Overview
- Editors:
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Kim R. Rogers
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US-EPA, Las Vega
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Ashok Mulchandani
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University of California, Riverside
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Table of contents (15 protocols)
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Enzyme Biosensors
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- Kumaran Ramanathan, Masoud Khayyami, Bengt Danielson
Pages 19-29
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- Bo Liedberg, Knut Johansen
Pages 31-53
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- Marco Mascini, Maria Minunni, George G. Guilbault, Robert Carter
Pages 55-76
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- Randy M. Wadkins, Frances S. Ligler
Pages 77-87
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- Ralph Ballerstadt, Jerome S. Schultz
Pages 89-98
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- J. Rex Astles, W. Greg Miller, C. Michael Hanbury, F. Philip Anderson
Pages 99-119
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- Ursula Bilitewski, Frank Bier, Albrecht Brandenburg
Pages 121-134
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- Kim R. Rogers, Mohyee E. Eldefrawi
Pages 135-146
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Biosensor-Related Techniques
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Front Matter
Pages 147-147
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- Hanna Radecka, Yoshio Umezawa
Pages 149-160
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- Geert A. L. Besselink, Piet Bergveld
Pages 173-185
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- Matthew A. Roberts, Richard A. Durst
Pages 187-207
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- Masao Sugawara, Ayumi Hirano, Yoshio Umezawa
Pages 209-222
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- Amira T. Eldefrawi, Cheng J. Cao, Vania I. Cortes, Robert J. Mioduszewski, Darrel E. Menking, James J. Valdes
Pages 223-238
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Back Matter
Pages 239-249
About this book
The frequency of reports concemmg the interface of biological reco- tion elements to signal transduction technologies has risen dramatically over the last decade. Because any one of a wide variety of biological recognition elements (e. g. , antibodies, receptors, DNA, microorganisms, or enzymes) can theoretically be interfaced with any one of a wide variety of signal transducers (e. g. , optical, electrochemical, thermal, or acoustic), the potential range of devices and techniques can be bewildering. The purpose of this volume and the previous volume in this series is to provide a basic reference and startmg point for investigators in academics, mdustry, and government to begin or expand their biosensors research. This volume, Methods in Biotechnology vol. 7: Affinity Biosensors: Techniques and Protocols, describes a variety of classical and emerging transduction technologies that have been interfaced to bioaffinity elements (e. g. , antibodies and receptors). Some of the reasons for the expansion in the use of affinity-based biosensors include both advances in signal transduction technologies (e. g. , fiber optics, microelectromcs, and microfabrication) and the availability of bioafflmty elements. More specifically, with respect to biological recognttion elements, commercially and noncommercially produced antibodies directed toward a variety of analytes have become widely available. In addition, te- niques for the purification and stabilization of receptors have also significantly improved. As a result of these recent advances in the field, biosensors research and development projects are being pursued by mvestigators from a wide range of disciplines.
Reviews
"I enthusiastically recommend this book for anyone involved in the biosensor fields. . .allows one to quickly become knowledgeable in the field. . .very well written and organized, and it has a good index. The chapters are written by the noted experts who have developed each sensor type. . . an essential complement to its companion volume, which covers enzyme and microbial sensors."-John I. Peterson, NIH reviewing for Analytical Chemistry
Editors and Affiliations
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US-EPA, Las Vega
Kim R. Rogers
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University of California, Riverside
Ashok Mulchandani