Homologs in group_517

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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_01090	FBDBKF_01090	90.0	Morganella morganii S1	yfaS	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family
EHELCC_00455	EHELCC_00455	90.0	Morganella morganii S2	yfaS	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family
NLDBIP_03005	NLDBIP_03005	90.0	Morganella morganii S4	yfaS	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family
LHKJJB_04520	LHKJJB_04520	90.0	Morganella morganii S3	yfaS	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family
HKOGLL_02525	HKOGLL_02525	90.0	Morganella morganii S5	yfaS	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family
PMI_RS09135	PMI_RS09135	62.8	Proteus mirabilis HI4320	-	alpha-2-macroglobulin

Distribution of the homologs in the orthogroup group_517

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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_517

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Phylogeny of the RefSeq best hits of group_517

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism
P76578	0.0	1868	55	10	1663	1	yfhM	Alpha-2-macroglobulin	Escherichia coli (strain K12)
Q9PDX7	0.0	896	34	26	1619	3	XF_1252	Alpha-2-macroglobulin	Xylella fastidiosa (strain 9a5c)
Q87E11	0.0	891	34	26	1619	3	PD_0518	Alpha-2-macroglobulin	Xylella fastidiosa (strain Temecula1 / ATCC 700964)
Q8ZDJ2	1.11e-62	241	22	52	1593	3	YPO2573	Alpha-2-macroglobulin homolog	Yersinia pestis
Q92HD6	5.92e-56	219	23	67	1617	3	RC0835	Alpha-2-macroglobulin	Rickettsia conorii (strain ATCC VR-613 / Malish 7)
Q9CMZ1	1.27e-49	198	20	55	1629	3	PM0659	Alpha-2-macroglobulin	Pasteurella multocida (strain Pm70)
Q8YM40	3.89e-23	111	21	44	1255	3	all5100	Alpha-2-macroglobulin homolog	Nostoc sp. (strain PCC 7120 / SAG 25.82 / UTEX 2576)
Q9X079	3.32e-09	65	21	11	321	3	TM_0984	Alpha-2-macroglobulin	Thermotoga maritima (strain ATCC 43589 / DSM 3109 / JCM 10099 / NBRC 100826 / MSB8)
Q8XV02	0.00038	49	22	24	598	3	RSc3030	Alpha-2-macroglobulin	Ralstonia nicotianae (strain ATCC BAA-1114 / GMI1000)
Q9HVT2	0.000698	48	24	13	296	3	PA4489	Alpha-2-macroglobulin homolog	Pseudomonas aeruginosa (strain ATCC 15692 / DSM 22644 / CIP 104116 / JCM 14847 / LMG 12228 / 1C / PRS 101 / PAO1)

Number of RefSeq hits:

General

Source	Morganella psychrotolerans
Locus tag	F4V73_RS07160
Feature type	CDS
Gene	-
Product	alpha-2-macroglobulin
Location	1487732 - 1492768 (strand: -1)
Length	5037 (nucleotides) / 1678 (amino acids)

Contig

Accession	term accessions NZ_VXKB01000001 accessions NZ_VXKB01000000 Name: value, dtype: object
Length	2012992 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_517
Orthogroup size	7
N. genomes	7

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Genomic region

Domains

PF00207	Alpha-2-macroglobulin family
PF01835	MG2 domain
PF07678	A-macroglobulin TED domain
PF07703	Alpha-2-macroglobulin bait region domain
PF11974	Bacterial alpha-2-macroglobulin MG3 domain
PF17962	Bacterial macroglobulin domain 6
PF17970	Bacterial Alpha-2-macroglobulin MG1 domain
PF17972	Bacterial Alpha-2-macroglobulin MG5 domain
PF17973	Bacterial Alpha-2-macroglobulin MG10 domain
PF21142	Bacterial alpha-2 macroglobulin MG2 domain
PF21765	A2MG, CUB domain

COG entry Annotation(s)

