Dresden 2020 – wissenschaftliches Programm

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BP: Fachverband Biologische Physik

BP 19: Poster VII

BP 19.7: Poster

Dienstag, 17. März 2020, 14:00–16:00, P2/3OG

Morphogenesis in Viscoelastic Tissues via Planar Deformations — •Abhijeet Krishna^1,2, Jana Fuhrmann¹, Joris Paijmans^1,2,3, Suzanne Eaton^1,2,3, Frank Jülicher^1,2, Natalie Dye¹, and Carl Modes^1,2 — ¹Max Planck Institute of Cell Biology and Genetics, Dresden, Germany — ²Center for Systems Biology Dresden, Dresden, Germany — ³Max Planck Institute of Physics of Complex Systems, Dresden, Germany

The mechanisms by which tissue surfaces develop to form complex 3D morphologies is an interesting question from the perspective of developmental biology. A model system for answering this question is the Drosophila wing imaginal disc which is a flat epithelial tissue that everts out of the plane to form a surface with non-zero Gaussian curvature. We are interested in understanding the mechanics of this eversion. It has been shown that before eversion, the cells in the wing disc elongate anisotropically and orient themselves in concentric circles around the central region of the tissue. Our hypothesis is that during eversion, cells lose their anisotropic characters which would lead to inhomogeneous and patterned planar deformations. Such inhomogeneous planar deformations can lead to change in the Gaussian curvature of the tissue. We build a spring-dashpot lattice model to simulate a viscoelastic and thick epithelial tissue. Using our model, we try to explain the robustness of the event of eversion. We also propose a mechanism by which eversion could be temporally controlled by the tissue.