Homologs in group_714

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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_03100	FBDBKF_03100	77.6	Morganella morganii S1	-	Glutamate synthase subunit alpha
EHELCC_07435	EHELCC_07435	77.6	Morganella morganii S2	-	Glutamate synthase subunit alpha
NLDBIP_07760	NLDBIP_07760	77.6	Morganella morganii S4	-	Glutamate synthase subunit alpha
LHKJJB_07295	LHKJJB_07295	77.6	Morganella morganii S3	-	Glutamate synthase subunit alpha
HKOGLL_03635	HKOGLL_03635	77.6	Morganella morganii S5	-	Glutamate synthase subunit alpha
F4V73_RS11820	F4V73_RS11820	75.4	Morganella psychrotolerans	gltB	glutamate synthase large subunit

Distribution of the homologs in the orthogroup group_714

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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_714

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Phylogeny of the RefSeq best hits of group_714

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P09831	0.0	2388	76	3	1487	1	gltB	Glutamate synthase [NADPH] large chain	Escherichia coli (strain K12)
E1V8I1	0.0	1741	58	8	1481	1	gltB	Glutamate synthase [NADPH] large chain	Halomonas elongata (strain ATCC 33173 / DSM 2581 / NBRC 15536 / NCIMB 2198 / 1H9)
P55038	0.0	1249	45	27	1527	1	gltS	Ferredoxin-dependent glutamate synthase 2	Synechocystis sp. (strain ATCC 27184 / PCC 6803 / Kazusa)
P55037	0.0	1247	44	18	1489	1	gltB	Ferredoxin-dependent glutamate synthase 1	Synechocystis sp. (strain ATCC 27184 / PCC 6803 / Kazusa)
Q9ZNZ7	0.0	1246	43	19	1531	1	GLU1	Ferredoxin-dependent glutamate synthase 1, chloroplastic/mitochondrial	Arabidopsis thaliana
P39812	0.0	1246	44	13	1476	1	gltA	Glutamate synthase [NADPH] large chain	Bacillus subtilis (strain 168)
P51375	0.0	1241	44	24	1512	3	gltB	Ferredoxin-dependent glutamate synthase	Porphyra purpurea
O19906	0.0	1241	44	24	1532	3	gltB	Ferredoxin-dependent glutamate synthase	Cyanidium caldarium
Q9T0P4	0.0	1241	43	20	1512	1	GLU2	Ferredoxin-dependent glutamate synthase 2, chloroplastic	Arabidopsis thaliana
Q1XDB2	0.0	1238	44	23	1514	3	gltB	Ferredoxin-dependent glutamate synthase	Neopyropia yezoensis
P23225	0.0	1234	43	18	1511	1	GLSF	Ferredoxin-dependent glutamate synthase, chloroplastic	Zea mays
Q43155	0.0	1227	42	20	1514	1	FdGOGAT	Ferredoxin-dependent glutamate synthase, chloroplastic	Spinacia oleracea
Q69RJ0	0.0	1226	42	18	1516	2	GLU	Ferredoxin-dependent glutamate synthase, chloroplastic	Oryza sativa subsp. japonica
Q05755	0.0	1224	45	18	1480	1	gltB	Glutamate synthase [NADPH] large chain	Azospirillum brasilense
Q9C102	0.0	1216	44	20	1500	1	glt1	Glutamate synthase [NADH]	Schizosaccharomyces pombe (strain 972 / ATCC 24843)
