Cover image for Molybdenum enzymes, cofactors, and model systems
Title:
Molybdenum enzymes, cofactors, and model systems
Publication Information:
Washington, D C : American Chemical Society, 1993
ISBN:
9780841227088
General Note:
Developed from a symposium sponsored by the Division of Inorganic Chemistry at the 204th National Meeting of the American Chemical Society, Washington, DC, August 23-28, 1992

Available:*

Library
Item Barcode
Call Number
Material Type
Item Category 1
Status
Searching...
30000003088915 QP601.75.M64 M64 1993 Open Access Book Book
Searching...

On Order

Summary

Summary

Focuses on recent advances in the molybdenum enzymes Moco and FeMoco and their model systems. Discusses the recent crystallographic determination of the structure of the molybdenum-iron protein in the nitrogenase enzyme. Highlights the latest results on the molybdenum cofactor, Moco, including the recently determined full organic structure. Includes an overview of molybdenum in biology and the role of molybdoenzymes in the nitrogen, sulfur, and carbon cycles.


Table of Contents

Molybdenum Enzymes, Cofactors, and Chemistry: An Introductory SurveyE.I. Stiefel
The Reaction Mechanism of Xanthine OxidaseR. Hille
Biochemistry of the Molybdenum CofactorsK.V. Rajagopalan
The Bacterial Molybdenum CofactorO.Meyer and K. Frunzke and J. Tachil and M. Volk
Models of Pterin-Containing Molybdenum EnzymesC.G. Young and A.G. Wedd
Pterins, Quinoxalines, and Metallo-EneDithiolates: Synthetic Approach to the Molybdenum CofactorR.S. Pilato and K. Eriksen and M.A. Greaney and Y. Gea and E.C. Taylor and S. Goswami and L. Kilpatrick and T.G. Spiro and A.L. Rheingold and E.I. Stiefel
Strategies for the Synthesis of the Cofactor of the OxomolybdoenzymesC.D. Garner and E.M. Armstrong and M.J. Ashcroft and m.S. Austerberry and J.H. Birks and D. Collison and A.J. Goodwin and L. Larsen and D.J. Rose and J.R. Russell
Molybdenum Complexes of Reduced PterinsS.J. Nieter Burgmayer and K. Everett and L. Bostick
Chemical and Physical Coupling of Oxomolybdenum Centers and Iron Porphyrins: Models for the Molybdenum-Iron Interaction in Sulfite OxidaseM.J. LaBarre and A. Raitsimring and J. H. Enemark
Nitrogenase Structure, Function, and GeneticsB.K. Burgess
Crystal Structures of the Iron Protein and Molybdenum-Iron Protein of NitrogenaseD.C. Rees and J. Kim and M.M. Georgiadis and H. Komiya and A.J. Chirino and D.Woo and J. Schlessman and M.K. Chan and L. Joshua-Tor and G. Santillan and P. Chakrabarti and B.T. Hsu
Structure and Environment of Metal Clusters in the Nitrogenase Molybdenum-Iron Protein from Clostridium pasteurianumJ.T. Bolin and N. Campobasso and S.W. Muchmore and T. Vance Morgan and L. E. Mortenson
Biosynthesis of the Iron-Molybdenum Cofactor of NitrogenaseP.W. Ludden and V. K. Shah and G.P. Roberts and M. Homer and R. Allen and T. Paustian and J. Roll and R. Chatterjee and M. Madden and J. Allen
Role of the Iron-Molybdenum Cofactor Polypeptide Environment in Azotobacter vinelandiii Molybdenum-Nitrogenase CatalysisW.E. Newton and D.R. Dean
Extended X-ray Absorption Fine Structure and L-Edge Spectroscopy of Nitrogenase Molybdenum-Iron ProteinJ. Chen and J. Christiansen and S.J. George and J. van Elp and R. Tittsworth and B.J. Hales and S. Al-Ahmad and D.Coucouvanis and N. Campobasso and J. T. Bolin and S.P. Cramer
Redox Properties of the Nitrogenase Proteins from Azotobacter vinelandiiG.D. Watt and H. Huang and K.R.N. Reddy
The Molybdenum-Iron Protein of Nitrogenase: Structural and Functional Features of Metal Cluster Prosthetic GroupsW.H. Orme-Johnson
Protein Component Complex Formation and Adenosine Triphosphate Hydrolysis in NitrogenaseJ.B. Howard
Electro-Transfer Reactions Associated with Nitrogenase from Klebsiella pneumoniaeR.N.F. Thorneley and G.A. Ashby and K. Fisher and D.J. Lowe
Recent Structure Determinations of the Molybdenum-Iron Protein of Nitrogenase: Impact on Design of Synthetic Analogs for the Iron-Molybdenum-Sulfur Active Site and the Iron-Molybdenum CofactorD. Coucouvanis
Bonding, Activation, and Stabilization of Small Molecules by Molybdenum-Sulfur and Iron-Sulfur SystemsD. Sellmann
Chemical Transformations of Coordinated Dinitrogen in Molybdenum and Tungsten Phosphine ComplexesM. Hidai and Y. Mizobe
Modeling the N-N Bond-Cleavage Step in the Reduction of Molecular Nitrogen to Ammonia: Protonation and Electron-Transfer Reactions of Dinitrogen, Nitrogen Hydride and Organonitrogen Complexes of Molybdenum and TungstenT.A. George and J.R. D. DeBord