Abstract
Microorganisms produce numerous secondary metabolites (SMs) with various biological activities. Many of their encoding gene clusters are silent under standard laboratory conditions because for their activation they need the ecological context, such as the presence of other microorganisms. The true ecological function of most SMs remains obscure, but understanding of both the activation of silent gene clusters and the ecological function of the produced compounds is of importance to reveal functional interactions in microbiomes. Here, we report the identification of an as-yet uncharacterized silent gene cluster of the fungus Aspergillus fumigatus, which is activated by the bacterium Streptomyces rapamycinicus during the bacterial-fungal interaction. The resulting natural product is the novel fungal metabolite fumigermin, the biosynthesis of which requires the polyketide synthase FgnA. Fumigermin inhibits germination of spores of the inducing S. rapamycinicus, and thus helps the fungus to defend resources in the shared habitat against a bacterial competitor.
Highlights
IntroductionMicroorganisms interact with neighboring species in mutualistic or antagonistic ways
In their ecological niche, microorganisms interact with neighboring species in mutualistic or antagonistic ways
We showed that the silent secondary metabolites (SMs) gene cluster encoding biosynthesis of orsellinic acid and its derivatives in A. nidulans is activated on physical contact of the fungus with the bacterium (Schroeckh et al, 2009; Nutzmann et al, 2011; Fischer et al, 2018)
Summary
Microorganisms interact with neighboring species in mutualistic or antagonistic ways. For many of their communication processes, they rely on chemical compounds (Mithofer and Boland, 2016), often belonging to the group of secondary metabolites (SMs) (Keller et al, 2005; Clardy et al, 2009; Brakhage, 2013; Netzker et al, 2015; Keller, 2019). In the artificial setting of a laboratory where natural triggers of SM production are missing, biosynthetic gene clusters are often not expressed and their corresponding SMs remain undetectable (Bergmann et al, 2007; Brakhage, 2013; Rutledge and Challis, 2015). Several studies have reported the induction of compound biosynthesis in Aspergillus spp. by Streptomyces
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