豌豆子叶萌发过程中的中间代谢研究。乙醇代谢途径及三羧酸循环的作用。
Studies of intermediary metabolism in germinating pea cotyledons. The pathway of ethanol metabolism and the role of the tricarboxylic acid cycle.
作者信息
Cameron D S, Cossins E A
出版信息
Biochem J. 1967 Oct;105(1):323-31. doi: 10.1042/bj1050323.
Abstract
- The pathway of ethanol metabolism in cotyledons of 3-day-old pea seedlings has been examined by incubating tissue slices with [1-(14)C]ethanol and [2-(14)C]ethanol for periods up to 1hr. 2. Ethanol was rapidly incorporated into citrate and glutamate but relatively small amounts of (14)C were present in the evolved carbon dioxide even after 1hr. of ethanol metabolism. 3. Similar data were obtained from experiments in which [1,2-(14)C(2)]acetaldehyde and [(14)C]acetate were supplied. 4. The results are interpreted as indicating that ethanol is metabolized essentially via the reactions of the tricarboxylic acid cycle with a substantial drain of alpha-oxoglutarate to support the biosynthesis of glutamate. 5. It is concluded that oxaloacetate, required for the incorporation of ethanol into citrate, arises mainly from the transamination of aspartate and the fixation of carbon dioxide.
摘要
- 通过将3日龄豌豆幼苗子叶的组织切片与[1-(14)C]乙醇和[2-(14)C]乙醇孵育长达1小时,研究了乙醇在其中的代谢途径。2. 乙醇迅速掺入柠檬酸和谷氨酸中,但即使在乙醇代谢1小时后,释放出的二氧化碳中所含的(14)C量也相对较少。3. 从供应[1,2-(14)C(2)]乙醛和[(14)C]乙酸的实验中获得了类似的数据。4. 结果被解释为表明乙醇主要通过三羧酸循环的反应进行代谢,α-酮戊二酸大量消耗以支持谷氨酸的生物合成。5. 得出的结论是,乙醇掺入柠檬酸所需的草酰乙酸主要来自天冬氨酸的转氨基作用和二氧化碳的固定。
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