Assembly of microbial communities is shaped by various physical and chemical factors deriving from their environment, including other microbes inhabiting the certain niche. In addition to direct cell-cell contacts, primary and secondary metabolites impact the growth of microbial community members. Metabolites might act as growth-promoting (e.g., cross-feeding), growth-inhibiting (e.g., antimicrobials) or signalling molecules. In multi-species microbial assemblies, secreted metabolites might influence specific members of the community, altering species abundances and therefore the functioning of these microcosms. In the current issue, Cosetta and colleagues describe a unique volatile metabolite-mediated cross-kingdom interaction that shapes the cheese rind community assembly. The study paves the way of our understanding how fungus-produced volatile compounds promote the growth of a certain bacterial genus, a principal connection between community members of the cheese rind.
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