E3 ubiquitin ligase‐mediated degradation of Rab GTPase suppresses an MAPKK and activates immunity in rice

Small G proteins, functioning as monomeric GTPases, are critical molecular switches that regulate diverse processes in plants. However, little is known about their protein homeostasis during immune responses. Here, we demonstrate that OsRab11C1, encoding a Rab-type GTPase, is transcriptionally upregulated upon Magnaporthe oryzae infection. Strikingly, loss of OsRab11C1 enhances rice blast resistance, concomitant with increased defense gene expression, MAPK activation, and ROS burst. Mechanistically, we identify the E3 ubiquitin ligase EL5 as an interactor that ubiquitinates and targets OsRab11C1 for degradation via the 26S proteasome. Consistently, EL5 acts upstream of OsRab11C1 and positively regulates rice immunity. Further analysis reveals that OsRab11C1 interacts with and stabilizes mitogen-activated protein kinase kinase OsMKK6, thereby facilitating its autophosphorylation activity. In return, OsMKK6 acts as a negative regulator of rice programmed cell death and immunity. Collectively, our findings unveil a dynamic EL5-OsRab11C1-OsMKK6 signaling module that orchestrates rice immunity against pathogen invasion.