Add to ORKGTissue mechanics and cellular interactions influence every single cell in our bodies to drive morphogenesis. However, little is known about mechanisms by which cells sense physical forces and transduce them from the cytoskeleton to the nucleus to control gene expression and stem cell fate. We have identified a novel nuclear-mechanosensor complex, consisting of the nuclear membrane protein emerin (Emd), actin and non-muscle myosin IIA (NMIIA), that regulates transcription, chromatin remodeling and lineage commitment. Force-induced enrichment of Emd at the outer nuclear membrane leads to a compensation between H3K9me2,3 and H3K27me3 on constitutive heterochromatin. This strain-induced epigenetic switch is accompanied by the global rearrangeme...
Cells generate and sense mechanical forces that trigger biochemical signals to elicit cellular respo...
The nucleus of a living cell is constantly undergoing changes in shape and size as a result of vario...
This work was funded by Barts Charity (Large Grant 442/1032), and the BBSRC (Project Grant BB/J00091...
Tissue mechanics drive morphogenesis, but how forces are sensed and transmitted to control stem cell...
Organ primordia shape is important for pattern formation and organ function. Morphogenesis generates...
Many signaling pathways converge on the nucleus to regulate critical nuclear events such as transcri...
There is growing appreciation that architectural components of the nucleus regulate gene accessibili...
Mechanical forces are known to play a key role in regulating various cellular functions that control...
While a large body of work has focused on the transcriptional regulation of cellular identity, the r...
Publisher's PDF.Mechanical cues direct the lineage commitment of mesenchymal stem cells (MSCs). In t...
AbstractMechanical forces transduced to cells through the extracellular matrix are critical regulato...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
Summary Tissue homeostasis requires maintenance of functional integrity under stress. A central sour...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Cells generate and sense mechanical forces that trigger biochemical signals to elicit cellular respo...
The nucleus of a living cell is constantly undergoing changes in shape and size as a result of vario...
This work was funded by Barts Charity (Large Grant 442/1032), and the BBSRC (Project Grant BB/J00091...
Tissue mechanics drive morphogenesis, but how forces are sensed and transmitted to control stem cell...
Organ primordia shape is important for pattern formation and organ function. Morphogenesis generates...
Many signaling pathways converge on the nucleus to regulate critical nuclear events such as transcri...
There is growing appreciation that architectural components of the nucleus regulate gene accessibili...
Mechanical forces are known to play a key role in regulating various cellular functions that control...
While a large body of work has focused on the transcriptional regulation of cellular identity, the r...
Publisher's PDF.Mechanical cues direct the lineage commitment of mesenchymal stem cells (MSCs). In t...
AbstractMechanical forces transduced to cells through the extracellular matrix are critical regulato...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
Mesenchymal stem cells (MSCs) are a promising cell source and widely used in a variety of regenerati...
Summary Tissue homeostasis requires maintenance of functional integrity under stress. A central sour...
Within the past decade, there has been abounding scientific evidences supporting the notion that mec...
Cells generate and sense mechanical forces that trigger biochemical signals to elicit cellular respo...
The nucleus of a living cell is constantly undergoing changes in shape and size as a result of vario...
This work was funded by Barts Charity (Large Grant 442/1032), and the BBSRC (Project Grant BB/J00091...