Optimal bioprocess design through a gene regulatory network–Growth kinetic hybrid model: Towards replacing Monod kinetics
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
[PDF][PDF] Optimal bioprocess design through a gene regulatory network–Growth kinetic hybrid model: Towards replacing Monod kinetics
A Tsipa, M Koutinas, C Usaku, A Mantalaris - researchgate.net
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
Optimal bioprocess design through a gene regulatory network-Growth kinetic hybrid model: Towards replacing Monod kinetics
A Tsipa, M Koutinas, C Usaku… - Metabolic …, 2018 - pubmed.ncbi.nlm.nih.gov
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
Optimal bioprocess design through a gene regulatory network-Growth kinetic hybrid model: Towards replacing Monod kinetics.
A Tsipa, M Koutinas, C Usaku… - Metabolic Engineering, 2018 - europepmc.org
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
Optimal bioprocess design through a gene regulatory network–growth kinetic hybrid model: towards replacing Monod kinetics
A Tsipa, M Koutinas, C Usaku… - Metabolic engineering, 2018 - ktisis.cut.ac.cy
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
Optimal bioprocess design through a gene regulatory network–Growth kinetic hybrid model: Towards replacing Monod kinetics
A Tsipa, M Koutinas, C Usaku, A Mantalaris - Metabolic Engineering, 2018 - infona.pl
Currently, design and optimisation of biotechnological bioprocesses is performed either
through exhaustive experimentation and/or with the use of empirical, unstructured growth …
through exhaustive experimentation and/or with the use of empirical, unstructured growth …