Add to ORKGThe molecular mechanisms regulating fate divergence of closely related, but distinct, layer 6 corticothalamic and layer 5 subcerebral projection neurons are largely unknown. We present evidence for central transcriptional mechanisms that regulate fate specification of corticothalamic (layer 6) and subcerebral (layer 5) projection neurons. We found that TBR1 promotes the identity of corticothalamic neurons and represses subcerebral fates through reducing expression of Fezf2 and CTIP2. These conclusions are based on: (1) In Tbr-/- mice, the number of cells expressing layer 6 markers was reduced, and the number of cells expressing layer 5 markers was increased. Early-born (birthdated on E11.5) neurons ectopically expressed subcerebral neuronal...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
Forebrain embryonic zinc-finger family member 2 (FEZF2) is a transcription factor that is expressed ...
The complex and sophisticated neocortical circuits that mediate higher-order brain functions are ass...
Neurons within each layer in the mammalian cortex have stereotypic projections. Four genes-Fezf2, Ct...
Areas and layers of the cerebral cortex are specified by genetic programs that are initiated in prog...
Projection neuron subtype identities in the cerebral cortex are established by expressing pan-cortic...
Projection neurons underly cortical computation and are necessary for proper cortical function. Unde...
Artículo de publicación ISIThe acquisition of distinct neuronal fates is fundamental for the functio...
Projection neuron subtype identities in the cerebral cortex are established through the expression o...
AbstractDuring corticogenesis, early-born neurons of the preplate and layer 6 are important for guid...
The embryonic subventricular zone (SVZ) is a critical site for generating cortical projection neuron...
SummaryIntermediate progenitors (IPs) amplify the production of pyramidal neurons, but their role in...
SummaryThe molecular mechanisms controlling the differentiation of neural progenitors into distinct ...
Intermediate progenitors (IPs) amplify the production of pyramidal neurons, but their role in select...
SummaryT-brain gene-2 (Tbr2) is specifically expressed in the intermediate (basal) progenitor cells ...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
Forebrain embryonic zinc-finger family member 2 (FEZF2) is a transcription factor that is expressed ...
The complex and sophisticated neocortical circuits that mediate higher-order brain functions are ass...
Neurons within each layer in the mammalian cortex have stereotypic projections. Four genes-Fezf2, Ct...
Areas and layers of the cerebral cortex are specified by genetic programs that are initiated in prog...
Projection neuron subtype identities in the cerebral cortex are established by expressing pan-cortic...
Projection neurons underly cortical computation and are necessary for proper cortical function. Unde...
Artículo de publicación ISIThe acquisition of distinct neuronal fates is fundamental for the functio...
Projection neuron subtype identities in the cerebral cortex are established through the expression o...
AbstractDuring corticogenesis, early-born neurons of the preplate and layer 6 are important for guid...
The embryonic subventricular zone (SVZ) is a critical site for generating cortical projection neuron...
SummaryIntermediate progenitors (IPs) amplify the production of pyramidal neurons, but their role in...
SummaryThe molecular mechanisms controlling the differentiation of neural progenitors into distinct ...
Intermediate progenitors (IPs) amplify the production of pyramidal neurons, but their role in select...
SummaryT-brain gene-2 (Tbr2) is specifically expressed in the intermediate (basal) progenitor cells ...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
Forebrain embryonic zinc-finger family member 2 (FEZF2) is a transcription factor that is expressed ...
The complex and sophisticated neocortical circuits that mediate higher-order brain functions are ass...