Oxaloacetate hydrolase gene links the cytoplasmic route of oxalate formation to differentiation and virulence of entomopathogenic fungus Beauveria bassiana

Abstract

Oxalic acid is used as a functional molecule by most filamentous fungi, and produced via cytoplasmic pathway and mitochondrial pathway. The cytoplasmic pathway of oxalate production from oxaloacetate is a one-step reaction catalyzed by oxaloacetate hydrolase. The entomopathogenic fungus Beauveria bassiana contains a unique oxaloacetate hydrolase gene (BbOAH). The role of cytoplasmic pathway of oxalate production in B. bassiana development and virulence was studied via construction of a targeted gene disruption mutant of BbOAH. Disruption of BbOAH resulted in a slight decrease (~30%) in oxalate production, but has no significant influence on fungal growth. The mutant strain displayed a significant delay at early stage of conidial development, and a significant defect in dimorphic transition. Additionally, bioassay using the greater waxmoth as host indicated a slight (~20%) decrease in mortality caused by the gene disruption strain. The phenotypic defects of the ΔBbOAH strain could be restored by ectopic integration of BbOAH. Our findings indicate that BbOAH gene connects the cytoplasmic route of oxalate production to fungal development and virulence, although the cytoplasmic route is not indispensable for oxalate production in B. bassiana.