The project aims at a study of the nonlinear systems arising in the biochemical processes occuring inside a cell. The cellular regulation has been formulated in the more familiar framework used in control and system theory in terms of inputs as the variables which can be influenced externally. A graph-theoretic approach has been taken to elicit the rich structure of the dynamical systems represented by metabolic pathways inside the cell. Problems of realization, analysis, and control of cell reaction networks are described
Cellular regulation comprises overwhelmingly complex interactions between genes and proteins that ul...
Quantitative conceptual tools dealing with control and regulation of cellular processes have been mo...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...
textabstractThe purpose of the lecture associated with this paper is to present problems, concepts, ...
The purpose of the lecture associated with this paper is to present problems, concepts, and theorems...
The study on biological systems attracts more and more interest since these systems offer interestin...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
AbstractSystems theory and cell biology have enjoyed a long relationship that has received renewed i...
This thesis deals with modelling, analysis, and design of interactions between subsystems in chemica...
Biochemical networks typically exhibit intricate topologies that hinder their analysis with control...
Biochemical reaction networks are in realistic cases best modeled as rational positive systems. Rati...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
We discuss and review different ways to map cellular components and their temporal interaction with ...
Systems theory and cell biology have enjoyed a long relationship that has received renewed interest ...
The aim of this work is to analyse the technique for formulating cellular metabolism in living organ...
Cellular regulation comprises overwhelmingly complex interactions between genes and proteins that ul...
Quantitative conceptual tools dealing with control and regulation of cellular processes have been mo...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...
textabstractThe purpose of the lecture associated with this paper is to present problems, concepts, ...
The purpose of the lecture associated with this paper is to present problems, concepts, and theorems...
The study on biological systems attracts more and more interest since these systems offer interestin...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
AbstractSystems theory and cell biology have enjoyed a long relationship that has received renewed i...
This thesis deals with modelling, analysis, and design of interactions between subsystems in chemica...
Biochemical networks typically exhibit intricate topologies that hinder their analysis with control...
Biochemical reaction networks are in realistic cases best modeled as rational positive systems. Rati...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
We discuss and review different ways to map cellular components and their temporal interaction with ...
Systems theory and cell biology have enjoyed a long relationship that has received renewed interest ...
The aim of this work is to analyse the technique for formulating cellular metabolism in living organ...
Cellular regulation comprises overwhelmingly complex interactions between genes and proteins that ul...
Quantitative conceptual tools dealing with control and regulation of cellular processes have been mo...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...