Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can give rise to spatial gradients of the concentration of cytosolic species. Moreover, the number of membrane molecules can be small and stochastic effects can become relevant. Pathways usually consist of a complex interaction network and are characterized by a large set of parameters. The inclusion of spatial and stochastic effects is a major challenge in developing quantitative and dynamic models of pathways. Results: We have developed a particle-based spatial stochastic method (GMP) to simulate biochemical networks in space, including fluctuations from the diffusion of particles and reactions. Gradients emerging from membrane reacti...
BACKGROUND: Biological systems are inherently inhomogeneous and spatial effects play a significant r...
Signaling reactions often originate at the membrane, where competing membrane reactions decide if an...
•Want to understand how the complicated spatial geometry of eukaryotic cells influences gene regulat...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
The dynamics of many biological processes rely on an interplay between spatial transport and chemica...
It has recently been conjectured that metabolic pathways with membrane-bound enzymes can give rise t...
Background: Biological systems are inherently inhomogeneous and spatial effects play a significant r...
Spatial stochastic modelling of the phosphoenolpyruvate-dependent phosphotransferase (PTS) pathway i...
Many facets of mathematics, science and engineering rely on numerical methods to study complex syste...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.This electronic versio...
Cell signaling dynamics mediate myriad processes in biology. It has become increasingly clear that i...
Computational simulation of cellular processes can provide us with important insights into the dynam...
Motivation: We compare stochastic computational methods accounting for space and discrete nature of...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
Biological systems are inherently inhomogeneous and spatial effects play a significant role in proce...
BACKGROUND: Biological systems are inherently inhomogeneous and spatial effects play a significant r...
Signaling reactions often originate at the membrane, where competing membrane reactions decide if an...
•Want to understand how the complicated spatial geometry of eukaryotic cells influences gene regulat...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
The dynamics of many biological processes rely on an interplay between spatial transport and chemica...
It has recently been conjectured that metabolic pathways with membrane-bound enzymes can give rise t...
Background: Biological systems are inherently inhomogeneous and spatial effects play a significant r...
Spatial stochastic modelling of the phosphoenolpyruvate-dependent phosphotransferase (PTS) pathway i...
Many facets of mathematics, science and engineering rely on numerical methods to study complex syste...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.This electronic versio...
Cell signaling dynamics mediate myriad processes in biology. It has become increasingly clear that i...
Computational simulation of cellular processes can provide us with important insights into the dynam...
Motivation: We compare stochastic computational methods accounting for space and discrete nature of...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
Biological systems are inherently inhomogeneous and spatial effects play a significant role in proce...
BACKGROUND: Biological systems are inherently inhomogeneous and spatial effects play a significant r...
Signaling reactions often originate at the membrane, where competing membrane reactions decide if an...
•Want to understand how the complicated spatial geometry of eukaryotic cells influences gene regulat...