Polizzi, StefanoLaperrousaz, BastienPerez-Reche, Francisco J.Nicolini, Franck E.Satta, Véronique MaguerArneodo, AlainArgoul, Françoise2018-06-082018-06-082018-05-29Polizzi, S, Laperrousaz, B, Perez-Reche, F J, Nicolini, F E, Satta, V M, Arneodo, A & Argoul, F 2018, 'A minimal rupture cascade model for living cell plasticity', New Journal of Physics, vol. 20, no. 5, 053057, pp. 1-18. https://doi.org/10.1088/1367-2630/aac3c71367-2630RIS: urn:89A93B89260CC2C121B092A03072D5D5http://hdl.handle.net/2164/10561We are indebted to L Berguiga, E Gerasimova-Chechkina, C Martinez-Torres, L Streppa, R Vincent and T Voeltzel for fruitful discussions. We are very grateful to T Muller and to the R&D department of the JPK Company for their partnership. This study was supported by the Joliot Curie and Physics Laboratories (ENS Lyon/CNRS), the Agence Nationale de la Recherche ANR-10-BLAN-1516, INSERM (Plan Cancer 2012 01-84862), Novartis, Ligue Nationale contre le Cancer (Saone et Loire) and Cent pour Cent la Vie. FJPR acknowledges financial support from the Carnegie Trust.183569780engnanoindentation AFM techniquecell mechanicsactin cytoskeletonductile and brittle failureslog-normal statisticsrupture cascade modelchronic myelogenous leukemiaQC PhysicsQCJournal article10.1088/1367-2630/aac3c7205