Optogenetic dissection of transcriptional repression in a multicellular organism.
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AsLOV2
D. melanogaster in vivo
Signaling cascade control
Transgene expression
Developmental processes
Abstract:
Transcriptional control is fundamental to cellular function. However, despite knowing that transcription factors can act as repressors or activators, how these functions are implemented at the molecular level has remained elusive. Here we combine optogenetics, single-cell live-imaging, and mathematical modeling to study how a zinc-finger repressor, Knirps, induces switch-like transitions into long-lived quiescent states. Using optogenetics, we demonstrate that repression is rapidly reversible (~1 minute) and memoryless. Finally, we show that the repressor acts by decreasing the frequency of transcriptional bursts in a manner consistent with an equilibrium binding model. Our results provide a quantitative framework for dissecting the in vivo biochemistry of eukaryotic transcriptional regulation.