AI Article Synopsis
- Antibiotic resistance is leading us towards a post-antibiotic era, making disinfectants and biosecurity essential for managing microbial diseases.
- Resistance to antimicrobials can be intrinsic or acquired, with acquired resistance largely due to the transfer of genetic elements that carry resistance traits, often resulting in multidrug-resistant (MDR) bacteria.
- Advances like genome engineering and CRISPR-Cas are helping identify and reverse disinfectant resistance, highlighting the need for further research to protect current antimicrobial treatments.
Article Abstract
Antibiotic resistance could accelerate humanity towards an already fast-approaching post-antibiotic era, where disinfectants and effective biosecurity measures will be critically important to control microbial diseases. Disinfectant resistance has the potential to change our way of life from compromising food security to threatening our medical health systems. Resistance to antimicrobial agents occurs through either intrinsic or acquired resistance mechanisms. Acquired resistance occurs through the efficient transfer of mobile genetic elements, which can carry single, or multiple resistance determinants. Drug resistance genes may form part of integrons, transposons and insertions sequences which are capable of intracellular transfer onto plasmids or gene cassettes. Thereafter, resistance plasmids and gene cassettes mobilize by self-transmission between bacteria, increasing the prevalence of drug resistance determinants in a bacterial population. An accumulation of drug resistance genes through these mechanisms gives rise to multidrug resistant (MDR) bacteria. The study of this mobility is integral to safeguard current antibiotics, disinfectants and other antimicrobials. Literature evidence, however, indicates that knowledge regarding disinfectant resistance is severly limited. Genome engineering such as the CRISPR-Cas system, has identified disinfectant resistance genes, and reversed resistance altogether in certain prokaryotes. Demonstrating that these techniques could prove invaluable in the combat against disinfectant resistance by uncovering the secrets of MDR bacteria.
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| http://dx.doi.org/10.1016/j.drup.2019.100672 | DOI Listing |
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