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干旱胁迫下水曲柳苗木细根线粒体的形态及活性变化
引用本文:卫星,王政权,张国珍. 干旱胁迫下水曲柳苗木细根线粒体的形态及活性变化[J]. 植物生态学报, 2010, 34(12): 1454-1462. DOI: 10.3773/j.issn.1005-264x.2010.12.012
作者姓名:卫星  王政权  张国珍
作者单位:东北林业大学林学院, 哈尔滨 150040
基金项目:黑龙江省自然科学基金,黑龙江省青年科学技术专项资金,中央高校基本科研业务费专项资金项目
摘    要:根系依赖根细胞内线粒体呼吸代谢产生的能量, 不断从土壤中获取养分。在胁迫条件下, 线粒体的结构和功能会发生一定的变化, 从而影响根系的功能。土壤干旱是最容易引起苗木细根衰老死亡的非生物胁迫因子之一。为了更好地认识干旱胁迫下细根线粒体的结构和功能变化, 对土壤干旱胁迫下水曲柳(Fraxinus mandshurica)不同颜色细根皮层薄壁细胞内线粒体的超微结构(线粒体数量、形态)、线粒体的呼吸功能、线粒体膜脂质氧化(膜透性变化、过氧化氢含量等)情况进行了研究。结果表明: (1)干旱胁迫下, 水曲柳白色及黄色根皮层薄壁细胞内线粒体形状、结构及分布数量与对照相似, 无显著差异。干旱胁迫下产生的褐色根皮层薄壁细胞线粒体数量减少, 分布密度也变小。线粒体内、外膜先后发生不同程度的解体, 最后消失。(2)干旱胁迫显著干扰了线粒体膜的正常呼吸耦联作用, 细根线粒体呼吸控制率(RCR)与磷氧比(无机磷酸/分子氧, P/O)均显著低于对照(p < 0.05)。随着细根颜色加深, 线粒体RCR和P/O值逐渐下降, 白色根﹥黄色根﹥褐色根。褐色根线粒体RCR值最低, 接近极值1。说明褐色根线粒体结构完整性最差, 能量转化效率最低。(3)干旱胁迫下, 不同颜色细根线粒体内的H2O2含量、线粒体膜透性、膜脂氧化产物丙二醛(MDA)含量均显著高于对照(p < 0.05)。且随着细根颜色加深, 各个值增加明显。分析可能是由于干旱胁迫导致线粒体内H2O2含量升高, 线粒体膜脂质过氧化(MDA含量升高), 膜结构受到破坏(膜透性增加) (电镜下可见部分线粒体内膜电子密度下降及外膜解体)。线粒体膜结构完整性的破坏, 直接影响了线粒体呼吸代谢反应, 使线粒体呼吸功能下降。

关 键 词:干旱胁迫  细根  水曲柳  线粒体  
收稿时间:2009-09-14

Morphological and activity variation of mitochondria in fine roots of Fraxinus mandshurica seedling under drought stress
WEI Xing,WANG Zheng-Quan,ZHANG Guo-Zhen. Morphological and activity variation of mitochondria in fine roots of Fraxinus mandshurica seedling under drought stress[J]. Acta Phytoecologica Sinica, 2010, 34(12): 1454-1462. DOI: 10.3773/j.issn.1005-264x.2010.12.012
Authors:WEI Xing  WANG Zheng-Quan  ZHANG Guo-Zhen
Affiliation:School of Forestry, Northeast Forestry University, Harbin 150040, China
Abstract:Aims In addition to producing energy, mitochondria in fine roots play a dual role in oxidative stress, being both reactive oxygen species (ROS) producers and integrators of the cell antioxidant defense systems. Structural integrity of mitochondria is the fundamental guarantee for producing ATP in fine roots. Therefore, our objective was to observe mitochondrial structural and functional changes in Fraxinus mandshurica fine roots of different colors under drought stress to better relate different-colored fine roots with different functions and to develop a theoretical basis for judging fine root death according to root color. Methods We observed the number, distribution and structure of mitochondria in different-colored fine roots cortical parenchyma cells of F. mandshurica by electric microscopy. Mitochondrial respiratory control ratio (RCR) and phosphorus oxygen ratio were measured by oxygen electrode. The malondialdehyde (MDA) content, membrane permeability and H2O2 concentration were studied by UV spectrophotometer. Important findings Compared with the control, there were no significant differences of mitochondrial shape, structure or distribution under drought stress in white and yellow roots’ cortical parenchyma cells. However, there were fewer mitochondria in brown fine roots under drought stress, and their membranes had disintegrated and disappeared to a different degree. The normal breathing coupling of mitochondrial membrane role in fine-root mitochondria was disturbed significantly under drought stress. The value of RCR and P/O were significantly lower than that of the control (p < 0.05). With deepened fine-root color, mitochondrial RCR and P/O value decreased gradually, white roots > yellow roots > brown roots. The H2O2 content, mitochondrial membrane permeability and MDA content in different-colored fine roots mitochondria under drought stress were significantly higher than the control (p < 0.05). Values increased markedly with deepened color.
Keywords:drought stress  fine root  Fraxinus mandshurica  mitochondria
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