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Quantitative imaging of transcription in living Drosophila embryos reveals the impact of core promoter motifs on promoter state dynamics

Virginia L Pimmett, Matthieu Dejean, Carola Fernandez, Antonio Trullo, Édouard Bertrand, Ovidiu Radulescu, Mounia Lagha

2021Nature Communications95 citationsDOIOpen Access PDF

Abstract

Genes are expressed in stochastic transcriptional bursts linked to alternating active and inactive promoter states. A major challenge in transcription is understanding how promoter composition dictates bursting, particularly in multicellular organisms. We investigate two key Drosophila developmental promoter motifs, the TATA box (TATA) and the Initiator (INR). Using live imaging in Drosophila embryos and new computational methods, we demonstrate that bursting occurs on multiple timescales ranging from seconds to minutes. TATA-containing promoters and INR-containing promoters exhibit distinct dynamics, with one or two separate rate-limiting steps respectively. A TATA box is associated with long active states, high rates of polymerase initiation, and short-lived, infrequent inactive states. In contrast, the INR motif leads to two inactive states, one of which relates to promoter-proximal polymerase pausing. Surprisingly, the model suggests pausing is not obligatory, but occurs stochastically for a subset of polymerases. Overall, our results provide a rationale for promoter switching during zygotic genome activation.

Topics & Concepts

PromoterMaternal to zygotic transitionTATA boxBiologyGeneticsRNA polymerase IIMulticellular organismTranscription (linguistics)GeneGenomeComputational biologyCell biologyGene expressionEmbryogenesisZygotePhilosophyLinguisticsGene Regulatory Network AnalysisGenomics and Chromatin DynamicsEvolution and Genetic Dynamics
Quantitative imaging of transcription in living Drosophila embryos reveals the impact of core promoter motifs on promoter state dynamics | Litcius