Free Radical and Antioxidant Protocols (Methods in Molecular Biology)

Free Radical and Antioxidant Protocols (Methods in Molecular Biology) image
ISBN-10:

1617370495

ISBN-13:

9781617370496

Author(s): Donald Armstrong
Edition: 1st Edition. Softcover version of original hardcover edition 199
Released: Jan 01, 2010
Publisher: Springer
Format: Paperback, 480 pages
to view more data

Description:

This volume presents an outstanding collection of state-of-the-art methodologies for quantifying free radical and antioxidant analytes in tissue and body fluids using experimental models and in vitro procedures. These user-friendly and easily reproducible techniques cover the essential tasks, including radical generating systems, direct measurement or trapping of reactive radical species and acute-phase proteins, and measurement of metabolic intermediates derived from the oxidation of lipids, proteins, and nucleic acids. There are also methods for the determination of vitamin, enzymatic, and water-soluble antioxidants, as well as of essential micronutrients and cofactors. The techniques take advantage of new instrumentation and technology-probes, photon counting, chemiluminescence, and caged compounds, with an emphasis on HPLC-and are adaptable to a wide range of applications. The laboratory-tested free-radical assays described here in detail will illuminate the study of both primary and secondary oxidative stress and contribute significantly to our understanding of the many disorders associated with this process.

Low Price Summary






Top Bookstores


























We're an Amazon Associate. We earn from qualifying purchases at Amazon and all stores listed here.

DISCLOSURE: We're an eBay Partner Network affiliate and we earn commissions from purchases you make on eBay via one of the links above.

Want a Better Price Offer?

Set a price alert and get notified when the book starts selling at your price.

Want to Report a Pricing Issue?

Let us know about the pricing issue you've noticed so that we can fix it.