Chemistry
Catabolic
100%
Aromatic Compound
80%
4-Hydroxybenzoic Acid
80%
Biochemical Reaction
40%
Ring Opening Reaction
40%
Dioxygenases
40%
Benzenetriol
40%
Oxidative Decarboxylation
40%
Biopolymer
40%
Carbon Dioxide
40%
hydroxylation
40%
Metabolic
20%
Depolymerization
20%
Bioconversion
20%
Cellulose
20%
Bioproduct
20%
Hemicellulose
20%
Hydroquinone
20%
Aromatic Hydroxylation
20%
Ring Cleavage
20%
Cytochrome P450
20%
Tamsulosin
20%
Biochemistry, Genetics and Molecular Biology
White Rot Fungus
100%
Enzyme
54%
4-Hydroxybenzoic Acid
36%
Hydroxylation
27%
Oxygenase
27%
Carboxy-Lyases
27%
Biopolymer
18%
Ring Opening
18%
Decarboxylation
18%
Proteomics
18%
Dioxygenase
18%
Cellulose
9%
Depolymerization
9%
Genetics
9%
Basidiomycete
9%
Protein Family
9%
Isotope Labeling
9%
Fungal Strain
9%
Carbon Metabolism
9%
Metabolic Engineering
9%
Populus
9%
Carbon Sequestration
9%
Transcriptomics
9%
Metabolomics
9%
Biotransformation
9%
Aerobic Metabolism
9%
Ceriporiopsis subvermispora
9%
Isotopic Labeling
9%
Hemicellulose
9%
Enzyme Assay
9%
Trametes Versicolor
9%
Tamsulosin
9%
Cytochrome P450
9%
Agricultural and Biological Sciences
White-Rot Fungi
100%
4-Hydroxybenzoic Acid
36%
Hydroxylation
27%
Oxygenase
27%
Carboxy-Lyases
27%
Biopolymer
18%
Proteomics
18%
Bioproducts
9%
Bioconversion
9%
Biological Sciences
9%
Metabolomics
9%
Carbon Sequestration
9%
Metabolic Engineering
9%
Transcriptomics
9%
Isotopic Labeling
9%
Enzyme Assay
9%
Populus
9%
Hemicellulose
9%
Isotope Labeling
9%
Ceriporiopsis subvermispora
9%
Cytochrome P450
9%
Tamsulosin
9%
Trametes Versicolor
9%
Immunology and Microbiology
White Rot Fungus
100%
Hydroxylation
27%
Decarboxylation
18%
Ring Opening
18%
Trametes Versicolor
9%
Ceriporiopsis subvermispora
9%
Carbon Sequestration
9%
Carbon Metabolism
9%
Metabolic Engineering
9%
Depolymerization
9%
Transcriptomics
9%
Populus
9%
Biotransformation
9%
Protein Family
9%
Basidiomycete
9%
Isotope Labeling
9%
Fungal Strain
9%
Aerobic Metabolism
9%