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A SnRK2-HAK regulatory module confers natural variation of salt tolerance in maize

Ming Zhang, Xueyan Zhou, Limin Wang, Xiaoyan Liang, Xin Liu, Caifu Jiang

2025Nature Communications19 citationsDOIOpen Access PDF

Abstract

The exclusion of sodium ions (Na+) from the shoot tissue, termed shoot Na+ exclusion, underlies a core mechanism of crop salt tolerance. Recent studies have shown that the HAK (High-Affinity K+ Transporter) family Na+ transporters play a key role in shoot Na+ exclusion of various crops, however, it is unknown whether and how this type of transporter is post-transcriptionally regulated. Here, we show that two closely related SnRK2 kinases, designated as ZmSnRK2.9 and ZmSnRK2.10, promote shoot Na+ exclusion and salt tolerance by activating the Na+ transporter ZmHAK4 in maize. Under salt conditions, the kinase activity of ZmSnRK2.9 and ZmSnRK2.10 is activated, then they interact with and phosphorylate ZmHAK4 at Ser5, increasing the Na+ transport activity of ZmHAK4, which in turn promotes salt tolerance by improving the exclusion of Na+ from the shoot tissue. Furthermore, we show that a 20-bp deletion that occurred naturally in the ZmSnRK2.10 promoter decreases its transcript level, resulting in an increased shoot Na+ content under salt conditions. Our findings support a breeding program that can utilize the favorable alleles of ZmHAK4 and ZmSnRK2.10 to enhance both the transcriptional and post-transcriptional activation of ZmHAK4, thus advancing the development of salt-tolerant maize. The authors demonstrated that maize SnRK2 kinases (ZmSnRK2.9/2.10) phosphorylate ZmHAK4, reducing shoot sodium and enhancing salt tolerance, and identified a favorable allele of ZmSnRK2.10 that provides a target for breeding salt-tolerant maize.

Topics & Concepts

Variation (astronomy)BiologyBiotechnologyComputational biologyAstrophysicsPhysicsPlant Stress Responses and TolerancePlant nutrient uptake and metabolismGenetic Mapping and Diversity in Plants and Animals