Molecular Recognition and Immobilization of Ligand-Conjugated Redox-Responsive Polymer Nanocontainers
We present the preparation of ligand-conjugated redox-responsive polymer nanocontainers by the supramolecular decoration of cyclodextrin vesicles with a thin redox-cleavable polymer shell that displays molecular recognition units on its surface. Two widely different recognition motifs (mannose–Conca...
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| Veröffentlicht in: | ACS applied materials & interfaces 2017-12, Vol.9 (48), p.41760-41766 |
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| container_title | ACS applied materials & interfaces |
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| creator | de Vries, Wilke C Tesch, Matthias Studer, Armido Ravoo, Bart Jan |
| description | We present the preparation of ligand-conjugated redox-responsive polymer nanocontainers by the supramolecular decoration of cyclodextrin vesicles with a thin redox-cleavable polymer shell that displays molecular recognition units on its surface. Two widely different recognition motifs (mannose–Concanavalin A and biotin–streptavidin) are compared and the impact of ligand density on the nanocontainer surface as well as an additional functionalization with nonadhesive poly(ethylene glycol) is studied. Aggregation assays, dynamic light scattering, and a fluorometric quantification reveal that the molecular recognition of ligand-conjugated polymer nanocontainers by receptor proteins is strongly affected by the multivalency of interactions and the association strength of the recognition motif. Finally, microcontact printing is used to prepare streptavidin-patterned surfaces, and the specific immobilization of biotin-conjugated nanocontainers is demonstrated. As a prototype of a nanosensor, these tethered nanocontainers can sense a reductive environment and react by releasing a payload. |
| doi_str_mv | 10.1021/acsami.7b15516 |
| format | Article |
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Two widely different recognition motifs (mannose–Concanavalin A and biotin–streptavidin) are compared and the impact of ligand density on the nanocontainer surface as well as an additional functionalization with nonadhesive poly(ethylene glycol) is studied. Aggregation assays, dynamic light scattering, and a fluorometric quantification reveal that the molecular recognition of ligand-conjugated polymer nanocontainers by receptor proteins is strongly affected by the multivalency of interactions and the association strength of the recognition motif. Finally, microcontact printing is used to prepare streptavidin-patterned surfaces, and the specific immobilization of biotin-conjugated nanocontainers is demonstrated. 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| title | Molecular Recognition and Immobilization of Ligand-Conjugated Redox-Responsive Polymer Nanocontainers |
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