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Literature DB >> 24117060

Spectral evolution of a photochemical protecting group for orthogonal two-color uncaging with visible light.

Jeremy P Olson¹, Matthew R Banghart, Bernardo L Sabatini, Graham C R Ellis-Davies.

Abstract

Caged compounds are molecules rendered functionally inert by derivatization with a photochemical protecting group. We describe the design logic behind the development of a diethylaminocoumarin (DEAC) caging chromophore, DEAC450, that absorbs blue light strongly (ε450 = 43,000 M(-1) cm(-1)) and violet light 11-fold more weakly. The absorption minimum is in the wavelength range (340-360 nm) that is traditionally used for photolysis of many widely used nitroaromatic caged compounds (e.g., 4-carboxymethoxy-5,7-dinitroindolinyl(CDNI)-GABA). We used this chromophore to synthesize DEAC450-caged cAMP and found this probe was very stable toward aqueous hydrolysis in the electronic ground state but was photolyzed with a quantum efficiency of 0.78. When DEAC450-cAMP and CDNI-GABA where co-applied to striatal cholinergic interneurons, the caged compounds were photolyzed in an chromatically orthogonal manner using blue and violet light so as to modulate the neuronal firing rate in a bidirectional way.

Entities: Chemical Disease Gene Species

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Year: 2013 PMID： 24117060 PMCID： PMC4097017 DOI： 10.1021/ja408225k

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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10. Optogenetics.

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4. Coumarin-diene photoswitches for rapid and efficient isomerization with visible light.

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Review 5. Optochemical Control of Biological Processes in Cells and Animals.

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6. Development of Anionically Decorated Caged Neurotransmitters: In Vitro Comparison of 7-Nitroindolinyl- and 2-(p-Phenyl-o-nitrophenyl)propyl-Based Photochemical Probes.

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