The specific HbHAK2 promoter from halophytic Hordeum brevisubulatum regulates root development under salt stress

Haiwen Zhang , Xiaonan Tian , Wenwen Yu , Yunxiao Wang , Qingwei Du , Ruifen Li
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Abstract

Halophytes face continuous challenges from environmental salt conditions throughout their lifecycle, and adaptive strategies are essential for their growth and survival. Hordeum brevisubulatum, a halophytic forage grass, relies on efficient K+ uptake for salt tolerance, as demonstrated by the inducible expression of HbHAK2 (high affinity K+ transporter 2). Using genome walking, we isolated a unique 744-bp HbHAK2 promoter, distinct from the upstream sequences of HvHAK2 in barley. Transgenic Arabidopsis plants carrying the GUS gene, driven by the HbHAK2 promoter, exhibited higher activity in tissues and cells exhibiting polar growth, including root hairs, lateral root initiation sites, trichomes, and shoot apical meristems (SAM), particularly under various stresses compared to control conditions. In both Arabidopsis and Brachypodium distachyon, the expression of HbHAK2, driven by its promoter (proHbHAK2) improved K+ uptake, promoted a root architecture characterized by increased lateral branching, and enhanced salt tolerance by augmenting the root system (including lateral roots and root-hair development and growth) under salt stress. Therefore, variation in the HbHAK2 promoter represents a specific strategy for halophytic H. brevisubulatum to cope with salt stress, which holds potential for improving salt tolerance in crop breeding programs.

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盐生大麦(Hordeum brevisubulatum)的特异性 HbHAK2 启动子调控盐胁迫下的根系发育
盐生植物在其整个生命周期中不断面临环境盐分条件的挑战,适应策略对其生长和生存至关重要。Hordeum brevisubulatum是一种盐生牧草,其耐盐性依赖于高效的K+吸收,HbHAK2(高亲和力K+转运体2)的诱导表达就证明了这一点。通过基因组走查,我们分离出了一个独特的 744-bp HbHAK2 启动子,它与大麦中 HvHAK2 的上游序列不同。在 HbHAK2 启动子的驱动下,携带 GUS 基因的转基因拟南芥植株在根毛、侧根起始点、毛状体和芽尖分生组织(SAM)等表现出极性生长的组织和细胞中表现出更高的活性,尤其是在各种胁迫条件下与对照组相比。在拟南芥和蕨类植物中,由 HbHAK2 启动子(proHbHAK2)驱动的 HbHAK2 表达改善了 K+ 吸收,促进了以侧枝增加为特征的根系结构,并通过在盐胁迫下增强根系(包括侧根和根毛的发育和生长)来提高耐盐性。因此,HbHAK2 启动子的变异代表了盐生 H. brevisubulatum 应对盐胁迫的一种特殊策略,具有在作物育种计划中提高耐盐性的潜力。
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