模型膜系统及其应用。
Model membrane systems and their applications.
作者信息
Chan Yee-Hung M, Boxer Steven G
机构信息
Department of Chemistry, Stanford University, Stanford, CA 94305-5080, USA.
出版信息
Curr Opin Chem Biol. 2007 Dec;11(6):581-7. doi: 10.1016/j.cbpa.2007.09.020. Epub 2007 Nov 19.
Abstract
The complexity of biological membranes has motivated the development of a wide variety of simpler model systems whose size, geometry, and composition can be tailored with great precision. Approaches highlighted in this review are illustrated in Figure 1 including vesicles, supported bilayers, and hybrid membrane systems. These have been used to study problems ranging from phase behavior to membrane fusion. Experimental membrane models continue to advance in complexity with respect to architecture, size, and composition, as do computer simulations of their properties and dynamics. Analytical techniques such as imaging secondary ion mass spectrometry have also been developed and refined to give increasing spatial resolution and information content on membrane composition and dynamics.
摘要
生物膜的复杂性推动了多种更简单模型系统的发展,这些系统的大小、几何形状和组成可以非常精确地定制。本综述中重点介绍的方法如图1所示,包括囊泡、支撑双层膜和混合膜系统。这些已被用于研究从相行为到膜融合等一系列问题。实验性膜模型在结构、大小和组成方面的复杂性不断提高,其性质和动力学的计算机模拟也是如此。诸如成像二次离子质谱等分析技术也得到了发展和完善,以提供关于膜组成和动力学的更高空间分辨率和信息含量。
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