Binding assay for cholera toxin based on sequestration electrochemistry using lactose labeled with an electroactive compound

Hideki Kuramitz; Shun Miyagaki; Eiji Ueno; Noriko Hata; Shigeru Taguchi; Kazuharu Sugawara

doi:10.1039/c1an15100b

Binding assay for cholera toxin based on sequestration electrochemistry using lactose labeled with an electroactive compound

Hideki Kuramitz^*, Shun Miyagaki, Eiji Ueno, Noriko Hata, Shigeru Taguchi, Kazuharu Sugawara

^*Corresponding author for this work

Department of Natural and Environmental Science

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

A simple electrochemical binding assay for cholera toxin (CT) was developed using lactose labeled with daunomycin as an electroactive compound. The labeled lactose (LL) was determined with high sensitivity by adsorptive stripping voltammetry (AdSV). The electrochemical behaviors of LL at glassy carbon (GC), plastic formed carbon (PFC) and carbon nanotubes paste (CNTP) electrode were investigated. The CNTP electrode showed the greatest accumulation capacity for LL. The assay for CT based on the sequestration electrochemistry was demonstrated. The binding event of the LL to CT was detected by the decrease in the electrochemical response of daunomycin as an electroactive label without a separation process to remove the free LL from the one bound with CT before any measurements can be made. The detection limit of the CT assay using the CNTP electrode was 0.5 nM (42 ng mL^-1).

Original language	English
Pages (from-to)	2373-2378
Number of pages	6
Journal	Analyst
Volume	136
Issue number	11
DOIs	https://doi.org/10.1039/c1an15100b
State	Published - 2011/06/07

ASJC Scopus subject areas

Analytical Chemistry
Biochemistry
Environmental Chemistry
Spectroscopy
Electrochemistry

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1039/c1an15100b

Cite this

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title = "Binding assay for cholera toxin based on sequestration electrochemistry using lactose labeled with an electroactive compound",

abstract = "A simple electrochemical binding assay for cholera toxin (CT) was developed using lactose labeled with daunomycin as an electroactive compound. The labeled lactose (LL) was determined with high sensitivity by adsorptive stripping voltammetry (AdSV). The electrochemical behaviors of LL at glassy carbon (GC), plastic formed carbon (PFC) and carbon nanotubes paste (CNTP) electrode were investigated. The CNTP electrode showed the greatest accumulation capacity for LL. The assay for CT based on the sequestration electrochemistry was demonstrated. The binding event of the LL to CT was detected by the decrease in the electrochemical response of daunomycin as an electroactive label without a separation process to remove the free LL from the one bound with CT before any measurements can be made. The detection limit of the CT assay using the CNTP electrode was 0.5 nM (42 ng mL-1).",

author = "Hideki Kuramitz and Shun Miyagaki and Eiji Ueno and Noriko Hata and Shigeru Taguchi and Kazuharu Sugawara",

year = "2011",

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doi = "10.1039/c1an15100b",

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T1 - Binding assay for cholera toxin based on sequestration electrochemistry using lactose labeled with an electroactive compound

AU - Kuramitz, Hideki

AU - Miyagaki, Shun

AU - Ueno, Eiji

AU - Hata, Noriko

AU - Taguchi, Shigeru

AU - Sugawara, Kazuharu

PY - 2011/6/7

Y1 - 2011/6/7

N2 - A simple electrochemical binding assay for cholera toxin (CT) was developed using lactose labeled with daunomycin as an electroactive compound. The labeled lactose (LL) was determined with high sensitivity by adsorptive stripping voltammetry (AdSV). The electrochemical behaviors of LL at glassy carbon (GC), plastic formed carbon (PFC) and carbon nanotubes paste (CNTP) electrode were investigated. The CNTP electrode showed the greatest accumulation capacity for LL. The assay for CT based on the sequestration electrochemistry was demonstrated. The binding event of the LL to CT was detected by the decrease in the electrochemical response of daunomycin as an electroactive label without a separation process to remove the free LL from the one bound with CT before any measurements can be made. The detection limit of the CT assay using the CNTP electrode was 0.5 nM (42 ng mL-1).

AB - A simple electrochemical binding assay for cholera toxin (CT) was developed using lactose labeled with daunomycin as an electroactive compound. The labeled lactose (LL) was determined with high sensitivity by adsorptive stripping voltammetry (AdSV). The electrochemical behaviors of LL at glassy carbon (GC), plastic formed carbon (PFC) and carbon nanotubes paste (CNTP) electrode were investigated. The CNTP electrode showed the greatest accumulation capacity for LL. The assay for CT based on the sequestration electrochemistry was demonstrated. The binding event of the LL to CT was detected by the decrease in the electrochemical response of daunomycin as an electroactive label without a separation process to remove the free LL from the one bound with CT before any measurements can be made. The detection limit of the CT assay using the CNTP electrode was 0.5 nM (42 ng mL-1).

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JO - Analyst

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Binding assay for cholera toxin based on sequestration electrochemistry using lactose labeled with an electroactive compound

Abstract

ASJC Scopus subject areas

UN SDGs

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