Hexanematic crossover in epithelial monolayers depends on cell adhesion and cell density.

Raw data files concerning the publication,

Hexanematic crossover in epithelial monolayers depends on cell adhesion and cell density
Julia Eckert, Benoit Ladoux, Rene-Marc Mege, Luca Giomi and Thomas Schmidt
Nature Communications (2023) 14:5762.
doi: https://doi.org/10.1038/s41467-023-41449-6

Abstract:

Changes in tissue geometry during developmental processes are associated with collective migration of cells. Recent experimental and numerical results suggest that these changes could leverage on the coexistence of nematic and hexatic orientational order at different length scales. How this multiscale organization is affected by the material properties of the cells and their substrate is presently unknown. In this study, we address these questions in monolayers of Madin-Darby canine kidney cells having various cell densities and molecular repertoires. At small length scales, confluent monolayers are characterized by a prominent hexatic order, independent of the presence of E-cadherin, monolayer density, and underlying substrate stiffness. However, all three properties affect the meso-scale tissue organization. The length scale at which hexatic order transits to nematic order, the ”hexanematic” crossover scale, strongly depends on cell-cell adhesions and correlates with monolayer density. Our study demonstrates how epithelial organization is affected by mechanical properties, and provides a robust description of tissue organization during developmental processes.

Data description:

WT.zip  - zipped raw image data and extracted vertices of experiments on wild-type cells
KO.zip  - zipped raw image data and extracted vertices of experiments on eCad KO-cells
FigureData.zip  - zipped data referring to each of the figures in the paper

Software:

The software to analyze the data presented here is found on GitHub, [https://github.com/hexanematic/orientation tracker]