ZmCRK5A kinase enhances drought tolerance in maize via phosphorylation-dependent inhibition of ZmSMH4

doi:10.1111/jipb.70054

• Research Article •

ZmCRK5A kinase enhances drought tolerance in maize via phosphorylation-dependent inhibition of ZmSMH4

Aifang Ma^1*, Yuemei Zhang¹, Yu Wang¹, He Ma¹, Hui Chen¹, Yuanpeng Qi¹, Manman Zhang², Ziting Zhong¹, Jinkui Cheng¹, Junsheng Qi¹, Shuhua Yang¹ and Zhizhong Gong^1,3*

1. State Key Laboratory of Plant Environmental Resilience, Frontiers Science Center for Molecular Design Breeding, Center for Crop Functional Genomics and Molecular Breeding, College of Biological Sciences, China Agricultural University, Beijing 100193, China
2. Department of Plant Pathology, College of Agriculture, Guizhou University, Guiyang 550025, China
3. College of Life Sciences, Institute of Life Science and Green Development, Hebei University, Baoding 071002, China

^*Correspondences: Aifang Ma (maaifang@cau.edu.cn); Zhizhong Gong (gongzz@cau.edu.cn, Dr. Gong is fully responsible for the distribution of all materials associated with this article)

Received:2025-06-29 Accepted:2025-09-10 Online:2025-10-23
Supported by:
This research is supported by National Key Research and Development Program of China (2022YFF1001600), Beijing Natural Science Foundation (5244040), STI2030‐Major Projects (2030ZD0407101), and China Postdoctoral Science Foundation (2022M723435).

Abstract

Abstract: Drought stress orchestrates a phosphorylation-dependent signaling cascade that reprograms transcriptional networks to enhance crop resilience. Through a large-scale transgenic screening, we identified ZmCRK5A, a Ca²⁺-independent calcium-dependent protein kinase (CDPK)-related kinase, as a master regulator of drought tolerance in maize. Mechanistically, ZmCRK5A directly phosphorylates the MYB transcriptional repressor ZmSMH4 (Single MYB Histone 4) at three conserved serine residues (Ser42/43/59) within its SANT domain, as demonstrated by in vitro kinase assays and site-directed mutagenesis. This post-translational modification abolishes ZmSMH4's DNA-binding capacity to ACC cis-elements, thereby de-repressing the potassium influx channel gene ZmKCH1 (K⁺ Channel 1). Functional validation revealed that ZmKCH1 overexpression confers drought resilience through optimized stomatal dynamics and water retention, whereas clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9(Cas9)-generated zmkch1 mutants display hypersensitivity to water deficit. Crucially, field evaluations demonstrated preserved grain yield alongside enhanced drought tolerance in plants with activated ZmCRK5A–ZmSMH4–ZmKCH1 signaling. Our findings delineate a kinase-transcription factor-ion channel axis that dynamically fine-tunes drought responses while maintaining productivity, providing a strategic framework for engineering stress-adapted crops without yield penalties.

Key words: drought response, maize, phosphorylation, transcription factor, ZmCRK5A, ZmSMH4

Aifang Ma, Yuemei Zhang, Yu Wang, He Ma, Hui Chen, Yuanpeng Qi, Manman Zhang, Ziting Zhong, Jinkui Cheng, Junsheng Qi, Shuhua Yang, Zhizhong Gong. ZmCRK5A kinase enhances drought tolerance in maize via phosphorylation-dependent inhibition of ZmSMH4[J]. J Integr Plant Biol., DOI: 10.1111/jipb.70054.

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ZmCRK5A kinase enhances drought tolerance in maize via phosphorylation-dependent inhibition of ZmSMH4

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