Regulation of temporal identity transitions in Drosophila neuroblasts
- PMID: 15691761
- DOI: 10.1016/j.devcel.2004.11.019
Regulation of temporal identity transitions in Drosophila neuroblasts
Abstract
Temporal patterning is an important aspect of embryonic development, but the underlying molecular mechanisms are not well understood. Drosophila neuroblasts are an excellent model for studying temporal identity: they sequentially express four genes (hunchback --> Kruppel --> pdm1 --> castor) whose temporal regulation is essential for generating neuronal diversity. Here we show that hunchback --> Kruppel timing is regulated transcriptionally and requires neuroblast cytokinesis, consistent with asymmetric partitioning of transcriptional regulators during neuroblast division or feedback signaling from the neuroblast progeny. Surprisingly, Kruppel --> pdm1 --> castor timing occurs normally in isolated or G(2)-arrested neuroblasts, and thus involves a neuroblast-intrinsic timer. Finally, we find that Hunchback potently regulates the neuroblast temporal identity timer: prolonged Hunchback expression keeps the neuroblast "young" for multiple divisions, and subsequent downregulation allows resumption of Kruppel --> pdm1 --> castor expression and the normal neuroblast lineage. We conclude that two distinct "timers" regulate neuroblast gene expression: a hunchback --> Kruppel timer requiring cytokinesis, and a Kruppel --> pdm1 --> castor timer which is cell cycle independent.
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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