Mechanistic bioinorganic chemistry : developed from a symposium sponsored by the Division of Inorganic Chemistry, Inc., at the 205th National Meeting of the American Chemical Society, Denver, Colorado, March 28-April 2, 1993

Provides an understanding of bioinorganic reactions from a mechanistic point of view. Illustrates how spectroscopy can be used to establish mechanisms and how model compounds provide mechanistic insight for enzymes. Demonstrates how to apply numerous physical methods to understanding mechanisms of redox catalysis by metal centers in enzymes. Highlights the interrelationships between the roles of metal ions in electron transfer, redox catalysis, structural roles, and hydrolytic chemistry. Provides mechanistic insights into water oxidation, nitrogen fixation, nucleic acid oxidation and hydrolysis, oxygen binding, catalase reactions, and electron transfer.

• Understanding the Mechanisms in Bioinorganic Chemistry
• Insights into the Role of Nickel in Hydrogenase
• Modeling Phenoxyl Radical Metalloenzyme Active Sites
• Reactivity Models for Dinuclear Iron Metalloenzymes: Oxygen Atom Transfer Catalysis and Dioxygen Activation
• Electronic Structures of Active Sites in Copper Proteins and Their Contributions to Reactivity
• Biomimetic Copper-Dioxygen Chemistry: Reversible O[2-Binding and Mechanistic Insights into Cu(I)/O[2-Mediated Arene Hydroxylation and Amide Hydrolysis
• Synthetic Modeling of the Interactions of Nitrogen Oxides with Copper Proteins: Copper Nitrosyl Complexes Relevant to Putative Denitrification Intermediates
• Structural Characterization of Manganese Redox Enzymes: Results from X-Ray Absorption Spectroscopy
• Structure and Function of Manganese in Photosystem II
• Reactivity and Mechanism of Manganese Enzymes: A Modeling Approach
• Application of NMR Spectroscopy to Studies of Aqueous Coordination Chemistry of Vanadium(V) Complexes
• Modeling Vanadium Bromoperoxidase: Oxidation of Halides by Peroxovanadium(V) Complexes
• Magnetic Circular Dichroism Spectroscopy as a Probe of the Active Site Structures of Iron Chlorin- and Formylporphyrin-Containing Green Heme Proteins
• Mechanistic Aspects of the Chemistry of Iron N-Alkyl Porphyrins
• Mechanisms of DNA Cleavage by High-Valent Metal Complexes
• Metal Ion Macrocyclic Complexes as Artificial Ribonucleases
• Metallointercalators as Probes of the DNA pi-way
• Donor-Acceptor Electronic Coupling in Rutheniuim-Modified Heme Proteins