Homologs in group_3732

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2 homologs were identified in 1 genome 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
F4V73_RS12485	F4V73_RS12485	89.0	Morganella psychrotolerans	-	hemagglutinin repeat-containing protein
F4V73_RS12490	F4V73_RS12490	92.6	Morganella psychrotolerans	-	hypothetical protein

Distribution of the homologs in the orthogroup group_3732

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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_3732

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Phylogeny of the RefSeq best hits of group_3732

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
Q7CGD9	0.0	723	37	37	1523	3	cdiA	Toxin CdiA	Yersinia pestis
Q7CGD9	1.18e-118	427	36	20	874	3	cdiA	Toxin CdiA	Yersinia pestis
Q7CGD9	3.31e-06	57	31	5	178	3	cdiA	Toxin CdiA	Yersinia pestis
Q3YL96	0.0	693	30	80	2546	1	cdiA	Toxin CdiA	Escherichia coli
Q3YL96	7.58e-63	243	30	42	969	1	cdiA	Toxin CdiA	Escherichia coli
B3BM48	0.0	676	31	74	2431	1	cdiA1	tRNA nuclease CdiA	Escherichia coli O157:H7 (strain EC869)
B3BM48	6.14e-62	240	30	43	1003	1	cdiA1	tRNA nuclease CdiA	Escherichia coli O157:H7 (strain EC869)
D5CBA0	0.0	660	38	33	1342	1	cdiA	16S rRNA endonuclease CdiA	Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
D5CBA0	4.93e-66	254	30	40	999	1	cdiA	16S rRNA endonuclease CdiA	Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
D5CBA0	1.14e-09	68	23	27	632	1	cdiA	16S rRNA endonuclease CdiA	Enterobacter cloacae subsp. cloacae (strain ATCC 13047 / DSM 30054 / NBRC 13535 / NCTC 10005 / WDCM 00083 / NCDC 279-56)
E0SDG8	0.0	638	36	35	1432	1	cdiA	Deoxyribonuclease CdiA	Dickeya dadantii (strain 3937)
E0SDG8	2.86e-05	53	29	25	481	1	cdiA	Deoxyribonuclease CdiA	Dickeya dadantii (strain 3937)
A0A1S4NYE3	0.0	636	37	36	1358	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain STEC_O31)
A0A1S4NYE3	7.83e-65	250	30	46	1045	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain STEC_O31)
A0A1S4NYE3	4.3e-11	73	23	31	860	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain STEC_O31)
A0A0H3B0B8	1.87e-174	571	45	11	823	1	cdiA	Deoxyribonuclease CdiA	Yersinia pseudotuberculosis serotype O:3 (strain YPIII)
P0DSI1	4.59e-163	570	40	19	1085	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain NC101)
P0DSI1	3.45e-66	254	30	35	933	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain NC101)
P0DSI1	5.15e-37	158	29	25	624	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain NC101)
P0DSI1	3.29e-13	80	29	26	595	1	cdiA	tRNA nuclease CdiA	Escherichia coli (strain NC101)
Q0T963	2.6e-162	567	40	19	1071	1	cdiA	tRNA nuclease CdiA	Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963	7.79e-63	243	30	44	973	1	cdiA	tRNA nuclease CdiA	Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963	8.42e-37	157	29	25	624	1	cdiA	tRNA nuclease CdiA	Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963	1.9e-10	70	26	23	601	1	cdiA	tRNA nuclease CdiA	Escherichia coli O6:K15:H31 (strain 536 / UPEC)
Q0T963	5.91e-09	65	24	36	891	1	cdiA	tRNA nuclease CdiA	Escherichia coli O6:K15:H31 (strain 536 / UPEC)
C4SGN7	2.76e-116	419	35	20	983	3	cdiA	tRNA nuclease CdiA	Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204)
C4SGN7	8.19e-75	283	31	41	922	3	cdiA	tRNA nuclease CdiA	Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204)
C4SGN7	5.05e-22	108	23	19	559	3	cdiA	tRNA nuclease CdiA	Yersinia mollaretii (strain ATCC 43969 / DSM 18520 / CIP 103324 / CNY 7263 / WAIP 204)
I1WVY3	4.59e-80	300	34	14	684	1	cdiA2	tRNA nuclease CdiA-2	Burkholderia pseudomallei (strain 1026b)
I1WVY3	6.76e-76	286	26	67	2022	1	cdiA2	tRNA nuclease CdiA-2	Burkholderia pseudomallei (strain 1026b)
H9T8G4	2.63e-71	268	32	15	765	1	cdiA	tRNA nuclease CdiA (Fragment)	Burkholderia pseudomallei
H9T8G6	2.27e-70	265	32	14	765	1	cdiA	tRNA nuclease CdiA (Fragment)	Burkholderia pseudomallei
P12255	3.21e-37	159	35	9	328	1	fhaB	Filamentous hemagglutinin	Bordetella pertussis (strain Tohama I / ATCC BAA-589 / NCTC 13251)
P12255	1.16e-07	61	25	15	318	1	fhaB	Filamentous hemagglutinin	Bordetella pertussis (strain Tohama I / ATCC BAA-589 / NCTC 13251)
P16466	6.29e-37	157	35	6	282	1	hpmA	Hemolysin	Proteus mirabilis
P15320	4.74e-30	135	36	4	249	1	shlA	Hemolysin	Serratia marcescens
P15320	6.56e-05	52	28	13	319	1	shlA	Hemolysin	Serratia marcescens
Q06277	8.89e-24	115	24	14	463	1	ibpA	Protein adenylyltransferase and cysteine protease IbpA	Histophilus somni (strain 2336)
Q06277	8.59e-11	72	28	6	217	1	ibpA	Protein adenylyltransferase and cysteine protease IbpA	Histophilus somni (strain 2336)
B3BM80	1.79e-07	59	35	4	125	1	cdiA4	Deoxyribonuclease CdiA-o11	Escherichia coli O157:H7 (strain EC869)

