Document Type
Article
Publication Title
Langmuir
Abstract
We report the application of recently developed microscopic models to estimate the apparent kinetic and thermodynamic parameters in a single molecule force spectroscopy study of the carbonic anhydrase enzyme and a complementary sulfonamide inhibitor. The most probable rupture force for the enzyme-inhibitor interaction shows a nonlinear dependency on the log-loading rate. Estimates for the kinetic and thermodynamic parameters were obtained by fitting the nonlinear dependency to linear cubic potential and cusp potential models and compared to the standard Bell-Evans model. The reliability of the estimated parameters was verified by modeling the experimental rupture force distributions by the theoretically predicted distributions at rupture. We also report that linkers that are attached to the enzyme and inhibitor show appreciable effects on the apparent kinetic and thermodynamic parameters. © 2008 American Chemical Society.
First Page
11556
Last Page
11561
DOI
10.1021/la801477a
Publication Date
10-21-2008
Recommended Citation
Porter-Peden, Laura; Kamper, Sarah G.; Wal, Mark Vander; and Blankespoor, Ronald, "Estimating kinetic and thermodynamic parameters from single molecule enzyme-inhibitor interactions" (2008). University Faculty Publications and Creative Works. 336.
https://digitalcommons.calvin.edu/calvin_facultypubs/336