Litcius/Paper detail

Rigidity Percolation in Embryo Morphogenesis: Physics meets Biology (Again)

Sumit Sinha, D. Thirumalai, Alessandro Mongera, Payam Rowghanian, Elijah Hannah J Gustafson, David Shelton, Emmet Kealhofer, Friedhelm Carn, Adam Serwane, James Lucio, Otger Giammona, Camps, Kristian Elias H Barriga, Guillaume Franze, Roberto Charras, Mayor, Silvia Nicoletta I Petridou, Guillaume Grigolon, Edouard Salbreux, Carl-Philipp Hannezo, Heisenberg, Bernat Nicoletta I Petridou, Carl-Philipp Corominas-Murtra, Edouard Heisenberg, Hannezo, D Jacobs, Thorpe, Gregg Lois, Jerzy Blawzdziewicz, Corey S O' Hern, J Dion, Brian Koeze, Tighe, J Donald, Michael Jacobs, Thorpe, E Michael, A Nihat Fisher, Berker, T Kirkpatrick, S Das, Adrian-Marie Philippe, Domenico Truzzolillo, Julian Galvan-Myoshi, Philippe Dieudonn-George, Vronique Trappe, Ludovic Berthier, Luca Cipelletti, Li Mai Suan, Dmitri Klimov, Thirumalai, Thierry Mora, William Bialek, M Munoz

2021Journal Club for Condensed Matter Physics10 citationsDOIOpen Access PDF

Abstract

Rigidity percolation uncovers a structural basis for embryonic tissue phase transitions Authors: Nicoletta I. Petridou, Bernat Corominas-Murtra, Carl-Philipp Heisenberg, and Edouard Hannezo Cell, 184(7):1914–1928 (2021); DOI: 10.1016/j.cell.2021.02.017 Recommended with a commentary by Sumit Sinha and D. Thirumalai, University of Texas at Austin |View Commentary (pdf)| This commentary may be cited as: DOI: 10.36471/JCCM_June_2021_03 https://doi.org/10.36471/JCCM_June_2021_03

Topics & Concepts

MorphogenesisPercolation (cognitive psychology)Rigidity (electromagnetism)Statistical physicsEmbryoBiologyPhysicsCell biologyNeuroscienceGeneticsQuantum mechanicsGeneEarth Systems and Cosmic Evolution