J Integr Plant Biol.

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ZmSK4 activates ZmSLAC1 through relief of repression by ZmGCT1 and ZmPP2Cs in ABA signaling

Huiying Li1†, Zhenkai Feng2†*, Jinkui Cheng1, Yu Wang1, Junshen Qi1, Wen Song1, Shuhua Yang1 and Zhizhong Gong1,3*   

  1. 1. Frontiers Science Center for Molecular Design Breeding, State Key Laboratory of Plant Environmental Resilience, College of Biological Sciences, China Agricultural University, Beijing 100193, China;
    2. School of Chemistry and Chemical Engineering, Henan Normal University, Xinxiang 453007, China;
    3. College of Life Sciences, Institute of Life Science and Green Development, Hebei University, Baoding 071002, China
    These authors contribute equally to this work.
    *Correspondences: Zhizhong Gong (gongzz@cau.edu.cn, Dr. Gong is responsible for the distributions of the materials associated with this article); Zhenkai Feng (fengzhenkai@htu.edu.cn)
  • Received:2026-04-06 Accepted:2026-06-23 Online:2026-07-14
  • Supported by:
    This research was supported by the grants from the National Key Research and Development Program of China (2022YFF1001600), the National Science Foundation of China (32030008 and 31921001), and the Beijing Outstanding University Discipline.

Abstract: Guard cell movement is orchestrated by complex internal and environmental signals, with ZmGCT1 and ZmGCT2 playing critical roles in maintaining guard cell turgor in maize. Here, we demonstrate that ZmGCT1 interacts with and inhibits ZmSK4, a GSK3-like kinase. Under drought stress, ABA-activated ZmSnRK2s phosphorylate ZmGCT1, relieving its partial inhibition of ZmSK4, which, together with the relief of ZmPP2Cs-mediated inhibition, leads to ZmSK4 activation. ZmSK4 directly phosphorylates ZmSLAC1 and activates its anion currents in Xenopus oocytes, which ultimately promotes stomatal closure under drought stress. Consistent with this mechanism, mutations in ZmSK4 and its homolog ZmSK3 not only confer drought sensitivity but also suppress the constitutively closed stomata phenotype of the Zmgct1 mutant. Notably, in contrast to its BIN2 homologs, which do not regulate stomatal movement in Arabidopsis but stomatal development, ZmSK4 and ZmSK3 do not influence stomatal development in maize. Our findings thus delineate a complete phosphorylation relay within the ABA signaling pathway that dynamically regulates stomatal movement under drought stress in maize.

Key words: ABA, drought stress, stomatal movement, ZmGCT1, ZmSK4

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