Material-driven fibronectin fibrillogenesis

Marco Cantini; Cristina González-García; Virginia Llopis-Hernández; Manuel Salmerón-Sánchez

doi:10.1021/bk-2012-1120.ch022

Material-driven fibronectin fibrillogenesis

Marco Cantini, Cristina González-García, Virginia Llopis-Hernández, Manuel Salmerón-Sánchez

研究成果: 書籍/レポートタイプへの寄稿 › 会議への寄与

10 被引用数 (Scopus)

抄録

Material-driven fibronectin fibrillogenesis is a novel route to engineer the network structure and biological activity of fibronectin fibrillar matrices in analogy with their physiological cell-mediated assembly. We identify specific surface chemistries that promote the cell-free formation of physiological-like fibronectin fibrils in a time- and concentration-dependent process. Our most recent and relevant results, reviewed in the chapter, demonstrate the role of this material-induced fibrillogenesis in cell adhesion, extracellular matrix organization and degradation, and cell differentiation.

本文言語	英語
ホスト出版物のタイトル	Proteins at Interfaces III State of the Art
出版社	American Chemical Society
ページ	471-496
ページ数	26
ISBN（印刷版）	9780841227965
DOI	https://doi.org/10.1021/bk-2012-1120.ch022
出版ステータス	出版済み - 12月 12 2012
外部発表	はい

出版物シリーズ

名前	ACS Symposium Series
巻	1120
ISSN（印刷版）	0097-6156
ISSN（電子版）	1947-5918

!!!All Science Journal Classification (ASJC) codes

化学 (全般)
化学工学（全般）

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10.1021/bk-2012-1120.ch022

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引用スタイル

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title = "Material-driven fibronectin fibrillogenesis",

abstract = "Material-driven fibronectin fibrillogenesis is a novel route to engineer the network structure and biological activity of fibronectin fibrillar matrices in analogy with their physiological cell-mediated assembly. We identify specific surface chemistries that promote the cell-free formation of physiological-like fibronectin fibrils in a time- and concentration-dependent process. Our most recent and relevant results, reviewed in the chapter, demonstrate the role of this material-induced fibrillogenesis in cell adhesion, extracellular matrix organization and degradation, and cell differentiation.",

author = "Marco Cantini and Cristina Gonz{\'a}lez-Garc{\'i}a and Virginia Llopis-Hern{\'a}ndez and Manuel Salmer{\'o}n-S{\'a}nchez",

note = "Funding Information: Acknowledgements. This work was supported by the Directorate General for International Cooperation (The Netherlands) for PhD scholarship under a collaborative project between ICIPE{\textquoteright}s Biological Control of Cereal Stem Borers and Wageningen Agricultural University. We thank Julius Obonyo and Gerphas Okuku for their help during the ovary dissections. We also thank James Kabii for his assistance in setting up the electrophoresis apparatus in the molecular biology lab.",

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AU - Cantini, Marco

AU - González-García, Cristina

AU - Llopis-Hernández, Virginia

AU - Salmerón-Sánchez, Manuel

N1 - Funding Information: Acknowledgements. This work was supported by the Directorate General for International Cooperation (The Netherlands) for PhD scholarship under a collaborative project between ICIPE’s Biological Control of Cereal Stem Borers and Wageningen Agricultural University. We thank Julius Obonyo and Gerphas Okuku for their help during the ovary dissections. We also thank James Kabii for his assistance in setting up the electrophoresis apparatus in the molecular biology lab.

PY - 2012/12/12

Y1 - 2012/12/12

N2 - Material-driven fibronectin fibrillogenesis is a novel route to engineer the network structure and biological activity of fibronectin fibrillar matrices in analogy with their physiological cell-mediated assembly. We identify specific surface chemistries that promote the cell-free formation of physiological-like fibronectin fibrils in a time- and concentration-dependent process. Our most recent and relevant results, reviewed in the chapter, demonstrate the role of this material-induced fibrillogenesis in cell adhesion, extracellular matrix organization and degradation, and cell differentiation.

AB - Material-driven fibronectin fibrillogenesis is a novel route to engineer the network structure and biological activity of fibronectin fibrillar matrices in analogy with their physiological cell-mediated assembly. We identify specific surface chemistries that promote the cell-free formation of physiological-like fibronectin fibrils in a time- and concentration-dependent process. Our most recent and relevant results, reviewed in the chapter, demonstrate the role of this material-induced fibrillogenesis in cell adhesion, extracellular matrix organization and degradation, and cell differentiation.

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U2 - 10.1021/bk-2012-1120.ch022

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BT - Proteins at Interfaces III State of the Art

PB - American Chemical Society

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Material-driven fibronectin fibrillogenesis

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!!!All Science Journal Classification (ASJC) codes

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