Far-Field Optical Nanoscopy (eBook)

Stefan W. Hell is director at the Max Planck Institute for Biophysical Chemistry in Göttingen and leads the Department of NanoBiophotonics, as well as the High Resolution Optical Microscopy division at the German Cancer Research Center (DKFZ) in Heidelberg. He is honorary professor of experimental physics at the University of Göttingen and holds a position as adjunct professor of physics at the University of Heidelberg.Stefan Hell has invented the first method, which took optical microscopy into the nano-dimension, breaking Abbe’s diffraction-limited resolution barrier. This breakthrough has been honored with the 2014 Nobel Prize® in Chemistry, awarded jointly to Stefan W. Hell and his colleagues Eric Betzig and William E. Moerner.Hell received his PhD from the University of Heidelberg in 1990 and worked at the European Molecular Biology Laboratory Heidelberg (EMBL) from 1991 to 1993. Afterwards he worked as senior researcher at the University of Turku, Finland and visiting scientist at the University of Oxford, England, before moving to the Max Planck Institute for Biophysical Chemistry in Göttingen in 1997. After building up his research group at the institute, he was appointed as a director in 2002 and established the department of Nanobiophotonics at the institute.Christian Eggeling is Professor of Molecular Immunology at the University of Oxford and Scientific Director at the Wolfson Imaging Centre Oxford, Weatherall Institute of Molecular Medicine. Eggeling received his PhD from the Georg-August University Göttingen. Afterwards he did postdoctoral research at the Karolinska-Institute in Stockholm, Sweden. From 2000 to 2004 Eggeling worked at the company Evotec OAI AG Hamburg, before joining the NanoBiophotonics department of Stefan Hell at the Max-Planck-Institute for Biophysical Chemistry in Göttingen. In 2012 he moved to Oxford as Group Leader of the MRC Human Immunology Unit (HIU).Philip Tinnefeld is Professor of Biophysical Chemistry at the TU Braunschweig. He received his PhD in Physical Chemistry from the University of Heidelberg. Afterwards he did research at the Universities of California in Los Angeles, Heidelberg, Leuven, and Bielefeld. From 2007 to 2010 Tinnefeld was Professor of Biophysics at LMU München, before moving to Braunschweig, where he now leads the group of NanoBioSciences at the Institute of Physical and Theoretical Chemistry of the TU Braunschweig.

Part I: Optical Nanoscopy Techniques STED Fluorescence NanoscopyChristian Eggeling, Stefan W. Hell Super-Resolution Imaging Through Stochastic Switching and Localization of Single Molecules: An OverviewKe Xu, Sang-Hee Shim, and Xiaowei Zhuang A Practical Guide to dSTORM: Super-Resolution Imaging with Standard Fluorescent ProbesMarkus Sauer Part II: Labelling Technology for Optical Nanoscopy Single-Molecule Photocontrol and NanoscopyMatthew D. Lew, Steven F. Lee, Michael A. Thompson, Hsiao-lu D. Lee, and W. E. Moerner Probes for Nanoscopy: Fluorescent ProteinsSusan Gayda, Per Niklas Hedde, Karin Nienhaus, and G. Ulrich Nienhaus Tailoring Fluorescent Labels for Far-Field NanoscopyDmytro A. Yushchenko and Marcel P. Bruchez Probes for Nanoscopy: Photoswitchable FluorophoresPedro F. Aramendia and Mariano L. Bossi Far-Field Nanoscopy with Conventional Fluorophores: Photostability, Photophysics, and Transient BindingThorben Cordes, Jan Vogelsang, Christian Steinhauer, Ingo H. Stein, Carsten Forthmann, Andreas Gietl, Jürgen J. Schmied, Guillermo P. Acuna, Sebastian Laurien, Birka Lalkens, and Philip Tinnefeld Part III: Developments and Applications of Optical Nanoscopy NASCA Microscopy: Super-Resolution Mapping of Chemical Reaction CentersGert De Cremer, Bert F. Sels, Dirk E. De Vos, Johan Hofkens, and Maarten B.J. Roeffaers Counting Molecules: Toward Quantitative ImagingMaximilian H. Ulbrich In Vivo Tracking of Single Biomolecules: What Trajectories Tell Us About the Acting ForcesMario Brameshuber and Gerhard J. Schütz