What question did this study set out to answer?

The research aims to understand the impact of metabolites and peptide fibrils on health disorders through molecular modeling.

February 21, 2026

BPS2026 – Molecular dynamics simulations of metabolites and peptide fibrils

Key Points

The research aims to understand the impact of metabolites and peptide fibrils on health disorders through molecular modeling.
Utilized molecular dynamics simulations to assess fibril stability in aqueous environments.
Modeled inhibition of fibril formation by polyphenols.
Examined interactions between metabolite crystals and cellular membranes.
Analyzed stability of a heptapeptide associated with protein misfolding illnesses.
Identified how polyphenols inhibit the formation of metabolite fibrils.
Revealed interactions of metabolite crystals that can lead to necrosis.
Showed varying stability of pathological protein misfolds in different peptide states.

Abstract

We collaborate with experimentalists on modeling metabolite fibrils, containing single amino acids or nucleobases, which are responsible for metabolite disorders. (1) We use molecular dynamics (MD) simulations to model the stability of different fibrils in an aqueous environment. (2) We modeled how polyphenols can inhibit formation of these fibrils. (3) We examine how some metabolite crystals interact with cellular membranes to elucidate how these fibrils contribute to necrosis, thus elucidating the mechanisms of these metabolite disorders. (4) Finally, we use a model heptapeptide folded in two different states to protein misfolding illnesses to determine stability of pathological protein misfolds.

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Cite This Study

Řehák et al. (Sun,) studied this question.

synapsesocial.com/papers/69990df65b97ab4c14ac2bb0 https://doi.org/https://doi.org/10.1016/j.bpj.2025.11.1777

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