The formation of a hollow cellular sphere is often one of the first steps of multicellular embryonic development. In the case of Hydra, the sphere breaks its initial symmetry to form a foot-head axis. During this process a gene, ks1, is increasingly expressed in localized cell domains whose size distribution becomes scale-free at the axis-locking moment. We show that a physical model based solely on the production and exchange of ks1-promoting factors among neighboring cells robustly reproduces the scaling behavior as well as the experimentally observed spontaneous and temperature-directed symmetry breaking.
Critical Behavior and Axis defining Symmetry Breaking in Hydra embryonic Development / A., G., Nicodemi, M., J., S., A., O.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 108:(2012), pp. 158103-1-158103-5. [10.1103/PhysRevLett.108.158103]
Critical Behavior and Axis defining Symmetry Breaking in Hydra embryonic Development
NICODEMI, MARIO;
2012
Abstract
The formation of a hollow cellular sphere is often one of the first steps of multicellular embryonic development. In the case of Hydra, the sphere breaks its initial symmetry to form a foot-head axis. During this process a gene, ks1, is increasingly expressed in localized cell domains whose size distribution becomes scale-free at the axis-locking moment. We show that a physical model based solely on the production and exchange of ks1-promoting factors among neighboring cells robustly reproduces the scaling behavior as well as the experimentally observed spontaneous and temperature-directed symmetry breaking.| File | Dimensione | Formato | |
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