6 edition of Electron paramagnetic resonance in biochemistry and medicine found in the catalog.
Includes bibliographical references and index.
|Statement||Rafik Galimzyanovich Saifutdinov ... [et al.].|
|Series||Topics in applied chemistry|
|Contributions||Saifutdinov, Rafik Galimzyanovich.|
|LC Classifications||QP519.9.E433 E436 2001|
|The Physical Object|
|Pagination||xiii, 268 p. :|
|Number of Pages||268|
|LC Control Number||00052738|
Electron Paramagnetic Resonance is a comprehensive text on the field of electron paramagnetic resonance, covering both the theoretical background and the results of experiment. This book is composed of eight chapters that cover theoretical materials and experimental data on ionic crystals, since these are the materials that have been most Book Edition: 1. School of Medicine. Biochemistry. Search. Submit Search. Academics. Undergraduate Programs; nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectroscopies, and protein chemistry. These studies will provide further insight into the biological pathways used for antibiotic synthesis, thus facilitating the design of.
Electron paramagnetic resonance (EPR) is the tool of choice to probe and understand the dynamics of electron spin. Recent achievements in both theory and instrumentation have made EPR central in order to study new interdisciplinary : Sylvain Bertaina, Hervé Vezin. Electron paramagnetic resonance (EPR) or electron spin resonance (ESR) spectroscopy is a method for studying materials with unpaired electrons. The basic concepts of EPR are analogous to those of nuclear magnetic resonance (NMR), but it is electron spins that are excited instead of the spins of atomic nuclei.
Figure 2: Orientation selection for nitroxide at X-band. (a) Molecular frame and simulated continuous-wave electron paramagnetic resonance (EPR) spectra along the principal axes. (b) Echo-detected EPR Cited by: 5. Electron Paramagnetic Resonance (EPR) or Electron Spin Resonance (ESR) spectroscopy is similar to Nuclear Magnetic Resonance (NMR) spectroscopy except electron spins are excited, instead of the spins of atomic nuclei. Therefore, EPR requires the presence of unpaired electrons.
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Electron Paramagnetic Resonance (EPR) spectroscopy - also sometimes termed Electron Spin Resonance spectroscopy - has manifold potential uses in biochemistry and medicine. The paramount importance of EPR spectroscopy applied to biological tissues and fluids is that it identifies the changes in redox processes that contribute to disease.
Download the eBook Electron Paramagnetic Resonance in Biochemistry and Medicine - R. Saifutdinov in PDF or EPUB format and read it directly on.
Electron Paramagnetic Resonance in Biochemistry and Biophysics Michael K. Bowman Department of Chemistry, University of Alabama, Tuscaloosa, AL ‐, USAAuthor: Michael K.
Bowman, Donatella Carbonera. Summary: Electron Paramagnetic Resonance (EPR) spectroscopy - also sometimes termed Electron Spin Resonance spectroscopy - has manifold potential uses in biochemistry and medicine. The first part presents basic fundamentals and advantages of electron paramagnetic resonance spectrscopy.
The second part explores severalapplication areas including chemistry, biology, medicine, materials and geology. A frequently-asked-questions sections focuses on practicalquestions, such as the size of sample, etc.
Summary: Electron Paramagnetic Resonance (EPR) spectroscopy - also sometimes termed Electron Spin Resonance spectroscopy - has manifold potential uses in biochemistry and medicine. The paramount importance of EPR spectroscopy applied to biological tissues and fluids is that it identifies the changes in redox processes that contribute to disease.
In book: EPR in the 21st Century, pp October Cell Biochemistry and New possibilities of applying high-frequency electron paramagnetic resonance in medicine are demonstrated. Introduction Electron paramagnetic resonance* (EPR) is a method for studying unpaired electrons.
In matter generally the large majority of electrons are paired. Unpaired electrons occur, however, and are present mainly in organic free radicals and in compounds of transition metal ions in their paramagnetic oxidation by: 5.