ID	Function(s) descr.	Function(s) cat.	Description
COG2373	General function prediction only (R)	R	Uncharacterized conserved protein YfaS, alpha-2-macroglobulin family

Kegg Ortholog Annotation(s)

KO	Description	Pathways	Modules
K06894	alpha-2-macroglobulin	-	-

Protein Sequence

MSFPIAGQGIGKKRCLAVLLASALALMGCDDTGSKTTAAGADDSAPANKSGTPSSSSSSSSASSKETKKTHDSASLAEMAKRYAGKDVTIIDTSEIQLDGANAMVVTFSIPLDPNQDFGQFARLVDVKNGKLEGAWELSDNLMELRMRHLPPSRELQLSIDRGVRGINERTLVNGYDAKLTTAEVTPSIGFASRGSLFPGDVIKGLPVFALNVDSIDVNFYRIKPDSLAAFLASWQYGNNLQYWNSDELLNNTDLVYTGRFDLNPQKNTRENMLIPLKDIKPLQDEGVYLAVMQQAGRYSYTMPATLFTLSDVGVSMHSYLNELDVFTQSLAKGSAIKGVEIRLLDSKGQLLSKGETDGSGHAKLDRGNDAALLLAIHNGQTSMIDLKNPALDLAEFDIAGPQGYAKQFFVFGPRDLYRPGETLIINGLLRDGDGHPVKDQPVKVDVLKNDGQVASTFVWQPENGLYQYKYEIPENIETGKLTLRFDLGDNTPRFYSVNVEDFMPERMALEIKTEKLPITAGQTADFELEGHYLYGAPAAGNQLTGQLFMRPDREAVAKLPGFEFGDIQEGNLTRTLDEFDETMSDNGEAAFTVSNDYWKEVKSPFKLILQASLMETGGRPVTRRADLAVWPAERMAGIRPVFAKKEIYDYRTDKYVSQFSLDQDSLAEFEIVYTDKQGNKLKADNLTARLIYERRDYYWRWSDSEGWSSNYDQKDLMMTGDPISIAKDGTAKVTVPVSWGAYRLEILDPSTGLTSSVRFWAGYSWQDNTGGTGAVRPDQVKLKLDKPDYRAGDKVKLNIAAPQAGKGYVLLESSDGPLWWQEVDVPEGGLDVEVPLNKEWTRHDLYATAVIIRPGDSSRQATVKRAVGILHIPMADPGRKIAVTLDSPSRIRPDQDLTVKVKANAQDGKAMPQKVNVLISAVDTGVLNITDYKTPDPYDAFFGRKRYSVDQYDVYGQLIEGEGRLGTLRFGGDGSDELDRGGLKPLNDVQIIAQQAAPVVLNEQGEGTVTLSIPDFNGELRLMAQAWTDEDFGHAQNKVIVAAPVISQMALPRFMAGGDNSQLTLDLTNLTDETQNLTVNFSAEGMINLKGAAVKDVTLTKGQRTSVNVPVEAVNGFGQGEVFMTVKGLKLPDNGSDVYKNSWKIGVRPAYPAETVSYSMSLGNAAEWALPADQLSGLESSTVSGELLLTSRPPLDISRFIRELYAYPYGCLEQTVSGLYPSLYSSEAELKKLGIKTQTDAGRRQAIMTGIPHLLGMQRSDGSFSLWDNTGSEEPWLTAYATDFLFRAGQRGFDVPASALSNANNRLLRYLQDRSVISSNYYGASDQMRFAVQAYAGYVLAQQQKAPLGALRQVYQRRDDASSGLALVQLGIALKKMGDADRGNEAIRLGVMKNRNSNTYTGDYGSNVRDDAMIIALLSESDSDAEQRFVKLQSLSNEIQNRRYFSTQESNALYLAGRHYLNQSEVPWSAVLNGEAPALSHDSALRENLTARQLQKGISVANRGDSQLYGRINIVGYPVQAPKPESEVLKIKRTYLDLNGNPISIDRLRSGDMVVVRLDIQADRNVPDALVVDLLPAGLELENQNLAASSASLSDSAPNLAEAIQDMQQATIRHTEYRDDRFVSQVVVEEYRPVTLVYLARAVTPGKYSVPAPQVESMYIPSWRAVGVTPATLEVVR

