Add to ORKGIn the developing nervous system, differentiating neurons express Delta and activate Notch signaling in their neighboring cells. As a result of Notch activation, neuronal differentiation is inhibited in neighboring cells and they remain neural progenitor cells. Thus, differentiation of neurons and maintenance of neural progenitor cells are well balanced due to Notch signaling. Recent studies revealed that Notch signaling is under the control of more complex and dynamic regulation than previously thought, such as cell cycle-dependent activation and oscillating gene expression. We discuss here recent advances in understanding how Notch signaling is regulated in the developing nervous system and what outcome each type of regulation of Notch si...
Numerous lines of evidence suggest that Notch signaling plays a pivotal role in controlling the prod...
BACKGROUND: Neural stem cells generate all of the neurons and glial cells in the central nervous sys...
A dynamic balance between stem cell maintenance and differentiation paces generation of post‐mitotic...
A complete account of the whole developmental process of neurogenesis involves understanding a numbe...
Notch activation has been widely observed to regulate cell fate determination in the nervous system ...
AbstractIn the developing nervous system, the balance between proliferation and differentiation is c...
Elaboration of protocols for differentiation of human pluripotent stem cells to dopamine neurons is ...
Many cells in the mammalian brain undergo apoptosis as a normal and critical part of development but...
Activation of Notch1 signaling in neural progenitor cells (NPCs) induces self-renewal and inhibits n...
International audienceA central challenge in embryonic stem (ES) cell biology is to understand how t...
The Notch signaling pathway controls cell fate choices at multiple steps during cell lineage progres...
We examined the role of Notch signaling on the generation of neurons and glia from neural stem cells...
15 pages, 9 figures.-- PMID: 18000541 [PubMed].-- PMCID: PMC2064965.Supporting information (Suppl. f...
The Notch pathway is prominent among those known to regulate neural development in vertebrates. Notc...
Background: Building the complex vertebrate nervous system involves the regulated production of neur...
Numerous lines of evidence suggest that Notch signaling plays a pivotal role in controlling the prod...
BACKGROUND: Neural stem cells generate all of the neurons and glial cells in the central nervous sys...
A dynamic balance between stem cell maintenance and differentiation paces generation of post‐mitotic...
A complete account of the whole developmental process of neurogenesis involves understanding a numbe...
Notch activation has been widely observed to regulate cell fate determination in the nervous system ...
AbstractIn the developing nervous system, the balance between proliferation and differentiation is c...
Elaboration of protocols for differentiation of human pluripotent stem cells to dopamine neurons is ...
Many cells in the mammalian brain undergo apoptosis as a normal and critical part of development but...
Activation of Notch1 signaling in neural progenitor cells (NPCs) induces self-renewal and inhibits n...
International audienceA central challenge in embryonic stem (ES) cell biology is to understand how t...
The Notch signaling pathway controls cell fate choices at multiple steps during cell lineage progres...
We examined the role of Notch signaling on the generation of neurons and glia from neural stem cells...
15 pages, 9 figures.-- PMID: 18000541 [PubMed].-- PMCID: PMC2064965.Supporting information (Suppl. f...
The Notch pathway is prominent among those known to regulate neural development in vertebrates. Notc...
Background: Building the complex vertebrate nervous system involves the regulated production of neur...
Numerous lines of evidence suggest that Notch signaling plays a pivotal role in controlling the prod...
BACKGROUND: Neural stem cells generate all of the neurons and glial cells in the central nervous sys...
A dynamic balance between stem cell maintenance and differentiation paces generation of post‐mitotic...