Electron Paramagnetic Resonance: A Practitioner's Toolkit serves as a practical guide that enables you to navigate through and make sense of the complex maze of electron paramagnetic resonance (EPR) spectroscopy fundamentals, techniques, and applications.5/5(1).
COVID campus closures: see options for getting or retaining Remote Access to subscribed content. Although originally invented and employed by physicists, electron paramagnetic resonance (EPR) spectroscopy has proven to be a very efficient technique for studying a wide range of phenomena in many fields, such as chemistry, biochemistry, geology, archaeology, medicine, biotechnology, and environmental : Patrick Bertrand.
ISBN ; Free shipping for individuals worldwide; Immediate ebook access* with your print order; Usually dispatched within 3 to 5 business days. Chapter Electron Paramagnetic Resonance in Biochemistry and Biophysics (Michael K.
Bowman and Donatella Carbonera). Introduction. Experimental Considerations. Dynamics. Saturation Transfer. Two-Dimensional Pulsed EPR.
Protein Topology and SDSL. Surface Potentials/Accessibility and SDSL. Oximetry. Cite this chapter as: () Electron Paramagnetic Resonance (EPR): Theory and Method. In: Electron Paramagnetic Resonance in Biochemistry and Medicine.
The manuscript „Electron Paramagnetic Resonance as a Tool for Studying Membrane Proteins“ by Sahu & Lorigan is a brief review of EPR spectroscopy as a tool to study membrane proteins. The topic of the review is interesting but there are some major flaws that need to be addressed before the manuscript can be accepted for publication.
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Imprint Routledge. Back to book. chapter 8. 44 Pages. Electron Paramagnetic Resonance. This book provides an introduction to the underlying theory, fundamentals, and applications of EPR spectroscopy, as well as new developments in the area.
Knowledge of the topics presented will allow the reader to interpret of a wide range of EPR spectra, as well as help them to apply EPR techniques to problem solving in a wide range of areas: organic, inorganic.
Electron paramagnetic resonance (EPR) spectroscopy is a very powerful biophysical tool that can provide valuable structural and dynamic information about a wide variety of biological systems. The intent of this review is to provide a general overview for biochemists and biological researchers of the most commonly used EPR methods and how these Cited by: of Medicine) for articles published between andthat contain a combination of the term ‘bio - chemistry’ and a specific phrase or term: ‘free radi - cal’, ‘antioxidant’, ‘oxidative stress’, ‘redox signaling’, or ‘electron paramagnetic resonance’ (or its synonym ‘electron spin resonance’).
Obviously, there. Electron paramagnetic resonance of nitrosylprotoheme dimethyl ester complexes with imidazole derivatives as model systems for nitrosylhemoproteins.
Archives of Biochemistry and Biophysics(2), DOI: /(79) GRAHAM PALMER. Electron Paramagnetic Resonance of Hemoproteins. CHAPTER 3 ELECTRON PARAMAGNETIC RESONANCE SPECTROSCOPY 1Sergei A. Dikanov and 2Antony R.
Crofts 1Department of Veterinary Clinical Medicine and 2Department of Biochemistry, University of Illinois at Urbana–Champaign, Urbana ILUSA INTRODUCTION This chapter is devoted to magnetic resonance spectroscopy for theCited by: 2.Electron Paramagnetic Resonance: A Practitioner's Toolkit serves as a practical guide that enables you to navigate through and make sense of the complex maze of electron paramagnetic resonance (EPR) spectroscopy fundamentals, techniques, and applications.
Foreword. Preface. Contributors. PART I: Principles. Chapter 1: Introduction to Electron Paramagnetic Resonance (Carlo Corvaja). Chapter Summary. EPR Spectrum: What Is It?
The Electron Spin. Electron Spin in a Magnetic Field (Zeeman Effect). Effects of Electromagnetic Fields. Macroscopic Collection of Electron Spins.
Observation of Magnetic Resonance. Electron.