[脱水诱导的细胞内溶质变化和植物干燥耐受性的获得]。

植物生理与分子生物学学报 Pub Date : 2007-02-01
Ming Zhang, Yun Lu, Xiao-Feng Wang
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引用次数: 0

摘要

有些耐干燥植物即使在水分含量低至0.3 g H2O/g干重的情况下,也能在失去水分的情况下存活下来,并且当它们再次获得足够的水分时,仍能迅速修复因干燥而受损的细胞结构和功能。在适度脱水的情况下,组织可以积累一些特殊的蛋白质、小分子、碳水化合物等,这些蛋白质、小分子、碳水化合物等可以通过自身的自然特性保护大分子和膜的原有结构和功能。同时,水分流失导致活性氧清除酶(SOD、CAT、APX和GR)活性升高。为了获得耐干燥性,植物或种子中的水分必须被诱导进入玻璃态,这种变化可以被许多化合物诱导。关键的保护手段还包括增加内源性抗氧化剂的形成和两亲性物质在脂质期的分配,以保护膜。复活植物及其种子是研究其耐干燥性的良好材料。
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[Dehydration-induced intracellular solute changes and acquisition of plant desiccation tolerance].

Some desiccation-tolerant plants can survive the loss of water even when the water content becomes as low as 0.3 g H2O/g dry weight, and can still repair quickly their cellular structures and function damages by desiccation when they get access to enough moisture again. While moderate dehydration, the tissue could accumulate some special proteins, small molecules, carbohydrate etc. which can protect the original structure and function of macromolecule and membrane through themselves' natural characteristics. Mean-while, water loss results in increased activities of reactive-oxygen-scavenging enzymes (SOD, CAT, APX and GR). For the acquisition of desiccation tolerance, water in the plants or seeds must be induced to enter the glassy state, a change which can be induced by many compounds. The crucial protective means also include the increased formation of endogenous antioxidants and the partitioning of amphiphilic substances in the lipid phase to protect the membrane. The resurrection plants and seeds are good materials for desiccation tolerance research.

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