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FRET - Förster resonance energy transfer : from theory to applications / edited by Igor Medintz and Niko Hildebrandt.

Contributor(s): Material type: TextTextPublication details: Weinheim, Germany : Wiley-VCH Verlag GmbH, [2014]Edition: First editionDescription: 1 online resource (xxii, 791 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9783527656028
  • 3527656022
  • 9781299988446
  • 129998844X
  • 9783527656059
  • 3527656057
Subject(s): Genre/Form: Additional physical formats: Print version:: Fret - Förster resonance energy transfer.DDC classification:
  • 570.282
LOC classification:
  • QH212.F55
Online resources:
Contents:
PART I: Part One Background, Theory, and Concepts; -- How I Remember Theodor Förster -- 2. How I Remember Theodor Förster -- 3. Förster Theory -- 4. Optimizing the Orientation Factor Kappa-Squared for More Accurate FRET Measurements -- 5. How to Apply FRET: From Experimental Design to Data Analysis -- 6. Materials for FRET Analysis: Beyond Traditional Dye-Dye Combinations -- PART II: Common FRET Techniques/Applications; 7. In Vitro FRET Sensing, Diagnostics, and Personalized Medicine -- 8. Single-Molecule Applications -- 9. Implementation of FRET Technologies for Studying the Folding and Conformational Changes in Biological Structures -- 10. FRET-Based Cellular Sensing with Genetically Encoded Fluorescent Indicators -- PART III: FRET with Recently Developed Materials; 11. FRET with Fluorescent Proteins -- 12. Semiconductor Quantum Dots and FRET -- 13. Multistep FRET and Nanotechnology -- Part Four: Supporting Information and Conclusions; 14. Data -- 15. Outlook on FRET: The Future of Resonance Energy Transfer.
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Edition statement from running title area.

Includes bibliographical references and index.

PART I: Part One Background, Theory, and Concepts; -- How I Remember Theodor Förster -- 2. How I Remember Theodor Förster -- 3. Förster Theory -- 4. Optimizing the Orientation Factor Kappa-Squared for More Accurate FRET Measurements -- 5. How to Apply FRET: From Experimental Design to Data Analysis -- 6. Materials for FRET Analysis: Beyond Traditional Dye-Dye Combinations -- PART II: Common FRET Techniques/Applications; 7. In Vitro FRET Sensing, Diagnostics, and Personalized Medicine -- 8. Single-Molecule Applications -- 9. Implementation of FRET Technologies for Studying the Folding and Conformational Changes in Biological Structures -- 10. FRET-Based Cellular Sensing with Genetically Encoded Fluorescent Indicators -- PART III: FRET with Recently Developed Materials; 11. FRET with Fluorescent Proteins -- 12. Semiconductor Quantum Dots and FRET -- 13. Multistep FRET and Nanotechnology -- Part Four: Supporting Information and Conclusions; 14. Data -- 15. Outlook on FRET: The Future of Resonance Energy Transfer.

Online resource; title from digital title page (Wiley, viewed on October 31, 2013).

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