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Emergence of a geometric pattern of cell fates from tissue-scale mechanics in the Drosophila eye

Kevin D Gallagher, Madhav Mani, Richard W Carthew

2022eLife29 citationsDOIOpen Access PDF

Abstract

Pattern formation of biological structures involves the arrangement of different types of cells in an ordered spatial configuration. In this study, we investigate the mechanism of patterning the Drosophila eye epithelium into a precise triangular grid of photoreceptor clusters called ommatidia. Previous studies had led to a long-standing biochemical model whereby a reaction-diffusion process is templated by recently formed ommatidia to propagate a molecular prepattern across the eye. Here, we find that the templating mechanism is instead, mechanochemical in origin; newly born columns of differentiating ommatidia serve as a template to spatially pattern flows that move epithelial cells into position to form each new column of ommatidia. Cell flow is generated by a source and sink, corresponding to narrow zones of cell dilation and contraction respectively, that straddle the growing wavefront of ommatidia. The newly formed lattice grid of ommatidia cells are immobile, deflecting, and focusing the flow of other cells. Thus, the self-organization of a regular pattern of cell fates in an epithelium is mechanically driven.

Topics & Concepts

OmmatidiumMulticellular organismBiologyBristlePattern formationWavefrontGrid cellDilation (metric space)Compound eyeBiophysicsMechanism (biology)Cell typeEpitheliumCellCell polarityAnatomyInsect flightPhysicsCell divisionCell biologyProcess (computing)Biological systemTensegrityMorphogenesisCellular Mechanics and InteractionsNonlinear Dynamics and Pattern FormationDevelopmental Biology and Gene Regulation
Emergence of a geometric pattern of cell fates from tissue-scale mechanics in the Drosophila eye | Litcius