Nuclear magnetic resonance
Author(s)
Bibliographic Information
Nuclear magnetic resonance
(Methods in enzymology / editors in chief, Sidney P. Colowick, Nathan O. Kaplan, v. 239)
Academic Press, c1994
- pt. C
Available at 87 libraries
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Note
Includes bibliographies and indexes
Description and Table of Contents
Description
Nuclear Magnetic Resonance Spectroscopy is the only "tool" available for the determination of high-resolution biological molecule structure in solution. This volume includes methods for expeditiously analyzing the vast amount of data produced by the new 3D and 4D NMR techniques and for generating structures from the data and for assessing the quality of those structures. Application to various classes of important proteins and protein-ligand complexes illustrate uses of the methodology presented. Examination of techniques to explore the dynamic nature of proteins complete the volume.
Table of Contents
Techniques: A. Experimentation:A.S. Edison, F. Abildgaard, W.M. Westler, E.S. Mooberry, and J.L. Markley, Practical Introduction to Theory and Implementation of Multinuclear, Multidimensional Nuclear Magnetic Resonance Experiments.G.W. Vuister, S. Grzesiek, F. Delaglio, A.C. Wang, R. Tschudin, G. Zhu, and A. Bax, Measurement of Homo- and Heteronuclear J Couplings from Quantitative J Correlation.S.I. Macura, W.M. Westler, and J.L. Markley, Two-Dimensional Exchange Spectroscopy of Proteins.J. Keeler, R.T. Clowes, A.L. Davis, and E.D. Laue, Pulsed-Field Gradients: Theory and Practice.L. Emsley, Selective Pulses and Their Applications to Assignment and Structure Determination in Nuclear Magnetic Resonance.E.S. Mooberry, F. Abildgaard, and J.L. Markley, Modifications of Older Model Nuclear Magnetic Resonance Console for Collection of Multinuclear, Multidimensional Spectral Data.B. Data Processing:P.N. Borer and G.C. Levy, Using Maximum Likelihood Spectral Deconvolution in Multidimensional Nuclear Magnetic Resonance.M. Kjaer, K.V. Andersen, and F.M. Poulsen, Automated and Semiautomated Analysis of Homo- and Heteronuclear Multidimensional Nuclear Magnetic Resonance Spectra of Proteins: The Program Pronto.H. Oschkinat and D. Croft, Automated Assignment of Multidimensional Nuclear Magnetic Resonance Spectra.J.J. Led and H. Gesmar, Quantitative Information from Complicated Nuclear Magnetic Resonance Spectra of Biological Macromolecules.Protein Structure: A. General:G.M. Clore and A.M. Gronenborn, Multidimensional Heteronuclear Nuclear Magnetic Resonance of Proteins.D.S. Wishart and B.D. Sykes, Chemical Shifts as a Tool for Structure Determination.D.A. Case, H.J. Dyson, and P.E. Wright, Use of Chemical Shifts and Coupling Constants in Nuclear Magnetic Resonance Structural Studies on Peptides and Proteins.T.L. James, Assessment of Quality of Derived Macromolecular Structures.B. Classes of Proteins:Y. Arata, K. Kato, H. Takahashi, and I. Shimada, Nuclear Magnetic Resonance Study of Antibodies: A Multinuclear Approach.P.N. Barlow and I.D. Campbell, Strategy for Studying Modular Proteins: Application to Complement Modules.L. Bancil, I. Bertini, and C. Luchinat, Two-Dimensional Nuclear Magnetic Resonance Spectra of Paramagnetic Systems.G.D. Henry and B.D. Sykes, Methods to Study Membrane Protein Structure in Solution.S.J. Opella, Y. Kim, and P. McDonnell, Experimental Nuclear Magnetic Resonance Studies of Membrane Proteins.Dynamics and Disorder:J.W. Peng and G. Wagner, Investigation of Protein Motions via Relaxation Measurements.A.N. Lane and J.-F. Lefovre, Nuclear Magnetic Resonance Measurements of Slow Conformational Dynamics in Macromolecules.W.F. van Gunsteren, R.M. Brunne, P. Gros, R.C. van Schaik, C.A. Schiffer, and A.E. Torda, Accounting for Molecular Mobility in Structure Determination Based on Nuclear Magnetic Resonance Spectroscopic and X-Ray Diffraction Data.Protein-Ligand Interactions:L.Y. Lian, I.L. Barsukov, M.J. Sutcliffe, K.H. Sze, and G.C.K. Roberts, Protein-Ligand Interactions: Exchange Processes and Determination of Ligand Conformation and Protein-Ligand Contacts.A.J. Wand and J.H. Short, Nuclear Magnetic Resonance Studies of Protein-Peptide Complexes.A.M. Petros and S.W. Fesik, Nuclear Magnetic Resonance Methods for Studying Protein-Ligand Complexes.D.E. Wemmer and P.G. Williams, Use of Nuclear Magnetic Resonance in Probing Ligand-Macromolecule Interactions.Author Index.Subject Index.
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