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A genealogical record of the descendants of Christian and Hans Meyer
And other pioneers together with historical and biographical sketches, illustrated with eighty-seven portraits and other illustrations.
Biological Magnetic Resonance
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 two chapters to the volume: one, with Jiejun Wu, describes magnetic resonance studies of 5S-RNA as probes of its structure and conformation; the secon
Biological Applications of Magnetic Resonance
Biological Applications of Magnetic Resonance discusses various applications of magnetic resonance techniques. The book's opening chapter examines the exchange behavior of the hydrogen-bonded protons and its influence on their nuclear magnetic resonance (NMR) spectra. This is followed by separate chapters dealing with NMR studies of nucleic acid and drug-nucleic acid complexes. Aspects of the basic theory of the nuclear Overhauser effect (NOE) are presented, along with applications of NOEs observed for protons in biomolecules. Subsequent chapters cover specialized EPR techniques that have been applied to biological problems; the use of physical methods to refine a model of the combing site of the Fv fragment of protein 315; and the utility of model compounds in the analysis of hemoprotein NMR spectra. The remaining chapters discuss serine proteinases that have been investigated by nuclear magnetic resonance spectroscopy; the use of NMR in the study of intact living tissue and organs; and 31P and 13C NMR studies of E. coli cells.
Research Grants
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Protein Dynamics, Function, and Design
This volume is a collection of articles from the proceedings of the International School of Structural Biology and Magnetic Resonance 3rd Course: Protein Dynamics, Function, and Design. This NATO Advance Study Institute was held in Erice at the Ettore Majorana Centre for Scientific Culture on April 16-28, 1997. The aim of the Institute was to bring together experts applyipg different physical methods to problems of macro molecular dynamics-notably x-ray diffraction, NMR and other forms of spectroscopy, and molecular dynamics simulations. Emphasis was placed on those systems and types of problems-such as mechanisms of allosteric control, signal transmission, induced fit to different ligands w...
