A cost‐effective enzyme kinetics and inhibition model for biochemistry education and research

Abstract

AbstractEnzyme kinetics and inhibition studies are crucial in biochemistry education and research. Conventional methods often require expensive equipment and reagents, potentially limiting their accessibility in limited resource settings. Our approach sought to develop a cost‐effective experimental design for studying enzyme kinetics and inhibition. Lactase was chosen as a protein model and its activity was investigated by measuring glucose production from lactose hydrolysis. In the study, commercially available lactase pills were used as an enzyme source, while milk was used as a substrate. Instead of scientific equipment, glucometers were used to measure lactase activity. Enzyme kinetics were evaluated using Michaelis–Menten and Lineweaver–Burk plots. In the study, the effects of temperature, pH, and inhibitors were also investigated. The results of our study aligned with established enzyme kinetics theories and previous studies. Lactase showed temperature and pH‐dependent activity, with decreased activity observed at both low and high extremes. Results also showed that galactose acts as a competitive inhibitor of lactase. The approach presented here offers a cost‐effective procedure for studying enzyme kinetics and inhibition. It can act as a valuable tool for educational purposes and for preliminary research in settings with limited resources.