Reconciling NMR Structures of the HIV-1 Nucleocapsid Protein (NCp7) using Extensive Polarizable Force Field Free-Energy Simulations

Léa El Khoury; Frédéric Célerse; Louis Lagardere; Luc-Henri Jolly; Étienne Derat; Zeina Hobaika; Richard G. Maroun; Pengyu Ren; Serge Bouaziz; Nohad Gresh; Jean-Philip Piquemal

doi:10.26434/chemrxiv.11336975.v3

Biological and Medicinal Chemistry

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Reconciling NMR Structures of the HIV-1 Nucleocapsid Protein (NCp7) using Extensive Polarizable Force Field Free-Energy Simulations

28 February 2020, Version 3

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Abstract

Using polarizable (AMOEBA) and non-polarizable (CHARMM) force fields, we compare the relative free-energy stability of two extreme conformations of the HIV-1 NCp7 nucleocapsid that had been previously experimentally advocated to prevail in solution. Using accelerated sampling techniques, we show that they differ in stability by no more than 0.75-1.9 kcal/mol depending on the reference protein sequence. While the extended form appears to be the most probable structure, both forms should thus coexist in water explaining the differing NMR findings.

Keywords

ncp7

HIV-1 infection

Molecular Dynamics Simulation Study

AMOEBA polarizable

Polarizable force fields

Free energy calculations

Steered Molecular Dynamics Simulation

Umbrella Sampling SimulationsFree energy prediction

Supplementary materials

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NCP7 SI-rev

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Reconciling NMR Structures of the HIV-1 Nucleocapsid Protein NCp7 Using Extensive Polarizable Force Field Free-Energy Simulations

Léa El Khoury, Frédéric Célerse, Louis Lagardère, Luc-Henri Jolly, Etienne Derat, Zeina Hobaika, Richard G. Maroun, Pengyu Ren, Serge Bouaziz, Nohad Gresh, Jean-Philip Piquemal journal article

Journal of Chemical Theory and Computation , Volume 16, Issue 4

Online publication date: Mar 16, 2020