Mitochondrial VOLTAGE-DEPENDENT ANION CHANNEL 3 regulates stomatal closure by abscisic acid signaling

Author:

Qin Haixia1ORCID,Yang Wenqi1ORCID,Liu Zile1ORCID,Ouyang Yi1ORCID,Wang Xiao1ORCID,Duan Haiyang2ORCID,Zhao Bing1ORCID,Wang Shujie1ORCID,Zhang Junli1ORCID,Chang Yuankai3ORCID,Jiang Kun4ORCID,Yu Ke1ORCID,Zhang Xuebin1ORCID

Affiliation:

1. State Key Laboratory of Crop Stress Adaptation and Improvement, Henan Joint International Laboratory for Crop Multi-Omics Research, School of Life Sciences, Henan University , Kaifeng 475004 , China

2. State Key Laboratory of Wheat and Maize Crops Science, College of Agronomy, Henan Agricultural University , Zhengzhou 450002 , China

3. School of Life Sciences, Henan University , Kaifeng 475004 , China

4. College of Life Sciences, Zhejiang University , Hangzhou 310058 , China

Abstract

Abstract In Arabidopsis (Arabidopsis thaliana), stomatal closure mediated by abscisic acid (ABA) is redundantly controlled by ABA receptor family proteins (PYRABACTIN RESISTANCE 1 [PYR1]/PYR1-LIKE [PYLs]) and subclass III SUCROSE NONFERMENTING 1 (SNF1)-RELATED PROTEIN KINASES 2 (SnRK2s). Among these proteins, the roles of PYR1, PYL2, and SnRK2.6 are more dominant. A recent discovery showed that ABA-induced accumulation of reactive oxygen species (ROS) in mitochondria promotes stomatal closure. By analyzing stomatal movements in an array of single and higher order mutants, we revealed that the mitochondrial protein VOLTAGE-DEPENDENT ANION CHANNEL 3 (VDAC3) jointly regulates ABA-mediated stomatal closure with a specialized set of PYLs and SnRK2s by affecting cellular and mitochondrial ROS accumulation. VDAC3 interacted with 9 PYLs and all 3 subclass III SnRK2s. Single mutation in VDAC3, PYLs (except PYR1 and PYL2), or SnRK2.2/2.3 had little effect on ABA-mediated stomatal closure. However, knocking out PYR1, PYL1/2/4/8, or SnRK2.2/2.3 in vdac3 mutants resulted in significantly delayed or attenuated ABA-mediated stomatal closure, despite the presence of other PYLs or SnRK2s conferring redundant functions. We found that cellular and mitochondrial accumulation of ROS induced by ABA was altered in vdac3pyl1 mutants. Moreover, H2O2 treatment restored ABA-induced stomatal closure in mutants with decreased stomatal sensitivity to ABA. Our work reveals that VDAC3 ensures redundant control of ABA-mediated stomatal closure by canonical ABA signaling components.

Funder

National Natural Science Foundation of China

Henan Key Scientific Research Programs to Universities and Colleges

Henan Overseas Expertise Introduction Center for Discipline Innovation

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

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