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Control of active liquid crystals with a magnetic field.

Proceedings of the National Academy of Sciences of the United States of America (2016-05-04)
Pau Guillamat, Jordi Ignés-Mullol, Francesc Sagués
RÉSUMÉ

Living cells sense the mechanical features of their environment and adapt to it by actively remodeling their peripheral network of filamentary proteins, known as cortical cytoskeleton. By mimicking this principle, we demonstrate an effective control strategy for a microtubule-based active nematic in contact with a hydrophobic thermotropic liquid crystal. By using well-established protocols for the orientation of liquid crystals with a uniform magnetic field, and through the mediation of anisotropic shear stresses, the active nematic reversibly self-assembles with aligned flows and textures that feature orientational order at the millimeter scale. The turbulent flow, characteristic of active nematics, is in this way regularized into a laminar flow with periodic velocity oscillations. Once patterned, the microtubule assembly reveals its intrinsic length and time scales, which we correlate with the activity of motor proteins, as predicted by existing theories of active nematics. The demonstrated commanding strategy should be compatible with other viable active biomaterials at interfaces, and we envision its use to probe the mechanics of the intracellular matrix.

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Sigma-Aldrich
3-(Trimethoxysilyl)propyl methacrylate, 98%
Sigma-Aldrich
N,N,N′,N′-Tetramethylethylenediamine, BioReagent, for molecular biology, ≥99% (GC)
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Poly(éthylène glycol), BioUltra, 20,000