Browse AMR Genes

Explore antimicrobial resistance genes from the literature

tap

tetracycline efflux pump

NCBI Pathogen Isolates

Bacterial genomes carrying this gene

NCBI Reference Gene Catalog

Known alleles and reference sequences

Protein entries specific to tap

Browse AMR rules for tap

Validation StatusConfirmed2+ DBs

Overview

Mechanism: insertion mutation
Validation Method: PCR and sequencing
Drug Classes: Tetracycline, Aminoglycoside, Kanamycin, Amikacin, Macrolide, Carbapenem, Cephalosporin, Rifampicin, Multiple antibiotics, Ethambutol & Capreomycin, Streptomycin
Organisms: Mycobacterium fortuitum, Mycobacterium alvei, Mycobacterium septicum, Mycobacterium novacastrense, Mycobacterium peregrinum, Mycobacterium goodi, Mycobacterium neoaurum, Mycobacterium rufum, Mycobacterium obuense, Mycobacterium frederiksbergense, Mycobacterium mucogenicum, Mycobacterium tuberculosis, Mycobacterium abscessus, Escherichia coli, Mycolicibacterium fortuitum, Mycobacterium massiliense, Mycobacteroides abscessus complex
Geographic Location: Cambodia|India|China|Mozambique|South Africa|Morocco|USA|Japan|Brazil, Europe|Czech Republic
Papers: 11
Databases: Card DatabaseReslit
Mutations: 5

Mutations

Protein Change	Nucleotide Change	Mechanism	Organism	Resistance To	Database	Validation Status
S292L	-	single resistance variant	Mycobacterium tuberculosis	Multiple antibiotics	Card Database	Established
T297P	-	single resistance variant	Mycobacterium tuberculosis	Ethambutol & Capreomycin	Card Database	Established
V219A	-	single resistance variant	Mycobacterium tuberculosis

Papers11

1

Tetracycline resistance and presence of tetracycline resistance determinants tet(V) and tap in rapidly growing mycobacteria from agricultural soils and clinical isolates.

PMID 22673307 · 2012

The study identified the presence of tetracycline resistance genes tet(V) and tap in both soil and clinical isolates of rapidly growing mycobacteria. These genes encode efflux pumps that contribute to tetracycline resistance. The study highlights the importance of intrinsic efflux pumps in tetracycline resistance in mycobacteria.

Gene Information

Gene Name: tap
Allele: tap
Encodes: tetracycline efflux pump
Source Database: Reslit
Confers Resistance To: Tetracycline
Organisms Tested In: • Mycobacterium fortuitum
• Mycobacterium alvei
• Mycobacterium septicum
• Mycobacterium novacastrense
• Mycobacterium peregrinum
• Mycobacterium goodi
• Mycobacterium neoaurum
• Mycobacterium rufum
• Mycobacterium obuense
• Mycobacterium frederiksbergense
• Mycobacterium mucogenicum
Geographic Location: Europe|Czech Republic
Validation Method: PCR and sequencing
Sequence Accession: JF290326|JF290327|JF290328|JF290329|JF290330|JF290331|JF290332|JF290333|JF290334|JF290335|JF290336|JF290337|JF290338|JF290339|JF290340|JF290341|JF290342|JF290343|JF290344|JF290345|JF290346|JF290347|JF290348|JF290349|JF290350|JF290351|JQ348076|JQ348077|JQ348078|JQ348079|JQ348080|JQ348081|JQ348082|JQ348083|JQ348084|JQ348085|JQ348086|JQ348087|JQ348088|JQ348089|JQ348090|JQ348091|JQ348092|JQ348093|JQ348094|JQ348095|JF290352|JF290353|JF290354|JF290355|JF290356|JF290357|JF290358|JF290359|JF290360|JF290361|JF290362|JF290363|JF290364|JF290365

2

Antimicrobial Resistance Mechanisms in Mycobacterium tuberculosis

PMID 23179675 · 2023

The paper discusses the molecular mechanisms of drug resistance in Mycobacterium tuberculosis, focusing on genes like pncA, rspA, erm37, tlyA, eis, BlaC, mfpA, IniBAC, EfP, and Tap, which are involved in resistance to pyrazinamide, macrolides, lincosamides, capreomycin, viomycin, kanamycin, β-lactams, fluoroquinolones, isoniazid, ethambutol, and multiple antibiotics.

Gene Information

Gene Name: tap
Allele: tap
Encodes: efflux pump
Source Database: Reslit
Confers Resistance To: AminoglycosideTetracycline
Organisms Tested In: • Mycobacterium tuberculosis
Validation Method: regulatory and expression studies

3

The role of transport mechanisms in mycobacterium tuberculosis drug resistance and tolerance.

