Biological Applications of Magnetic Resonance

Author: Shulman   R  

Publisher: Elsevier Science‎

Publication year: 2012

E-ISBN: 9780323144797

P-ISBN(Paperback): 9780126407501

P-ISBN(Hardback):  9780126407501

Subject: Q50 general problems

Language: ENG

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Description

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.

Chapter

Front Cover

pp.:  1 – 4

Biological Applications of Magnetic Resonance

pp.:  4 – 5

Copyright Page

pp.:  5 – 6

Table of contents

pp.:  6 – 8

CONTRIBUTORS

pp.:  8 – 10

CHAPTER 1. HYDROGEN-BONDED PROTON EXCHANGE AND ITS EFFECT ON NMR SPECTRA OF NUCLEIC ACIDS

pp.:  10 – 54

CHAPTER 2. ELUCIDATION OF NUCLEIC ACID STRUCTURE BY PROTON NMR

pp.:  54 – 122

CHAPTER 3. NUCLEAR MAGNETIC RESONANCE STUDIES OF DRUG-NUCLEIC ACID COMPLEXES

pp.:  122 – 186

CHAPTER 4. NUCLEAR OVERHAUSER EFFECTS ON PROTONS, AND THEIR USE IN THE INVESTIGATION OF STRUCTURES OF BIOMOLECULES

pp.:  186 – 230

CHAPTER 5. PULSED EPR STUDIES OF METALLOPROTEINS

pp.:  230 – 280

CHAPTER 6. AN ANTIBODY BINDING SITE: A COMBINED MAGNETIC RESONANCE AND CRYSTALLOGRAPHIC APPROACH

pp.:  280 – 314

CHAPTER 7. MODEL COMPOUNDS AS AIDS IN INTERPRETING NMR SPECTRA OF HEMOPROTEINS

pp.:  314 – 354

CHAPTER 8. MULTINUCLEAR NMR APPROACHES TO THE SOLUTION STRUCTURE OF ALKALINE PHOSPHATASE: 13C,19F, 31P, AND 113Cd NMR

pp.:  354 – 406

CHAPTER 9. CATALYTIC GROUPS OF SERINE PROTEINASES NMR INVESTIGATIONS

pp.:  406 – 472

CHAPTER 10. 31p NMR IN LIVING TISSUE: THE ROAD FROM A PROMISING TO AN IMPORTANT TOOL IN BIOLOGY

pp.:  472 – 546

CHAPTER 11. HIGH-RESOLUTION 31p AND 13C NUCLEAR MAGNETIC RESONANCE STUDIES OF ESCHERICHIA COLI CELLS in vivo

pp.:  546 – 600

SUBJECT INDEX

pp.:  600 – 605

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