A Label-free electrochemical DNA biosensor based on a Zr(IV)-coordinated DNA duplex immobilised on a carbon nanofibre|chitosan layer | Macquarie University ResearchOnline

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A Label-free electrochemical DNA biosensor based on a Zr(IV)-coordinated DNA duplex immobilised on a carbon nanofibre|chitosan layer

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/168717

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Title: A Label-free electrochemical DNA biosensor based on a Zr(IV)-coordinated DNA duplex immobilised on a carbon nanofibre|chitosan layer
Related: Analytical and bioanalytical chemistry, Vol. 402, No. 9, (2012), p.2817-2826
DOI: 10.1007/s00216-012-5733-0
Publisher: Springer Verlag
Date: 2012
Author/Creator: Wipawakarn, Patoommarn
Author/Creator: Ju, Huangxian
Author/Creator: Wong, Danny K. Y
Description: A label-free electrochemical biosensor for detecting DNA hybridisation was developed by monitoring the change in the voltammetric activity of ferrocenecarboxylic acid at the biosensor-solution interface. The biosensor was constructed by initially immobilising on a glassy carbon electrode an anchoring layer consisting of chitosan, carboxyl group functionalised carbon nanofibres and glutaraldehye. Chitosan acted as an adhering agent and carbon nanofibres were strategically used to provide a large surface area with binding points for DNA immobilisation, while glutaraldehye was a linker for DNA probes on the electrode surface. Based on a two-factorial design, cyclic voltammetry of [Fe(CN) 6] 3-/4- was performed to optimise the composition of the anchoring layer. Next, a 17-base pair DNA probe was attached to the anchoring layer, followed by its complementary target. Zr(IV) ion, known to exhibit affinity for oxygen-containing electroactive markers, for example, ferrocenecarboxylic acid, was then coordinated in the DNA duplex. In this way, ferrocenecarboxylic acid was attracted towards the biosensor for oxidation. A change in the voltammetric oxidation current of ferrocenecarboxylic acid pre- and post-hybridisation was used to provide an indication of hybridisation. A linear dynamic range between 0.5 and 40 nM and a detection limit of 88 pM of DNA target were then achieved. In addition, the biosensor exhibited good selectivity, repeatability and stability for the determination of DNA sequences.
Description: 10 page(s)
Subject Keyword: Carbon nanofibre
Subject Keyword: Chitosan
Subject Keyword: Electrochemical DNA sensor
Subject Keyword: Label-free detection
Subject Keyword: Zr(IV)-coordinated DNA duplex
Resource Type: journal article
Organisation: Macquarie University. Dept. of Chemistry and Biomolecular Sciences

Identifier: http://hdl.handle.net/1959.14/168717
Identifier: ISSN:1618-2642
Identifier: mq_res-ext-2-s2.0-84858706678
Language: eng
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