Institute of Plant Science and Resources, Okayama University, Chuo 2-20-1, Kurashiki, 710-0046, Japan.
State Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Nanjing, 210095, China.
New Phytol. 2022 May;234(4):1249-1261. doi: 10.1111/nph.18057. Epub 2022 Mar 17.
Grains are the major sink of phosphorus (P) in cereal crops, accounting for 60-85% of total plant P, but the mechanisms underlying P loading into the grains are poorly understood. We functionally characterized a transporter gene required for the distribution of P to the grains in barley (Hordeum vulgare), HvSPDT (SULTR-like phosphorus distribution transporter). HvSPDT encoded a plasma membrane-localized Pi/H cotransporter. It was mainly expressed in the nodes at both the vegetative and reproductive stages. Furthermore, its expression was induced by inorganic phosphate (Pi) deficiency. In the nodes, HvSPDT was expressed in both the xylem and phloem region of enlarged and diffuse vascular bundles. Knockout of HvSPDT decreased the distribution of P to new leaves, but increased the distribution to old leaves at the vegetative growth stage under low P supply. However, knockout of HvSPDT did not alter the redistribution of P from old to young organs. At the reproductive stage, knockout of HvSPDT significantly decreased P allocation to the grains, resulting in a considerable reduction in grain yield, especially under P-limited conditions. Our results indicate that node-based HvSPDT plays a crucial role in loading P into barley grains through preferentially distributing P from the xylem and further to the phloem.
谷物是谷类作物中磷(P)的主要储存库,占植物总 P 的 60-85%,但将 P 加载到谷物中的机制还知之甚少。我们对大麦(Hordeum vulgare)中负责 P 分配到谷物的转运蛋白基因 HvSPDT(SULTR 样磷分布转运蛋白)进行了功能表征。HvSPDT 编码一种质膜定位的 Pi/H 共转运蛋白。它主要在营养和生殖阶段的节点处表达。此外,其表达受无机磷(Pi)缺乏的诱导。在节点处,HvSPDT 在扩大和弥散维管束的木质部和韧皮部区域均有表达。HvSPDT 敲除减少了 P 在低 P 供应下向新叶的分配,但增加了向老叶的分配。然而,HvSPDT 的敲除并没有改变 P 从老器官向新器官的再分配。在生殖阶段,HvSPDT 的敲除显著减少了 P 向谷物的分配,导致谷物产量大幅下降,特别是在 P 限制条件下。我们的结果表明,基于节点的 HvSPDT 通过优先将 P 从木质部分配到韧皮部,然后进一步分配到韧皮部,在将 P 加载到大麦籽粒中起着至关重要的作用。
