NMR in Molecular Biology provides an introduction to the basic concepts and principles of nuclear magnetic resonance (NMR) that are essential to a critical evaluation of experimental data. It also aims to acquaint readers in some detail with those prototype experiments in which a definite, biologically relevant answer has been obtained. The book opens with a chapter on the historical development of NMR technology. Separate chapters follow on the fundamental principles of NMR; paramagnetic perturbations of NMR spectra; time scales, chemical exchange, and problems of exchange; and characteristics of NMR spectra through investigations of compounds such as amino acids and peptides; and nucleic acid bases, nucleosides, and nucleotides. Subsequent chapters deal with protein NRM spectra, protein-ligand interactions, and the structure and dynamics of membranes. This book is intended for the student or practicing scientist wishing to gain a critical understanding of the applications of NMR to a wide range of problems in molecular biology.

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Yes, you can access NMR in Molecular Biology by Oleg Jardetzky,G. C. K. Roberts, Bernard Horecker,Nathan O. Kaplan,Julius Marmur in PDF and/or ePUB format, as well as other popular books in Biological Sciences & Biology. We have over one million books available in our catalogue for you to explore.

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Index

Front Cover
NMR in Molecular Biology
Copyright Page
Table of Contents
Preface
Acknowledgments
Chapter I. Introduction Text
Chapter II. Fundamental Principles
Chapter III. Paramagnetic Perturbations of NMR Spectra
Chapter IV. Time-Dependent Phenomena and Problems of Averaging
Chapter V. Amino Acids and Peptides
Chapter VI. Nucleic Acid Bases, Nucleosides, and Nucleotides
Chapter VII. Introduction to Protein NMR Spectra: General Features and Methodology
Chapter VIII. Solution Structure and Conformational Transitions in Proteins
Chapter IX. Protein—Ligand Interactions Part I
Chapter X. Protein-Ligand Interactions Part II
Chapter XI. Enzyme Mechanisms
Chapter XII. Protein Dynamics
Chapter XIII. Nucleic Acids and Nucleic Acid-Protein Interactions
Chapter XIV. Structure and Dynamics of Membranes
Appendix I. Definition of Symbols
Appendix II. Vector, Tensor, and Matrix Notation
References
Author Index
Subject Index

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