Stomatal movement, critical for photobiosynthesis, respiration, and stress responses, is regulated by many factors, among which abscisic acid (ABA) is critical. Early events of ABA signaling involve Ca influx and an increase of cytoplasmic calcium ([Ca]). Positive regulators of this process have been extensively studied, whereas negative regulators are obscure. ABA-induced stomatal closure involves K flux and vacuolar convolution. How these processes are connected with Ca is not fully understood. We report that , a null mutant of Arabidopsis () (), is hypersensitive to ABA-induced stomatal closure and vacuolar convolution. A similar phenotype was observed in , the double mutant of CBL2 and CBL3, whose tonoplast association depends on PAT10. Functional loss of the PAT10-CBL2/CBL3 system resulted in enhanced Ca influx and [Ca] elevation. Promoting vacuolar K accumulation by overexpressing suppressed ABA-hypersensitive stomatal closure and vacuolar convolution of the mutants, suggesting that PAT10-CBL2/CBL3 positively mediates vacuolar K accumulation. We have identified CBL-interacting protein kinases (CIPKs) that mediate CBL2/CBL3 signaling during ABA-induced stomatal movement. Functional loss of the PAT10-CBL2/3-CIPK9/17 system in guard cells enhanced drought tolerance. We propose that the tonoplast CBL-CIPK complexes form a signaling module that negatively regulates ABA signaling during stomatal movement.
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| http://dx.doi.org/10.1104/pp.18.00377 | DOI Listing |
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