Keyphrases
Substrate Specificity
100%
Kinetic Isotope Effect
100%
Enzyme Specificity
100%
Dioxygenation
100%
Nitroaromatic Pollutants
100%
Isotope Fractionation
66%
Aromatics
50%
O2 Activation
50%
Oxygenation
50%
Nitrobenzene
50%
Nitrotoluene
50%
C Isotopes
33%
H-isotopes
33%
Biotransformation
16%
Reaction Kinetics
16%
Biodegradation
16%
Compound-specific Isotope Analysis
16%
Common Mechanisms
16%
Catechol
16%
Dioxygenase
16%
Reaction Rate
16%
Naphthalene
16%
Nitroaromatics
16%
Activation Kinetics
16%
Non-heme Iron Oxygenase
16%
Nitroaromatic Compounds
16%
Aromatic Pollutants
16%
2,4,6-Trinitrotoluene
16%
Organic Pollutants
16%
Minor Isotopes
16%
Chemistry
Kinetic Isotope Effect
100%
Fractionation
100%
Nitrobenzene
75%
Dioxygenases
50%
Nitrotoluene
50%
Catechol
25%
Substrate Specificity
25%
2,6-dinitrotoluene
25%
2-Nitrotoluene
25%
Naphthalene
25%
Biodegradation
25%
Biochemistry, Genetics and Molecular Biology
Kinetic Isotope Effect
100%
Enzyme Specificity
100%
Fractionation
100%
Oxygenation
75%
Dioxygenase
50%
Chemical Reaction Kinetics
25%
Enzyme
25%
Biotransformation
25%
Biodegradation
25%
Pharmacology, Toxicology and Pharmaceutical Science
Nitrobenzene
100%
Dioxygenase
66%
Substrate Specificity
33%
Iron
33%
Catechol Derivative
33%
Naphthalene
33%
Carbon 13
33%
2 Nitrotoluene
33%
Aromatic Nitro Compound
33%
2,6 Dinitrotoluene
33%