The circadian clock is crucial in plant immunity and metabolism, yet the coordinating mechanisms remain elusive. In the present study, transcriptome analysis of M. oryzae-infected rice leaves and rhythmic analysis showed reduced amplitudes of circadian and phytochrome genes, impacting immune response, metabolic pathways, and calcium signaling. The amplitudes of pattern-triggered immunity (PTI)-related genes declined, while the rhythmicity of effector-triggered immunity (ETI)-related genes disappeared. Moreover, alterations in the phases of metabolic pathways were observed, potentially involved in immune response regulation like phytohormone biosynthesis. Calcium signaling exhibited a circadian pattern similar to that of the whole-transcriptome analysis. The administration of CaCl2 alleviated, whereas the calcium ion chelator EGTA aggravated, the phenotypes of rice blasts, suggesting their role in regulating the circadian clock-mediated immune response in rice. Our study highlighted the significance of circadian regulation in rice blast-induced immune modulation, which may contribute to developing immunomodulators and the formulation of chronobiology-based precise therapeutic regimens.
Keywords: calcium signaling; circadian clock; metabolic pathway; plant immunity; rice blast.