Significance of Antimicrobial Resistance Gene

Antimicrobial resistance gene presence is investigated through targeting tet Q. The study focuses on detecting the presence of antimicrobial resistance genes, using tet Q as an indicator for tetracycline resistance. This preliminary investigation aims to understand the occurrence and spread of resistance genes in the environment, highlighting the importance of monitoring specific genes like tet Q to assess antimicrobial resistance levels.

Synonyms: Resistance gene, Drug resistance gene, Antibiotic resistance gene, Arg

The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.

The concept of Antimicrobial Resistance Gene in scientific sources

Science Books

Antimicrobial Resistance Gene, or ARG, signifies the presence of genes conferring resistance to antimicrobials. The text highlights tet Q, a gene that provides resistance to tetracycline, as an example of ARG.

Significance in Environmental Sciences:
Environmental Sciences Books

From: International Journal of Environmental Research and Public Health (MDPI)

(1) These are genetic elements that enable bacteria to resist the effects of antibiotics; these genes can be found in permafrost, forest soils, ocean beds, mountains, and polar regions.[1] (2) Antimicrobial Resistance Genes are referenced in the text, noting their sharing by companion animals and their human household members.[2] (3) Antimicrobial resistance genes are captured and disseminated by integrons, contributing to the spread of resistance among different environments and bacterial species.[3] (4) The study identifies the most common antimicrobial resistance genes among metagenomic samples, which refer to antibiotics such as macrolides, lincosamides, streptogramins and β-lactams.[4] (5) These are genetic elements (tetW, ermB) whose occupational exposure and carriage in pig slaughterhouse workers have been investigated.[5]

From: Sustainability Journal (MDPI)

(1) These genetic elements were analyzed in agricultural soils from seventeen countries, identifying hotspots with dense populations and intensive agriculture.[6] (2) Peracetic acid disinfection kinetics for combined sewer overflows were studied, focusing on indicator organisms, these genetic elements, and the microbial community.[7] (3) The detection of "antimicrobial resistance genes" conferring resistance to tetracycline, sulfonamide, and β-lactamase was investigated by specific PCR.[8] (4) Antimicrobial Resistance genes can lead to the emergence of new diseases, posing a significant threat to public health and requiring innovative solutions.[9]