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通过原子力显微镜对蛋白质机械展开的粘弹性研究。

Viscoelastic study of the mechanical unfolding of a protein by AFM.

作者信息

Kawakami Masaru, Byrne Katherine, Brockwell David J, Radford Sheena E, Smith D Alastair

出版信息

Biophys J. 2006 Jul 15;91(2):L16-8. doi: 10.1529/biophysj.106.085019. Epub 2006 May 12.

DOI:10.1529/biophysj.106.085019
PMID:16698787
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1483103/
Abstract

We have applied a dynamic force modulation technique to the mechanical unfolding of a homopolymer of immunoglobulin (Ig) domains from titin, (C47S C63S I27)5, [(I27)5] to determine the viscoelastic response of single protein molecules as a function of extension. Both the stiffness and the friction of the homopolymer system show a sudden decrease when a protein domain unfolds. The decrease in measured friction suggests that the system is dominated by the internal friction of the (I27)5 molecule and not solvent friction. In the stiffness-extension spectrum we detected an abrupt feature before each unfolding event, the amplitude of which decreased with each consecutive unfolding event. We propose that these features are a clear indication of the formation of the known unfolding intermediate of I27, which has been observed previously in constant velocity unfolding experiments. This simple force modulation AFM technique promises to be a very useful addition to constant velocity experiments providing detailed viscoelastic characterization of single molecules under extension.

摘要

我们已将动态力调制技术应用于肌联蛋白免疫球蛋白(Ig)结构域同聚物(C47S C63S I27)5、[(I27)5]的机械展开过程,以确定单个蛋白质分子的粘弹性响应与伸展的函数关系。当一个蛋白质结构域展开时,同聚物系统的刚度和摩擦力均会突然下降。测量到的摩擦力下降表明,该系统主要受(I27)5分子的内摩擦力而非溶剂摩擦力的支配。在刚度-伸展谱中,我们在每次展开事件之前检测到一个突变特征,其幅度随连续的展开事件而减小。我们认为,这些特征清楚地表明了I27已知展开中间体的形成,这在之前的恒速展开实验中已被观察到。这种简单的力调制原子力显微镜技术有望成为恒速实验的一个非常有用的补充,能够在伸展状态下提供单个分子的详细粘弹性表征。

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本文引用的文献

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Frequency modulation atomic force microscopy reveals individual intermediates associated with each unfolded I27 titin domain.调频原子力显微镜揭示了与每个展开的I27肌联蛋白结构域相关的单个中间体。
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Viscoelastic measurements of single molecules on a millisecond time scale by magnetically driven oscillation of an atomic force microscope cantilever.通过原子力显微镜悬臂的磁驱动振荡在毫秒时间尺度上对单分子进行粘弹性测量。
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