Harnessing glycofluoroforms for impedimetric biosensing
Harnessing glycofluoroforms for impedimetric biosensing
Glycans play a major role in biological cell-cell recognition and signal transduction but have found limited application in biosensors due to glycan/lectin promiscuity; multiple proteins are capable of binding to the same native glycan. Here, site-specific fluorination is used to introduce protein-glycan selectivity, and this is coupled with an electrochemical detection method to generate a novel biosensor platform. 3F-lacto-N-biose glycofluoroform is installed onto polymer tethers, which are subsequently immobilised onto gold screen printed electrodes, providing a non-fouling surface. The impedance biosensing platform is shown to selectively bind cancer-associated galectin-3 compared to control glycans and proteins. To improve the analytical capability, Bayesian statistical analysis was deployed in the equivalent circuit fitting of electrochemical impedance spectroscopy data. It is shown that Markov Chain Monte Carlo (MCMC) analysis is a helpful method for visualising experimental irreproducibility, and we apply this as a quality control step.
16086-16095
Hewson, Alice R.
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Lloyd-Laney, Henry O.
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Keenan, Tessa
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Richards, Sarah Jane
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Gibson, Matthew I.
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Linclau, Bruno
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Signoret, Nathalie
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Fascione, Martin A.
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Parkin, Alison
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Hewson, Alice R.
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Lloyd-Laney, Henry O.
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Keenan, Tessa
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Richards, Sarah Jane
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Gibson, Matthew I.
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Linclau, Bruno
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Signoret, Nathalie
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Fascione, Martin A.
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Parkin, Alison
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Hewson, Alice R., Lloyd-Laney, Henry O., Keenan, Tessa, Richards, Sarah Jane, Gibson, Matthew I., Linclau, Bruno, Signoret, Nathalie, Fascione, Martin A. and Parkin, Alison
(2024)
Harnessing glycofluoroforms for impedimetric biosensing.
Chemical Science, 15 (39), .
(doi:10.1039/d4sc04409f).
Abstract
Glycans play a major role in biological cell-cell recognition and signal transduction but have found limited application in biosensors due to glycan/lectin promiscuity; multiple proteins are capable of binding to the same native glycan. Here, site-specific fluorination is used to introduce protein-glycan selectivity, and this is coupled with an electrochemical detection method to generate a novel biosensor platform. 3F-lacto-N-biose glycofluoroform is installed onto polymer tethers, which are subsequently immobilised onto gold screen printed electrodes, providing a non-fouling surface. The impedance biosensing platform is shown to selectively bind cancer-associated galectin-3 compared to control glycans and proteins. To improve the analytical capability, Bayesian statistical analysis was deployed in the equivalent circuit fitting of electrochemical impedance spectroscopy data. It is shown that Markov Chain Monte Carlo (MCMC) analysis is a helpful method for visualising experimental irreproducibility, and we apply this as a quality control step.
Text
d4sc04409f
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Accepted/In Press date: 4 September 2024
e-pub ahead of print date: 13 September 2024
Identifiers
Local EPrints ID: 495184
URI: http://eprints.soton.ac.uk/id/eprint/495184
ISSN: 2041-6520
PURE UUID: 6da020af-bc8f-48ec-8417-8fe4f75d21ca
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Date deposited: 31 Oct 2024 17:35
Last modified: 01 Nov 2024 02:36
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Contributors
Author:
Alice R. Hewson
Author:
Henry O. Lloyd-Laney
Author:
Tessa Keenan
Author:
Sarah Jane Richards
Author:
Matthew I. Gibson
Author:
Nathalie Signoret
Author:
Martin A. Fascione
Author:
Alison Parkin
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