Homologs in group_4297

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0 homologs were identified in 0 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

Distribution of the homologs in the orthogroup group_4297

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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_4297

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Phylogeny of the RefSeq best hits of group_4297

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P55706	0.0	598	48	3	606	3	NGR_a00750	Uncharacterized protein y4xN	Sinorhizobium fredii (strain NBRC 101917 / NGR234)
Q2FW70	7.96e-28	122	25	11	424	1	sfnaD	D-ornithine--citrate ligase	Staphylococcus aureus (strain NCTC 8325 / PS 47)
Q81RQ8	3.38e-23	107	24	13	410	1	asbB	Citryl-spermidine/3,4-dihydroxybenzoyl-citryl-spermidine:spermidine ligase	Bacillus anthracis
Q2FW72	2.78e-22	104	23	15	477	1	sfnaB	Staphyloferrin A synthase	Staphylococcus aureus (strain NCTC 8325 / PS 47)
Q2G1M8	5.28e-21	100	25	9	400	1	sbnF	2-[(L-alanin-3-ylcarbamoyl)methyl]-3-(2-aminoethylcarbamoyl)-2-hydroxypropanoate synthase	Staphylococcus aureus (strain NCTC 8325 / PS 47)
B6EP94	5.85e-17	88	24	7	322	1	bibC	Bisucaberin biosynthesis protein C	Aliivibrio salmonicida (strain LFI1238)
Q47318	1.6e-16	86	26	13	323	1	iucC	Aerobactin synthase	Escherichia coli
Q0HWI9	2.12e-16	86	24	8	321	1	pubC	Putrebactin synthase	Shewanella sp. (strain MR-7)
P0DXD6	3.53e-16	85	24	8	321	1	pubC	Putrebactin synthase	Shewanella sp. (strain MR-4)
Q2G1N1	1.77e-14	80	21	12	425	1	sbnC	Staphyloferrin B synthase	Staphylococcus aureus (strain NCTC 8325 / PS 47)
Q2G1M9	1.43e-13	77	22	15	446	1	sbnE	L-2,3-diaminopropanoate--citrate ligase	Staphylococcus aureus (strain NCTC 8325 / PS 47)
A0A0F7RJ52	9.66e-11	68	28	12	246	1	asbA	Spermidine-citrate ligase	Bacillus anthracis
Q9Z3Q7	1.06e-09	65	21	9	323	3	rhbF	Rhizobactin siderophore biosynthesis protein RhbF	Rhizobium meliloti (strain 1021)
Q9Z3R0	9.84e-09	62	23	12	345	3	rhbC	Rhizobactin siderophore biosynthesis protein RhbC	Rhizobium meliloti (strain 1021)
Q76BS5	2.14e-08	60	24	13	342	1	iucC	Aerobactin synthase	Vibrio mimicus
A0A397HK89	3.28e-07	57	23	11	317	1	ankE	NRPS-independent siderophore synthetase-like protein ankE	Aspergillus thermomutatus
Q76BS7	4.94e-06	53	23	14	329	1	iucA	N(2)-citryl-N(6)-acetyl-N(6)-hydroxylysine synthase	Vibrio mimicus
I1C129	5.3e-06	53	25	10	261	1	rfs	NRPS-independent siderophore synthetase rfs	Rhizopus delemar (strain RA 99-880 / ATCC MYA-4621 / FGSC 9543 / NRRL 43880)
Q47316	0.000114	48	22	13	313	1	iucA	N(2)-citryl-N(6)-acetyl-N(6)-hydroxylysine synthase	Escherichia coli

Number of RefSeq hits:

General

Source	Proteus mirabilis HI4320
Locus tag	PMI_RS01125
Feature type	CDS
Gene	-
Product	IucA/IucC family protein
Location	275588 - 277471 (strand: 1)
Length	1884 (nucleotides) / 627 (amino acids)

Contig

Accession	NC_010554
Length	4063606 nucleotides
Topology	circular
Plasmid	False

Orthology

Orthogroup	group_4297
Orthogroup size	1
N. genomes	1

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Genomic region

Domains

PF04183	IucA / IucC family
PF06276	Ferric iron reductase FhuF-like transporter

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG4264	Inorganic ion transport and metabolism (P)	P	Siderophore synthetase component IucA/IucC/SbnC

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K23446	D-ornithine---citrate ligase [EC:6.3.2.58]	Biosynthesis of various other secondary metabolites Metabolic pathways Biosynthesis of secondary metabolites	Staphyloferrin A biosynthesis, L-ornithine => staphyloferrin A

Virulence factor Annotation(s)

VF gene ID	Protein	VF ID	Category
VFG044283	IucA/IucC family siderophore biosynthesis protein	VF1252	Nutritional/Metabolic factor

