The ZmRACK1–ZmCDPK7–ZmAPX1 module regulates plant antiviral immunity

doi:10.1111/jipb.70285

• Research Article • Next Articles

The ZmRACK1–ZmCDPK7–ZmAPX1 module regulates plant antiviral immunity

Yuyang Zhang¹, Niannian Li¹, Qiongqiong Wang^1,2, Yingchao Sun¹, Yajuan Shi¹, Lianwei Yu¹, Xiaoyu Han¹, Xiaoxi Feng³, Zaifeng Fan⁴, Linlin Chen¹, Honglian Li^1,2, Xue Yang^1*, Hongxia Yuan^1* and Yan Shi^1,2*

1. College of Plant Protection, Henan Agricultural University, Zhengzhou 450046, China
2. State Key Laboratory of High‐Efficiency Production of Wheat‐Maize Double Cropping, Zhengzhou 450046, China
3. Zhumadian Academy of Agricultural Sciences, Zhumadian 463000, China
4. College of Plant Protection, China Agricultural University, Beijing 100193, China
^*Correspondences: Yan Shi (shiyan@henau.edu.cn, Dr. Shi is fully responsible for the distribution of all materials associated with this article); Xue Yang (yangxuepphappy@126.com); Hongxia Yuan (yhx2156@126.com)

Received:2025-12-02 Accepted:2026-04-20 Online:2026-05-10
Supported by:
We extend our gratitude to Liuji Wu for providing ZmAPX1 overexpression and mutant lines, and to Yanyong Cao for supplying B73 seeds. This research was supported by the Program of Innovative Research Team (in Science and Technology) at the University of Henan Province (25IRTSTHN031), the Zhongyuan Science and Technology Innovation Youth Talents Program (30603407), and the Modern Agricultural System in Industry and Technology of Henan Province (HARS‐22‐02‐G3).

Abstract

Abstract: Calcium-dependent protein kinases (CDPKs) in plants play crucial roles in mediating responses to both biotic and abiotic stresses. However, the molecular mechanism through which CDPKs regulate antiviral immunity in plants remains largely elusive. In this study, we identified ZmCDPK7 as a key player in response to various stimuli. Lines overexpressing ZmCDPK7 exhibited enhanced resistance to maize chlorotic mottle virus (MCMV) infection, while ZmCDPK7 knock-out lines demonstrated increased sensitivity, indicating that ZmCDPK7 positively regulates maize immunity against MCMV. Furthermore, ZmCDPK7 interacts with ZmAPX1 and enhances its enzymatic activity by phosphorylating ZmAPX1 at Thr164, thereby reducing reactive oxygen species (ROS) production. The scaffold protein ZmRACK1 interacts with both ZmCDPK7 and ZmAPX1, facilitating the formation of a ternary complex that enhances ZmCDPK7-mediated ZmAPX1 enzymatic activity. Lines overexpressing ZmAPX1 also showed increased resistance to MCMV infection, while ZmAPX1 mutant lines (Zmapx1 MU1 and Zmapx1 MU2) exhibited increased sensitivity. Additionally, CRISPR/Cas9-mediated genome editing of ZmRACK1 in maize resulted in increased susceptibility to MCMV. To counteract plant defense, the MCMV protein P31 interacts with ZmCDPK7 and ZmRACK1, disrupting the interaction between ZmRACK1–ZmCDPK7 and ZmCDPK7–ZmAPX1, thereby blocking the ternary complex formation. Moreover, ZmCDPK7 is also implicated in defense against drought stress and corn stalk rot. Overall, our findings provide valuable insights into the molecular mechanisms by which the ZmRACK1–ZmCDPK7–ZmAPX1 module regulates plant immunity, identifying the potential new targets for the genetic control of maize viral diseases.

Key words: calcium‐dependent protein kinase, maize, plant antiviral immunity

Yuyang Zhang, Niannian Li, Qiongqiong Wang, Yingchao Sun, Yajuan Shi, Lianwei Yu, Xiaoyu Han, Xiaoxi Feng, Zaifeng Fan, Linlin Chen, Honglian Li, Xue Yang, Hongxia Yuan, Yan Shi. The ZmRACK1–ZmCDPK7–ZmAPX1 module regulates plant antiviral immunity[J]. J Integr Plant Biol., DOI: 10.1111/jipb.70285.

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The ZmRACK1–ZmCDPK7–ZmAPX1 module regulates plant antiviral immunity

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