Live Cell Imaging: A Laboratory Manual

The second edition of Live Cell Imaging: A Laboratory Manual expands upon and extends the collection of established and evolving methods for studying dynamic changes in living cells and organisms presented in the well-known first edition. There are 16 new chapters and the 21 updated chapters in this new edition. They include advances in atomic force microscopy, structured illumination microscopy and other 3-D approaches, as well as imaging in single cells in animals and in plants. New analytical options include live high-throughput/high-content screening in mammalian cells and computational analysis of live cell data. The manual presents hands-on techniques as well as background material, and can serve as a text in advanced courses. The first section covers principles and fundamental issues of detection and imaging; the second provides detailed protocols for imaging live systems. Contents: 37 chapters including: 1. Fluorescent Protein Tracking and Detection M. Rizzo, M. Davidson, and D. Piston 2. Constructing and Expressing Fluorescent Protein Fusions D. Spector and B. Goldman 3. Micropatterning CellñSubstrate Adhesions Using Linear Polyacrylamide as the Blocking Agent W.-h. Guo and Y.-l. Wang 4. CCD Cameras for Fluorescence Imaging of Living Cells W. Salmon and J. Waters 5. Fluorescence Perturbation Techniques to Study Mobility and Molecular Dynamics of Proteins in Live Cells: FRAP, Photoactivation, Photoconversion, and FLIP A. Bancaud, S. Huet, G. Rabut, and J. Ellenberg 6. Imaging Protein State in Cells H. Grecco and P. Bastiaens 7. A Versatile, Multicolor Total Internal Reflection Fluorescence and Spinning-Disk Confocal Microscope System for High-Resolution Live Cell Imaging W. Shin, R. Fischer, P. Kanchanawong, Y. Kim, J. Lim, K. Myers, Y. Nishimura, S. Plotnikov, I. Thievessen, D. Yarar, B. Sabass, and C. Waterman 8. Confocal Microscopy, Deconvolution, and Structured Illumination Methods J. Murray 9. Atomic-Force Microscopy for Biological Imaging and Mechanical Testing across Length Scales M. Plodinec, M. Loparic, and U. Aebi 10. OMX: A New Platform for Multimodal, Multichannel Wide-Field Imaging I. Dobbie, E. King, R.M. Parton, P. Carlton, J.W. Sedat, J.R. Swedlow, and I. Davis 11. Digital Scanned Laser Light-Sheet Fluorescence Microscopy P.J. Keller and E.H.K. Stelzer 12. First Step for Fluorescence Correlation Spectroscopy for the Live Cell M. Kinjo, H. Sakata, and S. Mikuni 13. Tracking and Quantitative Analysis of Dynamic Movements of Cells and Particles K. Rohr, W. Godinez, N. Harder, S. Wörz, J. Mattes, W. Tvaruskó, and R. Eils 14. Imaging Techniques for Measuring Cell Materials Properties K. Kasza, D. Vader, S. Köster, N. Wang, and D. Weitz 15. Computational Image Analysis of Cellular Dynamics: A Case Study Based on Particle Tracking K. Jaqaman and G. Danuser 16. Software Tools, Data Structures, and Interfaces for Microscope Imaging N. Stuurman and J.R. Swedlow 17. High-Throughput Microscopy Using Live Mammalian Cells S. Terjung, T. Walter, A. Seitz, B. Neumann, R. Pepperkok, and J. Ellenberg Section II: Imaging of Live Cells and Organisms 18. In Vivo Imaging of Mammalian Cells J. Swedlow, I. Porter, M. Posch, and S. Swift 19. Live Cell Imaging of Yeast D. Rines, D. Thomann, J. Dorn, P. Goodwin, and P. Sorger 20. Live Imaging of Caenorhabditis elegans B. Podbilewicz and Y. Gruenbaum 21. Live Cell Imaging of Plants Y. Fang and D. Spector 22. Pushing the Limits of Live Cell Imaging in Drosophila R. Parton, A.M. Vallés, I. Dobbie, and I. Davis 23. Dynamic, Long-Term, In Vivo Imaging of Tumor-Stroma Interactions in Mouse Models of Breast Cancer Using Spinning Disk Confocal Microscopy A.J. Ewald, Z. Werb, and M. Egeblad 24. High-Resolution Multiphoton Imaging of Tumors In Vivo J. Wyckoff, B. Gligorijevic, D. Entenberg, J. Segall, and J. Condeelis