Add to ORKGThe mechanisms that establish and maintain the multipotency of stem cells are poorly understood. In neural crest stem cells (NCSCs), the HMG-box factor SOX10 preserves not only glial, but surprisingly, also neuronal potential from extinction by lineage commitment signals. The latter function is reflected in the requirement of SOX10 in vivo for induction of MASH1 and PHOX2B, two neurogenic transcription factors. Simultaneously, SOX10 inhibits or delays overt neuronal differentiation, both in vitro and in vivo. However, this activity requires a higher Sox10 gene dosage than does the maintenance of neurogenic potential. The opponent functions of SOX10 to maintain neural lineage potentials, while simultaneously serving to inhibit or delay neuro...
The SOX genes show properties of both classical transcription factors and architectural components ...
Neural progenitors of the vertebrate CNS are defined by generic cellular characteristics, including ...
AbstractThe Sox family of transcription factors has been implicated in the development of different ...
The mechanisms that establish and maintain the multipotency of stem cells are poorly understood. In ...
AbstractThe mechanisms that establish and maintain the multipotency of stem cells are poorly underst...
Neural stem cells (NSCs) exist in both embryonic and adult neural tissues and are characterized by t...
Abstract Animal studies have indicated that SOX10 is one of the key transcription factors regulating...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
Neural stem cells (NSCs) are uncommitted cells of the CNS defined by their multipotentiality and abi...
The differentiation of stem cells into the more than 100 billion neurons that compose the central ne...
Sox10 is a high-mobility-group transcriptional regulator in early neural crest. Without Sox10, no gl...
AbstractNeural progenitors of the vertebrate CNS are defined by generic cellular characteristics, in...
AbstractThe SOX10 transcription factor is a characteristic marker for migratory multipotent neural c...
The neural crest is a transient migratory population of stem cells derived from the dorsal neural fo...
The SOX genes show properties of both classical transcription factors and architectural components ...
Neural progenitors of the vertebrate CNS are defined by generic cellular characteristics, including ...
AbstractThe Sox family of transcription factors has been implicated in the development of different ...
The mechanisms that establish and maintain the multipotency of stem cells are poorly understood. In ...
AbstractThe mechanisms that establish and maintain the multipotency of stem cells are poorly underst...
Neural stem cells (NSCs) exist in both embryonic and adult neural tissues and are characterized by t...
Abstract Animal studies have indicated that SOX10 is one of the key transcription factors regulating...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
Neural stem cells (NSCs) are uncommitted cells of the CNS defined by their multipotentiality and abi...
The differentiation of stem cells into the more than 100 billion neurons that compose the central ne...
Sox10 is a high-mobility-group transcriptional regulator in early neural crest. Without Sox10, no gl...
AbstractNeural progenitors of the vertebrate CNS are defined by generic cellular characteristics, in...
AbstractThe SOX10 transcription factor is a characteristic marker for migratory multipotent neural c...
The neural crest is a transient migratory population of stem cells derived from the dorsal neural fo...
The SOX genes show properties of both classical transcription factors and architectural components ...
Neural progenitors of the vertebrate CNS are defined by generic cellular characteristics, including ...
AbstractThe Sox family of transcription factors has been implicated in the development of different ...