质膜 H+-ATPase AHA2 的磷酸化需要 BAK1 参与，这是拟南芥 ABA 诱导气孔关闭所必需的。

Phosphorylation of the plasma membrane H+-ATPase AHA2 by BAK1 is required for ABA-induced stomatal closure in Arabidopsis.

机构信息

State Key Laboratory of Plant Physiology and Biochemistry, College of Biological Sciences, China Agricultural University, Beijing 100193, China.

School of Life Sciences, Tianjin University, Tianjin 300072, China.

出版信息

Plant Cell. 2022 Jul 4;34(7):2708-2729. doi: 10.1093/plcell/koac106.

DOI:10.1093/plcell/koac106

PMID:35404404

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9252505/

Abstract

Stomatal opening is largely promoted by light-activated plasma membrane-localized proton ATPases (PM H+-ATPases), while their closure is mainly modulated by abscisic acid (ABA) signaling during drought stress. It is unknown whether PM H+-ATPases participate in ABA-induced stomatal closure. We established that BRI1-ASSOCIATED RECEPTOR KINASE 1 (BAK1) interacts with, phosphorylates and activates the major PM Arabidopsis H+-ATPase isoform 2 (AHA2). Detached leaves from aha2-6 single mutant Arabidopsis thaliana plants lost as much water as bak1-4 single and aha2-6 bak1-4 double mutants, with all three mutants losing more water than the wild-type (Columbia-0 [Col-0]). In agreement with these observations, aha2-6, bak1-4, and aha2-6 bak1-4 mutants were less sensitive to ABA-induced stomatal closure than Col-0, whereas the aha2-6 mutation did not affect ABA-inhibited stomatal opening under light conditions. ABA-activated BAK1 phosphorylated AHA2 at Ser-944 in its C-terminus and activated AHA2, leading to rapid H+ efflux, cytoplasmic alkalinization, and reactive oxygen species (ROS) accumulation, to initiate ABA signal transduction and stomatal closure. The phosphorylation-mimicking mutation AHA2S944D driven by its own promoter could largely compensate for the defective phenotypes of water loss, cytoplasmic alkalinization, and ROS accumulation in both aha2-6 and bak1-4 mutants. Our results uncover a crucial role of AHA2 in cytoplasmic alkalinization and ABA-induced stomatal closure during the plant's response to drought stress.

摘要

气孔的开启主要受光激活的质膜定位质子 ATP 酶（PM H+-ATPases）的促进，而在干旱胁迫下，其关闭主要受脱落酸（ABA）信号的调节。目前尚不清楚 PM H+-ATPases 是否参与 ABA 诱导的气孔关闭。我们发现，BRI1-ASSOCIATED RECEPTOR KINASE 1（BAK1）与质膜拟南芥 H+-ATPase 主要同工型 2（AHA2）相互作用、磷酸化并激活 AHA2。拟南芥 aha2-6 单突变体的离体叶片失去的水分与 bak1-4 单突变体和 aha2-6 bak1-4 双突变体相同，这三个突变体失去的水分都比野生型（哥伦比亚-0 [Col-0]）多。与这些观察结果一致，与 Col-0 相比，aha2-6、bak1-4 和 aha2-6 bak1-4 突变体对 ABA 诱导的气孔关闭的敏感性较低，而 aha2-6 突变对光条件下 ABA 抑制的气孔开放没有影响。ABA 激活的 BAK1 在其 C 端 Ser-944 处磷酸化 AHA2，并激活 AHA2，导致快速的 H+外排、细胞质碱化和活性氧（ROS）积累，从而启动 ABA 信号转导和气孔关闭。由其自身启动子驱动的磷酸化模拟突变体 AHA2S944D 可以在很大程度上补偿 aha2-6 和 bak1-4 突变体中丧失的失水、细胞质碱化和 ROS 积累等表型缺陷。我们的研究结果揭示了 AHA2 在植物响应干旱胁迫过程中细胞质碱化和 ABA 诱导的气孔关闭中的关键作用。

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