A six part lecture series by Sydney Microscopy and Microanalysis, a Microscopy Australia facility, on the fundamentals of light and fluorescence microscopy. The lectures cover: Intro to Light Microscopy 1: Microscopy Basics
- Basic light microscope components
- Brightfield imaging and related modalities
- Basic sample preparation for brightfield microscopy
- Key terms and considerations
Intro to Light Microscopy 2: Principles of Fluorescence Microscopy In this module you will learn about fluorescence and how it is used to generate high contrast microscopy imaging.
- Properties of light
- Absorption and emission and how these relate to contrast and fluorescence techniques
- The mechanism of fluorescence
- A Jablonski diagram and how it shows the mechanism of absorption and emission of light by molecules
- Stokes shift
- Mechanism of quenching
- How filters work
Intro to Light Microscopy 3: Actual Microscopes
- Part 1 – Widefield Fluorescence Microscopes
- Light Path of a Widefield Fluorescence Microscope
- Light Sources of a Widefield Fluorescence Microscope: Advantages and Disadvantages
- Filters, Filter Cubes, Filter Wheels
- Objective lenses: relevant information written on the barrel (and not written on the barrel!)
- Magnification versus Resolution
- Digital Cameras: CCD versus CMOS and Colour versus Monochrome
- Widefield versus Confocal Fluorescence Microscopy
- Part 2 – Confocal Microscopes
- Light Path of a Confocal Fluorescence Microscope
- Lasers and controlling the laser power
- Filters/AOBS
- Scanning and Digital Zoom
- Nyquist Sampling, Pixel Size, and Pixel Number Point Spread Function and Lateral versus Axial Resolution
- 3D Image Stack Point Spread Function and Lateral versus Axial Resolution
- Point Spread Function and Lateral versus Axial Resolution
- Refractive Index Matching
- Objective Correction Collars
- Pinhole and Airy Unit
- Detectors versus Cameras
- Spectral Overlap and Simultaneous versus Sequential Scanning
- Part 3 – Advanced Microscopy Techniques
- Multiphoton Microscopy
- Spinning Disk Confocal
- Super Resolution
- Total Internal Reflection Fluorescence
Intro to Light Microscopy 4: Sample Preparation and Artefacts
- Sample Preparation Definition
- General Workflow: Sample Collection
- Fixation and Fixative
- Processing, Embedding and Sectioning
- Staining
- Mounting and Storage
- Artefacts and how to identity
- Cause of artefacts
- How to avoid artefacts
Intro to Light Microscopy 5: Fluorescence Microscopy Specimen and Imaging Tricks
- What is fluorescence?
- Why do we use fluorescence microscopy?
- Fixed cell imaging
- 8 tips and tricks to improve your IF protocol
- Fixation methods
- Aldehyde-based fixatives
- Organic solvents-based fixatives
- Permeabilisation
- Blocking
- Primary and secondary antibody incubation
- Antibody dilution and cell density optimisation
- Controls and counterstains
- Mounting
- Fixed cell imaging vs live-cell imaging
- Requirements for non-invasive live-cell imaging
- Benefits of using low levels of expression of a exogenous fluorescent reporter
Intro to Light Microscopy 6: Digital Image & Data Analysis
- What is Image Analysis
- Image Processing Steps
- Image analysis Packages
- A Brief History of Digital Images
- Sampling
- Quantization
- Bit Depth
- Colour Space – CMYK vs RGB
- Compression in Images
- Image File Formats
- Analytical and Visualisation Software in More Detail
- Collection & Analysis Considerations
- Real World Examples of Image Analysis