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Issue 7, 2011
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Non-Gaussian athermal fluctuations in active gels

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Dynamic networks designed to model the cell cytoskeleton can be reconstituted from filamentous actin, the motor protein myosin and a permanent cross-linker. They are driven out of equilibrium when the molecular motors are active. This gives rise to athermal fluctuations that can be recorded by tracking probe particles that are dispersed in the network. We have here probed athermal fluctuations in such “active gels” using video microrheology. We have measured the full distribution of probe displacements, also known as the van Hove correlation function. The dominant influence of thermal or athermal fluctuations can be detected by varying the lag time over which the displacements are measured. We argue that the exponential tails of the distribution derive from single motors close to the probes, and we extract an estimate of the velocity of motor heads along the actin filaments. The distribution exhibits a central Gaussian region which we assume derives from the action of many independent motor proteins far from the probe particles when athermal fluctuations dominate. Recording the whole distribution rather than just the typically measured second moment of probe fluctuations (mean-squared displacement) thus allowed us to differentiate between the effect of individual motors and the collective action of many motors.

Graphical abstract: Non-Gaussian athermal fluctuations in active gels

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The article was received on 03 Sep 2010, accepted on 20 Jan 2011 and first published on 21 Feb 2011

Article type: Paper
DOI: 10.1039/C0SM00925C
Citation: Soft Matter, 2011,7, 3234-3239

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    Non-Gaussian athermal fluctuations in active gels

    T. Toyota, D. A. Head, C. F. Schmidt and D. Mizuno, Soft Matter, 2011, 7, 3234
    DOI: 10.1039/C0SM00925C

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