Scratching beyond the surface — minimal actin assemblies as tools to elucidate mechanical reinforcement and shape change
Open Access
- 21 December 2022
- journal article
- research article
- Published by Portland Press Ltd. in Emerging Topics in Life Sciences
- Vol. 6 (6), 583-592
- https://doi.org/10.1042/etls20220052
Abstract
The interaction between the actin cytoskeleton and the plasma membrane in eukaryotic cells is integral to a large number of functions such as shape change, mechanical reinforcement and contraction. These phenomena are driven by the architectural regulation of a thin actin network, directly beneath the membrane through interactions with a variety of binding proteins, membrane anchoring proteins and molecular motors. An increasingly common approach to understanding the mechanisms that drive these processes is to build model systems from reconstituted lipids, actin filaments and associated actin-binding proteins. Here we review recent progress in this field, with a particular emphasis on how the actin cytoskeleton provides mechanical reinforcement, drives shape change and induces contraction. Finally, we discuss potential future developments in the field, which would allow the extension of these techniques to more complex cellular processes.Keywords
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