2018
DOI: 10.1101/309120
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Oscillatory cortical forces promote three dimensional cell intercalations that shape the mandibular arch

Abstract: Multiple vertebrate embryonic structures such as organ primordia are composed of a volume of confluent cells. Although mechanisms that shape tissue sheets are increasingly understood, those which shape a volume of cells remain obscure. Here we show 3D mesenchymal cell intercalations, rather than cell divisions and biophysical tissue properties, are essential to shape the mandibular arch of the mouse embryo.Using a genetically encoded vinculin tension sensor, we show that cortical force oscillations promote the… Show more

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Cited by 1 publication
(2 citation statements)
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“…Inhibition of myosin-2 activity can cause a decrease in cortical tension of up to 80% [47]. Treatment of 6day condensates with the myosin-2 inhibitor blebbistatin decreased the percentage of area immunostained for Cx43 of S 90 condensates (Fig.…”
Section: Mechanism Of Substrate Sensing and Input Propagationmentioning
confidence: 90%
See 1 more Smart Citation
“…Inhibition of myosin-2 activity can cause a decrease in cortical tension of up to 80% [47]. Treatment of 6day condensates with the myosin-2 inhibitor blebbistatin decreased the percentage of area immunostained for Cx43 of S 90 condensates (Fig.…”
Section: Mechanism Of Substrate Sensing and Input Propagationmentioning
confidence: 90%
“…Cortical actin assembly can be observed in early mesenchymal condensates [30]. Cortical tension gradients are responsible for mesenchymal cell rearrangement during tissue formation and are essential in driving tissue morphogenesis [46,47]. The cell cortex is formed by an actomyosin network, which is located below the cell membrane.…”
Section: Mechanism Of Substrate Sensing and Input Propagationmentioning
confidence: 99%