还原羧化反应的机制。二氧化碳或碳酸氢盐作为烟酰胺腺嘌呤二核苷酸磷酸连接的异柠檬酸脱氢酶和苹果酸酶的底物。
The mechanisms of reductive carboxylation reactions. Carbon dioxide or bicarbonate as substrate of nicotinamide-adenine dinucleotide phosphate-linked isocitrate dehydrogenase and malic enzyme.
作者信息
Dalziel K, Londesborough J C
出版信息
Biochem J. 1968 Nov;110(2):223-30. doi: 10.1042/bj1100223.
Abstract
- A simple kinetic method was devised to show whether dissolved CO(2) or HCO(3)- ion is the substrate in enzyme-catalysed carboxylation reactions. 2. The time-course of the reductive carboxylation of 2-oxoglutarate by NADPH, catalysed by isocitrate dehydrogenase, was studied by a sensitive fluorimetric method at pH7.3 and pH6.4, with large concentrations of substrate and coenzyme and small carbon dioxide concentrations. 3. Reaction was initiated by the addition of carbon dioxide in one of three forms: (i) as the dissolved gas in equilibrium with bicarbonate; (ii) as unbuffered bicarbonate solution; (iii) as the gas or as an unbuffered solution of the gas in water. Different progress curves were obtained in the three cases. 4. The results show that dissolved CO(2) is the primary substrate of the enzyme, and that HCO(3)- ion is at best a very poor substrate. The progress curves are in quantitative agreement with this conclusion and with the known rates of the reversible hydration of CO(2) under the conditions of the experiments. The effects of carbonic anhydrase confirm the conclusions. 5. Similar experiments on the reductive carboxylation of pyruvate catalysed by the ;malic' enzyme show that dissolved CO(2) is the primary substrate of this enzyme also. 6. The results are discussed in relation to the mechanisms of these enzymes, and the effects of pH on the reactions. 7. The advantages of the method and its possible applications to other enzymes involved in carbon dioxide metabolism are discussed.
摘要
- 设计了一种简单的动力学方法来确定在酶催化的羧化反应中,溶解的CO₂还是HCO₃⁻离子是底物。2. 在pH7.3和pH6.4条件下,使用高浓度的底物、辅酶以及低浓度的二氧化碳,通过灵敏的荧光法研究了异柠檬酸脱氢酶催化的由NADPH进行的2-氧代戊二酸还原羧化反应的时间进程。3. 通过以下三种形式之一添加二氧化碳来引发反应:(i) 作为与碳酸氢盐处于平衡状态的溶解气体;(ii) 作为未缓冲的碳酸氢盐溶液;(iii) 作为气体或作为气体在水中的未缓冲溶液。在这三种情况下获得了不同的进程曲线。4. 结果表明,溶解的CO₂是该酶的主要底物,而HCO₃⁻离子充其量是一种非常差的底物。进程曲线与该结论以及实验条件下CO₂可逆水合的已知速率在数量上是一致的。碳酸酐酶的作用证实了这些结论。5. 对由“苹果酸”酶催化的丙酮酸还原羧化反应进行的类似实验表明,溶解的CO₂也是该酶的主要底物。6. 结合这些酶的作用机制以及pH对反应的影响对结果进行了讨论。7. 讨论了该方法的优点及其在二氧化碳代谢中涉及的其他酶方面可能的应用。
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