Biochemistry, Genetics and Molecular Biology
Nested Gene
100%
Dioxygenase
62%
Rhodococcus
57%
Lysozyme
44%
Operon
43%
Growth
35%
Mutant
34%
Degradation
34%
Escherichia coli
25%
Mycobacterium
24%
Dehydrogenase
23%
Experiment
17%
Catechol 2,3-dioxygenase
17%
Heat Shock
14%
Protein
14%
Metabolic Pathway
13%
Amlodipine
13%
Hydroxylation
12%
Bacterium
11%
Aptitude
11%
Methylotrophic Bacterium
11%
Promoter Region
11%
Polymerase Chain Reaction
11%
Position
11%
Alpha Oxidation
11%
Peptide Sequence
11%
Temperature
11%
Energy
10%
Molecular Modeling
10%
Molecular Model
10%
Monooxygenase
10%
Histidine
10%
Electric Potential
9%
Toluene
9%
Mutation
9%
Synthase
9%
Catalase-Peroxidase
9%
Molecular Weight
9%
Reductase
9%
Putative Gene
9%
Binding Domain
9%
C-Terminus
9%
Autophosphorylation
8%
Copper
8%
Dihydroxyacetone
8%
Protein Sequencing
8%
Messenger RNA
8%
Transcription
8%
Active Site
8%
Carbon Monoxide Dehydrogenase
8%
Chemistry
Xylene
53%
Strain
45%
Degradation
40%
Dioxygenases
37%
Biphenyl
29%
Cleavage
20%
Benzoate
18%
Naphthalene
18%
Catabolic
16%
Phthalate Ester
14%
Metabolite
13%
Polychlorobiphenyl
13%
Oxygenase
12%
Phenanthrene
11%
Hydroxylation
11%
Catechol
10%
Carbon
10%
Ring Cleavage
9%
Salicylate
9%
Energy
8%
Group
7%
Anthracene
7%
Aromatic Compound
7%
Terpenoid
7%
Carbon Monoxide
7%
Analytical Method
7%
Assay
7%
Pharmacological Metabolism
7%
Gas Chromatography Mass Spectrometry (GCMS)
7%
Methanol
6%
Indene
6%
Inhibitor
6%
Tetralin
6%
Dichlorobiphenyl
6%
Toluene
6%
Oxidation Reaction
6%
Arene
6%
Environment
5%
Biodegradation
5%
1,2-dihydronaphthalene
5%
Metabolic
5%
Immunology and Microbiology
Gene
54%
Mycobacteria
31%
Degradation
30%
Growth
30%
Cells
18%
Mutant
16%
Operon
15%
Bacterium
14%
Genus
12%
Energy
12%
Promoter Region
12%
Experiment
12%
Benzene
11%
Aptitude
10%
Oxidation
10%
Metabolism
9%
Ant
7%
Acinetobacter
7%
Temperature
7%
Surface Property
6%
Sample
6%
Enzyme Activity
6%
Escherichia coli
6%
Protein Transport
5%
Biodegradation
5%
Naphthalene
5%
Molecular Weight
5%
Sphingomonas
5%