Number of RefSeq hits:

General

Source	Morganella psychrotolerans
Locus tag	F4V73_RS12495
Feature type	CDS
Gene	-
Product	hemagglutinin repeat-containing protein
Location	82783 - 90567 (strand: -1)
Length	7785 (nucleotides) / 2594 (amino acids)

Contig

Accession	term accessions NZ_VXKB01000003 accessions NZ_VXKB01000000 Name: value, dtype: object
Length	425895 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_3732
Orthogroup size	3
N. genomes	1

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Genomic region

Domains

PF04829	Pre-toxin domain with VENN motif
PF05860	TPS secretion domain
PF13018	Extended Signal Peptide of Type V secretion system
PF13332	Hemagglutinin repeat

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
K15125	filamentous hemagglutinin	Pertussis	-

Protein Sequence

MNKYCYRIIFNKARQMMMVVSELAKNHSSDKTRGQNGADLTPLTATLSPFRLAMMLLLGWVALPAVAGGIVADGSAPGNQQPTVISSANGTPQVNIQAPNHDGVSRNQYSQFDVDSKGAILNNSAVNTQTQLGGLVTANPWVAKGEAKIILNEVNSANRSQLNGFIEVAGKRADVIIANPAGITCNGCGFINAGQTTLAAAQALLEQGRIKGFDVDKGQIAITGKGMNDAQSNYTRLIGRAVEVNAKLHAQDLTITTGRNITDAQGNVVKQKAADGTTPAFALDVAAVGGMYANKIKLVGTEHGVGVRNAGTIGAQVGELSLSADGKLQNSGILTATTDVKATLTDNITNTGTVSAGRDVQLKTAGDTDNQKQILAGRTFTSDSQALNNAAGAVMAAGVDKDGKLTQTGDMTLTAAKAATLNGQQLAHDRMAVTADNISLQNSRTAAGNMALNSATGLNLQTADVSASGTLTAVAPDGIDNRSGKLTAGALQLTSRKLDNTQGQIIQTGTDALMLDHKDGIINNSGTIAANSRDLTLNADKIDNRTGRIQHAGEGTARITTPDYTGQNGVIVSNGHLMMKGGAYQLDSSETSARTISGEMVALSHRDGKMVQRDSGALTLAVQHALDNTQGVIAGQHLTLSAETLSNQRGKIQGSGDAALTVTEKTDNREGDIRGGKQLTLSARELDNTQGTTAGHEKTAVTTDTLTNTGGTLIAGQSLTVTSGSLSGDGDVLSSGDLSLTLNDAFTNRKKVQANGSLTLNVKNGVQNEALIQGGKAVTIITSQLTNNRDAEISADNTTLTVQNTLTNTGLIDGVNTRISTKTLDNTATGRIYGDDIALQADTLNNSAVADKSRSAVIAARNSLNIGTKTLNNEGQSLIYSQGLLNIGRTLDADYRATGSADLFNNLGSTLESQGDMTLNIREINNINTDLVTRIEVTSRKKYHEGVLSGHTQRVDWKDIKREKKKYGVHDAVMPDGSRDNEFYEYDYTRTIEDTLVVTTEPGVIQSGANLTINSDKLLNKDSRVLAGGLLTGTIADLQNIATKGVHIVTDIGKQTRWYAKKKKRKIGGTKTSQGKSNSRYRPAPVIIDTDLGVHKWEMNAQTDIQAVDTSGRTATAIIDVPVTGETGGTQADTVIRTGNDNITLPNNSLFNLKPGSDSQYLVETDPRFTNRKKWLGTDYMQTALQSDHSQMHKRLGDGYYEQKLITDQIVALSGQRYLGDYRNDEEQFKALMDNGITFGQKYNLTPGVVLTAGQMALLTGDMVWLVEKTVTLADGSTETVLVPQVYARIKPGDLTGDGALLAGKNTQFTVNGQLVNSGSILSKNTLNINAGDILNQGTISGNDVLLNAQRDLNNLGGTLIGGDSLTVNAENIRSETTLAGEADNRNLNRIAGVYVQNDGGKLTLSAKNSVTLTATDLAAQGKESKTTITAGNDITLGTVTTTHTENGDWGGGNYRHVAEQTDVGTQLRGGDITLNAGRDMSATAATVDAKNALNVTVGRDITITSGSAVSDLTEHSKQSSKGLLSASSLETHDEVHRNEAVSSQFGGDTVTLKAGNNLTVEGSQVIADNDLTATAGKNITVTTTDESREETHLREEKKSGLLSSGGIGFTIGKQSLKQTTDSDSQLHKGSTLGSTDGSVSLTAGENLTVHGSDVVAKKDISLTGQSVAVTAAENTRTELTKTEQKQSGLTLSLSGTVGSAMNTAVQAAQDSKDTDDDRLKALKGTQAVLSGYQGKQSWDMSNAASDKADAVNGAGGNAEKPDDVIGIQISYGSQSSKSETRTDRTDAQGGQLGAGRDIRITATGDKTQDKGDILIQGSDVKAGRDVVLDATRDIILTSAEEMQKTDGKNSSKGGNLGVGITVGQGGWGIKFSAGVNAGKGSEKGDGLTHRETVIDAGHQVTLKSGQDTTLKGAQVSGEQITVNTGRNLTLESEQDSDNYDSKQQNVSAGASFTYGSMSGSASVNVSRDKMHSTYDSVQEQTGLFAGKGGYDITTGKHTQLDGTVIASTADKDKNRLDTGTLGFNDIENKAEYKVEHQSAGFSSGGMTGSGGFGGAGSQLVSNLTSNTLVGVNNSGKESNTTHAAVSDGKWIIRDTENQKQDTADLSRDTDHAHTALNQIFDKEKEQKRLQQAQAIADIGTQVLDIYDTNARIDAMREATEKLKAESAKAQIKENADAELSKLREKGDTKTSYDAVLKSEADKYYNERVSDALTKNGQQVGGKERQAVTAVVAAFQGLAGGDVKAAIANGAAPYLAGMVKDLTYKGKTYEQLTPDEKATNLVAHALLGGVLAEMNGGSVTGGAAGALTGELAAPVIADLLFNKKVSDLNADEKVQLSQLSTLAGGLAGGIASDSVAGGISGSQTAKNAVENNAMNPRVMAAAEARKKNTIENWEASKKAEIEKACNGSNPISCQTMTAMEFSIIAWPLLPETAATTSIIGATANTGIQYAFTQSVDLNDVIFAYWTGALTGNTGFWGTVSINASMGAGSAYVKGEDPLMGAGTAGFGSGLGYGFGSGIKYGVNKWGYWKSNGFDPKYNPRIQGGAIQGQLGLSKDMGSASLPSILGNAGASAVTETSNTIVQEEIKVTNDKNNK

