Homologs in group_840

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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_04235	FBDBKF_04235	100.0	Morganella morganii S1	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
EHELCC_05525	EHELCC_05525	100.0	Morganella morganii S2	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
NLDBIP_05845	NLDBIP_05845	100.0	Morganella morganii S4	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
LHKJJB_02725	LHKJJB_02725	100.0	Morganella morganii S3	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
F4V73_RS08685	F4V73_RS08685	96.8	Morganella psychrotolerans	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
PMI_RS10085	PMI_RS10085	85.3	Proteus mirabilis HI4320	aceE	pyruvate dehydrogenase (acetyl-transferring), homodimeric type

Distribution of the homologs in the orthogroup group_840

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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_840

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Phylogeny of the RefSeq best hits of group_840

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P0AFG8	0.0	1578	83	0	887	1	aceE	Pyruvate dehydrogenase E1 component	Escherichia coli (strain K12)
P0AFG9	0.0	1578	83	0	887	1	aceE	Pyruvate dehydrogenase E1 component	Escherichia coli O157:H7
P57301	0.0	1377	73	0	887	3	aceE	Pyruvate dehydrogenase E1 component	Buchnera aphidicola subsp. Acyrthosiphon pisum (strain APS)
Q8K9T9	0.0	1361	71	0	884	3	aceE	Pyruvate dehydrogenase E1 component	Buchnera aphidicola subsp. Schizaphis graminum (strain Sg)
Q89AR0	0.0	1299	68	0	887	3	aceE	Pyruvate dehydrogenase E1 component	Buchnera aphidicola subsp. Baizongia pistaciae (strain Bp)
P45119	0.0	1289	67	4	889	3	aceE	Pyruvate dehydrogenase E1 component	Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd)
Q59097	0.0	1085	58	9	884	3	pdhA	Pyruvate dehydrogenase E1 component	Cupriavidus necator (strain ATCC 17699 / DSM 428 / KCTC 22496 / NCIMB 10442 / H16 / Stanier 337)
Q59637	0.0	1084	58	7	882	3	aceE	Pyruvate dehydrogenase E1 component	Pseudomonas aeruginosa (strain ATCC 15692 / DSM 22644 / CIP 104116 / JCM 14847 / LMG 12228 / 1C / PRS 101 / PAO1)
A0R0B0	0.0	919	51	9	882	1	aceE	Pyruvate dehydrogenase E1 component	Mycolicibacterium smegmatis (strain ATCC 700084 / mc(2)155)
P9WIS9	0.0	910	50	10	889	1	aceE	Pyruvate dehydrogenase E1 component	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)
P9WIS8	0.0	910	50	10	889	3	aceE	Pyruvate dehydrogenase E1 component	Mycobacterium tuberculosis (strain CDC 1551 / Oshkosh)
Q8NNF6	0.0	899	50	9	883	1	aceE	Pyruvate dehydrogenase E1 component	Corynebacterium glutamicum (strain ATCC 13032 / DSM 20300 / JCM 1318 / BCRC 11384 / CCUG 27702 / LMG 3730 / NBRC 12168 / NCIMB 10025 / NRRL B-2784 / 534)
Q2NKZ4	1.02e-07	59	32	4	160	2	TKTL2	Transketolase-like protein 2	Bos taurus
P10801	1.61e-07	51	57	0	42	4	None	Pyruvate dehydrogenase E1 component (Fragment)	Azotobacter vinelandii
P29401	2.04e-07	58	30	8	205	1	TKT	Transketolase	Homo sapiens
Q5R1W6	2.59e-07	58	30	8	205	2	TKT	Transketolase	Pan troglodytes
Q9D4D4	3.45e-07	57	30	4	160	1	Tktl2	Transketolase-like protein 2	Mus musculus
Q60HC7	4.52e-07	57	30	8	205	2	TKT	Transketolase	Macaca fascicularis
Q9H0I9	1.37e-06	55	30	4	167	1	TKTL2	Transketolase-like protein 2	Homo sapiens
Q5R4C1	1.69e-06	55	29	8	205	2	TKT	Transketolase	Pongo abelii
Q6B855	1.78e-06	55	29	9	230	2	TKT	Transketolase	Bos taurus
P0CZ16	2.35e-06	55	28	8	221	3	tktA	Transketolase	Rhodobacter capsulatus
D5AV94	2.7e-06	55	28	8	221	3	tktA	Transketolase	Rhodobacter capsulatus (strain ATCC BAA-309 / NBRC 16581 / SB1003)
P40142	5.12e-06	53	30	7	205	1	Tkt	Transketolase	Mus musculus
P50137	9.4e-06	53	30	8	205	1	Tkt	Transketolase	Rattus norvegicus
P21726	9.89e-06	53	28	6	219	3	cbbTP	Transketolase, plasmid	Cupriavidus necator (strain ATCC 17699 / DSM 428 / KCTC 22496 / NCIMB 10442 / H16 / Stanier 337)
Q5XAK5	1.44e-05	52	28	6	197	1	tkt	Transketolase	Streptococcus pyogenes serotype M6 (strain ATCC BAA-946 / MGAS10394)
Q8NZX4	1.45e-05	52	28	6	197	3	tkt	Transketolase	Streptococcus pyogenes serotype M18 (strain MGAS8232)
P21725	1.65e-05	52	28	6	219	3	cbbTC	Transketolase, chromosomal	Cupriavidus necator (strain ATCC 17699 / DSM 428 / KCTC 22496 / NCIMB 10442 / H16 / Stanier 337)
Q58094	1.67e-05	51	27	8	268	5	MJ0681	Putative transketolase N-terminal section	Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440)
P51010	0.000169	49	25	7	219	3	tkt	Transketolase 1	Xanthobacter flavus
A6VKQ4	0.000317	47	28	9	199	1	aptA	Apulose-4-phosphate transketolase subunit A	Actinobacillus succinogenes (strain ATCC 55618 / DSM 22257 / CCUG 43843 / 130Z)

