Biosensor system for continuous flow determination of enzyme activities. I. Determination of glucose oxidase and lactic dehydrogenase activities

Abstract

A biosensor system for continuous flow determination of enzyme activity was developed and applied to the determination of glucose oxidase and lactic dehydrogenase activities. The glucose oxidase activity sensor was prepared from the combination of an oxygen electrode and a flow cell. Similarly, the lactic dehydrogenase activity sensor was prepared from the combination of a pyruvate oxidase membrane, an oxygen electrode, and a flow cell. Pyruvate oxidase was covalently immobilized on a membrane prepared from cellulose triacetate, 1,8-diamino-4-aminomethyloctane, and glutaraldehyde. Glucose oxidase activity was determined from the oxygen consumed upon oxidation of glucose catalyzed by glucose oxidase. Lactic dehydrogenase activity was determined from the pyruvic acid formed upon dehydrogenation of lactic acid catalyzed by lactic dehydrogenase. The amount of pyruvic acid was determined from the oxygen consumed upon oxidation of pyruvic acid by pyruvate oxidase. Calibration curves for activity of glucose oxidase and lactic dehydrogenase were linear up to 81 and 300 units, respectively. One assay could be completed within 15 min for both sensors and these were stable for more than 25 days at 5°C. The relative errors were ±4 and ±6% for glucose oxidase and lactic dehydrogenase sensors, respectively. These results suggest that the sensor system proposed is a simple, rapid, and economical method for the determination of enzyme activities.