
Nuclear Magnetic Resonance: Volume 31
Author(s): Cynthia J Jameson (Other Contributor)
- Publisher: Royal Society of Chemistry
- Publication Date: 29 April 2002
- Language: English
- Print length: 550 pages
- ISBN-10: 0854043373
- ISBN-13: 9780854043378
Book Description
For those wanting to become rapidly acquainted with specific areas of NMR, this title provides unrivalled scope of coverage.
Editorial Reviews
From the Inside Flap
From the Back Cover
Excerpt. © Reprinted by permission. All rights reserved.
Nuclear Magnetic Resonance Volume 31
A Review of the Literature Published Between June 2000 and May 2001
By G.A. Webb
The Royal Society of Chemistry
Copyright © 2002 The Royal Society of Chemistry
All rights reserved.
ISBN: 978-0-85404-337-8
Contents
Chapter 1 NMR Books and Reviews By W. Schilf, 1,
Chapter 2 Theoretical and Physical Aspects of Nuclear Shielding By C.J. Jameson and A.C. de Dios, 48,
Chapter 3 Applications of Nuclear Shielding By S. Ando and S. Kuroki, 79,
Chapter 4 Theoretical Aspects of Spin–Spin Couplings By H. Fukui and T. Baba, 122,
Chapter 5 Applications of Spin–Spin Couplings By K. Kamienska-Trela and J. Wójcik, 144,
Chapter 6 Nuclear Spin Relaxation in Liquids and Gases By R. Ludwig, 192,
Chapter 7 Solid-state NMR Spectroscopy A.E. Aliev and R.V. Law, 225,
Chapter 8 Multiple Pulse NMR By I. Barsukov, 289,
Chapter 9 NMR of Proteins and Nucleic Acids By S.J. Matthews, 312,
Chapter 10 NMR of Carbohydrates, Lipids and Membranes By E.F. Hounsell, 338,
Chapter 11 Synthetic Macromolecules By H. Kurosu and T. Yamanobe, 353,
Chapter 12 NMR in Living Systems By M.J.W. Prior, 388,
Chapter 13 Nuclear Magnetic Resonance Imaging By T. Watanabe, 428,
Chapter 14 Oriented Molecules By C.L. Khetrapal, G.A. Nagana Gowda and K.V. Ramanathan, 464,
CHAPTER 1
NMR Books and Reviews
BY W SCHILF
1 Books
R1 E. D. Backer, High Resolution NMR: Theory and Chemical Applications, Third Edition, Academic, San Diego, CA., 1999
R2 J. P. Hornak, The Basics of NMR, ed. J. P. Hornak, Rochester, N.Y., 1997, Available URL:http://www.cis.rit.edu/htbooks/nmr/
2 Regular Reviews Series
Accounts of Chemical Research vol. 33, 2000
R3 A. Badia, R. B. Lennox and L. Reven, ‘A Dynamic View of Self-Assembled Monolayers’, p. 475
R4 F. A. Cotton and D. G. Nocera, ‘The Whole Story of the Two-Electron Bond, with the 8 Bond as a Paradigm’, p. 483
R5 A. Bagno and G. Scorrano, ‘Selectivity in Proton Transfer, Hydrogen Bonding, and Solvation’, p. 609
vol. 34, 2001
R6 H. W. Roesky, M. G. Walawalkar and R. Murugavel, ‘Is Water a Friend or Foe in Organometallic Chemistry? The Case of Group 13 Organometallic Compounds’, p. 201
R7 V. J. Hruby, ‘Design in Topographical Space of Peptide and Peptidomimetic Ligands that Affect Behavior. A Chemist’s Glimpse at the Mind-Body Problem’, p. 389
Annual Reports on NMR Spectroscopy, ed. G. A. Webb, Academic Press Ltd., London vol. 41, 2000
R8 J. C. C. Chan and S. C. F. Au-Yeung, ‘Cobalt-59 NMR Spectroscopy’, p. 1
R9 R. H. Contreras, J. E. Peralta, C. G. Giribet, M. C. Ruiz De Azua and J. C. Facelli, ‘Advances in Theoretical and Physical Aspects of Spin-Spin Coupling Constants’, p. 55
R10 S. Dusold and A. Sebald, ‘Dipolar Recoupling under Magic-Angle-Spinning Conditions’, p. 185
R11 P. J. Barrie, ‘Characterization of Porous Media Using NMR Methods’, p. 265
vol. 42, 2000
R12 A. Lycka, ‘Multinuclear NMR of Azo Dyes and their Metal Complexes’, p. 1
