Nitrogen deficecy and the presence of speciffc organic carbon sources prevent dcoropast development in EugIn In exponentialy growing cultures, chlorophyll levels were low and independent of the nitrogen content of the growth medun Clrophyl levels Increased in stationary phase and the amount of chloopbyU formed was proportional to the initial
Exposure of dark-grown restingEuglena gracilis Klebs var.bacillaris Cori to light, ethanol, or malate produced an increase in the specific activity of fumarase (EC. 4.2.1.2) and succinate dehydrogenase (EC. 1.3.99.1) during the first 8-12 h of exposure to inducer, followed by a decrease in the specific activity of both mitochondrial enzymes between 12 and 72 h. The increased specific activity represented a net increase in the level of active enzyme, and it was dependent upon cytoplasmic protein synthesis. The photoinduction of fumarase required continuous illumination while the subsequent decrease in fumarase specific activity was independent of light. Light had little effect on the ethanol and malate induction of fumarase and succinate dehydrogenase. In the mutant W3BUL, which has no detectable protochlorophyll(ide) and chloroplast DNA, light induced both mitochondrial enzymes and the kinetics of enzyme induction were similar to the induction kinetics in wild-type cells. The induction of mitochondrial enzymes appears to be controlled by a non-chloroplast photoreceptor. Dark-grown resting cells of the plastidless mutant W10SmL have lost the ability to regulate fumarase levels. In this mutant, the specific activity of fumarase fluctuated and light had little effect on these fluctuations, indicating that fumarase synthesis was uncoupled from the nonchloroplast photoreceptor. Ethanol addition produced transient changes in fumarase specific activity in W10SmL indicating that in this mutant, mitochondrial enzymes are still inductible by metabolites. Fumarase synthesis in wild-type cells was not induced in the dark by levulinic acid, a chemical inducer of the breakdown ofEuglena storage carbohydrates. Taken together, our results indicate that the photoinduction of mitochondrial enzyme synthesis is not a result of the photoinduction of carbohydrate breakdown. The mechanisms by which light and organic carbon induce the synthesis ofEuglena mitochondria may differ.
Exposure of dark grown resting Euglena to ethanol produced a transient increase in the specific activity of the glyoxysomal enzyme malate synthase. Enzyme specific activity increased during the first 24 hours of ethanol treatment and then declined. Light exposure or malate addition failed to increase enzyme specific activity. The increase and decrease in enzyme specific activity represented changes in the amount of active enzyme. In both wild type cells and the plastidless mutant W3BUL, enzyme levels were always higher in the dark than in the light.The specific activity of the peroxisomal enzyme glycolate dehydrogenase began to increase 24 hours after dark grown resting Eugkena were exposed to light. Ethanol, but not malate, prevented the increase and promoted a decrease in glycolate dehydrogenase levels. Cycloheximide produced a decline in enzyme levels similar to the decline produced by ethanol addition. Glycolate dehydrogenase was present in the plastidless mutant W3BUL indicating that it is coded in the nucleus and synthesized on cytoplasmic ribosomes. Streptomycin, a specific inhibitor of chloroplast protein synthesis and 3-(3,4-dichlorophenyl)-1,1-dimethylurea, an inhibitor of photosynthetic CO2 fixation, inhibited the photoinduction of glycolate dehydrogenase while having no effect on the photoinduction of NADP dependent glyceraldehyde-3-phosphate dehydrogenase, another light induced, nuclear coded, cytoplasmically synthesized enzyme. Taken together, these results suggest that microbodies are continuaDly synthesized in resting Euglena and their enzyme complement is determined through substrate induction of glyoxysomal and peroxisomal enzymes.
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