Artificial intelligence based methods for hot spot prediction.

Damla Ovek, Zeynep Abali, Melisa Ece Zeylan, Ozlem Keskin, Attila Gursoy, Nurcan Tuncbag

Current opinion in structural biology 2022 Feb

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Proteins interact through their interfaces to fulfill essential functions in the cell. They bind to their partners in a highly specific manner and form complexes that have a profound effect on understanding the biological pathways they are involved in. Any abnormal interactions may cause diseases. Therefore, the identification of small molecules which modulate protein interactions through their interfaces has high therapeutic potential. However, discovering such molecules is challenging. Most protein-protein binding affinity is attributed to a small set of amino acids found in protein interfaces known as hot spots. Recent studies demonstrate that drug-like small molecules specifically may bind to hot spots. Therefore, hot spot prediction is crucial. As experimental data accumulates, artificial intelligence begins to be used for computational hot spot prediction. First, we review machine learning and deep learning for computational hot spot prediction and then explain the significance of hot spots toward drug design. Copyright © 2021. Published by Elsevier Ltd.

Citation

Damla Ovek, Zeynep Abali, Melisa Ece Zeylan, Ozlem Keskin, Attila Gursoy, Nurcan Tuncbag. Artificial intelligence based methods for hot spot prediction. Current opinion in structural biology. 2022 Feb;72:209-218