Modern Magnetic Resonance

PART I: APPLICATIONS IN CHEMISTRY, BIOLOGICAL & MARINE SCIENCES· Amyloids o Kinetics of Amyloid Fibril Formation of Human Calcitonin.o Polymorphism of Alzheimer’s A-beta Amyloid Fibrils.· Chemical Shifts and Spin-Couplings. o 13C, 15N, 1H, 2H, and 17O NMR Chemical Shift NMR for Hydrogen Bonds. o NMR Chemical Shift Map. o NMR Chemical Shifts Based on Band Theory.o Modeling NMR Chemical Shifts. o Ab Initio Calculation of NMR Shielding Constants. o Crystal Structure Refinement Using Chemical Shifts. o The Theory of Nuclear Spin–Spin Couplings.· Fibrous Proteins.o Investigation of Collagen Dynamics by Solid-State NMR Spectroscopy.o Solid-State NMR Studies of Elastin and Elastin Peptides.o Structural Analysis of Silk Fibroins using NMR.· Field Gradient NMR.o NMR Diffusometry. o Field Gradient NMR of Liquid Crystals. o Field Gradient NMR for Polymer Systems with Cavities. o NMR Measurements Using Field Gradients and Spatial Information. o Theory and Application of NMR Diffusion Studies. · Host–Guest Chemistry. o Solid-State NMR in Host–Guest Chemistry. · Imaging. o Mapping of Flow and Acceleration with NMR Microscopy Techniques. o Industrial Application of In situ NMR Imaging Experiments to Steel-Making Process. o Biomedical NMR Spectroscopy and Imaging. o Electron Spin Resonance Imaging in Polymer Research. o NMR Imaging: Monitoring of Swelling of Environmental Sensitive Hydrogels. · Inorganic Materials and Catalysis. o Exploiting 1Hà 29Si Cross-Polarization Features for Structural Characterization of Inorganic Materials. o Solid State NMR Characterization of Solid Surface of Heterogeneous Catalysts. · Isotope Labeling. o Recent Developments in Stable-Isotope-Aided Methods for Protein NMR Spectroscopy. o Structural Glycobiology by Stable-isotope-assisted NMR Spectroscopy. · Lipid Bilayer and Bicelle. o Development and Application of Bicelles for Use in Biological NMR and Other Biophysical Studies. o Nuclear Magnetic Resonance of Oriented Bilayer Systems. o Solid-State Deuterium NMR Spectroscopy of Membranes. o Solid State 19F-NMR Analysis of Oriented Biomembranes. · Membrane-Associated Peptides. o Solid-State NMR Studies of the Interactions and Structure of Antimicrobial Peptides in Model Membranes. o Anisotropic Chemical Shift Perturbation Induced by Ions in Conducting Channels. o NMR Studies of Ion-Transporting Biological Channels. · Membrane Proteins. o Site-Directed NMR Studies on Membrane Proteins. o Structure of Membrane-Binding Proteins Revealed by Solid-State NMR. o Solid-State NMR of Membrane-Active Proteins and Peptides. o Magnetic Resonance Spectroscopic Studies of the Integral Membrane Protein Phospholamban. o NMR Studies of the Interactions Between Ligands and Membrane-Embedded. Receptors: New Methods for Drug Discovery. o Photosynthetic Antennae and Reaction Centers. o Insight into Membrane Protein Structure from High-Resolution NMR. · New Developments. o Fast Multidimensional NMR: New Ways to Explore Evolution Space. o High-Sensitivity NMR Probe Systems. o CRAMPS. o Mobile NMR. o Rheo-NMR. o Analytical Aspects of Solid-State NMR Spectroscopy. o 3H NMR and Its Application. o On-line SEC–NMR. · NOE and Chemical Exchange. o The Nuclear Overhauser Effect. o Solute–Solvent Interactions Examined by the Nuclear Overhauser Effect. o Chemical Exchange. · NQR & ESR. o Separated Detection of H-Transfer Motions in Multi-H-Bonded Systems Studied by Combined 1H NMR and 35Cl NQR Measurements. o EPR: Principles. o Zero Field NMR: NMR and NQR in Zero Magnetic Field. · Organo Metallic Chemistry. o Organoboron Chemistry. o Organogermanium Chemistry. o Organotin Chemistry. · Paramagnetic Effects. o 1H and 13C High-Resolution Solid-State NMR of Paramagnetic Compounds Under Very Fast Magic Angle Spinning. o Paramagnetic Effects of Dioxygen in