Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales

Publikation: Bidrag til tidsskriftReviewForskningfagfællebedømt

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Curvature in Biological Systems : Its Quantification, Emergence, and Implications across the Scales. / 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 E.; 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 E.; Sengupta, Anupam; Sharma, Vikas R.; Tagua, Antonio; Tomba, Caterina; Trepat, Xavier; Waters, Sarah L.; Yeo, Edwina F.; Roschger, Andreas; Bidan, Cécile M.; Dunlop, John W.C.

I: Advanced Materials, Bind 35, Nr. 13, 2206110, 2023.

Publikation: Bidrag til tidsskriftReviewForskningfagfællebedømt

Harvard

Schamberger, B, Ziege, R, Anselme, K, Ben Amar, M, Bykowski, M, Castro, APG, Cipitria, A, Coles, RA, Dimova, R, Eder, M, Ehrig, S, Escudero, LM, Evans, ME, Fernandes, PR, Fratzl, P, Geris, L, Gierlinger, N, Hannezo, E, Iglič, A, Kirkensgaard, JJK, Kollmannsberger, P, Kowalewska, Ł, Kurniawan, NA, Papantoniou, I, Pieuchot, L, Pires, THV, Renner, LD, Sageman-Furnas, AO, Schröder-Turk, GE, Sengupta, A, Sharma, VR, Tagua, A, Tomba, C, Trepat, X, Waters, SL, Yeo, EF, Roschger, A, Bidan, CM & Dunlop, JWC 2023, 'Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales', Advanced Materials, bind 35, nr. 13, 2206110. https://doi.org/10.1002/adma.202206110

APA

Schamberger, B., Ziege, R., Anselme, K., Ben Amar, M., Bykowski, M., Castro, A. P. G., Cipitria, A., Coles, R. A., Dimova, R., Eder, M., Ehrig, S., Escudero, L. M., Evans, M. E., Fernandes, P. R., Fratzl, P., Geris, L., Gierlinger, N., Hannezo, E., Iglič, A., ... Dunlop, J. W. C. (2023). Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales. Advanced Materials, 35(13), [2206110]. https://doi.org/10.1002/adma.202206110

Vancouver

Schamberger B, Ziege R, Anselme K, Ben Amar M, Bykowski M, Castro APG o.a. Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales. Advanced Materials. 2023;35(13). 2206110. https://doi.org/10.1002/adma.202206110

Author

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 E. ; 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 E. ; Sengupta, Anupam ; Sharma, Vikas R. ; Tagua, Antonio ; Tomba, Caterina ; Trepat, Xavier ; Waters, Sarah L. ; Yeo, Edwina F. ; Roschger, Andreas ; Bidan, Cécile M. ; Dunlop, John W.C. / Curvature in Biological Systems : Its Quantification, Emergence, and Implications across the Scales. I: Advanced Materials. 2023 ; Bind 35, Nr. 13.

Bibtex

@article{8d8d63923dc8470baf1a402ba7cff300,
title = "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.",
keywords = "biological systems, mechanotransduction, morphogenesis, surface curvature",
author = "Barbara Schamberger and Ricardo Ziege and Karine Anselme and {Ben Amar}, Martine and Micha{\l} Bykowski and Castro, {Andr{\'e} P.G.} and Amaia Cipitria and Coles, {Rhoslyn A.} and Rumiana Dimova and Michaela Eder and Sebastian Ehrig and Escudero, {Luis M.} and Evans, {Myfanwy E.} and Fernandes, {Paulo R.} and Peter Fratzl and Liesbet Geris and Notburga Gierlinger and Edouard Hannezo and Ale{\v s} Igli{\v c} and Kirkensgaard, {Jacob J.K.} and Philip Kollmannsberger and {\L}ucja Kowalewska and Kurniawan, {Nicholas A.} and Ioannis Papantoniou and Laurent Pieuchot and Pires, {Tiago H.V.} and Renner, {Lars D.} and Sageman-Furnas, {Andrew O.} and Schr{\"o}der-Turk, {Gerd E.} and Anupam Sengupta and Sharma, {Vikas R.} and Antonio Tagua and Caterina Tomba and Xavier Trepat and Waters, {Sarah L.} and Yeo, {Edwina F.} and Andreas Roschger and Bidan, {C{\'e}cile M.} and Dunlop, {John W.C.}",
note = "Funding Information: B.S. and A.R. contributed equally to this work. A.P.G.C. and P.R.F. acknowledge the funding from Funda{\c c}{\~a}o para a Ci{\^e}ncia e Tecnologia (Portugal), through IDMEC, under LAETA project UIDB/50022/2020. T.H.V.P. acknowledges the funding from Funda{\c c}{\~a}o para a Ci{\^e}ncia e Tecnologia (Portugal), through Ph.D. Grant 2020.04417.BD. A.S. acknowledges that this work was partially supported by the ATTRACT Investigator Grant (no. A17/MS/11572821/MBRACE, to A.S.) from the Luxembourg National Research Fund. The author thanks Gerardo Ceada for his help in the graphical representations. N.A.K. acknowledges support from the European Research Council (grant 851960) and the Gravitation Program “Materials Driven Regeneration,” funded by the Netherlands Organization for Scientific Research (024.003.013). M.B.A. acknowledges support from the French National Research Agency (grant ANR‐201‐8‐CE1‐3‐0008 for the project “Epimorph”). G.E.S.T. acknowledges funding by the Australian Research Council through project DP200102593. A.C. acknowledges the funding from the Deutsche Forschungsgemeinschaft (DFG) Emmy Noether Grant CI 203/‐2 1, the Spanish Ministry of Science and Innovation (PID2021‐123013O‐BI00) and the IKERBASQUE Basque Foundation for Science. Publisher Copyright: {\textcopyright} 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.",
year = "2023",
doi = "10.1002/adma.202206110",
language = "English",
volume = "35",
journal = "Advanced Materials",
issn = "0935-9648",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "13",

