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RRC ID 59153
Author Eritano AS, Bromley CL, Bolea Albero A, Schütz L, Wen FL, Takeda M, Fukaya T, Sami MM, Shibata T, Lemke S, Wang YC.
Title Tissue-Scale Mechanical Coupling Reduces Morphogenetic Noise to Ensure Precision during Epithelial Folding.
Journal Dev Cell
Abstract Morphological constancy is universal in developing systems. It is unclear whether precise morphogenesis stems from faithful mechanical interpretation of gene expression patterns. We investigate the formation of the cephalic furrow, an epithelial fold that is precisely positioned with a linear morphology. Fold initiation is specified by a precise genetic code with single-cell row resolution. This positional code activates and spatially confines lateral myosin contractility to induce folding. However, 20% of initiating cells are mis-specified because of fluctuating myosin intensities at the cellular level. Nevertheless, the furrow remains linearly aligned. We find that lateral myosin is planar polarized, integrating contractile membrane interfaces into supracellular "ribbons." Local reduction of mechanical coupling at the "ribbons" using optogenetics decreases furrow linearity. Furthermore, 3D vertex modeling indicates that polarized, interconnected contractility confers morphological robustness against noise. Thus, tissue-scale mechanical coupling functions as a denoising mechanism to ensure morphogenetic precision despite noisy decoding of positional information.
Volume 53(2)
Pages 212-228.e12
Published 2020-4-20
DOI 10.1016/j.devcel.2020.02.012
PII S1534-5807(20)30108-8
PMID 32169160
MeSH Animals Animals, Genetically Modified / embryology Animals, Genetically Modified / physiology* Cytoskeleton / metabolism DNA-Binding Proteins / genetics DNA-Binding Proteins / metabolism Drosophila Proteins / genetics Drosophila Proteins / metabolism* Drosophila melanogaster / embryology Drosophila melanogaster / physiology* Embryo, Nonmammalian / cytology Embryo, Nonmammalian / physiology* Epithelium / embryology* Female Homeodomain Proteins / genetics Homeodomain Proteins / metabolism Male Mechanotransduction, Cellular Morphogenesis* Myosin Type II / genetics Myosin Type II / metabolism* Transcription Factors / genetics Transcription Factors / metabolism
IF 10.092
Times Cited 1
Resource
Drosophila DGRC#105845