ZmNAC16 increases drought tolerance in maize seedlings via ABA-mediated stomatal closure

耐旱性 农学 生物 抗旱性 结束语(心理学) 干旱胁迫 扎梅斯 园艺 水分胁迫 蒸腾作用 气孔导度 抗冻性
作者
Kuan Cheng,Fashuai Li,Yingxue LI,Xiangyu Zhang,Jiong Liu,Shuai Zhao,X. Qian,Mingli Song,Qingzeng Li,Lulu Huang,Jiarong Sui,Yanzhen He,Wenjing Ge,Qian Liu,Haoyue Xu,Zhanqing Wu,Dr. Wei Chen,Hassan H.A. Mostafa,Xiang Zhao,Baozhu Li
出处
期刊:Crop Journal [KeAi]
标识
DOI:10.1016/j.cj.2026.03.008
摘要

Stomatal movement is a crucial response of plants to drought stress. Several NAC transcription factors have been implicated in drought tolerance in maize seedlings, whereas the molecular mechanism by which they directly regulate ABA signaling components within the context of the four-cell stomatal complex remains unknown. In this study, we characterized ZmNAC16 in regulating drought resistance and stomatal closure in maize. Through phenotypic analysis of transgenic overexpression and gene-edited mutant lines, we assessed ZmNAC16 function in stomatal dynamics and drought tolerance. Overexpression of ZmNAC16 in transgenic maize resulted in increased leaf temperature, reduced stomatal conductance, decreased water loss, and enhanced drought tolerance, whereas gene-edited mutants exhibited opposite phenotypes. ZmNAC16 localized to the nucleus and acted as a transcriptional activator. Disruption of ZmNAC16 significantly downregulated key ABA signaling components, including ZmCIPK3 and ZmPP2C81, whose promoters were directly bound by ZmNAC16. Consistently, ZmNAC16 knockout mutants showed impaired ABA-induced stomatal closure, while overexpression lines displayed heightened stomatal sensitivity to ABA. Collectively, our findings demonstrate that ZmNAC16 integrates ABA signaling to regulate stomatal closure and drought tolerance in maize, positioning it as a promising target for enhancing crop resilience
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