Forceful patterning: theoretical principles of mechanochemical pattern formation

Biological pattern formation is essential for generating and maintaining spatial structures from the scale of a single cell to tissues and even collections of organisms. Besides biochemical interactions, there is an important role for mechanical and geometrical features in the generation of patterns...

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Veröffentlicht in:	EMBO reports 2023-12, Vol.24 (12), p.e57739-n/a
Hauptverfasser:	Rombouts, Jan, Elliott, Jenna, Erzberger, Anna
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Sprache:	eng
Schlagworte:	geometry mechanics Models, Biological Morphogenesis Pattern formation Patterning Principles Review Reviews theory
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creator	Rombouts, Jan Elliott, Jenna Erzberger, Anna
description	Biological pattern formation is essential for generating and maintaining spatial structures from the scale of a single cell to tissues and even collections of organisms. Besides biochemical interactions, there is an important role for mechanical and geometrical features in the generation of patterns. We review the theoretical principles underlying different types of mechanochemical pattern formation across spatial scales and levels of biological organization. Besides biochemical interactions, there is an important role for mechanical and geometrical features in the generation of biological patterns. This review discusses the theoretical principles underlying mechanochemical pattern formation across spatial scales and levels of biological organization.
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subjects	geometry mechanics Models, Biological Morphogenesis Pattern formation Patterning Principles Review Reviews theory
title	Forceful patterning: theoretical principles of mechanochemical pattern formation
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