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Mass Action Stoichiometric. Simulation for Cell Factory Design
Marta R. A. Matos
Novo Nordisk Foundation Center for Biosustainability
Quantitative Modeling of Cell Metabolism
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Book/Report
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Ph.D. thesis
883
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Dive into the research topics of 'Mass Action Stoichiometric. Simulation for Cell Factory Design'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
Kinetics
100%
Mass Action
100%
Metabolite
80%
Enzyme
60%
Cell Metabolism
60%
Mutagenesis
20%
Metabolic Pathway
20%
Dynamics
20%
Genetics
20%
Catalytic Efficiency
20%
Saccharomyces cerevisiae
20%
Computer Model
20%
Microorganism
20%
Steady State
20%
Binding Energy
20%
Pulse Rate
20%
Enzyme Regulation
20%
Penicillin
20%
Immunology and Microbiology
Kinetics
100%
Mass Action
100%
Metabolite
80%
Cell Metabolism
60%
Pulse Rate
20%
Dynamics
20%
Microorganism
20%
Saccharomyces cerevisiae
20%
Catalytic Efficiency
20%
Mutagenesis
20%
Steady State
20%
Penicillin
20%
Computer Model
20%
Enzyme Regulation
20%
Engineering
Kinetic Model
100%
Cell Factory
100%
Mass Action
100%
Rate Constant
40%
Experimental Result
20%
Computer Simulation
20%
Cellular Response
20%
Cerevisiae
20%
Main Type
20%
Sustainable Future
20%
Random Mutagenesis
20%
Random Selection
20%
Engineering
20%
Binding Energy
20%
Material Science
Metabolite
100%
Chemical Engineering
Genetic Engineering
100%
Keyphrases
Mass-action Kinetics
20%