Keyphrases
Cellobiohydrolase
100%
Phanerochaete Chrysosporium
100%
Glycoside Hydrolase Family 6
100%
Basidiomycetes
100%
Thermostable mutant
100%
Thermal Stability
28%
Cel6A
28%
Cellulosic Biomass
28%
High Temperature
14%
Low Temperature
14%
Cellulase
14%
Fungi
14%
Renewable Resources
14%
Pichia Pastoris
14%
Disulfide Bond
14%
Efficient Utilization
14%
Hydrolytic Activity
14%
Cysteine Residues
14%
Heterologous Expression
14%
Glycoside Hydrolase Family
14%
Random mutagenesis
14%
Catalytic Rate
14%
Thermal Inactivation
14%
Industrial Utilization
14%
Saccharifying Enzyme
14%
Mutagenesis Library
14%
Carbohydrate Active Enzyme (CAZy)
14%
Rationally Designed
14%
INIS
hydrolases
100%
mutants
100%
phanerochaete
100%
glycosides
100%
enzymes
60%
comparative evaluations
40%
biomass
40%
stability
40%
yeasts
20%
libraries
20%
residues
20%
cellulase
20%
carbohydrates
20%
fungi
20%
randomness
20%
renewable resources
20%
mutagenesis
20%
disulfides
20%
cysteine
20%
inactivation
20%
Biochemistry, Genetics and Molecular Biology
Basidiomycete
100%
Phanerochaete
100%
Glycoside Hydrolase
100%
Enzyme
75%
Thermostability
50%
Hydrolase
25%
Disulfide Bond
25%
Mutagenesis
25%
Komagataella pastoris
25%
Heterologous Expression
25%
Cellulase
25%
Cysteine
25%
Immunology and Microbiology
Basidiomycete
100%
Phanerochaete
100%
Thermostability
100%
Komagataella pastoris
50%
Heterologous Expression
50%
Mutagenesis
50%
Disulfide Bond
50%
Engineering
Cellulosic Biomass
100%
Low-Temperature
50%
Carbohydrate-Active Enzymes
50%
Efficient Utilization
50%
Random Mutagenesis
50%
Limiting Factor
50%
Renewable Resource
50%