Differential effects of Mg2+ on various hydrolytic and synthetic activities of multifunctional glucose-6-phosphatase

The adaptive synthesis of fatty acid synthetase in the livers of rats fed a fat-free diet following 48 hr of fasting has been studied using immunochemical methods. The development of fatty acid synthetase activity during adaptive synthesis occurs about 3 hr following feeding, whereas the synthesis of material precipitable by anti-fatty acid synthetase serum, as judged by the incorporation of ³H-labeled amino acids into the immunoprecipitate, commenced within 1 hr. Extracts of liver of rats fed a fat-free diet for 1–3 hr following fasting contain increasing amounts of material which competes with purified fatty acid synthetase for antibody binding sites, even though they have no fatty acid synthetase activity. This suggests the presence of enzymatically inactive precursors of fatty acid synthetase in the liver extracts. The incorporation of [¹⁴C]pantothenate into fatty acid synthetase during adaptive synthesis follows the same pattern as the development of enzyme activity, indicating that these enzymatically inactive precursors of fatty acid synthetase may represent an apoenzyme which is converted to the enzymatically active holoenzyme by the incorporation of the 4′-phosphopantetheine prosthetic group. The subcellular site of synthesis of fatty acid synthetase was shown to be in the pool of polysomes that are not membrane bound, rather than in the rough endoplasmic reticulum.