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β-硫代麦芽糖苷作为α-淀粉酶活性位点的探针

Beta-thiomaltosides as active site probes for alpha-amylase.

作者信息

Stankiewicz P J, Cascio D, McPherson A

出版信息

J Appl Biochem. 1983 Dec;5(6):388-98.

PMID:6332108
Abstract

A series of substituted 1-thio-beta-D-maltopyranosides was synthesized and confirmed by elemental analysis, optical rotation, NMR, and liquid chromatography. These compounds were shown by several biochemical techniques to bind to the active site of alpha-amylase. Steady-state kinetic studies showed the compounds to be competitive inhibitors, with affinities lying within the range of the natural ligands, maltose and maltotriose. Affinity chromatography employing p-aminophenyl-1-thio-beta-D-maltopyranoside linked to Sepharose provides a relatively simple procedure for alpha-amylase purification. The binding of p-bromphenyl-1-thio-beta-D-maltoside was observed in crystals of alpha-amylase using X-ray crystallography, and through the use of difference Fourier analysis its interaction at 5.0-A resolution with the active site of the enzyme has been visualized. The inhibitor binds in a long, deep cleft that divides the two major domains of the enzyme. These studies are believed to provide a first step toward the rational design of ligands for the physiological regulation of starch breakdown and utilization through modulation of alpha-amylase activity.

摘要

合成了一系列取代的1-硫代-β-D-麦芽糖吡喃糖苷,并通过元素分析、旋光、核磁共振和液相色谱进行了确证。通过多种生化技术表明这些化合物可与α-淀粉酶的活性位点结合。稳态动力学研究表明这些化合物为竞争性抑制剂,其亲和力处于天然配体麦芽糖和麦芽三糖的范围内。使用与琼脂糖偶联的对氨基苯基-1-硫代-β-D-麦芽糖吡喃糖苷进行亲和色谱,为α-淀粉酶的纯化提供了一种相对简单的方法。利用X射线晶体学在α-淀粉酶晶体中观察到对溴苯基-1-硫代-β-D-麦芽糖苷的结合,并通过使用差值傅里叶分析,以5.0埃的分辨率可视化了其与酶活性位点的相互作用。抑制剂结合在一个长而深的裂隙中,该裂隙将酶的两个主要结构域分开。据信这些研究为通过调节α-淀粉酶活性对淀粉分解和利用进行生理调节的配体的合理设计迈出了第一步。

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