R13 C. Ye, S. Ding and C. A. Mcdowell, ‘Recent Progress in Solid-State NMR’, p. 59
R14 D. J. Craik and M. J. Scanlon, ‘Pharmaceutical Applications of NMR’, p. 115
vol. 43, 200l
R15 M. J. Duer, ‘Solid-State NMR Studies of Molecular Motion’, p. 1
R16 J. Higinbotham and I. Marshall, ‘NMR Lineshapes and Lineshape Fitting Procedures’, p. 59
R17 M. E. Smith, ‘Recent Progress in Solid-State NMR of Low-γ Nuclei’, p. 121
Annual Reports on the Progress of Chemistry, Section B: Organic Chemistry, Royal Society of Chemistry, vol. 96, 2000
R18 C. Halkides and C. K. McClure, ‘NMR Spectroscopic Methods’ p. 497
Annual Reports on the Progress of Chemistry, Section C: Physical Chemistry, Royal Society of Chemistry, vol. 96, 2000
R19 W. S. Price, ‘NMR Gradient Methods in the Study of Proteins’, p. 3
Annual Review of Biochemistry vol. 69, 2000
R20 P. E. Dawson and S. B. H. Kent, ‘Synthesis of Native Proteins by Chemical Ligation’, p. 923
Annual Review of Biophysics and Biomolecular Structure, vol. 29, 2000
R21 W. A. Eaton, V. Munoz, S. J. Hagen, G. S. Jas, L. J. Lapidus, E. R. Henry and J. Hofrichter, ‘Fast Kinetics and Mechanisms in Protein Folding’, p. 327
Annual Review on Physical Chemistry, vol. 51, 2000
R22 S. Mukamel, ‘Multidimensional Femtosecond Correlation Spectroscopies of Electronic and Vibrational Excitations’, p. 69l
Biological Magnetic Resonance, vol. l5
In Vivo Carbon-13 NMR, ed. L. J. Berliner and P.-M. Robitaille, Kluwer Academic/Plenum Publ., New York, N.Y., l998
R23 M. R. Laughlin and J. K. Kelleher, ‘Tracer Theory and C NMR’, p. l
R24 E. D. Lewandowski, ‘Metabolic Flux and Subcellular Transport of Metabolites’, p. 117
R25 R. G. Weiss and G. Gerstenblith, ‘Assessing Cardiac Metabolic Rates During Pathologic Conditions with Dynamic 13C NMR Spectra’, p. 161
R26 G. F. Mason, ‘Applications of 13C Labeling to Studies of Human Brain Metabolism in Vivo’, p. 181
R27 P.-M. L. Robitaille, ‘In Vivo 13C NMR Spectroscopy: A Unique Approach in the Dynamic Analysis of Tricarboxylic Acid Cycle Flux and Substrate Selection’, p. 215
vol. 16
Modern Techniques in Protein NMR, ed. N. R. Krishna and L. J. Berliner, Kluwer Academic/Plenum Publ., New York, N.Y., 1998
R28 G. M. Clore and A. M. Gronenborn, ‘Determining Structures of Large Proteins and Protein Complexes by NMR’, p. 3
R29 K. H. Gardner and L. E. Kay, ‘Multidimensional 2H-Based NMR Methods for Resonance Assignment, Structure Determination, and the Study of Protein Dynamics’, p. 27
R30 B. T. Farmer II and R. A. Venters, ‘NMR of Perdeuterated Large Proteins’, p. 75
R31 F. M. Marassi, J. J. Gesell and S. J. Opella, ‘Recent Developments in Multidimensional NMR Methods for Structural Studies of Membrane Proteins’, p. 121
R32 E. Kupce, H. Matsuo and G. Wagner, ‘Homonuclear Decoupling in Proteins’, p. 149
R33 G. W. Vuister, M. Tessari, Y. Karimi-Nejad and B. Whitehead, ‘Pulse Sequences for Measuring Coupling Constants’, p. 195
R34 C. Griesinger, M. Hennig, J. P. Marino, B. Reif, C. Richter and H. Schwalbe, ‘Methods for the Determination of Torsion Angle Restraints in Biomacromolecules’, p. 259
vol. 17
Structure Computation and Dynamics in Protein NMR, ed. N. R. Krishna and L. J. Berliner, Kluwer Academic/Plenum Publishers, 1999
R35 Y. Xu, C. H. Schein and W. Braun, ‘Combined Automated Assignment of NMR Spectra and Calculation of Three-Dimensional Protein Structures’, p. 37