Q06434	0.0	1189	41	25	1533	3	gltB	Ferredoxin-dependent glutamate synthase	Antithamnion sp.
Q0DG35	0.0	1178	42	24	1528	2	Os05g0555600	Glutamate synthase 2 [NADH], chloroplastic	Oryza sativa subsp. japonica
P96218	0.0	1175	42	20	1506	1	gltB	Glutamate synthase [NADPH] large chain	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)
Q9LV03	0.0	1174	43	25	1530	1	GLT1	Glutamate synthase 1 [NADH], chloroplastic	Arabidopsis thaliana
Q03460	0.0	1168	42	21	1525	1	None	Glutamate synthase [NADH], amyloplastic	Medicago sativa
Q0JKD0	0.0	1153	43	25	1530	2	Os01g0681900	Glutamate synthase 1 [NADH], chloroplastic	Oryza sativa subsp. japonica
Q12680	0.0	1136	41	24	1515	1	GLT1	Glutamate synthase [NADH]	Saccharomyces cerevisiae (strain ATCC 204508 / S288c)
Q08258	1.73e-95	318	37	4	433	1	None	Ferredoxin-dependent glutamate synthase (Fragment)	Hordeum vulgare
B9KBQ2	2.79e-63	228	40	5	339	3	gltB	Archaeal-type glutamate synthase [NADPH]	Thermotoga neapolitana (strain ATCC 49049 / DSM 4359 / NBRC 107923 / NS-E)
O29309	6.19e-63	227	39	6	352	3	gltB	Archaeal glutamate synthase [NADPH]	Archaeoglobus fulgidus (strain ATCC 49558 / DSM 4304 / JCM 9628 / NBRC 100126 / VC-16)
B1L993	2.57e-62	225	39	5	339	3	gltB	Archaeal-type glutamate synthase [NADPH]	Thermotoga sp. (strain RQ2)
Q9WYM8	2.57e-62	225	39	5	339	3	gltB	Archaeal-type glutamate synthase [NADPH]	Thermotoga maritima (strain ATCC 43589 / DSM 3109 / JCM 10099 / NBRC 100826 / MSB8)
Q58746	1e-61	224	40	4	329	3	MJ1351	Archaeal glutamate synthase [NADPH]	Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440)
Q3Z7F6	2.73e-60	219	39	5	329	3	gltB	Archaeal-type glutamate synthase [NADPH]	Dehalococcoides mccartyi (strain ATCC BAA-2266 / KCTC 15142 / 195)
O34849	6.15e-21	102	29	10	322	3	yerD	Glutamate synthase large subunit-like protein YerD	Bacillus subtilis (strain 168)
O87392	5.68e-16	85	30	6	320	3	glxD	Glutamate synthase large subunit-like protein	Rhizobium meliloti (strain 1021)
P0CW43	0.000249	48	25	6	189	3	fwdC	Tungsten-containing formylmethanofuran dehydrogenase 2 subunit C	Methanococcus maripaludis (strain DSM 14266 / JCM 13030 / NBRC 101832 / S2 / LL)
P0CW42	0.000364	47	25	6	189	3	fwdC	Tungsten-containing formylmethanofuran dehydrogenase 2 subunit C	Methanococcus maripaludis
Q59579	0.000433	47	28	4	148	2	fwdC	Tungsten-containing formylmethanofuran dehydrogenase 2 subunit C	Methanothermobacter marburgensis (strain ATCC BAA-927 / DSM 2133 / JCM 14651 / NBRC 100331 / OCM 82 / Marburg)
Q58571	0.000742	47	31	3	107	3	fwdC	Tungsten-containing formylmethanofuran dehydrogenase 2 subunit C	Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440)

