The FgCYP51B Y123H Mutation Confers Reduced Sensitivity to Prochloraz and Is Important for Conidiation and Ascospore Development in Fusarium graminearum.

Fusarium graminearum is one of the most important causal agents of Fusarium head blight disease and is controlled mainly by chemicals such as demethylation inhibitor (DMI) fungicides. FgCYP51B is one of the DMI targets in F. graminearum, and Tyrosine123 (Y123) is an important amino acid in F. graminearum CYP51B, located in one of predicted substrate binding pockets based on the binding mode between DMIs and CYP51B. Previous studies suggest that resistance to DMI fungicides is attributed primarily to point mutations in the CYP51 gene and that the Y123H mutation in F. verticillioides CYP51 confers prochloraz resistance in the laboratory. To investigate the function of FgCYP51B Y123 residue in the growth and development, pathogenicity, and DMI resistance, we generated and analyzed the FgCYP51B Y123H mutant. Results revealed that the Y123H mutation led to reduced conidial sporulation and affected ascospore development; moreover, the mutation conferred reduced sensitivity to prochloraz. Quantitative PCR and molecular docking were performed to investigate the resistance mechanism. Results indicated that Y123H mutation changed the target gene expression and decreased the binding affinity of FgCYP51 to prochloraz. These results will attract more attention to the potential DMI-resistant mutation of F. graminearum and increase our understanding of the DMI resistance mechanism.