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Investigation and engineering of respiratory energy coupling in yeasts
H. Jürgens
*
*
Corresponding author for this work
BT/Industriele Microbiologie
Research output
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Thesis
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Dissertation (TU Delft)
274
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INIS
yeasts
100%
substrates
100%
energy
100%
coupling
100%
investigations
100%
atp
100%
engineering
100%
oxygen
50%
carbon
50%
conversion
50%
fuels
50%
oxidation
50%
biological materials
50%
drugs
50%
free energy
50%
genetic engineering
50%
growth
50%
synthesis
50%
maintenance
50%
carbon dioxide
50%
respiration
50%
water
50%
microorganisms
50%
Engineering
Engineering
100%
Substrates
100%
Energy Engineering
100%
Product Formation
50%
Maintenance Requirement
50%
Microbial
50%
Water
50%
Final Product
50%
Fuel
50%
Product
50%
Cell Factory
50%
Renewable Feedstock
50%
Bioprocesses
50%
Chemical Engineering
Genetic Engineering
100%
Gibbs Free Energy
100%
Carbon Dioxide
100%
Water
100%
Oxygen
100%
Carbon
100%
Material Science
Adenosinetriphosphate
100%
Fuel
50%
Water
50%
Feedstock
50%
Biomaterial
50%
Oxidation Reaction
50%
Carbon Dioxide
50%
Keyphrases
Aerobic Bioprocess
100%
Oxygen Release
100%