Nuclear Magnetic Resonance of Paramagnetic Macromolecules

New Approaches to NMR of Paramagnetic Molecules.- The Hyperfine Coupling.- Assignment Strategies and Structure Determination in Cyanide-Inhibited Heme Peroxidases.- Homology Modeling of Horseradish Peroxidase.- NMR Studies of Paramagnetic Systems to Characterise Small Molecule:Protein and Protein:Protein Interactions.- Recombinant Perdeuterated Protein as an Efficient Method for Making Unambiguous Heme Proton Resonance Assignments: Cyanide-Ligated Glycera Dibranchiata Monomer Methemoglobin Component IV as an Example.- Redox and Spin-State Control of the Activity of a Diheme Cytochrome c Peroxidase — Spectroscopic Studies.- Metalloprotein-Endor-Spectroscopy: Structure Determination of the Prosthetic Site from Randomly Oriented Specimen and Correlations with NMR-Spectroscopy.- NMR Studies of Nonheme Iron Proteins.- Cobalt Substituted Proteins.- Paramagnetic Lanthanide(III) Ions as NMR Probes for Biomolecular Structure and Function.- Chemical Functions of Single and Double NH—S Hydrogen Bond in Iron-Sulfur Metalloproteins; Model Ligands with Cys-Containing Peptide and Simple Acylaminobenzenethiolate.- 3D Structure of HiPIPs in Solution Through NMR and Molecular Dynamics Studies.- Multinuclear Magnetic Resonance and Mutagenesis Studies of Structure-Function Relationships in [2Fe-2S] Ferredoxins.- 1D and 2D Proton NMR Studies on [3Fe-4S] and [4Fe-4S] Ferredoxins Isolated from Desulfovibrio gigas.- Isotropic Proton Hyperfine Coupling in High Potential [Fe4S4]+3 Models.- Spin Dependent Electron Delocalization, Vibronic and Antiferromagnetic Couplings in Iron-Sulfur Clusters.