The cybernetic modeling framework provides an interesting approach to model the regulatory phenomena occurring in microorganisms. In the present work, we adopt a constraints based approach to analyze the nonlinear behavior of the extended equations of the cybernetic model. We first show that the cybernetic model exhibits linear growth behavior under the constraint of no resource allocation for the induction of the key enzyme. We then quantify the maximum achievable specific growth rate of microorganisms on mixtures of substitutable substrates under various kinds of regulation and show its use in gaining an understanding of the regulatory strategies of microorganisms. Finally, we show that Saccharomyces cerevisiae exhibits suboptimal dynamic...
The cybernetic framework developed by Ramkrishna and coworkers is extended to metabolic engineering....
Genome-scale, constraint-based models (GEM) and their derivatives are commonly used to model and gai...
78 pagesMetabolism is a process by which organisms extract energy from its environment to power i...
Mathematical models for microbial growth based on reaction kinetics are generally successful in pred...
Cybernetic modeling has traditionally been used in the modeling of microbial growth on multiple subs...
A model is presented to describe the observed behavior of microorganisms that aim at metabolic homeo...
Growth of microorganisms on substitutable substrate mixtures display diverse growth dynamics charact...
Cybernetic modeling strives to uncover the in-built regulatory programs of biological systems and le...
Understanding the growth behavior of microorganisms using modeling and optimization techniques is an...
The microbial growth in multi-substrate environments may be viewed as an optimal resources allocatio...
Flux balance analysis in combination with the decomposition of metabolic networks into elementary mo...
Mathematical models which utilize standard reaction kinetics to describe microbial growth are genera...
The nonlinear behavior of metabolic systems can arise from at least two different sources. One comes...
Cybernetic models of bioreactors are appealing due to their capacity to account for regulatory mecha...
The distinctive feature of cybernetic models of bioreactors is their capacity to account for regulat...
The cybernetic framework developed by Ramkrishna and coworkers is extended to metabolic engineering....
Genome-scale, constraint-based models (GEM) and their derivatives are commonly used to model and gai...
78 pagesMetabolism is a process by which organisms extract energy from its environment to power i...
Mathematical models for microbial growth based on reaction kinetics are generally successful in pred...
Cybernetic modeling has traditionally been used in the modeling of microbial growth on multiple subs...
A model is presented to describe the observed behavior of microorganisms that aim at metabolic homeo...
Growth of microorganisms on substitutable substrate mixtures display diverse growth dynamics charact...
Cybernetic modeling strives to uncover the in-built regulatory programs of biological systems and le...
Understanding the growth behavior of microorganisms using modeling and optimization techniques is an...
The microbial growth in multi-substrate environments may be viewed as an optimal resources allocatio...
Flux balance analysis in combination with the decomposition of metabolic networks into elementary mo...
Mathematical models which utilize standard reaction kinetics to describe microbial growth are genera...
The nonlinear behavior of metabolic systems can arise from at least two different sources. One comes...
Cybernetic models of bioreactors are appealing due to their capacity to account for regulatory mecha...
The distinctive feature of cybernetic models of bioreactors is their capacity to account for regulat...
The cybernetic framework developed by Ramkrishna and coworkers is extended to metabolic engineering....
Genome-scale, constraint-based models (GEM) and their derivatives are commonly used to model and gai...
78 pagesMetabolism is a process by which organisms extract energy from its environment to power i...