Keyphrases
Saccharomyces Cerevisiae
100%
Xylose
100%
Recombinant
100%
Proteomic Analysis
100%
Transcriptional Analysis
100%
Hemicellulose
60%
Pentose Sugars
40%
Xylose Fermentation
40%
Cellular Metabolism
40%
Xylose Reductase
40%
Xylitol Dehydrogenase
40%
Lignocellulosic Materials
20%
Microorganisms
20%
Economically Feasible
20%
Nicotinamide Adenine Dinucleotide (NAD+)
20%
Nicotinamide Adenine Dinucleotide Phosphate (NADPH)
20%
Overexpression
20%
Ethanol
20%
Bioethanol
20%
Recombinant S. Cerevisiae
20%
Physiological Condition
20%
Xylose Consumption
20%
Pentose Phosphate Pathway
20%
Pichia Stipitis
20%
Metabolism
20%
Utilization Pathways
20%
Efficient Utilization
20%
Natural Abundance
20%
Hexose Sugars
20%
Reductive Pathway
20%
Pentose
20%
Culture Conditions
20%
XYL1
20%
XYL2
20%
Xylulokinase
20%
Proteomics
20%
Redox Balance
20%
Genome-wide Approaches
20%
Xylose-fermenting Yeast
20%
Redox Enzymes
20%
Global Strategy
20%
Encoding Gene
20%
Carbon Metabolism Pathway
20%
Derived Carbon
20%
Central Carbon
20%
INIS
saccharomyces cerevisiae
100%
transcription
100%
xylose
100%
carbon
40%
pentoses
40%
hemicellulose
30%
metabolism
30%
yeasts
20%
genes
20%
sugars
20%
reductases
20%
dehydrogenases
20%
economics
10%
levels
10%
enzymes
10%
fermentation
10%
production
10%
balances
10%
biomass
10%
sugar
10%
glucose
10%
conversion
10%
nad
10%
ethanol
10%
ethanol fuels
10%
phosphates
10%
abundance
10%
hexoses
10%
Biochemistry, Genetics and Molecular Biology
Transcription
100%
Saccharomyces cerevisiae
100%
Proteome
100%
Xylose
100%
Oxidoreductase
50%
Pentose
30%
Hemicellulose
30%
Reductase
20%
Dehydrogenase
20%
Cell Metabolism
20%
Xylitol
20%
Metabolic Pathway
10%
Scheffersomyces Stipitis
10%
Genomics
10%
Hexose Monophosphate Shunt
10%
Hexose
10%
Proteomics
10%
Food Science
Xylitol
100%
Pichia
50%
Proteomics
50%