Shape Transition and Symmetry Breaking in Network Model of Active Elastic Shell Swollen by Hydrostatic Pressure

Seminar

QUEST Center event

Speaker

Ajoy Maji

Date

14/06/2023 - 11:30 - 10:30Add to Calendar 2023-06-14 10:30:10 2023-06-14 11:30:11 Shape Transition and Symmetry Breaking in Network Model of Active Elastic Shell Swollen by Hydrostatic Pressure Shape transition and symmetry breaking driven by active mechanical forces are hallmarks of living matter. How an embryo transforms itself from an initial spherical monolayer of homogeneous cells to a complex 3D shape in a programmed and robust manner is a central question in developmental biology. Motivated by the body plan of hydra, which features a bilayer of orthogonally arranged parallel arrays of muscle-like actin fibres, we investigate a "globe" model geometry with elastic springs arranged along discrete lines of latitude and longitudes. We show with two minimal model ingredients, 1. curvature control of active forces, 2. hydrostatic pressure regulation , that an initially spheroidal elastic shell can autonomously transit to elongated ellipsoidal shapes. Rm 303 המחלקה לפיזיקה physics.dept@mail.biu.ac.il Asia/Jerusalem public

Place

Rm 303

Abstract

Shape transition and symmetry breaking driven by active mechanical forces are hallmarks of living matter. How an embryo transforms itself from an initial spherical monolayer of homogeneous cells to a complex 3D shape in a programmed and robust manner is a central question in developmental biology. Motivated by the body plan of hydra, which features a bilayer of orthogonally arranged parallel arrays of muscle-like actin fibres, we investigate a "globe" model geometry with elastic springs arranged along discrete lines of latitude and longitudes. We show with two minimal model ingredients, 1. curvature control of active forces, 2. hydrostatic pressure regulation , that an initially spheroidal elastic shell can autonomously transit to elongated ellipsoidal shapes.

תאריך עדכון אחרון : 08/06/2023