Abstract
Rice false smut, caused by Ustilaginoidea virens, is one of the three major rice diseases in China. It not only seriously affects the rice yield and quality but also endangers human and animal health. Studying the pathogenic mechanism of U. virens has important theoretical significance and application value for clarifying the infection characteristics of the pathogen and cultivating disease-resistant varieties. Plant pathogenic fungi utilize secreted effectors to suppress plant immune responses, which can function in the apoplast or within host cells and are likely glycosylated. However, the posttranslational regulation of these effectors remains unexplored. Deletion of ΔUvALG led to the cessation of secondary infection hyphae growth and a notable decrease in virulence. We observed that ΔUvALG mutants triggered a significant increase in reactive species production within host cells, akin to ALG mutants, which plays a crucial role in halting the growth of infection hyphae in the mutants. ALG functions by sequestering chitin oligosaccharides to prevent their recognition by the rice chitin elicitor, thereby inhibiting the activation of innate immune responses, including reactive species production. Our findings reveal that ALG3 possesses three N-glycosylation sites, and the simultaneous Alg-mediated N-glycosylation of each site is essential for maintaining protein stability and chitin-binding activity, both of which are critical for its effector function. These outcomes underscore the necessity of the Alg-mediated N-glycosylation of ALG to evade host innate immunity.