Add to ORKGCell differentiation typically occurs with concomitant shape transitions to enable specialized functions. To adopt a different shape, cells need to change the mechanical properties of their surface. However, whether cell surface mechanics control the process of differentiation has been relatively unexplored. Here we show that membrane mechanics gate exit from naive pluripotency of mouse embryonic stem cells. By measuring membrane tension during early differentiation, we find that naive stem cells release their plasma membrane from the underlying actin cortex when transitioning to a primed state. By mechanically tethering the plasma membrane to the cortex by enhancing Ezrin activity or expressing a synthetic signaling-inert linker, we demons...
The self-renewal and lineage-specific differentiation of stem cells are regulated by interactions wi...
Cell shape is determined by cellular mechanics. Cell deformations in animal cells, such as those req...
Abstract Stem cell differentiation is regulated by a diverse array of extracellular cues. Recent evi...
Cell fate transitions are frequently accompanied by changes in cell shape and mechanics. Yet how cel...
The mechanical properties of the cell surface are master regulators of various cell processes, rangi...
Pluripotent embryonic stem cells (ESCs) exert low-traction forces on their niche in vitro whereas sp...
Engineering functional tissues and organs from stem cells requires simultaneous control over both ce...
Mounting evidences implicate mechanical properties of the substrates, upon which the cells adhere, t...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
In order to understand the mechanisms that guide cell fate decisions during early human development,...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
The role of soluble factors in determining embryonic stem cell fate has been well studied. A growing...
Self-organization of pluripotent stem cells during tissue formation is directed by the adhesion micr...
<div><p>Research on human embryonic stem cells (hESCs) has attracted much attention given their grea...
The self-renewal and lineage-specific differentiation of stem cells are regulated by interactions wi...
Cell shape is determined by cellular mechanics. Cell deformations in animal cells, such as those req...
Abstract Stem cell differentiation is regulated by a diverse array of extracellular cues. Recent evi...
Cell fate transitions are frequently accompanied by changes in cell shape and mechanics. Yet how cel...
The mechanical properties of the cell surface are master regulators of various cell processes, rangi...
Pluripotent embryonic stem cells (ESCs) exert low-traction forces on their niche in vitro whereas sp...
Engineering functional tissues and organs from stem cells requires simultaneous control over both ce...
Mounting evidences implicate mechanical properties of the substrates, upon which the cells adhere, t...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
In order to understand the mechanisms that guide cell fate decisions during early human development,...
Stem cell fate decisions are driven by a broad array of signals, both chemical and mechanical. Altho...
The role of soluble factors in determining embryonic stem cell fate has been well studied. A growing...
Self-organization of pluripotent stem cells during tissue formation is directed by the adhesion micr...
<div><p>Research on human embryonic stem cells (hESCs) has attracted much attention given their grea...
The self-renewal and lineage-specific differentiation of stem cells are regulated by interactions wi...
Cell shape is determined by cellular mechanics. Cell deformations in animal cells, such as those req...
Abstract Stem cell differentiation is regulated by a diverse array of extracellular cues. Recent evi...