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.
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CITATION STYLE
Chandrakar, P., Berezney, J., Lemma, B., Hishamunda, B., Berry, A., Wu, K. T., … Dogic, Z. (2022). Engineering stability, longevity, and miscibility of microtubule-based active fluids. Soft Matter, 18(9), 1825–1835. https://doi.org/10.1039/d1sm01289d
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