Solution NMR—Studies of Membrane Immersion Depth, Protein Topology, and Protein Interactions. · Protein Structure. o TROSY NMR for Studies of Large Biological Macromolecules in Solution. o NMR Insight of Structural Stability and Folding of Calcium-Binding Lysozyme. o NMR Investigation of Calmodulin. o Analytical Framework for Protein Structure Determination by Solid-State NMR of Aligned Samples. o Determining Protein 3D Structure by Magic Angle Spinning NMR. o 19F NMR Study of b-Type Haemoproteins. · Polymer Structure. o NMR in Dry or Swollen Temporary or Permanent Networks. o Crystalline Structure of Ethylene Copolymers and Its Relation to the Comonomer Content. o Isomorphism in Bacterially Synthesized Biodegradable Copolyesters. o Two-Dimensional NMR Analysis of Stereoregularity of Polymers. o Quantitative Analysis of Conformations in Disordered Polymers by Solid-State Multiple-Quantum NMR. o Polymer Microstructure: The Conformational Connection to NMR. o Solid-State NMR Characterization of Polymer Interfaces. o The Structure of Polymer Networks. o 1H CRAMPS NMR of Polypeptides in the Solid State. · Polymer Dynamics. o Dynamics of Amorphous Polymers. o Molecular Motions of Crystalline Polymers by Solid-State MAS NMR. o Dynamics in Polypeptides by Solid State 2H NMR. · Polymer Blends. o Polymer Blends. o Configurational Entropy and Polymer Miscibility: New Experimental Insights From Solid-State NMR. · Quantum Information Processing. o Quantum Information Processing as Studied by Molecule-Based Pulsed ENDOR Spectroscopy. · Residual Dipolar Couplings and Nucleic Acids. o New Applications for Residual Dipolar Couplings: Extending the Range of NMR in Structural Biology. o Refinement of Nucleic Acid Structures with Residual Dipolar Coupling Restraints in Cartesian Coordinate. o Conformational Analysis of DNA and RNA. · Solid-State NMR Technique. o Analytical and Numerical Tools for Experiment Design in Solid-State NMR Spectroscopy. o Homonuclear Shift-Correlation Experiment in Solids. o Two-Dimensional 17O Multiple-Quantum Magic-Angle Spinning NMR of Organic Solids. o A Family of PISEMA Experiments for Structural Studies of Biological Solids.· Structural Constraints in Solids. o Rotational-Echo, Double-Resonance NMR. o REDOR in Multiple Spin System. o Torsion Angle Determination by Solid-State NMR. o Secondary Structure Analysis of Proteins from Angle-Dependent Interactions.· Telomeric DNA Complexes. o Comparison of DNA-Binding Activities Between hTRF2 and hTRF1 with hTRF2 Mutants. o Optimization of MRI Contrast for Pre-Clinical Studies at High Magnetic Field. o The Application of In Vivo MRI and MRS in Phenomic Studies of Murine Models of Disease. o Experimental Models of Brain Disease: MRI Contrast Mechanisms for the Assessment of Pathophysiological Status. o Experimental Models of Brain Disease: MRI Studies. o Application of MRS in Cancer in Pre-clinical Models. o Experimental Cardiovascular MR in Small Animals. o Application of Pharmacological MRI to Preclinical Drug Discovery and Development. o Application of MRI to Cell Tracking. · Marine Scienceo Comprehensive Compositional Analysis of Fish Feed by Time Domain NMR. o Low Field NMR Studies of Atlantic Salmon (Salmo salar). o Water Distribution and Mobility in Fish Products in Relation to Quality. o Proton NMR of Fish Oils and Lipids. o Determination of Fatty Acid Composition and Oxidation in Fish Oils by High Resolution Nuclear Magnetic Resonance Spectroscopy. o Resonance Spectroscopy to Study Lipid Oxidation in Fish and Fish Products. o Omega-3 Fatty Acid Content of Intact Muscle of Farmed Atlantic Salmon (Salmo salar) Examined by 1H MAS NMR Spectroscopy. o HR MAS NMR Spectroscopy of Marine Microalgae, Part 1: Classification and Metabolite Composition from HR MAS 1H NMR Spectra and Multivariate Analysis. o HR