主动纠缠跟踪微流变学直接将大分子变形与纠缠肌动蛋白的非线性微观力响应联系起来。

Active Entanglement-Tracking Microrheology Directly Couples Macromolecular Deformations to Nonlinear Microscale Force Response of Entangled Actin.

作者信息

Falzone Tobias T, Robertson-Anderson Rae M

机构信息

Department of Physics, University of San Diego, San Diego, California 92110, United States.

出版信息

ACS Macro Lett. 2015 Nov 17;4(11):1194-1199. doi: 10.1021/acsmacrolett.5b00673. Epub 2015 Oct 15.

DOI:10.1021/acsmacrolett.5b00673

PMID:35614836

Abstract

We track the deformation of discrete entangled actin segments while simultaneously measuring the resistive force the deformed filaments exert in response to an optically driven microsphere. We precisely map the network deformation field to show that local microscale stresses can induce filament deformations that propagate beyond mesoscopic length scales (60 μm, >3 persistence lengths ). We show that the filament persistence length controls the critical length scale at which distinct entanglement deformations become driven by collective network mechanics. Mesoscale propagation beyond is coupled with nonlinear local stresses arising from steric entanglements mimicking cross-links.

摘要

我们追踪离散缠结肌动蛋白片段的变形，同时测量变形细丝响应光驱动微球而施加的阻力。我们精确绘制网络变形场，以表明局部微观应力可引发细丝变形，并传播至介观长度尺度之外（60μm，大于3个持久长度）。我们表明，细丝持久长度控制着临界长度尺度，在该尺度上，不同的缠结变形由集体网络力学驱动。超过该尺度的介观传播与由模拟交联的空间缠结产生的非线性局部应力相关联。

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主动纠缠跟踪微流变学直接将大分子变形与纠缠肌动蛋白的非线性微观力响应联系起来。

Active Entanglement-Tracking Microrheology Directly Couples Macromolecular Deformations to Nonlinear Microscale Force Response of Entangled Actin.

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