INIS
mutagenesis
100%
protein engineering
100%
enzymes
60%
hydrolysis
60%
cellulose
60%
comparative evaluations
40%
yeasts
40%
engineering
40%
applications
40%
stability
40%
cellulases
40%
screening
40%
randomness
40%
bridges
40%
mutants
40%
production
20%
substrates
20%
biomass
20%
pulps
20%
errors
20%
raw materials
20%
trichoderma reesei
20%
carbohydrates
20%
paper industry
20%
fungi
20%
host
20%
mutations
20%
bioethanol
20%
pcr
20%
disulfides
20%
textile industry
20%
carbon 9
20%
Keyphrases
Cellobiohydrolase
100%
Engineering Studies
100%
Protein Engineering
100%
Thermal Stability
27%
Microcrystalline Cellulose
27%
Cel7A
27%
Hydrolysis
18%
Cellulase
18%
Melanocarpus Albomyces
18%
Cel7B
18%
Talaromyces Emersonii
18%
Random mutagenesis
18%
Trichoderma Reesei
9%
Pulp Industry
9%
Industrial Conditions
9%
Avicel
9%
Screening Method
9%
High Activity
9%
Carbohydrate-binding Module
9%
Bioethanol Production
9%
Site-directed mutagenesis
9%
Textile Industry
9%
Functional Screening
9%
Polymer Substrate
9%
Mutagenesis Studies
9%
Highly Active
9%
Biomass-based
9%
Dry Yeast
9%
Biomass Hydrolysis
9%
Heterologous Expression
9%
Single Module
9%
Disulfide Bridge
9%
Thermophilic Fungi
9%
Unfolding Temperature
9%
Trichoderma Reesei Cel7A
9%
GH Family
9%
Second-generation Bioethanol
9%
Industrial Enzymes
9%
Thermotolerance
9%
Chaetomium Thermophilum
9%
Thermoascus Aurantiacus
9%
Triple mutant
9%
Structure-guided
9%
Heterologous Expression System
9%
Structure-guided mutagenesis
9%
Acremonium
9%
Error-prone PCR
9%
Yeast Expression System
9%
Lignocellulosic Raw Material
9%
Engineering
Protein Engineering
100%
Microcrystalline
50%
Random Mutagenesis
50%
Expression System
50%
Engineering
50%
Lignocellulosics
25%
Industrial Condition
25%
Potential Application
25%
Key Enzyme
25%
Carbohydrate Binding Module
25%
Bioethanol Production
25%
Acremonium
25%