ARC Centre of Excellence in Plant Energy Biology, School of Agriculture, Food and Wine & Waite Research Institute, University of Adelaide, Glen Osmond, 5064, Australia.
CSIRO Agriculture and Food, Locked Bag 2, Glen Osmond, 5064, Australia.
J Plant Physiol. 2020 Mar-Apr;246-247:153113. doi: 10.1016/j.jplph.2020.153113. Epub 2020 Jan 17.
Grapevine (Vitis vinifera L.) is a valuable crop for human consumption and wine production, and is prone to suffering from salinity stress in arid regions or when exposed to low quality irrigation water. A previous study identified a quantitative trait locus (QTL) NaE, containing six High-affinity Potassium Transporter 1 genes, that was associated with shoot Na exclusion in grapevine. While HKT1;1 was predicted to be the most likely gene within this QTL to encode for this important salinity tolerance sub-trait, four other HKTs within the QTL remained uncharacterised; VviHKT1;2 encodes a truncated transcript unlikely to form a functional transporter. In this study, two allelic variants for each of VviHKT1;6, VviHKT1;7 and VviHKT1;8 from the heterozygous grapevine variety Cabernet Sauvignon were functionally characterised. Using the Xenopus laevis oocyte heterologous expression system, as well as transient expression in tobacco leaves, we found that the VviHKT1;6 and VviHKT1;7 alleles encoded plasma membrane localised proteins that facilitated significant non-rectifying Na transport. Conversely, proteins encoded by the VviHKT1;8 alleles were inwardly-rectifying, weak Na transporters that localised to intracellular organelles. Mining of previous RNA-seq gene expression data suggested that VviHKT1;6-8 are weakly expressed in grapevine roots, flower buds, and seeds under normal conditions and different nutrient regimes. We propose that VviHKT1;6 and VviHKT1;7 are likely to have a less significant role in grapevine leaf Na exclusion than VviHKT1;1, and that VviHKT1;8 is involved in endomembrane Na transport.
葡萄(Vitis vinifera L.)是一种对人类食用和酿酒都很有价值的作物,在干旱地区或暴露于劣质灌溉水的情况下,容易受到盐胁迫的影响。之前的研究确定了一个与葡萄茎部 Na 排斥有关的数量性状位点(QTL)NaE,该位点包含六个高亲和性钾转运蛋白 1 基因。虽然预测 HKT1;1 是该 QTL 中最有可能编码此重要耐盐亚性状的基因,但该 QTL 中仍有四个其他 HKT 基因尚未被描述;VviHKT1;2 编码一种截短的转录本,不太可能形成功能性转运蛋白。在这项研究中,从杂合葡萄品种赤霞珠(Cabernet Sauvignon)中,对 VviHKT1;6、VviHKT1;7 和 VviHKT1;8 的每个基因的两个等位变体进行了功能特征描述。使用非洲爪蟾卵母细胞异源表达系统以及在烟草叶片中的瞬时表达,我们发现 VviHKT1;6 和 VviHKT1;7 等位基因编码的蛋白质定位于质膜上,可促进显著的非整流性 Na 转运。相反,VviHKT1;8 等位基因编码的蛋白是内向整流的弱 Na 转运蛋白,定位于细胞内细胞器。对先前 RNA-seq 基因表达数据的挖掘表明,在正常条件下以及不同的养分条件下,VviHKT1;6-8 在葡萄根、花蕾和种子中的表达水平较低。我们提出,VviHKT1;6 和 VviHKT1;7 在葡萄叶 Na 排斥中的作用可能不如 VviHKT1;1 重要,而 VviHKT1;8 参与了内体膜 Na 转运。
