Microscopy Series Table of Contents

Introduction

• Historical Contributions from Light Microscopy: What Can You Learn with a Light Microscope? (Ron Vale, HHMI/UCSF)
• History of Early Microscopes (Joseph Gall, Carnegie Institution)

Image Formation

• Refractive Lenses and Image Formation (Daniel Fletcher, UC Berkeley)
• Microscope Imaging and Koehler Illumination (Ron Vale, HHMI/UCSF)
• Objectives and Eyepieces (Stephen Ross, Nikon )
• Huygens Wavelets Constructive/Destructive Interference, and Diffraction (Jeff Lichtman, Harvard University)
• Point Spread Function (Jeff Lichtman, Harvard University)
• Resolution of a Microscope (Jeff Lichtman, Harvard University)
• Bonus: Photons: What is Light? (Bo Huang, UCSF)
• Bonus: Fourier Space: Fourier Transform (Bo Huang, UCSF)
• Lab: How to Focus: The Focal Plane (Ron Vale, HHMI/UCSF)
• Lab: How to Set Up Koehler Illumination (Ron Vale, HHMI/UCSF)
• Lab: Abbe Diffraction Demonstration (Kurt Thorn, UCSF)
• Lab: Measuring a Point Spread Function (Nico Stuurman, UCSF)
• Tip: Eyepieces (Stephen Ross, Nikon)
• Tip: Features of an Objective (Stephen Ross, Nikon)
• Tip: How to Clean Objective Lenses and Filters (Kurt Thorn, UCSF)
• Tip: Cleaning a Microscope: How to Find Dirt in Your Optical System (Stephen Ross, Nikon)
• Tip: Light Sources for Microscopy (Nico Stuurman, UCSF/HHMI)
• Tip: Adjusting the Eyepiece and Camera (Nico Stuurman, UCSF/HHMI)
• Tip: Correcting for Spherical Aberration with a Correction Collar (Stephen Ross, Nikon)

Contrast Generation for Transmitted Light

• Darkfield and Phase Contrast Microscopy (Edward Salmon, University of North Carolina)
• Polarized Light and its Interaction with Material (Shinya Inoue, Marine Biological Laboratory)
• Polarization Microscopy (Edward Salmon, University of North Carolina)
• Differential Interference Contrast (DIC) Microscopy (Edward Salmon, University of North Carolina)
• Bonus: Examples of Using Polarization Microscopy (Shinya Inoue, Marine Biological Laboratory)
• Bonus: Pragmatics of DIC and Video-Enhanced Contrast Microscopy (Edward Salmon, University of North Carolina)
• Lab: Phase, Polarization and DIC Microscopy Lab (Stephen Ross, Nikon)

Fluorescence Microscopy

• Introduction to Fluorescence Microscopy (Nico Stuurman, UCSF/HHMI)
• Fluorescent Probes: Organic Dyes and Quantum Dots (Timothy Mitchison, Harvard University)
• Fluorescent Proteins and the Story Behind GFP (Roger Tsien, UCSD/HHMI)
• Fluorescent Protein Indicators (Roger Tsien, UCSD/HHMI)
• Optical Sectioning and Confocal Microscopy (Kurt Thorn, UCSF)
• Two Photon Microscopy (Kurt Thorn, UCSF)
• Light Sheet Sectioning (Ernst Stelzer, European Molecular Biology Laboratory)
• Dual-View Inverted Selective Plane Illumination (diSPIM)  (Hari Shroff, NIBI and National Institutes of Health)
• Total Internal Reflection Fluorescence (TIRF) Microscopy (Daniel Axelrod, University of Michigan)
• Super-Resolution: Overview and Stimulated Emission Depletion (STED) Microscopy (Stefan Hell, Max Planck Institute)
• Super-Resolution: Localization Microscopy (Bo Huang, UCSF)
• Super-Resolution: Structured Illumination Microscopy (SIM) (David Agard, UCSF/HHMI)
• Measuring Dynamics: Photobleaching and Photoactivation (Jennifer Lippincott-Schwartz, NIH)
• Measuring Dynamics: Fluorescent Speckle Microscopy (Clare Waterman, NIH)
• Förster Resonance Energy Transfer (FRET) Microscopy (Philippe Bastiaens, Max Planck Institute)
• Lab: Fluorescence Lifetime Imaging Microscopy (Philippe Bastiaens, Max Planck Institute)
• Summary: Designing a Fluorescence Microscopy Experiment (Kurt Thorn, UCSF)
• Bonus: Labeling Proteins with Fluorescent Probes (Timothy Mitchison, Harvard University)
• Bonus: Correlating Fluorescence with Electron Microscopy (Roger Tsien, UCSD/HHMI)
• Bonus: Pushing the Boundaries of Light Microscopy (Steven Chu, Stanford)
• Demystifying Microscopes: Disassembling a Nikon Ti Eclipse Microscope (Stephen Ross, Nikon)
• Tips: Demystifying Microscopes: Disassembling an ASI RAMM (Nico Stuurman, UCSF/HHMI)
• Tip: Optimizing Detection of GFP (Roger Tsien, UCSD/HHMI)
• Tip: Live Cell Imaging and Environmental Control (Kurt Thorn, UCSF)
• Tip: Minimizing Damage from Fluorescence (Ron Vale, UCSF/HHMI)
• Tip: Quantitative Analysis of Speckle Microscopy (Clare Waterman, NIH)

Robotics, Detection and Image Analysis

• Cameras and Detectors I: How Do They Work? (Nico Stuurman, UCSF/HHMI)
• Cameras and Detectors II: Specifications and Performance (Nico Stuurman, UCSF/HHMI)
• Introduction to Digital Images (Kurt Thorn, UCSF)
• Image Analysis (Kurt Thorn, UCSF)
• Deconvolution Microscopy (David Agard, UCSF/HHMI)
• Lab: Using Software to Control Microscopes (Nico Stuurman, UCSF/HHMI)
• Lab: Camera Calibration (Nico Stuurman, UCSF/HHMI)
• Tip: High Speed Synchronization (Nico Stuurman, UCSF/HHMI)

Specialized Microscopy

• Optical Traps (Carlos Bustamante,UC Berkeley/HHMI)
  • Optical Traps A: An Introduction
  • Optical Traps B: Building and Calibrating
  • Optical Traps C: Measuring Steps by Molecular Motors
• High Throughput Microscopy (Jan Ellenberg, European Molecular Biology Laboratory)
• Array Tomography (Stephen Smith, Stanford University)
• Miniature Microscopes for Deep Tissue Imaging (Mark Schnitzer, Stanford University/HHMI)
• Optogenetics: The Use of Opsin Genes in Technique Development (Karl Deisseroth, Stanford University/HHMI)
• Mobile Microscopy (Daniel Fletcher, UC Berkeley)
• Lab: Demystifying Microscopes: Disassembling a Nikon Ti Eclipse Microscope (Stephen Ross, Nikon)
• Lab: Demystifying Microscopes: Disassembling an ASI RAMM (Nico Stuurman, UCSF/HHMI)