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Neural relational inference to learn long-range allosteric interactions in proteins from molecular dynamics simulations

Jingxuan Zhu, Juexin Wang, Weiwei Han () and Dong Xu ()
Additional contact information
Jingxuan Zhu: Jilin University
Juexin Wang: University of Missouri
Weiwei Han: Jilin University
Dong Xu: University of Missouri

Nature Communications, 2022, vol. 13, issue 1, 1-16

Abstract: Abstract Protein allostery is a biological process facilitated by spatially long-range intra-protein communication, whereby ligand binding or amino acid change at a distant site affects the active site remotely. Molecular dynamics (MD) simulation provides a powerful computational approach to probe the allosteric effect. However, current MD simulations cannot reach the time scales of whole allosteric processes. The advent of deep learning made it possible to evaluate both spatially short and long-range communications for understanding allostery. For this purpose, we applied a neural relational inference model based on a graph neural network, which adopts an encoder-decoder architecture to simultaneously infer latent interactions for probing protein allosteric processes as dynamic networks of interacting residues. From the MD trajectories, this model successfully learned the long-range interactions and pathways that can mediate the allosteric communications between distant sites in the Pin1, SOD1, and MEK1 systems. Furthermore, the model can discover allostery-related interactions earlier in the MD simulation trajectories and predict relative free energy changes upon mutations more accurately than other methods.

Date: 2022
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41467-022-29331-3

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