Dual Channel RESOLFT Nanoscopy by Using Fluorescent State Kinetics

Testa, Ilaria; D'Este, E.; Urban, Nicolai T.; Balzarotti, Francisco; Hell, Stefan

Dual Channel RESOLFT Nanoscopy by Using Fluorescent State Kinetics

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

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Dual Channel RESOLFT Nanoscopy by Using Fluorescent State Kinetics
Testa, I. ; D'Este, E. ; Urban, N. T. ; Balzarotti, F. & Hell, S. (2015)
Nano Letters, 15(1) pp. 103-106. DOI: https://doi.org/10.1021/nl503058k

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Authors: Testa, Ilaria ; D'Este, E. ; Urban, Nicolai T. ; Balzarotti, Francisco ; Hell, Stefan
Abstract: We show that RESOLFT fluorescence nanoscopy, a low light level scanning superresolution technique employing reversibly switchable fluorescent proteins (rsFPs), is capable of dual-channel live-cell imaging that is virtually free of chromatic errors and temporal offsets. This is accomplished using rsEGFP and Dronpa, two rsFPs having similar spectra but different kinetics of switching and fluorescence emission. Our approach is demonstrated by imaging protein distributions and dynamics in living neurons and neuronal tissues.
Issue Date: 2015
Journal: Nano Letters
ISSN: 1530-6984
eISSN: 1530-6992
Language: English

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Dual Channel RESOLFT Nanoscopy by Using Fluorescent State Kinetics

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