAGAGATAATGCAGACGGTACTTATACTGCCACTCTGAAGGGGACTAAATCCGGAACCGCAAAAATCAAAGTCACAGTGAATAATGCTGTGCTGGCCGTCACTGAGGTGAGTATAAAACTGACCGCAGACAGCGGTAACCTGGATAAGGGTAAATCCTCACTGGCAGCGGTACCGGACACCATCGTGGCGGACGGTAACACGACATCCGCAATCACCCTGACGCTGCGGGATGTGAATAACAACCCGGTGGCGGGGCAGGTTGCGCTGTTCAGCACAACGCTGAAAGACACCACCTTCGGTACAGTAACGGATAATCAGGACGGTACCTATACCGCGACCCTGAAAGGAACCAAATCCGGTAATGCACAAATCAGTGTCACGCTGAACGGTAAGGCTTTTGCCGTCGCACCGGTGACAGTCAAACTGACGGCGGACAGCAGCAATCTGGATCAGGGTAAATCTTCACTGACTGCTGCGCCGCTGAGTATTGTGGCAAACGACACTGCGACCTCATCACTGACGCTGACCCTGAAAGACGGGAACGATAACCCGGTTCCGGGACAGACTGTGCTGTTCAGTACCACGCTCGGCGGAACCACCTTCAGTGGCGTGACGGATAATCAGGACGGTACGTATACAGCAACCCTGAAAGGGAAAACAGCCGGTGATGCGGTACTGAAAGTGACCGTGAACGGCGCTGTGCTGACAGTGGCTCCGGTGACAGTGAAACTGACAGCGGACAGCGGTAACCTGGATAAAGATCAATCTGTCCTGGAAGCATCTCCGCTGACCATCGTGGCAAACGACACCACGACTTCAGCGCTGAAACTGACACTGAAAGATGCCAACGGCAACCTGGTGTCCGGACAGACAGTACTGTTCAGCACCACGCTTGGCGGCACTACCTTCAGTGGCGTAACGGATAATCAGGATGGTACCTATACCGCGACCCTGAAAGGGAAAACCGCCGGTGATGCGGCACTGAAAGTGACCGTGAACGGTACGGAACTGCCTGTTTCGCAGGTGACAGTGACCCTGACGCCGGACAGCACCAATCTGGATAAAAACAAATCCTCGCTGACTGCAGTACCGCTGAGTATTGTAGCGGATGATGCCTCAGTATCGGATCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTCCCGGGACAGCAGGTGCTGTTTAGTACCACGCTCGGCGGAACCACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCAACGCTGAAAGGGACCAAAGCCGGTGATGCATTACTGACAGTGACCGTCAATGGTGCGGTGCTGGAAGTGGCACCGGTAACGGTGAAACTGACAGCGGACAGCGGTAACCTGGATAAGGATCAATCTGTCCTGGAAGCATCTCCGTTGAGCATTGTGGCAAATGACACCACAACTTCAGCACTGAAGCTGACACTGAAAGATGCCAACGGTAACCTGGTGTCCGGACAGACGGTGCTGTTCAGTACCACGCTGGCCAACACCACGTTCGGTACAGTGACTGATAATCAGGATGGTACTTATACTGCAACGCTGAAAGGAAAAACCGCCGGTGATGCAGTGATTAAAGTCACTGTCGGCGGTAATCCGCTGGATGTGGCGCCGGTTACTGTCACTCTGACACCGGACAGCACCAATCTGGATAAAAACAAATCCTCGCTGACGGCAGTACCACTGAGTATTGTGGCGGATGATACCTCGGTATCGGATCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTTCCGGGACAGACCGTGCTGTTCAGCACCACGCTCGGCGGCACCACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCGACCCTGAAAGGGAAAACGGCCGGTGATGCATTACTGAAAGTCACCGTCAATGGTGCGGTGCTGGAAGTGGCACCGGTGACTGTCACCCTGACAGCGGATAACGGCAACCTGGATAAAGATAAATCTGTCCTGGAAGCGGCGCCGCTGAGTATTGTGGCGAATGGTACGGCGGAATCCACTCTGAAGCTGACGCTGAAAGACGTCAACGGTAACCTCGTTTCCGGACAGACTGTGCAGTTCACCACCACACTGGCAGATACCACCTTCAGTGGCGTGACGGATAATCAGGACGGCACCTATAGCGCGACCCTGAAAGGCACTAAATCCGGTGCTGCACCGCTGACGGTTATTGTTAACGGTACCGGACTGGCAGTGGCACCGGTAACGGTTACTCTGACACCGGACAGCGCTAATCCGGATAAAGATAAGTCAGTACTGACTGCGTCTCCGCTGACCATCGTGGCGGACAATGCCACAACGTCTTCACTGAAACTGACCCTGAAAGATACTTACGGTAACCTGATTCCGGGACAGACTGTGCTGTTCAGCACTGATCTGGAAAATACGACCTTCAGTGGCGTGACGGATAATCATGACGGTACCTATACCGCAACACTGAAAGGGACCAAATCCGGTACAGCGGCACTGAAAGTGACTGTAAACGGTACGGAACTGGCAGTGGCACCGGTGAGCGTGAAACTGATCGGGGATAAGGATCATCTTGATGAGGATAAATCTTCACTGACAGCGGCACCGCTGAGCATCGTGGCAAACAACACCGCGACCTCGTCACTGACGCTGACACTGAAAGATGTGAATAACAACCCGGTGATCGGTCAGACTGTGCTGTTCAGCACTGACCTGGCAGACACCACCTTCACTACGGTGAAAGATAATCAGGACGGCACTTATACCGCAACACTGAAAGGGACCAAAGCCGGTGACGCATTACTGAAAGTCACTGTCAATGGTGCAGTACTGGAAGTGGCGCCGGTCACTGTCACCCTGACGGCGGACAGCAGTAATCTGGACAAGGACAAATCCTCACTGACAGCGGCACCGCTGACTATCGTGGCAAACAATACCACGACCTCTGAGGTGAAACTGACCCTGAAGGATGCCAACGGTAACCTGGTTTCCGGTCAGACCGTGCTGTTCAGTACCACACTGGCTAACACCACATTCGGTACAGTGAACGACAATCAGGACGGCACCTATACCGCAACCCTGAAAGGCAAAACTGCCGGTGATGCAGTGATTAAAGTCACTGTGGGCGGTAATGCACTGGAAGTTGCGCCGGTTACGGTGAAACTGACAGCGGACAGCTCAAACCTGGATAAAGATAAATCTGTCCTGGAAGCAGCGCCGCTGAGTATTGTGGCGGATAACGCAACGGAATCCACGGTGAAACTGACACTGAAAGATGTCAACGGTAACCTGGTCTCCGGTCAGACCGTGCTGTTCAGTACCACACTGGCCAACACGACTTTCGGTACAGTGAAAGATAATCAGGACGGCACCTATACCGCGACCCTGAAAGGTAAAACGGCCGGGGCTGCGGAGATTAAAGTGACAGTGGGCGGTAATGCGCTGGAAGTGGCACCGGTCACTGTCACCCTGACACCGGACAGCAGCAAACTGGATAAGGATAAATCCTCGCTGACCGCAGTACCGCTGACTATCGTGGCGGATGGTGCAACAGAGTCCGCGCTGACACTGACACTGAAAGACGTCAACGGTAACCTGGTTCCGGGACAGACCGTGCTGTTCAGTACCGGCCTGGCTGATACTACCTTCAGTGGCGTGACGGATAATCAGGACGGTACTTATACCGCGACCCTGAAAGGAACCAAATCCGGGAATGCGTTACTGAAAGTGACGGTGAACAGTGCTGAACTGGCTGTTGCACCAGTGACAGTGAAACTGATCGGCGACCAGGATAACCTGGACAAAGATAAGTCAGCACTGACGGCTGATCCGCTGACTATCGTGGCAAACAATACCACGACGTCTCTGGTGAAACTGACCCTGAAGGATATCAACGATAACCCTGTGACCGGGCAGACGGTACTGTTCAGTACCACACTGGCCAACACCACGTTCGGTACGGTAACCGATAATCAGGACGGCACCTATACGGCAACCCTGCAGGGTAAAACAGCCGGGGCCGCTGTTATCAAAGTGACTGTCGGTGGTAATGCGCTGGAGGTGGCACCGGTAACGGTTACCCTGACAGCGGACAGCAGCAAACTGGATAAGGATAAATCCTCGCTGACCGCAGTACCGCTGACTATCGTGGCGGATGGTGCTACAGAGTCCGTGCTGACACTGACACTGAAAGATGTCAATGACAACCCGGTTACAGGACAGACCGTGCTGTTCAGTACCGGTCTGGCTGATACAACTTTCAGTACGGTGACGGATAACCTGGACGGTACCTATACAGGGACTCTGAAAGGCACTAAATCCGGTGATGCGTTACTGAAAGTGACTGTCAACGGGACTGTGCTGGAAGTGGCACCGGTAACGGTGAAACTGACTGCAGACAGCAGTAATCTGGACAAGGATAAATCGGCACTGACAGCAGATCCGCTGACTATTGTGGCAAACAACACCGCAACGTCCGCGCTGAAACTGATCCTGAAAGATGCCAACGGTAACCTGGTTTCCGGACAGACCGTGCTGTTCAGTACTGAGCTGGCCAACACCACGTTTGGTACGGTGACGGATAATCATGACGGTACTTATACGGCAACCCTGAAAGGGACCAAAGCCGGCGATGCGTTACTGAAAGTGACCGTCAACGGGACTGTGCTGGAGGTGGCTCCGGTCACGGTGAAACTGACAGCGGACAGCAGTAATCTGGACAAGGATAAATCCTCACTGACAGCAACACCGCTGACTATCGTGGCAAACAATACCACGACCTCTGAGGTGAAGCTGACCCTGAAGGATGCCTATGACAACCCGGTTTCCGGACAGACCGTGCTGTTCAGCACCACGCTGGCCAACACCACGTTCGGTACGGTGACGGATAATCATGACGGTACCTATACCGCAACCCTGAAAGGTAAAACTGCCGGTGATGCAGAGATTAAAGTCACTGTGGGCGGTAATGCACTGGAAGTGGCACCGGTTACGGTGAAACTGACGGCAGACAGCAGTAATCTGGATAAGGATAAATCCGTGCTGACAGCAACACCGCTGACTATCGTGGCAAATAACACGGCGACTTCAGCACTGAAGCTGACCCTGAAAGATGCCAACGATAACCCGGTTGCCGGACAGACCGTGCTGTTCAGTACCACGCTCGGTGGTACCACCTTCAGTGGCGTGACGGATAACCAGGACGGTACTTATACCGCGACCCTGAAAGGGAAAACCGCCGGTGATGCTCCGCTGACAGTAACCGTTAACGGAACTGAACTGCCGGTTGCGGGTGTGACCGTCACGCTGACAGGTGATGCCGCAACAGCGACTATCACGAATGTGAAACTCAACGGTGCGCTGGCACGGAAGATTGCCAACGGTACGGATTCTTTTGAATTTATTGCCGAAGTCCGTGACGCGAACGGTAACCCGGTCAGTGGTGTGACGACTAACTGGACCAGTACTGCCGGTAGTGCAGCTGTATTATCTGCGACTTCAAAGCAGACAGATGCAGCGGGTAACGCGACTGTCAAACTGACCAGTACCAAAACACCGGTCTATGACATTGTGGTCAGTGCCGCACAGGGAAGTCAGGCTGCGGTTAATGCTGATAAGAAAGTCTCCTTTGAAGAGCTGTTCTCAACGTCAGTGCTGGTTATTGACGCGATTGCAGCCGGAGATAAGCCGGTTAACGGCGCACACGTTAAGATCTTCTCGGAAGACGGATCAGAACTGCTGTATGAGACAACAACGGATGCAACTGGTAAGTTTAAGGTTGATCTGGTTGGCGGGAAGTACGCAGTTAAGATCACGGCGAATAATTACGACGACTACGATGACTTTATGGACGTGAAGAGCGGCGCGGATACCAACTTTAAGTTTGCGTTATCTCCGGCGCTGGGCACAGAGTTCGGTCGTATTATTCTGCAGTGGAGTGAAAACCCGAGAGATCTGGACTCTTACCTGCTTGTTCCGCCAGCATCAGGCAGCGGCAGCAGAATTAAGGTTAACTATCAGAACAAAACACCGTCAGGTGCAGATGCCTCCCTTGATAAGGATCAGACAACAGCTCCGGGTATTGAAACGATCACGATGACGAAGTCACATAAGGGAACTTATACCTATTATGTACAGAACTTCGCCGGTCCGAATGCTAAATTGTCAACTGCGAAGGTGCAAATCTTCCTGAATAAGGATTTGACACTGAAACCGGGAACATCCAGAACAATGAGTTTCAGTGCACCGGACTTAGTCGTCGATGCCAAAGCGCAATGGATTGTGTTTGATATCATTGTTGACAGTAATAATGAGGTGCAGGTGGTTACCAGAGGAACAGTAGATGCAAATCAACCTAATTAAATAAGAAAGGTTACTATTAATTAGTAACAATAATAAAAGCCACAGGCAGA