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A biophysical limit for quorum sensing in biofilms

Author(s): Narla, Avaneesh; Borenstein, David; Wingreen, Ned

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dc.contributor.authorNarla, Avaneesh-
dc.contributor.authorBorenstein, David-
dc.contributor.authorWingreen, Ned-
dc.identifier.citationNarla, Avaneesh, Borenstein, David, Wingreen, Ned. (2020). A biophysical limit for quorum sensing in biofilms. 10.1101/2020.11.01.364125en_US
dc.description.abstractBacteria grow on surfaces in complex immobile communities known as biofilms, which are composed of cells embedded in an extracellular matrix. Within biofilms, bacteria often interact with members of their own species, and cooperate or compete with members of other species via quorum sensing (QS). QS is a process by which microbes produce, secrete, and subsequently detect small molecules called autoinducers (AIs) to assess their local population density. We explore the competitive advantage of QS through agent-based simulations of a spatial model in which colony expansion via extracellular matrix production provides greater access to a limiting diffusible nutrient. We note a significant difference in results based on whether AI production is constitutive or limited by nutrient availability: If AI production is constitutive, simple QS-based matrix-production strategies can be far superior to any fixed strategy. However, if AI production is limited by nutrient availability, QS-based strategies fail to provide a significant advantage over fixed strategies. To explain this dichotomy, we derive a novel biophysical limit for the dynamic range of nutrient-limited AI concentrations in biofilms. This range is remarkably small (less than 10-fold) for the realistic case in which a growth-limiting diffusible nutrient is taken up within a narrow active growth layer. This biophysical limit implies that for QS to be most effective in biofilms, AI production should be a protected function not directly tied to metabolism.en_US
dc.rightsAuthor's manuscripten_US
dc.titleA biophysical limit for quorum sensing in biofilmsen_US
dc.typeJournal Articleen_US

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