1st Edition

The Fluorescent Protein Revolution

Edited By Richard N. Day, Michael W. Davidson Copyright 2014
    347 Pages
    by CRC Press

    347 Pages
    by CRC Press

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    Advances in fluorescent proteins, live-cell imaging, and superresolution instrumentation have ushered in a new era of investigations in cell biology, medicine, and physiology. From the identification of the green fluorescent protein in the jellyfish Aequorea victoria to the engineering of novel fluorescent proteins, The Fluorescent Protein Revolution explores the history, properties, and applications of these important probes.

    The book first traces the history of fluorescent proteins and the revolution they enabled in cellular imaging. It then discusses fluorescent proteins with novel photophysical properties. The book also covers several cutting-edge imaging applications. These include superresolution microscopy of cellular fine structures, FRET microscopy to visualize protein interactions and cell-signaling activities inside living cells, photobleaching and photoactivation techniques to visualize protein behaviors, techniques that exploit plant and algal photoreceptors to enable light-regulated control of enzymatic activities, and the noninvasive imaging of tumor–host interactions in living animals.

    In color throughout, this book presents the fundamental principles and latest advances in the field, including the associated development of imaging techniques that exploit fluorescent proteins. It is accessible to a broad audience, from optical imaging experts to novices needing an introduction to the field.

    HISTORY AND PERSPECTIVES: Introduction to Fluorescent Proteins. PHOTOPHYSICAL PROPERTIES OF FLUORESCENT PROTEINS: Lessons Learned from the Structures of Fluorescent Proteins. Optimization of Fluorescent Proteins. Development of New Colors from Coral Fluorescent Proteins. Red Fluorescent Proteins: Multipurpose Markers for Live-Cell Imaging. Optical Highlighter Photophysical Properties. Far-Red and Near-Infared Fluorescent Proteins. APPLICATIONS: Genetically Encoded Fluorescent Proteins and FRAP. Optical Highlighters: Applications to Cell Biology. Optogenetic Tools Derived from Plant Photoreceptors. Fluorescent Proteins for FRET: Monitoring Protein Interactions in Living Cells. Superresolution Techniques Using Fluorescent Protein Technology. In Vivo Imaging Revolution Made by Fluorescent Proteins. Index.


    Richard N. Day, Michael W. Davidson