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作物学报 ›› 2007, Vol. 33 ›› Issue (07): 1086-1093.

• 研究论文 • 上一篇    下一篇

盐胁迫及其与La3+对不同耐盐性水稻根中抗氧化酶及质膜H+-ATPase的影响

陈海燕**;崔香菊**;陈熙;李建友;张炜*   

  1. 南京农业大学生命科学学院生物化学与分子生物学系,江苏南京210095
  • 收稿日期:2006-09-11 修回日期:1900-01-01 出版日期:2007-07-12 网络出版日期:2007-07-12
  • 通讯作者: 张炜

Effects of Salt Stress and La3+ on Antioxidative Enzymes and Plasma Membrane H+-ATPase in Roots of Two Rice Cultivars with Different Salt Tolerance

CHEN Hai-Yan**,CUI Xiang-Ju**,CHEN Xi,LI Jian-You,ZHANG Wei*   

  1. Department of Biochemistry & Molecular Biology, College of Life Sciences, Nanjing Agricultural University, Nanjing 210095, Jiangsu, China
  • Received:2006-09-11 Revised:1900-01-01 Published:2007-07-12 Published online:2007-07-12
  • Contact: ZHANG Wei

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被引次数

51

摘要: 用盐敏感的武运粳8号和强耐盐的韭菜青两个粳稻品种,比较了盐胁迫条件下根中抗氧化酶类和质膜H+-ATPase活性的变化以及La3+对其变化的影响。结果表明,两个品种根中SOD和APX活性无显著区别,但耐盐品种的CAT和POD活性强于盐敏感品种。盐胁迫不同程度地提高了两者抗氧化酶活性。La3+对其影响最显著的差异出现在高盐条件下(200~300 mmol L-1 NaCl),对耐盐品种添加La3+可以提高上述4种酶的活力,而对盐敏感品种,La3+的作用不明显。对盐敏感品种,盐胁迫导致其质膜H+-ATPase活性持续下降,添加La3+明显提高其H+-ATPase活性,而对耐盐品种,盐胁迫导致其质膜H+-ATPase活性呈现先降后升的趋势,La3+对其活性影响不大。进一步分析表明,上述H+-ATPase活性变化及La3+对其影响均发生在转录水平上。据此推测,以上2个品种可能具有完全不同的盐胁迫响应机制。

关键词: 水稻, 盐胁迫, 三价镧离子, 抗氧化酶, 质膜H+-ATPase

Abstract:

Plant tolerance to salinity is genetically and physiologically complex. Many mechanisms, such as ion compartmentalization, osmotic regulation and scavenging of reactive oxygen species, have been demonstrated. Among them, anti-oxidative enzymes play an important role in salt tolerant characteristic in plants. In addition, the plasma membrane P-type H+-ATPase (EC 3.6.1.3) also involved in the plant response to salinity by regulating the ion homeostasis and so on. Although the relationship between salt stress and anti-oxidative enzymes or PM H+-ATPase has been studied widely, the results varied with the different experimental materials. An interesting shortcut is to comparatively study plants naturally adapted to salt versus their more salt-sensitive relatives. In this report, changes in the activities of antioxidative enzymes and plasma membrane H+-ATPase from root tips are compared between salt-sensitive and salt-tolerant rice cultivars under NaCl stress, in the presence or absence of La3+. The results indicated that CAT and POD activities, but not SOD and APX activities, were higher in salt-tolerant cultivar than in salt-sensitive one. Under NaCl stress, especially in the range of 200–300 mmol L-1 NaCl, external La3+ increased the activities of CAT, SOD, APX, and POD in salt-tolerant rice, but not in salt-sensitive cultivar, which suggests that external La3+ can lighten the oxidative damage of rice seedling roots, mainly at high salt concentration range. Plasma membrane H+-ATPase activities were suppressed by 30% under NaCl stress in salt-sensitive cultivar, and La3+ effectively alleviated such suppression. On the contrary, in salt tolerant cultivar, H+-ATPase activity increased by 32% under NaCl treatment, and La3+ had little effect on the activities. Semi-quantitative RT-PCR analysis demonstrated that the changes in PM H+-ATPase activities and La3+ effect under salt stress might occur at transcriptional level. Taken together, the data suggested that in salt-sensitive rice Wuyunjing 8, the root cytosolic Na+ concentration seems to be more dependent on the Na+ intracellular compartmentation capacity, while in salt-tolerant rice Jiucaiqing, NaCl induces plasma membrane H+-ATPase gene expression, indicating that the roots require increased H+-electrochemical potential gradient for the maintenance of ion homeostasis for osmotic regulation. In addition, the different effects of La3+ on the activities of anti-oxidative enzymes and plasma membrane H+-ATPase indicate that there might be completely different salt stress responding mechanisms between salt-sensitive and salt-tolerant rice cultivars.

Key words: Oryza sativa, Salt stress, La3+, Antioxidative enzymes, Plasma membrane H+-ATPase

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