Superresolution imaging of biological nanostructures by spectral precision distance microscopy

For the improved understanding of biological systems on the nanoscale, it is necessary to enhance the resolution of light microscopy in the visible wavelength range beyond the limits of conventional epifluorescence microscopy (optical resolution of about 200 nm laterally, 600 nm axially). Recently,...

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Hauptverfasser:	Cremer, Christoph (VerfasserIn) , Kaufmann, Rainer (VerfasserIn) , Gunkel, Manuel (VerfasserIn) , Pres, Sebastian (VerfasserIn) , Weiland, Yanina (VerfasserIn) , Müller, Patrick (VerfasserIn) , Ruckelshausen, Thomas (VerfasserIn) , Lemmer, Paul (VerfasserIn) , Geiger, Fania (VerfasserIn) , Degenhard, Sven (VerfasserIn) , Wege, Christina (VerfasserIn) , Lemmermann, Niels A. W. (VerfasserIn) , Holtappels, Rafaela (VerfasserIn) , Strickfaden, Hilmar (VerfasserIn) , Hausmann, Michael (VerfasserIn)
Dokumenttyp:	Article (Journal)
Sprache:	Englisch
Veröffentlicht:	09 September 2011
In:	Biotechnology journal Year: 2011, Jahrgang: 6, Heft: 9, Pages: 1037-1051
ISSN:	1860-7314
DOI:	10.1002/biot.201100031
Online-Zugang:	Verlag, lizenzpflichtig, Volltext: https://doi.org/10.1002/biot.201100031 Verlag, lizenzpflichtig, Volltext: https://onlinelibrary.wiley.com/doi/abs/10.1002/biot.201100031
Verfasserangaben:	Christoph Cremer, Rainer Kaufmann, Manuel Gunkel, Sebastian Pres, Yanina Weiland, Patrick Müller, Thomas Ruckelshausen, Paul Lemmer, Fania Geiger, Sven Degenhard, Christina Wege, Niels A.W. Lemmermann, Rafaela Holtappels, Hilmar Strickfaden and Michael Hausmann

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245	1	0	\|a Superresolution imaging of biological nanostructures by spectral precision distance microscopy \|c Christoph Cremer, Rainer Kaufmann, Manuel Gunkel, Sebastian Pres, Yanina Weiland, Patrick Müller, Thomas Ruckelshausen, Paul Lemmer, Fania Geiger, Sven Degenhard, Christina Wege, Niels A.W. Lemmermann, Rafaela Holtappels, Hilmar Strickfaden and Michael Hausmann
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520			\|a For the improved understanding of biological systems on the nanoscale, it is necessary to enhance the resolution of light microscopy in the visible wavelength range beyond the limits of conventional epifluorescence microscopy (optical resolution of about 200 nm laterally, 600 nm axially). Recently, various far-field methods have been developed allowing a substantial increase of resolution (“superresolution microscopy”, or “lightoptical nanoscopy”). This opens an avenue to ‘nano-image’ intact and even living cells, as well as other biostructures like viruses, down to the molecular detail. Thus, it is possible to combine light optical spatial nanoscale information with ultrastructure analyses and the molecular interaction information provided by molecular cell biology. In this review, we describe the principles of spectrally assigned localization microscopy (SALM) of biological nanostructures, focusing on a special SALM approach, spectral precision distance/position determination microscopy (SPDM) with physically modified fluorochromes (SPDMPhymod. Generally, this SPDM method is based on high-precision localization of fluorescent molecules, which can be discriminated using reversibly bleached states of the fluorophores for their optical isolation. A variety of application examples is presented, ranging from superresolution microscopy of membrane and cytoplasmic protein distribution to dual-color SPDM of nuclear proteins. At present, we can achieve an optical resolution of cellular structures down to the 20-nm range, with best values around 5 nm (∼1/100 of the exciting wavelength).
650		4	\|a Localization microscopy
650		4	\|a Microscopy
650		4	\|a SALM
650		4	\|a SPDM
650		4	\|a Super-resolution imaging
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Superresolution imaging of biological nanostructures by spectral precision distance microscopy

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