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Keyphrases
Aspergillus Niger
100%
Functional Analysis
100%
Salicylic Acid
100%
Hydroxylase
100%
Cis,cis-muconic Acid
60%
Catechol
30%
Salicylate Hydroxylase
30%
Plant Biomass
20%
Fungi
20%
Metabolic Pathway
20%
Platform Chemicals
20%
Lubricant
10%
Microorganisms
10%
Filamentous Fungi
10%
Escherichia Coli
10%
Petroleum-based
10%
Petroleum
10%
Chemical Synthesis
10%
Renewable Sources
10%
Deletion mutant
10%
Biochemical Characterization
10%
Heterologous Production
10%
Aromatic Ring
10%
Valuable Chemicals
10%
Polyethylene Terephthalate
10%
Non-renewable
10%
Plant Pathogenic Fungi
10%
Decarboxylase
10%
Decarboxylation
10%
Fungal Metabolism
10%
Hydroxylated
10%
Nylon
10%
Efficient Strategy
10%
Non-pathogenic
10%
Plant Immune Responses
10%
Catechol 1,2-dioxygenase
10%
In Vivo Role
10%
2,3-dihydroxybenzoic Acid
10%
Polyurethane Resin
10%
Am(III)
10%
Transcriptomic Data
10%
Salicylic Acid Signaling
10%
INIS
niger
100%
aspergillus
100%
functional analysis
100%
salicylic acid
100%
hydroxylase
100%
genes
36%
fungi
36%
catechol
36%
enzymes
27%
production
18%
biomass
18%
metabolism
18%
metabolic pathways
18%
petroleum
18%
microorganisms
9%
data
9%
lubricants
9%
resins
9%
in vivo
9%
synthesis
9%
aromatics
9%
mutants
9%
escherichia coli
9%
rings
9%
polyethylene terephthalate
9%
polyurethanes
9%
decarboxylase
9%
decarboxylation
9%
nylon
9%
Biochemistry, Genetics and Molecular Biology
Aspergillus Niger
100%
Oxygenase
100%
Metabolic Pathway
75%
Enzyme
75%
Dioxygenase
25%
Decarboxylation
25%
Microorganism
25%
Filamentous Fungus
25%
Deletion Mutant
25%
Escherichia coli
25%
Fungal Metabolism
25%
Carboxy-Lyases
25%
Plant Immunity
25%
Transcriptome
25%
Pharmacology, Toxicology and Pharmaceutical Science
Salicylic Acid
100%
Oxygenase
100%
Aspergillus Niger
100%
Muconic Acid
42%
Catechol
21%
2,3 Dihydroxybenzoic Acid
14%
Filamentous Fungus
7%
Catechol 1,2 Dioxygenase
7%
Escherichia coli
7%
Carboxylyase
7%
Lubricating Agent
7%
Transcriptome
7%
Microorganism
7%
Polyethylene Terephthalate
7%
Polyurethan
7%
Immunology and Microbiology
Salicylic Acid
100%
Aspergillus Niger
100%
Pathogenic Fungi
9%
Transcriptome
9%
Filamentous Fungus
9%
Deletion Mutant
9%
Immune Response
9%
Escherichia coli
9%
Fungal Metabolism
9%
Decarboxylation
9%
Microorganism
9%
Dioxygenase
9%