Issue 36, 2021, Issue in Progress

Protein detection enabled using functionalised silk-binding peptides on a silk-coated optical fibre

Abstract

We present a new coating procedure to prepare optical fibre sensors suitable for use with protein analytes. We demonstrate this through the detection of AlexaFluor-532 tagged streptavidin by its binding to D-biotin that is functionalised onto an optical fibre, via incorporation in a silk fibroin fibre coating. The D-biotin was covalently attached to a silk-binding peptide to provide SBP–biotin, which adheres the D-biotin to the silk-coated fibre tip. These optical fibre probes were prepared by two methods. The first involves dip-coating the fibre tip into a mixture of silk fibroin and SBP–biotin, which distributes the SBP–biotin throughout the silk coating (method A). The second method uses two steps, where the fibre is first dip-coated in silk only, then SBP–biotin added in a second dip-coating step. This isolates SBP–biotin to the outer surface of the silk layer (method B). A series of fluorescence measurements revealed that only the surface bound SBP–biotin detects streptavidin with a detection limit of 15 μg mL−1. The fibre coatings are stable to repeated washing and long-term exposure to water. Formation of silk coatings on fibres using commercial aqueous silk fibroin was found to be inhibited by a lithium concentration of 200 ppm, as determined by atomic absorption spectroscopy. This was reduced to less than 20 ppm by dialysis against water, and was found to successfully form a coating on optical fibres.

Graphical abstract: Protein detection enabled using functionalised silk-binding peptides on a silk-coated optical fibre

Supplementary files

Article information

Article type
Paper
Submitted
08 May 2021
Accepted
04 Jun 2021
First published
24 Jun 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 22334-22342

Protein detection enabled using functionalised silk-binding peptides on a silk-coated optical fibre

P. K. Capon, A. J. Horsfall, J. Li, E. P. Schartner, A. Khalid, M. S. Purdey, R. A. McLaughlin and A. D. Abell, RSC Adv., 2021, 11, 22334 DOI: 10.1039/D1RA03584C

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