Abstract
The velvet family proteins have been shown to play critical roles in fungal secondary metabolism and development. However, variations of the roles have been observed in different fungi. We report here the observation on the role of three velvet complex components VeA, VelB, and LaeA in Pestalotiopsis microspora, a formerly reported taxol-producing fungus. Deletion of individual members led to the retardation of vegetative growth and sporulation and pigmentation, suggesting critical roles in these processes. The mutant strain △velB appeared hypersensitive to osmotic stress and the dye Congo red, whereas △veA and △laeA were little affected by the pressures, suggesting only velB was required for the integrity of the cell wall. Importantly, we found that the genes played distinct roles in the biosynthesis of secondary metabolites in P. microspora. For instance, the production of pestalotiollide B, a previously characterized polyketide, required velB and laeA. In contrast, the veA gene appeared to inhibit the pestalotiollide B (PB) role in its biosynthesis. This study suggests that the three components of the velvet complex are important global regulators, but with distinct roles in hyphal growth, asexual production, and secondary metabolism in P. microspora. This work provides information for further understanding the biosynthesis of secondary metabolism in the fungus.
Highlights
Pestalotiopsis fungi, known as the —E. coli— of rain forests, are widely distributed as either common endophytes or pathogens in tropical and temperate ecosystems [1,2]
VeA, LaeAproteins proteins built by molecular evolutionary genetics analysis (MEGA)
Evidence suggestswith secondary metabolism has been at the heart of molecular mycology
Summary
Pestalotiopsis fungi, known as the —E. coli— of rain forests, are widely distributed as either common endophytes or pathogens in tropical and temperate ecosystems [1,2]. The fungi have received considerable attention in the past decades, for its pathogenic role in crops, but more importantly, for its capacity to produce a myriad of diverse metabolites [3,4,5,6,7,8]. P. microspora is the most encountered species and serves as a model for the study of the biology and ecology of fungi [3,7]. The velvet family proteins are featured within the conserved velvet domain, which to date has only been found in filamentous fungi and holds important roles in protein-protein interaction and DNA binding [9,10]. The velvet family consists of four members: VeA, VelB, VelC, and VosA [10]
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