Lipid Bilayers Driven to a Wrong Lane in Molecular Dynamics Simulations by Subtle Changes in Long-Range Electrostatic Interactions

Patra, M · 2004

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Concentration-Dependent Membrane Destabilization in DPPC Bilayers: Distinct Insertion Mechanisms and Stress Redistribution by Chloroform and Alkanols

cond-mat.soft · 2026-05-09 · unverdicted · novelty 5.0

MD simulations show chloroform and alkanols destabilize DPPC bilayers via distinct insertion depths and stress redistribution, producing fluctuations, thinning, and softening without full melting up to 1000 ns.

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Concentration-Dependent Membrane Destabilization in DPPC Bilayers: Distinct Insertion Mechanisms and Stress Redistribution by Chloroform and Alkanols cond-mat.soft · 2026-05-09 · unverdicted · none · ref 35
MD simulations show chloroform and alkanols destabilize DPPC bilayers via distinct insertion depths and stress redistribution, producing fluctuations, thinning, and softening without full melting up to 1000 ns.

Lipid Bilayers Driven to a Wrong Lane in Molecular Dynamics Simulations by Subtle Changes in Long-Range Electrostatic Interactions

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