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Evidence for chaotropicity/kosmotropicity offset in a yeast growth model
Joshua Eardley
, Cinzia Dedi
,
Marcus Dymond
, John E. Hallsworth
, David Timson
Centre for Lifelong Health
Applied Chemical Sciences Research Excellence Group
Research output
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›
peer-review
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Keyphrases
Activity Growth
20%
Ammonium Sulfate
60%
Betaine
40%
Biological Macromolecules
20%
Butanol Fermentation
20%
Chaotropes
80%
Chaotropic
40%
Chaotropicity
100%
Compatible Solutes
60%
Denaturation
20%
Ethanol
60%
Ethanol Fermentation
20%
Fermentation
20%
Fermentation Products
20%
Glycerol
40%
Growth Inhibition
20%
Growth Model
100%
Growth Rate
40%
Inhibitory Effect
20%
Kosmotropes
100%
Kosmotropic Salts
20%
Kosmotropicity
100%
Lag Time
20%
Macromolecular Complex
20%
Maximum Specific Growth Rate
20%
Metabolic
20%
Metabolic Activity
20%
Microbes
20%
Opposite Effects
20%
Optical Density
20%
Product Formation
20%
Saccharomyces Cerevisiae
40%
Stress Protectant
20%
Urea
40%
Yeast Growth
100%
Biochemistry, Genetics and Molecular Biology
Ammonium Sulfate
100%
Butanol
33%
Butene
33%
Denaturation
33%
Glycerol
66%
Macromolecule
66%
Microorganism
33%
Optical Density
33%
Saccharomyces cerevisiae
66%
Trimethylglycine
66%
Pharmacology, Toxicology and Pharmaceutical Science
Ammonium Sulfate
100%
Butanol
33%
Microorganism
33%
Saccharomyces cerevisiae
66%
Table Salt
33%
Trimethylglycine
66%
Chemical Engineering
Betaine
100%
Butene
50%