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Engineering of Saccharomyces cerevisiae for efficient fermentation of cellulose
Eun Joong Oh,
Yong Su Jin
Food Science and Human Nutrition
Nutritional Sciences
Carl R. Woese Institute for Genomic Biology
Research output
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Review article
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peer-review
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Keyphrases
Saccharomyces Cerevisiae
100%
Fermentation
100%
Cellulose
100%
Lignocellulosic Biomass
50%
Biofuel Production
25%
Recent Advances
25%
Biofuel
25%
Co-fermentation
25%
Heterologous Expression
25%
Petroleum-based
25%
Microbial Fermentation
25%
Yeast Strains
25%
Lignocellulose
25%
Pentose Sugars
25%
Synthetic Biology Tools
25%
Engineering Strategies
25%
Consolidated Bioprocessing
25%
Hexose Sugars
25%
Cellulolytic Enzymes
25%
Engineered Yeast Strains
25%
Production Base
25%
Cellulolytic
25%
Microbial Conversion
25%
Microbial Platform
25%
Biomass Hydrolysis
25%
Systems Biology Tools
25%
Biological Routes
25%
Engineering
Engineering
100%
Cerevisiae
100%
Microbial
75%
Lignocellulosic Biomass
50%
Hexose
25%
Biofuels
25%
Co-Fermentation
25%
Biofuel
25%
Engineering Strategy
25%
Pentose
25%
Bioprocesses
25%
Synthetic Biology Tool
25%
Cellulolytic Enzyme
25%