Publikation: Tactile interactions lead to coherent motion and enhanced chemotaxis of migrating cells
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2013
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Physical Biology. 2013, 10(4), 046002. ISSN 1478-3967. eISSN 1478-3975. Available under: doi: 10.1088/1478-3975/10/4/046002
Zusammenfassung
When motile cells come into contact with one another their motion is often considerably altered. In a process termed contact inhibition of locomotion (CIL) cells reshape and redirect their movement as a result of cell-cell contact. Here we describe a mathematical model that demonstrates that CIL alone is sufficient to produce coherent, collective cell migration. Our model illustrates a possible mechanism behind collective cell migration that is observed, for example, in neural crest cells during development, and in metastasizing cancer cells. We analyse the effects of varying cell density and shape on the alignment patterns produced and the transition to coherent motion. Finally, we demonstrate that this process may have important functional consequences by enhancing the accuracy and robustness of the chemotactic response, and factors such as cell shape and cell density are more significant determinants of migration accuracy than the individual capacity to detect environmental gradients.
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570 Biowissenschaften, Biologie
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COBURN, Luke, Luca CERONE, Colin TORNEY, Iain D. COUZIN, Zoltan NEUFELD, 2013. Tactile interactions lead to coherent motion and enhanced chemotaxis of migrating cells. In: Physical Biology. 2013, 10(4), 046002. ISSN 1478-3967. eISSN 1478-3975. Available under: doi: 10.1088/1478-3975/10/4/046002BibTex
@article{Coburn2013-08-01Tacti-36934,
year={2013},
doi={10.1088/1478-3975/10/4/046002},
title={Tactile interactions lead to coherent motion and enhanced chemotaxis of migrating cells},
number={4},
volume={10},
issn={1478-3967},
journal={Physical Biology},
author={Coburn, Luke and Cerone, Luca and Torney, Colin and Couzin, Iain D. and Neufeld, Zoltan},
note={Article Number: 046002}
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<dcterms:abstract xml:lang="eng">When motile cells come into contact with one another their motion is often considerably altered. In a process termed contact inhibition of locomotion (CIL) cells reshape and redirect their movement as a result of cell-cell contact. Here we describe a mathematical model that demonstrates that CIL alone is sufficient to produce coherent, collective cell migration. Our model illustrates a possible mechanism behind collective cell migration that is observed, for example, in neural crest cells during development, and in metastasizing cancer cells. We analyse the effects of varying cell density and shape on the alignment patterns produced and the transition to coherent motion. Finally, we demonstrate that this process may have important functional consequences by enhancing the accuracy and robustness of the chemotactic response, and factors such as cell shape and cell density are more significant determinants of migration accuracy than the individual capacity to detect environmental gradients.</dcterms:abstract>
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