Homologs in group_2815

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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_09465	FBDBKF_09465	63.8	Morganella morganii S1	-	Pyosin/cloacin translocation domain-containing protein
EHELCC_09945	EHELCC_09945	63.8	Morganella morganii S2	-	Pyosin/cloacin translocation domain-containing protein
NLDBIP_10290	NLDBIP_10290	63.8	Morganella morganii S4	-	Pyosin/cloacin translocation domain-containing protein
LHKJJB_11065	LHKJJB_11065	63.8	Morganella morganii S3	-	Pyosin/cloacin translocation domain-containing protein
HKOGLL_14125	HKOGLL_14125	63.8	Morganella morganii S5	-	Pyosin/cloacin translocation domain-containing protein

Distribution of the homologs in the orthogroup group_2815

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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_2815

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Phylogeny of the RefSeq best hits of group_2815

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Swissprot accession	Eval	Score	ID (%)	N gaps	Alignment length	Annot score	Gene	Description	Organism

Number of RefSeq hits:

General

Source	Morganella psychrotolerans
Locus tag	F4V73_RS10515
Feature type	CDS
Gene	-
Product	hypothetical protein
Location	236082 - 236606 (strand: 1)
Length	525 (nucleotides) / 174 (amino acids)

Contig

Accession	term accessions NZ_VXKB01000002 accessions NZ_VXKB01000000 Name: value, dtype: object
Length	573139 nucleotides
Topology	linear
Plasmid	False

Orthology

Orthogroup	group_2815
Orthogroup size	6
N. genomes	6

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Genomic region

Protein Sequence

MLTTFKSVNMQKFKMYLLFSLPFVFPVSAAESSASYSVLKQSEPVFSETVNGIGVVVSASSDNLSSRFLSGRRGMPFPMDLTTLPEPIGKHFSGSKIPQGDVFASLPGVPVQEEGPGTQFYSDEIAQAYQAFFENKSINSFTEYTGDLERNLKSNQESNLLNTTTYLVIYSEKP

Flanking regions ( +/- flanking 50bp)

TAAGTTATTTCATTCAACTATTTTTATTTATCCGGGACGGGAATGTATTTATGTTAACAACATTTAAGTCTGTCAATATGCAAAAATTTAAAATGTATTTACTGTTTTCATTACCTTTTGTTTTTCCTGTTTCAGCGGCTGAATCTTCTGCATCATACTCAGTACTCAAACAGTCTGAACCTGTTTTTTCTGAAACGGTAAATGGCATTGGTGTTGTTGTTTCTGCATCTTCGGATAATTTGAGTTCCCGTTTTTTATCAGGACGGCGGGGAATGCCATTCCCTATGGATCTGACGACATTACCTGAACCGATCGGGAAACATTTCTCCGGCAGTAAAATACCACAAGGTGATGTTTTTGCTTCATTACCCGGCGTACCTGTTCAGGAGGAAGGCCCGGGAACGCAATTTTATTCTGATGAAATAGCGCAGGCATATCAGGCCTTTTTTGAAAATAAATCAATAAATTCTTTTACTGAATATACCGGGGATTTAGAGCGGAATCTTAAAAGTAATCAGGAAAGTAATTTGTTAAATACGACTACTTATCTTGTTATTTACAGTGAGAAGCCATAGTCCGGTATAACACAATCAGAATACAGTGACTTCTTTTACACCAATATAAA