The role of Brønsted base basicity in estimating carbon acidity at enzyme active sites: a caveat.
Stephen L BearnePublished in: Organic & biomolecular chemistry (2019)
Many enzymes catalyze the abstraction of a proton from a carbon acid substrate to initiate a variety of reactions; however, the development of a complete quantitative description of enzyme-catalyzed heterolytic cleavage of a C-H bond remains a challenge to enzymologists. To determine the pK value for such substrates bound at the active site, recent studies have estimated the equilibrium for formation of the deprotonated intermediate at the active site, however, accurate knowledge of the pK of the conjugate acid of the Brønsted base catalyst (BH+) is also required. Herein, it is shown that using the value of pK of the enzyme-substrate complex can underestimate the value of pK by an amount between zero and pδ, where pδ is the change in basicity of BH+ upon going from the enzyme-substrate complex to the enzyme-intermediate complex.