AbstractGeneration of distinct ventral neuronal subtypes in the developing spinal cord requires Shh signaling mediated by the Gli family of transcription factors. Genetic studies of Shh−/−;Gli3−/− double mutants indicated that the inhibition of Gli3 repressor activity by Shh is sufficient for the generation of different neurons including motor neurons. In this study, we show that although ventral neural progenitors are initiated in normal numbers in Shh−/−;Gli3−/− mutants, the subsequent appearance of motor neuron progenitors shows a ∼20-hour lag, concomitant with a delay in the activation of a pan-neuronal differentiation program and cell cycle exit of ventral neural progenitors. Accordingly, the Shh−/−;Gli3−/− mutant spinal cord exhibits ...
AbstractThe specification of neuronal fates in the ventral spinal cord depends on the regulation of ...
From flies to humans, members of the Hedgehog (Hh) family of secreted signalling molecules play a vi...
Development of the central nervous system relies on the generation of specialized cell types in a ti...
AbstractGeneration of distinct ventral neuronal subtypes in the developing spinal cord requires Shh ...
AbstractA concentration gradient of Shh is thought to pattern the ventral neural tube, and these ven...
AbstractSonic hedgehog (Shh) signaling is critical for various developmental processes including spe...
SummaryShh-Gli signaling controls cell fates in the developing ventral neural tube by regulating the...
AbstractThe ability of neuroepithelial cells to generate a diverse array of neurons is influenced by...
The differentiation of neural progenitors into distinct classes within the central nervous system oc...
AbstractAn important question is how the gradient of Hedgehog is interpreted by cells at the level o...
AbstractThe partitioning of the ventral neural tube into five distinct neuronal progenitor domains i...
AbstractDistinct classes of motor neurons and ventral interneurons are generated by the graded signa...
AbstractAntibodies that block Sonic Hedgehog (SHH) signaling have been used to show that SHH activit...
AbstractThe morphogen Sonic hedgehog, one of the Hedgehog (Hh) family of secreted proteins, plays a ...
AbstractIn the developing spinal cord, early progenitor cells of the oligodendrocyte lineage are ind...
AbstractThe specification of neuronal fates in the ventral spinal cord depends on the regulation of ...
From flies to humans, members of the Hedgehog (Hh) family of secreted signalling molecules play a vi...
Development of the central nervous system relies on the generation of specialized cell types in a ti...
AbstractGeneration of distinct ventral neuronal subtypes in the developing spinal cord requires Shh ...
AbstractA concentration gradient of Shh is thought to pattern the ventral neural tube, and these ven...
AbstractSonic hedgehog (Shh) signaling is critical for various developmental processes including spe...
SummaryShh-Gli signaling controls cell fates in the developing ventral neural tube by regulating the...
AbstractThe ability of neuroepithelial cells to generate a diverse array of neurons is influenced by...
The differentiation of neural progenitors into distinct classes within the central nervous system oc...
AbstractAn important question is how the gradient of Hedgehog is interpreted by cells at the level o...
AbstractThe partitioning of the ventral neural tube into five distinct neuronal progenitor domains i...
AbstractDistinct classes of motor neurons and ventral interneurons are generated by the graded signa...
AbstractAntibodies that block Sonic Hedgehog (SHH) signaling have been used to show that SHH activit...
AbstractThe morphogen Sonic hedgehog, one of the Hedgehog (Hh) family of secreted proteins, plays a ...
AbstractIn the developing spinal cord, early progenitor cells of the oligodendrocyte lineage are ind...
AbstractThe specification of neuronal fates in the ventral spinal cord depends on the regulation of ...
From flies to humans, members of the Hedgehog (Hh) family of secreted signalling molecules play a vi...
Development of the central nervous system relies on the generation of specialized cell types in a ti...