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Autores principales: Happel, Lea, Oberschelp, Griseldis, Richter, Anneli, Rode, Gwenda Roselene, Grudtsyna, Valeriia, Doostmohammadi, Amin, Voigt, Axel
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2510.02160
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author Happel, Lea
Oberschelp, Griseldis
Richter, Anneli
Rode, Gwenda Roselene
Grudtsyna, Valeriia
Doostmohammadi, Amin
Voigt, Axel
author_facet Happel, Lea
Oberschelp, Griseldis
Richter, Anneli
Rode, Gwenda Roselene
Grudtsyna, Valeriia
Doostmohammadi, Amin
Voigt, Axel
contents Topological defects provide a unifying language to describe how orientational order breaks down in active and living matter. Considering cells as elongated particles confluent, epithelial tissues can be interpreted as nematic fields and its defects have been linked to extrusion, migration, and morphogenetic transformations. Yet, epithelial cells are not restricted to nematic order: their irregular shapes can express higher rotational symmetries, giving rise to p-atic order. Here we introduce a framework to extract p-atic fields and their defects directly from experimental images. Applying this method to MDCK cells, we find that all symmetries generate defects.No strong positional or orientational correlations are found between nematic and hexatic defects, suggesting that different symmetries coexist largely independently. These results demonstrate that epithelial tissues should not be described by nematic order alone, but instead host a spectrum of p-atic symmetries. Our work provides the first direct experimental evidence for this multivalency of order and offers a route to test and refine emerging p-atic liquid crystal theories of living matter.
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spellingShingle A spectrum of p-atic symmetries and defects in confluent epithelia
Happel, Lea
Oberschelp, Griseldis
Richter, Anneli
Rode, Gwenda Roselene
Grudtsyna, Valeriia
Doostmohammadi, Amin
Voigt, Axel
Soft Condensed Matter
Topological defects provide a unifying language to describe how orientational order breaks down in active and living matter. Considering cells as elongated particles confluent, epithelial tissues can be interpreted as nematic fields and its defects have been linked to extrusion, migration, and morphogenetic transformations. Yet, epithelial cells are not restricted to nematic order: their irregular shapes can express higher rotational symmetries, giving rise to p-atic order. Here we introduce a framework to extract p-atic fields and their defects directly from experimental images. Applying this method to MDCK cells, we find that all symmetries generate defects.No strong positional or orientational correlations are found between nematic and hexatic defects, suggesting that different symmetries coexist largely independently. These results demonstrate that epithelial tissues should not be described by nematic order alone, but instead host a spectrum of p-atic symmetries. Our work provides the first direct experimental evidence for this multivalency of order and offers a route to test and refine emerging p-atic liquid crystal theories of living matter.
title A spectrum of p-atic symmetries and defects in confluent epithelia
topic Soft Condensed Matter
url https://arxiv.org/abs/2510.02160