Francesco Pesce scite author profile

Coarse-grained molecular dynamics simulations are a useful tool to determine conformational ensembles of proteins. Here, we show that the coarse-grained force field Martini 3 underestimates the global dimensions of intrinsically disordered proteins (IDPs) and multidomain proteins when compared with small-angle X-ray scattering (SAXS) data and that increasing the strength of protein−water interactions favors more expanded conformations. We find that increasing the strength of interactions between protein and water by ca. 10% results in improved agreement with the SAXS data for IDPs and multidomain proteins. We also show that this correction results in a more accurate description of self-association of IDPs and folded proteins and better agreement with paramagnetic relaxation enhancement data for most IDPs. While simulations with this revised force field still show deviations to experiments for some systems, our results suggest that it is overall a substantial improvement for coarsegrained simulations of soluble proteins.

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Force Field Effects in Simulations of Flexible Peptides with Varying Polyproline II Propensity

Jephthah

Pesce

Lindorff‐Larsen

et al. 2021

J. Chem. Theory Comput.

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Five peptides previously suggested to possess polyproline II (PPII) structure have here been investigated by using atomistic molecular dynamics simulations to compare how well four different force fields known for simulating intrinsically disordered proteins relatively well (Amber ff99SB-disp, Amber ff99SB-ILDN, CHARM36IDPSFF, and CHARMM36m) can capture this secondary structure element. The results revealed that all force fields sample PPII structures but to different extents and with different propensities toward other secondary structure elements, in particular, the β-sheet and “random coils”. A cluster analysis of the simulations of histatin 5 also revealed that the conformational ensembles of the force fields are quite different. We compared the simulations to circular dichroism and nuclear magnetic resonance spectroscopy experiments and conclude that further experiments and methods for interpreting them are needed to assess the accuracy of force fields in determining PPII structure.

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Assessment of models for calculating the hydrodynamic radius of intrinsically disordered proteins

Pesce

Newcombe

Seiffert

et al. 2023

Biophysical Journal

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Refining conformational ensembles of flexible proteins against small-angle x-ray scattering data

Pesce¹,

Lindorff‐Larsen²

2021

Biophysical Journal

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Improving Martini 3 for disordered and multidomain proteins

Thomasen

Pesce

Roesgaard

et al. 2021

Preprint

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Coarse-grained molecular dynamics simulations are a useful tool to determine conformational ensembles of intrinsically disordered proteins (IDPs). Here, we show that the coarse-grained force field Martini~3 underestimates the global dimensions of IDPs when compared with small angle X-ray scattering (SAXS) data. Increasing the strength of protein-water interactions favors more expanded conformations, improving agreement with SAXS data and alleviating problems with overestimated IDP-IDP interactions.

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Francesco Pesce

Improving Martini 3 for Disordered and Multidomain Proteins

Force Field Effects in Simulations of Flexible Peptides with Varying Polyproline II Propensity

Assessment of models for calculating the hydrodynamic radius of intrinsically disordered proteins

Refining conformational ensembles of flexible proteins against small-angle x-ray scattering data

Improving Martini 3 for disordered and multidomain proteins

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