Add to ORKGBackgroundThe genetic programs required for development of the cerebral cortex are under intense investigation. However, non-coding DNA elements that control the expression of developmentally important genes remain poorly defined. Here we investigate the regulation of Fezf2, a transcription factor that is necessary for the generation of deep-layer cortical projection neurons.ResultsUsing a combination of chromatin immunoprecipitation followed by high throughput sequencing (ChIP-seq) we mapped the binding of four deep-layer-enriched transcription factors previously shown to be important for cortical development. Building upon this we characterized the activity of three regulatory regions around the Fezf2 locus at multiple stages throughout c...
The excitatory projection neurons (PNs) of the cortex encode the messages that are critical for medi...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
The developmental mechanisms through which the cerebral cortex increased in size and complexity duri...
Projection neurons underly cortical computation and are necessary for proper cortical function. Unde...
The profound diversity of cell types within the nervous system has been appreciated for greater than...
Forebrain embryonic zinc-finger family member 2 (FEZF2) is a transcription factor that is expressed ...
Projection neuron subtype identities in the cerebral cortex are established by expressing pan-cortic...
ABSTRACTTranscriptional regulation at multiple steps of cortical development in Mus musculusByJennif...
The mechanisms by which transcription factors control stepwise lineage restriction during the specif...
SummaryElucidating the genetic control of cerebral cortical (pallial) development is essential for u...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
We uncovered a transcription factor (TF) network that regulates cortical regional patterning in radi...
SUMMARY We uncovered a transcription factor (TF) network that regulates cortical regional patterning...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
Elucidating the genetic control of cerebral cortical (pallial) development is essential for understa...
The excitatory projection neurons (PNs) of the cortex encode the messages that are critical for medi...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
The developmental mechanisms through which the cerebral cortex increased in size and complexity duri...
Projection neurons underly cortical computation and are necessary for proper cortical function. Unde...
The profound diversity of cell types within the nervous system has been appreciated for greater than...
Forebrain embryonic zinc-finger family member 2 (FEZF2) is a transcription factor that is expressed ...
Projection neuron subtype identities in the cerebral cortex are established by expressing pan-cortic...
ABSTRACTTranscriptional regulation at multiple steps of cortical development in Mus musculusByJennif...
The mechanisms by which transcription factors control stepwise lineage restriction during the specif...
SummaryElucidating the genetic control of cerebral cortical (pallial) development is essential for u...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
We uncovered a transcription factor (TF) network that regulates cortical regional patterning in radi...
SUMMARY We uncovered a transcription factor (TF) network that regulates cortical regional patterning...
Understanding how neuronal diversity is achieved within the cerebral cortex remains a major challeng...
Elucidating the genetic control of cerebral cortical (pallial) development is essential for understa...
The excitatory projection neurons (PNs) of the cortex encode the messages that are critical for medi...
Non-coding regions comprise most of the human genome and harbor a significant fraction of risk allel...
The developmental mechanisms through which the cerebral cortex increased in size and complexity duri...