Medicine & Life Sciences
1,4-dioxane
100%
Propane
88%
Mixed Function Oxygenases
68%
Mycobacterium
65%
tetrahydrofuran monooxygenase
25%
Environmental Biodegradation
16%
Multigene Family
11%
Biotransformation
6%
Hydroxylation
6%
Metabolic Networks and Pathways
5%
Amino Acid Sequence
5%
Reverse Transcription
4%
Clone Cells
4%
Acids
4%
Costs and Cost Analysis
3%
Polymerase Chain Reaction
3%
Enzymes
3%
Agriculture & Biology
dioxane
79%
propane
74%
Mycobacterium
66%
degradation
36%
tetrahydrofuran
14%
bioremediation
12%
multigene family
10%
hydroxylation
5%
biodegradation
5%
biotransformation
5%
biochemical pathways
4%
reverse transcriptase polymerase chain reaction
4%
transcription (genetics)
4%
amino acid sequences
3%
clones
3%
metabolism
3%
acids
3%
enzymes
2%
Engineering & Materials Science
Propane
67%
Degradation
41%
Natural attenuation
34%
Bioremediation
27%
Transcription
20%
Genes
16%
Hydroxylation
15%
Biotransformation
14%
Polymerase chain reaction
12%
Biodegradation
12%
Metabolic Networks and Pathways
11%
Metabolism
10%
Amino acids
10%
Enzymes
9%
Acids
7%
Decomposition
6%
Costs
3%
Earth & Environmental Sciences
propane
68%
degradation
39%
natural attenuation
21%
bioremediation
16%
gene
13%
polymerase chain reaction
9%
biotransformation
9%
clone
9%
amino acid
7%
biodegradation
7%
metabolism
7%
plume
6%
enzyme
6%
decomposition
6%
acid
5%
detection
5%
cost
4%
analysis
2%
Chemical Compounds
1,4-dioxane
69%
Dioxane
63%
Propane
57%
Molecular Cluster
8%
Biodegradation
7%
Chain Reaction
6%
Environmental Friendliness
6%
Amino Acid Sequence
6%
Metabolic
5%
Pharmacological Metabolism
5%
Decomposition
4%
Acid
2%
Application
2%