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A Notch-dependent transcriptional mechanism controls expression of temporal patterning factors in Drosophila medulla

Alokananda Ray, Xin Li

2022eLife17 citationsDOIOpen Access PDF

Abstract

Temporal patterning is an important mechanism for generating a great diversity of neuron subtypes from a seemingly homogenous progenitor pool in both vertebrates and invertebrates. Drosophila neuroblasts are temporally patterned by sequentially expressed Temporal Transcription Factors (TTFs). These TTFs are proposed to form a transcriptional cascade based on mutant phenotypes, although direct transcriptional regulation between TTFs has not been verified in most cases. Furthermore, it is not known how the temporal transitions are coupled with the generation of the appropriate number of neurons at each stage. We use neuroblasts of the Drosophila optic lobe medulla to address these questions and show that the expression of TTFs Sloppy-paired 1/2 (Slp1/2) is directly regulated at the transcriptional level by two other TTFs and the cell-cycle dependent Notch signaling through two cis -regulatory elements. We also show that supplying constitutively active Notch can rescue the delayed transition into the Slp stage in cell cycle arrested neuroblasts. Our findings reveal a novel Notch-pathway dependent mechanism through which the cell cycle progression regulates the timing of a temporal transition within a TTF transcriptional cascade.

Topics & Concepts

Notch signaling pathwayCell biologyMechanism (biology)Drosophila (subgenus)BiologyDevelopmental biologyGene expressionMedullaNeuroscienceGeneticsSignal transductionGeneAnatomyPhysicsQuantum mechanicsDevelopmental Biology and Gene RegulationInvertebrate Immune Response MechanismsNeurobiology and Insect Physiology Research