A companion to Volume 12, this volume presents the advances in electron paramagnetic resonance of iron proteins, metalloproteins, and free radicals. It features a diskette containing programs for iron ERP spectral simulation and ENDOR analyses.

This volume is the first of a two-volume set devoted to the magnetic resonance of paramagnetic molecules. In seven contributed chapters, researchers at the forefronts of their fields address NMR methodology for paramagnetic proteins; nuclear relaxation in paramagnetic metalloproteins; paramagnetic r

We are pleased to present Volume 9 of our highly successful series, which now celebrates 12 years of providing the magnetic resonance community with topical, authoritative chapters on new aspects of biological magnetic resonance. As always, we try to present a diversity of topic coverage in each volume, ranging from applications of in vivo magnetic resonance to more fundamental aspects of electron spin resonance and nuclear magnetic resonance. Philip Yeagle presents an eagerly awaited chapter on 31p NMR studies of membranes and membrane protein interactions. Alan Marshall has con- tributed...

The first of a two volume set, Volume 12 provides a long-awaited compilation of NMR theory to paramagnetic molecules. International experts report the latest developments in NMR methodology as applied to strongly relaxed and shifted resonances, detail the theoretical aspects of paramagnetic shift and relaxation, and discuss the interpretive bases of these molecular properties in relation to the structure and function of various paramagnetic molecules.

We present this special topics volume on an area which has not received thorough coverage for over 12 years. Spin Labeling: Theory and Applications represents a complete update on new theoretical aspects and applications of the spin-label method. In the "line-shape theory" sections, we are especially pleased to include an IBM-compatible diskette supplied by David Schneider and Jack Freed which contains fast, accurate, ready-to-use software for slow-motion simulations. Barney Bales discusses inhomogeneous broadening phenomena in detail. Several developments in techniques and interpretation in...

We are again proud to present an excellent volume of contemporary topics in NMR and EPR to the biological community. The philosophy behind the volume and the presentation of each chapter remains at the high level reflected in our earlier volumes: to be current, pedagogical, and critical. The first chapters, as always, address a subject related to in-vivo biology. Gabby Elgavish addresses NMR spectroscopy of the intact heart. lain Campbell and colleagues present a state-of-the-art description of NMR methods for probing enzyme kinetics in intact cells and tissues. Klaus Mobius and Wolfgang...

In the past ten years or so, biological magnetic resonance (NMR and ESR) has fully blossomed and become highly branched. In the 1970s and earlier, a practitioner in biological magnetic resonance was using virtually all of the available methods suitable for his research, with the latter covering a diverse range of systems. Today, the focus of an individual laboratory is actually much narrower, with respect to both the methods and the systems investigated. Thus, those who investigate protein structure by multi- dimensional NMR spectroscopy do not usually engage in studies involving in vivo...

In vivo nuclear magnetic and electron spin resonance spectroscopy is concerned, inter alia, with the noninvasive observation of metabolic changes in living systems, including animals and humans. Typically, the physiologi- cal (or pathological) state of an organ or tissue is monitored. This multi- faceted approach was developed during the 1980s. It is still a research technique, but will undoubtedly become a clinical tool. We are proud to present this volume (the eleventh of our series) in which some of the pioneers in this area summarize their contributions and review related literature....

We are proud to present Volume 3 of Biological Magnetic Resonance, a series that has met with praise from the scientific community. This volume covers the new applications of various multiple irradia tion techniques to the NMR of biomolecules; the chapter of Keller and Wuthrich describes much of the technique and its applications to hemo proteins. The ESR of some hemoproteins in the single crystal is described by Chien and Dickinson, who also include discussions of techniques and methods for single-crystal ESR of paramagnetically intrinsic and spin labeled protein crystals. Mims and Peisach...

We take great pleasure in presenting Vol. IV of Biological Magnetic Resonance, a series that continues to give us pride. In this volume, we are pleased to have our first chapter on the applications of ESR to problems in medicine, written by Butterfield. Armitage and Otvos describe their extensive Cd-l13 NMR study in a chapter that should delight the spectroscopists as well as the biochemists, since the systems investigated have not yet been modeled. Kaptein presents an eloquent exposition of the principles and applications to biological systems of the photo-CIDNP technique, to which he has...