苯丙氨酰和N-乙酰苯丙氨酰腺苷酸酐的水解特性。

Hydrolytic properties of phenylalanyl- and N-acetylphenylalanyl adenylate anhydrides.

作者信息

Lacey J C, Senaratne N, Mullins D W

机构信息

Department of Biochemistry, University of Alabama in Birmingham, USA.

出版信息

Orig Life Evol Biosph. 1984;15(1):45-54. doi: 10.1007/BF01809392.

DOI:10.1007/BF01809392

PMID:11541967

Abstract

We have used a novel spectrophotometric method to study the hydrolysis of N-acetylphenylalanyl adenylate anhydride (AcPhe-AMP) and phenylalanyl-adenylate anhydride (Phe-AMP) at low concentrations (10(-5) M), 25 degrees C, constant buffer concentration (0.05 M), and as a function of pH. While Phe-AMP is susceptible principally to attack by OH-, with two different rates depending on whether the alpha-amino group of the amino acid is protonated or not, the AcPhe-AMP is susceptible to acid decomposition as well. At pH's 4-8, the Phe-AMP hydrolyzes faster than the AcPhe-AMP, but at pH less than 4 or pH greater than 8, the blocked form hydrolyzes faster. Both forms are also attacked by H2O, and at the same rate. Moreover, the hydrolysis of Phe-AMP is shown to be greatly catalyzed by carbonate, although the AcPhe-AMP is not subject to such catalysis. The rate laws for the various mechanisms and the activation energies for the hydrolyses at pH 7.1 are given.

摘要

我们采用了一种新型分光光度法，在低浓度（10⁻⁵ M）、25℃、恒定缓冲液浓度（0.05 M）条件下，研究了N - 乙酰苯丙氨酰腺苷酸酐（AcPhe - AMP）和苯丙氨酰腺苷酸酐（Phe - AMP）的水解情况，并考察了其作为pH函数的变化。虽然Phe - AMP主要易受OH⁻攻击，根据氨基酸的α - 氨基是否质子化有两种不同的速率，但AcPhe - AMP也易受酸分解。在pH值为4 - 8时，Phe - AMP的水解速度比AcPhe - AMP快，但在pH值小于4或大于8时，被保护形式的水解速度更快。两种形式也都会受到H₂O的攻击，且速率相同。此外，虽然AcPhe - AMP不受此催化作用，但Phe - AMP的水解显示出受到碳酸盐的极大催化。给出了各种机制的速率方程以及在pH 7.1时水解的活化能。

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苯丙氨酰和N-乙酰苯丙氨酰腺苷酸酐的水解特性。

Hydrolytic properties of phenylalanyl- and N-acetylphenylalanyl adenylate anhydrides.

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