Mixed Copolymer Adlayers Allowing Reversible Thermal Control of Single Cell Aspect Ratio

Dynamic guidance of living cells is achieved by fine-tuning and spatiotemporal modulation on artificial polymer layers enabling reversible peptide display. Adjustment of surface composition and interactions is obtained by coadsorption of mixed poly­(lysine) derivatives, grafted with either repellent...

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Veröffentlicht in:ACS applied materials & interfaces 2018-01, Vol.10 (3), p.2253-2258
Hauptverfasser: Dalier, F, Dubacheva, G. V, Coniel, M, Zanchi, D, Galtayries, A, Piel, M, Marie, E, Tribet, C
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container_issue 3
container_start_page 2253
container_title ACS applied materials & interfaces
container_volume 10
creator Dalier, F
Dubacheva, G. V
Coniel, M
Zanchi, D
Galtayries, A
Piel, M
Marie, E
Tribet, C
description Dynamic guidance of living cells is achieved by fine-tuning and spatiotemporal modulation on artificial polymer layers enabling reversible peptide display. Adjustment of surface composition and interactions is obtained by coadsorption of mixed poly­(lysine) derivatives, grafted with either repellent PEG, RGD adhesion peptides, or T-responsive poly­(N-isopropylacrylamide) strands. Deposition of mixed adlayers provides a straightforward mean to optimize complex substrates, which is here implemented to achieve (1) thermal control of ligand accessibility and (2) adjustment of relative adhesiveness between adjacent micropatterns, while preserving cell attachment during thermal cycles. The reversible polarization of HeLa cells along orthogonal stripes mimics guidance along natural matrices.
doi_str_mv 10.1021/acsami.7b18513
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subjects Biotechnology
Cell Behavior
Cellular Biology
Chemical Sciences
Life Sciences
Polymers
title Mixed Copolymer Adlayers Allowing Reversible Thermal Control of Single Cell Aspect Ratio
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