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硼转运蛋白 BOR1 的极性定位和内吞降解依赖于特定的酪氨酸残基。

Polar localization and endocytic degradation of a boron transporter, BOR1, is dependent on specific tyrosine residues.

机构信息

Division of Life Science, Graduate School of Life Science, Hokkaido University, Sapporo, Japan.

出版信息

Plant Signal Behav. 2012 Jan;7(1):46-9. doi: 10.4161/psb.7.1.18527.

DOI:10.4161/psb.7.1.18527
PMID:22301967
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3357367/
Abstract

Boron (B) is essential for plants, but is toxic in excess. Plants have to strictly regulate the uptake and translocation of B. In Arabidopsis thaliana root cells, a boric acid channel, NIP5;1, and a boric acid/borate exporter, BOR1, localize to the outer (facing soil) and inner plasma membrane domains, respectively, under B limitation. The opposite polar localizations of the importer and exporter would enable plant roots to transport B efficiently towards the xylem. In addition, accumulation of the B transporters is controlled by B conditions. When plants are shifted from low to high B conditions, NIP5;1 transcript accumulation is down-regulated through mRNA degradation. The BOR1 protein is transported to the trans-Golgi network/early endosome and multivesicular body and finally degraded in the vacuole. We have recently shown that both the polar localization and the endocytic degradation of BOR1 are controlled by at least two tyrosine residues in a large loop located in the cytosol. We also showed that ubiquitination is required for the endocytic degradation of BOR1. Here, we analyzed possible involvement of an additional tyrosine residue (Y414) in the loop region and discuss the pathway of the BOR1 trafficking for polar localization and endocytic degradation of BOR1.

摘要

硼(B)对植物是必需的,但过量则有毒。植物必须严格调控 B 的摄取和转运。在拟南芥根细胞中,硼酸通道 NIP5;1 和硼酸/硼酸盐外排器 BOR1 在 B 限制下分别定位于外膜(面向土壤)和内膜区域。这种内外膜上的载体的极性定位使得植物根能够有效地将 B 运输到木质部。此外,B 转运体的积累受到 B 条件的控制。当植物从低 B 条件转移到高 B 条件时,NIP5;1 转录物的积累通过 mRNA 降解而受到下调。BOR1 蛋白被运输到反式高尔基体网络/早期内体和多泡体,最终在液泡中降解。我们最近表明,BOR1 的极性定位和内吞降解都受到位于细胞质中大环中的至少两个酪氨酸残基的控制。我们还表明,泛素化是 BOR1 内吞降解所必需的。在这里,我们分析了环区中另一个酪氨酸残基(Y414)的可能参与,并讨论了 BOR1 运输途径,以实现 BOR1 的极性定位和内吞降解。

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