154 páginasKinetic models are central in systems biology to describe and analyse metabolic, generic and signalling networks. Kinetic models provide a way to summarize and precisely formulate the current knowledge about the dynamics of biological systems in terms of di erential equations. Therefore computational tools for the analysis and calibration of these type of models are of great interest. In this thesis, rst the concepts of chemical reaction network theory are extended for biochemical reactions. A complex-reaction graph is de ned for the network, in which the nodes are complexes and the edges represent reactions with multiple kinetics. Then, it is shown that the system of dynamic equations of the bio-CRNs can be formulated s...
BackgroundThe size and complexity of published biochemical network reconstructions are steadily incr...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Background: Cellular processes such as metabolism, decision making in development and differentiati...
The realization problem in reaction kinetics Reaction kinetic systems form a special class of positi...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Background: In this paper we propose a model reduction method for biochemical reaction networks gove...
Background Recovering the network topology and associated kinetic parameter values from time-series...
ObjectiveThe complexity of biochemical networks is enormous and difficult to unravel by intuitive re...
The modelling of chemical and biochemical systems is highly dependent on the reaction network of the...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
BackgroundThe size and complexity of published biochemical network reconstructions are steadily incr...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Background: Cellular processes such as metabolism, decision making in development and differentiati...
The realization problem in reaction kinetics Reaction kinetic systems form a special class of positi...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Background: In this paper we propose a model reduction method for biochemical reaction networks gove...
Background Recovering the network topology and associated kinetic parameter values from time-series...
ObjectiveThe complexity of biochemical networks is enormous and difficult to unravel by intuitive re...
The modelling of chemical and biochemical systems is highly dependent on the reaction network of the...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
BackgroundThe size and complexity of published biochemical network reconstructions are steadily incr...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...
Dynamic models present a fundamental tool in systems biology, but rely on kinetic parameters, such a...