Add to ORKGOver the past two decades, molecular cell biology has graduated from a mostly analytic science to one with substantial synthetic capability. This success is built on a deep understanding of the structure and function of biomolecules and molecular mechanisms. For synthetic biology to achieve similar success at the scale of tissues and organs, an equally deep understanding of the principles of development is required. Here, we review some of the central concepts and recent progress in tissue patterning, morphogenesis and collective cell migration and discuss their value for synthetic developmental biology, emphasizing in particular the power of (guided) self-organization and the role of theoretical advances in making developmental insights ap...
This thesis explores the role of collective cell migration and self-organisation in the development ...
This thesis explores the role of collective cell migration and self-organisation in the development ...
Organoids form through self-organization processes in which initially homogeneous populations of ste...
The second EMBO-EMBL Symposium ‘Synthetic Morphogenesis: From Gene Circuits to Tissue Architecture’ ...
International audienceThis paper presents a new model for the development of artificial creatures fr...
Synthetic biology provides an opportunity for the construction and exploration of alternative soluti...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Self-organization is an all-important feature of living systems that provides the means to achieve s...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Multicellular organisms of various complexities self-organize in nature. Organoids are in vitro 3D s...
Pattern formation underpins cell specification, tissue organization, and morphogenesis during embr...
This thesis explores the role of collective cell migration and self-organisation in the development ...
This thesis explores the role of collective cell migration and self-organisation in the development ...
Organoids form through self-organization processes in which initially homogeneous populations of ste...
The second EMBO-EMBL Symposium ‘Synthetic Morphogenesis: From Gene Circuits to Tissue Architecture’ ...
International audienceThis paper presents a new model for the development of artificial creatures fr...
Synthetic biology provides an opportunity for the construction and exploration of alternative soluti...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Self-organization is an all-important feature of living systems that provides the means to achieve s...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Self-organization of cells is a fundamental design principle in biology, yet the inherent non-linear...
Multicellular organisms of various complexities self-organize in nature. Organoids are in vitro 3D s...
Pattern formation underpins cell specification, tissue organization, and morphogenesis during embr...
This thesis explores the role of collective cell migration and self-organisation in the development ...
This thesis explores the role of collective cell migration and self-organisation in the development ...
Organoids form through self-organization processes in which initially homogeneous populations of ste...