Add to ORKGThe central nervous system is fundamentally dependent on guided cell migration, both during development and in adulthood. We report an absolute requirement of the transcription factor serum response factor (SRF) for neuronal migration in the mouse forebrain. Conditional, late-prenatal deletion of Srf causes neurons to accumulate ectopically at the subventricular zone (SVZ), a prime neurogenic region in the brain. SRF-deficient cells of the SVZ exhibit impaired tangential chain migration along the rostral migratory stream into the olfactory bulb. SVZ explants display retarded chain migration in vitro. Regarding target genes, SRF deficiency impairs expression of the beta-actin and gelsolin genes, accompanied by reduced cytoskeletal actin fibe...
Adult subventricular zone (SVZ) neuroblasts migrate in the rostral migratory stream to the olfactory...
During development, neurons migrate to the cortex radially from periventricular germinative zones as...
Cell migration is required for normal embryonic development, yet how cells navigate complex paths wh...
In recent years, the transcription factor SRF (serum response factor) was shown to contribute to var...
In neurons, serum response factor (SRF)-directed transcription regulates migration, axon pathfinding...
The activity of serum response factor (SRF), an essential transcription factor in mouse gastrulation...
In neurons, serum response factor (SRF)-directed transcription regulates migration, axon pathfinding...
SRF is a highly evolutionary conserved activity-dependent transcription factor. Previous studies hav...
SummarySerum response factor (SRF) is a prototypic transcription factor that mediates stimulus-depen...
Neuronal migration is a key process in the developing and adult brain. Numerous factors act on intra...
New neurons are constantly added to the olfactory bulb of rodents from birth to adulthood. This accr...
Mesoderm formation in the mouse embryo initiates around E6.5 at the primitive streak and continues u...
While the role of the cell cycle regulatory Rb/E2F pathway is well appreciated as a key regulator of...
During brain development, neurons and their nerve fibers are often segregated in specific layers. Th...
The growth of axons is an intricately regulated process involving intracellular signaling cascades a...
Adult subventricular zone (SVZ) neuroblasts migrate in the rostral migratory stream to the olfactory...
During development, neurons migrate to the cortex radially from periventricular germinative zones as...
Cell migration is required for normal embryonic development, yet how cells navigate complex paths wh...
In recent years, the transcription factor SRF (serum response factor) was shown to contribute to var...
In neurons, serum response factor (SRF)-directed transcription regulates migration, axon pathfinding...
The activity of serum response factor (SRF), an essential transcription factor in mouse gastrulation...
In neurons, serum response factor (SRF)-directed transcription regulates migration, axon pathfinding...
SRF is a highly evolutionary conserved activity-dependent transcription factor. Previous studies hav...
SummarySerum response factor (SRF) is a prototypic transcription factor that mediates stimulus-depen...
Neuronal migration is a key process in the developing and adult brain. Numerous factors act on intra...
New neurons are constantly added to the olfactory bulb of rodents from birth to adulthood. This accr...
Mesoderm formation in the mouse embryo initiates around E6.5 at the primitive streak and continues u...
While the role of the cell cycle regulatory Rb/E2F pathway is well appreciated as a key regulator of...
During brain development, neurons and their nerve fibers are often segregated in specific layers. Th...
The growth of axons is an intricately regulated process involving intracellular signaling cascades a...
Adult subventricular zone (SVZ) neuroblasts migrate in the rostral migratory stream to the olfactory...
During development, neurons migrate to the cortex radially from periventricular germinative zones as...
Cell migration is required for normal embryonic development, yet how cells navigate complex paths wh...