Tissue tectonics: morphogenetic strain rates, cell shape change and intercalation
As tissues mature, they undergo shape changes that are the result of individual and collective cell movement triggered by cell-autonomous behavior or external forces. By measuring patterns of strain rates the authors can model these forces and quantify tissue shaping behavior. The dynamic reshaping...
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Veröffentlicht in: | Nature methods 2009-06, Vol.6 (6), p.458-464 |
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Sprache: | eng |
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Zusammenfassung: | As tissues mature, they undergo shape changes that are the result of individual and collective cell movement triggered by cell-autonomous behavior or external forces. By measuring patterns of strain rates the authors can model these forces and quantify tissue shaping behavior.
The dynamic reshaping of tissues during morphogenesis results from a combination of individual cell behaviors and collective cell rearrangements. However, a comprehensive framework to unambiguously measure and link cell behavior to tissue morphogenesis is lacking. Here we introduce such a kinematic framework, bridging cell and tissue behaviors at an intermediate, mesoscopic, level of cell clusters or domains. By measuring domain deformation in terms of the relative motion of cell positions and the evolution of their shapes, we characterized the basic invariant quantities that measure fundamental classes of cell behavior, namely tensorial rates of cell shape change and cell intercalation. In doing so we introduce an explicit definition of cell intercalation as a continuous process. We mapped strain rates spatiotemporally in three models of tissue morphogenesis, gaining insight into morphogenetic mechanisms. Our quantitative approach has broad relevance for the precise characterization and comparison of morphogenetic phenotypes. |
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ISSN: | 1548-7091 1548-7105 |
DOI: | 10.1038/nmeth.1327 |