SCOTfluors: Small, Conjugatable, Orthogonal, and Tunable Fluorophores for In Vivo Imaging of Cell Metabolism

SCOTfluors: Small, Conjugatable, Orthogonal, and Tunable Fluorophores for In Vivo Imaging of Cell Metabolism

The transport and trafficking of metabolites are critical for the correct functioning of live cells. However, in situ metabolic imaging studies are hampered by the lack of fluorescent chemical structures that allow direct monitoring of small metabolites under physiological conditions with high spati...

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Veröffentlicht in:Angewandte Chemie 2019-05, Vol.131 (21), p.6985-6989
Hauptverfasser: Benson, Sam, Fernandez, Antonio, Barth, Nicole D., de Moliner, Fabio, Horrocks, Mathew H., Herrington, C. Simon, Abad, Jose Luis, Delgado, Antonio, Kelly, Lisa, Chang, Ziyuan, Feng, Yi, Nishiura, Miyako, Hori, Yuichiro, Kikuchi, Kazuya, Vendrell, Marc
Format: Artikel
Sprache:eng
Schlagworte:
Chemical compounds
Chemistry
Fluorescence
Fluoreszenz
Fluorophores
Hochauflösende Bildgebung
Kontrastmittel
Krebs
Metabolism
Metaboliten
Metabolites
Organic chemistry
Temporal resolution
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Zusammenfassung:The transport and trafficking of metabolites are critical for the correct functioning of live cells. However, in situ metabolic imaging studies are hampered by the lack of fluorescent chemical structures that allow direct monitoring of small metabolites under physiological conditions with high spatial and temporal resolution. Herein, we describe SCOTfluors as novel small‐sized multi‐colored fluorophores for real‐time tracking of essential metabolites in live cells and in vivo and for the acquisition of metabolic profiles from human cancer cells of variable origin. Kleine Fluorophore: Eine Familie neuartiger niedermolekularer, mehrfarbig emittierender Benzodiazol‐Fluorophore ermöglicht die nichtinvasive Bildgebung essenzieller Metaboliten in lebenden Zellen und in vivo.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.201900465