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水/有机双相体系中肽酶促合成的动力学与平衡。嗜热菌蛋白酶催化合成N-(苄氧羰基)-L-天冬氨酰-L-苯丙氨酸甲酯。

Kinetics and equilibrium of enzymatic synthesis of peptides in aqueous/organic biphasic systems. Thermolysin-catalyzed synthesis of N-(benzyloxycarbonyl)-L-aspartyl-L-phenylalanine methyl ester.

作者信息

Nakanishi K, Kimura Y, Matsuno R

出版信息

Eur J Biochem. 1986 Dec 15;161(3):541-9. doi: 10.1111/j.1432-1033.1986.tb10476.x.

Abstract

We studied kinetics and the equilibrium relationship for the thermolysin-catalyzed synthesis of N-(benzyloxycarbonyl)-L-aspartyl-L-phenylalanine methyl ester (Z-Asp-PheOMe) from N-(benzyloxycarbonyl)-L-aspartic acid (Z-Asp) and L-phenylalanine methyl ester (PheOMe) in an aqueous-organic biphasic system. This is a model reaction giving a condensation product with dissociating groups. The kinetics for the synthesis of Z-Asp-PheOMe in aqueous solution saturated with ethyl acetate was expressed by a rate equation for the rapid-equilibrium random bireactant mechanism, and the reverse hydrolysis reaction was zero-order with respect to Z-Asp-PheOMe concentration. The courses of synthesis of Z-Asp-PheOMe in the biphasic system were well explained, by the rate equations obtained for the aqueous solution and by the partition of substrate and condensation product between the both phases. The rate of synthesis in the biphasic system was much lower than in aqueous solution due to the unfavorable partition of PheOMe in the aqueous phase. The equation for the equilibrium yield of Z-Asp-PheOMe in the biphasic system was derived assuming that only the non-ionized forms of the substrate and condensation product exist in the organic phase. It was found theoretically and experimentally that the yield of Z-Asp-PheOMe is maximum at the aqueous-phase pH of around 5, lower than for synthesis in aqueous solution. The effect of the organic solvent on the rate and equilibrium for the synthesis of Z-Asp-PheOMe could be explained by the variation in the partition coefficient. The effect of the partitioning of substrate on the aqueous-phase pH change was also shown.

摘要

我们研究了在水-有机双相体系中,嗜热菌蛋白酶催化由N-(苄氧羰基)-L-天冬氨酸(Z-Asp)和L-苯丙氨酸甲酯(PheOMe)合成N-(苄氧羰基)-L-天冬氨酰-L-苯丙氨酸甲酯(Z-Asp-PheOMe)的动力学及平衡关系。这是一个生成带有解离基团缩合产物的模型反应。在乙酸乙酯饱和的水溶液中合成Z-Asp-PheOMe的动力学,由快速平衡随机双反应物机理的速率方程表示,且逆水解反应相对于Z-Asp-PheOMe浓度为零级反应。通过为水溶液获得的速率方程以及底物和缩合产物在两相之间的分配,很好地解释了双相体系中Z-Asp-PheOMe的合成过程。由于PheOMe在水相中的分配不利,双相体系中的合成速率远低于水溶液中的合成速率。假设底物和缩合产物的非离子化形式仅存在于有机相中,推导了双相体系中Z-Asp-PheOMe平衡产率的方程。从理论和实验上发现,Z-Asp-PheOMe的产率在水相pH约为5时最大,低于在水溶液中的合成产率。有机溶剂对Z-Asp-PheOMe合成速率和平衡的影响可以通过分配系数的变化来解释。还展示了底物分配对水相pH变化的影响。

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