Mechanism of metabolic regulation in photoassimilation of propionate in Euglena gracilis z

Euglena gracilis showed a typical photoassimilation of propionate when cultured on propionate as a sole carbon source. While the acid is metabolized by the methylmalonyl-coenzyme A (CoA) pathway under illumination, supporting growth of Euglena (K. Hosotani, A. Yokota, Y. Nakano, and S. Kitaoka, 1980, Agr. Biol. Chem.44, 1097–1103), it does not allow the protozoon to grow in the dark although it was actively taken up and metabolized. Kinetics of incorporation of radioactivity of labeled propionate, trapping effect of exogenous lactate in the incorporation of labeled propionate and radiorespirometric pattern revealed that propionate was metabolized by the lactate pathway in Euglena in the dark. Enzymes involved in the lactate pathway were located in mitochondria. The reason why Euglena can not grow on propionate in the dark is explained by the failure of producing C₄ dicarboxylic acids essential for biosynthesis of amino acids and sugars, like the mitochondrial oxidation of fatty acids in higher animals. The Euglena cells cultured in the dark contained enzymes of both methylmalonyl-CoA and lactate pathways, but lack of photosynthetically generated ATP has been suggested to force Euglena to select the less-ATP-requiring but futile pathway.