Abstract
Mutants of Escherichia coli which are unable to synthesize glycogen were used to study the so-called “unprimed” synthesis of glycogen. The glycogen synthase has been partially purified from these mutants. During the purification, attempts were made to separate the activity which requires the addition of an exogenous primer (primed activity) from the activity which does not require a primer but is highly dependent on the presence of some salts such as citrate and EDTA (unprimed activity). No separation between these two activities could be achieved but the results obtained by chromatography on DEAE-Sephadex indicate that there is a single form of glycogen synthase which is responsible for both unprimed and primed activity. The evidence that a single protein was necessary to catalyze these two reactions was given by the findings that mutants defective in glycogen synthase activity were unable to catalyze glucosyl transfer without added primer. At low concentration, the glycogen synthase purified from a branching enzyme negative mutant catalyzed the unprimed reaction at a slow rate even in presence of salts. A protein activator of this reaction was found in mutants lacking glycogen synthase but not in mutants lacking branching enzyme. The hypothesis that this activator is the branching enzyme itself was supported by the observation that it co-purified with the branching enzyme from a E. coli strain defective in glycogen synthase activity. EDTA or Triton X-100 increased the stimulation of the unprimed synthesis by the branching enzyme. The apparent affinity of the glycogen synthase for glycogen was increased twofold in the presence of EDTA but the branching enzyme further increased the effect of EDTA. The combined action of the glycogen synthase and the branching enzyme on the endogenous glucan associated with the synthase may account for the unprimed activity observed in vitro.
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