Molecular dynamics studies of interactions between Arg9(nona-arginine) and a DOPC/DOPG(4:1) membrane

S. Choe
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引用次数: 7

Abstract

It has been known that the uptake mechanisms of cell-penetrating peptides(CPPs) depend on the experimental conditions such as concentration of peptides, lipid composition, temperature, etc. In this study we investigate the temperature dependence of the penetration of Arg9s into a DOPC/DOPG(4:1) membrane using molecular dynamics(MD) simulations at two different temperatures, T = 310 K and T = 288 K. Although it is difficult to identify the temperature dependence because of having only one single simulation at each temperature and no evidence of translocation of Arg9s across the membrane at both temperatures, our simulations suggest that followings are strongly correlated with the penetration of Arg9s: a number of water molecules coordinated by Arg9s, electrostatic energy between Arg9s and the lipids molecules. We also present how Arg9s change a bending rigidity of the membrane and how a collective behavior between Arg9s enhances the penetration and the membrane bending. Our analyses can be applicable to any cell-penetrating peptides(CPPs) to investigate their interactions with various membranes using MD simulations.
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Arg9(nona-arginine)与DOPC/DOPG(4:1)膜相互作用的分子动力学研究
细胞穿透肽(CPPs)的摄取机制取决于实验条件,如肽浓度、脂质组成、温度等。在本研究中,我们利用分子动力学(MD)模拟研究了在T = 310 K和T = 288 K两种不同温度下Arg9s穿透DOPC/DOPG(4:1)膜的温度依赖性。虽然很难确定温度依赖性,因为在每个温度下只有一个模拟,并且没有证据表明Arg9s在两个温度下跨膜移位,但我们的模拟表明,以下因素与Arg9s的渗透密切相关:由Arg9s协调的许多水分子,Arg9s与脂质分子之间的静电能。我们还介绍了Arg9s如何改变膜的弯曲刚度,以及Arg9s之间的集体行为如何增强渗透和膜弯曲。我们的分析可以适用于任何细胞穿透肽(CPPs),以研究它们与各种膜的相互作用。
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