College of Life Sciences, Nanjing Agricultural University, Nanjing, 210095, China.
Institute of Plant Science and Resources, Okayama University, Chuo 2-20-1, Kurashiki, 710-0046, Japan.
Plant J. 2021 Feb;105(3):786-799. doi: 10.1111/tpj.15073. Epub 2020 Dec 3.
Tiller number is one of the most important agronomic traits that determine rice (Oryza sativa) yield. Active growth of tiller bud (TB) requires high amount of mineral nutrients; however, the mechanism underlying the distribution of mineral nutrients to TB with low transpiration is unknown. Here, we found that the distribution of Zn to TB is mediated by OsZIP4, one of the ZIP (ZRT, IRT-like protein) family members. The expression of OsZIP4 was highly detected in TB and nodes, and was induced by Zn deficiency. Immunostaining analysis revealed that OsZIP4 was mainly expressed in phloem of diffuse vascular bundles in the nodes and the axillary meristem. The mutation of OsZIP4 did not affect the total Zn uptake, but altered Zn distribution; less Zn was delivered to TB and new leaf, but more Zn was retained in the basal stems at the vegetative growth stage. Bioimaging analysis showed that the mutant aberrantly accumulated Zn in enlarged and transit vascular bundles of the basal node, whereas in wild-type high accumulation of Zn was observed in the meristem part. At the reproductive stage, mutation of OsZIP4 resulted in delayed panicle development, which is associated with decreased Zn distribution to the panicles. Collectively, OsZIP4 is involved in transporting Zn to the phloem of diffuse vascular bundles in the nodes for subsequent distribution to TBs and other developing tissues. It also plays a role in transporting Zn to meristem cells in the TBs.
分蘖数是决定水稻(Oryza sativa)产量的最重要农艺性状之一。分蘖芽(TB)的活跃生长需要大量的矿质养分;然而,向蒸腾作用低的分蘖芽分配矿质养分的机制尚不清楚。在这里,我们发现 Zn 向分蘖芽的分配是由 OsZIP4 介导的,OsZIP4 是 ZIP(ZRT、IRT-like protein)家族成员之一。OsZIP4 的表达在分蘖芽和节中被高度检测到,并受到 Zn 缺乏的诱导。免疫染色分析表明,OsZIP4 主要在节点和腋芽分生组织的弥散维管束的韧皮部中表达。OsZIP4 突变不影响总 Zn 摄取,但改变了 Zn 分布;向分蘖芽和新叶输送的 Zn 减少,但在营养生长阶段保留在基部茎中的 Zn 增加。生物成像分析表明,突变体在基部节点的扩大和过渡维管束中异常积累 Zn,而在野生型中,在分生组织部分观察到 Zn 的高度积累。在生殖阶段,OsZIP4 突变导致穗发育延迟,这与 Zn 向穗的分配减少有关。总之,OsZIP4 参与将 Zn 转运到节点弥散维管束的韧皮部,以便随后分配到分蘖芽和其他发育组织中。它还在将 Zn 转运到分蘖芽分生组织细胞中发挥作用。
