2018
DOI: 10.7554/elife.38407
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Theoretical tool bridging cell polarities with development of robust morphologies

Abstract: Despite continual renewal and damages, a multicellular organism is able to maintain its complex morphology. How is this stability compatible with the complexity and diversity of living forms? Looking for answers at protein level may be limiting as diverging protein sequences can result in similar morphologies. Inspired by the progressive role of apical-basal and planar cell polarity in development, we propose that stability, complexity, and diversity are emergent properties in populations of proliferating pola… Show more

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Cited by 28 publications
(33 citation statements)
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“…To close this 37 gap we introduce a model of polarized cell-cell interactions where cells are treated as 38 point particles. As a starting point for our model, we consider the model suggested 39 in [20] which was used to study directional adhesion mediated by apical-basal (AB) 40 polarity and PCP. The model in [20], however, could not explicitly account for changes 41 in cell shapes.…”
mentioning
confidence: 99%
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“…To close this 37 gap we introduce a model of polarized cell-cell interactions where cells are treated as 38 point particles. As a starting point for our model, we consider the model suggested 39 in [20] which was used to study directional adhesion mediated by apical-basal (AB) 40 polarity and PCP. The model in [20], however, could not explicitly account for changes 41 in cell shapes.…”
mentioning
confidence: 99%
“…As a starting point for our model, we consider the model suggested 39 in [20] which was used to study directional adhesion mediated by apical-basal (AB) 40 polarity and PCP. The model in [20], however, could not explicitly account for changes 41 in cell shapes. Here, we show that the effect of cell wedging can be modeled within a 42 point-particle representation by modifying cell-cell forces to favor a tilt in AB polarities.…”
mentioning
confidence: 99%
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