Homologs in group_2088

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6 homologs were identified in 4 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_15680 FBDBKF_15680 100.0 Morganella morganii S1 - Transposase
FBDBKF_20205 FBDBKF_20205 88.2 Morganella morganii S1 - Integrase
EHELCC_16035 EHELCC_16035 100.0 Morganella morganii S2 - Transposase
EHELCC_19570 EHELCC_19570 88.2 Morganella morganii S2 - Integrase
NLDBIP_16330 NLDBIP_16330 100.0 Morganella morganii S4 - Transposase
LHKJJB_16470 LHKJJB_16470 100.0 Morganella morganii S3 - Transposase

Distribution of the homologs in the orthogroup group_2088

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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_2088

Swissprot accession Eval Score ID (%) N gaps Alignment length Annot score Gene Description Organism
P18416 2.4e-24 109 22 13 439 4 None Transposase for transposon Tn552 Staphylococcus aureus
P13989 3.57e-14 79 27 10 297 1 tnsB Transposon Tn7 transposition protein TnsB Escherichia coli

  • Number of RefSeq hits:

General

Source Morganella morganii S5
Locus tag HKOGLL_16240
Feature type CDS
Gene -
Product Transposase
Location 69923 - 71605 (strand: 1)
Length 1683 (nucleotides) / 560 (amino acids)

Contig

Accession ZDB_696
Length 80662 nucleotides
Topology linear
Plasmid False

Orthology

Orthogroup group_2088
Orthogroup size 7
N. genomes 5

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Genomic region

Domains

PF09299 Mu transposase, C-terminal

COG entry Annotation(s)

ID Function(s) descr. Function(s) cat. Description
COG2801 Mobilome: prophages, transposons (X) X Transposase InsO and inactivated derivatives

Kegg Ortholog Annotation(s)

KO Description Pathways Modules
K07497 putative transposase - -

Protein Sequence

MASDTSLIAEQGVATLPDAAWAQARQRAEIIGPLAALDVVGHEAADAAAHALGLSRRQVYVLIRRARQGAGLVTDLARSRSGGGKGKGRLPESVERIIRELLQKRFLTKQKRSLAAFHREVAQACKAQKLRAPARNTVALRIAGLDPLKATRRREGQDASRSLQGVGGEPPAVTAPLEQVQIDHTVIDLIVVDERDRQPIGRPYLTIAIDVFTRCVLGMVVTLEAPSSVSVGLCLVHVACDKRPWLEGLNIEMEWPMSGKPRLLYLDNAAEFKSEALRRGCEQHGIRLDYRPLGQPHYGGIVERIIGTAMQMIHDELPGTTFSNPDQRGDYDSENKAALTLRELERWLTLAVGTYHGSVHNGLLQPPAARWAEAIARTGVPTVITRTTAFLVDFLPIIRRTLTRTGFVIDHIHYYADALKPWIARRDRLPAFLIRRDPRDISRIWVLEPEGQHYLEIPYRTLSHPAVTLWEQRQALAKLRQQGREQVDESALFRMIGQMREIVSTAQKATRKARRDADRRQHLKATAVLFKTTPPPDADMADPQADNQPPAKPFDQIEEW

Flanking regions ( +/- flanking 50bp)

CCAATCTCGACTATGCTCAATACTCGTGTGCACCAAAGCGAGGTGTGAGCATGGCGTCAGACACATCATTGATTGCCGAGCAAGGCGTGGCCACCCTGCCCGATGCGGCTTGGGCGCAGGCCCGGCAACGGGCGGAAATCATCGGGCCGCTGGCAGCGCTTGATGTGGTCGGGCATGAAGCCGCCGATGCCGCTGCTCACGCGCTTGGCCTGTCCAGGCGGCAGGTGTATGTCCTAATCCGCCGTGCCCGGCAAGGTGCTGGGCTTGTGACGGACCTGGCTCGCAGCCGATCCGGCGGCGGAAAAGGCAAGGGACGCTTGCCGGAATCAGTTGAGCGCATCATCCGCGAGTTGCTGCAAAAGCGCTTCCTGACCAAGCAGAAGCGTAGCCTGGCAGCGTTCCACCGCGAGGTCGCGCAGGCTTGCAAAGCGCAAAAGCTGCGGGCGCCGGCGCGCAACACCGTGGCTCTGCGGATCGCCGGCCTCGATCCGCTCAAGGCCACTCGCCGCCGGGAAGGTCAGGATGCGTCCCGCAGCCTGCAAGGTGTCGGTGGTGAGCCTCCCGCCGTGACCGCGCCACTGGAACAAGTGCAGATTGATCACACGGTCATCGACCTGATCGTGGTGGACGAGCGCGACCGGCAACCGATTGGCCGTCCGTATCTGACCATCGCCATCGACGTGTTTACCCGCTGCGTGCTCGGCATGGTCGTCACGCTGGAAGCGCCGTCATCTGTTTCGGTCGGCCTGTGCCTTGTGCATGTCGCCTGCGACAAGCGTCCCTGGCTGGAGGGTCTGAACATAGAAATGGAGTGGCCGATGAGCGGCAAGCCCAGGCTGCTCTACCTGGACAACGCGGCCGAGTTCAAGAGCGAAGCGCTACGCCGAGGCTGCGAGCAGCATGGCATCCGGCTTGACTATCGCCCGCTCGGGCAGCCGCACTACGGCGGCATCGTGGAACGGATCATCGGCACGGCGATGCAGATGATCCACGACGAATTGCCAGGGACGACCTTCTCCAACCCTGACCAGCGCGGCGACTACGATTCCGAAAACAAGGCCGCCCTGACGCTGCGTGAGCTGGAGCGCTGGCTCACATTGGCGGTCGGCACCTACCACGGCTCCGTGCACAACGGCCTGCTCCAGCCGCCGGCAGCGCGCTGGGCCGAAGCTATCGCGCGGACCGGCGTGCCAACCGTCATCACTCGCACCACGGCTTTTCTGGTCGATTTTCTGCCCATCATCCGCCGCACGCTGACCCGCACCGGCTTCGTCATCGACCACATCCATTACTACGCCGATGCGCTCAAGCCGTGGATAGCTCGGCGCGACCGCTTGCCTGCGTTCCTGATCCGGCGCGACCCGCGCGACATCAGCCGCATTTGGGTGCTGGAGCCGGAGGGGCAGCACTATCTGGAAATTCCATACCGCACCTTGTCGCACCCGGCTGTCACCCTCTGGGAACAACGACAGGCGCTGGCGAAATTGCGGCAGCAAGGGCGCGAACAGGTGGATGAGTCGGCGCTGTTTCGCATGATCGGCCAGATGCGCGAAATCGTGTCCACCGCGCAGAAAGCTACGCGCAAGGCGCGGCGCGACGCGGATCGACGCCAGCATCTCAAGGCAACGGCAGTTCTTTTCAAAACCACGCCACCACCGGACGCGGACATGGCTGACCCGCAGGCAGACAACCAGCCACCTGCCAAACCGTTCGACCAGATTGAGGAGTGGTAGCCGTGGAAGAATATCCCATCATCGACTTGTCCCACCTGATGCCGGTGGCC