The self-glucosylating proteins, Glg1p and Glg2p, are required for glycogen synthesis in Saccharomyces cerevisiae (Cheng, C., Mu., J., Farkas, I., Huang, D., Goebl M. G., and Roach, P. J. (1995) Mol. Cell. Biol. 15, 6632-6640). Glg2p was shown to be associated with carbohydrate in vivo and was released from the high molecular weight glycogen fraction by treatment with alpha-amylase. In addition, some Glg2p exists as a protein of Mr approximately 43,000, whose proportion is increased in cells lacking glycogen synthase. Unlike the mammalian counterpart, glycogenin, the yeast Glg proteins appear to require multiple Tyr residues for functionality. In Glg2p, mutation of both Tyr230 and Tyr232 is necessary to suppress self-glucosylation of purified protein in vitro. The mutant protein is still capable of transferring glucose to an exogeneous acceptor, n-dodecyl beta-D-maltoside. A small COOH-terminal region, conserved between Glg1p and Glg2p, is also important for function; mutation of Tyr367 or truncation at residue 362 impairs the ability of primed Glg2p to be elongated by glycogen synthase. Complete suppression of glycogen accumulation in vivo requires mutation of all three Tyr residues. In Glg1p, two Tyr residues are implicated, Tyr232 and Tyr600, mutation of both being required to eliminate glycogen accumulation in vivo.

• PMID: 8900126
• DOI full text
• PubMed

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Journal Article | Research Support, U.S. Gov't, P.H.S.

Authors

Mu J, Cheng C, Roach PJ

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