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Binding free energies of conformationally disordered peptides through extensive sampling and end-point methods

Binding free energies of conformationally disordered peptides through extensive sampling and end-point methods
Binding free energies of conformationally disordered peptides through extensive sampling and end-point methods

The ability to obtain binding free energies from molecular simulation techniques provides a valuable support to the interpretation and design of experiments. Among all methods available, the most widely used equilibrium free energy methods range from highly accurate and computationally expensive perturbation theory-based methods, such as free energy perturbation (FEP), or thermodynamic integration (TI), through end-point methods, such as molecular mechanics with generalized Born and surface area solvation (MM/GBSA) or MM/PBSA, when the Poisson–Boltzmann method is used instead of GB, and linear interaction energy (LIE) methods, to scoring functions, which are relatively simple empirical functions widely used as part of molecular docking protocols. Because the use of FEP and TI approaches is restricted to cases where the perturbation leading from an initial to final state is negligible or minimal, their application to cases where large conformational changes are involved between bound and unbound states is rather complex, if not prohibitive in terms of convergence. Here we describe a protocol that involves the use of extensive conformational sampling through molecular dynamics (MD) in combination with end-point methods (MM/GB(PB)SA) with an additional quasi-harmonic entropy component, for the calculation of the relative binding free energies of highly flexible, or intrinsically disordered, peptides to a structured receptor.

Binding free energy, Conformational sampling, Intrinsically disordered proteins, MM/GBSA, Molecular dynamics, Molecular recognition, Prestructuring, Protein–protein interactions
1064-3745
229-242
Humana Press Inc.
Nixon, Matthew G.
e2421a74-9fbf-4c9a-bdd8-7bd57c21f31d
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb
Nixon, Matthew G.
e2421a74-9fbf-4c9a-bdd8-7bd57c21f31d
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb

Nixon, Matthew G. and Fadda, Elisa (2019) Binding free energies of conformationally disordered peptides through extensive sampling and end-point methods. In, Methods in Molecular Biology. (Methods in Molecular Biology, 2039) Humana Press Inc., pp. 229-242. (doi:10.1007/978-1-4939-9678-0_16).

Record type: Book Section

Abstract

The ability to obtain binding free energies from molecular simulation techniques provides a valuable support to the interpretation and design of experiments. Among all methods available, the most widely used equilibrium free energy methods range from highly accurate and computationally expensive perturbation theory-based methods, such as free energy perturbation (FEP), or thermodynamic integration (TI), through end-point methods, such as molecular mechanics with generalized Born and surface area solvation (MM/GBSA) or MM/PBSA, when the Poisson–Boltzmann method is used instead of GB, and linear interaction energy (LIE) methods, to scoring functions, which are relatively simple empirical functions widely used as part of molecular docking protocols. Because the use of FEP and TI approaches is restricted to cases where the perturbation leading from an initial to final state is negligible or minimal, their application to cases where large conformational changes are involved between bound and unbound states is rather complex, if not prohibitive in terms of convergence. Here we describe a protocol that involves the use of extensive conformational sampling through molecular dynamics (MD) in combination with end-point methods (MM/GB(PB)SA) with an additional quasi-harmonic entropy component, for the calculation of the relative binding free energies of highly flexible, or intrinsically disordered, peptides to a structured receptor.

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More information

Published date: 25 July 2019
Additional Information: Publisher Copyright: © Springer Science+Business Media, LLC, part of Springer Nature 2019.
Keywords: Binding free energy, Conformational sampling, Intrinsically disordered proteins, MM/GBSA, Molecular dynamics, Molecular recognition, Prestructuring, Protein–protein interactions

Identifiers

Local EPrints ID: 500267
URI: http://eprints.soton.ac.uk/id/eprint/500267
DOI: doi:10.1007/978-1-4939-9678-0_16
ISSN: 1064-3745
PURE UUID: db3ace03-2aaf-432a-b44d-01d63e0cc85a
ORCID for Elisa Fadda: ORCID iD orcid.org/0000-0002-2898-7770

Catalogue record

Date deposited: 23 Apr 2025 16:48
Last modified: 24 Apr 2025 02:10

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Contributors

Author: Matthew G. Nixon
Author: Elisa Fadda ORCID iD

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