Quantitative and structural characteristics of lipids in Chlorobium and Chloroflexus

Exposure of dark grown resting Euglena to light induced the synthesis of chloroplast valyl-tRNA synthetase. Ethanol, a specific inhibitor of Euglena chloroplast development had little effect on chloroplast valyl-tRNA synthetase induction during the first 12 h of light exposure. Ethanol, however, completely inhibited enzyme synthesis between 12–72 h of light exposure. Malate, an alternative carbon source, had little effect on the photoinduction of valyl-tRNA synthetase. When dark grown resting cells were exposed to 2 h of light and returned to the dark, chloroplast valyl-tRNA synthetase continued to accumulate for 8–12 h at a rate which was less than the rate in cells maintained continuously in the light. The mutant strain W₃BUL lacks detectable chloroplast DNA and phototransformable protochlorophyllide, but retains a plastid remnant. Exposure of strain W₃BUL to light induced the synthesis of chloroplast valyl-tRNA synthetase and enzyme induction was not inhibited by ethanol. After 72 h of light exposure in the presence or absence of ethanol, enzyme levels in strain W₃BUL were comparable to the levels found in the wildtype strain after 8–14 h of light exposure. These results suggest that the nonchloroplast photoreceptor regulates the initial phase of enzyme synthesis. Mutant strain W₁₀BSmL differs from strain W₃BUL in that the plastid remnant if present, is greatly reduced. Chloroplast valyl-tRNA synthetase was undetectable in the strain W₁₀BSmL suggesting that the levels of active, cytoplasmically synthesized, chloroplast localized enzymes may be related to the developmental status of the chloroplast through the extent to which the enzyme precursor can be accumulated and or posttranslationally processed into an active enzyme within the chloroplast or chloroplast remnant.This research was supported by National Institutes of Health Grant GM26994, Biomedical support grant RR-0755 and funds from the Research Council, University of Nebraska