Keyphrases
Saccharomyces Cerevisiae
100%
Molecular Mechanism
100%
Aldehydes
100%
Aldehyde Toxicity
100%
Functional Groups
22%
Macromolecules
22%
Physicochemical Characteristics
22%
Protection Mechanism
22%
Renewable Biomass
11%
Mini
11%
Metabolism
11%
Microorganisms
11%
Systems Biology
11%
Synthetic Biology
11%
Strategies to Overcome
11%
Formaldehyde
11%
Fermentation Process
11%
Additive Effect
11%
Complex Mixtures
11%
Benzaldehyde
11%
Single Effect
11%
Cell Factory
11%
Molecular Approaches
11%
Valuable Products
11%
Structure-activity Relationship
11%
Detoxification
11%
Targeted Compounds
11%
Sustainable Biomass
11%
Vanillin
11%
Methylglyoxal
11%
Functional Class
11%
Aldehyde Inhibitor
11%
Biomass Materials
11%
Two-tier
11%
Synergistic Toxicity
11%
Severe Toxicity
11%
S. Cerevisiae Cells
11%
Pretreated Biomass
11%
Biological Conversion
11%
Lignin-derived
11%
Aldehyde Intermediates
11%
Conversion Pathway
11%
Electrophilic Compounds
11%
Molecular Toxicity
11%
Glycolaldehyde
11%
Toxic Potency
11%
Lignocellulosic Substrates
11%
Aldehyde Compounds
11%
Toxic Aldehydes
11%
Synthetic Yeast
11%
Lignocellulosic Compounds
11%
Furfural Conversion
11%
Yeast Cell Factories
11%
Pharmacology, Toxicology and Pharmaceutical Science
Functional Groups
100%
Saccharomyces cerevisiae
100%
Electrophile
50%
Benzaldehyde
50%
Microorganism
50%
Drug
50%
Detoxication
50%
Furfural
50%
Vanillin
50%
Methylglyoxal
50%