从小波动到大尺度相分离：含胆固醇模型膜中的侧向组织

From small fluctuations to large-scale phase separation: lateral organization in model membranes containing cholesterol.

作者信息

Veatch Sarah L

机构信息

Cornell University, Department of Chemistry and Chemical Biology, Ithaca, NY 14853, United States.

出版信息

Semin Cell Dev Biol. 2007 Oct;18(5):573-82. doi: 10.1016/j.semcdb.2007.08.016. Epub 2007 Sep 4.

DOI:10.1016/j.semcdb.2007.08.016

PMID:17942350

Abstract

Macroscopic coexisting liquid phases are readily observed in certain model membranes containing cholesterol and at least two other lipid components. Recent fluorescence microscopy and deuterium NMR work indicates that submicron fluctuations are also found, in vesicles with near-critical lipid compositions. In principle, the magnitude of critical fluctuations can be controlled by changing temperature, or through other means of shifting the phase boundary such as including impurities or cross-linking components. Critical fluctuations are dynamic submicron domains in model membranes, and provide a plausible physical mechanism to produce putative 'raft' domains in cholesterol-rich biomembranes.

摘要

在某些含有胆固醇和至少两种其他脂质成分的模型膜中，很容易观察到宏观共存的液相。最近的荧光显微镜和氘核磁共振研究表明，在具有接近临界脂质组成的囊泡中也发现了亚微米级的波动。原则上，临界波动的幅度可以通过改变温度或通过其他移动相界的方法来控制，例如加入杂质或交联成分。临界波动是模型膜中的动态亚微米域，并为在富含胆固醇的生物膜中产生假定的“筏”域提供了一种合理的物理机制。

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从小波动到大尺度相分离：含胆固醇模型膜中的侧向组织

From small fluctuations to large-scale phase separation: lateral organization in model membranes containing cholesterol.

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