eLife (Oct 2016)

Neuronal cell fate diversification controlled by sub-temporal action of Kruppel

  • Johannes Stratmann,
  • Hugo Gabilondo,
  • Jonathan Benito-Sipos,
  • Stefan Thor

DOI
https://doi.org/10.7554/eLife.19311
Journal volume & issue
Vol. 5

Abstract

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During Drosophila embryonic nervous system development, neuroblasts express a programmed cascade of five temporal transcription factors that govern the identity of cells generated at different time-points. However, these five temporal genes fall short of accounting for the many distinct cell types generated in large lineages. Here, we find that the late temporal gene castor sub-divides its large window in neuroblast 5–6 by simultaneously activating two cell fate determination cascades and a sub-temporal regulatory program. The sub-temporal program acts both upon itself and upon the determination cascades to diversify the castor window. Surprisingly, the early temporal gene Kruppel acts as one of the sub-temporal genes within the late castor window. Intriguingly, while the temporal gene castor activates the two determination cascades and the sub-temporal program, spatial cues controlling cell fate in the latter part of the 5–6 lineage exclusively act upon the determination cascades.

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