Number of RefSeq hits:

General

Source	Proteus mirabilis HI4320
Locus tag	PMI_RS18295
Feature type	CDS
Gene	gltB
Product	glutamate synthase large subunit
Location	4013447 - 4017904 (strand: -1)
Length	4458 (nucleotides) / 1485 (amino acids)

Contig

Accession	NC_010554
Length	4063606 nucleotides
Topology	circular
Plasmid	False

Orthology

Orthogroup	group_714
Orthogroup size	7
N. genomes	7

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Genomic region

Domains

PF00310	Glutamine amidotransferases class-II
PF01493	GXGXG motif
PF01645	Conserved region in glutamate synthase
PF04898	Glutamate synthase central domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG0069	Amino acid transport and metabolism (E)	E	Glutamate synthase domain 2

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K00265	glutamate synthase (NADPH) large chain [EC:1.4.1.13]	Alanine, aspartate and glutamate metabolism Nitrogen metabolism Metabolic pathways Biosynthesis of secondary metabolites Microbial metabolism in diverse environments Biosynthesis of amino acids	-

Protein Sequence

MLYQKTAEKENCGFGLIAHIEGKASHKIVRNAIHGLARMQHRGAILSDGKTGDGCGLLLQKPTRFFQLIAEENGWHLANNYAVGMLFLSQDNAIAAQCRQIVEEELQRETLSIVGWRKVPTNTDILGSIALSSLPSIEQIFVNAPAGWRINDIERRLFVARRRIEKRITDNDFYICSLSNLVTVYKGLCMAIDLPRFFTDLADLRMESSICLFHQRFSTNTTPKWPLAQPFRYLAHNGEINTITGNRQWARARAYKFHTPLIPDLQTAAPFVNESGSDSSSLDNMLELFLNGGMDIVRAMRLLVPPAWQNNPQMDDDLRAFFDFNSMHMEPWDGPAGIVLSDGRYAACTLDRNGLRPARYVITTDNIITCASEIGIWDYQPDEVLEKGRVGPGELMVIDTYQGRILHSAETDEDLKRRHPYKLWLERNVKRLIPFEQLPEPQATGERAFDDSLLATYQKQFAYSQEELETILHVLAENGQEATGSMGDDTPFAVLSQRPRLIYDYFRQKFAQVTNPPIDPLREAHVMSLATCIGREMNVFSEAEGQAHRLSFKSPILLYSDFQQLLNQESPYYSSITLDITYQPTENNLETALHILCETAQQAVNRGAVLLVLSDRNITQARLPIPAPMAVGAVQKALVDNNLRCDANIIVETASARDPHHFAVLLGFGATAIYPYLAYESLAQRVDKKILSGTYAQVMLNYRNGINKGLYKIMSKMGISTVASYRCSQLFEAVGLHDNVVKRCFDGVDNRINGADFSDFEQDLFNLSKRAWLTRYPLDAGGLLKYTHQGEYHAYNPDVVQALQKAVNSGDYADYQHYSQLVQQRPITTLRDLLALNDTTPIAIEDVEAESELFKRFDTAAMSIGALSKEAHEALAQAMNTLGGFSNSGEGGEDPARYNTNKVSRIKQIASGRFGVTPSYLMSADVLQIKVAQGAKPGEGGQLPGDKVTPYIAQLRYAVPGVTLISPPPHHDIYSIEDLAQLIFDLKQINPRALISVKLVSEPGVGTIATGVAKAYADLITIAGYDGGTGASPLTSVKYAGSPWELGLVEAQQALVANNLRHKVRLQVDGGLKTGVDIIKAAILGAESFGFGTGPMVALGCKYLRICHLNNCAMGVATQDETLRRQHFHGLPERVINYFRFIAQETRELMAQLGVRKITDLIGRTDLLSCLEGITSKQQKLSLTGLLETATSPTGKALYCQEHNDTYDKGELNQRIVAQTITGVEQKISQTHYFSIRNTDRSVGATLSGLIAKTYGESGLSATPIKLHFTGTAGQSFGVWNAQGVELTLVGDANDYVGKGMAGGRIVISPPVGSAFKAHQTTIMGNTCLYGATGGKLYASGLAGERFAVRNSGAIAVIEGVGDNGCEYMTGGIVCILGKTGINFGAGMTGGFAYLLDEDTTLSQRINNASIELLPVANYAILAEHLRGMIAEHVRLTGSQQGERLLSQWEYWSQHFKLVKPKSSDVHALLGHPRRSVAELRVQAQ

Flanking regions ( +/- flanking 50bp)

