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Krishna N.R., Berliner L.J. (Eds.) Structure computation and dynamics in protein NMR
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Kluwer, 2002, 554 pagesVolume 17 of Biological Magnetic Resonance (Structure Computation and Dynamics) represents significant advances in the biomolecular NMR field, with emphasis on developments during the recent years. This book brings together some of the world's foremost experts who have provided broad leadership in advancing the field.
Volume 17 is devoted to topics on structure computational methods and protein dynamics. It covers advances in molecular modeling on the basis of spectroscopic or diffraction data, pulse sequences and computational methods for automated assignment and structure determination, structure calculation of symmetric oligomer proteins, structure refinement by hybrid-hybrid matrix method from 3D NOESY-NOESY data, conformational ensemble calculations, complete relaxation and conformational exchange matrix analysis of NOESY spectra of ligand-receptor complexes, and advances involving field-induced residual dipolar couplings in weakly aligned macromolecules, protein dynamics from 15N and 13C relaxation, and protein hydration from multinuclear relaxation dispersion and intermolecular water-solute NOEs.Aspects of Modeling Biomolecular Structure on the Basis of Spectroscopic or Diffraction Data
Combined Automated Assignment of NMR Spectra and Calculation of Three-Dimensional Protein Structures
NMR Pulse Sequences and Computational Approaches for Automated Analysis of Sequence-Specific Backbone Resonance Assignments of Proteins
Calculation of Symmetric Oligomer Structures from NMR Data
Hybrid-Hybrid Matrix Method for 3D NOESY-NOESY Data Refinements
Conformational Ensemble Calculations: Analysis of Protein and Nucleic Acid NMR Data
Complete Relaxation and Conformational Exchange Matrix (CORCEMA) Analysis of NOESY Spectra of Reversibly Forming Ligand-Receptor Complexes
Protein Structure and Dynamics from Field-Induced Residual Dipolar Couplings
Recent Developments in Studying the Dynamics of Protein Structures from [superscript 15]N and [superscript 13]C Relaxation Time Measurements
Multinuclear Relaxation Dispersion Studies of Protein Hydration
Hydration Studies of Biological Macromolecules by Intermolecular Water-Solute NOEs
Contents of Previous Volumes
Volume 17 is devoted to topics on structure computational methods and protein dynamics. It covers advances in molecular modeling on the basis of spectroscopic or diffraction data, pulse sequences and computational methods for automated assignment and structure determination, structure calculation of symmetric oligomer proteins, structure refinement by hybrid-hybrid matrix method from 3D NOESY-NOESY data, conformational ensemble calculations, complete relaxation and conformational exchange matrix analysis of NOESY spectra of ligand-receptor complexes, and advances involving field-induced residual dipolar couplings in weakly aligned macromolecules, protein dynamics from 15N and 13C relaxation, and protein hydration from multinuclear relaxation dispersion and intermolecular water-solute NOEs.Aspects of Modeling Biomolecular Structure on the Basis of Spectroscopic or Diffraction Data
Combined Automated Assignment of NMR Spectra and Calculation of Three-Dimensional Protein Structures
NMR Pulse Sequences and Computational Approaches for Automated Analysis of Sequence-Specific Backbone Resonance Assignments of Proteins
Calculation of Symmetric Oligomer Structures from NMR Data
Hybrid-Hybrid Matrix Method for 3D NOESY-NOESY Data Refinements
Conformational Ensemble Calculations: Analysis of Protein and Nucleic Acid NMR Data
Complete Relaxation and Conformational Exchange Matrix (CORCEMA) Analysis of NOESY Spectra of Reversibly Forming Ligand-Receptor Complexes
Protein Structure and Dynamics from Field-Induced Residual Dipolar Couplings
Recent Developments in Studying the Dynamics of Protein Structures from [superscript 15]N and [superscript 13]C Relaxation Time Measurements
Multinuclear Relaxation Dispersion Studies of Protein Hydration
Hydration Studies of Biological Macromolecules by Intermolecular Water-Solute NOEs
Contents of Previous Volumes
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