Near-infrared STED nanoscopy with an engineered bacterial phytochrome

Kamper, Maria; Ta, Haisen; Jensen, Nickels A.; Hell, Stefan W.; Jakobs, Stefan

Near-infrared STED nanoscopy with an engineered bacterial phytochrome

2018 | journal article. A publication with affiliation to the University of Göttingen.

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Near-infrared STED nanoscopy with an engineered bacterial phytochrome
Kamper, M.; Ta, H.; Jensen, N. A.; Hell, S. W. & Jakobs, S. (2018)
Nature Communications, 9(1) art. 4762. DOI: https://doi.org/10.1038/s41467-018-07246-2

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Authors: Kamper, Maria; Ta, Haisen; Jensen, Nickels A.; Hell, Stefan W. ; Jakobs, Stefan
Abstract: The near infrared (NIR) optical window between the cutoff for hemoglobin absorption at 650 nm and the onset of increased water absorption at 900 nm is an attractive, yet largely unexplored, spectral regime for diffraction-unlimited super-resolution fluorescence microscopy (nanoscopy). We developed the NIR fluorescent protein SNIFP, a bright and photostable bacteriophytochrome, and demonstrate its use as a fusion tag in live-cell microscopy and STED nanoscopy. We further demonstrate dual color red-confocal/NIR-STED imaging by co-expressing SNIFP with a conventional red fluorescent protein.
Issue Date: 2018
Journal: Nature Communications
Organization: Max-Planck-Institut für Biophysikalische Chemie ; Klinik für Neurologie
Language: English

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Near-infrared STED nanoscopy with an engineered bacterial phytochrome

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