Keyphrases
Tyrosinase
100%
Laccase
100%
Structural Characterization
100%
Oxidoreductase
100%
Biochemical Characterization
100%
Catechol Oxidase
100%
Ascomycete Fungi
100%
Trichoderma Reesei
35%
Tyrosine
35%
Redox Potential
28%
Casein
28%
Arenaria
28%
3,4-dihydroxyphenylalanine
28%
Crosslinking Agent
21%
Catechol
21%
Substrate Specificity
14%
Caffeic Acid
14%
Phenolic Substrates
14%
Dopachrome
14%
Oryza
14%
Methyl Syringate
14%
O-quinone
14%
Carbohydrates
7%
P-coumaric Acid
7%
Mass Spectrometry
7%
Single Electron
7%
Hydroxyl Group
7%
Low Affinity
7%
Bioreactor
7%
Aspergillus Oryzae
7%
Molecular Oxygen
7%
Oxidase
7%
Trametes Hirsuta
7%
Protease
7%
Optimum pH
7%
Reaction Products
7%
Melanocarpus Albomyces
7%
Product Inhibition
7%
Oxidative Capacity
7%
Free Amino Acids
7%
Terminal Electron Acceptor
7%
Ortho
7%
Oxidative Enzymes
7%
Protein Cross-linking
7%
Agaricus Bisporus
7%
Kex2
7%
Free Radicals
7%
Tripeptide
7%
Thermostable Enzyme
7%
Catalytic Oxidation
7%
Overall Structure
7%
Thielavia
7%
2,6-Dimethoxyphenol
7%
O-Diphenols
7%
T. Hirsuta
7%
Monophenols
7%
Kojic Acid
7%
Potential Inhibitors
7%
Potassium Cyanide
7%
Inhibition Mechanism
7%
Guaiacol
7%
Furin
7%
Tert
7%
Limited Range
7%
Substrate Inhibition
7%
Syringic Acid
7%
Hydrocaffeic Acid
7%
Monophenolic Compounds
7%
Substituted Phenols
7%
Phenylalanine Oxidation
7%
Metalloenzymes
7%
UniProtKB
7%
Aminophenol
7%
Reducing Group
7%
Entrez
7%
Cyanide Acid
7%
INIS
copper
100%
fungi
100%
tyrosinase
100%
oxidases
100%
oxidoreductases
100%
catechol
100%
substrates
71%
cross-linking
57%
oxidation
42%
enzymes
35%
tyrosine
35%
proteins
28%
redox potential
28%
phenols
28%
casein
28%
phenylalanine
28%
inhibition
21%
range
21%
ph value
21%
oryza
21%
comparative evaluations
14%
kinetics
14%
genes
14%
specificity
14%
catalysis
14%
quinones
14%
polymers
7%
affinity
7%
electrons
7%
molecular weight
7%
evaluation
7%
yields
7%
oxygen
7%
capacity
7%
trichoderma reesei
7%
carbohydrates
7%
crystal structure
7%
aspergillus
7%
resolution
7%
electron acceptor
7%
mass spectrometry
7%
hydroxides
7%
bioreactors
7%
cyanides
7%
monomers
7%
cloning
7%
free radicals
7%
potassium
7%
thielavia
7%
Biochemistry, Genetics and Molecular Biology
Oxidase
100%
Ascomycetes
100%
Tyrosinase
100%
Oxidoreductase
100%
Laccase
100%
Cross-Link
57%
Tyrosine
35%
Enzyme
35%
Oxidation Reduction Potential
28%
Phenylalanine
28%
Casein
28%
Enzyme Specificity
14%
Oryza
14%
Trichoderma reesei
7%
Crystal Structure
7%
Guaiacol
7%
Product Inhibition
7%
Metalloenzyme
7%
Molecular Weight
7%
Mass Spectrometry
7%
Aspergillus oryzae
7%
Trametes Hirsuta
7%
Protein Cross Linking
7%
Agaricus bisporus
7%
Protease
7%
Potassium Cyanide
7%
Tripeptide
7%
Pharmacology, Toxicology and Pharmaceutical Science
Ascomycetes
100%
Tyrosinase
100%
Oxidoreductase
100%
Catechol Oxidase
100%
Laccase
100%
Casein
28%
Phenylalanine
28%
Catechol
21%
Caffeic Acid
14%
Substrate Specificity
14%
Quinone Derivative
14%
Oryza
14%
Dopachrome
14%
Monomer
7%
Trametes Hirsuta
7%
Agaricus bisporus
7%
Kojic Acid
7%
Trichoderma reesei
7%
Aspergillus oryzae
7%
Proteinase
7%
Hydroxyl Group
7%
Coumaric Acid
7%
Syringol
7%
Dihydrocaffeic Acid
7%
Free Radical
7%
Aminophenol
7%
Furin
7%
Syringic Acid
7%
Guaiacol
7%
Potassium Cyanide
7%
Tripeptide
7%
Immunology and Microbiology
Cross Linking
100%
Ascomycota
100%
Oxidation Reduction Potential
50%
Enzyme Specificity
25%
Oryza
25%
Hypocrea jecorina
12%
Molecular Weight
12%
Crystal Structure
12%
Protein Cross Linking
12%
Negative Feedback
12%
Agaricus bisporus
12%
Trametes Hirsuta
12%
Aspergillus oryzae
12%
Bioreactor
12%
Chemical Engineering
Molecular Oxygen
100%
Mass Spectrometry
100%
Biochemical Reactor
100%
Phenol
100%