PORTO @ Archivio Istituzionale della Ricerca

The ability of eukaryotic cells to navigate along spatial gradients of extracellular guidance cues is crucial for embryonic development, tissue regeneration, and cancer progression. One proposed model for chemotaxis is a phosphoinositide-based phase separation process, which takes place at the plasma membrane upon chemoattractant stimulation and triggers directional motility of eukaryotic cells. Here, we make available virtual-cell software that allows the execution and spatiotemporal analysis of in silico chemotaxis experiments, in which the user can control physical and chemical parameters as well as the number and position of chemoattractant sources.

A Simulation Environment for Directional Sensing as a Phase Separation Process / A., de Candia; Gamba, ANDREA ANTONIO; F., Cavalli; A., Coniglio; S., Di Talia; F., Bussolino; G., Serini. - In: SCIENCE'S STKE: SIGNAL TRANSDUCTION KNOWLEDGE ENVIRONMENT. - ISSN 1525-8882. - 2007:(2007), pp. pl1-pl1. [10.1126/stke.3782007pl1]

A Simulation Environment for Directional Sensing as a Phase Separation Process

GAMBA, ANDREA ANTONIO;
2007

Abstract

The ability of eukaryotic cells to navigate along spatial gradients of extracellular guidance cues is crucial for embryonic development, tissue regeneration, and cancer progression. One proposed model for chemotaxis is a phosphoinositide-based phase separation process, which takes place at the plasma membrane upon chemoattractant stimulation and triggers directional motility of eukaryotic cells. Here, we make available virtual-cell software that allows the execution and spatiotemporal analysis of in silico chemotaxis experiments, in which the user can control physical and chemical parameters as well as the number and position of chemoattractant sources.
2007
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2543389
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