Cytoskeletal remodeling and slow dynamics in the living cell
Bursac P, Lenormand G, Fabry B, Oliver M, Weitz DA, Viasnoff V, Butler JP, Fredberg J (2005)
Publication Type: Journal article
Publication year: 2005
Journal
Publisher: Nature Publishing Group
Book Volume: 4
Pages Range: 557-61
DOI: 10.1038/nmat1404
Abstract
Forced and spontaneous motions of microbeads tightly bound to the cytoskeleton (CSK) of human muscle cells were analyzed. HASM cells in passages 6-7 were serum-deprived for 24 h; serum deprivation arrests the cell cylce in the G1/G00 phases. It was observed that these spontaneous bead motions reflecting nanoscale CSK arrangements depended on both the approach to glass transition and energy release due to ATP hydrolysis. The results show that the trapping, intermittency, and approach to kinetic arrest are mesoscale features of CSK protein-protein interaction that link integrative phenotypic functions to the molecular events.
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APA:
Bursac, P., Lenormand, G., Fabry, B., Oliver, M., Weitz, D.A., Viasnoff, V.,... Fredberg, J. (2005). Cytoskeletal remodeling and slow dynamics in the living cell. Nature Materials, 4, 557-61. https://dx.doi.org/10.1038/nmat1404
MLA:
Bursac, Predrag, et al. "Cytoskeletal remodeling and slow dynamics in the living cell." Nature Materials 4 (2005): 557-61.
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