Substrate and Enzyme Specificity of the Kinetic Isotope Effects Associated with the Dioxygenation of Nitroaromatic Contaminants

Medicine & Life Sciences

• Substrate Specificity 100%
• Isotopes 96%
• nitrobenzene 65%
• Kinetics 64%
• Enzymes 49%
• 2-nitrotoluene dioxygenase 31%
• 2,6-dinitrotoluene 22%
• Catechols 20%
• Dioxygenases 18%
• naphthalene 18%
• Catalysis 15%
• Biotransformation 15%
• Environmental Pollutants 14%
• Iron 10%

Earth & Environmental Sciences

• enzyme 71%
• isotope 66%
• substrate 61%
• kinetics 54%
• pollutant 52%
• oxygenation 43%
• fractionation 42%
• effect 20%
• catalysis 14%
• biotransformation 14%
• naphthalene 13%
• isomer 13%
• organic pollutant 13%
• biodegradation 11%
• iron 8%
• evaluation 6%
• experiment 5%
• rate 4%

Chemical Compounds

• Kinetic Isotope Effect 98%
• Isotope 77%
• Oxygenation 59%
• Nitrotoluene 56%
• 2-Nitrotoluene 30%
• 2,6-dinitrotoluene 29%
• Catechols 23%
• Biodegradation 18%
• Isotope Effect 18%
• Naphthalene 16%
• Compound Isomer 12%