Quorum‐sensing autoinducer molecules produced by members of a multispecies biofilm promote horizontal gene transfer to Vibrio cholerae
TLDR
It is demonstrated that comEA transcription and the horizontal acquisition of DNA by V. cholerae are induced in response to purified CAI-1 and AI-2, and also by autoinducers derived from other Vibrios co-cultured with V. Cholerae within a mixed-species biofilm, suggesting that autoinducer communication within a consortium may promote DNA exchange among VibRIos.Abstract:
Vibrio cholerae, the causative agent of cholera and a natural inhabitant of aquatic environments, regulates numerous behaviors using a quorum-sensing (QS) system conserved among many members of the marine genus Vibrio. The Vibrio QS response is mediated by two extracellular autoinducer (AI) molecules: CAI-I, which is produced only by Vibrios, and AI-2, which is produced by many bacteria. In marine biofilms on chitinous surfaces, QS-proficient V. cholerae become naturally competent to take up extracellular DNA. Because the direct role of AIs in this environmental behavior had not been determined, we sought to define the contribution of CAI-1 and AI-2 in controlling transcription of the competence gene, comEA, and in DNA uptake. In this study we demonstrated that comEA transcription and the horizontal acquisition of DNA by V. cholerae are induced in response to purified CAI-1 and AI-2, and also by autoinducers derived from other Vibrios co-cultured with V. cholerae within a mixed-species biofilm. These results suggest that autoinducer communication within a consortium may promote DNA exchange among Vibrios, perhaps contributing to the evolution of these bacterial pathogens.read more
Citations
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A quorum sensing-mediated switch contributes to natural transformation of Vibrio cholerae
TL;DR: This study investigates how the acquisition of genetic material by natural transformation is regulated within a population of Vibrio cholerae cells to better understand how virulence and natural transformation are contrarily regulated by the quorum sensing network.
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Biosensing Vibrio cholerae with Genetically Engineered Escherichia coli
TL;DR: A synthetic genetic sensing system using nonpathogenic Escherichia coli as the host and proteins used by V. cholerae for quorum sensing into E. coli is designed and created.
Journal ArticleDOI
Natural Competence Is Common among Clinical Isolates of Veillonella parvula and Is Useful for Genetic Manipulation of This Key Member of the Oral Microbiome.
TL;DR: This study demonstrates the first demonstration of natural competence and targeted allelic exchange mutagenesis within the entire Veillonellaceae family and demonstrates a simple and rapid method to study Veill onellaceae genetics.
Journal ArticleDOI
ToxR Antagonizes H-NS Regulation of Horizontally Acquired Genes to Drive Host Colonization.
TL;DR: ToxR’s genome-wide DNA-binding profile is determined and it is demonstrated that ToxR is a global regulator of both progenitor genome-encoded genes and horizontally acquired islands that encode V. cholerae’'s major virulence factors and define pandemic lineages.
Journal ArticleDOI
Quorum sensing pathways in Gram-positive and -negative bacteria: potential of their interruption in abating drug resistance.
Shafiul Haque,Dinesh K. Yadav,Shekhar Chandra Bisht,Neelam Yadav,Vineeta Singh,Kashyap Kumar Dubey,Arshad Jawed,Mohd Wahid,Sajad Ahmad Dar +8 more
TL;DR: This review gives an insight into the multitudinous QS systems in Gram-positive and Gram-negative bacteria to explore their role in microbial physiology and pathogenesis and highlights the advancements in discovery of promising new targets for development of next generation antimicrobials to control infections caused by multidrug resistant bacterial pathogens.
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