Escherichia coli K-12 glycogen synthase: Ability to use UDPglucose and adpglucose as glucosyl donors in the absence of added primer

Abstract A mechanism of initiation of glycogen biosynthesis in Escherichia coli has been previously postulated: In a first step, the glucosyl groups would be transferred into an acceptor protein from UDPglucose or ADPglucose by two glucosyl transferases, distinct from the glycogen synthase. In this work, the activity of transfer from UDPglucose into a methanol-insoluble fraction could not be found in the crude extracts of six independently isolated glycogen synthase-deficient mutants of E. coli K-12. Purified E. coli K-12 glycogen synthase was able to catalyze the unprimed reaction from ADPglucose and UDPglucose but at a very low rate; the rate with UDPglucose is 6–7% the rate observed with ADPglucose. With these two substrates, the unprimed reaction was strongly stimulated by the simultaneous presence of salts and branching enzyme. However the activity with UDPglucose increased rapidly at low concentrations of branching enzyme and was inhibited at physiological concentrations whereas the activity with ADPglucose reached a maximum only at these concentrations. Consequently, the relative activities found with ADPglucose and UDPglucose varied with the branching enzyme concentration. Transfer from UDPglucose was inhibited by low concentrations of ADPglucose and high concentrations of glycogen. These results suggest that the same enzyme, namely the glycogen synthase, catalyzes the unprimed transfer from ADPglucose and UDPglucose and that ADPglucose is probably the most important physiological donor in glycogen biosynthesis in E. coli .