Methods in cell biology. v. 81, Digital microscopy / edited by Greenfield Sluder, David E. Wolf. — 3rd ed. — Amsterdam : Elsevier, c2007.—(58.1574/M592/v.81) |
Contents
CONTENTS
1. Microscope Basics
2. The Optics of'Microscope hnage Formation
3. Proper Alignment of the Microscope
4. Mating Cameras to Microscopes
5. Fundamentals of Fluorescence and Fluorescence Microscopy
6. Fluorescent Protein Applications in Microscopy
7. Live-Cell Fluorescence Imaging
8. Working with Classic Video
9. Practical Aspects of Adjusting Dig'ital Cameras
10. Cameras for Digital Microscopy
11. A High-Resolution Multimode Digital Microscope System
12. Electronic Cameras for Low-Light Microscopy
13. Camera Technologies for Low Light Imaging: Overview and Relative Advantages
14. Digital Manipulation of Brightfield and Fluorescence Images: Noise Reduction, Contrast Enhancement, and Feature Extraction
15. Digital Image Files in Light Microscopy
16. High-Resolution Video-Enhanced Differential Interference Contrast Light Microscopy
17. Quantitative Analysis of Digital Microscope hnagcs
18. Evaluating Optical Aberration Using Fluorescent Microspheres: Methods, Analysis, and Corrective Actions
19. Ratio Imaging: Practical Considerations for Measuring Intracellular Ca2+ and pH in Living Cells
20. Computational P, estoration of Fluorescence Images: Noise Reduction Deconvolution, and Pattern Recognition
21. Quantitative Fluorescence Microscopy and Image Deconvolution
22. Practical Aspects of Quantitative Confbcal Microscopy
23. Theoretical Principles and Practical Considerations for Fluorescence Resonance Energy Transfer Microscopy
24. Fluorescence Lifetime Imaging Microscopy
25. Fluorescence Correlation Spectroscopy: Molecular Complexing in Solution and in Living Cells
26. Breaking the Resolution Limit in Light Microscopy