AI Article Synopsis
- The process of developing multicellular organisms involves transforming a uniform zygote into a complex adult through self-organization and various transitions.
- Many of these transitions occur via spontaneous symmetry breaking, where cells and tissues create patterns and polarity based on local interactions rather than external signals.
- A study using a mass-conserved substrate-depletion model reveals how these symmetry-breaking processes are linked to the timing of development, suggesting that the way patterning occurs may help organisms keep track of time during their development.
Article Abstract
The development of multicellular organisms proceeds through a series of morphogenetic and cell-state transitions, transforming homogeneous zygotes into complex adults by a process of self-organisation. Many of these transitions are achieved by spontaneous symmetry breaking mechanisms, allowing cells and tissues to acquire pattern and polarity by virtue of local interactions without an upstream supply of information. The combined work of theory and experiment has elucidated how these systems break symmetry during developmental transitions. Given that such transitions are multiple and their temporal ordering is crucial, an equally important question is how these developmental transitions are coordinated in time. Using a minimal mass-conserved substrate-depletion model for symmetry breaking as our case study, we elucidate mechanisms by which cells and tissues can couple reaction-diffusion-driven symmetry breaking to the timing of developmental transitions, arguing that the dependence of patterning mode on system size may be a generic principle by which developing organisms measure time. By analysing different regimes of our model, simulated on growing domains, we elaborate three distinct behaviours, allowing for clock-, timer- or switch-like dynamics. Relating these behaviours to experimentally documented case studies of developmental timing, we provide a minimal conceptual framework to interrogate how developing organisms coordinate developmental transitions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7407810 | PMC |
| http://dx.doi.org/10.3390/cells9071646 | DOI Listing |
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