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Neurogenins

Neurogenins are a family of bHLH transcription factors involved in specifying neuronal differentiation. It is one of many gene families related to the atonal gene in Drosophila. Other positive regulators of neuronal differentiation also expressed during early neural development include NeuroD and ASCL1. Neurogenins are a family of bHLH transcription factors involved in specifying neuronal differentiation. It is one of many gene families related to the atonal gene in Drosophila. Other positive regulators of neuronal differentiation also expressed during early neural development include NeuroD and ASCL1. In neural crest cells, the neurogenin family is essential for neurogenesis in the developing dorsal root ganglia and development of the sensory lineage. Neurogenin 1 (Ngn1) is a Class-A basic-helix-loop-helix (bHLH) transcription factor that acts as a regulator for neuronal differentiation, and acts by binding to enhancer regulatory elements on genes that encode transcriptional regulators of neurogenesis. In order for Ngn1 to bind with high fidelity with genomic DNA, it must dimerize with another bHLH protein. Ngn1 is a proneural gene because its expression is seen prior to neural lineage determination, indicating it plays a role in neuronal differentiation. In E14 rats, when Ngn1 is present in the cerebral cortex, it binds to the CBP/p300/Smad1 transcriptional co-activator complex, which recruits it to the enhancer box upstream of the gene in the promoter for neuronal genes. Binding of Ngn1, to the enhancer box, induces the transcription factor NeuroD to bind to its own enhancer boxes, inducing the genes involved in neuronal differentiation. Bone-morphogenetic-protein (BMP) signaling is responsible for the expression of the transcriptional co-activators CBP, p300, and Smad1. In the presence of Ngn1, BMPs promote neuronal differentiation in stem cells through binding of all endogenous CBP/p300/Smad1 to Ngn1, and being recruited toward the neuronal promoters, causing neuronal differentiation. In the embryonic forebrain, Ngn1 is associated with dorsal patterning and cell fate specification, with the patterning molecules and proneural proteins establishing the spatial domains of both proneural and homeodomain protein expression. This is critical for the initiation of neurogenesis. In the presence of Ngn1, the leukemia inhibitory factor (LIF) pathway is inhibited by Ngn1 blocking STAT activation. Normally, the STAT binding site promotes GFAP transcription through binding the STAT1/3 complex, which is activated through the LIF pathway. Along with supporting neuronal differentiation, when expressed in embryonic neural tissue, Ngn1 also acts to inhibit glial differentiation. In the absence of Ngn1, the CBP/p300/Smad1 transcriptional co-activator complex is recruited to and binds to activated STAT1/3, which in turn causes the expression of GFAP, causing glial differentiation. In the presence of Ngn1, inhibition of gliogenesis occurs through Ngn1 binding to the CBP/p300/Smad1 transcriptional co-activator complex, recruiting it away from STAT1/3. In cases of low levels of Ngn1, BMPs promote glial differentiation. Since Ngn1 is the limiting factor, CBP/p300/Smad1 is able to interact with STAT1/3 and induce gliogenesis. Activation of the notch pathway, causes the inhibition of proneural bHLH genes, such as Ngn1, which allows for the CBP/p300/Smad1 to interact with STAT1/3 and induce gliogenesis. Along with the embryonic rat, it was also seen in zebrafish that the repression of Ngn1 by Notch, promotes glial lineage in neural crest and central nervous system formation through the inhibition of neuronal differentiation. In addition to the Notch pathway activating the transcriptional factors involved in the promotion of gliogenesis, it is possible that these same factors are involved in the inhibition of other fates.

[ "Progenitor cell", "neuronal differentiation", "Basic helix-loop-helix", "Proneural genes", "Basic Helix-Loop-Helix Transcription Factors" ]
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