Molecular Simulations Reveal the Free Energy Landscape and Transition State of Membrane Electroporation

成核 电穿孔 分子动力学 化学物理 能源景观 材料科学 反作用坐标 平均力势 统计物理学 化学 热力学 物理 计算化学 生物化学 基因
作者
Gari Kasparyan,Jochen S. Hub
出处
期刊:Physical Review Letters [American Physical Society]
卷期号:132 (14): 148401-148401 被引量:18
标识
DOI:10.1103/physrevlett.132.148401
摘要

The formation of pores over lipid membranes by the application of electric fields, termed membrane electroporation, is widely used in biotechnology and medicine to deliver drugs, vaccines, or genes into living cells. Continuum models for describing the free energy landscape of membrane electroporation were proposed decades ago, but they have never been tested against spatially detailed atomistic models. Using molecular dynamics (MD) simulations with a recently proposed reaction coordinate, we computed potentials of mean force of pore nucleation and pore expansion in lipid membranes at various transmembrane potentials. Whereas the free energies of pore expansion are compatible with previous continuum models, the experimentally important free energy barrier of pore nucleation is at variance with established models. The discrepancy originates from different geometries of the transition state; previous continuum models assumed the presence of a membrane-spanning defect throughout the process, whereas, according to the MD simulations, the transition state of pore nucleation is typically passed before a transmembrane defect has formed. A modified continuum model is presented that qualitatively agrees with the MD simulations. Using kinetics of pore opening together with transition state theory, our free energies of pore nucleation are in excellent agreement with previous experimental data.
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