CORDIS Project
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This project aims to develop advanced mathematical models to explore complex self-organization mechanisms in embryonic development. By integrating biological data and computational tools, it seeks to uncover new patterns of tissue formation that are robust, non-repetitive, and scalable, moving beyond traditional models…
Developing embryos display a remarkable capacity for self-organization, generating diverse shapes, patterns and structures de novo.
First conceived in the 1950s, Turing’s reaction-diffusion hypothesis proposes that this self-organization is driven by interacting and diffusing signalling molecules.
Indeed, mathematical Turing models recapitulate patterning in silico.
However, key limitations cast doubt on the relevance of Turing models in vivo.
First, current models are highly simplified and ex…
THE UNIVERSITY COURT OF THE UNIVERSITY OF ABERDEEN
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