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牛脑低Km醛还原酶的动力学研究。

Kinetic studies with the low-Km aldehyde reductase from ox brain.

作者信息

Ryle C M, Tipton K F

出版信息

Biochem J. 1985 Apr 15;227(2):621-7. doi: 10.1042/bj2270621.

DOI:10.1042/bj2270621

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1144882/

Abstract

Initial-rate studies of the low-Km aldehyde reductase-catalysed reduction of pyridine-3-aldehyde by NADPH gave families of parallel double-reciprocal plots, consistent with a double-displacement mechanism being obeyed. Studies on the variation of the initial velocity with the concentration of a mixture of the two substrates were also consistent with a double-displacement mechanism. In contrast, the initial-rate data indicated that a sequential mechanism was followed when NADH was used as the coenzyme. Product-inhibition studies, however, indicated that a compulsory-order mechanism was followed in which NADPH bound before pyridine-3-aldehyde with a ternary complex being formed and the release of pyrid-3-ylcarbinol before NADP+. The apparently parallel double-reciprocal plots obtained in the initial-rate studies with NADPH and pyridine-3-aldehyde were thus attributed to the apparent dissociation constant for the binary complex between the enzyme and coenzyme being finite but very low.

摘要

对低Km醛还原酶催化NADPH还原吡啶 - 3 - 醛的初速率研究给出了平行双倒数图族，这与遵循双置换机制一致。对初速率随两种底物混合物浓度变化的研究也与双置换机制相符。相比之下，初速率数据表明当使用NADH作为辅酶时遵循顺序机制。然而，产物抑制研究表明遵循强制顺序机制，其中NADPH在吡啶 - 3 - 醛之前结合，形成三元复合物，并且在NADP + 之前释放吡啶 - 3 - 基甲醇。因此，在使用NADPH和吡啶 - 3 - 醛的初速率研究中获得的明显平行双倒数图归因于酶与辅酶之间二元复合物的表观解离常数有限但非常低。