Modeling cellular deformations using the level set formalism
about
Crawling and Gliding: A Computational Model for Shape-Driven Cell MigrationInteraction of motility, directional sensing, and polarity modules recreates the behaviors of chemotaxing cellsDeconvolution of the cellular force-generating subsystems that govern cytokinesis furrow ingressionHow cells integrate complex stimuli: the effect of feedback from phosphoinositides and cell shape on cell polarization and motilityActivated membrane patches guide chemotactic cell motilityCortical factor feedback model for cellular locomotion and cytofissionCytokinesis mechanics and mechanosensing.An excitable signal integrator couples to an idling cytoskeletal oscillator to drive cell migration.Prophase I mouse oocytes are deficient in the ability to respond to fertilization by decreasing membrane receptivity to sperm and establishing a membrane block to polyspermyCoupling actin flow, adhesion, and morphology in a computational cell motility model.Separation anxiety: stress, tension and cytokinesisModelling of Yeast Mating Reveals Robustness Strategies for Cell-Cell InteractionsImmersed Boundary Models for Quantifying Flow-Induced Mechanical Stimuli on Stem Cells Seeded on 3D Scaffolds in Perfusion Bioreactors.Biased excitable networks: how cells direct motion in response to gradients.A computational model of cell polarization and motility coupling mechanics and biochemistry.Actin-myosin viscoelastic flow in the keratocyte lamellipodModels at the single cell level.Tools for analyzing cell shape changes during chemotaxisA review of models of fluctuating protrusion and retraction patterns at the leading edge of motile cells.Mechanochemical Signaling Directs Cell-Shape Change.Unified model of brain tissue microstructure dynamically binds diffusion and osmosis with extracellular space geometry.The chaser and the chased: a phase-field model of an immune response.Altering the threshold of an excitable signal transduction network changes cell migratory modesSignaling regulated endocytosis and exocytosis lead to mating pheromone concentration dependent morphologies in yeastModelling cell motility and chemotaxis with evolving surface finite elements.Cell shape regulation through mechanosensory feedback control.The Moving Boundary Node Method: A level set-based, finite volume algorithm with applications to cell motility.Phase-field approach to chemotactic driving of neutrophil morphodynamics.Modeling Excitable Dynamics of Chemotactic Networks.Computational model for cell morphodynamics.
P2860
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P2860
Modeling cellular deformations using the level set formalism
description
2008 nî lūn-bûn
@nan
2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Modeling cellular deformations using the level set formalism
@ast
Modeling cellular deformations using the level set formalism
@en
type
label
Modeling cellular deformations using the level set formalism
@ast
Modeling cellular deformations using the level set formalism
@en
prefLabel
Modeling cellular deformations using the level set formalism
@ast
Modeling cellular deformations using the level set formalism
@en
P2093
P2860
P356
P1433
P1476
Modeling cellular deformations using the level set formalism
@en
P2093
Brett L Kutscher
Douglas N Robinson
Janet C Effler
Sarah E Sullivan
P2860
P2888
P356
10.1186/1752-0509-2-68
P577
2008-07-24T00:00:00Z
P5875
P6179
1019320349