02572 am 2200613 n 450 9910495990703321202011162-7226-0560-010.4000/books.cdf.10359(CKB)5590000000006283(FrMaCLE)OB-cdf-10359(oapen)https://directory.doabooks.org/handle/20.500.12854/87267(PPN)251070611(EXLCZ)99559000000000628320201116j|||||||| ||| 0enguu||||||m||||txtrdacontentcrdamediacrrdacarrierThe Dynamics of Living Systems Inaugural lecture given on Thursday 27 April 2017 /Thomas LecuitParis Collège de France2020Leçons inauguralesHow can we explain the fundamental paradox of living matter, which combines stability and robustness of form with constant internal dynamics? It is not only the genetic information contained in every cell, but also numerous stochastic biomolecular processes that are at work in morphogenesis. In addition, the shaping of an organism is driven by mechanical forces that operate within and between cells, across tissues and organs. The dynamics of morphogenesis is a self-organized process that emerges from biological control and physical constraints at all scales. Its study is currently bringing together a fast-growing interdisciplinary community that observes, analyses and models living organisms.Dynamics & staticsbicsscBiophysicsbicsscBiology, life sciencesbicsscLife sciences: general issuesbicsscDevelopmental biologybicsscMolecular biologybicsscCellular biology (cytology)bicsscbiologybiophysicsgeneticsinformationlife sciencemechanicsmorphogenesistissue engineeringDynamics & staticsBiophysicsBiology, life sciencesLife sciences: general issuesDevelopmental biologyMolecular biologyCellular biology (cytology)Lecuit Thomas1250139Heard Edith802318Lecuit Thomas1250139FR-FrMaCLEBOOK9910495990703321The Dynamics of Living Systems3037122UNINA