N-BAR结构域相互作用介导的膜重塑:多尺度模拟的见解
Membrane remodeling from N-BAR domain interactions: insights from multi-scale simulation.
作者信息
Ayton Gary S, Blood Philip D, Voth Gregory A
机构信息
Center for Biophysical Modeling and Simulation, University of Utah, Salt Lake City, Utah, USA.
出版信息
Biophys J. 2007 May 15;92(10):3595-602. doi: 10.1529/biophysj.106.101709. Epub 2007 Feb 26.
Abstract
Liposome remodeling processes (e.g., vesiculation and tubulation) due to N-BAR domain interactions with the lipid bilayer are explored with a multi-scale simulation approach. Results from atomistic-level molecular dynamics simulations of membrane binding to the concave face of N-BAR domains are used along with discretized mesoscopic field-theoretic simulations to examine how the spontaneous curvature fields generated by N-BAR domains result in membrane remodeling. It is found that tubulation can be generated by anisotropic N-BAR spontaneous curvature fields, whereas vesiculation is only observed with isotropic N-BAR spontaneous curvature fields at high density. The results of the multi-scale simulations provide insight into recent experimental observations.
摘要
采用多尺度模拟方法研究了由于N-BAR结构域与脂质双层相互作用而导致的脂质体重塑过程(如囊泡化和微管化)。将膜与N-BAR结构域凹面结合的原子水平分子动力学模拟结果与离散介观场论模拟结果相结合,以研究N-BAR结构域产生的自发曲率场如何导致膜重塑。研究发现,各向异性的N-BAR自发曲率场可产生微管化,而仅在高密度下的各向同性N-BAR自发曲率场中观察到囊泡化。多尺度模拟结果为最近的实验观察提供了见解。
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