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Morphospace analysis reveals divergent cellular behaviours driving tissue internalisation during insect gastrulation

Created on 10 Jul 2026

Authors

Battistara, M., Pönisch, W., Benton, M. A., Paluch, E. K.

Abstract

During gastrulation, embryonic epithelia undergo large-scale remodelling to internalise the mesoderm. Whether the cellular mechanisms underlying these tissue deformations are conserved across species remains unclear. Using quantitative cell-shape embedding, we compare cellular behaviours underlying gastrulation in two insects. We show that while Drosophila mesoderm cells follow a coordinated shape change sequence during gastrulation, mesoderm cells in the beetle Tribolium display heterogeneous shapes with no clear trajectory. This heterogeneity arises from two distinct internalisation modes: canonical apical constriction-driven tissue invagination, and early internalisation through out-of-plane cell divisions. Interpretable machine learning together with in vivo perturbations identify nuclear crowding as a key predictor of out-of-plane divisions and show that, in both species, proliferation slows tissue folding while promoting individual cell internalisation. Our study showcases morphospace analysis as a powerful tool for dissecting the cellular basis of tissue morphogenesis and reveals a conserved antagonistic relationship between cell divisions and tissue folding during gastrulation.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 10 Jul 2026.

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