Chemokines, Part B

Other | May 26, 2009

byTracy Handel, Tracy Handel, Damon Hamel

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The understanding of chemokines, the proteins that control the migration of cells, and their receptors, is critical to the study of causes and therapies for a wide range of human diseases and infections, including certain types of cancer, inflammatory diseases, HIV, and malaria. This volume, focusing on chemokine structure and function, as well as signaling, and its companion volume (Methods in Enzymologyvolume 461, focusing on chemokines as potential targets for disease intervention) provide a comprehensive overview and time-tested protocols in this field, making it an essential reference for researchers in the area.

Along with its companion volume, provides a comprehensive overview of chemokine methods, specifically as related to potential disease therapy

Gathers tried, tested, and trusted methods and techniques from top players in chemokine research

Provides an essential reference for researchers in the field

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The understanding of chemokines, the proteins that control the migration of cells, and their receptors, is critical to the study of causes and therapies for a wide range of human diseases and infections, including certain types of cancer, inflammatory diseases, HIV, and malaria. This volume, focusing on chemokine structure and function...

Format:OtherDimensions:350 pages, 1 × 1 × 1 inPublished:May 26, 2009Publisher:Academic PressLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0080956963

ISBN - 13:9780080956961

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Table of Contents

STRUCTURE AND FUNCTION
1. A Novel Chemokine-mediated In Vivo T Cell Recruitment Assay for Structure Function Studies
(Andrew D. Luster and Gabriele Campanella)
2. Tyrosine sulfation of HIV-1 coreceptors and other chemokine-binding receptors (Micheal R. Farzan)
3. Lymphotactin Structural Dynamics (Brian F. Volkman)
4. Regulation of chemokines by posttranslational modifications (Paul Proost )
5. Proteolytic Processing of Chemokines: Mass Spectrometry, Biochemistry, Neoepitope Antibody and Functional Characterization (Christopher Overall and Amanda Starr)
6. Multiple approaches to study Chemokine Receptor Homo and Heterodimerization (Mario Mellado)
7. Heterodimerization of Chemokine Receptors with Other GPCRs (Graeme Milligan and Shirley Appelbe)
8. Homo and Hetero-Oligomerization of Chemokines (Tracy Handel, Damon Hamel, Ariane Jansma)
9. Interactions of Chemokine with Glycosaminoglycans (Amanda Proudfoot)
10. Interactions of Chemokine with Glycosaminoglycans (Andreas J. Kungl)
11. Structures of Chemokine:Chemokine Binding Protein Complexes (Daved Fremont)
12. Activation Mechanisms of Chemokine Receptors (Mette Rosenkilde)
13. Modeling Small Molecule Compound Binding to Receptors (Richard Horuk, James Pease, N. Vaidehi)
14. Spectroscopic Approaches to Study Conformational Changes in GPCRs (David Farrens)
15. Plasmon Resonance Methods in GPCR Signaling (Victor Hruby, Isabel Alves, Gordon Tollin)
16. Flow Cytometric Analyses of GPCR Interactions or Rapid-mix flow cytometry measurements of subsecond regulation of G protein-coupled receptor ternary complex dynamics (Larry Sklar)
17. Expression and Functional Reconstitution of CCR1 (Tracy Handel and Samantha Allen, Damon Hamel)
18. Characterization of the Interactions of Chemokines with Glycosaminoglycans by Fourier Transform Ion Cyclotron Resonance (Julie A. Leary)
CHEMOKINE FUNCTION IN CELL MIGRATION
19. In vitro assays for studying chemokine-triggered lymphocyte transendothelial migration under physiological flow conditions (Ronen Alon and Francis Lin)
20. Microfluidic device (Eugene Butcher)
21. Two-photon imaging and quantitative analysis of leukocyte migration in vivo (Mark Miller and Jenna Cash)
22. Zymosan induced peritonitis as a model for studying chemokines and inflammatory mediators in vivo (David Greaves)