Osvaldo Chara @Osvaldo_Chara@qoto.org
Biophysicist/Modeller playing with tissues in Development and Regeneration
School of Biosciences, University of Nottingham
In between the dynamical phases of #tissue growth and decay the tissues are in #homeostasis, which we showed that can be considered a state of #criticality.
Curious? Check out our new adventure, published now in #RSOS!
https://royalsocietypublishing.org/doi/full/10.1098/rsos.230871
The hero of this story is the great PhD student Natalia Lavalle, who worked with the amazing Tomas Grigera and myself.
In between the dynamical phases of #tissue growth and decay the tissues are in #homeostasis, which we showed that can be considered a state of #criticality.
Curious? Check out our new adventure, published now in #RSOS!
https://royalsocietypublishing.org/doi/full/10.1098/rsos.230871
The hero of this story is the great PhD student Natalia Lavalle, who worked with the amazing Tomas Grigera and myself.
Hi everyone, I am just just learning how this platform works. I am a modeller/biophysicist trying to understand tissues during development and regeneration. My lab develops systems biology-oriented cell-based computational models. Officially, my lab is in the School of Biosciences, University of Nottingham, UK. But, the lab is nothing but the people who identifies with the lab. Hence, I can safely say that the lab is from Argentina, Peru, Mexico, Italy, France, Germany, UK and counting...
Over the last years, together with the great Elly Tanaka (IMP, Vienna), we have been mechanistically studying regeneration of the spinal cord in the axolotl by developing the AxFUCCI (thanks to the amazing Leo Otsuki) and the first cell-based computational model of this beautiful tissue (thanks to the equally amazing Emanuel Cura Costa).
Hi everyone, I am new here and learning the platform. By way of background, I am a chemical biologist and glycoscientist on the Stanford Chemistry faculty. Known for creating a field called #bioorthogonal chemistry (for which I shared the 2022 NP) and launching biotech companies with new therapeutic and diagnostic platforms, mostly rooted in glycobiology. Passionate about interdisciplinary science, diversity equity and inclusion in STEM, peanut butter, gyms and 70s funk.
RT @TonyZador@twitter.com
We used BARseq in situ sequencing to identify genes in ***1.2 million neurons*** throughout the mouse brain
We found that cortical areas with similar cell types are also interconnected. We call this “wire-by-similarity.”
https://www.biorxiv.org/content/10.1101/2022.11.06.515380v1
1/n
🐦🔗: https://twitter.com/TonyZador/status/1589804833665560577
Biophysicist/Modeller playing with tissues in Development and Regeneration
School of Biosciences, University of Nottingham
