SUMMARY We uncovered a transcription factor (TF) network that regulates cortical regional patterning. Screening the expression of hundreds of TFs in the developing mouse cortex identified 38 TFs that are expressed in gradients in the ventricular zone (VZ). We tested whether their cortical expression was altered in mutant mice with known patterning defects ( Emx2, Nr2f1 and Pax6) , which enabled us to define a cortical regionalization TF network (CRTFN). To identify genomic programming underlying this network, we performed TF ChIP-seq and chromatin-looping conformation to identify enhancer-gene interactions. To map enhancers involved in regional patterning of cortical progenitors, we performed assays for epigenomic marks and DNA accessibilit...
The cortical area map is initially patterned by transcription factor (TF) gradients in the neocortic...
Here we describe mechanisms regulating area patterning of developing mammalian neocortex, referred t...
Neurons of the mammalian neocortex are produced by proliferating cells located in the ventricular zo...
SUMMARY We uncovered a transcription factor (TF) network that regulates cortical regional patterning...
We uncovered a transcription factor (TF) network that regulates cortical regional patterning in radi...
The adult human cortex is divided into histologically and functionally distinct domains, which are s...
SummaryElucidating the genetic control of cerebral cortical (pallial) development is essential for u...
Elucidating the genetic control of cerebral cortical (pallial) development is essential for understa...
Epigenetic factors (EFs) regulate multiple aspects of cerebral cortex development, including prolife...
Arealization of the neocortex is controlled by a regulatory hierarchy beginning with morphogens secr...
Early thalamus-independent steps in the process of cortical arealization take place on the basis of ...
BackgroundThe genetic programs required for development of the cerebral cortex are under intense inv...
International audienceConsiderable progress has been made in the understanding of molecular and cell...
The cerebral cortex is organized into functional areas and two hypotheses have arisen to elucidate t...
Epigenetic factors (EFs) regulate multiple aspects of cerebral cortex development, including prolife...
The cortical area map is initially patterned by transcription factor (TF) gradients in the neocortic...
Here we describe mechanisms regulating area patterning of developing mammalian neocortex, referred t...
Neurons of the mammalian neocortex are produced by proliferating cells located in the ventricular zo...
SUMMARY We uncovered a transcription factor (TF) network that regulates cortical regional patterning...
We uncovered a transcription factor (TF) network that regulates cortical regional patterning in radi...
The adult human cortex is divided into histologically and functionally distinct domains, which are s...
SummaryElucidating the genetic control of cerebral cortical (pallial) development is essential for u...
Elucidating the genetic control of cerebral cortical (pallial) development is essential for understa...
Epigenetic factors (EFs) regulate multiple aspects of cerebral cortex development, including prolife...
Arealization of the neocortex is controlled by a regulatory hierarchy beginning with morphogens secr...
Early thalamus-independent steps in the process of cortical arealization take place on the basis of ...
BackgroundThe genetic programs required for development of the cerebral cortex are under intense inv...
International audienceConsiderable progress has been made in the understanding of molecular and cell...
The cerebral cortex is organized into functional areas and two hypotheses have arisen to elucidate t...
Epigenetic factors (EFs) regulate multiple aspects of cerebral cortex development, including prolife...
The cortical area map is initially patterned by transcription factor (TF) gradients in the neocortic...
Here we describe mechanisms regulating area patterning of developing mammalian neocortex, referred t...
Neurons of the mammalian neocortex are produced by proliferating cells located in the ventricular zo...