Beschreibung
Super-Resolution Microscopy Techniques in the Neurosciences serves as a comprehensive description of current super-resolution techniques, including the physical principles that allowed for their development, some of the most recent neurobiological applications and selected information for the practical use of these technologies. Written for the Neuromethods series, this detailed work contains contributions from experts in the field and provides key implementation advice to ensure successful results in the lab.Authoritative and cutting-edge, Super-Resolution Microscopy Techniques in the Neurosciences is an ideal guide for researchers aiming to continue increasing the resolution in the imaging capabilities of neuroscientists and thereby changing the perspective in which cellular biology processes are understood at the nanometer scale.
Autorenporträt
Inhaltsangabe1. Light Microscopy and Resolution Sinem K. Saka 2. Super-Resolution Microscopy: Principles, Techniques, and Applications Sinem K. Saka 3. Foundations of STED Microscopy Marcel A. Lauterbach and Christian Eggeling 4. Application of Real-Time STED Imaging to Synaptic Vesicle Motion Benjamin G. Wilhelm and Dirk Kamin 5. Photoactivated Localization Microscopy for Cellular Imaging Paulina Achurra, Seamus Holden, Thomas Pengo, and Suliana Manley 6. Data Analysis for Single-Molecule Localization Microscopy Steve Wolter, Thorge Holm, Sebastian van de Linde, and Markus Sauer 7. Super-Resolution Fluorescence Microscopy Using Structured Illumination Kai Wicker 8. Application of Three-Dimensional Structured Illumination Microscopy in Cell Biology: Pitfalls and Practical Considerations Daniel Smeets, Jürgen Neumann, and Lothar Schermelleh 9. Scanning Near-Field Optical Microscopy for Investigations of Bio-Matter Christiane Höppener 10. Atomic Force Microscopy of Living Cells David Alsteens and Yves F. Dufrêne 11. X-Ray Microscopy for Neuroscience: Novel Opportunities by Coherent Optics Tim Salditt and Tanja Ducic 12. Nonlinear Optics Approaches Towards Sub-Diffraction Resolution in CARS Imaging Klaus-Jochen Boller, Willem P. Beeker, Carsten Cleff, Kai Kruse, Chris J. Lee, Petra Groß, Herman L. Offerhaus, Carsten Fallnich, and Jennifer L. Herek 13. Photo-Oxidation Microscopy: Bridging the Gap Between Fluorescence and Electron Microscopy Annette Denker and Silvio O. Rizzoli 14. Requirements for Samples in Super-Resolution Fluorescence Microscopy Marko Lampe and Wernher Fouquet 15. Probing Biological Samples in High-Resolution Microscopy: Making Sense of Spots Felipe Opazo
