Proposals for the catalytic mechanism of glycogen phosphorylase b prompted by crystallographic studies on glucose 1-phosphate binding

Abstract

The crystal structure of glycogen phosphorylase b in the presence of the weak activator 2 m m-inosine 5′-phosphate has been solved at 3 Å resolution. The binding interactions of the substrate, glucose 1-phosphate, at the catalytic site are described. The nearby presence (6 Å) of the essential co-factor, pyridoxal phosphate, is consistent with biochemical studies but an analysis of the way in which this group might act in catalysis leads to results that are inconsistent with solution studies. Moreover it is difficult to accommodate a glycogen substrate with its terminal glucose in the position defined by glucose 1-phosphate. Model-building studies show that an alternative binding mode for glucose 1-phosphate is possible and that this alternative mode allows a glycogen substrate to be fitted with ease. The alternative binding site leads directly to proposals for the mechanism in which the phosphate group of pyridoxal phosphate acts as a nucleophile and the imidazole of histidine 376 functions as a general acid. It is suggested that these are the essential features of the catalytic mechanism and that, in the absence of the second substrate, glycogen, and in the absence of AMP, the enzyme binds glucose 1-phosphate in a non-productive mode. Conversion of the enzyme to the active conformation through association with AMP may result in conformational changes that direct the binding to the productive mode.