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Eco-evolutionary Dynamics Linked to Horizontal Gene Transfer in Vibrios
Summary
This review examines the ecology and genomic plasticity of Vibrio bacteria in aquatic environments, focusing on how horizontal gene transfer (HGT) drives adaptation to new niches and the emergence of pathogenic strains. Researchers discuss HGT mechanisms across environmental and clinical vibrio isolates and the role of mobile virulence factors in shaping pathogen evolution.
Vibrio is a genus of ubiquitous heterotrophic bacteria found in aquatic environments. Although they are a small percentage of the bacteria in these environments, vibrios can predominate during blooms. Vibrios also play important roles in the degradation of polymeric substances, such as chitin, and in other biogeochemical processes. Vibrios can be found as free-living bacteria, attached to particles, or associated with other organisms in a mutualistic, commensal, or pathogenic relationship. This review focuses on vibrio ecology and genome plasticity, which confers an ability to adapt to new niches and is driven, at least in part, by horizontal gene transfer (HGT). The extent of HGT and its role in pathogen emergence are discussed based on genomic studies of environmental and pathogenic vibrios, mobile genetically encoded virulence factors, and mechanistic studies on the different modes of HGT.
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