Cells are highly organized objects containing millions of molecules. Each biomolecule has a specific shape in order to interact with others in the complex machinery. Spatial dynamics emerge in this system on length and time scales which can not yet be modeled with full atomic detail. This review gives an overview of methods which can be used to simulate the complete cell at least with molecular detail, especially Brownian dynamics simulations. Such simulations require correct implementation of the diffusion-controlled reaction scheme occurring on this level. Implementations and applications of spatial simulations are presented, and finally it is discussed how the atomic level can be included for instance in multi-scale simulation methods
This article introduces a multiscale framework for spatiotemporal modeling of protein-protein intera...
Modeling the spatiotemporal dynamics of biochemical reaction systems at single-molecule resolution h...
Quantitative descriptions of reaction kinetics formulated at the stochastic mesoscopic level are fre...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specifi...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
One of the fundamental motivations underlying computational cell biology is to gain insight into the...
Recent progresses in single molecule imaging techniques have revealed biological molecule behaviors ...
Abstract. Systems biology, the formal description of the structure and of the dynamics of biomolecul...
Abstract Background Spatio-temporal dynamics within cells can now be visualized at appropriate resol...
We have developed a method for modeling spatial stochastic biochemical reactions in complex, three-d...
We present an improved spatial simulation method to model intracellular reactions in detail. It comb...
Recent advances in biology have shown that proteins and genes often interact probabilistically. The ...
Studying spatial effects in signal transduction, such as co-localization along scaffold molecules, c...
Biophysical chemistry of mesoscale systems and quantitative modeling in systems biology now require ...
One of the most important aspects of Computational Cell Biology is the understanding of the complica...
This article introduces a multiscale framework for spatiotemporal modeling of protein-protein intera...
Modeling the spatiotemporal dynamics of biochemical reaction systems at single-molecule resolution h...
Quantitative descriptions of reaction kinetics formulated at the stochastic mesoscopic level are fre...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specifi...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
One of the fundamental motivations underlying computational cell biology is to gain insight into the...
Recent progresses in single molecule imaging techniques have revealed biological molecule behaviors ...
Abstract. Systems biology, the formal description of the structure and of the dynamics of biomolecul...
Abstract Background Spatio-temporal dynamics within cells can now be visualized at appropriate resol...
We have developed a method for modeling spatial stochastic biochemical reactions in complex, three-d...
We present an improved spatial simulation method to model intracellular reactions in detail. It comb...
Recent advances in biology have shown that proteins and genes often interact probabilistically. The ...
Studying spatial effects in signal transduction, such as co-localization along scaffold molecules, c...
Biophysical chemistry of mesoscale systems and quantitative modeling in systems biology now require ...
One of the most important aspects of Computational Cell Biology is the understanding of the complica...
This article introduces a multiscale framework for spatiotemporal modeling of protein-protein intera...
Modeling the spatiotemporal dynamics of biochemical reaction systems at single-molecule resolution h...
Quantitative descriptions of reaction kinetics formulated at the stochastic mesoscopic level are fre...