AbstractThe constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. This work introduces the concept of kinetic constraints. It is shown that maximal reaction rates are appropriate constraints only for isolated enzymatic reactions. For biochemical networks, it is revealed that constraints for formation of a steady state require specific relationships between maximal reaction rates of all enzymes. The constraints for a branched network are significantly different from those for a cyclic network. Moreover, the constraints do not require Michaelis-Menten constants for most enzymes, and they only require the constants for the enzymes at the branching or cyclic point. Reversibility of reactions at system boun...
Integration of different kinds of biological networks, is within the holistic approach of Systems B...
The constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. An ...
A precise quantification of the effect of perturbations in a metabolic network depends on explicit k...
The constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. Thi...
AbstractThe constraint-based analysis has emerged as a useful tool for analysis of biochemical netwo...
Mathematical models of biological networks play an important role in metabolic engineering through t...
Two divergent modelling methodologies have been adopted to increase our understanding of metabolism ...
Analysis of the dynamic and steady-state properties of biochemical networks hinges on information ab...
Mathematical modeling is an essential tool for a comprehensive understanding of cell metabolism and ...
Systems biology provides new approaches for metabolic engineering through the development of models...
AbstractComplete modeling of metabolic networks is desirable, but it is difficult to accomplish beca...
Metabolic networks are often extremely complex. Despite intensive efforts many details of these netw...
Regulation of metabolic enzymes plays a crucial role in the maintenance of metabolic homeostasis, an...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Metabolic networks supply the energy and building blocks for cell growth and maintenance. Cells cont...
Integration of different kinds of biological networks, is within the holistic approach of Systems B...
The constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. An ...
A precise quantification of the effect of perturbations in a metabolic network depends on explicit k...
The constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. Thi...
AbstractThe constraint-based analysis has emerged as a useful tool for analysis of biochemical netwo...
Mathematical models of biological networks play an important role in metabolic engineering through t...
Two divergent modelling methodologies have been adopted to increase our understanding of metabolism ...
Analysis of the dynamic and steady-state properties of biochemical networks hinges on information ab...
Mathematical modeling is an essential tool for a comprehensive understanding of cell metabolism and ...
Systems biology provides new approaches for metabolic engineering through the development of models...
AbstractComplete modeling of metabolic networks is desirable, but it is difficult to accomplish beca...
Metabolic networks are often extremely complex. Despite intensive efforts many details of these netw...
Regulation of metabolic enzymes plays a crucial role in the maintenance of metabolic homeostasis, an...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Metabolic networks supply the energy and building blocks for cell growth and maintenance. Cells cont...
Integration of different kinds of biological networks, is within the holistic approach of Systems B...
The constraint-based analysis has emerged as a useful tool for analysis of biochemical networks. An ...
A precise quantification of the effect of perturbations in a metabolic network depends on explicit k...