Number of RefSeq hits:

General

Source	Morganella morganii S5
Locus tag	HKOGLL_06200
Feature type	CDS
Gene	aceE
Product	pyruvate dehydrogenase (acetyl-transferring), homodimeric type
Location	34398 - 37061 (strand: -1)
Length	2664 (nucleotides) / 887 (amino acids)

Contig

Accession	ZDB_683
Length	224720 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_840
Orthogroup size	7
N. genomes	7

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Genomic region

Domains

PF00456	Transketolase, thiamine diphosphate binding domain
PF17831	Pyruvate dehydrogenase E1 component middle domain
PF22613	Transketolase-like TK C-terminal domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG2609	Energy production and conversion (C)	C	Pyruvate dehydrogenase complex, dehydrogenase (E1) component

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K00163	pyruvate dehydrogenase E1 component [EC:1.2.4.1]	Glycolysis / Gluconeogenesis Citrate cycle (TCA cycle) Pyruvate metabolism Lipoic acid metabolism Metabolic pathways Biosynthesis of secondary metabolites Microbial metabolism in diverse environments Carbon metabolism 2-Oxocarboxylic acid metabolism	Pyruvate oxidation, pyruvate => acetyl-CoA

Protein Sequence

MSDILNNDVDPIETRDWLQAIESVIREEGVERAQFLIDQVLNTARQGGVSVAAGAAARNYINTIPVEDEPAYPGNLELERRIRSAIRWNAVMMVLRASKKDLDLGGHMASYQSAATMYEVCFNHFFRAQNEKDGGDVIYFQGHLSPGYYARAFMEGRLTEEQLNNFRQEIGGKGLPSYPHPKLMPNFWQFPTVSMGLGPLAAIYQAKFLKYLEHRGLKDTSEQTVYAFLGDGEMDEPESKGAINIAVRESLDNLIFVINCNLQRLDGPVNGNGKIVNEMEGMFAGAGWQVIKVMWGGRWDELLKKDTSGKLIQLMNETVDGDYQTFKSKDGAYVREHFFNRYPETAALVKDWTDEQIFALNRGGHDPKKMFAALKKAHDTKGKPTLILAQTVKGYGMGDTAEGKNIAHQVKKMNMEGVRHLRDRFNIDVADDQLEKLPFIKFDENSEEQKYMMERRAALHGPVPSRRSHFDEKLDIPALSDFSQLLEEQSKEISTTIAFVRALNVMLKNKSIKERIVPIIADEARTFGMEGLFRQIGIYNSKGQLYTPQDREQVAYYREDVKGQILQEGINELGAGASWLAAATSYSTNNLPMIPFYIYYSMFGFQRIGDLMWMAGDQQARGFLIGGTSGRTTLNGEGLQHEDGHSHIQSLTIPNCLSYDPSFAYEVAVIMQDGLERMYGEAQENIYYYITTLNENYHMPAMPEGVEEGIRKGIYKLETLTGDKGKVQLLGSGAILRHVREAGQILSSEYGISSDIYSVTSFTELAREGQDCDRWNMLHPSETPRVPYITQVMNDAPAVASTDWMKLFAEQVRGYVPADQYRVLGTDGYGRSDSRDNLRHHFEIDAGYVVVAALGELAKRGEVDVKVVEEAIKKFSINPEKVNPRVA

Flanking regions ( +/- flanking 50bp)

