Abstract
BackgroundDevelopmental programs are implemented by regulatory interactions between Transcription Factors (TFs) and their target genes, which remain poorly understood. While recent studies have focused on regulatory cascades of TFs that govern early development, little is known about how the ultimate effectors of cell differentiation are selected and controlled. We addressed this question during late Drosophila embryogenesis, when the finely tuned expression of the TF Ovo/Shavenbaby (Svb) triggers the morphological differentiation of epidermal trichomes.ResultsWe defined a sizeable set of genes downstream of Svb and used in vivo assays to delineate 14 enhancers driving their specific expression in trichome cells. Coupling computational modeling to functional dissection, we investigated the regulatory logic of these enhancers. Extending the repertoire of epidermal effectors using genome-wide approaches showed that the regulatory models learned from this first sample are representative of the whole set of trichome enhancers. These enhancers harbor remarkable features with respect to their functional architectures, including a weak or non-existent clustering of Svb binding sites. The in vivo function of each site relies on its intimate context, notably the flanking nucleotides. Two additional cis-regulatory motifs, present in a broad diversity of composition and positioning among trichome enhancers, critically contribute to enhancer activity.ConclusionsOur results show that Svb directly regulates a large set of terminal effectors of the remodeling of epidermal cells. Further, these data reveal that trichome formation is underpinned by unexpectedly diverse modes of regulation, providing fresh insights into the functional architecture of enhancers governing a terminal differentiation program.
Highlights
Developmental programs are implemented by regulatory interactions between Transcription Factors (TFs) and their target genes, which remain poorly understood
Enrichment of conserved binding sites in Svb downstream genes Previous work has identified a dozen genes activated by Svb, each contributing to epidermal cell remodeling [31,33,38,39]
Of 57 candidates, we identified 21 Svb-dependent genes, that is, those downregulated in svb mutants and upregulated following svb ectopic expression (Figure 1a; Figure S1A in Additional file 1), while the other 36 epidermal genes were found to be independent of Svb (Additional file 1, Figure S1B)
Summary
Developmental programs are implemented by regulatory interactions between Transcription Factors (TFs) and their target genes, which remain poorly understood. While recent studies have focused on regulatory cascades of TFs that govern early development, little is known about how the ultimate effectors of cell differentiation are selected and controlled We addressed this question during late Drosophila embryogenesis, when the finely tuned expression of the TF Ovo/Shavenbaby (Svb) triggers the morphological differentiation of epidermal trichomes. In Drosophila, current knowledge of enhancer structure mainly comes from works on early development - for example, TFs controlling segmentation and mesoderm specification [9,10,11,12]. Enhancers that do not hold integrative properties might be of simpler architecture [27,28] Distinguishing between these possibilities requires detailed analyses of the structure and regulatory logic of CRM-TF interactions that occur at late developmental stages
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