Identification of Strategic Residues at the Interface of Antigen –Antibody Interactions by In Silico Mutagenesis

AbstractStructural information pertaining to antigen –antibody interactions is fundamental in immunology, and benefits structure-based vaccine design. Modeling of antigen–antibody immune complexes from co-crystal structures or molecular docking simulations provides an extensive profile of the epitope at the interface; however, the key amino acids involved in the interaction must be further clarified, often through the use of experimental mutagenesis and subsequent binding assays. Here, we describe an in silico mutagenesis method to identify key sites at antigen–antibody interfaces, using significant increase in pH-dependency energy among s aturated point mutations. Through a comprehensive analysis of the crystal structures of three antigen–antibody immune complexes, we show that a cutoff value of 1 kcal/mol of increased interaction energy provides good congruency with the experimental non-binding mutations conducted in vitro. This in silico mutagenesis strategy, in association with energy calculations, may provide an efficient tool for antibody–antigen interface analyses, epitope optimization, and/or conformation prediction in structure-based vaccine design.
Source: Interdisciplinary Sciences, Computational Life Sciences - Category: Bioinformatics Source Type: research