Contacts-based prediction of binding affinity in protein–protein complexes
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Publication date
2015-07-20
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Abstract
Almost all critical functions in cells rely on specific protein–protein interactions.Understanding these is therefore crucial in the investigation of biological systems.Despite all past efforts, we still lack a thorough understanding of the energetics of association of proteins.Here, we introduce a new and simple approach to predict binding affinity based on functional and structural features of the biological system, namely the network of interfacial contacts.We assess its performance against a protein–protein binding affinity benchmark and show that both experimental methods used for affinity measurements and conformational changes have a strong impact on prediction accuracy.Using a subset of complexes with reliable experimental binding affinities and combining our contacts and contact-types-based model with recent observations on the role of the non-interacting surface in protein–protein interactions, we reach a high prediction accuracy for such a diverse dataset outperforming all other tested methods.
Keywords
General Biochemistry,Genetics and Molecular Biology, General Immunology and Microbiology, General Medicine, General Neuroscience
Citation
Vangone, A & Bonvin, A M J J 2015, 'Contacts-based prediction of binding affinity in protein–protein complexes', eLife, vol. 4, e07454. https://doi.org/10.7554/eLife.07454