Effectors and environment modulating rice blast disease: from understanding to effective control

Disease outbreaks are shaped by the ‘disease triangle,’ comprising a virulent pathogen, a susceptible plant, and appropriate environmental conditions. Recent advances have shed light on the intricate environment–plant–pathogen interactions.Rice resistance is manipulated by cytoplasmic and apoplastic effectors secreted by Magnaporthe oryzae.Environmental factors play a significant role in both blast disease epidemics and the regulation of host (or rice) resistance.Strategies such as protein engineering, genome editing, and host-induced gene silencing have been employed effectively to engineer blast-resistant rice plants. Rice blast is a highly destructive crop disease that requires the interplay of three essential factors: the virulent blast fungus, the susceptible rice plant, and favorable environmental conditions. Although previous studies have focused mainly on the pathogen and rice, recent research has shed light on the molecular mechanisms by which the blast fungus and environmental conditions regulate host resistance and contribute to blast disease outbreaks. This review summarizes significant achievements in understanding the sophisticated modulation of blast resistance by Magnaporthe oryzae effectors and the dual regulatory mechanisms by which environmental conditions influence rice resistance and virulence of the blast fungus. Furthermore, it emphasizes potential strategies for developing blast-resistant rice varieties to effectively control blast disease. Rice blast is a highly destructive crop disease that requires the interplay of three essential factors: the virulent blast fungus, the susceptible rice plant, and favorable environmental conditions. Although previous studies have focused mainly on the pathogen and rice, recent research has shed light on the molecular mechanisms by which the blast fungus and environmental conditions regulate host resistance and contribute to blast disease outbreaks. This review summarizes significant achievements in understanding the sophisticated modulation of blast resistance by Magnaporthe oryzae effectors and the dual regulatory mechanisms by which environmental conditions influence rice resistance and virulence of the blast fungus. Furthermore, it emphasizes potential strategies for developing blast-resistant rice varieties to effectively control blast disease.