Moebius, K. & Savitsky, A.
High-Field EPR Spectroscopy on Proteins and their Model Systems
Characterization of Transient Paramagnetic States

Royal Society of Chemistry 2009.2
280 pp.(H)
ISBN 0-85404-368-3
　　　　　　　　　　　　　　　　　　　　　　　　　　　　17,700円

Contents
* Understanding the major factors determining the specificity of transmembrane transfer processes in proteins is currently a hot topic in molecular bio-science. Advanced electron paramagnetic resonance (EPR) at high magnetic fields is a powerful technique for characterizing the transient states of proteins in action on biologically relevant time scales.

* This book offers a comprehensive overview of experimental techniques in, and paradigmatic examples of, the application of high-field EPR spectroscopy in biology and chemistry. It focuses on the use of the technique in conjunction with site-specific mutation strategies and advanced quantum-chemical computation methods to reveal protein structure and dynamics. This yields new insights into biological processes at the atomic and molecular level.

* The theoretical and instrumental background of high-field EPR is described and examples of paradigmatic protein systems, such as photosynthesis, are discussed in the light of recent investigations. Aspects of structure-dynamics-function relations that are revealed by studying site-specific mutants are highlighted, thereby combining high-field EPR with genetic engineering techniques. The information obtained complements that obtained from protein crystallography, solid-state NMR, infrared and optical spectroscopy. *

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Yokoyama, H.
EPR Imaging and Its In Vivo Application

Nova Science Pub. 2009.4
106 pp. (H)
ISBN 1-60692-889-9
　　　　　　　　　　　　　　　　　　　　　　　　　　　　11,200円

Contents
1.Background/ 2.In vivo EPR spectrometer/ 3.Theory of EPR imaging/ 4.Instruments for EPR imaging/ 5.Image processing/ 6.In vivo applications of EPR imaging/ 7.RSID method/ Index/

* The main aim of performing in vivo EPR measurements is to estimate in vivo reducing ability that cannot be obtained by other measuring methods at present. In this book, before main chapters about EPR imaging, this aim and specifications of apparatuses for achieving this aim are stated as a background. After description of instrumental components of an in vivo spectrometer, a theory, instruments, data processing, and applications of EPR imaging are explained. In the chapters about instruments and data processing, their details are described so that one can build the apparatus and obtain data. *

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Kaim, W. & Klein, A. ed.
Spectroelectrochemistry

Royal Society of Chemistry 2008.9
248 pp.(H)
ISBN 0-85404-550-3
　　　　　　　　　　　　　　　　　　　　　　　　　　　　19,200円

Contents
1. Infrared Spectroelectrochemistry/ 2. UV-Vis Spectroelectrochemistry of Selected Iron-Containing Proteins/ 3. Mixed-Valence Intermediates as Ideal Targets for Spectroelectrochemistry (SEC)/ 4. Spectroelectrochemistry of Metalloporphyrins/ 5. Infrared Spectroelectrochemical Investigations of Ultrafast Electron Transfer in Mixed-Valence Complexes/ 6. Spectroelectrochemical Investigations on Carbon-Rich Organometallic Complexes/ 7. EPR Spectroelectrochemistry/ Subject Index/

* Electrochemistry affects several relevant research subjects of physics, chemistry and biology such as the transformation of materials, the transfer of information (especially in living systems), or the conversion and storage of energy. In addition, electrochemical processes constitute a major class of chemical reactions both in the laboratory and on large industrial scales. While conventional analytical electrochemistry provides excellent methods to determine concentrations (e.g. in sensor technology), to yield energy data in the form of redox potentials and to elucidate formal reaction mechanisms via kinetic analysis, these techniques alone are often not immediately suitable to identify unknown species which are formed as intermediates or as products in a redox reaction. *

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Gerloch, G.
Magnetism and Ligand-Field Analysis
磁性と配位子場解析

Cambridge University Press 2009.4
608 pp.(P)
ISBN 0-521-10915-9
　　　　　　　　　　　　　　　　　　　　　　　　　　　　12,600円

Contents
Part I: Chemical Aims in Ligand-Field Studies: 1. Decline and recovery/ Part II. Magnetism: 2. Electric and magnetic fields/ 3. The interaction of magnetic fields and matter/ 4. The susceptibility tensor/ 5. Experimental arrangements/ 6. The measurement of crystal susceptibilities/ 7. Quantum theory and magnetic susceptibilities/ Part III. Ligand-Field Theory: 8. Tensor-operator theory/ 9. The ligand field/ 10. Techniques for parametric models/ 11. The nature of ligand-field theory and of the angular overlap model/ Part IV. The synthesis: 12. Ligand-field analyses/ Index/

* In this book, originally published in 1983, a synthesis of old and new notions straddling the disciplines of physics and chemistry is described; and this provides a means of exploiting ligan-field properties of transition-metal and lathanide complexes leading to a quantified chemical insight into the individual metal-ligand interactions in these molecular species. Electronic spectroscopy and the ESR technique are well documented, but there has long been a need for a thorough description of magnetochemistry. A major section of this book therefore provides a details account of the physics and chemistry of paramagnetism. The second main section is concerned with those aspects of ligand-field theory that are required to construct the working composite defining ligand-field analysis. *

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Armstrong, D. ed.
Advanced Protocols in Oxidative Stress I

Humana Press 2008.
430 pp.(H)
ISBN 1-60327-218-6
　　　　　　　　　　　　　　　　　　　　　　　　　　　　10,800円

Contents
Part 1.Reactive Oxygen and Nitrogen Techniques/ Part 2.Antioxidant Technology and Application/ Part 3.Gene Expression/ Part 4.Stem Cells/ Part 5.Biostatistics/ Index/ *
694-9　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　登録日　09.07.19

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