I-KCKT allows dissection-free RNA profiling of adultDrosophilaintestinal progenitor cells

Abstract

AbstractThe adult Drosophila intestinal epithelium is a model system for stem cell biology, but its utility is limited by current biochemical methods that lack cell type resolution. Here, we describe a new proximity-based profiling method that relies upon a GAL4 driver, termedintestinal-kickout-GAL4(I-KCKT-GAL4), exclusively expressed in intestinal progenitor cells. This method used UV cross-linked whole animal frozen powder as its starting material to immunoprecipitate the RNA cargoes of transgenic epitope-tagged RNA binding proteins driven byI-KCKT-GAL4. When applied to the general mRNA-binder, poly(A)-binding protein, the RNA profile obtained by this method identified 98.8% of transcripts found after progenitor cell sorting, and had low background noise despite being derived from whole animal lysate. We also mapped the targets of the more selective RNA binder, Fragile Mental Retardation Protein, using enhanced CLIP, and report for the first time its binding motif in Drosophila cells. This method will therefore enable the RNA profiling of wildtype and mutant intestinal progenitor cells from intact flies exposed to normal and altered environments, as well as the identification of RNA-protein interactions critical for stem cell function.Summary StatementWe report a dissection-free method to identify proximity-based RNA-protein interactions in anin vivostem cell population, enabling molecular analysis of these cells at unprecedented speed and resolution.