Protein Sequence

MMETVEKKSIAGQQTAIQTDFSTRNALARIIRCLFAEKLLDDNKLQVFNDENNVKYPLSDGIHILQFNQTTVFPANTVINRGDIILKSMDGRHRMVQSHEELMGILKNELSFTPTTEGMTKFNKDVANSIHNDRLARAHRSKWRDTISNEMAQEGTSCFIEWITRHYSRRDGATFLDQWGALEGHSYYPTWKSRPGLSDDDIVALSAEFGARVNLRIAAIQSDMVYCEKMPHIQDIHQWFSSAFPTVWNKWCEWLTSQYQNPQKWLPIPLHPWHLEHWIIAHFSKEIDEGILLPLGPQLETAASMSFRTMLPTASRSPFIKLPVAIWMTSEMRSLQAKSIHMGPRISTIIEDILRVDKDFDGKLDFFREEVAWHFRHNVRMDDAEGKFLSVVFRDTQAWERNDNLIAITVASLFTELPHKPQPLISELIALSGDLPETWFRNYTKVILKPVLAMYLIYGIALEAHQQNTQVLFDDSGRAVTMLIRDFGDGRSWAPALRQQGYELQPYIWPGILPTVFEDDIEPVRTFVVDACLVSHLHEIALCLTQLYDIPDTRIWTVIGEELELVFKALQPRVEADFWHKEREHFLHHPWYTRSLMSMHLQQYTDYRLQHGLNNPLAGEQVDNSKI

Flanking regions ( +/- flanking 50bp)

GATAGATAAATTTAAATTAATTGTTTAAGCCTTATTTCTTTGGGAGAAAAATGATGGAGACGGTAGAGAAAAAGAGTATTGCAGGGCAACAAACTGCTATACAAACAGATTTTTCAACACGTAATGCCCTTGCTCGTATCATTCGCTGTCTTTTTGCAGAAAAATTATTGGATGATAATAAACTGCAAGTTTTCAATGATGAAAATAACGTTAAGTACCCGCTTTCTGATGGGATACATATCCTTCAATTTAATCAAACGACCGTTTTTCCTGCAAATACCGTTATTAATCGCGGTGATATTATCCTTAAATCAATGGATGGCCGCCACCGAATGGTGCAATCCCATGAAGAACTTATGGGGATACTGAAAAATGAACTTAGTTTCACCCCTACAACGGAGGGAATGACAAAATTCAATAAAGATGTAGCAAACAGTATCCATAATGATCGATTAGCTAGAGCACATCGGTCAAAGTGGCGGGATACGATTTCTAATGAGATGGCACAAGAGGGAACATCTTGTTTTATTGAATGGATAACTCGTCATTACAGTCGGCGTGATGGTGCAACTTTTCTCGATCAGTGGGGTGCGCTTGAAGGTCATTCTTATTACCCAACTTGGAAGTCTAGACCCGGTTTAAGCGATGATGATATTGTCGCACTATCAGCTGAATTTGGTGCACGAGTTAATCTGCGTATCGCAGCCATACAAAGCGATATGGTTTATTGTGAGAAGATGCCCCATATTCAGGATATCCATCAATGGTTTTCATCGGCTTTTCCAACCGTTTGGAATAAATGGTGTGAGTGGCTTACAAGTCAATATCAAAACCCACAAAAATGGTTACCTATTCCTCTGCATCCTTGGCATCTTGAACACTGGATCATTGCGCATTTCTCAAAAGAAATAGATGAAGGCATTCTTCTACCATTAGGCCCTCAACTTGAGACCGCGGCATCCATGTCGTTTAGAACCATGCTTCCTACCGCATCTAGATCACCCTTTATCAAATTACCTGTTGCTATCTGGATGACTAGCGAAATGCGCAGCCTTCAAGCCAAATCTATTCATATGGGGCCACGTATTAGTACGATTATTGAGGATATTTTGCGGGTGGATAAGGATTTTGATGGCAAGCTGGACTTTTTCCGAGAAGAAGTGGCGTGGCATTTTCGTCATAACGTACGTATGGATGACGCTGAAGGTAAGTTTCTCTCGGTTGTATTTCGTGATACGCAAGCATGGGAAAGAAACGATAATTTAATCGCTATCACAGTTGCATCATTATTTACTGAGCTCCCACATAAACCCCAACCCCTTATTAGCGAGCTGATCGCATTATCAGGCGACTTACCTGAAACATGGTTTCGTAATTATACCAAAGTCATACTGAAACCCGTTTTAGCGATGTATTTAATTTATGGCATTGCCCTTGAGGCACACCAACAAAATACGCAAGTTTTATTTGATGATTCCGGTCGTGCGGTCACCATGCTTATTCGTGATTTTGGTGATGGACGCAGTTGGGCTCCAGCACTGCGTCAGCAAGGATATGAGCTTCAACCTTATATCTGGCCCGGCATTTTACCCACGGTGTTTGAAGATGATATTGAACCTGTCAGAACCTTCGTTGTAGATGCTTGTCTTGTCAGCCATTTACATGAAATTGCGCTTTGTTTAACTCAACTTTATGACATCCCTGATACCCGCATATGGACTGTGATCGGCGAAGAGCTTGAACTTGTGTTTAAAGCACTTCAACCCAGAGTAGAGGCGGATTTTTGGCACAAAGAGCGTGAACATTTTCTCCACCACCCTTGGTATACCCGCTCATTAATGAGCATGCATTTACAGCAATATACTGATTACCGTCTTCAGCATGGACTTAACAATCCGTTAGCTGGTGAACAAGTAGATAACTCTAAGATCTGAGAGAATAATAATGATCACAAACAAACATTTTTTAGCATTGACTATTGCAG