All processes of life are controlled by networks of interacting biochemical components. The purpose of modelling these networks is manifold. From a theoretical point of view it allows the exploration of network structures and dynamics, to find emergent properties or to explain the organisation and evolution of networks. From a practical point of view, in silico experiments can be performed that would be very expensive or impossible to achieve in the laboratory, such as hypothesis-testing with regards to knock-out experiments or overexpression, or checking the validity of a proposed molecular mechanism. The literature on modelling biochemical networks is growing rapidly and the motivations behind different modelling techniques are sometimes ...
<p>Additional approaches not listed here are referenced via reviews in the text.</p
A network facilitates the description of selective interactions among the variables of a system. In ...
We have witnessed an explosive growth in research involving mathematical models and computer simula...
All processes of life are dominated by networks of interacting biochemical components. The purpose o...
Abstract Background Intrinsic fluctuations due to the...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
International audienceIn this course we will present some of the simulation methods most widely used...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
Abstract: The complexity of even comparatively simple biochemical systems necessitates a computation...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
Stochastic simulation has been widely used to model the dynamics of biochemical reaction networks. S...
A biochemical reaction network is the system in which biochemical species interact through various r...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
<p>Additional approaches not listed here are referenced via reviews in the text.</p
A network facilitates the description of selective interactions among the variables of a system. In ...
We have witnessed an explosive growth in research involving mathematical models and computer simula...
All processes of life are dominated by networks of interacting biochemical components. The purpose o...
Abstract Background Intrinsic fluctuations due to the...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
International audienceIn this course we will present some of the simulation methods most widely used...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
Abstract: The complexity of even comparatively simple biochemical systems necessitates a computation...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
Stochastic simulation has been widely used to model the dynamics of biochemical reaction networks. S...
A biochemical reaction network is the system in which biochemical species interact through various r...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
<p>Additional approaches not listed here are referenced via reviews in the text.</p
A network facilitates the description of selective interactions among the variables of a system. In ...
We have witnessed an explosive growth in research involving mathematical models and computer simula...