}

RIS

TY - JOUR

T1 - Curvature in Biological Systems

T2 - Its Quantification, Emergence, and Implications across the Scales

AU - Schamberger, Barbara

AU - Ziege, Ricardo

AU - Anselme, Karine

AU - Ben Amar, Martine

AU - Bykowski, Michał

AU - Castro, André P.G.

AU - Cipitria, Amaia

AU - Coles, Rhoslyn A.

AU - Dimova, Rumiana

AU - Eder, Michaela

AU - Ehrig, Sebastian

AU - Escudero, Luis M.

AU - Evans, Myfanwy E.

AU - Fernandes, Paulo R.

AU - Fratzl, Peter

AU - Geris, Liesbet

AU - Gierlinger, Notburga

AU - Hannezo, Edouard

AU - Iglič, Aleš

AU - Kirkensgaard, Jacob J.K.

AU - Kollmannsberger, Philip

AU - Kowalewska, Łucja

AU - Kurniawan, Nicholas A.

AU - Papantoniou, Ioannis

AU - Pieuchot, Laurent

AU - Pires, Tiago H.V.

AU - Renner, Lars D.

AU - Sageman-Furnas, Andrew O.

AU - Schröder-Turk, Gerd E.

AU - Sengupta, Anupam

AU - Sharma, Vikas R.

AU - Tagua, Antonio

AU - Tomba, Caterina

AU - Trepat, Xavier

AU - Waters, Sarah L.

AU - Yeo, Edwina F.

AU - Roschger, Andreas

AU - Bidan, Cécile M.

AU - Dunlop, John W.C.

N1 - Funding Information: B.S. and A.R. contributed equally to this work. A.P.G.C. and P.R.F. acknowledge the funding from Fundação para a Ciência e Tecnologia (Portugal), through IDMEC, under LAETA project UIDB/50022/2020. T.H.V.P. acknowledges the funding from Fundação para a Ciência e Tecnologia (Portugal), through Ph.D. Grant 2020.04417.BD. A.S. acknowledges that this work was partially supported by the ATTRACT Investigator Grant (no. A17/MS/11572821/MBRACE, to A.S.) from the Luxembourg National Research Fund. The author thanks Gerardo Ceada for his help in the graphical representations. N.A.K. acknowledges support from the European Research Council (grant 851960) and the Gravitation Program “Materials Driven Regeneration,” funded by the Netherlands Organization for Scientific Research (024.003.013). M.B.A. acknowledges support from the French National Research Agency (grant ANR‐201‐8‐CE1‐3‐0008 for the project “Epimorph”). G.E.S.T. acknowledges funding by the Australian Research Council through project DP200102593. A.C. acknowledges the funding from the Deutsche Forschungsgemeinschaft (DFG) Emmy Noether Grant CI 203/‐2 1, the Spanish Ministry of Science and Innovation (PID2021‐123013O‐BI00) and the IKERBASQUE Basque Foundation for Science. Publisher Copyright: © 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.

PY - 2023

Y1 - 2023

N2 - 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.

AB - 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.

KW - biological systems

KW - mechanotransduction

KW - morphogenesis

KW - surface curvature

U2 - 10.1002/adma.202206110

DO - 10.1002/adma.202206110

M3 - Review

C2 - 36461812

AN - SCOPUS:85148379457

VL - 35

JO - Advanced Materials

JF - Advanced Materials

SN - 0935-9648

IS - 13

M1 - 2206110

ER -

ID: 340270401