Flexibility of metal binding sites in proteins on a database scale

Abstract

Protein metal binding sites in the pre-bound (apo) state, and their rearrangements upon metal binding were not analyzed previously at a database scale. Such a study may provide valuable information for metal binding site prediction and design. A high resolution, nonredundant dataset of 210 metal binding sites was created, containing all available representatives of apo-holo pairs for the most populated metals in the PDB. More than 40% of the sites underwent rearrangements upon metal binding. In 30 cases rearrangements involved the backbone. The tendency for side-chain rearrangement inversely correlates with the number of first-shell residues. Analysis of side-chain reorientations as a result of metal binding showed that in 95% of the rigid-backbone binding sites at most one side chain moved. Thus, in general, part of the first coordination shell is already in place in the pre-bound form. The frequencies of side-chain reorientation directly correlated with metal ligand flexibility and solvent accessibility in the apo state.