Keyphrases
Biodegradation
100%
Mono-oxygenation
100%
Isotope Fractionation
100%
P-Nitrophenol
100%
4-Nitrophenol
100%
N Isotopes
66%
C Isotopes
66%
Kinetic Isotope Effect
50%
Nitrophenol
50%
Apparent Kinetics
50%
Pseudomonas
33%
Nitroaromatic Compounds
33%
1,4-benzoquinone
33%
Microorganisms
16%
Cell Membrane
16%
Substrate Binding
16%
Bacillus
16%
Pseudomonas Putida
16%
Rate Limiting
16%
Biodegradation Pathway
16%
Biodegrade
16%
PH Range
16%
Isotopic Signature
16%
Flavin-dependent Monooxygenase
16%
Catalytic Cycle
16%
Speciation
16%
Crude Cell Extract
16%
Arthrobacter
16%
Resting Cells
16%
Benzoquinone
16%
Aromatic Pollutants
16%
Effect Value
16%
Compound-specific Isotope Analysis
16%
Cometabolic
16%
Pharmacology, Toxicology and Pharmaceutical Science
4 Nitrophenol
100%
Nitrophenol
100%
2 Nitrophenol
100%
Nitrogen 15
100%
Carbon 13
66%
1,4 Benzoquinone
66%
Aromatic Nitro Compound
66%
Pseudomonas
66%
Microorganism
33%
Riboflavin Derivative
33%
Cell Extract
33%
Arthrobacter
33%
Benzoquinone
33%
Pseudomonas putida
33%
Unspecific Monooxygenase
33%
Biochemistry, Genetics and Molecular Biology
Fractionation
100%
Oxygenation
100%
Biodegradation
100%
Kinetic Isotope Effect
50%
Pseudomonas
33%
Microorganism
16%
Enzyme
16%
Unspecific Monooxygenase
16%
Cell Extract
16%
Arthrobacter
16%
Species Differentiation
16%
Cell Membrane
16%
Pseudomonas putida
16%
Immunology and Microbiology
Biodegradation
100%
Fractionation
100%
Oxygenation
100%
Pseudomonas
33%
Microorganism
16%
Pseudomonas putida
16%
Monooxygenase
16%
Cell Extract
16%
Cell Membrane
16%
Arthrobacter
16%
Species Differentiation
16%