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Azido push-pull fluorogens photoactivate to produce bright fluorescent labels.


ABSTRACT: Dark azido push-pull chromophores have the ability to be photoactivated to produce bright fluorescent labels suitable for single-molecule imaging. Upon illumination, the aryl azide functionality in the fluorogens participates in a photochemical conversion to an aryl amine, thus restoring charge-transfer absorption and fluorescence. Previously, we reported that one compound, DCDHF-V-P-azide, was photoactivatable. Here, we demonstrate that the azide-to-amine photoactivation process is generally applicable to a variety of push-pull chromophores, and we characterize the photophysical parameters including photoconversion quantum yield, photostability, and turn-on ratio. Azido push-pull fluorogens provide a new class of photoactivatable single-molecule probes for fluorescent labeling and super-resolution microscopy. Lastly, we demonstrate that photoactivated push-pull dyes can insert into bonds of nearby biomolecules, simultaneously forming a covalent bond and becoming fluorescent (fluorogenic photoaffinity labeling).

SUBMITTER: Lord SJ 

PROVIDER: S-EPMC2891317 | biostudies-literature | 2010 Nov

REPOSITORIES: biostudies-literature

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Azido push-pull fluorogens photoactivate to produce bright fluorescent labels.

Lord Samuel J SJ   Lee Hsiao-Lu D HL   Samuel Reichel R   Weber Ryan R   Liu Na N   Conley Nicholas R NR   Thompson Michael A MA   Twieg Robert J RJ   Moerner W E WE  

The journal of physical chemistry. B 20091027 45


Dark azido push-pull chromophores have the ability to be photoactivated to produce bright fluorescent labels suitable for single-molecule imaging. Upon illumination, the aryl azide functionality in the fluorogens participates in a photochemical conversion to an aryl amine, thus restoring charge-transfer absorption and fluorescence. Previously, we reported that one compound, DCDHF-V-P-azide, was photoactivatable. Here, we demonstrate that the azide-to-amine photoactivation process is generally ap  ...[more]

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