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Patterned mechanical feedback establishes a global myosin gradient

Hannah J. Gustafson, Nikolas Claussen (), Stefano Renzis and Sebastian J. Streichan ()
Additional contact information
Hannah J. Gustafson: University of California Santa Barbara
Nikolas Claussen: University of California Santa Barbara
Stefano Renzis: EMBL Heidelberg
Sebastian J. Streichan: University of California Santa Barbara

Nature Communications, 2022, vol. 13, issue 1, 1-12

Abstract: Abstract Morphogenesis, the coordinated execution of developmental programs that shape embryos, raises many fundamental questions at the interface between physics and biology. In particular, how the dynamics of active cytoskeletal processes are coordinated across the surface of entire embryos to generate global cell flows is poorly understood. Two distinct regulatory principles have been identified: genetic programs and dynamic response to mechanical stimuli. Despite progress, disentangling these two contributions remains challenging. Here, we combine in toto light sheet microscopy with genetic and optogenetic perturbations of tissue mechanics to examine theoretically predicted dynamic recruitment of non-muscle myosin II to cell junctions during Drosophila embryogenesis. We find dynamic recruitment has a long-range impact on global myosin configuration, and the rate of junction deformation sets the rate of myosin recruitment. Mathematical modeling and high frequency analysis reveal myosin fluctuations on junctions around a mean value set by mechanical feedback. Our model accounts for the early establishment of the global myosin pattern at 80% fidelity. Taken together our results indicate spatially modulated mechanical feedback as a key regulatory input in the establishment of long-range gradients of cytoskeletal configurations and global tissue flow patterns.

Date: 2022
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DOI: 10.1038/s41467-022-34518-9

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