High Resolution EPR

Applications to Metalloenzymes and Metals in Medicine
Buch | Hardcover
666 Seiten
2009
Springer-Verlag New York Inc.
978-0-387-84855-6 (ISBN)

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This volume was conceived in 2005 at the Rocky Mountain Conference on Analytical Chemistry (EPR Symposium). It highlights the importance of high-resolution EPR spectroscopy to the structural characterization of redox active cofactors in metalloproteins.
Metalloproteins comprise approximately 30% of all known proteins, and are involved in a variety of biologically important processes, including oxygen transport, biosynthesis, electron transfer, biodegradation, drug metabolism, proteolysis, and hydrolysis of amides and esters, environmental sulfur and nitrogen cycles, and disease mechanisms. EPR spectroscopy has an important role in not only the geometric structural characterization of the redox cofactors in metalloproteins but also their electronic structure, as this is crucial for their reactivity. The advent of x-ray crystallographic snapshots of the active site redox cofactors in metalloenzymes in conjunction with high-resolution EPR spectroscopy has provided detailed structural insights into their catalytic mechanisms.

This volume was conceived in 2005 at the Rocky Mountain Conference on Analytical Chemistry (EPR Symposium) to highlight the importance of high-resolution EPR spectroscopy to the structural (geometric and electronic) characterization of redox active cofactors in metalloproteins. We have been fortunate to have enlisted internationally recognized experts in this joint venture to provide the scientific community with an overview of high-resolution EPR and its application to metals in biology. This volume, High-Resolution EPR: Applications to Metalloenzymes and Metals in Medicine, covers high-resolution EPR methods, iron proteins, nickel and copper enzymes, and metals in medicine. An eloquent synopsis of each chapter is provided by John Pilbrow in the Introduction. A second volume, Metals in Biology: Applications of High-Resolution EPR to Metalloenzymes, will appear later this year covering the complement of other metalloproteins.

One of the pioneers in the development of pulsed EPR and its application to metalloproteins was Arthur Schweiger, whose contribution we include in this volume. Unfortunately, he passed away suddenly during the preparation of this volume. The editors andcoauthors are extremely honored to dedicate this volume to the memory of Arthur Schweiger in recognition of his technical advances and insights into pulsed EPR and its application to metalloproteins. Arthur was extremely humble and treated everyone with equal respect. He was a gifted educator with an ability to explain complex phenomena in terms of simple intuitive pictures, had a delightful personality, and continues to be sadly missed by the community.

It is an honor for the editors to facilitate the dissemination of these excellent contributions to the scientific community. Suggestions for future volumes are always appreciated.

Prof. Graeme Hanson, located in the Centre for Magnetic Resonance at the University of Queensland, has applied a unique synergistic approach involving both theoretical and experimental aspects of multifrequency continuous wave and pulsed EPR spectroscopy to structurally (geometric and electronic) characterise the metal binding sites in metalloenzymes and transition metal ion complexes. The development and commercialisation of the XSophe-Sophe-XeprView (CW EPR) and Molecular Sophe(CW EPR, Pulsed EPR and ENDOR) computer simulation software suites has been crucial in the characterisation of these biological inorganic systems.   Dr. Lawrence J. Berliner is currently at the Department of Chemistry and Biochemistry, University of Denver, where he was Professor and Chair for the past 8 years. He retired from The Ohio State University, where he spent a 32-year career in the area of biological magnetic resonance (EPR and NMR). He has been recognized by the International EPR Society with the Silver Medal for Biology/Medicine in 2000. He also received the Lifetime Achievement Award in Biological EPR Spectroscopy at EPR-2005. He is the Series Editor for Biological Magnetic Resonance, which he launched in 1979.

HIGH-RESOLUTION EPR METHODS.- Advanced Pulse EPR Methods for the Characterization of Metalloproteins.- Probing Structural and Electronic Parameters in Randomly Oriented Metalloproteins by Orientation-Selective ENDOR Spectroscopy.- Molecular Sophe: An Integrated Approach to the Structural Characterization of Metalloproteins: The Next Generation of Computer Simulation Software.- Spin-Hamiltonian Parameters from First Principle Calculations: Theory and Application.- IRON PROTEINS.- EPR of Mononuclear Non-Heme Iron Proteins.- Binuclear Non-Heme Iron Enzymes.- Probing the Structure#x2013;Function Relationship of Heme Proteins Using Multifrequency Pulse EPR Techniques.- EPR Studies of the Chemical Dynamics of NO and Hemoglobin Interactions.- NICKEL AND COPPER ENZYMES.- EPR Investigation of [NiFe] Hydrogenases.- Unique Spectroscopic Features and Electronic Structures of Copper Proteins: Relation to Reactivity.- METALS IN MEDICINE.- Insulin-Enhancing Vanadium Pharmaceuticals: The Role of Electron Paramagnetic Resonance Methods in the Evaluation of Antidiabetic Potential.- Chromium in Cancer and Dietary Supplements.- High-Frequency EPR and ENDOR Characterization of MRI Contrast Agents.

Erscheint lt. Verlag 29.6.2009
Reihe/Serie Biological Magnetic Resonance ; 28
Zusatzinfo XXV, 666 p.
Verlagsort New York, NY
Sprache englisch
Maße 155 x 235 mm
Themenwelt Medizin / Pharmazie Physiotherapie / Ergotherapie Orthopädie
Medizin / Pharmazie Studium
Technik Maschinenbau
Technik Medizintechnik
ISBN-10 0-387-84855-X / 038784855X
ISBN-13 978-0-387-84855-6 / 9780387848556
Zustand Neuware
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