Spontaneous oscillations of elastic filaments induced by molecular motors.
De Canio, Gabriele
Lauga, Eric Lauga
Journal of the Royal Society, Interface
The Royal Society
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De Canio, G., Lauga, E. L., & Goldstein, R. (2017). Spontaneous oscillations of elastic filaments induced by molecular motors.. Journal of the Royal Society, Interface, 14 (136)https://doi.org/10.1098/rsif.2017.0491
It is known from the wave-like motion of microtubules in motility assays that the piconewton forces that motors produce can be sufficient to bend the filaments. In cellular phenomena such as cytosplasmic streaming, molecular motors translocate along cytoskeletal filaments, carrying cargo which entrains fluid. When large numbers of such forced filaments interact through the surrounding fluid, as in particular stages of oocyte development in Drosophila melanogaster, complex dynamics are observed, but the detailed mechanics underlying them has remained unclear. Motivated by these observations, we study here perhaps the simplest model for these phenomena: an elastic filament, pinned at one end, acted on by a molecular motor treated as a point force. Because the force acts tangential to the filament, no matter what its shape, this ‘follower-force’ problem is intrinsically non-variational, and thereby differs fundamentally from Euler buckling, where the force has a fixed direction, and which, in the low Reynolds number regime, ultimately leads to a stationary, energy minimizing shape. Through a combination of linear stability theory, analytical study of a solvable simplified ‘two-link’ model, and numerical studies of the full elastohydrodynamic equations of motion we elucidate the Hopf bifurcation that occurs with increasing forcing of a filament, leading to flapping motion analogous to the high Reynolds number oscillations of a garden hose with a free end.
Models, Biological, Molecular Motor Proteins, Actin Cytoskeleton, Biomechanical Phenomena
European Research Council (247333)
ECH2020 EUROPEAN RESEARCH COUNCIL (ERC) (682754)
External DOI: https://doi.org/10.1098/rsif.2017.0491
This record's URL: https://www.repository.cam.ac.uk/handle/1810/271230