Activity pulses induce spontaneous flow reversals in viscoelastic environments

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Complex interactions between cellular systems and their surrounding extracellular matrices are emerging as important mechanical regulators of cell functions, such as proliferation, motility and cell death, and such cellular systems are often characterized by pulsating actomyosin activities. Here, using an active gel model, we numerically explore spontaneous flow generation by activity pulses in the presence of a viscoelastic medium. The results show that cross-talk between the activity-induced deformations of the viscoelastic surroundings and the time-dependent response of the active medium to these deformations can lead to the reversal of spontaneously generated active flows. We explain the mechanism behind this phenomenon based on the interaction between the active flow and the viscoelastic medium. We show the importance of relaxation time scales of both the polymers and the active particles and provide a phase space over which such spontaneous flow reversals can be observed. Our results suggest new experiments investigating the role of controlled pulses of activity in living systems ensnared in complex mircoenvironments.

Original languageEnglish
Article number20210100
JournalInterface Focus
Volume18
Issue number177
Number of pages7
ISSN1742-5689
DOIs
Publication statusPublished - 14 Apr 2021

    Research areas

  • flow reversal, active matter, viscoelastic effects, activity pulse, polymer relaxation

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