AGATAGGCTCCGAATATCATTAGAAACAGATAAACTATAAGGAATACACCATGTCAGACATTTTGAACAATGACGTGGATCCGATCGAAACCCGCGACTGGCTACAGGCGATCGAATCGGTCATCCGTGAAGAAGGTGTTGAGCGTGCACAGTTCCTGATTGATCAGGTTCTGAATACTGCCCGTCAGGGTGGTGTGAGTGTTGCAGCAGGTGCTGCGGCCCGTAACTACATCAACACCATTCCTGTTGAGGATGAACCTGCCTACCCGGGCAACCTGGAGCTGGAACGTCGTATCCGTTCTGCTATCCGCTGGAACGCGGTCATGATGGTTCTGCGCGCATCCAAGAAAGATCTGGATCTGGGCGGTCACATGGCATCTTACCAGTCTGCGGCTACCATGTATGAAGTGTGCTTCAACCACTTCTTCCGTGCGCAGAACGAAAAAGACGGCGGTGATGTTATTTATTTCCAGGGCCACTTAAGCCCGGGCTACTACGCACGCGCATTCATGGAAGGTCGTCTGACCGAAGAGCAGCTGAACAATTTCCGTCAGGAAATCGGCGGCAAAGGTCTGCCTTCTTATCCGCACCCTAAACTGATGCCTAACTTCTGGCAGTTCCCGACTGTTTCTATGGGTCTGGGGCCGCTGGCAGCTATCTATCAGGCTAAGTTCCTGAAATATCTGGAACACCGTGGTCTGAAAGACACTTCCGAGCAAACCGTTTATGCCTTCCTGGGTGATGGTGAGATGGATGAGCCGGAATCTAAAGGTGCAATCAATATCGCTGTCCGCGAAAGCCTGGACAACCTGATCTTCGTTATCAACTGTAACCTGCAGCGTCTTGACGGCCCTGTAAACGGTAACGGTAAAATCGTTAACGAAATGGAAGGTATGTTCGCAGGTGCCGGCTGGCAGGTAATCAAAGTCATGTGGGGCGGCCGCTGGGATGAACTGCTGAAGAAAGATACCAGCGGTAAACTGATCCAGCTGATGAACGAAACCGTTGACGGCGACTATCAGACATTCAAATCCAAAGACGGTGCTTACGTCCGTGAACACTTCTTCAACCGCTATCCGGAAACCGCTGCATTAGTCAAAGACTGGACTGATGAGCAGATTTTCGCACTGAACCGCGGTGGTCACGATCCGAAGAAAATGTTCGCTGCACTGAAAAAAGCGCATGACACCAAAGGCAAACCTACACTGATCCTGGCCCAGACCGTTAAAGGTTATGGTATGGGTGATACCGCTGAAGGTAAAAACATCGCTCACCAGGTTAAGAAAATGAACATGGAAGGCGTGCGCCATCTCCGTGATCGTTTCAATATCGATGTGGCTGATGATCAGCTGGAAAAACTGCCGTTCATCAAGTTTGACGAAAACTCTGAAGAGCAGAAATACATGATGGAACGCCGTGCGGCACTGCATGGTCCGGTTCCTTCACGCCGTTCTCATTTCGATGAGAAACTGGATATTCCTGCACTGAGCGATTTCAGCCAGTTACTGGAAGAGCAGAGCAAAGAAATCTCCACCACTATCGCGTTTGTGCGTGCACTGAACGTGATGCTGAAAAACAAATCCATCAAAGAACGCATCGTGCCAATCATTGCTGACGAAGCACGTACATTCGGTATGGAAGGTCTGTTCCGTCAGATCGGTATCTACAACTCCAAAGGTCAGCTGTATACCCCGCAGGACCGTGAGCAGGTTGCTTACTACCGTGAAGATGTGAAAGGTCAGATCCTGCAGGAAGGTATCAACGAACTGGGTGCAGGCGCATCCTGGCTGGCAGCTGCGACTTCTTACAGCACCAACAACCTGCCGATGATTCCGTTCTACATCTACTACTCAATGTTCGGTTTCCAGCGTATCGGTGACCTGATGTGGATGGCAGGCGACCAGCAGGCACGCGGCTTCCTGATCGGCGGTACTTCAGGCCGTACCACCCTGAACGGTGAAGGTCTGCAGCACGAAGACGGCCACAGCCACATTCAGTCTCTGACTATCCCTAACTGCCTGTCTTATGACCCGTCATTCGCGTACGAAGTTGCGGTCATCATGCAGGATGGTCTGGAGCGTATGTATGGTGAAGCGCAGGAAAACATTTACTACTACATCACCACGCTGAACGAAAACTACCACATGCCTGCAATGCCGGAAGGTGTTGAGGAAGGTATCCGTAAAGGTATCTACAAGCTCGAAACCCTGACCGGTGATAAAGGCAAGGTACAGTTACTGGGTTCAGGTGCGATTCTGCGTCACGTGCGTGAAGCAGGTCAGATTCTGTCTTCTGAGTACGGTATCAGCTCTGATATCTACAGCGTAACCTCGTTCACCGAACTGGCCCGTGAAGGTCAGGATTGTGACCGCTGGAACATGCTGCATCCGTCAGAAACCCCGCGCGTGCCTTACATCACTCAGGTGATGAACGATGCACCTGCTGTGGCGTCCACTGACTGGATGAAACTGTTCGCAGAACAGGTTCGCGGTTATGTTCCTGCTGACCAGTACCGTGTACTGGGTACTGACGGTTACGGCCGTTCAGACAGCCGTGATAACCTGCGTCATCATTTCGAAATCGATGCCGGTTACGTTGTTGTTGCTGCTCTGGGTGAGCTGGCTAAACGTGGTGAAGTTGACGTGAAAGTGGTTGAAGAAGCCATTAAGAAATTCAGCATCAACCCTGAAAAAGTTAACCCGCGTGTGGCATAAGAGGTAAAAATTAATGTCTATTGAAATCCATGTGCCCGATATCGGTTCAG