Synthesis of Protocatechuate Oxygenase by Pseudomonas fluorescens in the Presence of Exogenous Carbon Sources

Abstract

Kirkland, Jerry J. (Oklahoma State University, Stillwater), and Norman N. Durham. Synthesis of protocatechuate oxygenase by Pseudomonas fluorescens in the presence of exogenous carbon sources. J. Bacteriol. 90:15-22. 1965.-The addition of glucose, ribose, or fructose (0.45 or 45.0 mumoles/ml) simultaneously with protocatechuic acid shortens the lag period required for synthesis of protocatechuate oxygenase by a washed-cell suspension of Pseudomonas fluorescens. Glucose is readily oxidized and supports growth of P. fluorescens, whereas neither ribose nor fructose readily supports growth. High glucose concentrations (45.0 mumoles/ml) shorten the lag period but lower the total enzyme synthesis. The pH drops during glucose oxidation, and this is accompanied by a decrease in the rate of enzyme synthesis. High glucose concentrations, with adequate buffering, permitted "normal" enzyme synthesis. A decrease in the total enzyme synthesis was not observed in the presence of high concentrations of ribose or fructose. Succinate, pyruvate, acetate, or formate (0.45 mumole/ml) were readily oxidized, but did not shorten the lag period required for synthesis of the enzyme. The data suggest that glucose, ribose, or fructose may serve as a "specific" carbon source (such as ribose-5-phosphate or a similar precursor important in ribonucleic acid synthesis) functional in the synthesis of protocatechuate oxygenase.