Exploring Mobile Genetic Elements in Vibrio cholerae
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Members of the bacterial species Vibrio cholerae are known both as prominent constituents of marine environments and as the causative agents of cholera, a severe diarrheal disease. While strains responsible for cholera have been extensively studied over the past century, less is known about their environmental counterparts, despite their contributions to the species' pangenome. This study analyzed the genome compositions of 46 V. cholerae strains, encompassing both pandemic and non-pandemic, toxigenic, and environmental variants, to explore the diversity of mobile genetic elements (MGEs) and bacterial defense systems. Our findings include both conserved and novel MGEs across the strains, pointing to shared evolutionary pathways and ecological niches. The defensome analysis revealed a wide array of antiviral mechanisms, extending well beyond the traditional CRISPR-Cas and restriction-modification systems. This underscores the dynamic arms race between V. cholerae and MGEs and/or bacteriophages and suggests that non-pandemic strains may act as reservoirs for emerging defense strategies. Moreover, the study showed that MGEs are integrated into genomic hotspots, which may serve as critical platforms for the exchange of defense systems, thereby enhancing V. cholerae's adaptive capabilities against phage attacks and invading MGEs. Overall, this research offers foundational insights into V. cholerae's genetic complexity and adaptive strategies, with implications for understanding the differences between environmental strains and their pandemic relatives, and the potential evolutionary paths that led to the emergence of pandemic strains.