MPK3 mediated phosphorylation inhibits the dimerization of ABI5 to fine-tune the ABA signaling in Arabidopsis

Abstract

Seed germination is, a critical physiological process, is tightly regulated by the phytohormone abscisic acid (ABA). However, the cross talk between multiple regulatory pathways involved in seed germination remains poorly understood. Here, we show that ABA activates two MAP kinases, AtMPK3/AtMPK6, which interact with and phosphorylate AtABI5, a master regulator of ABA signaling. MAP kinase-mediated AtABI5 phosphorylation at the serine-314 position regulates its nuclear localization and dimerization. Interestingly, AtABI5 provides feedback regulation by directly binding to the promoter of AtMPK3 to modulate its transcription. Further, functional analyses revealed that overexpression of a phospho-null AtABI5S314A variant in the abi5-8 mutant background conferred increased ABA sensitivity during seed germination, heightened drought sensitivity, and delayed flowering compared to wild-type plants. Conversely, overexpression of phospho-mimic AtABI5S314D in abi5-8 mutant showed ABA insensitivity during seed germination, drought tolerance, and early floral transition similar to abi5-8 mutant. Collectively, our findings highlight that MAP kinase-mediated phosphorylation of AtABI5 fine-tunes ABA signaling by regulating its dimerization, providing new insights into the dynamic regulation of plant responses to environmental and developmental cues.