Relationships between mutations affecting protein kinase and accumulation of energy reserves in Saccharomyces cerevisiae Free

Independently discovered mutations which alter cyclic-AMP dependent protein kinase activity in Saccharomyces cerevisiae are analysed in relation to trehalose and glycogen storage. The defective trehalose and glycogen accumulation in strains which bear the glc1 mutation results from abnormal activation of trehalase by a protein kinase which has partially lost its cAMP dependence. Cells bearing the bcy1 mutation produce an altered protein kinase due to extremely low levels of the cAMP-binding protein. This altered kinase activates trehalase, resulting in low trehalose contents in these cells. In cell-free extracts of control strains (S288C and 7Q-2D), which produce normal levels of glycogen and trehalose, the enzyme trehalase is mainly found in an inactive, cryptic form. Each of the haploid strains containing one of the mutant genes (glc1, glc4-1 and bcy1) is defective in both trehalose and glycogen accumulation and exhibits low activation ratios of trehalase by protein kinase. Genetic complementation experiments clearly establish that the bcy1 mutation involves a different gene to that altered by the glc1 mutation, since the resulting diploid behaved normally. Strain AM9-10D, previously classified as wild-type (normal for bcy1), is defective in the accumulation of trehalose and glycogen and exhibits almost all trehalose in the active form.