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Evidence of horizontal gene transfer and environmental selection impacting antibiotic resistance evolution in soil-dwelling Listeria
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Evidence of horizontal gene transfer and environmental selection impacting antibiotic resistance evolution in soil-dwelling Listeria
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Journal Article
Evidence of horizontal gene transfer and environmental selection impacting antibiotic resistance evolution in soil-dwelling Listeria
2024
Overview
Soil is an important reservoir of antibiotic resistance genes (ARGs) and understanding how corresponding environmental changes influence their emergence, evolution, and spread is crucial. The soil-dwelling bacterial genus
Listeria
, including
L. monocytogenes
, the causative agent of listeriosis, serves as a key model for establishing this understanding. Here, we characterize ARGs in 594 genomes representing 19
Listeria
species that we previously isolated from soils in natural environments across the United States. Among the five putatively functional ARGs identified,
lin
, which confers resistance to lincomycin, is the most prevalent, followed by
mprF, sul, fosX
, and
norB
. ARGs are predominantly found in
Listeria sensu stricto
species, with those more closely related to
L. monocytogenes
tending to harbor more ARGs. Notably, phylogenetic and recombination analyses provide evidence of recent horizontal gene transfer (HGT) in all five ARGs within and/or across species, likely mediated by transformation rather than conjugation and transduction. In addition, the richness and genetic divergence of ARGs are associated with environmental conditions, particularly soil properties (e.g., aluminum and magnesium) and surrounding land use patterns (e.g., forest coverage). Collectively, our data suggest that recent HGT and environmental selection play a vital role in the acquisition and diversification of bacterial ARGs in natural environments.
It remains elusive how environmental antibiotic resistance evolves and spreads. Goh et al. analyzed a nationwide genomic dataset of soil-dwelling
Listeria
and find evidence of horizontal gene transfer mediated by transformation and environmental selection acting on antibiotic resistance evolution in soil environments.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
