Documents
-
- Download
- PhysRevE.101.032602
- Publisher's Version
- open access
- Full text at publishers site
In Collections
This item can be found in the following collections:
Topotaxis of active Brownian particles
Recent experimental studies have demonstrated that cellular motion can be directed by topographical gradients, such as those resulting from spatial variations in the features of a micropatterned substrate. This phenomenon, known as topotaxis, has been extensively studied for topographical gradients at the subcellular scale, but can also occur in the presence of a spatially varying density of cell-sized features. Such a large-scale topotaxis has recently been observed in highly motile cells that persistently crawl within an array of obstacles with smoothly varying lattice spacing. We introduce a toy model of large-scale topotaxis, based on active Brownian particles. Using numerical simulations and analytical arguments, we demonstrate that topographical gradients introduce a spatial modulation of the particles' persistence, leading to directed motion toward regions of higher persistence. Our results demonstrate that persistent motion alone is sufficient to drive large-scale topotaxis and could serve as a starting point for more detailed studies on self-propelled particles and cells.
-
- All authors
- Schakenraad, K.; Ravazzano, L.; Sarkar, N.; Wondergem, J.A.J.; Merks, R.M.H.; Giomi, L.
- Date
- 2020-03-03
- Journal
- Physical Review E
- Volume
- 101
- Issue
- 3
- Pages
- 032602