| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2042325 | Cell Reports | 2012 | 12 Pages |
SummaryDrosophila neuroblasts (NBs) have emerged as a model for stem cell biology that is ideal for genetic analysis but is limited by the lack of cell-type-specific gene expression data. Here, we describe a method for isolating large numbers of pure NBs and differentiating neurons that retain both cell-cycle and lineage characteristics. We determine transcriptional profiles by mRNA sequencing and identify 28 predicted NB-specific transcription factors that can be arranged in a network containing hubs for Notch signaling, growth control, and chromatin regulation. Overexpression and RNA interference for these factors identify Klumpfuss as a regulator of self-renewal. We show that loss of Klumpfuss function causes premature differentiation and that overexpression results in the formation of transplantable brain tumors. Our data represent a valuable resource for investigating Drosophila developmental neurobiology, and the described method can be applied to other invertebrate stem cell lineages as well.
Graphical AbstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Purification of fly neuroblasts and their daughter cells by FACS ► Identification of a hypothetical transcriptional network for self-renewal ► Klumpfuss is a regulator of neuroblast identity and self-renewal
