ZmHAK17 encodes a Na+-selective transporter that promotes maize seed germination under salt conditions

New Crops Pub Date : 2024-05-06 DOI:10.1016/j.ncrops.2024.100024

Limin Wang , Yanyan Wang , Pan Yin , Caifu Jiang , Ming Zhang

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Abstract

Elevated sodium ion (Na⁺) in saline farmlands adversely affect crops, notably by inhibiting seed germination. Given the importance of High-Affinity K⁺ Transporter (HAK) family Na⁺ transporters in plant salt tolerance and ZmHAK4 role in maize salt tolerance, our study focuses on characterizing HAK transporters related to ZmHAK4 in maize’s salt stress response. We found that ZmHAK17 is vital for promoting seed germination under saline conditions. Expressed mainly in the germinating embryo’s radicle, ZmHAK17, encodes a Na⁺ transporter located in the plasma membrane. Increased ZmHAK17 transcript levels under salt stress facilitate Na⁺ efflux from the radicle, preventing Na⁺ accumulation in the embryo and reducing salt stress effects on germination. Mutants lacking ZmHAK17 exhibit salt-sensitive germination. This study highlights ZmHAK17 as a key transporter enhancing maize germination in saline conditions, deepening our understanding of HAK family Na⁺ transporters’ role in salt tolerance and offering a new target gene for salt-tolerant maize breeding.

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ZmHAK17 编码一种 Na+ 选择性转运体，可在盐分条件下促进玉米种子萌发

盐碱地中钠离子（Na+）的升高会对农作物产生不利影响，尤其是抑制种子萌发。鉴于高亲和性K+转运体（HAK）家族Na+转运体在植物耐盐性中的重要性以及ZmHAK4在玉米耐盐性中的作用，我们的研究重点是鉴定与ZmHAK4相关的HAK转运体在玉米盐胁迫反应中的特性。我们发现，ZmHAK17 在盐碱条件下对促进种子萌发至关重要。ZmHAK17 主要在发芽胚的胚根中表达，编码位于质膜上的 Na+ 转运体。在盐胁迫条件下，ZmHAK17 转录物水平的增加会促进 Na+ 从胚根中外流，从而防止 Na+ 在胚中积累，减少盐胁迫对发芽的影响。缺乏 ZmHAK17 的突变体表现出盐敏感性萌芽。这项研究强调了 ZmHAK17 是在盐胁迫条件下提高玉米发芽率的关键转运体，加深了我们对 HAK 家族 Na+ 转运体在耐盐中作用的理解，并为耐盐玉米育种提供了一个新的目标基因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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New Crops

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