荧光脂质探针对 DPPC 双层的有限扰动：分子动力学研究。

Limited perturbation of a DPPC bilayer by fluorescent lipid probes: a molecular dynamics study.

机构信息

Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853, United States.

出版信息

J Phys Chem B. 2013 May 2;117(17):4844-52. doi: 10.1021/jp400289d. Epub 2013 Apr 19.

DOI:10.1021/jp400289d

PMID:23548205

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4280801/

Abstract

The properties of lipid bilayer nanometer-scale domains could be crucial for understanding cell membranes. Fluorescent probes are often used to study bilayers, yet their effects on host lipids are not well understood. We used molecular dynamics simulations to investigate perturbations in a fluid DPPC bilayer upon incorporation of three indocarbocyanine probes: DiI-C18:0, DiI-C18:2, or DiI-C12:0. We find a 10-12% decrease in chain order for DPPC in the solvation shell nearest the probe but smaller effects in subsequent shells, indicating that the probes significantly alter only their local environment. We also observe order perturbations of lipids directly across from the probe in the opposite leaflet. Additionally, the DPPC headgroup phosphorus-to-nitrogen vector of lipids nearest the probe exhibits preferential orientation pointing away from the DiI. We show that, while DiI probes perturb their local environment, they do not strongly influence the average properties of "nanoscopic" domains containing a few hundred lipids.

摘要

脂质双层纳米尺度域的性质对于理解细胞膜可能至关重要。荧光探针常用于研究双层膜，但人们对它们对宿主脂质的影响还了解甚少。我们使用分子动力学模拟研究了在掺入三种吲哚碳菁染料探针：DiI-C18:0、DiI-C18:2 或 DiI-C12:0 后，流体 DPPC 双层膜的扰动。我们发现，在离探针最近的溶剂化壳中，DPPC 的链序减少了 10-12%，而在后续壳中的影响较小，这表明探针仅显著改变了它们的局部环境。我们还观察到在对面的叶层中，与探针直接相对的脂质的顺序扰动。此外，离探针最近的 DPPC 头部磷氮向量指向远离 DiI 的方向。我们表明，虽然 DiI 探针会扰乱其局部环境，但它们不会强烈影响包含几百个脂质的“纳米级”域的平均性质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a54/4280801/06f9007d011f/nihms648647f1.jpg

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