基于微管的活性流体的工程稳定性、长寿命和混溶性。

Engineering stability, longevity, and miscibility of microtubule-based active fluids.

机构信息

The Martin Fisher School of Physics, Brandeis University, Waltham, Massachusetts 02454, USA.

Department of Physics, University of California, Santa Barbara, California 93106, USA.

出版信息

Soft Matter. 2022 Mar 2;18(9):1825-1835. doi: 10.1039/d1sm01289d.

DOI:10.1039/d1sm01289d

PMID:35167642

Abstract

Microtubule-based active matter provides insight into the self-organization of motile interacting constituents. We describe several formulations of microtubule-based 3D active isotropic fluids. Dynamics of these fluids is powered by three types of kinesin motors: a processive motor, a non-processive motor, and a motor which is permanently linked to a microtubule backbone. Another modification uses a specific microtubule crosslinker to induce bundle formation instead of a non-specific polymer depletant. In comparison to the already established system, each formulation exhibits distinct properties. These developments reveal the temporal stability of microtubule-based active fluids while extending their reach and the applicability.

摘要

基于微管的活性物质为运动相互作用成分的自组织提供了深入的了解。我们描述了几种基于微管的 3D 活性各向同性流体的配方。这些流体的动力学由三种类型的驱动蛋白马达驱动：一种是进行性马达，一种是非进行性马达，另一种是与微管骨干永久性连接的马达。另一种改进方法是使用特定的微管交联剂来诱导束形成，而不是使用非特异性聚合物耗竭剂。与已经建立的系统相比，每种配方都表现出不同的性质。这些发展揭示了基于微管的活性流体的时间稳定性，同时扩展了它们的应用范围。

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基于微管的活性流体的工程稳定性、长寿命和混溶性。

Engineering stability, longevity, and miscibility of microtubule-based active fluids.

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