Phytochrome B‐mediated light signalling enhances rice resistance to saline‐alkaline and sheath blight by regulating multiple downstream transcription factors

Abstract

SummaryLight signalling regulates plant growth and stress resistance, whereas its mechanism in controlling saline‐alkaline tolerance (SAT) remains largely unknown. This study identified that light signalling, primarily mediated by Phytochrome B (PhyB), inhibited ammonium transporter 1 (AMT1) to negatively regulate SAT. Our previous findings have shown that PhyB can impede the transcription factors indeterminate domain 10 (IDD10) and brassinazole resistant 1 (BZR1) to reduce NH4+ uptake, thereby modulating SAT and sheath blight (ShB) resistance in rice. However, inhibition of IDD10 and BZR1 in the phyB background did not fully suppress NH4+ uptake, suggesting that other signalling pathways regulated AMT1 downstream of PhyB. Further analysis revealed that PhyB interacted with Calcineurin B‐like protein‐interacting protein kinase 31 (CIPK31), which positively regulated AMT1 expression. CIPK31 also interacted with Teosinte Branched1/Cycloidea/PCF19 (TCP19), a key regulator of nitrogen use efficiency (NUE). However, PhyB neither degraded CIPK31 nor directly interacted with TCP19. Instead, PhyB inhibited the CIPK31‐TCP19 interaction, releasing TCP19, which repressed AMT1;2 directly and AMT1;1 and AMT1;3 indirectly, thereby inhibiting NH4+ uptake and SAT while reducing ShB resistance. Additionally, Phytochrome Interacting Factor‐Like 15 (PIL15) interacted with TCP19. Different from TCP19, PIL15 directly activated AMT1;2 to promote SAT, suggesting a balancing mechanism for NH4+ uptake downstream of PhyB. Furthermore, PIL15 interacted with IDD10 and BZR1 to form a transcriptional complex that collaboratively activated AMT1;2 expression. Overall, this study provides novel insights into how PhyB signalling regulates NH4+ uptake and coordinates SAT and ShB resistance in rice.