上述结果表明丙酮酸对植物线粒体抗氰呼吸的激活作用可能具有普遍性。
The above results give evidences indicating that the activation of cyanide-resistant respiration by pyruvate is probably a ubiquitous phenomenon in mitochondria of plants.
其原因是复杂的细胞像植物、动物和真菌的细胞有专门的隔间,隔间包括一个信息中心、细胞核和发电站——线粒体。
The reason is that complex cells like those of plants, animals and fungi have specialized compartments including an information centre, the nucleus, and power stations — mitochondria.
其原因是复杂的细胞像植物、动物和真菌的细胞有专门的隔间,隔间包括一个信息中心、细胞核和发电站--线粒体。
The reason is that complex cells like those of plants, animals and fungi have specialized compartments including an information centre, the nucleus, and power stations -- mitochondria.
线粒体相当于细胞的能源植物,当自由基干涉其生物过程时,线粒体会接受信号开始细胞凋亡程序。
Mitochondria act as cellular energy plants, and when free radicals interfere with their biochemical pathways, mitochondria receive a signal to start cell death.
对植物细胞质雄性不育分子机理的探索促进了水稻线粒体基因组的研究。
The exploration of the molecular mechanism for cytoplasmic male sterility in plant enhanced the study on mitochondrial genome in rice.
其中的道理在于:象植物、动物与真菌那种复杂的细胞有着包括一个信息中心、细胞核与能量工厂即线粒体在内的特殊功能腔室。
The reason is that complex cells like those of plants, animals and fungi have specialized compartments including an information centre, the nucleus, and power stations - mitochondria.
其中的道理在于:象植物、动物与真菌那种复杂的细胞有着包括一个信息中心、细胞核与能量工厂即线粒体在内的特殊功能腔室。
The reason is that complex cells like those of plants, animals and fungi have specialized compartments including an information centre, the nucleus, and power stations — mitochondria.
从线粒体DNA、叶绿体DNA和线粒体质粒DNA方面较详细地阐述了高等植物细胞质雄性不育的分子机理及最新进展;
Molecular mechanism and present improvements of higher plant cytoplasmic male sterility were expounded in mitochondria DNA, chloroplast DNA and plasmid-like DNA.
主要论述了植物处于低温胁迫下其线粒体膜脂与膜蛋白的变化以及在低温伤害反应中植物所产生的活性氧对抗氰呼吸的影响。
This paper deals mainly with the effect of mitochondrial membrane lipids, membraneprotins and the produced active oxygen under low temperature on the cyanide-resistant respiration.
尤其在植物中已有大量的证据表明,线粒体与细胞质雄性不育有着十分密切的关系,所以近年来线粒体已经成为研究植物细胞质雄性不育机理的焦点。
Specially, there are a lot of proofs which show close relation between mitochondrion and CMS in plants, thus mitochondrion becomes the focus to study CMS mechanism of plants.
虽然线粒体aldh同工酶在玉米和西红柿中等多种植物中得到鉴定,但胞质aldh同工酶是否也存在于植物中仍不清楚。
Although mitochondrial ALDH isozymes have previously been identified in several plants, such as maize and tobacco, it is unclear whether cytosolic ALDH isozymes also exist in plants.
虽然线粒体aldh同工酶在玉米和西红柿中等多种植物中得到鉴定,但胞质aldh同工酶是否也存在于植物中仍不清楚。
Although mitochondrial ALDH isozymes have previously been identified in several plants, such as maize and tobacco, it is unclear whether cytosolic ALDH isozymes also exist in plants.
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