Inorganic and Bioinorganic Reaction Mechanisms: Application of High Pressure Techniques / R. Van Eldik ; C. Ducker-Benfer ; F. Thaler A. Roodt ; A. Abou-Hamdan ; H.P. Engelbrecht ; A.E. Merbach |
Substitution Studies of Second and Third Row Transition Metal OXO Complexes / J.J. Cruywagen |
Protonation, Oligomerization, and Condensation Reactions of Vanadate(V) Molybdate(V) and Tungstate(VI) / Z. Guo ; P.J. Sadler |
Medicinal Inorganic Chemistry / R.J. Browne ; D.A. Buckingham ; C.R. Clark ; P.A. Sutton |
The Cobalt(III)-Promoted Synthesis of Small Peptides |
Biological and Synthetic [Fe[subscript 3]S[subscript 4]] Clusters / Michael K. Johnson ; Randall E. Duderstadt ; Evert C. Duin |
Introduction / I.: |
Historical Perspective / II.: |
Occurrence and Function / III.: |
Structures / IV.: |
Electronic, Magnetic, and Vibrational Properties / V.: |
Cluster Conversions / VI.: |
Synthetic Model Compounds / VII.: |
Mixed Metal Clusters / VIII.: |
Future Directions / IX.: |
References |
The Structures of Rieske and Rieske-Type Proteins / Thomas A. Link |
Historical Background |
Structural Aspects |
Spectroscopy |
Electrochemistry |
Biosynthesis |
Function |
Outlook |
Structure, Function, and Biosynthesis of the Metallosulfur Clusters in Nitrogenases / Barry E. Smith |
The Fe Proteins of Molybdenum Nitrogenase |
The MoFe Proteins |
Biosynthesis of Molybdenum Nitrogenase |
The Mechanism of Molybdenum Nitrogenase |
The Alternative Nitrogenases |
Conclusions and Outlook |
The Search for a "Prismane" Fe-S Protein / Alexander F. Arendsen ; Peter F. Lindley |
Historical Discovery of "Prismane" Protein (Now Termed Feps) |
Crystallographic Studies |
Conclusion and Future Studies |
NMR Spectra of Iron-Sulfur Proteins / Ivano Bertini ; Claudio Luchinat ; Antonio Rosato |
Electron Relaxation Times |
Valence Delocalization |
Considerations on the Reduction Potential |
Solution Structure |
Folding |
Perspectives |
Nickel-Iron-Sulfur Active Sites: Hydrogenase and CO Dehydrogenase / Juan C. Fontecilla-Camps ; Stephen W. Ragsdale |
General Concepts Regarding Nickel and Iron-Sulfur |
Hydrogenase |
CODH/ACS |
Conclusions |
FeS Centers Involved in Photosynthetic Light Reactions / Barbara Schoepp ; Myriam Brugna ; Evelyne Lebrun ; Wolfgang Nitschke |
2[4Fe-4S] Proteins |
The Bridging Cluster F[subscript x] |
[2Fe-2S] Ferredoxins |
High-Potential Iron-Sulfur Proteins |
The Rieske Protein |
Evolutionary Remarks |
Simple and Complex Iron-Sulfur Proteins in Sulfate Reducing Bacteria / Isabel Moura ; Alice S. Pereira ; Pedro Tavares ; Jose J. G. Moura |
Rubredoxin and Desulforedoxin |
Desulfoferrodoxin |
Rubrerythrin |
Ferredoxins |
Fuscoredoxin (Novel Fe-S Cluster) |
APS Reductase |
Pyruvate-Ferredoxin Oxidoreductase |
Sulfite Reductase |
Molybdopterin-Containing Enzymes in SRB / X.: |
Concluding Remarks / XII.: |
Application of EPR Spectroscopy to the Structural and Functional Study of Iron-Sulfur Proteins / Bruno Guigliarelli ; Patrick Bertrand |
EPR Characteristics and Relaxation Properties of the Centers |
Application of EPR to the Structural Study of Iron-Sulfur Proteins |
Application of EPR to the Functional Study of Iron-Sulfur Centers |
Conclusion |
Spin-Lattice Relaxation Processes / Appendix: |
Index |
Contents of Previous Volumes |
Clinical Reactivity of the Active Site of Myoglobin / Emma Lloyd Raven ; A. Grant Mauk |
Cloning and Expression of Recombinant Myoglobin |
Active Site Variants of Myoglobin |
Electron Transfer Reactions of Myoglobin |
Peroxidase Activity |
Lipoxygenase Activity |
Monooxygenase Activity |