Flanking regions ( +/- flanking 50bp)

TAATACCGAACATGCGCCCGGGTTACGGGCTCCACCAGAAAGGATTGATTATGAGTTTTCCGATAGCAGGACAGGGTATCGGTAAGAAGCGCTGCCTGGCAGTGCTGCTTGCTTCAGCGCTGGCGCTCATGGGTTGTGATGACACCGGCAGTAAAACAACGGCGGCGGGCGCAGATGATTCCGCACCTGCCAATAAAAGTGGCACCCCTTCTTCATCTTCTTCTTCATCTTCCGCGTCATCCAAAGAAACTAAAAAAACACACGATTCAGCGTCTCTGGCAGAGATGGCGAAACGCTATGCCGGTAAAGATGTGACGATTATTGACACCTCCGAAATTCAGCTTGATGGCGCGAATGCTATGGTGGTCACATTTTCCATCCCGTTGGATCCGAATCAGGATTTCGGTCAGTTTGCCCGTCTGGTGGATGTTAAAAACGGTAAACTGGAAGGCGCGTGGGAACTGTCTGATAACCTGATGGAGCTGAGAATGCGCCATCTTCCGCCATCCCGCGAGCTGCAATTAAGCATTGATCGCGGTGTGCGCGGTATTAATGAACGCACATTGGTTAACGGTTATGACGCAAAACTTACCACGGCAGAAGTGACGCCGAGCATCGGCTTTGCCAGCCGTGGTTCACTGTTCCCGGGTGATGTAATTAAAGGGCTGCCGGTTTTTGCCCTGAATGTGGACAGTATTGATGTCAATTTCTACCGCATCAAACCGGACTCCCTGGCGGCATTCCTCGCGAGCTGGCAATACGGAAACAATCTCCAGTACTGGAATTCTGATGAGCTCCTTAATAATACGGATCTCGTTTATACCGGGCGTTTTGATCTCAATCCGCAGAAAAACACCCGCGAAAACATGCTTATCCCGCTCAAAGACATCAAGCCGTTGCAGGATGAAGGTGTGTATCTGGCGGTGATGCAGCAGGCAGGGCGCTACAGTTACACCATGCCTGCCACACTCTTTACCCTGAGTGATGTCGGCGTGTCGATGCACAGCTATCTCAATGAACTGGATGTCTTTACCCAGTCGCTGGCAAAAGGCAGTGCAATCAAAGGTGTGGAAATCCGTTTGCTCGACAGCAAAGGTCAGTTACTCAGCAAAGGGGAAACTGACGGCAGCGGGCATGCAAAACTGGATCGCGGCAATGACGCGGCGCTGTTACTGGCTATCCATAACGGGCAGACCAGTATGATTGACCTGAAAAACCCGGCGCTGGATTTGGCTGAGTTTGATATCGCCGGTCCGCAGGGCTATGCAAAACAATTTTTTGTTTTCGGTCCGCGTGACCTTTACCGCCCGGGTGAGACATTAATTATCAACGGCCTGCTGCGTGATGGTGACGGGCATCCGGTAAAAGATCAGCCGGTGAAAGTTGATGTACTGAAAAATGACGGACAAGTGGCATCCACCTTTGTCTGGCAGCCGGAAAACGGGCTGTATCAGTATAAATATGAGATCCCTGAGAATATTGAAACCGGCAAACTGACGCTGCGTTTTGATCTCGGTGATAACACGCCGCGCTTCTACAGTGTCAATGTGGAAGATTTCATGCCTGAGCGCATGGCGCTTGAAATCAAGACAGAAAAACTGCCGATCACCGCAGGGCAAACTGCTGATTTTGAGCTTGAAGGTCATTATCTTTATGGCGCACCGGCTGCCGGTAACCAACTGACCGGGCAGCTCTTTATGCGTCCGGATCGCGAAGCGGTCGCTAAACTGCCGGGCTTTGAATTCGGTGACATTCAGGAGGGCAATCTGACCCGTACCCTGGATGAATTCGATGAAACCATGAGCGACAACGGGGAAGCGGCATTCACTGTCAGTAATGATTACTGGAAAGAGGTGAAATCACCGTTCAAATTAATTCTTCAGGCAAGCCTGATGGAAACCGGCGGTCGTCCTGTCACCCGCCGCGCAGATCTTGCGGTCTGGCCGGCAGAAAGAATGGCGGGGATCCGCCCGGTCTTTGCGAAAAAAGAAATTTACGACTACCGCACAGACAAATATGTGTCTCAGTTCAGTCTGGATCAGGACTCCCTGGCGGAGTTTGAAATTGTTTATACGGACAAGCAGGGTAATAAATTAAAAGCCGATAATCTGACCGCCCGCCTGATTTACGAGCGCCGCGACTATTATTGGCGCTGGTCAGATTCTGAAGGTTGGTCATCTAATTATGACCAGAAAGACCTGATGATGACCGGTGACCCGATTTCCATCGCGAAAGACGGTACGGCAAAAGTGACGGTTCCGGTGTCATGGGGCGCGTATCGCCTGGAAATTCTGGACCCGTCGACCGGGCTGACCAGCAGCGTGCGCTTCTGGGCGGGTTATTCCTGGCAGGATAACACCGGCGGCACCGGTGCTGTGCGTCCGGATCAGGTCAAACTGAAACTCGACAAACCGGATTACCGCGCAGGCGACAAAGTAAAACTGAATATCGCCGCACCGCAGGCGGGTAAAGGCTATGTGTTACTTGAATCAAGTGATGGTCCGCTGTGGTGGCAGGAAGTGGATGTACCGGAAGGCGGGCTGGATGTCGAGGTTCCGCTGAACAAAGAGTGGACGCGCCATGACCTGTATGCGACAGCGGTAATCATCCGTCCGGGTGATAGTTCCCGCCAGGCGACCGTTAAACGTGCGGTCGGTATTCTGCATATTCCGATGGCTGATCCGGGTCGTAAAATTGCGGTCACACTGGATTCACCGTCCCGCATTCGTCCTGACCAGGATCTGACAGTTAAAGTCAAAGCAAATGCACAGGACGGCAAAGCCATGCCGCAGAAAGTGAATGTGCTTATCTCCGCCGTGGATACCGGGGTGCTGAATATCACTGACTATAAAACGCCGGACCCTTATGATGCGTTCTTCGGGCGCAAGCGCTACAGCGTGGATCAGTATGATGTCTATGGTCAGTTGATTGAGGGTGAAGGGCGTCTCGGCACGCTGCGTTTCGGGGGCGATGGTAGTGATGAACTGGATCGCGGTGGTCTGAAACCGCTCAATGATGTGCAGATTATCGCACAGCAGGCAGCCCCGGTTGTTCTCAATGAGCAGGGCGAAGGCACGGTCACTTTATCCATCCCTGATTTCAACGGCGAACTGCGTCTGATGGCGCAGGCGTGGACAGATGAAGATTTTGGTCACGCACAGAATAAAGTGATTGTTGCGGCACCGGTTATCAGCCAGATGGCGTTACCGCGCTTTATGGCGGGCGGTGATAATTCACAACTGACATTAGATCTGACTAACCTGACGGATGAAACACAGAATCTGACCGTTAATTTCAGCGCAGAGGGCATGATCAACCTGAAAGGTGCTGCTGTGAAAGACGTGACACTGACCAAAGGTCAGCGCACCTCTGTCAATGTCCCGGTGGAAGCGGTTAACGGCTTTGGTCAGGGCGAAGTCTTTATGACCGTCAAAGGGCTGAAACTGCCTGATAACGGCAGTGACGTCTACAAAAACAGCTGGAAAATCGGCGTGCGTCCGGCGTATCCGGCAGAAACTGTTTCTTATTCCATGTCGCTCGGCAACGCCGCTGAGTGGGCATTACCGGCCGATCAGCTCAGTGGTCTGGAAAGCTCGACAGTGTCCGGTGAATTACTGCTGACCAGCCGTCCGCCACTGGATATCTCGCGCTTTATCCGCGAGCTGTATGCCTATCCGTACGGTTGTCTGGAACAGACAGTCAGCGGGTTGTATCCGTCACTTTATTCGTCGGAAGCTGAACTGAAAAAACTGGGGATCAAAACCCAGACCGATGCCGGACGCCGCCAGGCGATTATGACCGGTATTCCGCATCTGCTGGGAATGCAGCGCAGTGACGGCAGTTTCTCTCTGTGGGATAACACCGGGTCGGAAGAGCCGTGGCTGACAGCGTACGCGACAGACTTCCTGTTCCGTGCCGGACAGCGCGGGTTTGATGTTCCGGCATCAGCACTGAGCAATGCCAACAACCGTTTGCTGCGCTATTTGCAGGATCGCTCTGTTATCAGCAGCAACTACTACGGGGCAAGTGATCAAATGCGCTTTGCCGTTCAGGCGTATGCCGGTTATGTGCTGGCACAACAGCAGAAAGCCCCGCTGGGCGCGCTGCGTCAGGTGTATCAGCGCCGTGATGATGCAAGCAGCGGACTGGCACTGGTTCAGCTCGGTATCGCCCTGAAAAAAATGGGTGATGCAGACCGTGGTAATGAAGCTATCCGCCTCGGCGTGATGAAAAACCGCAACAGCAACACCTATACCGGTGATTACGGCAGCAATGTCCGTGATGATGCAATGATTATTGCGCTGCTCAGTGAGTCAGATTCTGATGCAGAACAGCGCTTTGTGAAATTGCAGTCGCTGTCCAATGAGATACAGAACCGCCGCTACTTCTCCACTCAGGAAAGTAACGCGCTGTATCTTGCCGGTCGTCATTATCTCAATCAGAGCGAAGTGCCGTGGTCTGCGGTACTGAACGGCGAAGCACCTGCTCTCAGCCACGATAGTGCGCTGCGTGAAAACCTGACCGCACGTCAGTTGCAGAAGGGCATCAGCGTGGCGAACAGAGGTGACAGTCAACTCTATGGGCGCATCAATATTGTGGGTTATCCTGTTCAGGCACCAAAACCGGAATCTGAAGTCCTGAAGATTAAACGGACGTATCTGGATCTCAATGGTAACCCAATCAGTATTGATCGTCTGCGCAGCGGCGATATGGTTGTGGTACGTCTGGATATTCAGGCGGATCGCAACGTGCCGGATGCGCTGGTGGTTGATTTGTTACCGGCCGGTCTGGAGCTGGAAAATCAGAATCTGGCGGCAAGCAGCGCCAGCCTGAGTGACAGCGCGCCAAACCTGGCAGAAGCGATTCAGGATATGCAGCAGGCGACAATCCGCCACACGGAATATCGTGATGACCGCTTTGTGTCTCAGGTGGTGGTTGAAGAGTACCGCCCGGTAACACTGGTTTATCTGGCGCGTGCTGTGACGCCGGGTAAATACAGCGTGCCTGCGCCACAGGTGGAATCCATGTATATTCCGTCCTGGCGTGCAGTCGGTGTGACACCTGCAACACTGGAAGTTGTCCGTTAAATAGCCATATGGTTATCCTCAGTCCCTTATACCGTTTTATAGGTAAATTC