In silico analysis of protein-protein interfaces: Tools and approaches

Two or more proteins interact in vivo to perform complex molecular functions including catalysis, regulation, assembly, immunity and inhibition through the formation of stable interfaces. This interaction is governed by several factors that are selective, sensitive and specific in nature. Several interface features has been documented since 1975. The study of these interface features of proteins and their dynamicity during interaction with different proteins help understanding the mechanisms underlying diverse molecular functions and its biological processes. Computational tools greatly assist in studying such interface features that determine the interaction between two or more proteins, and in this context, this review enumerates the different interface features reported thus far along with the tools that aid in deciphering protein features (physicochemical characteristics, binding site and interface residue prediction and hotspot residues) along with their approaches that are employed in the prediction these features. Also, the review discusses the advantages and limitations of experimental techniques and computational biological tools deployed for deciphering the protein-protein interactions. Altogether, the review will provide insights into the optimal tools and different strategies involved in protein interaction studies that would facilitate the researchers to understand the protein structural features and molecular principles of protein-protein interaction with known functions.