利用金纳米棒追踪探测脂质膜弯曲力学

Probing lipid membrane bending mechanics using gold nanorod tracking.

作者信息

Molaei Mehdi, Kandy Sreeja Kutti, Graber Zachary T, Baumgart Tobias, Radhakrishnan Ravi, Crocker John C

机构信息

Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, Pennsylvania 19104, USA.

Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104, USA.

出版信息

Phys Rev Res. 2022 Mar-May;4(1). doi: 10.1103/physrevresearch.4.l012027. Epub 2022 Mar 7.

DOI:10.1103/physrevresearch.4.l012027

PMID:35373142

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8975244/

Abstract

Lipid bilayer membranes undergo rapid bending undulations with wavelengths from tens of nanometers to tens of microns due to thermal fluctuations. Here, we probe such undulations and the membranes' mechanics by measuring the time-varying orientation of single gold nanorods (GNRs) adhered to the membrane, using high-speed dark field microscopy. In a lipid vesicle, such measurements allow the determination of the membrane's viscosity, bending rigidity, and tension as well as the friction coefficient for sliding of the monolayers over one another. The in-plane rotation of the GNR is hindered by undulations in a tension dependent manner, consistent with simulations. The motion of single GNRs adhered to the plasma membrane of living cultured cells similarly reveals the membrane's complex physics and coupling to the cell's actomyosin cortex.

摘要

由于热涨落，脂质双分子层膜会经历波长从几十纳米到几十微米的快速弯曲波动。在此，我们通过使用高速暗场显微镜测量附着在膜上的单个金纳米棒（GNR）的随时间变化的取向，来探测这种波动以及膜的力学性质。在脂质囊泡中，此类测量能够确定膜的粘度、弯曲刚度和张力，以及单层膜彼此滑动的摩擦系数。GNR的面内旋转受到波动的张力依赖性阻碍，这与模拟结果一致。附着在活培养细胞质膜上的单个GNR的运动同样揭示了膜的复杂物理性质以及与细胞肌动球蛋白皮质的耦合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82bc/8975244/60fb73b713f7/nihms-1786796-f0001.jpg

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利用金纳米棒追踪探测脂质膜弯曲力学

Probing lipid membrane bending mechanics using gold nanorod tracking.

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