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Production of Diverse Beauveriolide Analogs in Closely Related Fungi: a Rare Case of Fungal Chemodiversity

Ying Yin, Bo Chen, Shuangxiu Song, Bing Li, Xiuqing Yang, Chengshu Wang

2020mSphere29 citationsDOIOpen Access PDF

Abstract

Fungal chemotaxonomy is an approach to classify fungi based on the fungal production profile of metabolites, especially the secondary metabolites. We found an atypical example that could question the reliability of fungal chemical classifications in this study, i.e., the more closely related entomopathogenic species Beauveria bassiana and Beauveria brongniartii produced structurally different congeners of the cyclodepsipeptide beauveriolides, whereas the rather divergent species B. brongniartii and Cordyceps militaris biosynthesized similar analogs under the same growth condition. The conserved biosynthetic gene cluster (BGC) containing four genes present in each species is responsible for beauveriolide production. In contrast to the compound formation profiles, the phylogenies of biosynthetic enzymes or enzymatic domains show associations with fungal speciation. Dependent on the insect species, production of beauveriolides may contribute to fungal virulence against the susceptible insect hosts. The findings in this study augment the diversity of fungal secondary metabolisms.

Topics & Concepts

BiologyBeauveriaCordyceps militarisBeauveria bassianaChemotaxonomyPolyketide synthaseAscomycotaBiosynthesisHypocrealesFungi imperfectiFungusBotanyGeneBiochemistryPolyketideTaxonomy (biology)CordycepsBiological pest controlEntomopathogenic Microorganisms in Pest ControlInsect symbiosis and bacterial influencesFungal Biology and Applications
Production of Diverse Beauveriolide Analogs in Closely Related Fungi: a Rare Case of Fungal Chemodiversity | Litcius