R36 G. T. Montelione, C. B. Rios, G. V. T. Swapna and D. E. Zimmerman, ‘NMR Pulse Sequences and Computational Approaches for Automated Analysis of Sequence-Specific Backbone Resonance Assignments of Proteins’, p. 81
R37 S. I. O’Donoghue and M. Nilges, ‘Calculation of Symmetric Oligomer Structures from NMR Data’, p. 131
R38 A. Mujeeb, N. B. Ulyanov, T. M. Billeci, S. Farr-Jones and T. L. James, ‘Conformational Ensemble Calculations: Analysis of Protein and Nucleic Acid NMR Data’, p. 201
R39 J. Engelke and H. Ruterjans, ‘Recent Developments in Studying the Dynamics of Protein Structures from 15N and 13C Relaxation Time Measurements’, p. 357
R40 B. Halle, V. P. Denisov and K. Venu, ‘Multinuclear Relaxation Dispersion Studies of Protein Hydration’, p. 419
Carbohydrate Chemistry, Royal Society of Chemistry, vol. 31, 2000
R41 Anonymous (U.K.), ‘NMR Spectroscopy and Conformational Features’, p. 312
R42 Anonymous (U.K.), ‘Other Physical Methods’, p. 322 vol. 32, 2001
R43 Anonymous (U.K.), ‘NMR Spectroscopy and Conformational Features’, p. 312
R44 Anonymous (U.K.), ‘Separatory and Analytical Methods’, p. 342
Chemical Reviews, vol. 100, 2000
R45 J. O. Duus, C. H. Gotfredsen and K. Bock, ‘Carbohydrate Structural Determination by NMR Spectroscopy: Modern Methods and Limitations’, p. 4589
vol. 101,2001
R46 R. H. Mitchell, ‘Measuring Aromaticity by NMR’, p. 1301
Coordination Chemistry Reviews, vol. 206–207, 2000
R47 D. S. Frohnapfel and J. L. Templeton, ‘Transition Metal p-Vinyl Complexes’, p. 199
R48 A. Bianchi, L. Calabi, F. Corana, S. Fontana, P. Losi, A. Maiocchi, L. Paleari and B. Valtancoli, ‘Thermodynamic and Structural Properties of Gd(III) Complexes with Polyamino-Polycarboxylic Ligands: Basic Compounds for the Development of MRI Contrast Agents’, p. 309
vol. 208, 2000
R49 H. Yersin and J. Strasser, ‘Triplets in Metal-Organic Compounds. Chemical Tunability of Relaxation Dynamics’, p. 331
vol. 209, 2000
R50 A. K. Singh and S. Sharma, ‘Recent Developments in the Ligand Chemistry of Tellurium’, p. 49
vol. 210, 2000
R51 A. Sekiguchi, V. Y. Lee and M. Nanjo, ‘Lithiosilanes and their Application to the Synthesis of Polysilane Dendrimers’, p. 11
R52 K. K. Lalli, ‘Nitro and Nitroso Transformations in Superacids’, p. 47
vol. 212, 2001
R53 T. W. Hambley and A. R. Jones, ‘Molecular Mechanics Modeling of Pt/Nucleotide and Pt/DNA Interactions’, p. 35
Current Drug Metabolism, vol. 1, 2000
R54 R. Martino, M. Malet-Martino and V. Gilard, ‘Fluorine Nuclear Magnetic Resonance, a Privileged Tool for Metabolic Studies of Fluoropyrimidine Drugs’, p. 271
Current Issues in Molecular Biology, vol. 2, 2000
R55 M. Auger, ‘Biological Membrane Structure by Solid-State NMR’, p. 119
Current Medical Chemistry, vol. 8, 2001
R56 X. Han and X. Gao, ‘Sequence Specific Recognition of Ligand-DNA Complexes Studied by NMR’, p. 551
Current Opinion on Biotechnology, vol. 11, 2000
R57 H. Weber and L. Brecker, ‘Online NMR for Monitoring Biocatalysed Reactions’, p. 572
Current Opinion on Chemistry and Biology, vol. 4, 2000
R58 R. Tycko, ‘Solid-State NMR as a Probe of Amyloid Fibril Structure’, p. 500
Current Opinion in Clinical Nutrition & Metabolic Care, vol. 2, 1999
R59 J.-L. Sebedio, S. Gnaedig and J.-M. Chardigny, ‘Recent Advances in Conjugated Linoleic Acid Research’, p. 499
Current Opinion in Colloid & Interface Science, vol. 5, 2000
