Homologs in group_3022

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5 homologs were identified in 5 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_17960	FBDBKF_17960	100.0	Morganella morganii S1	cirA	Outer membrane receptor protein, Fe transport
NLDBIP_06695	NLDBIP_06695	100.0	Morganella morganii S4	cirA	Outer membrane receptor protein, Fe transport
LHKJJB_19295	LHKJJB_19295	100.0	Morganella morganii S3	cirA	Outer membrane receptor protein, Fe transport
HKOGLL_04695	HKOGLL_04695	100.0	Morganella morganii S5	cirA	Outer membrane receptor protein, Fe transport
PMI_RS12905	PMI_RS12905	100.0	Proteus mirabilis HI4320	-	TonB-dependent receptor

Distribution of the homologs in the orthogroup group_3022

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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_3022

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Phylogeny of the RefSeq best hits of group_3022

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
Q9JZN9	2.36e-13	77	25	6	227	1	NMB0964	Probable TonB-dependent receptor NMB0964	Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q9JZN9	9.93e-13	75	22	10	381	1	NMB0964	Probable TonB-dependent receptor NMB0964	Neisseria meningitidis serogroup B (strain ATCC BAA-335 / MC58)
Q6LLU3	0.000331	47	24	7	165	3	btuB	Vitamin B12 transporter BtuB	Photobacterium profundum (strain SS9)

Number of RefSeq hits:

General

Source	Morganella morganii S2
Locus tag	EHELCC_06375
Feature type	CDS
Gene	cirA
Product	Outer membrane receptor protein, Fe transport
Location	5328 - 7706 (strand: 1)
Length	2379 (nucleotides) / 792 (amino acids)

Contig

Accession	ZDB_216
Length	269970 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_3022
Orthogroup size	6
N. genomes	6

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Genomic region

Domains

PF07715	TonB-dependent Receptor Plug Domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG1629	Inorganic ion transport and metabolism (P)	P	Outer membrane receptor protein, Fe transport

Protein Sequence

MNIMKKSKLSIILLILLSSPLYGKENNQDKSQEKETSNDVITVKATSIKNKETFSSLLLNNREEIKGKQLEQIKTNTIGNTVSKVAGVQAEGFGPNAARPVIRSLSGNRVGILVNNLPINDVSFISGNMPIPVDMNRINEISISKSSEALLYGGSSSGGAIHLWDDRIMTQFPEKAISGAVTFNGSTNNGNGGSVNIKFSNKENWIFNLSGATKRVSKYKIPTRSKVGACYSYQQLKDHSALRDQCQVDMKVFTSRNPEAYPYISEFWKKYQVEYELSEDDKYTFKDKDYFSGIGYVDNEPNLRYKPGSPTSIEHVTPPKHYVENNNNEIPNSFLKSQSGNASLSYIGDDGYLGFSVTDFQTSYGVPGYAYLTTKTTRERYKPVSVSNSNRRIDIQGKHDHLAPFLRDSAFYYSYSESKDEELVGQIASSVFNTKSHQLALETAHTPLFNRLNGAFGINGNYRDLKTSGYDAYLPSVLTKEYGIYWVESLNLSPFELTAGYRKGYTQHNLNIPANYNRGRGQGSNLQNRHFDTSANTLALSFTPIDEWTLKLQQNISYRAPEINELYTHGPHYAYLIEEQGNSEFNTEKSKSIELSSVIEIGNFSNKLNLYKTDYSGFKFRRLTGISRGAGPVMEWDDTDLETKGLEYEFKYLYEMPHDHNLTFTLFGDFVENKSKRKLFIAGHYLPNLPNEKHGISIYYQHDELTAFSSATYYKKQKESGGLMYGGDMAFPSYTLVDAGIGKKYHLDKVDVSVDFIINNLTDTEARPASSQLKYLVPLPGRNYGINVKIDF

Flanking regions ( +/- flanking 50bp)

