Reliable and Accurate Solution to the Induced Fit Docking Problem for Protein–Ligand Binding
Edward B. Miller, Robert B. Murphy, Dan Sindhikara, Kenneth Borrelli, Matthew J. Grisewood, Fabio Ranalli, Steven L. Dixon, Steven V. Jerome, Nicholas A. Boyles, Tyler Day, Phani Ghanakota, Sayan Mondal, Salma B. Rafi, Dawn M. Troast, Robert Abel, Richard A. Friesner
Abstract
We present a reliable and accurate solution to the induced fit docking problem for protein-ligand binding by combining ligand-based pharmacophore docking, rigid receptor docking, and protein structure prediction with explicit solvent molecular dynamics simulations. This novel methodology in detailed retrospective and prospective testing succeeded to determine protein-ligand binding modes with a root-mean-square deviation within 2.5 Å in over 90% of cross-docking cases. We further demonstrate these predicted ligand-receptor structures were sufficiently accurate to prospectively enable predictive structure-based drug discovery for challenging targets, substantially expanding the domain of applicability for such methods.