Bioinorganic Chemistry of Copper

Copper Proteins and Complex Spectroscopy.- 1. Electronic Structures of Active Sites in Copper Proteins: Coupled Binuclear and Trinuclear Cluster Sites.- 2. Pulsed EPR Studies of Copper Proteins.- 3. Copper(II) Complexes of Binucleating Maciocyclic Bis(disulfide) Tetramine Ligands.- “Blue” Copper Proteins and Electron Transfer.- 4. Investigation of Type 1 Copper Site Geometry by Spectroscopy and Molecular Redesign.- 5. Metalloprotein Ligand Redesign: Characterization of Copper-Cysteinate Proteins Derived from Yeast Copper-Zinc Superoxide Dismutase.- 6. Electron Transfer Reactivity of Mutants of the Blue Copper Protein Plastocyanin.- 7. Studies of CNI Copper Coordination Compounds: What Determines the Electron-Transfer Rate of the Blue-Copper Proteins?.- Natural and Synthetic Regulation of Gene Expression.- 8. Chemical and Genetic Studies of Copper Resistance in E. coli.- 9. Cuprous-Thiolate Polymetalic Clusters in Biology.- 10. Mechanisms of Copper Ion Homeostasis in Yeast.- 11. RNA Hydrolysis by Cu(II) Complexes: Toward Synthetic Ribonucleases and Ribozymes.- Hemocyanin and Copper Monooxygenases.- 12. Three-Dimensional Structure of the Oxygenated Form of the Hemocyanin Subunit II of Limulus polyphemus at Atomic Resolution.- 13. New Probes of Oxygen Binding and Activation: Application to Dopamine ?-Monooxygenase.- 14. Chemical and Spectroscopic Studies on Dopamine ?-Hydroxylase and Other Copper Monooxygenases.- 15. The Copper Ions in the Membrane-Associated Methane Monooxygenase.- 16. The Enzymology of Peptide Amidation.- Copper-Mediated Redox/Oxidative Pathways.- 17. Redox Decomposition Reactions of Copper(III) Peptide Complexes.- 18. Free Radical Induced Cleavage of Organic Molecules Catalyzed by Copper Ions — An Alternative Pathway for Biological Damage.- 19.Copper-Mediated Nitrogen Ligand Oxidation and Oxygenation.- Dioxygen-Binding and Oxygenation Reactions.- 20. Synthesis, Structure and Properties of ?-?2:?2 Peroxo Dinuclear Copper complexes Modeling the Active Site of Oxyhemocyanin and Oxytyrosinase.- 21. Kinetics and Mechanisms of Cu(I)/O2 Reactions.- 22. Functional Models for Hemocyanin and Copper Monooxygenases.- 23. Dioxygen Activation by Biomimetic Dinuclear Complexes.- 24. Oxidation Catalysis; A Dinuclear Approach.- 25. Dioxygen Activation and Transport by Dinuclear Copper(I) Macrocyclic Complexes.- 26. Imidazole-Ligated Copper Complexes: Synthesis, Structure, and Reactivity.- 27. Oxidation of Unactivated Hydrocarbons: Models for Tyrosinase and Dopamine ?-Hydroxylase.- 28. Copper-Pteridine Chemistry. Structures, Properties, and Phenylalanine Hydroxylase Models.- 29. Design and Synthesis of Model Systems for Dioxygen Binding and Activation in Dinuclear Copper Proteins.- 30. Copper Dioxygenation Chemistry Relevant to Quercetin Dioxygenase.- Nitrogen Oxide (NOx) Chemistry and Biochemistry.- 31. Two Crystal Forms of A. cycloclastes Nitrite Reductase.- 32. Characterization of Mononuclear Copper-Nitrogen Oxide Complexes: Models of NOx Binding to Isolated Active Sites in Copper Proteins.- 33. The EPR-Detectable Copper of Nitrous Oxide Reductase as a Model for CuA in Cytochrome c Oxidase: A Multifrequency Electron Paramagnetic Resonance Investigation.- 34. Mixed-Ligand, NON-Nitrosyl Cu(II) Complexes As Potential Pharmacological Agents via NO Release.- Copper Oxidases.- 35. Copper-Containing Enzymes: Structure and Mechanism.- 36. Active Site Ligand Interactions in Galactose Oxidase.- 37. Structure and Reactivity of Copper-Containing Amine Oxidases.- 38. Ascorbate Oxidase Structure and Chemistry.- 39. Cytochrome cOxidase: A Brief Introduction and Some New Results from High Field ENDOR Studies of the CuA and CuB Sites.