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Quantifying Protein-Protein Interactions in Molecular Simulations

submitted on 20.12.2019, 20:28 and posted on 23.12.2019, 21:37 by Alfredo Jost Lopez, Patrick K. Quoika, Max Linke, Gerhard Hummer, Juergen Koefinger

We present simple, accurate, and efficient methods to estimate the dissociation constant Kd and the second osmotic virial coefficient B2 from molecular simulations. We show that for simulations of two proteins in a box, Kd is determined by B2 and the fraction of bound protein. We present two different methods to calculate B2 from Monte Carlo and molecular dynamics simulations using implicit or explicit solvent. We derive a surprisingly simple expression for B2, adding significantly to the understanding of this important quantity. Non-binding interactions of proteins and other macromolecules shape the physicochemical properties of the crowded environments inside cells and of biomolecular condensates. We show how to extract the contributions of non-binding conformations to B2 and discuss how these can be determined in analytical ultracentrifugation and SAXS experiments. We expect that our methods will prove to be instrumental in force parameterization efforts and high-throughput studies of large interactomes.


Max Planck Society


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Max Planck Institute of Biophysics



ORCID For Submitting Author


Declaration of Conflict of Interest

no conflict of interest

Version Notes

to be submitted to J. Phys. Chem. B