Flanking regions ( +/- flanking 50bp)

TACTGACGGGTACTGATGATGACTGCACTGATAGTGCAAAGGAATGAGCAATGAATAAATACTGTTACCGGATTATTTTTAACAAAGCCCGTCAGATGATGATGGTGGTGTCCGAACTGGCGAAAAATCACAGCAGTGATAAAACCCGCGGACAGAACGGTGCGGATCTTACCCCGCTGACCGCCACCCTGTCGCCGTTCCGGCTTGCCATGATGCTGCTGCTCGGCTGGGTTGCGTTGCCTGCGGTGGCGGGCGGGATTGTGGCGGACGGCTCCGCCCCCGGCAATCAGCAGCCGACCGTGATTTCCTCTGCCAACGGCACGCCGCAGGTCAATATCCAGGCACCGAACCATGACGGTGTCTCACGTAACCAGTACAGTCAGTTCGATGTGGACAGCAAAGGTGCGATCCTCAATAACAGTGCGGTCAACACACAGACGCAACTGGGCGGGCTGGTTACCGCCAACCCGTGGGTGGCAAAAGGGGAAGCAAAGATCATCCTCAATGAGGTCAACAGCGCCAACCGGAGTCAGCTCAACGGTTTTATTGAAGTGGCCGGTAAACGGGCGGATGTGATTATTGCCAACCCGGCGGGGATCACCTGTAACGGTTGCGGCTTTATCAATGCCGGACAAACTACTCTGGCCGCTGCACAGGCGCTGCTGGAGCAGGGACGAATCAAAGGGTTTGATGTCGATAAAGGCCAGATTGCGATCACCGGCAAGGGCATGAACGACGCACAGAGCAACTACACGCGGCTGATAGGCCGTGCCGTGGAAGTGAATGCCAAACTGCATGCGCAGGATCTGACCATCACTACCGGGCGCAATATCACTGATGCGCAGGGCAATGTGGTCAAACAAAAAGCGGCAGACGGCACGACACCGGCCTTTGCACTGGATGTGGCTGCGGTCGGCGGCATGTATGCCAATAAAATCAAACTGGTCGGCACCGAACACGGGGTCGGCGTGCGCAATGCGGGTACTATCGGGGCGCAGGTCGGTGAACTGAGTTTATCCGCTGACGGTAAATTGCAGAACAGCGGTATTCTTACCGCAACAACTGACGTAAAAGCGACACTGACAGACAACATCACCAATACCGGTACCGTCAGCGCCGGACGGGATGTGCAGCTTAAAACAGCCGGAGATACGGATAACCAAAAACAGATCCTGGCGGGACGCACGTTCACCTCTGACAGTCAGGCGCTGAACAATGCTGCAGGGGCTGTGATGGCGGCCGGTGTGGATAAAGACGGCAAACTCACGCAGACCGGGGACATGACCCTGACGGCAGCGAAAGCCGCGACCCTGAACGGGCAGCAACTGGCGCACGACCGCATGGCGGTGACTGCTGATAACATTTCACTGCAGAACAGCCGCACTGCTGCCGGAAACATGGCACTGAATTCTGCCACCGGGCTTAATCTGCAAACCGCGGATGTCTCCGCCTCCGGCACCCTGACGGCGGTTGCACCGGACGGTATTGATAACCGCAGCGGCAAACTGACCGCCGGGGCGCTGCAACTGACCAGCCGTAAACTGGATAACACGCAGGGGCAGATTATCCAGACCGGTACAGATGCGCTGATGTTGGATCACAAAGACGGCATCATCAATAACAGCGGTACGATCGCCGCCAACAGCCGTGATCTCACCCTGAATGCAGATAAGATTGACAACCGCACCGGGCGCATACAACACGCCGGAGAGGGCACCGCCCGTATCACCACCCCGGATTATACCGGGCAGAACGGCGTGATTGTCTCCAACGGGCATCTGATGATGAAAGGCGGGGCGTATCAGCTGGACAGCAGTGAAACCTCCGCCCGCACTATCAGCGGGGAGATGGTCGCTCTGTCTCACCGCGACGGCAAAATGGTGCAGCGCGACAGCGGTGCACTGACACTGGCGGTACAACATGCTCTCGATAATACGCAGGGCGTGATTGCCGGACAACATCTGACCCTCAGCGCAGAGACACTGAGTAATCAGCGCGGTAAAATTCAGGGCAGCGGCGATGCTGCTCTGACCGTGACAGAAAAAACCGATAACCGCGAAGGCGATATCCGCGGCGGCAAGCAGCTGACATTATCCGCCCGTGAACTGGACAACACACAGGGCACCACCGCCGGACATGAAAAAACGGCGGTCACCACCGACACGCTCACCAACACCGGCGGCACGTTGATTGCCGGTCAGAGCCTGACGGTCACCAGCGGCAGCCTCAGCGGTGACGGGGATGTGCTCTCCTCCGGAGATTTGTCGCTTACCCTGAATGACGCCTTTACCAACCGGAAAAAAGTACAGGCCAACGGCAGTCTGACCCTGAATGTGAAAAACGGTGTTCAGAATGAGGCACTGATACAGGGCGGTAAGGCGGTGACGATTATAACCTCACAGCTCACCAACAACCGTGATGCGGAAATCAGTGCGGATAACACCACACTGACAGTACAAAACACCCTCACCAACACCGGACTGATTGACGGCGTCAATACCCGTATCAGCACCAAAACGCTGGACAATACCGCCACCGGGCGGATCTATGGCGATGATATCGCGCTTCAGGCTGATACCCTCAATAACAGCGCGGTCGCCGATAAATCCCGCTCGGCGGTGATTGCCGCCCGCAACAGCCTGAATATCGGCACCAAAACACTGAATAACGAAGGACAGAGCCTGATTTACAGCCAGGGCTTGCTGAACATCGGACGCACACTGGATGCGGACTACCGCGCCACCGGCAGCGCCGATCTGTTTAATAATCTGGGCTCCACCCTGGAATCGCAGGGGGATATGACGCTAAATATCCGGGAAATCAATAATATCAATACTGACCTGGTGACCCGGATTGAGGTTACCAGCCGCAAAAAATATCATGAAGGCGTACTGAGCGGGCATACACAGCGCGTTGACTGGAAAGATATTAAGCGGGAGAAGAAAAAATACGGTGTACATGATGCCGTTATGCCTGACGGAAGCCGGGATAATGAATTTTATGAATATGATTACACCCGGACGATTGAAGACACTCTGGTCGTTACCACCGAACCCGGCGTGATCCAGTCCGGTGCCAATCTGACCATTAACAGCGACAAGCTGCTGAACAAGGACAGCCGTGTGCTGGCAGGCGGTCTGCTGACCGGCACCATCGCTGATTTGCAGAACATTGCCACCAAAGGTGTGCATATTGTCACTGATATCGGTAAACAGACCCGTTGGTACGCGAAAAAGAAAAAACGGAAAATCGGTGGCACCAAAACATCGCAGGGGAAATCTAACAGCCGGTATCGTCCTGCTCCGGTTATCATCGATACCGACCTTGGTGTACATAAATGGGAAATGAATGCGCAGACGGATATTCAGGCTGTGGATACGTCAGGACGCACAGCCACGGCGATCATTGATGTACCGGTGACAGGGGAAACCGGCGGCACACAGGCAGACACCGTGATCCGCACCGGCAATGATAATATTACCCTGCCAAATAACAGCCTGTTTAATCTGAAACCGGGCAGTGACAGTCAGTATCTGGTGGAAACCGATCCGCGTTTTACCAACCGTAAAAAATGGCTGGGCACAGATTACATGCAGACCGCGTTGCAGAGTGATCACAGCCAGATGCATAAGCGGCTGGGCGATGGCTATTATGAGCAGAAACTCATCACTGACCAGATTGTGGCGCTCTCCGGTCAGCGCTACCTGGGGGATTACCGCAACGATGAAGAGCAGTTCAAAGCCCTGATGGATAACGGCATCACCTTCGGCCAAAAATATAATCTGACTCCCGGCGTGGTACTGACCGCCGGGCAGATGGCGCTGCTGACCGGTGATATGGTGTGGCTGGTTGAAAAAACGGTCACTCTGGCGGACGGCAGCACCGAAACGGTCCTGGTGCCGCAGGTCTATGCCCGCATCAAACCGGGAGACTTAACCGGAGATGGCGCATTGCTGGCGGGTAAAAACACCCAATTTACCGTTAACGGACAACTGGTTAACAGCGGCAGTATCCTCAGTAAAAATACCCTGAATATCAATGCCGGGGACATTCTCAATCAGGGCACGATAAGCGGTAATGATGTGCTGCTTAACGCACAACGTGACCTGAATAATCTTGGCGGTACCCTGATTGGCGGTGATTCCCTGACGGTGAATGCAGAGAATATCCGCAGTGAAACCACCCTGGCGGGAGAGGCGGACAACCGCAATCTCAACCGCATTGCGGGTGTGTATGTTCAGAATGACGGCGGCAAACTGACGCTGAGTGCTAAAAATTCCGTCACCCTGACCGCGACAGACCTTGCCGCGCAGGGCAAAGAGAGCAAAACCACCATTACGGCCGGGAATGACATCACACTGGGTACCGTCACCACCACCCATACCGAAAACGGCGACTGGGGCGGCGGTAACTACCGGCACGTCGCAGAGCAGACGGATGTCGGCACCCAACTGCGCGGCGGGGATATTACCCTGAACGCCGGGCGCGATATGAGTGCCACAGCGGCAACAGTCGATGCCAAAAATGCCCTGAACGTCACCGTCGGGCGGGATATCACGATAACCTCCGGCAGCGCTGTTTCTGACCTGACGGAGCACAGCAAACAGAGCAGTAAAGGCTTGCTGTCTGCCTCCTCACTGGAAACCCATGATGAAGTGCACCGCAACGAGGCGGTCAGCAGCCAGTTCGGCGGCGACACCGTCACGCTGAAAGCCGGTAATAATCTTACCGTGGAAGGCAGTCAGGTGATTGCGGATAACGACCTGACCGCCACGGCCGGGAAAAATATTACCGTCACCACCACGGATGAATCCCGTGAGGAAACGCATCTTCGCGAGGAGAAAAAATCCGGTCTGCTGAGCTCCGGCGGGATTGGTTTCACCATCGGCAAGCAGTCCCTGAAACAGACCACCGACAGCGACAGTCAGCTGCACAAAGGCAGCACGCTGGGCAGCACGGACGGCAGTGTCAGCCTGACCGCCGGAGAAAATCTCACCGTTCACGGCAGTGATGTGGTGGCGAAAAAAGATATCAGTCTCACCGGGCAGTCTGTCGCGGTCACCGCAGCTGAAAACACCCGTACGGAACTGACCAAAACCGAACAGAAGCAGAGCGGACTGACACTCTCCCTGAGCGGCACCGTCGGCAGTGCCATGAACACGGCCGTGCAGGCGGCACAGGACTCGAAAGACACGGATGATGACCGCCTGAAAGCACTGAAAGGTACGCAGGCCGTGCTGTCCGGTTATCAGGGCAAACAGTCGTGGGACATGAGTAACGCGGCCTCTGACAAAGCCGATGCCGTTAATGGGGCGGGCGGCAATGCTGAAAAACCGGATGATGTTATCGGTATTCAGATTTCTTACGGCAGTCAGTCCTCAAAATCTGAAACCCGTACCGACCGTACTGACGCCCAGGGCGGGCAACTGGGTGCCGGGCGTGATATCCGTATCACAGCGACCGGTGATAAAACGCAGGACAAAGGTGATATTCTCATTCAGGGCAGTGATGTAAAAGCCGGGCGCGATGTTGTGCTGGATGCGACCCGTGACATCATCCTGACGTCTGCGGAAGAGATGCAGAAAACTGACGGAAAAAACAGCAGCAAAGGCGGCAATCTCGGCGTGGGTATTACTGTCGGTCAGGGCGGCTGGGGCATTAAATTCTCCGCCGGTGTCAATGCCGGAAAAGGCAGTGAGAAAGGCGATGGTCTCACCCACCGGGAAACGGTGATTGACGCCGGGCATCAGGTCACGCTGAAATCCGGGCAGGACACGACCCTCAAAGGGGCGCAGGTCAGCGGTGAACAGATTACCGTCAATACCGGGCGCAACCTGACGCTGGAAAGTGAACAGGACAGCGATAATTACGACAGCAAACAGCAGAATGTCAGCGCCGGTGCCAGCTTTACTTACGGCTCCATGAGCGGCTCAGCCAGTGTGAACGTCAGCCGTGACAAGATGCACAGCACCTATGACTCCGTGCAGGAGCAGACCGGGCTGTTTGCCGGAAAAGGCGGCTATGACATCACCACCGGCAAACACACGCAACTGGACGGCACGGTCATTGCCTCAACGGCGGATAAGGACAAAAACCGCCTTGATACCGGTACGCTGGGCTTTAATGATATTGAAAACAAAGCAGAATATAAAGTTGAACACCAGAGTGCAGGCTTCAGTTCCGGCGGTATGACCGGCTCCGGCGGGTTCGGCGGGGCGGGCAGCCAGCTGGTCTCCAATCTGACCTCAAATACCCTGGTGGGCGTCAACAACAGCGGCAAAGAGAGCAACACCACCCATGCGGCGGTCTCGGACGGCAAATGGATTATCCGCGACACGGAAAACCAGAAACAGGACACGGCAGACCTGAGCCGTGACACCGACCACGCACACACGGCACTCAATCAGATTTTTGACAAGGAAAAAGAGCAGAAGCGTCTGCAGCAGGCACAGGCTATCGCGGATATCGGGACGCAGGTGCTGGATATCTATGATACCAATGCCAGAATTGACGCGATGCGCGAAGCGACAGAAAAACTGAAGGCGGAGAGTGCAAAAGCGCAGATAAAAGAAAATGCTGACGCCGAGTTAAGCAAACTGCGCGAAAAAGGTGACACAAAAACCAGCTATGATGCGGTATTAAAAAGCGAAGCTGACAAGTACTATAATGAACGAGTCAGTGACGCCCTGACAAAAAACGGGCAGCAGGTCGGCGGTAAAGAGCGGCAGGCAGTCACGGCGGTGGTTGCGGCATTCCAGGGGCTGGCAGGCGGAGATGTCAAAGCGGCCATTGCTAACGGTGCCGCGCCTTATCTGGCGGGAATGGTAAAAGACCTGACCTATAAAGGTAAAACCTATGAACAGCTGACGCCGGATGAAAAAGCAACCAACCTGGTGGCACATGCACTGCTCGGCGGTGTACTGGCAGAAATGAACGGCGGCAGTGTCACCGGCGGAGCGGCAGGCGCCCTGACCGGTGAACTGGCGGCACCGGTTATCGCCGACCTGCTCTTTAACAAAAAAGTGAGTGACCTGAACGCGGATGAGAAAGTGCAGCTCAGCCAGCTCTCCACCCTGGCAGGTGGCCTGGCGGGCGGAATTGCCTCAGACTCAGTCGCAGGCGGCATCAGCGGTTCGCAGACGGCGAAGAATGCGGTTGAGAATAATGCAATGAATCCCCGTGTAATGGCTGCGGCAGAAGCGCGGAAAAAAAATACAATTGAGAATTGGGAAGCAAGTAAAAAAGCGGAAATAGAAAAAGCCTGTAATGGTTCTAATCCGATATCATGCCAAACAATGACAGCAATGGAATTCAGTATAATTGCCTGGCCTTTATTACCTGAAACTGCGGCAACAACGAGTATTATTGGCGCAACGGCGAATACAGGTATTCAATATGCATTTACACAATCCGTTGATTTAAATGATGTTATATTTGCGTATTGGACTGGTGCATTGACCGGAAATACCGGTTTTTGGGGAACTGTTAGTATCAATGCCTCGATGGGGGCAGGTTCTGCTTATGTTAAAGGGGAAGACCCATTAATGGGCGCCGGAACGGCAGGGTTTGGTTCCGGATTAGGGTATGGATTTGGTAGTGGGATAAAATATGGTGTCAATAAGTGGGGCTATTGGAAATCGAATGGCTTTGACCCCAAGTATAATCCACGCATACAAGGTGGTGCTATTCAGGGGCAATTGGGGTTGTCGAAAGATATGGGATCTGCTTCATTACCAAGTATTTTGGGAAATGCAGGAGCATCAGCTGTTACAGAAACATCCAATACCATTGTTCAAGAAGAAATTAAGGTTACTAATGATAAAAATAACAAATAAAAATATACTATATATTTTCACTATTAGTATTTTAAGTGGGATAGCTATTT