All Outputs (2)

How a reaction-diffusion signal can control spinal cord regeneration in axolotls: A modeling study. (2024)
Journal Article
Caliaro, V., Peurichard, D., & Chara, O. (2024). How a reaction-diffusion signal can control spinal cord regeneration in axolotls: A modeling study. iScience, 27(7), Article 110197. https://doi.org/10.1016/j.isci.2024.110197

Axolotls are uniquely able to completely regenerate the spinal cord after amputation. The underlying governing mechanisms of this regenerative response have not yet been fully elucidated. We previously found that spinal cord regeneration is mainly dr... Read More about How a reaction-diffusion signal can control spinal cord regeneration in axolotls: A modeling study..

Fluctuations in tissue growth portray homeostasis as a critical state and long-time non-Markovian cell proliferation as Markovian (2023)
Journal Article
Lavalle, N. G., Chara, O., & Grigera, T. S. (2023). Fluctuations in tissue growth portray homeostasis as a critical state and long-time non-Markovian cell proliferation as Markovian. Royal Society Open Science, 10(9), Article 230871. https://doi.org/10.1098/rsos.230871

Tissue growth is an emerging phenomenon that results from the cell-level interplay between proliferation and apoptosis, which is crucial during embryonic development, tissue regeneration, as well as in pathological conditions such as cancer. In this... Read More about Fluctuations in tissue growth portray homeostasis as a critical state and long-time non-Markovian cell proliferation as Markovian.