Effects of silicon on H+-ATPase and H+-PPase activity, fatty acid composition and fluidity of tonoplast vesicles from roots of salt-stressed barley (Hordeum vulgare L.)

文献类型: 外文期刊

第一作者: Liang, YC

作者: Liang, YC;Zhang, WH;Chen, Q;Ding, RX

作者机构:

关键词: barley (Hordeun vulgare L.);H+-ATPase activity;H+-PPase activity;tonoplast fluidity;salt stress;silicon

期刊名称:ENVIRONMENTAL AND EXPERIMENTAL BOTANY ( 影响因子:5.545; 五年影响因子:5.99 )

ISSN: 0098-8472

年卷期: 2005 年 53 卷 1 期

页码:

收录情况: SCI

摘要: We investigated the effects of silicon (Si) on time-dependent changes in root tonoplast H+-ATPase and H+-PPase activities. membrane fatty acid compositions and tonoplast fluidity in two barley (Hordeum vulgare L.) cultivars; differing in salt tolerance. Plants were grown in NaCl-free (control) and NaCl-supplied (60 and 120 mM, respectively) nutrient solutions with or without 1.0 mM Si. Plant roots were harvested to isolate tonoplast vesicles for assay of H+-ATPase and H+-PPase activities at days 2, 4, and 6 after treatment in the first experiment and for analysis of membrane fatty acid composition and fluidity at day 4 after treatment in the second experiment. The results showed that tonoplast H+-ATPase and H+-PPase activities in roots of salt-treated plants increased at day 2. which was more obvious at 60 mM NaCl in the salt-tolerant cultivar than in the salt-sensitive cultivar. and then decreased at day 4 and onward. These enzyme activities decreased consistently from days 2 to 6 for treatment with 120 mM NaCl. However, inclusion of 1.0 mM Si significantly enhanced both H+-ATPase and H+-PPase activities in roots of salt stressed barley, which was irrespective of NaCl level or cultivar used. The ratio of unsaturated to saturated fatty, acids (U/S) increased under salt stress for both cultivars. Addition of Si to salt treatment increased the ratio of U/S in salt-tolerant cultivar but it did not in salt-sensitive cultivar compared to non-Si-amended salt treatment. Salt treatment decreased tonoplast fluidity of roots of barley significantly compared with control treatment. However. root tonoplast fluidity was significantly lower in the Si-amended salt treatment than in the non-Si-amended salt treatment. These results were in line with the previous findings that Si could help increase antioxidative defense and reduce membrane lipid oxidative damage in barley under salt stress. The possible mechanisms involved in Si-enhanced salt tolerance were discussed with respect to cell membrane integrity, stability and function in barley. (C) 2004 Elsevier B.V. All rights reserved.

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