seven-up Controls switching of transcription factors that specify temporal identities of Drosophila neuroblasts
- PMID: 15691762
- DOI: 10.1016/j.devcel.2004.12.014
seven-up Controls switching of transcription factors that specify temporal identities of Drosophila neuroblasts
Abstract
Drosophila neuronal stem cell neuroblasts (NB) constantly change character upon division, to produce a different type of progeny at the next division. Transcription factors Hunchback (HB), Krüppel (KR), Pdm (PDM), etc. are expressed sequentially in each NB and act as determinants of birth-order identity. How a NB switches its expression profile from one transcription factor to the next is poorly understood. We show that the HB-to-KR switch is directed by the nuclear receptor Seven-up (SVP). SVP expression is confined to a temporally restricted subsection within the NB's lineage. Loss of SVP function causes an increase in the number of HB-positive cells within several NB lineages, whereas misexpression of svp leads to the loss of these early-born neurons. Lineage analysis provides evidence that svp is required to switch off HB at the proper time. Thus, svp modifies the self-renewal stem cell program to allow chronological change of cell fates, thereby generating neuronal diversity.
Comment in
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Changing fates on the road to neuronal diversity.Dev Cell. 2005 Feb;8(2):133-4. doi: 10.1016/j.devcel.2005.01.005. Dev Cell. 2005. PMID: 15691753
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