The BpPP2C‐BpMADS11‐BpERF61 signaling confers drought tolerance in Betula platyphylla

Summary Plant MADS‐box proteins are vital for abiotic stress tolerance, yet their mechanisms for responding to drought remain poorly understood. Here, we investigated the drought tolerance mechanism of a MADS‐box protein (BpMADS11) from birch ( Betula platyphylla ) using immunoprecipitation, Western blotting, yeast two‐hybrid, yeast one‐hybrid, ChIP, RNA‐seq, and dual‐luciferase assays to explore post‐translational modifications, protein interactions, and gene regulation. Birch plants overexpressing BpMADS11 exhibited enhanced drought tolerance, while knockout lines displayed reduced tolerance. Under drought conditions, BpMADS11 interacts with protein phosphatase 2C22 (BpPP2C22), which dephosphorylates BpMADS11. Birch plants that overexpress BpMADS11 and lack BpPP2C22 show significantly reduced drought tolerance compared with those that only overexpress BpMADS11 . BpMADS11 regulates the expression of BpERF61 by binding to CArG‐box in its promoter. The dephosphorylated BpMADS11 exhibits increased DNA binding ability and increased expression of BpERF61 . Like BpMADS11 , birch plants overexpressing BpERF61 show improved drought tolerance, while those with BpERF61 knockout exhibit decreased tolerance. BpERF61 binds to specific DNA motifs including ‘CACGTG’ (G‐box), ‘GGGCCCC’, and ‘TTGGAT’ to regulate the genes related to drought stress. Collectively, BpMADS11 undergoes dephosphorylation through its interaction with BpPP2C22, prompting the expression of BpERF61 . Subsequently, BpERF61 regulates downstream genes by binding to specific DNA motifs, thereby enhancing drought tolerance.