Flexible ligand docking using a robust evolutionary algorithm

## Abstract Virtual screening of large libraries of small compounds requires fast and reliable automatic docking methods. In this article we present a parallel implementation of a genetic algorithm (GA) and the implementation of an enhanced genetic algorithm (EGA) with niching that lead to remarkab

A flexible ligand docking protocol based on a divide-and-conquer strategy is investigated. This approach first separates total search space into conformation and orientation space. It uses a grid-based method to sample the conformation of an unbound ligand and to select the lowenergy conformers. Rig

## Abstract An improved version of the fragment‐based flexible ligand docking approach SEED–FFLD is tested on inhibitors of human immunodeficiency virus type 1 protease, human α‐thrombin and the estrogen receptor β. The docking results indicate that it is possible to correctly reproduce the binding

We have applied our docking program FLEXX to all eight CASP2 targets involving protein complexes with small ligands. Of the seven targets that were kept in the CASP2 experiment, we could solve two. We found important parts of the solution in four other examples, and were unsuccessful on the remainin