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Polarisable force fields: what do they add in biomolecular simulations?

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posted on 2024-11-16, 02:14 authored by Venkatasaisandeep Inakollu, Daan P Geerke, Christopher N Rowley, Haibo YuHaibo Yu
The quality of biomolecular simulations critically depends on the accuracy of the force field used to calculate the potential energy of the molecular configurations. Currently, most simulations employ non-polarisable force fields, which describe electrostatic interactions as the sum of Coulombic interactions between fixed atomic charges. Polarisation of these charge distributions is incorporated only in a mean-field manner. In the past decade, extensive efforts have been devoted to developing simple, efficient, and yet generally applicable polarisable force fields for biomolecular simulations. In this review, we summarise the latest developments in accounting for key biomolecular interactions with polarisable force fields and applications to address challenging biological questions. In the end, we provide an outlook for future development in polarisable force fields.

Funding

Liquid-phase hydrogen carriers for energy storage and delivery

Australian Research Council

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Anti-sporulation strategies for Clostridium difficile infections

National Health and Medical Research Council

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History

Citation

Inakollu, V. S., Geerke, D. P., Rowley, C. N. & Yu, H. (2020). Polarisable force fields: what do they add in biomolecular simulations?. Current Opinion in Structural Biology, 61 182-190.

Journal title

Current Opinion in Structural Biology

Volume

61

Pagination

182-190

Language

English

RIS ID

141424

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