Homologs in group_1082

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6 homologs were identified in 6 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_06150	FBDBKF_06150	100.0	Morganella morganii S1	recD	exodeoxyribonuclease V subunit alpha
EHELCC_09195	EHELCC_09195	100.0	Morganella morganii S2	recD	exodeoxyribonuclease V subunit alpha
NLDBIP_09575	NLDBIP_09575	100.0	Morganella morganii S4	recD	exodeoxyribonuclease V subunit alpha
HKOGLL_07730	HKOGLL_07730	100.0	Morganella morganii S5	recD	exodeoxyribonuclease V subunit alpha
F4V73_RS15765	F4V73_RS15765	82.6	Morganella psychrotolerans	recD	exodeoxyribonuclease V subunit alpha
PMI_RS11415	PMI_RS11415	58.9	Proteus mirabilis HI4320	recD	exodeoxyribonuclease V subunit alpha

Distribution of the homologs in the orthogroup group_1082

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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_1082

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Phylogeny of the RefSeq best hits of group_1082

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P04993	0.0	573	53	7	599	1	recD	RecBCD enzyme subunit RecD	Escherichia coli (strain K12)
Q89AB2	9.44e-119	369	32	11	615	3	recD	RecBCD enzyme subunit RecD	Buchnera aphidicola subsp. Baizongia pistaciae (strain Bp)
P45158	1.7e-101	324	39	13	535	3	recD	RecBCD enzyme subunit RecD	Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd)
P57530	3.4e-95	307	30	6	596	3	recD	RecBCD enzyme subunit RecD	Buchnera aphidicola subsp. Acyrthosiphon pisum (strain APS)
Q8K9A8	2.08e-90	294	28	10	605	3	recD	RecBCD enzyme subunit RecD	Buchnera aphidicola subsp. Schizaphis graminum (strain Sg)
A0QS28	1.2e-59	211	35	15	610	3	recD	RecBCD enzyme subunit RecD	Mycolicibacterium smegmatis (strain ATCC 700084 / mc(2)155)
P9WHJ1	9.23e-58	207	38	17	510	1	recD	RecBCD enzyme subunit RecD	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)
P9WHJ0	9.23e-58	207	38	17	510	3	recD	RecBCD enzyme subunit RecD	Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh)
O34481	1.7e-28	124	29	14	427	1	recD2	ATP-dependent RecD2 DNA helicase	Bacillus subtilis (strain 168)
Q58914	1.21e-19	97	23	15	475	4	MJ1519	Uncharacterized protein MJ1519	Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440)
Q9RT63	3.53e-17	89	42	4	142	1	recD2	ATP-dependent RecD2 DNA helicase	Deinococcus radiodurans (strain ATCC 13939 / DSM 20539 / JCM 16871 / CCUG 27074 / LMG 4051 / NBRC 15346 / NCIMB 9279 / VKM B-1422 / R1)
Q9RT63	3.97e-15	82	31	5	190	1	recD2	ATP-dependent RecD2 DNA helicase	Deinococcus radiodurans (strain ATCC 13939 / DSM 20539 / JCM 16871 / CCUG 27074 / LMG 4051 / NBRC 15346 / NCIMB 9279 / VKM B-1422 / R1)
Q44363	3.63e-09	63	25	18	461	3	traA	Conjugal transfer protein TraA	Rhizobium radiobacter
P32270	1.23e-06	55	28	4	156	1	dda	ATP-dependent DNA helicase dda	Enterobacteria phage T4
Q44349	0.000883	46	27	4	143	3	traA	Conjugal transfer protein TraA	Agrobacterium fabrum (strain C58 / ATCC 33970)

Number of RefSeq hits:

General

Source	Morganella morganii S3
Locus tag	LHKJJB_08180
Feature type	CDS
Gene	recD
Product	exodeoxyribonuclease V subunit alpha
Location	163096 - 164928 (strand: 1)
Length	1833 (nucleotides) / 610 (amino acids)

Contig

Accession	ZDB_364
Length	217237 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_1082
Orthogroup size	7
N. genomes	7

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Genomic region

Domains

PF13245	AAA domain
PF13538	UvrD-like helicase C-terminal domain
PF21185	RecBCD enzyme subunit RecD, N-terminal domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG0507	Replication, recombination and repair (L)	L	ATPase/5-3 helicase helicase subunit RecD of the DNA repair enzyme RecBCD (exonuclease V)

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K03581	exodeoxyribonuclease V alpha subunit [EC:3.1.11.5]	Homologous recombination	-

