Protein NMR Spectroscopy/ priciples and practice Cavanagh, John...[et al.].

Front cover; Title page; Copyright page; Preface; Preface to the First Edition; Acknowledgements; Table of Contents; 1 Classical NMR Spectroscopy; 1.1 Nuclear Magnetism; 1.2 The Bloch Equations; 1.3 The One-Pulse NMR Experiment; 1.4 Linewidth; 1.5 Chemical Shift; 1.6 Scalar Coupling and Limitations of the Bloch Equations; References; 2 Theoretical Description of NMR Spectroscopy; 2.1 Postulates of Quantum Mechanics; 2.2 The Density Matrix; 2.3 Pulses and Rotation Operators; 2.4 Quantum Mechanical NMR Spectroscopy; 2.5 Quantum Mechanics of Multispin Systems; 2.6 Coherence. 2.7 Product Operator Formalism2.8 Averaging of the Spin Hamiltonians and Residual Interactions; References; 3 Experimental Aspects of NMR Spectroscopy; 3.1 NMR Instrumentation; 3.2 Data Acquisition; 3.3 Data Processing; 3.4 Pulse Techniques; 3.5 Spin Decoupling; 3.6 B0 Field Gradients; 3.7 Water Suppression Techniques; 3.8 One-Dimensional 1H NMR Spectroscopy; References; 4 Multidimensional NMR Spectroscopy; 4.1 Two-Dimensional NMR Spectroscopy; 4.2 Coherence Transfer and Mixing; 4.3 Coherence Selection, Phase Cycling, and Field Gradients; 4.4 Resolution and Sensitivity. 4.5 Three- and Four-Dimensional NMR SpectroscopyReferences; 5 Relaxation and Dynamic Processes; 5.1 Introduction and Survey of Theoretical Approaches; 5.2 The Master Equation; 5.3 Spectral Density Functions; 5.4 Relaxation Mechanisms; 5.5 Nuclear Overhauser Effect; 5.6 Chemical Exchange Effects in NMR Spectroscopy; References; 6 Experimental 1H NMR Methods; 6.1 Assessment of the 1D 1H Spectrum; 6.2 COSY-Type Experiments; 6.3 Multiple-Quantum Filtered COSY; 6.4 Multiple-Quantum Spectroscopy; 6.5 TOCSY; 6.6 Cross-Relaxation NMR Experiments; 6.7 1H 3D Experiments; References. 7 Heteronuclear NMR Experiments7.1 Heteronuclear Correlation NMR Spectroscopy; 7.2 Heteronuclear-Edited NMR Spectroscopy; 7.3 13C-13C Correlations: The HCCH-COSY and HCCH-TOCSY Experiments; 7.4 3D Triple-Resonance Experiments; 7.5 Measurement of Scalar Coupling Constants; 7.6 Measurement of Residual Dipolar Coupling Constants; References; 8 Experimental NMR Relaxation Methods; 8.1 Pulse Sequences and Experimental Methods; 8.2 Picosecond-Nanosecond Dynamics; 8.3 Microsecond-Second Dynamics; References; 9 Larger Proteins and Molecular Interactions; 9.1 Larger Proteins. 9.2 Intermolecular Interactions9.3 Methods for Rapid Data Acquisition; References; 10 Sequential Assignment, Structure Determination, and Other Applications; 10.1 Resonance Assignment Strategies; 10.2 Three-Dimensional Solution Structures; 10.3 Conclusion; References; Table of Symbols; List of Figures; List of Tables; Suggested Reading; Biomolecular NMR Spectroscopy; NMR Spectroscopy; Quantum Mechanics; Index; Spin-1/2 Product Operator Equations; Table of Constants.