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
EHELCC_09945 EHELCC_09945 100.0 Morganella morganii S2 - Pyosin/cloacin translocation domain-containing protein
NLDBIP_10290 NLDBIP_10290 100.0 Morganella morganii S4 - Pyosin/cloacin translocation domain-containing protein
LHKJJB_11065 LHKJJB_11065 100.0 Morganella morganii S3 - Pyosin/cloacin translocation domain-containing protein
HKOGLL_14125 HKOGLL_14125 100.0 Morganella morganii S5 - Pyosin/cloacin translocation domain-containing protein
F4V73_RS10515 F4V73_RS10515 63.8 Morganella psychrotolerans - hypothetical 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 the RefSeq best hits of group_2815

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

  • Number of RefSeq hits:

General

Source Morganella morganii S1
Locus tag FBDBKF_09465
Feature type CDS
Gene -
Product Pyosin/cloacin translocation domain-containing protein
Location 120452 - 120976 (strand: -1)
Length 525 (nucleotides) / 174 (amino acids)

Contig

Accession contig_10
Length 146103 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_2815
Orthogroup size 6
N. genomes 6

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Genomic region

Protein Sequence

MFMSYKKFNMKKIRLYLLFSLPFIFPVSVAVSSASKPVVRQSEPVISETIEGIGAVVAVSPDDLRNRFLSGRRGMPFPMDLTTLPEPAGKMPPGSRIPHSDVFSTLPAVPVQRDESGDQFYSDEIAGAWQAFFDNNGYDVQTGFGGDLEKDLKNNQKNNLLNTSSYMVIYDEKP

Flanking regions ( +/- flanking 50bp)

AAATTATTTTATCATCATTAACTCTGAAAATCCGGGGCCGGGACATATTTATGTTTATGTCATATAAAAAATTTAATATGAAAAAAATAAGATTATATCTGCTGTTTTCCTTACCGTTTATTTTTCCGGTTTCAGTTGCAGTATCCTCTGCATCAAAACCGGTGGTCAGACAATCTGAGCCGGTAATATCGGAAACAATAGAGGGTATAGGGGCAGTTGTCGCCGTGTCTCCGGATGATCTCAGAAACCGCTTTTTATCCGGCAGACGGGGCATGCCGTTTCCGATGGATCTGACCACACTGCCGGAGCCTGCCGGAAAAATGCCGCCCGGCAGCCGGATCCCGCACAGTGATGTGTTCAGTACATTACCGGCGGTTCCGGTGCAGCGCGATGAATCCGGTGATCAGTTTTACTCGGATGAGATCGCCGGTGCCTGGCAGGCATTCTTCGATAACAACGGGTACGATGTACAAACCGGATTCGGCGGTGACCTGGAAAAAGATCTGAAAAATAATCAAAAAAATAACTTATTAAATACCAGCAGTTATATGGTTATCTATGATGAGAAACCATAGGTTTATCTTATGCAGTTCTGTTCAGATGTATTTGTTGTCACTTTAAACCT