脂双层和膜动力学：对厚度波动的洞察。

Lipid bilayers and membrane dynamics: insight into thickness fluctuations.

机构信息

NIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, Maryland 20899-6102, USA.

出版信息

Phys Rev Lett. 2012 Aug 3;109(5):058102. doi: 10.1103/PhysRevLett.109.058102. Epub 2012 Jul 31.

DOI:10.1103/PhysRevLett.109.058102

PMID:23006210

Abstract

Thickness fluctuations have long been predicted in biological membranes but never directly observed experimentally. Here, we utilize neutron spin echo spectroscopy to experimentally reveal such fluctuations in a pure, fully saturated, phosphocholine lipid bilayer system. These fluctuations appear as an excess in the dynamics of undulation fluctuations. Like the bending rigidity, the thickness fluctuations change dramatically as the lipid transition temperature is crossed, appearing to be completely suppressed below the transition. Above the transition, the relaxation rate is on the order of 100 ns and is independent of temperature. The amplitude of the thickness fluctuations is 3.7 Å ± 0.7 Å, which agrees well with theoretical calculations and molecular dynamics simulations. The dependence of the fluctuations on lipid tail lengths is also investigated and determined to be minimal in the range of 14 to 18 carbon tails.

摘要

厚度波动早已在生物膜中被预测到，但从未在实验中被直接观察到。在这里，我们利用中子自旋回波谱学在一个纯的、完全饱和的磷酸胆碱脂质双层体系中实验性地揭示了这种波动。这些波动表现为波动的动态中的过剩。与弯曲刚度一样，当脂质相变温度被跨越时，厚度波动会发生剧烈变化，在相变以下似乎完全被抑制。在相变以上，弛豫速率约为 100ns，并且与温度无关。厚度波动的幅度为 3.7 Å ± 0.7 Å，这与理论计算和分子动力学模拟吻合得很好。还研究了波动对脂质尾部长度的依赖性，并且确定在 14 到 18 个碳尾部的范围内依赖性最小。

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脂双层和膜动力学：对厚度波动的洞察。

Lipid bilayers and membrane dynamics: insight into thickness fluctuations.

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