Your search keyword '"Chu-yan, Li"' showing total 2 results

1. Four plasma membrane-localized MGR transporters mediate xylem Mg2+ loading for root-to-shoot Mg2+ translocation in Arabidopsis.

Author

Meng, Su-Fang, Zhang, Bin, Tang, Ren-Jie, Zheng, Xiao-Jiang, Chen, Rui, Liu, Cong-Ge, Jing, Yan-Ping, Ge, Hai-Man, Zhang, Chi, Chu, Yan-Li, Fu, Ai-Gen, Zhao, Fu-Geng, Luan, Sheng, and Lan, Wen-Zhi

Abstract

Magnesium (Mg2+), an essential structural component of chlorophyll, is absorbed from the soil by roots and transported to shoots to support photosynthesis in plants. However, the molecular mechanisms underlying root-to-shoot Mg2+ translocation remain largely unknown. We describe here the identification of four plasma membrane (PM)-localized transporters, named Mg2+ release transporters (MGRs), that are critical for root-to-shoot Mg transport in Arabidopsis. Functional complementation assays in a Mg2+-uptake-deficient bacterial strain confirmed that these MGRs conduct Mg2+ transport. PM-localized MGRs (MGR4, MGR5, MGR6, and MGR7) were expressed primarily in root stellar cells and participated in the xylem loading step of the long-distance Mg2+ transport process. In particular, MGR4 and MGR6 played a major role in shoot Mg homeostasis, as their loss-of-function mutants were hypersensitive to low Mg2+ but tolerant to high Mg2+ conditions. Reciprocal grafting analysis further demonstrated that MGR4 functions in the root to determine shoot Mg2+ accumulation and physiological phenotypes caused by both low- and high-Mg2+ stress. Taken together, our study has identified the long-sought transporters responsible for root-to-shoot Mg2+ translocation in plants. Plants deliver Mg2+ to shoots, which is crucial for chloroplast structure and photosynthesis. In this study, the authors have identified four plasma membrane-localized Mg2+ release transporters (MGRs) that can load Mg2+ into the xylem and thus determine shoot Mg2+ accumulation in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2022

2. Four plasma membrane-localized MGR transporters mediate xylem Mg 2+ loading for root-to-shoot Mg 2+ translocation in Arabidopsis.

Author

Meng SF, Zhang B, Tang RJ, Zheng XJ, Chen R, Liu CG, Jing YP, Ge HM, Zhang C, Chu YL, Fu AG, Zhao FG, Luan S, and Lan WZ

Subjects

Biological Transport, Cell Membrane metabolism, Membrane Transport Proteins metabolism, Plant Roots metabolism, Plant Shoots metabolism, Xylem metabolism, Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism

Abstract

Magnesium (Mg 2+ ), an essential structural component of chlorophyll, is absorbed from the soil by roots and transported to shoots to support photosynthesis in plants. However, the molecular mechanisms underlying root-to-shoot Mg 2+ translocation remain largely unknown. We describe here the identification of four plasma membrane (PM)-localized transporters, named Mg 2+ release transporters (MGRs), that are critical for root-to-shoot Mg transport in Arabidopsis. Functional complementation assays in a Mg 2+ -uptake-deficient bacterial strain confirmed that these MGRs conduct Mg 2+ transport. PM-localized MGRs (MGR4, MGR5, MGR6, and MGR7) were expressed primarily in root stellar cells and participated in the xylem loading step of the long-distance Mg 2+ transport process. In particular, MGR4 and MGR6 played a major role in shoot Mg homeostasis, as their loss-of-function mutants were hypersensitive to low Mg 2+ but tolerant to high Mg 2+ conditions. Reciprocal grafting analysis further demonstrated that MGR4 functions in the root to determine shoot Mg 2+ accumulation and physiological phenotypes caused by both low- and high-Mg 2+ stress. Taken together, our study has identified the long-sought transporters responsible for root-to-shoot Mg 2+  translocation in plants., (Copyright © 2022 The Author. Published by Elsevier Inc. All rights reserved.)

Published

2022