Regulation of energy metabolism in Saccharomyces cerevisiae. Relationships between catabolite repression, trehalose synthesis, and mitochondrial development.

Changes in trehalose accumulation and in cytochromes during diauxic growth in glucose medium were examined in a normal Saccharomyces cerevisiae strain. While no appreciable disaccharide accumulation occurred during most of the logarithmic phase, a rapid synthesis took place during the final stages. The intrinsic capacity of cells to accumulate trehalose was also determined under nonproliferating conditions, in glucose medium lacking a nitrogen source. Cells harvested at an early growth stage had a much lower trehalose accumulation capacity than cells taken after glucose was exhausted from the culture medium. A high trehalose accumulation capacity could also be obtained at any growth stage by using maltose or galactose as carbon source. Since cells grown under various conditions exhibit a correlated change in cytochrome development and in trehalose accumulation capacity, it was concluded that the level of glucose repression determines the concentration and/or state of activation of the trehalose synthetase-trehalase complex. Independent control of trehalose accumulation capacity and mitochondrial biogenesis by the level of glucose repression was shown in two ways: by demonstrating derepression of trehalose accumulation without development of cytochromes a and c in microaerobic cells, and by showing repression-dependent changes in a cytoplasmic respiration-deficient (ρ^?) mutant, which lacked functional mitochondria. Therefore, the capacity of a cell to accumulate trehalose is not regulated solely by the supply of ATP generated by oxidative phosphorylation.