Coupled Oxidation |
Sulfmyoglobin |
Other Reactions of Myoglobin |
Enzymology and Structure of Catalases / Peter Nicholls ; Ignacio Fita ; Peter C. Loewen |
Categorization |
Physiology |
Kinetics |
Structure of Type A Catalases |
Structure of Type B Catalase-Peroxidases |
Structure of Chloroperoxidase |
Mechanism of the Catalytic Reaction |
Summary |
Horseradish Peroxidase / Nigel C. Veitch ; Andrew T. Smith |
Biochemistry and Molecular Biology |
General Features of the Enzyme |
Structure and Function |
Applications |
Structure and Enzymology of Diheme Enzymes: Cytochrome cd[subscript 1] Nitrate and Cytochrome c Peroxidase / Vilmos Fulop ; Nicholas J. Watmough ; Stuart J. Ferguson |
Cytochromes cd[subscript 1] |
Diheme Cytochrome c Peroxidases |
Binding and Transport of Iron-Porphyrins by Hemopexin / William T. Morgan ; Ann Smith |
Biological Properties of Hemopexin |
Biological Activities of Hemopexin |
Physical-Chemical Properties of Hemopexin |
Hemopexin Receptor Properties on Heme-Hemopexin |
Structures of Gas-Generating Heme Enzymes: Nitric Oxide Synthase and Heme Oxygenase / Thomas L. Poulos ; Huiying Li ; C. S. Raman ; David J. Schuller |
Biological Targets of NO and CO Action |
Overview of Oxygen Activating Heme Enzymes |
Background on NOS |
NOS Structure |
NOS Catalytic Structure |
Background on HO |
HO Structure |
HO Catalytic Mechanism |
The Nitric Oxide-Releasing Heme Proteins From the Saliva of the Blood-Sucking Insect Rhodnius prolixus / F. Ann Walker ; William R. Montfort |
Spectroscopic Characterization of the Nitrophorins |
Crystallization and Structural Determination of Nitrophorins |
Kinetics and Thermodynamics of Ligand Binding |
Reduction Potentials of Nitrophorins in the Absence and Presence of NO, Histamine, and Other Ligands |
Summary and Future Directions |
Heme Oxygenase Structure and Mechanism / Paul R. Ortiz de Montellano ; Angela Wilks |
Biological Function of Heme Oxygenase |
Heme Oxygenase Model Systems |
Heme Oxygenase: The Protein |
Human HO-1 Crystal Structure |
Interaction with Cytochrome P450 Reductase |
Gaseous Ligands |
Substrate Specificity |
The First Stage: [alpha]-meso-Hydroxylation |
The Second Stage: [alpha]-meso-Hydroxyheme to Verdoheme |
The Third Stage: Verdoheme to Biliverdin |
Kinetics of the Heme Oxygenase Reaction Sequence |
Implications of Electrophilic Heme Oxidation by an Fe[superscript III]-OOH Intermediate / XIII.: |
Heme Degradation in Plants and Bacteria / XIV.: |
De Novo Design and Synthesis of Heme Proteins / Brian R. Gibney ; P. Leslie Dutton |
Natural Protein Engineering |
De Novo Heme Proteins |
Physical/Electrochemical Studies of de Novo Designed Heme Proteins |
Functional Aspects |
Diversity-based approaches to selective biomimetic oxidation catalysis / 1: |
Selective conversion of hydrocarbons with H2O2 using biomimetic non-heme iron and manganese oxidation catalysts / 2: |
DNA oxidation by copper and manganese complexes / 3: |
Ligand influences in copper-dioxygen complex-formation and substrate oxidations / 4: |
Biomimetic oxidations by dinuclear and trinuclear copper complexes / 5: |
Green oxidation of alcohols using biomimetic Cu complexes and Cu enzymes as catalysts / 6: |
Synergy between Theory and Experiment as Applied to H/D Exchange Activity Assays in [Fe]H2ase Active Site Models |
Electronic Structure and Spectroscopic |
Properties of Molybdenum and Tungsten N2, NNH, NNH2 and NNH3 |
Complexes with Diphosphine Coligands: Insights into the End-On Terminal Reduction Pathway of Dinitrogen |
