Add to ORKGneural fate commitment via activation of neural lineage genes and inhibition of external signaling pathway
The Oct-2 and Brn-3 transcription factors show restricted spatial and temporal expression during neu...
The classical cell cycle regulatory pathway is well appreciated as a key regulator of cell fate dete...
The pluripotency factor POU5F1 (OCT4) is well known as a key regulator of stem cell fate. Homologues...
AbstractAppropriate neural initiation of the pluripotent stem cells in the early embryos is critical...
The neural fate commitment of pluripotent stem cells requires the repression of extrinsic inhibitory...
POU-homeodomain transcription factor POU3F2 is a critical transcription factor that participates in ...
POU domain transcription factor proteins are critical regulators of many developmental processes dur...
Available from British Library Document Supply Centre-DSC:DXN023904 / BLDSC - British Library Docume...
POU3F2, also known as BRN2, Oct7, and N-Oct3, is a member of the neural cell-specific class III POU ...
apoptosis by Brn-3 POU family transcription factors: - potential use in gene therapy (review
A novel POU family transcription factor is closely related to Brn-3 but has a distinct expression pa...
© 2018, Springer International Publishing AG, part of Springer Nature. The POU (Pit-Oct-Unc) protein...
[EN]Human neural development begins at embryonic day 19 and marks the beginning of organogenesis. Ne...
The mature nervous system is comprised of an enormous diversity of neurons and glial cells that aris...
AbstractNumerous transcription factors have been identified which have profound effects on developin...
The Oct-2 and Brn-3 transcription factors show restricted spatial and temporal expression during neu...
The classical cell cycle regulatory pathway is well appreciated as a key regulator of cell fate dete...
The pluripotency factor POU5F1 (OCT4) is well known as a key regulator of stem cell fate. Homologues...
AbstractAppropriate neural initiation of the pluripotent stem cells in the early embryos is critical...
The neural fate commitment of pluripotent stem cells requires the repression of extrinsic inhibitory...
POU-homeodomain transcription factor POU3F2 is a critical transcription factor that participates in ...
POU domain transcription factor proteins are critical regulators of many developmental processes dur...
Available from British Library Document Supply Centre-DSC:DXN023904 / BLDSC - British Library Docume...
POU3F2, also known as BRN2, Oct7, and N-Oct3, is a member of the neural cell-specific class III POU ...
apoptosis by Brn-3 POU family transcription factors: - potential use in gene therapy (review
A novel POU family transcription factor is closely related to Brn-3 but has a distinct expression pa...
© 2018, Springer International Publishing AG, part of Springer Nature. The POU (Pit-Oct-Unc) protein...
[EN]Human neural development begins at embryonic day 19 and marks the beginning of organogenesis. Ne...
The mature nervous system is comprised of an enormous diversity of neurons and glial cells that aris...
AbstractNumerous transcription factors have been identified which have profound effects on developin...
The Oct-2 and Brn-3 transcription factors show restricted spatial and temporal expression during neu...
The classical cell cycle regulatory pathway is well appreciated as a key regulator of cell fate dete...
The pluripotency factor POU5F1 (OCT4) is well known as a key regulator of stem cell fate. Homologues...