MAS NMR Spectroscopy of Marine Microalgae, Part 2: 13C and 13C HR MAS NMR Analysis Used to Study Fatty Acid Composition and Polysaccharide Structure. o Post-mortem Studies of Fish Using Magnetic Resonance Imaging. o How is the Fish Meat Affected by Technological Processes?PART II: APPLICATIONS IN MEDICAL & PHARMACEUTICAL SCIENCES· Medical Sciences:o Acquiring Neurospectroscopy in Clinical Practice. o Application of Magnetic Resonance for the Diagnosis of Infective Brain Lesions. o Application of 2D Magnetic Resonance Spectroscopy to the Study of Human Biopsies. o Correlation of Histopathology with Magnetic Resonance Spectroscopy of Human Biopsies. o Functional MRI. o High Resolution Magic Angle Spinning (HRMAS) Proton MRS of Surgical Specimens. o Intraoperative MRI. o In Vivo Magnetic Resonance Spectroscopy in Breast Cancer. o In Vivo Molecular MR Imaging: Potential and Limits. o In vivo 13C MRS. o Magnetic Resonance Spectroscopy and Spectroscopic Imaging of the Prostate, Breast, and Liver. o MR-Mammography. o Phosphorus Magnetic Resonance Spectroscopy on Biopsy and In Vivo. o Radio Frequency Coils for Magnetic Resonance Spectroscopy. o Spatially Resolved Two-Dimensional MR Spectroscopy in vivo. · Overview of NMR in the Pharmaceutical Sciences.· Instrumentation. o Applications of Cryogenic NMR Probe Technology for the Identification of Low-Level Impurities in Pharmaceuticals. o Flow NMR Techniques in the Pharmaceutical Sciences. o Developments in NMR Hyphenation for Pharmaceutical Industry. o LC-NMR in Dereplication and Structure Elucidation of Herbal Drugs. · Techniques. o New Approaches to NMR Data Acquisition, Assignment and Protein Structure Determination: Potential Impact in Drug Discovery. o Transferred Cross-Correlated Relaxation: Application to Drug/Target Complexes. o Novel Uses of Paramagnets to Solve Complex Protein Structures. o Fast Assignments of 15N-HSQC Spectra of Proteins by Paramagnetic Labeling. o Phospholipid Bicelle Membrane Systems for Studying Drug Molecules. o Partial Alignment for Structure Determination of Organic Molecules. o Measurement of Residual Dipolar Couplings and Applications in Protein NMR. o Using Chemical Shift Perturbations to Validate and Refine the Docking of Novel IgE Antagonists to the High-Affinity IgE Receptor. o Dual-Region Hadamard-Encoding to Improve Resolution and Save Time. o Nonuniform Sampling in Biomolecular NMR. · Applications. o Structural Characterization of Antimicrobial Peptides by NMR Spectroscopy. o Pharmaceutical Applications of Ion Channel Blockers: Use of NMR to Determine the Structure of Scorpion Toxins. o Structure and Dynamics of Inhibitor and Metal Binding to Metallo-ß-Lactamases. o NMR Spectroscopy in the Analysis of Protein–Protein Interactions. o Identification and Characterization of Ternary Complexes Using NMR Spectroscopy. o The Transferred NOE. o NMR Kinetic Measurements in DNA Folding and Drug Binding. o The Use of NMR in the Studies of Highly Flexible States of Proteins: Relation to Protein Function and Stability. o NMR-based Metabonomics Techniques and Applications. o Protein Misfolding Disease: Overview of Liquid and Solid-State High Resolution NMR Studies. o 19F NMR Spectroscopy for Functional and Binding High-Throughput Screening. o Applications of Receptor-Based NMR Screening in Drug Discovery. o NMR SHAPES Screening. o NMR-Based Screening Applied to Drug Discovery Targets. o NMR and Structural Genomics in the Pharmaceutical Sciences.PART III: APPLICATIONS IN MATERIALS SCIENCE & FOOD SCIENCE· Materials Scienceo Acoustically Stimulated NMR Relaxometry: Application to the Study of Molecular Dynamics in Liquid Crystalline Materials. o Characterization of Elastomers Based on Monitoring Ultraslow Dipolar Correlations by NMR. o Correlating Molecular and Macroscopic Properties of Elastomers