Tina Händler scite author profile

The mechanics of complex soft matter often cannot be understood in the classical physical frame of flexible polymers or rigid rods. The underlying constituents are semiflexible polymers, whose finite bending stiffness (κ) leads to non-trivial mechanical responses. A natural model for such polymers is the protein actin. Experimental studies of actin networks, however, are limited since the persistence length (lp ∝ κ) cannot be tuned. Here, we experimentally characterize this parameter for the first time in entangled networks formed by synthetically produced, structurally tunable DNA nanotubes. This material enabled the validation of characteristics inherent to semiflexible polymers and networks thereof, i.e., persistence length, inextensibility, reptation and mesh size scaling. While the scaling of the elastic plateau modulus with concentration G0 ∝ c 7/5 is consistent with previous measurements and established theories, the emerging persistence length scaling G0 ∝ lp opposes predominant theoretical predictions.

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Glassy dynamics in composite biopolymer networks

Golde

Huster

Gläser

et al. 2018

Soft Matter

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Semiflexible Biopolymers in Bundled Arrangements

2016

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Bundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical integrity while also enabling dynamic functions. Networks have been the subject of many studies, revealing a variety of fundamental characteristics often determined via bulk measurements. Although bundles are equally important in biological systems, they have garnered much less scientific attention since they have to be probed on the mesoscopic scale. Here, we review theoretical as well as experimental approaches, which mainly employ the naturally occurring biopolymer actin, to highlight the principles behind these structures on the single bundle level.

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Tina Händler

Tuning Synthetic Semiflexible Networks by Bending Stiffness

Glassy dynamics in composite biopolymer networks

Semiflexible Biopolymers in Bundled Arrangements

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