BORON IN PLANT STRUCTURE AND FUNCTION.

Annual review of plant physiology and plant molecular biology Pub Date : 1998-06-01 DOI:10.1146/annurev.arplant.49.1.481

Dale G. Blevins, Krystyna M. Lukaszewski

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引用次数: 750

Abstract

New and exciting developments in boron research in the past few years greatly contributed to better understanding of the role of boron in plants. Purification and identification of the first boron-polyol transport molecules resolved much of the controversy about boron phloem mobility. Isolation and characterization of the boron-polysaccharide complex from cell walls provided the first direct evidence for boron crosslinking of pectin polymers. Inhibition and recovery of proton release upon boron withdrawal and restitution in plant culture medium demonstrated boron involvement in membrane processes. Rapid boron-induced changes in membrane function could be attributed to boron-complexing membrane constituents. Boron may affect metabolic pathways by binding apoplastic proteins to cis-hydroxyl groups of cell walls and membranes, and by interfering with manganese-dependent enzymatic reactions. In addition, boron has been implicated in counteracting toxic effects of aluminum on root growth of dicotyledonous plants. Molecular investigations of boron nutrition have been initiated by the discovery of a novel mutant of Arabidopsis thaliana with an altered requirement for boron.

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硼在植物结构和功能中的作用。

近年来，硼的研究取得了令人振奋的新进展，这极大地促进了人们对硼在植物中的作用的认识。第一个硼-多元醇转运分子的纯化和鉴定，解决了许多关于硼韧皮部移动性的争议。细胞壁中硼-多糖复合物的分离和表征为果胶聚合物的硼交联提供了第一个直接证据。植物培养基中硼的提取和恢复对质子释放的抑制和恢复表明硼参与了膜过程。硼引起的膜功能的快速变化可归因于硼络合膜成分。硼可能通过将外胞体蛋白结合到细胞壁和细胞膜的顺羟基上以及干扰锰依赖的酶促反应来影响代谢途径。此外，硼还参与了抵消铝对双子叶植物根系生长的毒性作用。硼营养的分子研究是由一种对硼需求改变的拟南芥(Arabidopsis thaliana)新突变体的发现发起的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Annual review of plant physiology and plant molecular biology

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