by NMR Relaxometry and Multi-pulse NMR Techniques. o Determining Structural and Dynamic Distribution Functions from Inhomogeneously Broadened NMR Spectra: The Conjugate Orthogonal Functions Approach. o Fluid Diffusion in Partially Filled Nanoscopic and Microscopic Porous Materials. o Gas Adsorption on Carbon Nanotubes. o Magnetic Resonance Studies of the Heterogeneous Rotational and Translational dynamics in Disordered Materials. o Nuclear Magnetic Resonance in Ferromagnetic Multilayers and Nanocomposites: Investigations of Their Structural and Magnetic Properties. o 1H Solid-State NMR of Supramolecular Systems. o Quadrupolar NMR of Inorganic Materials: The Multiple-Quantum Magic Angle Spinning Experiment. o Rheo-NMR Spectroscopy. o Advances in Single-Sided NMR. o Site-specific Characterization of Structure and Dynamics of Complex Materials by EPR Spin Probes. o NMR of Organic Semiconductors. o Solid State NMR of Xerogels. o Solid-State 17O NMR Spectroscopy of High-Pressure Silicates. o The Structure of Oxide Glasses: Insights from 17O NMR. o Studies of the Local Structure of Silk Using Solid-State NMR. o Velocity Imaging of Granular Materials. · Food Science· High Resolution Solution State Methods. o Characterization of the Chemical Composition of Beverages by NMR Spectroscopy. o High Resolution NMR of Carrageenans. o Flavor–Food Compound Interactions by NMR Spectroscopy. o High-Resolution Nuclear Magnetic Resonance Spectroscopy of Fruit Juices. o High-Resolution NMR Spectroscopy in Human Metabolism and Metabonomics.o High-Resolution NMR of Milk and Milk Proteins. o High-Resolution 13C Nuclear Magnetic Resonance in the Study of Oils. o High-Resolution 1H Nuclear Magnetic Resonance in the Study of Oils. o SNIF-NMR—Part 1: Principles. o SNIF-NMR—Part 2: Isotope Ratios as Tracers of Chemical and Biochemical Mechanistic Pathways. o SNIF-NMR—Part 3: From Mechanistic Affiliation to Origin Inference. o SNIF-NMR—Part 4: Applications in an Economic Context: The Example of Wines, Spirits, and Juices. o High-Resolution Nuclear Magnetic Resonance Spectroscopy of Wine, Beer, and Spirits. · Relaxation Time Methods. o NMR Relaxation of Dairy Products. o Characterization of Molecular Mobility in Carbohydrate Food Systems by NMR. o Diffusion and Relaxation in Gels. o NMR Relaxation and Diffusion Studies of Horticultural Products. o Proton NMR Relaxometry in Meat Science. o Time-Domain NMR in Quality Control: More Advanced Methods. o Time-Domain NMR in Quality Control: Standard Applications in Food. o Nuclear Magnetic Relaxation in Starch Systems. · High Resolution Solid State Methods. o Magic Angle Spinning NMR of Flours and Doughs. o High-Resolution Magic Angle Spinning NMR Spectroscopy of Fruits and Vegetables. o High-Resolution Solid-State NMR of Gluten and Dough. o High-Resolution Solid-State NMR as an Analytical Tool to Study Plant Seeds. High-Resolution Solid-State NMR Spectroscopy of Starch Polysaccharides. · Imaging and Related Techniques. o NMR Imaging of Bread and Biscuit. o NMR Imaging of Dairy Products. o NMR Imaging of Dough. o MRI in Food Process Engineering. o Rheo-NMR: Applications to Food. o Temperature Measurements by Magnetic Resonance. · Statistical Methods. o Chemometric Analysis of NMR Data. o Direct Exponential Curve Resolution by SLICING. · ESR Methods. o ESR as a Technique for Food Irradiation Detection. o ESR Spectroscopy for the Study of Oxidative Processes in Food and Beverages. · Applications to Food Systems. o Magnetic Resonance Studies of Food Freezing. o Nuclear Magnetic Resonance Studies on the Glass Transition and Crystallization in Low Moisture Sugars. o Probing the Sensory Properties of Food Materials with Nuclear Magnetic Resonance Spectroscopy and Imaging. o Single-Sided NMR in Foods. o Applications of NMR in the Studies of Starch Systems.