Home
About
Advanced Search
Browse by Discipline
Scientific Societies
E-print Alerts
Add E-prints
FAQ
•
HELP
•
SITE MAP
•
CONTACT US
Search
Advanced Search
Roth, Justine P. - Department of Chemistry, Johns Hopkins University
Determination of a Large Reorganization Energy Barrier for Hydride Abstraction by Glucose Oxidase
Oxygen Activation DOI: 10.1002/anie.200502096
Justine P. Roth Assistant Professor of Chemistry
pubs.acs.org/ICPublished on Web 04/12/2010r 2010 American Chemical Society Inorg. Chem. 2010, 49, 36613675 3661
Advances in studying bioinorganic reaction mechanisms: isotopic probes of activated oxygen
Evidence for Cu-O2 Intermediates in Superoxide Oxidations by Biomimetic Copper(II) Complexes
Intrinsic Barriers for Electron and Hydrogen Atom Transfer Reactions of Biomimetic Iron Complexes
Justine P. Roth Assistant Professor of Chemistry
Oxygen Isotope Effects on Electron Transfer to O2 Probed Using Chemically Modified Flavins Bound to Glucose Oxidase
Oxygen Isotope Effects upon Reversible O2-Binding Reactions: Characterizing Mononuclear Superoxide and Peroxide Structures
Catalytic Mechanism of a Heme and Tyrosyl Radical-Containing Fatty Acid r-(Di)oxygenase
Mechanisms of Electron Transfer in Catalysis by Copper Zinc Superoxide Valeriy V. Smirnov and Justine P. Roth*
Journal of Molecular Catalysis A: Chemical 251 (2006) 100107 Probing metal-mediated O2 activation in chemical and biological systems
Electron and Hydrogen-Atom Self-Exchange Reactions of Iron and Cobalt Coordination Complexes
Hydrogen Transfer Reactivity of a Ferric Bi-imidazoline Complex That Models the Activity of Lipoxygenase Enzymes
Experimental and Computational Investigations of Oxygen Reactivity in a Heme and Tyrosyl Radical-Containing Fatty Acid
Published: September 08, 2011 r 2011 American Chemical Society 15846 dx.doi.org/10.1021/ja2059523 |J. Am. Chem. Soc. 2011, 133, 1584615849
