Possible involvement of condensed tannins in aluminium tolerance of Lotus pedunculatus.

Australian Journal of Plant Physiology Pub Date : 2001-11-16 DOI:10.1071/PP01012

P. Stoutjesdijk, P. Sale, P. Larkin

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引用次数: 23

Abstract

We investigated the distribution of aluminium (Al) in the root tips of the Al-tolerant forage legume,Lotus pedunculatus Cav., a species that also accumulates condensed tannin (proanthocyanidin) in the roots and leaves. Clonal cuttings were grown in low ionic-strength nutrient solutions containing Al at levels that were either stimulatory or inhibitory (5–60µM ). The X-ray microanalysis of treated root apices revealed Al deposits at all Al concentrations. In freeze-fractured root samples from high Al concentrations (30 and 60 M ), deposits were found very close to the root tip. These deposits were predominantly composed of Al, phosphorus (P) and silicon (Si). At low Al concentrations (10 µM ), epoxy-embedded root samples were examined and Al deposits were also found near the meristematic areas. At lower concentrations (10 µM ), Al was found associated with P. In all osmium-fixed samples from high and low Al concentrations, Al was generally found in association with osmium-binding vacuoles. Because of the established high affinity of osmium for condensed tannin, the hypothesis is developed that condensed tannins possibly bind and detoxify Al in the root apices of L. pedunculatus.

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浓缩单宁可能参与荷花耐铝性。

研究了耐铝饲料豆科植物莲藕根尖上铝的分布。一种在根和叶中积累浓缩单宁(原花青素)的物种。克隆扦插在低离子强度的营养液中生长，营养液中含有刺激性或抑制性(5-60µM)的Al。处理后根尖的x射线微量分析显示，在不同浓度下均有铝沉积。在高铝浓度(30和60 M)的冻裂根样品中，发现沉积物非常接近根尖。这些矿床主要由铝、磷(P)和硅(Si)组成。在低Al浓度(10µM)下，研究了环氧树脂包埋的根样品，在分生区附近也发现了Al沉积物。在较低浓度(10 μ M)下，发现Al与p相关。在所有来自高浓度和低浓度的锇固定样品中，通常发现Al与锇结合液泡相关。由于锇对浓缩单宁具有高亲和力，因此提出了浓缩单宁可能结合并解毒长柄扁豆根尖中的Al的假设。

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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Australian Journal of Plant Physiology

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