https://orcid.org/0000-0001-6608-4700
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ABSTRACT
This report describes the implementation of a laboratory exercise for an advanced biochemistry or enzyme kinetics class at the undergraduate or graduate level, designed to improve understanding of protein conformational changes associated with the binding of a ligand. Students measure the fluorescence changes induced by the conformational transition of a glycoprotein (the Na,K-ATPase) upon addition of different ligands (Pi and BeF3−) and analyse the results in order to determine the mechanism of the process. The results show that Pi and BeF3− present opposite effects on the observed rate constants (kobs) with ligand concentration: kobs decreases with [Pi] and increases with [BeF3−]. This observation, together with the frequently used assumption that binding occurs under rapid equilibrium, led to propose different models for ligand-induced conformational transitions: a conformational selection for Pi and an induced fit for BeF3−. In this paper, we show that if the rapid-equilibrium approximation for ligand binding is not assumed, a conformational selection mechanism can account for the effects of both ligands. This active-learning exercise serves as the basis for discussing the consequences of not being extremely cautious when invoking approximations about not-very-well-known systems and the importance of a correct understanding of models assigned to chemical processes.
Disclosure statement
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