CCTTTTGCGCTCGTTCTTGAGGTGCCCATAAACTGAGTAGGAAGCAAACTATGCTCTATCAAAAAACAGCGGAAAAAGAGAATTGTGGTTTTGGGTTAATAGCCCATATTGAGGGGAAAGCCAGCCATAAAATTGTCAGAAATGCGATCCATGGCCTTGCCCGTATGCAACATCGTGGCGCGATCCTTTCTGATGGAAAAACCGGCGATGGTTGTGGGTTATTATTACAAAAACCAACGCGCTTTTTTCAGTTAATTGCCGAAGAAAATGGCTGGCATTTAGCGAACAATTACGCAGTAGGCATGCTGTTTCTAAGCCAAGATAATGCTATCGCTGCACAGTGCCGTCAAATTGTTGAAGAAGAATTGCAACGAGAAACACTCTCTATCGTTGGCTGGCGTAAAGTACCAACTAACACAGATATTTTAGGCAGTATCGCCCTCTCTTCTTTACCGTCAATAGAACAAATTTTTGTCAATGCACCTGCCGGATGGCGTATTAATGATATTGAGCGCCGCTTATTTGTCGCTCGTCGCCGAATTGAAAAACGTATTACCGATAATGATTTTTATATTTGTAGCCTCTCTAATTTAGTGACTGTCTATAAAGGGCTGTGCATGGCAATTGATTTGCCTCGCTTTTTTACTGACTTAGCGGATTTACGGATGGAATCGTCCATCTGTCTTTTTCATCAACGTTTTTCCACCAATACCACCCCAAAATGGCCGCTTGCGCAGCCCTTTCGCTATCTTGCCCATAATGGTGAAATCAATACCATTACCGGAAATCGTCAATGGGCAAGAGCAAGAGCCTATAAATTTCATACGCCGCTGATCCCCGATTTACAAACTGCAGCGCCTTTTGTAAATGAGAGTGGCTCAGACTCAAGCTCACTGGATAATATGCTCGAACTCTTTCTTAATGGGGGGATGGATATTGTCCGCGCTATGCGCCTATTAGTGCCACCCGCATGGCAAAATAATCCACAAATGGATGATGATCTACGTGCTTTTTTTGATTTTAACTCTATGCATATGGAGCCTTGGGATGGACCTGCGGGGATCGTGTTATCTGACGGTCGCTATGCAGCCTGTACACTCGATAGAAATGGCCTGCGTCCAGCTCGCTATGTTATCACGACCGATAATATTATTACCTGTGCTTCTGAAATTGGCATTTGGGATTATCAACCTGATGAAGTTCTAGAAAAAGGGCGTGTCGGCCCTGGCGAACTAATGGTAATAGATACTTATCAAGGTCGCATTTTACATTCTGCTGAAACTGACGAAGATTTAAAAAGGCGACACCCGTATAAACTTTGGTTGGAGCGTAACGTTAAACGCCTGATCCCTTTTGAGCAATTGCCTGAGCCACAAGCGACAGGAGAGCGCGCTTTTGATGATAGCTTACTGGCGACATACCAAAAACAGTTCGCTTATAGCCAAGAAGAGCTGGAAACGATTTTGCATGTACTGGCTGAAAATGGGCAGGAAGCCACCGGCTCGATGGGAGATGACACGCCTTTTGCCGTACTTTCTCAGCGCCCACGCTTAATTTATGACTATTTTAGACAAAAATTTGCGCAAGTGACCAATCCGCCGATTGATCCATTAAGAGAAGCGCATGTGATGTCTTTAGCAACCTGTATTGGTCGCGAAATGAATGTCTTTAGTGAAGCGGAAGGACAAGCCCATCGCCTCAGTTTTAAATCACCCATTTTGCTTTATAGTGATTTTCAACAATTACTCAATCAAGAAAGCCCTTATTATTCATCCATCACGCTAGATATCACCTATCAACCGACTGAAAATAATTTAGAAACCGCACTACACATCTTATGTGAAACGGCGCAACAAGCGGTTAATCGTGGTGCAGTATTACTGGTTTTATCCGACAGAAATATCACTCAAGCGCGATTACCTATTCCTGCGCCTATGGCAGTAGGCGCGGTACAAAAAGCCTTGGTAGATAATAATTTACGCTGTGATGCCAATATTATTGTTGAAACCGCAAGCGCCCGTGATCCCCACCACTTCGCTGTACTATTAGGTTTTGGCGCAACCGCTATTTACCCTTACTTGGCTTATGAATCCTTAGCGCAACGAGTCGATAAAAAAATATTGTCGGGTACTTATGCGCAAGTCATGCTCAATTATCGCAATGGGATCAACAAAGGTCTGTATAAGATAATGTCCAAAATGGGGATCTCCACCGTTGCCTCTTACCGTTGCTCACAGCTATTTGAAGCCGTAGGGTTGCATGATAATGTCGTTAAACGTTGCTTCGATGGGGTTGATAATCGTATTAACGGTGCAGATTTTAGCGATTTTGAACAAGACTTATTTAATCTATCCAAACGTGCTTGGCTAACTCGCTATCCTCTAGACGCTGGTGGGTTATTAAAATATACCCATCAAGGAGAATATCACGCCTATAATCCTGATGTGGTTCAAGCGTTGCAAAAAGCGGTAAATAGTGGTGACTATGCTGATTACCAACATTATTCCCAATTAGTGCAACAACGCCCTATTACCACCTTACGTGATCTATTAGCTCTCAATGACACAACCCCTATTGCAATTGAAGATGTCGAAGCAGAAAGTGAACTGTTTAAACGCTTTGATACTGCGGCGATGTCAATTGGTGCATTAAGTAAAGAAGCCCATGAAGCCCTTGCGCAAGCAATGAATACCTTAGGCGGATTTTCAAACTCTGGAGAAGGTGGTGAAGATCCGGCACGCTACAACACCAACAAAGTTTCGCGTATCAAACAGATAGCTTCAGGTCGTTTCGGTGTCACGCCGTCTTATCTAATGAGTGCCGATGTATTACAAATCAAAGTGGCACAAGGGGCAAAACCCGGTGAAGGTGGCCAGTTACCCGGTGATAAAGTTACGCCCTATATTGCGCAACTGCGTTATGCCGTACCGGGCGTCACACTGATTTCCCCGCCTCCCCATCATGATATCTACTCTATTGAAGATTTAGCACAACTGATTTTCGATTTAAAACAGATTAATCCCCGTGCGCTTATTTCTGTCAAACTGGTCTCTGAGCCGGGCGTTGGTACAATCGCCACCGGAGTCGCTAAAGCTTATGCAGACTTAATTACTATTGCAGGTTATGACGGCGGTACTGGTGCCAGCCCATTAACGTCAGTTAAATATGCAGGTAGCCCTTGGGAATTAGGGCTAGTAGAAGCGCAACAAGCATTAGTTGCCAACAATCTGCGTCATAAAGTGCGCTTACAAGTTGATGGTGGATTAAAAACGGGGGTTGATATTATAAAAGCGGCCATTTTAGGAGCTGAAAGTTTTGGTTTCGGTACCGGGCCAATGGTGGCGTTAGGCTGTAAATATCTGCGAATTTGCCATTTAAATAATTGCGCTATGGGGGTTGCAACCCAAGATGAAACCCTACGTCGCCAACATTTTCATGGTTTACCTGAGCGCGTTATCAACTATTTCCGCTTTATTGCCCAAGAAACCCGTGAACTTATGGCACAACTTGGCGTAAGGAAAATAACCGATTTAATCGGCAGAACGGATTTGCTTTCTTGCTTAGAGGGGATAACCAGTAAGCAGCAAAAATTATCACTCACAGGATTATTAGAAACCGCTACCTCTCCTACAGGTAAAGCGCTCTATTGTCAGGAGCACAATGATACTTATGATAAAGGAGAATTAAATCAACGTATTGTTGCGCAAACCATCACGGGCGTCGAACAAAAGATAAGCCAAACCCACTATTTTTCCATTCGTAACACAGACCGTTCAGTGGGAGCCACGTTATCCGGGCTCATTGCCAAAACCTATGGTGAAAGTGGTTTATCTGCTACACCAATAAAACTTCACTTTACGGGTACTGCTGGTCAAAGTTTTGGCGTCTGGAATGCGCAAGGGGTGGAATTAACCTTAGTGGGTGATGCCAATGATTATGTCGGGAAAGGCATGGCGGGTGGACGCATTGTTATTTCACCGCCAGTCGGTTCTGCCTTTAAAGCCCATCAGACCACGATTATGGGAAATACCTGTTTATATGGCGCAACAGGTGGAAAACTGTATGCATCTGGATTAGCGGGTGAACGTTTTGCAGTCAGAAACTCTGGCGCCATTGCGGTGATTGAAGGGGTTGGGGATAATGGCTGCGAATATATGACCGGCGGTATTGTCTGTATTCTTGGTAAAACAGGGATTAACTTTGGTGCAGGGATGACGGGGGGCTTTGCCTATCTGTTAGATGAAGATACCACACTATCACAACGGATCAATAACGCCTCTATTGAGCTTCTTCCCGTGGCTAATTATGCGATTTTGGCAGAGCATCTTCGCGGTATGATCGCAGAGCATGTACGGCTAACTGGCTCCCAACAAGGAGAAAGACTACTTTCTCAATGGGAATATTGGTCACAACACTTTAAATTAGTCAAACCTAAATCGAGTGATGTTCATGCCTTATTAGGTCATCCTCGCCGTTCAGTCGCTGAATTACGCGTTCAGGCACAATAGGAGAAAAATGATGGGTCAGAATGTGTATCAATTTATCGACTTAAATCGCG