PMID 24281307 · 2012

The paper discusses the role of transport mechanisms, particularly efflux pumps, in Mycobacterium tuberculosis drug resistance and tolerance, highlighting the importance of efflux pump activity in reducing drug susceptibility.

Gene Information

Gene Name: tap
Allele: tap
Encodes: MFS transporter
Source Database: Reslit
Confers Resistance To: Tetracycline
Organisms Tested In: • Mycobacterium tuberculosis
Validation Method: characterized as antibiotic transporter

4

Molecular characterization of amikacin, kanamycin and capreomycin resistance in M/XDR-TB strains isolated in Thailand.

PMID 24953243 · 2014

Gene Information

Gene Name: tap
Allele: tap
Encodes: efflux pump
Source Database: Reslit
Mechanism: insertion mutation
Confers Resistance To: Kanamycin
Organisms Tested In: • Mycobacterium tuberculosis
Validation Method: sequencing and MIC testing

5

Antagonism between Front-Line Antibiotics Clarithromycin and Amikacin in the Treatment of Mycobacterium abscessus Infections Is Mediated by the whiB7 Gene.

PMID 28874379 · 2017

The study identifies erm(41) and eis2 as genes involved in clarithromycin and amikacin resistance in Mycobacterium abscessus, mediated by the whiB7 gene.

Gene Information

Gene Name: tap
Allele: tap
Encodes: efflux pump
Source Database: Reslit
Confers Resistance To: Amikacin
Organisms Tested In: • Mycobacterium abscessus
Validation Method: gene disruption and MIC determination

6

Genome-Wide Screening of Oxidizing Agent Resistance Genes in Escherichia coli.

PMID 34072091 · 2021

This study identified several genes that confer resistance to hydrogen peroxide and hypochlorite in Escherichia coli, including katE, katG, rho, appY, mcbR, yncG, and others. These genes were validated through overexpression in MG1655 and inactivation in BW25113 strains.

Gene Information

Gene Name: tap
Allele: tap
Encodes: membrane protein
Source Database: Reslit
Organisms Tested In: • Escherichia coli
Validation Method: overexpression experiments

7

Mycolicibacterium fortuitum genomic epidemiology, resistome and virulome.

PMID 35019071 · 2022

The study identified an intrinsic resistome in Mycolicibacterium fortuitum comprising genes such as aph(3''-Ic), aac(2')-Ib, arr, blaF, erm39, rbpA, rox, and tap, which confer resistance to various antibiotics including macrolides, aminoglycosides, carbapenems, cephalosporins, and rifampicin. Additionally, a class 1 integron carrying qac/sul1 gene cassette was detected in one genome.

Gene Information

Gene Name: tap
Allele: tap
Encodes: multidrug efflux pump
Source Database: Reslit
Confers Resistance To: MacrolideAminoglycosideCarbapenemCephalosporinRifampicin
Organisms Tested In: • Mycolicibacterium fortuitum
Geographic Location: Cambodia|India|China|Mozambique|South Africa|Morocco|USA|Japan|Brazil
Validation Method: in silico and in vitro analysis
Sequence Accession: JAEQRQ000000000|SRR15257947

8

The resistomes of Mycobacteroides abscessus complex and their possible acquisition from horizontal gene transfer.

PMID 36261788 · 2022

The study identifies numerous AMR genes in Mycobacteroides abscessus complex, highlighting the widespread presence of resistance to multiple antibiotic classes, including beta-lactams, aminoglycosides, glycopeptides, and others. Key findings include the detection of beta-lactamases like blaLAP-1 and blaTLA-2, 23S rRNA methyltransferases such as erm(33), erm(43), and erm(44), and various aminoglycoside modifying enzymes. Additionally, vancomycin resistance genes like vanA, vanB, and vanC were identified, along with efflux pump genes contributing to multidrug resistance.

Gene Information

Gene Name: tap
Allele: tap
Encodes: efflux protein
Source Database: Reslit
Confers Resistance To: Tetracycline
Organisms Tested In: • Mycobacterium abscessus
• Mycobacterium massiliense
• Mycobacteroides abscessus complex
Validation Method: gene characterization in strains

9

Gene Information

Gene Name: tap
Allele: tap
Encodes: major facilitator superfamily (MFS) antibiotic efflux pump
Source Database: Card Database
Mechanism: antibiotic efflux
Organisms Tested In: • Mycolicibacterium fortuitum
Sequence Accession: AJ000283.1
Protein Accession: CAA03986.1
Notes: ARO:3000343