The roles of contact residue disorder and domain composition in characterizing protein–ligand binding specificity and promiscuity

Abstract

Most protein chains interact with only one ligand but a small number of protein chains can bind several ligands, and many examples are available in the protein–ligand complex database of PDB. Among these proteins, some show preferences for the ligands or types of ligands they bind; however, so far we have only poor understanding of what determines protein–ligand binding and its specificity. Here we investigate the structural and functional properties of proteins in protein–ligand complexes. Analysis of the protein–ligand complex dataset from the PDB structure database reveals that proteins with more interactions have more disordered contact residues. Those proteins containing few disordered contact residues that bind multiple ligands have a tendency to consist of several domains. Analysis of physicochemical properties of hub contact residues binding multiple ligands indicates that they are enriched for hydrophilic, charged, polar and His-Asp catalytic triad residues. Finally, in order to differentiate proteins binding different classes of ligands, we mapped the three most prominent classes of ligands onto different superfamily domains. Our results demonstrate that contact residue disorder and ordered multiple domains are complementary factors that play a crucial role in determining ligand binding specificity and promiscuity.