Here a new fluorescent protein, IrisFP, is introduced, incorporating three different photoactivation pathways: irreversible green-to-red photoconversion, and reversible bright-dark photoswitching in both green and red states. The combination of these pathways enables superresolution pulse-chase experiments. A monomeric version of the protein is demonstrated for improved live-cell studies, and a detailed photophysical characterization of an analogue is presented
La microscopie de super-résolution PALM (microscopie de localisation après photo-activation) est un ...
Fluorescent proteins are intrinsically fluorescent, genetically encodable tags that can be expressed...
105 p.Reversibly photoswitchable uorescent proteins (RSFPs) are genetically engineered proteins that...
Since the discovery of the green fluorescent protein (GFP) in 1962, many developments allowed improv...
Since the discovery of the green fluorescent protein (GFP) in 1962, many developments allowed improv...
IrisFP is a photoactivatable fluorescent protein that combines irreversible photoconversion from a g...
SummaryPhotoactivatable fluorescent proteins bring new dimension to the analysis of protein dynamics...
Photoactivatable fluorescent proteins (FPs) are powerful fluorescent highlighters in live cell imagi...
AbstractLight-controlled modification of the fluorescence emission properties of proteins of the GFP...
SummaryAdvanced fluorescence imaging, including subdiffraction microscopy, relies on fluorophores wi...
We introduce UnaG as a green-to-dark photoswitching fluorescent protein capable of high-quality supe...
Advanced fluorescence imaging, including subdiffraction microscopy, relies on fluorophores with cont...
A profound insight into life can only be obtained by studying living systems with high spatiotempora...
AbstractIn the few years since its gene was first cloned, the Aequorea victoria green fluorescent pr...
Reversibly photoswitchable fluorescent proteins (RSFPs) are fluorescent proteins whose fluorescence,...
La microscopie de super-résolution PALM (microscopie de localisation après photo-activation) est un ...
Fluorescent proteins are intrinsically fluorescent, genetically encodable tags that can be expressed...
105 p.Reversibly photoswitchable uorescent proteins (RSFPs) are genetically engineered proteins that...
Since the discovery of the green fluorescent protein (GFP) in 1962, many developments allowed improv...
Since the discovery of the green fluorescent protein (GFP) in 1962, many developments allowed improv...
IrisFP is a photoactivatable fluorescent protein that combines irreversible photoconversion from a g...
SummaryPhotoactivatable fluorescent proteins bring new dimension to the analysis of protein dynamics...
Photoactivatable fluorescent proteins (FPs) are powerful fluorescent highlighters in live cell imagi...
AbstractLight-controlled modification of the fluorescence emission properties of proteins of the GFP...
SummaryAdvanced fluorescence imaging, including subdiffraction microscopy, relies on fluorophores wi...
We introduce UnaG as a green-to-dark photoswitching fluorescent protein capable of high-quality supe...
Advanced fluorescence imaging, including subdiffraction microscopy, relies on fluorophores with cont...
A profound insight into life can only be obtained by studying living systems with high spatiotempora...
AbstractIn the few years since its gene was first cloned, the Aequorea victoria green fluorescent pr...
Reversibly photoswitchable fluorescent proteins (RSFPs) are fluorescent proteins whose fluorescence,...
La microscopie de super-résolution PALM (microscopie de localisation après photo-activation) est un ...
Fluorescent proteins are intrinsically fluorescent, genetically encodable tags that can be expressed...
105 p.Reversibly photoswitchable uorescent proteins (RSFPs) are genetically engineered proteins that...
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