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.
第一部分,研究了不同低温胁迫期间烟草愈伤组织抗氰呼吸的诱导与交替氧化酶(AOX)表达的关系。
In the first part, the relationship between cyanide-resistant respiration and expression of alternative oxidase (AOX) in tobacco callus treated by different temperatures was studied.
病原菌侵染和水分复合胁迫下,活性氧产生的速率表现出累加效应,而抗氰呼吸表现出和基质抗氧化酶的活性互补。
Combined intimidation resulted in AOS accumulation, and cyanide-resistant respiration and the activities of antioxidant enzymes presented upon the completion of lowing AOS production, to some extent.
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.
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.
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