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Institute for the Physics of Living Systems

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IPLS Seminar - Dr. Rastko Sknepnek (University of Dundee)

17 January 2018, 12:00 pm

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UCL (MRC Building, LMCB, 2nd Floor Seminar Room)

Title: Self-propelled Vertex Model for cell-resolution description of epithelial tissue mechanics

Abstract: We introduce a version of Active Vertex Model (AVM) [1] based on recent Self-propelled Voronoi Model [2] for cell-resolution studies of the mechanics of confluent epithelial tissues consisting of tens of thousands of cells, with a level of detail inaccessible to similar methods. The AVM combines the Vertex Model for confluent epithelial tissues with active matter dynamics. This introduces a natural description of the cell motion and accounts for motion patterns observed on multiple scales. Furthermore, cell contacts are generated dynamically from positions of cell centres. This not only enables efficient numerical implementation but provides a natural description of the T1 transition events responsible for local tissue rearrangements. The AVM also includes cell alignment, cell-specific mechanical properties, cell growth, division, and apoptosis. In addition, the AVM introduces a flexible, dynamically changing boundary of the epithelial sheet allowing for studies of phenomena such as the fingering instability or wound healing. We illustrate these capabilities with a number of case studies.


References:
[1] D. L. Barton, S. Henkes, C. J. Weijer, R. Sknepnek, 'Active Vertex Model for Cell-Resolution Description of Epithelial Tissue Mechanics', PLoS Comput Biol 13(6): e1005569
[2] D. Bi, X. Yang, M. C. Marchetti, M. L. Manning, 'Motility-driven glass and jamming transitions in biological tissues', Phys. Rev. X 6, 021011 (2016)