Modeling cellular deformations using the level set formalism
Many cellular processes involve substantial shape changes. Traditional simulations of these cell shape changes are computationally expensive and cumbersome, as they require that grids and boundaries be moved as the cell's shape evolves.
Here we demonstrate that accurate cell shape changes can be recreated using level set methods (LSM), in which the cellular shape is defined implicitly, thereby eschewing the need for updating boundaries.
Results: We obtain a viscoelastic model of Dictyostelium cells using micropipette aspiration and show how this viscoelastic model can be incorporated into LSM simulations to recreate the observed protrusion of cells into the micropipette faithfully. We also demonstrate the use of our techniques by simulating the movement of cells in a chemoattractant gradient.
Conclusions: Our results provide a simple but effective means of incorporating cellular deformations into mathematical simulations of cell signaling.
Such methods will be useful for simulating important cellular events such as chemotaxis and cytokinesis.
Author: Liu Yang, Janet C Effler, Brett L Kutscher, Sarah E Sullivan, Douglas N Robinson and Pablo A Iglesias
Credits/Source: BMC Systems Biology 2008, 2:68
Published on: 2008-07-24
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