GTATTTACCTGGTCGTAATATTATCTTAGGCGCTACTCTTACATTCTAATATGAATATCATGAAAAAAAGTAAACTCTCTATTATTTTACTTATACTTTTGTCGTCTCCTTTATATGGAAAAGAGAATAATCAAGATAAAAGCCAAGAAAAAGAAACATCAAACGATGTTATTACTGTTAAAGCAACATCAATAAAAAACAAAGAGACATTCTCCTCTTTATTACTCAATAATCGAGAAGAGATAAAAGGAAAACAACTTGAACAAATAAAAACAAATACGATTGGTAATACCGTTTCAAAAGTTGCTGGTGTACAAGCGGAAGGTTTTGGCCCAAATGCGGCAAGGCCTGTTATTCGAAGTCTCTCTGGCAATAGAGTCGGGATTTTAGTTAATAATCTTCCGATTAATGATGTTTCATTTATTAGTGGGAATATGCCTATTCCTGTTGATATGAATAGAATTAACGAAATATCAATTAGTAAAAGCTCCGAAGCACTACTTTATGGTGGTAGCAGCAGTGGTGGTGCAATTCATTTGTGGGATGATCGAATAATGACACAGTTTCCTGAAAAAGCAATTTCAGGTGCCGTGACATTTAATGGTAGCACTAATAATGGTAACGGTGGATCAGTAAATATTAAATTCAGTAATAAAGAAAACTGGATTTTTAATCTTTCCGGTGCTACTAAACGAGTCTCAAAATATAAAATTCCAACACGCTCTAAAGTTGGTGCTTGCTATAGCTATCAACAGCTAAAAGACCACTCTGCATTACGTGATCAATGCCAAGTGGATATGAAAGTGTTTACTAGCCGTAACCCTGAAGCGTATCCTTACATTAGTGAGTTTTGGAAAAAATATCAGGTTGAATATGAGTTAAGCGAGGATGATAAATATACCTTTAAAGATAAGGACTATTTTTCAGGTATTGGTTATGTAGATAATGAACCTAACTTACGATATAAACCTGGTAGCCCCACATCTATTGAACATGTCACACCTCCAAAGCATTATGTTGAAAATAATAATAACGAAATTCCCAATAGCTTTTTAAAAAGCCAAAGTGGTAACGCATCACTCTCTTATATCGGAGATGACGGTTACTTAGGTTTTTCTGTCACTGATTTTCAAACATCGTATGGAGTGCCAGGCTATGCTTATCTCACAACTAAAACAACTCGAGAAAGGTATAAACCTGTTTCGGTTTCAAATAGTAATCGAAGAATAGATATACAAGGAAAACATGATCATTTAGCACCATTTTTAAGAGACAGTGCTTTTTATTATTCTTATTCTGAATCTAAAGATGAAGAGTTAGTCGGCCAAATTGCTTCATCGGTATTTAATACAAAAAGCCATCAGTTAGCTTTAGAAACTGCACATACTCCGCTATTTAATCGACTTAATGGTGCGTTTGGGATCAACGGTAATTATCGTGATCTGAAAACGTCTGGTTATGATGCTTATTTACCCAGTGTATTAACCAAAGAGTACGGAATATATTGGGTTGAATCGCTAAATTTATCTCCTTTTGAGCTCACTGCTGGATATCGTAAAGGTTACACTCAACATAATCTCAATATTCCAGCGAATTATAATCGTGGTAGAGGGCAAGGTTCTAATTTACAAAACCGTCATTTTGATACAAGTGCAAATACACTCGCTCTATCTTTTACACCAATTGATGAATGGACATTAAAACTACAACAAAATATTTCTTATCGAGCACCAGAAATTAATGAACTTTATACACATGGCCCTCATTATGCTTATTTAATTGAAGAACAAGGAAACAGTGAATTTAATACCGAAAAAAGCAAAAGTATTGAATTATCATCTGTTATTGAGATTGGCAATTTCTCTAATAAACTTAATTTGTATAAAACAGACTACAGTGGTTTTAAATTTAGACGATTAACGGGTATCAGTCGTGGTGCTGGTCCTGTTATGGAATGGGATGACACCGATCTTGAAACAAAAGGATTAGAATATGAATTTAAATATTTATATGAAATGCCTCATGATCACAATCTAACATTTACACTATTTGGTGATTTTGTCGAAAATAAAAGCAAAAGAAAACTGTTTATTGCAGGTCACTATTTGCCAAATTTACCTAATGAAAAGCATGGTATCAGTATTTATTACCAACATGATGAATTAACTGCATTTAGTAGTGCAACTTACTATAAAAAACAAAAAGAAAGCGGTGGGTTAATGTATGGTGGAGATATGGCCTTTCCTTCCTATACGTTAGTTGATGCGGGGATTGGCAAAAAATACCACCTTGATAAGGTAGATGTTTCGGTTGATTTTATTATTAATAATCTCACCGATACTGAAGCAAGACCTGCATCTTCTCAATTGAAATATTTAGTCCCATTACCGGGTCGAAATTATGGGATAAATGTCAAAATTGATTTTTAATATATTCTGATTTAATAAGATATAAAGTAAGTGAGGTACTCTATGGGTGC