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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Microbial Surface Colonization and Biofilm Development in Marine Environments
Hongyue Dang,Charles R. Lovell +1 more
TL;DR: Recent progress in the study of marine microbial surface colonization and biofilm development is synthesized and discussed and questions are posed for targeted investigation of surface-specific community-level microbial features to advance understanding ofsurface-associated microbial community ecology and the biogeochemical functions of these communities.
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Review of Antimicrobial Resistance in the Environment and Its Relevance to Environmental Regulators
TL;DR: It is argued that the lack of environment-facing mitigation actions included in existing AMR action plans is likely a function of the authors' poor fundamental understanding of many of the key issues and the science to inform policy is lacking and this needs to be addressed.
Journal ArticleDOI
AI‐2‐mediated signalling in bacteria
Catarina S. Pereira,Catarina S. Pereira,Jessica A. Thompson,Jessica A. Thompson,Karina B. Xavier,Karina B. Xavier +5 more
TL;DR: A comprehensive review of the discovery and early characterization of AI-2, current developments in signal detection, transduction and regulation, and the major studies investigating the phenotypes regulated by this molecule is presented.
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Interactions in multispecies biofilms: do they actually matter?
TL;DR: The recent focus on complex bacterial communities has led to the recognition of interactions across species boundaries, particularly pronounced in multispecies biofilms, where synergistic interactions impact the bacterial distribution and overall biomass produced.
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Monitoring Bacterial Twitter: Does Quorum Sensing Determine the Behavior of Water and Wastewater Treatment Biofilms?
TL;DR: A critical review of QS and how it relates to biofilms in engineered water and wastewater treatment systems and identifies needs for future research is provided.
References
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Structural identification of a bacterial quorum-sensing signal containing boron
Xin Chen,Stephan Schauder,Noelle Potier,Alain Van Dorsselaer,István Pelczer,Bonnie L. Bassler,Frederick M. Hughson +6 more
TL;DR: It is suggested that addition of naturally occurring borate to anAI-2 precursor generates active AI-2, and a potential biological role for boron is indicated, an element required by a number of organisms but for unknown reasons.
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Bacterial Quorum-Sensing Network Architectures
Wai Leung Ng,Bonnie L. Bassler +1 more
TL;DR: It is argued that the Vibrio quorum-sensing systems are optimally designed to precisely translate extracellular autoinducer information into internal changes in gene expression.
Journal ArticleDOI
The LuxS family of bacterial autoinducers: biosynthesis of a novel quorum-sensing signal molecule
TL;DR: Evidence is provided that the biosynthetic pathway and biochemical intermediates in AI‐2 biosynthesis are identical in Escherichia coli, Salmonella typhimurium, V. harveyi, Vibrio cholerae and Enterococcus faecalis, suggesting thatAI‐2 is a unique, ‘universal' signal that could be used by a variety of bacteria for communication among and between species.
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The Small RNA Chaperone Hfq and Multiple Small RNAs Control Quorum Sensing in Vibrio harveyi and Vibrio cholerae
Derrick H. Lenz,Kenny C. Mok,Brendan N. Lilley,Rahul V. Kulkarni,Ned S. Wingreen,Bonnie L. Bassler +5 more
TL;DR: It is proposed that Hfq, together with four candidate sRNAs, creates an ultrasensitive regulatory switch that controls the critical transition into the high cell density, quorum-sensing mode.
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Quorum sensing controls biofilm formation in Vibrio cholerae.
TL;DR: The distinct environments occupied by this aquatic pathogen presumably include niches where cell‐cell communication is crucial, as well as ones where loss of quorum sensing via hapR mutation confers a selective advantage.