Theses most similar to Bioinorganic hydrocarbon oxidation : mechanistic and kinetic studies of the soluble methane monooxygenase from Methylococcus capsulates (bath) (Valentine, Ann M. (Ann Margaret), 1971-; 1998) read it
Structural studies of the hydroxylase component of methane monooxygenase from methyloccous capsulatus
Rosenzweig, Amy Claire (1994)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Model complexes for active sites of diiron metalloproteins, dioxygen reactivity and water effects
Yoon, Sungho, 1971- (2004)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Mechanistic and physical studies of methane monooxygenase from Methylococcus capsulatus (Bath)
Liu, Katherine E., 1967- (1995)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Oxidation of substrates tethered to N-donor ligands for modeling non-heme diiron enzyme active sites
Carson, Emily Carrig, 1978- (2005)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Polynuclear iron and manganese complexes as models for biological systems
Goldberg, David P. (David Philip) (1995)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Proton-coupled electron transfer : from basic principles to small molecule activation
Rosenthal, Joel, 1979- (2006)
- Advisor: Daniel G. Nocera
- Department of Chemistry
Dioxygen activation and substrate hydroxylation by the hydroxylase component of toluene/O-xylene monooxygenase from pseudomonas sporium OX1
Murray, Leslie Justin (2007)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Structural investigations of hydroxylase proteins and complexes in bacterial multicomponent monooxygenase systems
McCormick, Michael S. (Michael Scott) (2008)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Modeling the active sites of non-heme diiron metalloproteins with sterically hindered carboxylates and syn N-Donor ligands
Friedle, Simone, 1976- (2009)
- Advisor: Stephen J. Lippard
- Department of Chemistry
Exploring the reactivity of bacterial multicomponent monooxygenases
Tinberg, Christine Elaine (2010)
- Advisor: Stephen J. Lippard
- Department of Chemistry