Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers

Abul-Haija, Y.M.; Roy, S.; Frederix, P.W.J.M.; Javid, Nadeem; Jayawarna, V.; Ulijn, R.V.

Publication

Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers

Abul-Haija, Y.M.
;
Roy, S.
;
Frederix, P.W.J.M.
;
Javid, Nadeem
;
Jayawarna, V.
;
Ulijn, R.V.

Publication Date

05/03/2014

Keywords

Biocatalysis, Co-assembly, Peptides, Surface functionality, Transformation

Rights

© 2014 Wiley. This is the peer-reviewed version of the following article: Abul-Haija YM, Roy S, Frederix PWJM et al (2014) Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers. Small. 10(5): 973-979., which has been published in final form at https://doi.org/10.1002/smll.201301668. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.

cb

Peer-Reviewed

Yes

Open Access status

openAccess

Collections

Life Sciences Publications

Show all metadata

Files

abul_haija_et_al_2014.pdf

Adobe PDF, 1.41 MB

Abstract

For the development of applications and novel uses for peptide nanostructures, robust routes for their surface functionalization, that ideally do not interfere with their self‐assembly properties, are required. Many existing methods rely on covalent functionalization, where building blocks are appended with functional groups, either pre‐ or post‐assembly. A facile supramolecular approach is demonstrated for the formation of functionalized nanofibers by combining the advantages of biocatalytic self‐assembly and surfactant/gelator co‐assembly. This is achieved by enzymatically triggered reconfiguration of free flowing micellar aggregates of pre‐gelators and functional surfactants to form nanofibers that incorporate and display the surfactants’ functionality at the surface. Furthermore, by varying enzyme concentration, the gel stiffness and supramolecular organization of building blocks can be varied.

URI

http://hdl.handle.net/10454/17082

Version

Accepted manuscript

Citation

Abul-Haija YM, Roy S, Frederix PWJM et al (2014) Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers. Small. 10(5): 973-979.

Link to Version of Record

https://doi.org/10.1002/smll.201301668

Type

Article

Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers

Abul-Haija, Y.M.
;
Roy, S.
;
Frederix, P.W.J.M.
;
Javid, Nadeem
;
Jayawarna, V.
;
Ulijn, R.V.

Publication Date

End of Embargo

Supervisor

Keywords

Rights

Peer-Reviewed

Open Access status

Accepted for publication

Institution

Department

Awarded

Embargo end date

Collections

Files

Additional title

Abstract

URI

Version

Citation

Link to publisher’s version

Link to published version

Link to Version of Record

Type

Qualification name

Notes

Biocatalytically Triggered Co‐Assembly of Two‐Component Core/Shell Nanofibers

Abul-Haija, Y.M. ; Roy, S. ; Frederix, P.W.J.M. ; Javid, Nadeem ; Jayawarna, V. ; Ulijn, R.V.

Publication Date

End of Embargo

Supervisor

Keywords

Rights

Peer-Reviewed

Open Access status

Accepted for publication

Institution

Department

Awarded

Embargo end date

Collections

Files

Additional title

Abstract

URI

Version

Citation

Link to publisher’s version

Link to published version

Link to Version of Record

Type

Qualification name

Notes

Abul-Haija, Y.M.
;
Roy, S.
;
Frederix, P.W.J.M.
;
Javid, Nadeem
;
Jayawarna, V.
;
Ulijn, R.V.