Add to ORKGTranscription factor Pax6 plays an important role in fate de-termination of neural progenitor cells in animal models, yet, its distribution and role in the human developing brain have not been reported. Here we demonstrated that Pax6 was strongly expressed in dorsal and ventral proliferative zones, mainly in proliferating radial glia (RG) cells, some neuronal and intermediate progenitors, and sporadic deep cortical plate neurons. In contrast to reports in rodents, Pax6 in the human fetal brain occasionally colocalized with ventral transcription factor Olig2 in progenitor cells. Trans-fection with short interfering RNA abolished Pax6 expression in the cell cultures of human fetal RG, and significantly decreased the number of neurons generate...
SummaryThe transcriptional regulation of neuroectoderm (NE) specification is unknown. Here we show t...
Appropriate neurogenesis and patterning of the forebrain requires the transcription factor Pax6, yet...
The Pax6 encodes a highly conserved transcriptional regulator that contains two DNA binding domains...
Transcription factor Pax6 plays an important role in fate de-termination of neural progenitor cells ...
During brain embryogenesis, transcription factors drive stem cells towards neuronal fate. Here we sh...
Pax6 is a sequence-specific DNA binding transcription factor that positively and negatively regulate...
The evolutionary expansion of the neocortex in mammals has been linked to enlargement of the subvent...
The ventricular zone (VZ) of the embryonic dorsal telencephalon is a major site for generating corti...
The development of the central nervous system relies on the tight regulation of the neural progenito...
Neural stem cell self-renewal, neurogenesis, and cell fate determination are processes that control ...
To achieve adequate organ development and size, cell proliferation and differentiation have to be ti...
The transcription factor Pax6 has been reported to specify neural progenitor cell fates during devel...
Different paired-box transcription factors control various aspects of cell fate during organ develop...
Generation of the brain depends on proper regulation of progenitor proliferation and differentiation...
The ventricular zone (VZ) of the embryonic dorsal telencephalon is a major site for generating corti...
SummaryThe transcriptional regulation of neuroectoderm (NE) specification is unknown. Here we show t...
Appropriate neurogenesis and patterning of the forebrain requires the transcription factor Pax6, yet...
The Pax6 encodes a highly conserved transcriptional regulator that contains two DNA binding domains...
Transcription factor Pax6 plays an important role in fate de-termination of neural progenitor cells ...
During brain embryogenesis, transcription factors drive stem cells towards neuronal fate. Here we sh...
Pax6 is a sequence-specific DNA binding transcription factor that positively and negatively regulate...
The evolutionary expansion of the neocortex in mammals has been linked to enlargement of the subvent...
The ventricular zone (VZ) of the embryonic dorsal telencephalon is a major site for generating corti...
The development of the central nervous system relies on the tight regulation of the neural progenito...
Neural stem cell self-renewal, neurogenesis, and cell fate determination are processes that control ...
To achieve adequate organ development and size, cell proliferation and differentiation have to be ti...
The transcription factor Pax6 has been reported to specify neural progenitor cell fates during devel...
Different paired-box transcription factors control various aspects of cell fate during organ develop...
Generation of the brain depends on proper regulation of progenitor proliferation and differentiation...
The ventricular zone (VZ) of the embryonic dorsal telencephalon is a major site for generating corti...
SummaryThe transcriptional regulation of neuroectoderm (NE) specification is unknown. Here we show t...
Appropriate neurogenesis and patterning of the forebrain requires the transcription factor Pax6, yet...
The Pax6 encodes a highly conserved transcriptional regulator that contains two DNA binding domains...