sg:pub.10.1038/nmeth.3481 - Springer Nature SciGraph

Article Info

DATE

2015-09

AUTHORS

Jale Schneider, Jasmin Zahn, Marta Maglione, Stephan J Sigrist, Jonas Marquard, Jakub Chojnacki, Hans-Georg Kräusslich, Steffen J Sahl, Johann Engelhardt, Stefan W Hell

ABSTRACT

Electro-optical scanning (>1,000 frames/s) with pixel dwell times on the order of the lifetime of the fluorescent molecular state renders stimulated emission depletion (STED) nanoscopy temporally stochastic. Photon detection from a molecule occurs stochastically in one of several scanning frames, and the spatial origin of the photon is known with subdiffraction precision. Images are built up by binning consecutive frames, making the time resolution freely adjustable. We demonstrated nanoscopy of vesicle motions in living Drosophila larvae and the cellular uptake of viral particles with 5- to 10-ms temporal resolution. More... »

PAGES

827-830

References to SciGraph publications

2007-01. Major signal increase in fluorescence microscopy through dark-state relaxation in NATURE METHODS

2008-11. Super-resolution imaging in live Caulobacter crescentus cells using photoswitchable EYFP in NATURE METHODS

2011-07. Functional mapping of single spines in cortical neurons in vivo in NATURE

2006-10. Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM) in NATURE METHODS

2008-11. Fluorescence nanoscopy by ground-state depletion and single-molecule return in NATURE METHODS

2013-07. Video-rate nanoscopy using sCMOS camera–specific single-molecule localization algorithms in NATURE METHODS

Journal

TITLE

Nature Methods

ISSUE

VOLUME

Subjects

FOR: Other Physical Sciences

FOR: Physical Sciences

MESH: Data Interpretation, Statistical

MESH: Equipment Design

MESH: Equipment Failure Analysis

MESH: Image Enhancement

MESH: Micro-Electrical-Mechanical Systems

MESH: Microscopy, Fluorescence

MESH: Molecular Imaging

MESH: Nanotechnology

MESH: Photometry

MESH: Stochastic Processes

Author Affiliations

German Cancer Research Center

Freie Universität Berlin

Heidelberg University

Max Planck Institute for Biophysical Chemistry

From Grant

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/nmeth.3481

DOI

http://dx.doi.org/10.1038/nmeth.3481

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1002790340

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/26214129

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37	″	schema:description	Electro-optical scanning (>1,000 frames/s) with pixel dwell times on the order of the lifetime of the fluorescent molecular state renders stimulated emission depletion (STED) nanoscopy temporally stochastic. Photon detection from a molecule occurs stochastically in one of several scanning frames, and the spatial origin of the photon is known with subdiffraction precision. Images are built up by binning consecutive frames, making the time resolution freely adjustable. We demonstrated nanoscopy of vesicle motions in living Drosophila larvae and the cellular uptake of viral particles with 5- to 10-ms temporal resolution.
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Ultrafast, temporally stochastic STED nanoscopy of millisecond dynamics View Full Text