Computational Approaches for Predicting Protein–Protein Interactions: A Survey

A new computationally efficient and automated "soft docking" algorithm is described to assist the prediction of the mode of binding between two proteins, using the threedimensional structures of the unbound molecules. The method is implemented in a software package called BiGGER (Bimolecular Complex

## Abstract Proteins rarely function in isolation but they form part of complex networks of interactions with other proteins within or among cells. The importance of a particular protein for cell viability is directly dependent upon the number of interactions where it participates and the function

## Abstract Protein–protein interactions are important to understanding cell functions; however, our theoretical understanding is limited. There is a general discontinuity between the well‐accepted physical and chemical forces that drive protein–protein interactions and the large collections of ide

## Abstract Hydrophobic interaction chromatography (HIC) is an important technique for the purification of proteins. In this paper, we review three different approaches for predicting protein retention time in HIC, based either on a protein's structure or on its amino‐acidic composition, and we hav