丙酮酸氧化发生在内膜的线粒体的。
Pyruvate oxidation occurs in the inner membrane of the mitochondria.
丙酮酸氧化发生中的线粒体膜内。
Pyruvate oxidation occurs in the inner membrane of the mitochondria.
本发明的试剂盒主要成分包括:缓冲液、辅酶、丙酮酸、氯化氨、丙酮酸氧化酶、甘氨酸氧化酶、丙氨酸脱氢酶及稳定剂;
The kit comprises the following main components: buffer solution, coenzyme, pyruvic acid, ammonia chloride, pyruvate oxidase, glycine oxidase, alanine dehydrogenase and a stabilizer.
本发明的试剂 盒主要成分包括:缓冲液、还原型辅酶、丙酮酸、腺苷三磷酸、丙酮酸氧化酶、 丙酮酸羧化酶、苹果酸脱氢酶及稳定剂;
The kit comprises the following main components: buffer solution, reduced coenzyme, pyruvic acid, adenosine triphosphate, pyruvate oxidase, pyruvate carboxylase, malic dehydrogenase and a stabilizer.
考察了不同发酵温度下基质消耗、细胞生长、丙酮酸合成及能荷水平和氧化-还原度等方面的差异。
The effects of temperature on the substrate consumption, cell growth, pyruvate biosynthesis and level of energy charge and oxidation-reduction state have been investigated.
所有活细胞中的辅酶,起酰群载体作用,肪脂酸的合成和氧化、丙酮酸酯的氧化和其他工酰基反应中不可缺少。
A coenzyme present in all living cells that functions as an acyl group carrier and is necessary for fatty acid synthesis and oxidation, pyruvate oxidation, and other acetylation reactions.
丙酮酸的氧化能为催化量的琥珀酸所引发,说明有缩合酶的活性存在。
Pyruvate oxidation was accelerated by catalytic amount of succinate. The operation of condensing enzyme is thus indicated.
糖酵解过程中产生的丙酮酸分解为乙醛和二氧化碳。
The pyretic acid formed by GLYCOLYSIS is broken down into acetaldehyde and carbon dioxide.
温度对丙酮酸生物合成动力学、能荷和氧化-还原度的影响。
Effects of Temperature on the Kinetics and Level of Energy Charge and Oxidation-Reduction State in Pyruvate Biosynthesis.
以叔丁基过氧化氢(TBHP)为氧化剂,四丁基溴化铵(TBAB)为相转移催化剂,有效地将乳酸乙酯氧化合成丙酮酸乙酯,产品纯度达98%以上。
Ethyl pyruvate was synthesized from ethyl lactate using TBHP as oxidant and TBAB as phase transfer catalyst, the purity of product was over 98 %.
概述了除草剂的新靶标-HPPD(对-羟苯基丙酮酸双氧化酶)及其抑制剂的发现过程、作用机制,简单介绍了几种已经开发成功的HPPD类抑制剂新品种及其使用技术。
This paper summarized the discovery of HPPD, a novel herbicide target, the development of HPPD inhibitors as herbicides, and the mode of action of the herbicides.
概述了除草剂的新靶标-HPPD(对-羟苯基丙酮酸双氧化酶)及其抑制剂的发现过程、作用机制,简单介绍了几种已经开发成功的HPPD类抑制剂新品种及其使用技术。
This paper summarized the discovery of HPPD, a novel herbicide target, the development of HPPD inhibitors as herbicides, and the mode of action of the herbicides.
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