R60 M. M. Robins, ‘Emulsions. Creaming Phenomena’, p. 265
Current Opinion in Drug Discovery & Development, vol. 3, 2000
R61 B. J. Stockman, ‘Flow NMR Spectroscopy in Drug Discovery’, p. 269
R62 A. Williams, ‘Recent Advances in NMR Prediction and Automated Structure Elucidation Software’, p. 298
R63 O. Brummer, B. Clapham and K. D. Janda, ‘Recent Developments and Applications of Polymer-Supported Reagents in Synthetic Organic Chemistry’, p. 462
Current Opinion on Plant Biology, vol. 3, 2000
R64 C. Giersch, ‘Mathematical Modeling of Metabolism’, p. 249
Current Opinion on Structural Biology, vol. 10, 2000
R65 D. A. Case, ‘Interpretation of Chemical Shifts and Coupling Constants in Macromolecules’, p. 197
R66 E. T. Mollova and A. Pardi, ‘NMR Solution Structure Determination of RNAs’, p. 298
R67 N. K. Goto and L. E. Kay, ‘New Developments in Isotope Labeling Strategies for Protein Solution NMR Spectroscopy’, p. 585
R68 H. J. M. De Groot, ‘Solid-State NMR Spectroscopy Applied to Membrane Proteins’, p. 593 vol. 11,2001
R69 C. E. Bell and M. Lewis, ‘The Lac Repressor: A Second Generation of Structural and Functional Studies’, p. 19
R70 J.-M. Perez-Canadillas and G. Varani, ‘Recent Advances in RNA Protein Recognition’, p. 53
Current Organic Chemistry, vol. 4, 2000
R71 H. U. Shetty and W. Huang, ‘Measurement of Myo-Inositol in Biological Systems by Mass Spectrometric and in Vivo H Magnetic Resonance Spectroscopic Techniques’, p. 1
R72 W.-C. Haase and P. H. Seeberger, ‘Recent Progress in Polymer-Sup ported Synthesis of Oligosaccharides and Carbohydrate Libraries’, p. 481
R73 S. Grivas, ‘2,1,3–Benzoselenadiazoles as Valuable Synthetic Intermediates’, p. 707
vol. 5, 2001
R74 R. Araya-Maturana, T. Delgado-Castro, W. Cardona and B. E. WeissLopez, ‘Use of Long-Range C-H (nJ n>3) Heteronuclear Multiple Bond Connectivity in the Assignment of 13C NMR Spectra of Complex Organic Molecules’, p. 253
R75 T. Dziembowska and Z. Rozwadowski, ‘Application of the Deuterium Isotope Effect on NMR Chemical Shift to Study Proton Transfer Equilibrium’, p. 289
R76 N. P. Sahu and B. Achari, ‘Advances in Structural Determination of Saponins and Terpenoid Glycosides’, p. 315
R77 M. Liu and J. C. Lindon, ‘Recent Advances in Editing and Selective Detection Methods for H NMR Spectroscopy’, p. 351
Current Protein and Peptide Science, vol. 1, 2000
R78 T. Fukumizo, ‘Chitinolytic Enzymes: Catalysis, Substrate Binding, and their Application’, p. 105
R79 B. Asboth and G. Naray-Szabo, ‘Mechanism of Action of D-Xylose Isomerase’, p. 237
NATO Advanced Study Institute Series, Series A, vol. 301, 1998
R80 A. M. Gronenborn and G. M. Clore, ‘Determining Structures of Protein/DNA Complexes by NMR’, p. 1
R81 O. Jardetzky, ‘What Can NMR Tell US About Protein Motions?’, p. 103
R82 R. A. Atkinson and J.-F. Lefevre, ‘The Investigation of Protein Dynamics via the Spectral Density Function’, p. 129
R83 L. Spyracopoulos, S. M. Gagne, W. Gronwald, L. E. Kay and B. D. Sykes, ‘NMR Studies of Protein Sidechain Dynamics: Examples from Antifreeze and Calcium-Regulatory Proteins’, p. 147
R84 S. Yoshizawa and J. D. Puglisi, ‘NMR Structure Determination of an Antibiotic-RNA Complex’, p. 173
vol. 305, 1999
R85 B. Halle, ‘Magnetic Relaxation Dispersion: Principles and Applications’, p. 221
R86 B. Halle, ‘Water in Biological Systems: The NMR Picture’, p. 233
