Abstract
A chemostat culture technique has been developed for the growth of an unsaturated fatty acid auxotroph of Saccharomyces cerevisiae. Any chosen steady-state cellular unsaturated fatty acid level between 75 and 15% of the total fatty acids could be established and maintained. In all cultures the steady-state glucose concentrations were maintained at levels below that which induces catabolite repression. The efficiency of oxidative phosphorylation as determined from the molar growth yield decreased as the cellular unsaturated fatty acid composition was lowered. The number of moles of ATP produced by oxidative phosphorylation per mole of glucose utilized was 7.2, 4.8, 0.7, and 0.4 for cells in which 75, 50, 44, and 34%, respectively, of the total fatty acids were unsaturated. The lesion in oxidative phosphorylation was a direct result of lowering the membrane unsaturated fatty acid composition as the respiratory activities and cytochrome content of cells and mitochondria were unaffected by a decrease in the cellular unsaturated fatty acid level from the wild-type value of about 75% down to about 34%. In cells which contained lipids with 22–28% unsaturated fatty acids, cyanide-sensitive respiration was absent, and the levels of all mitochondrial cytochromes were less than 10% of normal. The reduction in the levels of cytochromes aa 3 and b appeared to be a consequence of a loss of mitochondrial protein synthetic activity in such cells. The level of cytochrome c was also greatly decreased, indicating that the cellular unsaturated fatty acid composition was affecting either the synthesis in the cytoplasm of mitochondrial proteins or the assembly of these proteins in the mitochondria.
Published Version
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