Predicting metal-protein interactions using cofolding methods: Status quo

Published: 17 Jun 2024, Last Modified: 16 Jul 2024ML4LMS PosterEveryoneRevisionsBibTeXCC BY 4.0
Keywords: metalloproteins, cofolding, alphafold, protein-ligand interactions, docking, benchmark
TL;DR: We analyze how well AlphaFold3 and RoseTTAfold-All Atom handle metal ions finding that only AlphaFold3 provides realistic predictions on par with more specialized models.
Abstract: Metals play important roles for enzyme function and many therapeutically relevant proteins. Despite the fact that the first drugs developed via computer aided drug design were metalloprotein inhibitors, many computational pipelines still discard metalloproteins due to the difficulties of modelling them computationally. New "cofolding" methods such as AlphaFold3 (AF3) and RoseTTAfold-AllAtom (RFAA) promise to improve this issue by being able to dock small molecules in presence of multiple complex cofactors including metals or covalent modifications. Here, we analyze the current status for metal ion prediction using these methods. We find that currently only AF3 provides realistic predictions for metal ions, RFAA in contrast does perform worse than more specialized models such as AllMetal3D in predicting the location of metal ions accurately. We find that AF3 predictions are consistent with expected physico-chemical trends/intuition whereas RFAA often also predicts unrealistic metal ion locations.
Submission Number: 69
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