Cell cycle and temporal transcription factors regulate proliferation and neuronal diversity of dedifferentiation-derived neural stem cells

Abstract: Dedifferentiation is the reversion of differentiated cells to a stem cell like fate, whereby, the gene expression program of mature cells is altered and genes associated with multipotency are expressed. Appropriate terminal differentiation of NSCs is essential for restricting the overall number of neurons produced; in addition, faithful production of neuronal subtypes that populate the brain is important for NSC function. Both characteristics of NSCs are specified through temporal patterning of the NSCs driven… Show more

“…It would therefore be interesting to test whether the loss of Her6 can stimulate quiescent MG to re-enter cell cycle in the absence injury. Although the Drosophila ortholog of her6, deadpan (dpn), is also a Notch target gene, Dpn in the Drosophila brain appears to promote cell cycle entry in the context of dedifferentiation (Veen, 2022).…”

Her6 and Prox1 are novel regulators of photoreceptor regeneration in the zebrafish retina

“…It would therefore be interesting to test whether the loss of Her6 can stimulate quiescent MG to re-enter cell cycle in the absence injury. Although the Drosophila ortholog of her6, deadpan (dpn), is also a Notch target gene, Dpn in the Drosophila brain appears to promote cell cycle entry in the context of dedifferentiation (Veen, 2022).…”

Her6 and Prox1 are novel regulators of photoreceptor regeneration in the zebrafish retina