Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy

Engdahl AK, Grauberger O, Brockhinke A, Schüttpelz M, Huser T (2023)
ChemPhotoChem 7(5): e202200305.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Abstract / Bemerkung
Photoinduced off-switching of organic fluorophores is used in super-resolution microscopy to separate and localize single fluorescent molecules. However, this method typically relies on the use of complex imaging buffers that make use of enzymatic oxygen scavengers to remove oxygen and primary thiols to reversibly reduce excited fluorophores to a non-fluorescent state. Here, we show that the interactions between sodium sulfite and glycerol can also be used for efficient switching of common organic fluorophores. The addition of glycerol to the imaging buffer allows us to tune the dye switching from intermittent fluorescence to the off-state. We additionally show that sodium sulfite-glycerol-based buffers are especially useful for imaging at low laser illumination intensities in high-refractive index solutions and samples embedded in agarose gel. This significantly simplifies the implementation of different super-resolution microscopy modalities such as direct STochastic Optical Reconstruction Microscopy (dSTORM) and Super-resolution Optical Fluctuation Imaging (SOFI).
Erscheinungsjahr
2023
Zeitschriftentitel
ChemPhotoChem
Band
7
Ausgabe
5
Art.-Nr.
e202200305
ISSN
2367-0932
eISSN
2367-0932
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
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https://pub.uni-bielefeld.de/record/2968401

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Engdahl AK, Grauberger O, Brockhinke A, Schüttpelz M, Huser T. Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy. ChemPhotoChem. 2023;7(5): e202200305.
Engdahl, A. K., Grauberger, O., Brockhinke, A., Schüttpelz, M., & Huser, T. (2023). Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy. ChemPhotoChem, 7(5), e202200305. https://doi.org/10.1002/cptc.202200305
Engdahl, Anders Kokkvoll, Grauberger, Oleg, Brockhinke, Andreas, Schüttpelz, Mark, and Huser, Thomas. 2023. “Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy”. ChemPhotoChem 7 (5): e202200305.
Engdahl, A. K., Grauberger, O., Brockhinke, A., Schüttpelz, M., and Huser, T. (2023). Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy. ChemPhotoChem 7:e202200305.
Engdahl, A.K., et al., 2023. Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy. ChemPhotoChem, 7(5): e202200305.
A.K. Engdahl, et al., “Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy”, ChemPhotoChem, vol. 7, 2023, : e202200305.
Engdahl, A.K., Grauberger, O., Brockhinke, A., Schüttpelz, M., Huser, T.: Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy. ChemPhotoChem. 7, : e202200305 (2023).
Engdahl, Anders Kokkvoll, Grauberger, Oleg, Brockhinke, Andreas, Schüttpelz, Mark, and Huser, Thomas. “Switching of Organic Fluorophores by Glycerol‐Sulfite Interactions for Single‐Molecule Super‐Resolution Microscopy”. ChemPhotoChem 7.5 (2023): e202200305.
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2023-01-25T08:46:09Z
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Sodium sulfite as a switching agent for single molecule based super-resolution optical microscopy
Engdahl AK, Grauberger O, Schüttpelz M, Huser T (2021)
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Preprint: 10.1101/2021.10.11.462112

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