State Key Lab of Aridland Crop Science / Gansu Key Lab of Crop Improvement and Germplasm Enhancement, Lanzhou, China.
Department of Crop Genetics and Breeding, College of Agronomy, Gansu Agricultural University, Lanzhou, China.
Physiol Plant. 2024 May-Jun;176(3):e14356. doi: 10.1111/ppl.14356.
Halophyte Halogeton glomeratus mostly grows in saline desert areas in arid and semi-arid regions and is able to adapt to adverse conditions such as salinity and drought. Earlier transcriptomic studies revealed activation of the HgS2 gene in the leaf of H. glomeratus seedlings when exposed to saline conditions. To identify the properties of HgS2 in H. glomeratus, we used yeast transformation and overexpression in Arabidopsis. Yeast cells genetically transformed with HgS2 exhibited K uptake and Na efflux compared with control (empty vector). Stable overexpression of HgS2 in Arabidopsis improved its resistance to salt stress and led to a notable rise in seed germination in salinity conditions compared to the wild type (WT). Transgenic Arabidopsis regulated ion homeostasis in plant cells by increasing Na absorption and decreasing K efflux in leaves, while reducing Na absorption and K efflux in roots. In addition, overexpression of HgS2 altered transcription levels of stress response genes and regulated different metabolic pathways in roots and leaves of Arabidopsis. These results offer new insights into the role of HgS2 in plants' salt tolerance.
盐生植物盐节木主要生长在干旱半干旱地区的盐漠地区,能够适应盐度和干旱等不利条件。早期的转录组学研究表明,盐胁迫下盐节木幼苗叶片中的 HgS2 基因被激活。为了鉴定 HgS2 在盐节木中的特性,我们使用酵母转化和在拟南芥中的过表达。与对照(空载体)相比,遗传转化 HgS2 的酵母细胞表现出 K 摄取和 Na 外排。HgS2 在拟南芥中的稳定过表达提高了其耐盐性,并导致在盐胁迫条件下种子发芽率显著提高,与野生型(WT)相比。转基因拟南芥通过增加叶片中 Na 的吸收和减少 K 的外排来调节细胞内离子稳态,同时减少根中 Na 的吸收和 K 的外排。此外,HgS2 的过表达改变了拟南芥根和叶中应激反应基因的转录水平,并调节了不同的代谢途径。这些结果为 HgS2 在植物耐盐性中的作用提供了新的见解。
