Overview
- Editors:
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Lawrence J. Berliner
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Ohio State University, Columbus, USA
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Jacques Reuben
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University of Houston, Houston, USA
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Table of contents (5 chapters)
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- Thomas D. Smith, John R. Pilbrow
Pages 85-168
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- Leonid B. Volodarsky, Igor A. Grigor’ev, Renad Z. Sagdeev
Pages 169-241
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- Roxanne Deslauriers, Ian C. P. Smith
Pages 243-344
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Back Matter
Pages 345-351
About this book
We are pleased to present this second volume of a series that has already received much interest. The application of magnetic resonance methods to the study of actual biological systems as contrasted to cell-free samples, although not entirely novel, as demonstrated by Civan and Shporer in Volume I, has taken on new dimensions with the use of phosphorus-31 and carbon-13 NMR in studying cells, tissues, and organelles. The applications of 31 P NMR to such systems is reviewed in this volume, while carbon-13 will be covered in a later one. The use of nitroxide spin labels has grown to the point where it now may be considered a common biological technique. The synthesis and applications of a new class of nitroxides is described in this volume. ESR spectroscopy of paramagnetic ions is a powerful approach to studying molecular and structural details, as the chapter by Boas, Pilbrow, and Smith on the ESR of copper in Volume 1 has shown. In this volume the ESR of molybdenum and iron is treated in a comparable fashion. In the first volume some aspects of 1 H NMR spectroscopy of certain classes of In this volume the high-resolu biological macromolecules were discussed.· tion multinuclear NMR spectra of peptides, including the physiologically significant peptide hormones, are reviewed.
Editors and Affiliations
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Ohio State University, Columbus, USA
Lawrence J. Berliner
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University of Houston, Houston, USA
Jacques Reuben