Add to ORKGA novel modeling approach for the description of bioprocesses is proposed, linking microbial growth kinetics to gene regulation. An example is given with the development and experimental validation of a dynamic mathematical model of the TOL plasmid of Pseudomonas putida mt-2, which is used for the metabolism of m-xylene. The model of this genetic circuit is coupled to a growth kinetic model through predictions of rate-limiting enzyme concentrations that control biomass growth and substrate consumption. Batch cultures of mt-2 fed with m-xylene were performed to estimate model parameters and to confirm that the combined model successfully describes the bioprocess, through mRNA, biomass and m-xylene concentration measurements. However, mathema...
Conversion of renewable biomass to useful molecules in microbial cell factories can be approached in...
Identifying the factors that determine microbial growth rate under various environmental and genetic...
Identifying the factors that determine microbial growth rate under various environmental and genetic...
A novel modeling approach for the description of bioprocesses is proposed, linking microbial growth ...
The majority of models describing the kinetic properties of a microorganism for a given substrate ar...
The majority of models describing the kinetic properties of a microorganism for a given substrate ar...
A modelling framework that consists of model building, validation and analysis, leading to model-bas...
The molecular and genetic events responsible for the growth kinetics of a microorganism can be exten...
Bioprocesses performance is monitored using microbial growth kinetics models. However most of them a...
Currently, design and optimisation of biotechnological bioprocesses is performed either through exha...
The complexity of the regulatory network and the interactions that occur in the intracellular enviro...
The complexity of the regulatory network and the interactions that occur in the intracellular enviro...
Conversion of renewable biomass to useful molecules in microbial cell factories can be approached in...
AbstractThe complexity of the regulatory network and the interactions that occur in the intracellula...
Mathematical models for microbial growth based on reaction kinetics are generally successful in pred...
Conversion of renewable biomass to useful molecules in microbial cell factories can be approached in...
Identifying the factors that determine microbial growth rate under various environmental and genetic...
Identifying the factors that determine microbial growth rate under various environmental and genetic...
A novel modeling approach for the description of bioprocesses is proposed, linking microbial growth ...
The majority of models describing the kinetic properties of a microorganism for a given substrate ar...
The majority of models describing the kinetic properties of a microorganism for a given substrate ar...
A modelling framework that consists of model building, validation and analysis, leading to model-bas...
The molecular and genetic events responsible for the growth kinetics of a microorganism can be exten...
Bioprocesses performance is monitored using microbial growth kinetics models. However most of them a...
Currently, design and optimisation of biotechnological bioprocesses is performed either through exha...
The complexity of the regulatory network and the interactions that occur in the intracellular enviro...
The complexity of the regulatory network and the interactions that occur in the intracellular enviro...
Conversion of renewable biomass to useful molecules in microbial cell factories can be approached in...
AbstractThe complexity of the regulatory network and the interactions that occur in the intracellula...
Mathematical models for microbial growth based on reaction kinetics are generally successful in pred...
Conversion of renewable biomass to useful molecules in microbial cell factories can be approached in...
Identifying the factors that determine microbial growth rate under various environmental and genetic...
Identifying the factors that determine microbial growth rate under various environmental and genetic...