Abstract
Beauveria bassiana is a well-known entomopathogenic fungus that parasitizes on a variety of insect species. Glucan in the cell wall of B. bassiana plays a crucial role in its structure and growth and is also involved in the activation of the host insect’s immune system. Glucan biosynthesis is primarily regulated by glucan synthase, however, it is unclear if the glucan synthase catalytic subunit gene (GluS) affects the growth and virulence of B. bassiana. In this study, we constructed the mutant of the B. bassiana glucan synthase catalytic subunit (ΔGluS) by homologous recombination and observed that glucan synthase knockout affects both spore germination and cell area. Further enzyme-based assays along with gene expression analysis of glucan synthase revealed a significant downregulation in the mutant strains compared to the wild type of B. bassiana. Moreover, the virulence of ΔGluS strains against gypsy moth (Lymantria dispar) showed no significant difference compared to the wild-type strains when injected, while the spraying gypsy moths with the conidia of ΔGluS was significantly more lethal than spraying the conidia of the wild type. Altogether, our study constructed a new, highly efficient B. bassiana mutant that can be used for pest control and provides a readily transferable method for other insect-entomopathogenic interaction studies.
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