Deletions of recombination genes impair tandem amplification and reshape heteroresistance mechanisms in Escherichia coli
Sheida Heidarian, Karin Hjort, Hervé Nicoloff, Dan I. Andersson

TL;DR
This study shows how deleting certain recombination genes in E. coli reduces antibiotic resistance caused by gene amplification but doesn't eliminate resistance entirely.
Contribution
The study identifies the RecABC pathway as a key driver of heteroresistance via tandem amplification in E. coli.
Findings
Deletion of recA and recB genes significantly reduced heteroresistance subpopulations.
Resistant subpopulations still emerged through alternative mechanisms when recombination genes were deleted.
The RecABC pathway was found to be a major contributor to amplification-driven heteroresistance.
Abstract
Heteroresistance is a transient resistance phenotype characterized by the presence of small subpopulations of bacterial cells with elevated antibiotic resistance within a susceptible main population. In gram-negative pathogens, heteroresistance is frequently caused by tandem amplification of genes encoding resistance proteins with low activity toward the antibiotic, a process commonly mediated by homologous recombination between flanking repeated sequences. However, the specific roles of individual recombination proteins in this mechanism remain largely undefined. In this study, we systematically evaluated the contribution of 19 recombination-associated genes to tandem amplification-driven heteroresistance in Escherichia coli. A clinical plasmid causing tobramycin heteroresistance by tandem amplification of the aac(3)-IId gene was conjugated into recombination gene-deficient mutants and…
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Taxonomy
TopicsAntibiotic Resistance in Bacteria · Bacterial Genetics and Biotechnology · Escherichia coli research studies
