[institut] [phys4phys] IPB Colloquium: Matej Krajnc, Thursday, 16 May, 12:00

Antun Balaz antun at ipb.ac.rs
Fri May 10 09:34:28 CEST 2024


Dear colleagues,

You are cordially invited to the IPB COLLOQUIUM which will be held on Thursday, 16 May 2024 at 12:00 in the “Zvonko Marić” lecture hall of the Institute of Physics Belgrade. The talk entitled

Elasticity and graph architecture of animal tissues

will be given by Dr. Matej Krajnc (Jozef Stefan Institute, Ljubljana, Slovenia). The abstract of the talk:

It has been known since the work by Sir d'Arcy Thompson in the early 1900s that animal cells in many respects mechanistically behave similarly to soap bubbles or liquid droplets. Much like collections of soap bubbles, animal cells also form aggregates in which they interact and rearrange, and, due to their living nature, they also grow, divide, and migrate. We study these complex dynamics both theoretically and computationally using various approaches including variants of the finite-elements method and basic principles of elasticity theory and theory of dynamical systems. In the first part of the talk, we will derive the elasticity theory of epithelial monolayers, starting from a single-cell mechanical description in which cells are phenomenologically described as liquid droplets. Using this theory, we will show that unlike non-living thin elastic plates, which wrinkle only when they are supported by thick elastic substrates, epithelia may undergo wrinkling instability even in the absence of the substrate [1]. The second part of the talk will focus on three-dimensional cell aggregates as models of tumors and tumor spheroids. We will introduce Graph vertex model, a new computational approach to studying complex dynamics of space filling cell aggregates in which the topology of the network of cell-cell interfaces is encoded in a graph format and stored in a graph database [2]. Topological transformations associated with cell rearrangements and divisions are in this model performed by elementary graph transformations that are quite straight-forward to implement computationally.

[1] U. Andrensek, P. Ziherl, and M. Krajnc, Phys. Rev. Lett. 130, 198401 (2023).
[2] T. Sarkar and M. Krajnc, arXiv: 2309.04818, to appear in PLOS Comput. Biol.


Best regards,
Antun Balaž

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Dr. Antun Balaž
Deputy Director
Research Professor

http://www.ipb.ac.rs/en
Phone: +381 11 3713152
Fax: +381 11 3162190

Institute of Physics Belgrade
National Institute of the Republic of Serbia
Pregrevica 118, 11080 Belgrade, Serbia
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