Journal
CHEMICAL SCIENCE
Volume 4, Issue 7, Pages 2865-2873Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c3sc50729g
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Funding
- FEBS Distinguished Young Investigator Award
- FEBS Follow-up Research Fund
- Charpak Scholarship
- French Embassy in New Delhi (India)
- ANR (PCV, Proteophane)
- ANR (Blanc, T-KiNet)
- Region Ile-de-France
- CNRS
- CEA
- MESR
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The progress in imaging instrumentation and probes has revolutionized the way biologists look at living systems. Current tools enable both observation and quantification of biomolecules, allowing the measurement of their complex spatial organization and the dynamic processes in which they are involved. Here, we report reversible photoconversion in the Spinach system, a recently described fluorescent probe for RNA imaging. Upon irradiation with blue light, the Spinach system undergoes photoconversion to a less fluorescent state and fully recovers its signal in the dark. Through thermodynamic titration, stopped-flow, and light-jump experiments, we propose a dynamic model that accounts for the photochemical behavior of the Spinach system. We exploit the dynamic fluorogen exchange and the unprecedented photoconversion properties in a non-covalent fluorescence turn-on system to significantly improve signal-to-background ratio during long-term microscopy imaging.
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