R87 D. J. Tobias, ‘Water and Membranes: Molecular Details from MD Simulations’, p. 293
R88 J. Parello, ‘Workshop on NMR and Hydration of Biomacromolecules in Aqueous Solutions’, p. 379
vol. 313,2000
R89 J. Timbrell, ‘Biomarkers of Organ Toxicity’, p. 189 Series C, vol. 538, 1999
R90 P. Sozzani, A. Comotti and R. Simonutti, ‘NMR and Crystallinity of Nanostructured Materials’, p. 443
vol. 546, 2000
R91 I. Bertini, J. Faraone-Mennella, C. Luchinat and A. Rosato, ‘The Use of the Electron-Nucleus Hyperfine Interaction for Solution Structure Determination’, p. 1
vol. 560, 2000
R92 E. G. Derouane, S. B. Derouane-Abd Hamid, I. I. Ivanova, H. He and J. C. Vedrine, ‘In Situ Investigations of Catalysts and Catalytic Reaction Mechanisms, Part 1. General Introduction and Applications of in Situ MAS NMR Spectroscopy’, p. 99
Series II, vol. 2, 2000
R93 J. A. Weil, ‘A Demi-Century of Magnetic Defects in a-Quartz’, p. 197
Series 2, vol. 55, 1999
R94 I. Ahlers, ‘Metabolic and Hormonal Changes in Irradiated Animals’, p. 389
Series 3, vol. 70, 1999
R95 E. C. Thiel, Y. Ke, Z. Gdaniec and H. Sierzputowska-Gracz, ‘The IRE Model for Families of RNA Structures: Selective Recognition by Binding Proteins (IRPs), NMR Spectroscopy and Probing with Metal Coordination Complexes’, p. 241
vol. 74, 2000
R96 P. W. Kuchel and P. J. Mulquiney, ‘Combined NMR Experimental and Computer Simulation Study of 2,3-Bisphosphoglycerate Metabolism in Human Erythrocytes’, p. 139
R97 K. M. Brindle and P. M. Haggie, ‘Probing the Cell Interior with NMR Spectroscopy’, p. 191
Progress in Nuclear Magnetic Resonance Spectroscopy, ed. J. W. Emsley, J. Feeney and L. H. Sutcliffe, vol. 36, 2000
R98 D. Grucker, ‘Oxymetry by Magnetic Resonance: Applications to Animal Biology and Medicine’, p. 241
R99 A. L. Breeze, ‘Isotope-Filtered NMR Methods for the Study of Biomolecular Structure and Interactions’, p. 323 vol. 37, 2000
R100 F. C. Oliveira, M. J. P. Ferreira, C. V. Nunez, G. V. Rodriguez and V. P. Emerenciano, ’13C NMR Spectroscopy of Eudesmane Sesquiterpenes’, p. 1
R101 L. Ernst, ‘NMR Studies of Cyclophanes’, p. 47
R102 J. J. van der Klink and H. B. Brom, ‘NMR in Metals, Metal Particles and Metal Cluster Compounds’, p. 89
R103 A. Kumar, R. G. R. Christy and P. K. Madhu, ‘Cross-Correlation in NMR’, p. 191
R104 P. Hodgkinson and L. Emsley, ‘Numerical Simulation of Solid-State NMR Experiments’, p. 201
R105 J. C. Martins, M. Biesemans and R. Willem, ‘Tin NMR Based Methodologies and their Use in Structural Tin Chemistry’, p. 271
R106 R. H. Contreras and J. E. Peralta, ‘Angular Dependence of Spin-Spin Coupling Constants’, p. 321
vol. 38, 2001
R107 N. Nestle, A. Schaff and W. S. Veeman, ‘Mechanically Detected NMR, an Evaluation of the Applicability for Chemical Investigations’, p. 1
R108 E. C. Reynhardt and G. L. High, ‘Nuclear Magnetic Resonance Studies of Diamond’, p. 37
R109 N. Jamin and F. Toma, ‘NMR Studis of Protein-DNA Interactions’, p. 83
R110 R. Sharp, L. Lohr and J. Miller, ‘Paramagnetic NMR Relaxation Enhancement. Recent Advances in Theory’, p. 115
R111 V. A. Mandelshtam, ‘FDM. The Filter Diagonalization Method for Data Processing in NMR Experiments’, p. 159
(Continues…)Excerpted from Nuclear Magnetic Resonance Volume 31 by G.A. Webb. Copyright © 2002 The Royal Society of Chemistry. Excerpted by permission of The Royal Society of Chemistry.
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