Far-Red Emitting Fluorescent Dyes for Optical Nanoscopy: Fluorinated Silicon-Rhodamines (SiRF Dyes) and Phosphorylated Oxazines

2015 | journal article; research paper. A publication with affiliation to the University of Göttingen.

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​Far-Red Emitting Fluorescent Dyes for Optical Nanoscopy: Fluorinated Silicon-Rhodamines (SiRF Dyes) and Phosphorylated Oxazines​
Kolmakov, K. ; Hebisch, E.; Wolfram, T.; Nordwig, L. A.; Wurm, C. A. ; Ta, H.   & Westphal, V.  et al.​ (2015) 
Chemistry - A European Journal21(38) pp. 13344​-13356​.​ DOI: https://doi.org/10.1002/chem.201501394 

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Authors
Kolmakov, Kirill ; Hebisch, Elke; Wolfram, Thomas; Nordwig, Lars A.; Wurm, Christian Andreas ; Ta, Haisen ; Westphal, Volker ; Belov, Vladimir N. ; Hell, Stefan 
Abstract
Far-red emitting fluorescent dyes for optical microscopy, stimulated emission depletion (STED), and ground-state depletion (GSDIM) super-resolution microscopy are presented. Fluorinated silicon-rhodamines (SiRF dyes) and phosphorylated oxazines have absorption and emission maxima at about approximate to 660 and 680nm, respectively, possess high photostability, and large fluorescence quantum yields in water. A high-yielding synthetic path to introduce three aromatic fluorine atoms and unconventional conjugation/solubilization spacers into the scaffold of a silicon-rhodamine is described. The bathochromic shift in SiRF dyes is achieved without additional fused rings or double bonds. As a result, the molecular size and molecular mass stay quite small (<600Da). The use of the =800nm STED beam instead of the commonly used one at =750-775nm provides excellent imaging performance and suppresses re-excitation of SiRF and the oxazine dyes. The photophysical properties and immunofluorescence imaging performance of these new far-red emitting dyes (photobleaching, optical resolution, and switch-off behavior) are discussed in detail and compared with those of some well-established fluorophores with similar spectral properties.
Issue Date
2015
Journal
Chemistry - A European Journal 
ISSN
0947-6539
eISSN
1521-3765
Language
English

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