Keyphrases
Inverse Metabolic Engineering
100%
Saccharomyces Cerevisiae
100%
Fermentation
100%
Galactose
100%
Overexpression
71%
Tup1
35%
Ethanol Productivity
21%
Transformant
14%
Ethanol Yield
14%
PGM2
14%
GAL Genes
14%
Ethanol
7%
Engineering Approach
7%
Truncated Forms
7%
Ethanol Production
7%
Rate Limiting
7%
Glucose Repression
7%
Biofuel
7%
MRNA Level
7%
Genetic Perturbation
7%
Beneficial Effects
7%
Consumption Rate
7%
High-level Expression
7%
Repressor
7%
Growth Productions
7%
Plant Biomass
7%
Metabolic Genes
7%
Lag Period
7%
Galactose Utilization
7%
Cheese Whey
7%
Fermentation Capacity
7%
GAL80
7%
SnRNA
7%
Repression Domain
7%
Global Regulatory Networks
7%
Red Seaweed
7%
Enrichment Method
7%
Marine Plants
7%
Gal4
7%
Alleviation
7%
Phosphoglucomutase
7%
Phosphomannomutase
7%
Molasses
7%
Galectin-1 (Gal-1)
7%
Biochemistry, Genetics and Molecular Biology
Metabolic Engineering
100%
Saccharomyces cerevisiae
100%
Galactose
100%
Saccharomyces cerevisiae
20%
Genetics
6%
Messenger RNA
6%
C-Terminus
6%
Transcription
6%
Repressor
6%
Regulatory Network
6%
Small Nuclear RNA
6%
Phosphoglucomutase
6%
Phosphomannomutase
6%