Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales
Abstract: Surface curvature both emerges from, and influences the behavior of, living objects at length scales ranging from cell membranes to single cells to tissues and organs. The relevance of surface curvature in biology is supported by numerous experimental and theoretical investigations in recent years. In this review, first, a brief introduction to the key ideas of surface curvature in the context of biological systems is given and the challenges that arise when measuring surface curvature are discussed. Giving an overview of the emergence of curvature in biological systems, its significance at different length scales becomes apparent. On the other hand, summarizing current findings also shows that both single cells and entire cell sheets, tissues or organisms respond to curvature by modulating their shape and their migration behavior. Finally, the interplay between the distribution of morphogens or micro‐organisms and the emergence of curvature across length scales is addressed with examples demonstrating these key mechanistic principles of morphogenesis. Overall, this review highlights that curved interfaces are not merely a passive by‐product of the chemical, biological, and mechanical processes but that curvature acts also as a signal that co‐determines these processes.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales ; day:15 ; month:02 ; year:2023 ; extent:23
Advanced materials ; (15.02.2023) (gesamt 23)
- Creator
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Schamberger, Barbara
Ziege, Ricardo
Anselme, Karine
Ben-Amar, Martine
Bykowski, Michał
Castro, André P. G.
Cipitria, Amaia
Coles, Rhoslyn A.
Dimova, Rumiana
Eder, Michaela
Ehrig, Sebastian
Escudero, Luis M.
Evans, Myfanwy
Fernandes, Paulo R.
Fratzl, Peter
Geris, Liesbet
Gierlinger, Notburga
Hannezo, Edouard
Iglič, Aleš
Kirkensgaard, Jacob J. K.
Kollmannsberger, Philip
Kowalewska, Łucja
Kurniawan, Nicholas A.
Papantoniou, Ioannis
Pieuchot, Laurent
Pires, Tiago H. V.
Renner, Lars D.
Sageman‐Furnas, Andrew O.
Schröder-Turk, Gerd
Sengupta, Anupam
Sharma, Vikas R.
Tagua, Antonio
Tomba, Caterina
Trepat, Xavier
Waters, Sarah L.
Yeo, Edwina F.
Roschger, Andreas
Bidan, Cécile
Dunlop, John W. C.
- DOI
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10.1002/adma.202206110
- URN
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urn:nbn:de:101:1-2023021614303230056892
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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14.08.2025, 10:52 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Schamberger, Barbara
- Ziege, Ricardo
- Anselme, Karine
- Ben-Amar, Martine
- Bykowski, Michał
- Castro, André P. G.
- Cipitria, Amaia
- Coles, Rhoslyn A.
- Dimova, Rumiana
- Eder, Michaela
- Ehrig, Sebastian
- Escudero, Luis M.
- Evans, Myfanwy
- Fernandes, Paulo R.
- Fratzl, Peter
- Geris, Liesbet
- Gierlinger, Notburga
- Hannezo, Edouard
- Iglič, Aleš
- Kirkensgaard, Jacob J. K.
- Kollmannsberger, Philip
- Kowalewska, Łucja
- Kurniawan, Nicholas A.
- Papantoniou, Ioannis
- Pieuchot, Laurent
- Pires, Tiago H. V.
- Renner, Lars D.
- Sageman‐Furnas, Andrew O.
- Schröder-Turk, Gerd
- Sengupta, Anupam
- Sharma, Vikas R.
- Tagua, Antonio
- Tomba, Caterina
- Trepat, Xavier
- Waters, Sarah L.
- Yeo, Edwina F.
- Roschger, Andreas
- Bidan, Cécile
- Dunlop, John W. C.
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Uncertainty Quantification of Reactivity Scales **
Nestedness across biological scales
Unified emergence of energy scales and cosmic inflation
Existence of typical scales for manifolds with lower Ricci curvature bound
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Uncertainty Quantification of Reactivity Scales **
Nestedness across biological scales
Unified emergence of energy scales and cosmic inflation
Existence of typical scales for manifolds with lower Ricci curvature bound
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