Flexibility and Conformational Entropy in Protein-Protein Binding

## Abstract Previous NMR experiments on unbound G protein βγ heterodimer suggested that particular residues in the binding interface are mobile on the nanosecond timescale. In this work we performed nanosecond‐timescale molecular dynamics simulations to investigate conformational changes and dynami

## Abstract It is an accepted practice in ligand design to introduce conformational constraint with the expectation of improving affinity, justified by the theoretical possibility that an unfavorable change in binding entropy will be reduced. This rationale of minimizing the entropic penalty throug

## Abstract An important, but often neglected, contribution to the thermodynamics of protein folding is the loss of entropy that results from restricting the number of accessible side‐chain conformers in the native structure. Conformational entropy changes can be found by comparing the number of ac

## Abstract The binding of 2‐amino‐5‐methylthiazole to the W191G cavity mutant of cytochrome c peroxidase is an ideal test case to investigate the entropic contribution to the binding free energy due to changes in receptor flexibility. The dynamic and thermodynamic role of receptor flexibility are