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Oxidoreductases / Dietary minerals / Antioxidants / Superoxide dismutase / Oxidative stress / Copper / Reactive oxygen species / Superoxide / Kinetic isotope effect / Chemistry / Free radicals / Metalloproteins


Bioinorganic Reaction Mechanisms: Activated Oxygen Intermediates in Metalloenzymes
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Document Date: 2007-11-27 19:12:54

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City

Baltimore / Sausalito / /

Company

Fujisawa / IrIII O NCO PPh3 O Ph PPh3 CO / CuII N N Ph Ph Ph PPh3 CO / Pearson / Mills SA / Elsevier Ltd. / Roitberg AE / Nestor LP / Research Corporation / CRC Press / /

Currency

pence / /

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Facility

Johns Hopkins University / University Science Books / /

IndustryTerm

active site / metal / reorganization energy / chemical pathway / isotopic zero-point energy levels / oxygen binding site / stable product / metal ion / metal superoxide / binuclear copper site / copper site / Metal-bound oxygen intermediates / chemical and biological systems / aldehyde product / point energy splitting / metal ions / /

OperatingSystem

CAOs / /

Organization

National Science Foundation / Johns Hopkins University / ACS Petroleum Research Fund / Department of Chemistry / /

Person

William B Tolman / Justine P Roth Metalloenzymes / Catherine L Drennan / /

Position

CAO / Gray HB / Lanci MP / Corresponding author / /

Product

Cottrell Scholar Award (CS-1461) / /

ProvinceOrState

California / /

PublishedMedium

Inorganic Chemistry / Current Opinion / /

Technology

X-ray / spectroscopy / simulation / /

URL

www.sciencedirect.com / /

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