Provided here are the latest techniques of NMR as applied to the study of proteins, carbohydrates and nucleic acids.
The first chapters are devoted to an introduction to NMR and parameters related to molecular structure and molecular interactions. NMR experiments from basic 1D to 2D, 3D and 4D, used in combination with isotopically labelled molecules, are described and a general strategy is presented for biomacromolecular structure determination. Subsequent chapters deal with more advanced principles and techniques and their applications to structural and dynamic processes involving biomacromolecules in solution. Advanced results on peptide, protein, oligosaccharide and nucleic acid structure and recognition are presented.

Basic Pulsed NMR Experiments

Principles of Multidimensional NMR
Understanding Pulsed FTNMR Experiments
Computer - Assisted Structure Determination of Biomacromolecules by NMR
Nuclear Shielding and Biomolecular Structure
NMR Studies of Protein Ligand Interactions
NMR Studies of Ligand - Protein Interactions Involving Quadrupolar Nuclei
Multidimensional NMR Spectroscopy of Peptides
Methods Used in the Assignments of the 1H and 15N Resonances of the c-Abl src Homology 2(SH2) Domain
NMR and Unpaired Electrons in Biomolecules
Long Time Protein Dynamics
Local Dynamics of Macromolecules
Structural and Conformational Studies of Glycoproteins and Oligosaccharide Recognition Determinants
13C Nuclear Magnetic Relaxation of Carbohydrate Molecules in Solution
Dynamic Modelling of Polysaccharide Molecules in Solution.
13C - lH Spin - Coupling Constants in Furanosyl Rings: Application to Oligonucleotide Structure Determination
Through Bond Sugar - Phosphate Backbone Assignment in 13C labeled RNA by Triple Resonance 1H 13C and 31P NMR Spectroscopy
NMR Studies of Protein - Nucleic Acid Interaction: The LAC Operon
Determination of High - Resolution, Sequence - Dependent DNA Duplex Structures in Solution
List of participants.