Lecture 21. Enzyme kinetics
Friday 28 October 2016
Enzyme kinetics and the Michaelis-Menten equation. Kinetic parameters Vmax and KM. Models for bisubstrate reactions.
Reading: VVP4e - Ch.12, pp.355-367.
Summary
Enzyme kinetics catalytic principles, reaction coordinate diagrams, mechanistic models, rate constants and kinetic parameters.
The Michaelis-Menten equation describes a hyperbolic initial rate vs substrate concentration curve. Two parameters, accessible experimentally, KM and Vmax describe the hyperbolic curve.
We note that from an experimental standpoint, kcat and kcat/KM are the fundamental parameters. The turnover number, kcat, is measured under conditions in which the enzyme is saturated with substrate (very high [S] or "Vmax" conditions), while kcat/KM is best measured at low substrate concentrations (where [S] << KM, which we can call "V/K" conditions).
We discuss the range of values observed for both KM and kcat, also noting the distinction between high turnover number (high kcat) and relative rate enhancement (high kcat/ kuncat) of an enzyme-catalyzed reaction over the uncatalyzed rate for the same reaction. Recall the key concept from this chapter: Enzymes achieve such tremendous acceleration of reaction rates by lowering the free energy of activation for the reaction. Exactly how enzymes stabilize the transition state is a fascinating area of study. The quantity kcat/KM was then discussed as a measure of specificity (in comparing the efficiency with which an enzymes acts on a series of closely related substrates) and as a criterion for so-called "catalytic perfection" in which kcat/KM approaches a theoretical upper limit (the diffusion-controlled limit).
Moving beyond kinetic parameters, we spend some time considering mechanistic schemes involving reactions with multiple substrates, e.g. an enzyme catalyzing a reaction such as A + B <—> P + Q. The text discusses sequential (both the ordered sequential and random sequential mechanisms) and double-displacement ("ping-pong") schemes. We also see that in some cases enzymes display non-Michaelis-Menten kinetics and that a primary example of this is the case where the initial velocity vs. substrate concentration curve is sigmoidal rather than hyperbolic. This behavior occurs wit h multisubunit enzymes that have allosteric properties arising from cooperativity between subunits.