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Biological vs. Crystallographic Protein Interfaces: An Overview of Computational Approaches for Their Classification

Katarina Elez, Alexandre M. J. J. Bonvin, Anna Vangone

2020Crystals25 citationsDOIOpen Access PDF

Abstract

Complexes between proteins are at the basis of almost every process in cells. Their study, from a structural perspective, has a pivotal role in understanding biological functions and, importantly, in drug development. X-ray crystallography represents the broadest source for the experimental structural characterization of protein-protein complexes. Correctly identifying the biologically relevant interface from the crystallographic ones is, however, not trivial and can be prone to errors. Over the past two decades, computational methodologies have been developed to study the differences of those interfaces and automatically classify them as biological or crystallographic. Overall, protein-protein interfaces show differences in terms of composition, energetics and evolutionary conservation between biological and crystallographic ones. Based on those observations, a number of computational methods have been developed for this classification problem, which can be grouped into three main categories: Energy-, empirical knowledge- and machine learning-based approaches. In this review, we give a comprehensive overview of the training datasets and methods so far implemented, providing useful links and a brief description of each method.

Topics & Concepts

Computer scienceInterface (matter)Perspective (graphical)Process (computing)Basis (linear algebra)Characterization (materials science)Computational biologyArtificial intelligenceMachine learningBiologyMathematicsMaterials scienceNanotechnologyGeometryParallel computingBubbleMaximum bubble pressure methodOperating systemProtein Structure and DynamicsEnzyme Structure and FunctionComputational Drug Discovery Methods
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