Protein Sequence

MNTHLQTLCAEQILRPLDCQFAAMLAPDSHPLLQFVFALLSAQTGGGHVCLPLSRIIPAAEQGGRHAEIMQSVWRALNEPGLPEIKAALSASDAVSDGSLPAPVVLSEENLYLHRMWQYECRVAEFFSRPQRISADAEKLRPVLDALFGTEEPEDWQKIAAAVAVSSRTSVISGGPGTGKTTTVARILAALVQSAAEPLLIELAAPTGKAAARLTESLGEAIAQLDLTDAQRAMMPEQAKTLHRLLGAQPDSRRLRHHQKNPLMSDVLIVDEASMVDLPMMASLIDALPENAILILLGDKDQLASVEAGAVLGDICRFAESGYTPQRRQALEAMTGCVLPDKSPAHPVNVQDHLCLLRKSFRFDAGSGIGQLATAVNNGDIRETMAVLGGQRPDVRYVPLEDEEGYAQVLTDTMKAYLPFLSLVKQHADPAAVLDAFSQFRLLCALREGPFGVEGLNERIERLLHQQGHIRRPLIHRHRAYNGKPVMISRNDSPLGLFNGDIGIMLTDENHELRVYFRLPDGTIRSIRPSRLPAHETAYVMTVHKSQGSEFAHTALVLPVQPSPLVSRELLYTALTRAKQFLTIYSREECVKRAVKTPTQRYSGLSGRLR

Flanking regions ( +/- flanking 50bp)

CAGGCATTCACGGAGCAACTGGATGCCCTGTTCAAAGGGGAGGAAGGTTAATGAATACTCACTTACAAACCTTATGTGCAGAGCAGATCCTGCGTCCCCTGGACTGTCAGTTTGCGGCGATGCTGGCACCGGATAGTCATCCGCTGCTGCAATTTGTGTTTGCGCTGCTCAGTGCACAAACCGGCGGCGGACATGTCTGCCTGCCGCTGTCGCGGATTATTCCCGCAGCGGAACAGGGCGGACGGCATGCGGAAATCATGCAGTCTGTCTGGCGGGCACTGAATGAGCCGGGACTGCCGGAGATAAAAGCGGCGCTGTCTGCCTCTGATGCGGTTAGTGATGGCTCACTTCCCGCCCCGGTTGTGCTGTCAGAAGAGAATTTGTACCTGCACCGGATGTGGCAGTATGAATGCCGGGTGGCTGAATTTTTCTCCCGGCCTCAGCGGATTTCTGCTGATGCAGAGAAACTGCGCCCGGTTCTGGATGCATTGTTCGGTACGGAAGAACCGGAGGACTGGCAGAAAATTGCCGCAGCGGTAGCGGTCAGCAGCCGGACTTCCGTTATTTCCGGCGGGCCCGGTACCGGTAAAACCACAACCGTTGCCCGTATTCTGGCGGCACTGGTGCAATCCGCCGCTGAGCCGCTGCTGATTGAACTGGCAGCACCGACCGGCAAAGCGGCAGCCCGCCTGACTGAATCACTGGGTGAGGCGATCGCGCAGCTTGATTTGACGGATGCACAGCGGGCCATGATGCCGGAGCAAGCCAAAACCCTGCACCGCCTGCTGGGCGCTCAGCCGGACAGCCGCCGGTTACGCCATCATCAGAAAAACCCGCTGATGTCGGATGTGCTGATTGTGGATGAAGCATCCATGGTCGATTTACCGATGATGGCGTCACTGATTGATGCACTGCCGGAGAACGCTATTCTGATCCTGCTGGGGGATAAAGATCAGCTGGCTTCGGTGGAAGCCGGGGCGGTGCTGGGGGATATCTGCCGTTTTGCTGAATCCGGTTACACACCACAGCGGCGGCAGGCGCTGGAGGCTATGACCGGCTGTGTGCTGCCGGATAAGTCGCCGGCGCATCCGGTCAATGTGCAGGATCACCTCTGCCTGCTGCGTAAAAGTTTCCGTTTTGATGCCGGTTCCGGCATCGGGCAACTGGCCACCGCAGTTAACAACGGCGATATCCGGGAAACCATGGCGGTTCTCGGCGGGCAGAGGCCGGATGTCCGTTATGTGCCGCTGGAGGATGAAGAAGGCTATGCTCAGGTACTGACAGACACCATGAAAGCCTATCTGCCGTTTTTATCACTGGTGAAACAGCATGCCGATCCTGCAGCGGTGCTTGATGCCTTCAGTCAGTTCCGGTTGTTGTGTGCGCTGCGTGAGGGACCGTTCGGTGTGGAAGGGCTGAATGAGCGTATTGAACGGCTGCTGCATCAGCAGGGGCATATCCGCCGTCCGCTGATACACCGGCACCGCGCCTATAACGGCAAACCGGTGATGATAAGCCGTAATGACAGCCCGCTGGGGCTGTTCAACGGTGATATCGGGATTATGCTGACGGATGAAAACCATGAGCTGCGGGTGTATTTCCGGCTGCCGGACGGCACTATCCGGAGTATCCGCCCGAGTCGTCTTCCGGCACACGAAACGGCGTATGTGATGACAGTGCATAAATCACAGGGCTCTGAGTTTGCTCATACCGCGCTGGTGCTGCCGGTGCAGCCTTCGCCGCTGGTCAGCCGTGAATTGCTGTATACGGCACTGACGCGGGCGAAGCAGTTTCTGACCATATACAGCCGGGAAGAGTGTGTTAAGCGGGCAGTGAAAACGCCGACTCAGCGGTACAGCGGGCTGAGCGGGCGTTTACGTTAGTCCGGCGGATTACTGAAAACCGAGGATCAGGATTTTTGAGCGCCGCTGAT