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

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.