Quantum Chemical Investigations into the Problem of Biological Nitrogen Fixation: Sellmann-Type Metal-Sulfur Model Complexes |
Proton and Electron Transfers in [NiFe] Hydrogenase |
Heterolytic Splitting of HH, SiH, and Other s Bonds on Electrophilic Metal Centers |
Tetrapodal Pentadentate Nitrogen Ligands: Aspects of Complex Structure and Reactivity |
Efficient, Ecologically Benign, Aerobic Oxidation of Alcohols |
Visible Light Photocatalysis by a Titania Transition Metal Complex |
Dioxygen Activation by Transition Metal Complexes |
Atom Transfer and Free Radical Chemistry in Aqueous Media |
Redox Reactivity of Coordinated Ligands in Pentacyano(L)ferrate Complexes |
Carbonato Complexes: Models for Carbonic Anhydrase |
Transition Metal Chemistry of Glucose Oxidase, Horseradish Peroxidase, and Related Enzymes |
Properties of Transition Metal Complexes with Metal-Carbon Bonds in Aqueous Solutions as Studied by Pulse Radiolysis |
Transition Metal Complexes with Bis(hydrazone) Ligands of 2,6-Diacetylpyridine. Hepta-Coordination of 3d Metals |
Potential Applications for the Use of Lanthanide Complexes as Luminescent Biolabels |
Preface |
Tripodal Carbene and Aryloxide Ligands for Small-Molecule Activation at Electron-Rich Uranium and Transition Metal Centers / Karsten Meyer ; Suzanne C. Bart |
Synthesis and Characterization of Ligand Precursors and Low-Valent Metal Complexes for Small-Molecule Activation / I: |
Small-Molecule Activation / III: |
[beta]-Cyclodextrin-Linked Ru Complexes for Oxidations and Reductions / W.-D. Woggon ; Alain Schlatter ; Hao WangIV: |
Mimicking the Enzymatic Cleavage of Carotenoids |
Hydrogen Transfer Reactions Catalyzed by Ruthenium Complexes Linked to [beta]-Cyclodextrin |
Catalytic Dismutation vs. Reversible Binding of Superoxide / Ivana Ivanovic-Burmazovic |
Catalytic Superoxide Dismutation by Seven-Coordinate Manganese and Iron Complexes as SOD Mimetics |
Reversible Binding of Superoxide to Iron-Porphyrin Complex |
Acknowledgment |
Tripodal N,N,O-Ligands for Metalloenzyme Models and Organometallics / Nicolai Burzlaff |
The '2-His-1-Carboxylate Facial Triad' in Non-Heme Iron Oxygenases |
N,N,O-Ligands as Mimics for the '2-His-1-Carboxylate Facial Triad' |
Structural Zinc Models |
Homochiral Bis(pyrazol-1-yl)acetato Ligands |
Bis(pyrazol-1-yl)acetato Ligands in Coordination Chemistry and Organometallics / V: |
3,3-Bis(1-methylimidazol-2-yl)propionic Acid as N,N,O-Ligand / VI: |
Immobilization of N,N,O Complexes / VII: |
Acknowledgements / VIII: |
Hydroxypyranones, Hydroxypyridinones, and their Complexes / John Burgess ; Maria Rangel |
Ligands and Complexes - Synthesis and Structure |
Solution Properties |
Uses and Applications |
Nomenclature and Abbreviations |
Late Transition Metal-Oxo Compounds and Open-Framework Materials that Catalyze Aerobic Oxidations / Rui Cao ; Jong Woo Han ; Travis M. Anderson ; Daniel A. Hillesheim ; Kenneth I. Hardcastle ; Elena Slonkina ; Britt Hedman ; Keith O. Hodgson ; Martin L. Kirk|cDjamaladdin G. Musaev ; Keiji Morokuma ; Yurii V. Geletii ; Craig L. Hill |
Late Transition Metal-Oxo (LTMO) Complexes |
Open-Framework Materials that Catalyze Aerobic Oxidations |
Acknowledgments |
Inorganic and Bioinorganic Reaction Mechanisms: Application of High Pressure Techniques / R. Van Eldik ; C. Ducker-Benfer ; F. Thaler A. Roodt ; A. Abou-Hamdan ; H.P. Engelbrecht ; A.E. Merbach |
Substitution Studies of Second and Third Row Transition Metal OXO Complexes / J.J. Cruywagen |
Protonation, Oligomerization, and Condensation Reactions of Vanadate(V) Molybdate(V) and Tungstate(VI) / Z. Guo ; P.J. Sadler |