Scaffolds formed via the non-equilibrium supramolecular assembly of the synergistic ECM peptides RGD and PHSRN demonstrate improved cell attachment in 3D

Aye, SSS; Li, R; Boyd-Moss, M; Long, B; Pavuluri, S; Bruggeman, K; Wang, Y; Barrow, Colin; Nisbet, DR; Williams, Richard

Scaffolds formed via the non-equilibrium supramolecular assembly of the synergistic ECM peptides RGD and PHSRN demonstrate improved cell attachment in 3D

journal contribution

posted on 2024-06-18, 09:26 authored by SSS Aye, R Li, M Boyd-Moss, B Long, S Pavuluri, K Bruggeman, Y Wang, Colin BarrowColin Barrow, DR Nisbet, Richard WilliamsRichard Williams

Scaffolds formed via the non-equilibrium supramolecular assembly of the synergistic ECM peptides RGD and PHSRN demonstrate improved cell attachment in 3D

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DOI - Is version of https://doi.org/10.3390/polym10070690

Location

Switzerland

Open access

Yes

Link to full text

http://www.dx.doi.org/10.3390/polym10070690

Language

English

Publication classification

C Journal article, C1 Refereed article in a scholarly journal

Copyright notice

2018, the authors

Journal

Polymers

Volume

10

Article number

ARTN 690

Pagination

1 - 13

ISSN

2073-4360

eISSN

2073-4360

Issue

7

Publisher

MDPI

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Keywords

Science & Technology Physical Sciences Polymer Science self-assembly hydrogel peptides cell adhesion AMINO-ACID-SEQUENCE EXTRACELLULAR-MATRIX PROLINE RESIDUES IN-VITRO SELF FIBRONECTIN AMPHIPHILE ADHESION SURFACE GROWTH School of Life and Environmental Sciences 3403 Macromolecular and materials chemistry

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CC BY 4.0

Scaffolds formed via the non-equilibrium supramolecular assembly of the synergistic ECM peptides RGD and PHSRN demonstrate improved cell attachment in 3D

History

Related Materials

Location

Open access

Link to full text

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Publication classification

Copyright notice

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Volume

Article number

Pagination

ISSN

eISSN

Issue

Publisher

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