Light-induced Ligation of o-Quinodimethanes with Gated Fluorescence Self-reporting.
Florian FeistLeona L RodriguesSarah L WaldenTim W KrappitzTim R DargavilleTanja WeilAnja S GoldmannJames P BlincoShivshankar R ManePublished in: Journal of the American Chemical Society (2020)
We introduce a highly efficient photoligation system, affording a pro-fluorescent Diels-Alder product that, on demand, converts into an intensively fluorescent naphthalene via E1 elimination in the presence of catalytic amounts of acid. The Diels-Alder reaction of the photocaged diene (o-quinodimethane ether or thioether) with electron-deficient alkynes is induced by UV or visible light. In contrast to previously reported ligation techniques directly leading to fluorescent products, the fluorescence is turned on after the photoligation. Thus, the light absorption of the fluorophore does not undermine the photoligation via competitive absorption, and as a result, photobleaching or side reactions of the fluorophore are not observed. Critically, the gated generation of a fluorescent product allows for fluorometric determination of the conversion. We employ a simple synthesis strategy for heterobifunctional electron-deficient alkynes allowing for facile functionalization of payload molecules.
Keyphrases
- quantum dots
- highly efficient
- living cells
- fluorescent probe
- visible light
- single molecule
- energy transfer
- label free
- magnetic resonance
- molecularly imprinted
- magnetic resonance imaging
- solid phase extraction
- electron transfer
- computed tomography
- high resolution
- reduced graphene oxide
- wild type
- tandem mass spectrometry