Table of Contents

Introduction: Nanoimaging Techniques in Biology.- Live-Cell Imaging of Vesicle Trafficking and Divalent Metal Ions by Total Internal Reflection Fluorescence (TIRF) Microscopy.- 4Pi Microscopy.- Fluorescence in situ Hybridization Applications for Super-Resolution 3D Structured Illumination Microscopy.- Two-Color STED Imaging of Synapses in Living Brain Slices.- Super-Resolution Imaging by Localization Microscopy.- High-Content Super-Resolution Imaging of Live Cell by uPAINT.- Super-Resolution Fluorescence Imaging with Blink Microscopy.- Photoswitchable Fluorophores for Single-Molecule Localization Microscopy.- Single-Molecule Tracking of mRNA in Living Cells.- Semiautomatic, High-Throughput, High-Resolution Protocol for Three-Dimensional Reconstruction of Single Particles in Electron Microscopy.- Mass Mapping of Amyloid Fibrils in the Electron Microscope using STEM Imaging.- Elemental Mapping by Electron Energy Loss Spectroscopy in Biology.- Cellular Nanoimaging by Cryo Electron Tomography.- Large-Volume Reconstruction of Brain Tissue from High-Resolution Serial Section Images Acquired by SEM-Based Scanning Transmission Electron Microscopy.- 3D Imaging of Cells and Tissues by Focused Ion Beam/Scanning Electron Microscopy (FIB/SEM).- Preparation of Gold Nanocluster Bioconjugates for Electron Microscopy.- Atomic Force Microscopy Imaging of Macromolecular Complexes.- Imaging of Transmembrane Proteins Directly Incorporated Within Supported Lipid Bilayers Using Atomic Force Microscopy.- Functional AFM Imaging of Cellular Membranes Using Functionalized Tips.- Near-Field Scanning Optical Microscopy for High Resolution Membrane Studies.- Correlative Fluorescence and EFTEM Imaging of the Organized Components of the Mammalian Nucleus.- High Data Output Method for 3-D Correlative Light-Electron Microscopy Using Ultrathin Cryosections.- Correlative Optical and Scanning Probe Microscopies for Mapping Interactions at Membranes.- Nanoimaging Cells Using Soft X-Ray Tomography.- Secondary Ion Mass Spectrometry Imaging of Biological Membranes at High Spatial Resolution.

Reviews

From the reviews:“The book is divided into 4 parts, each containing several chapters pertaining to a given field. … chapters are largely composed of detailed protocols describing a specific experimental procedure. Figures are mostly clear, and the tables and index are helpful. … I highly recommend this book to academic radiologists, imaging scientists, and molecular biologists.” (E. Edmund Kim, The Journal of Nuclear Medicine, Vol. 54 (5), May, 2013)“The present volume … contains 28 protocols in diverse types of microscopy enabling scientists to obtain images of isolated molecular complexes, cells and tissues at nanoscale spatial resolution … . Each chapter has a standard structure … a clear style and useful illustrations. … this book should be read not only by very specialized scientists, but also by those who usually work with (very) classic microscopic methods, to open their minds and increase their appetite for more precise and complex measurements done on complex structures.” (Ioan I. Ardelean, Romanian Biochemical Journals, Vol. 50 (2), 2013)