Gold-nanostructured immunosensor for the electrochemical sensing of biotin based on liposomal competitive assay

This work describes the development of a cost-effective, easy-to-use, portable immunoanalytical platform technology with sufficient sensitivity for use in the detection of physiologically important targets. Biotin, also known as vitamin H, was selected as the model analyte. The detecting system empl...

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Published inJournal of nanoscience and nanotechnology Vol. 9; no. 4; p. 2324
Main Authors Ho, Ja-An Annie, Chiu, Je-Kuan, Hong, Jia-Cherng, Lin, Chun-Cheng, Hwang, Kuo-Chu, Hwu, Jih-Ru Reuben
Format Journal Article
LanguageEnglish
Published United States 01.04.2009
Subjects
Antibodies - chemistry
Antibodies - immunology
Biosensing Techniques - instrumentation
Biosensing Techniques - methods
Biotin - analysis
Biotin - chemical synthesis
Biotin - immunology
Electrochemistry - instrumentation
Electrochemistry - methods
Electrodes
Ferrocyanides - chemistry
Gold - chemistry
Immunoassay - instrumentation
Immunoassay - methods
Liposomes - chemical synthesis
Liposomes - chemistry
Nanostructures - chemistry
Nanostructures - ultrastructure
Polyamines - chemical synthesis
Polyamines - chemistry
Sensitivity and Specificity
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Summary:This work describes the development of a cost-effective, easy-to-use, portable immunoanalytical platform technology with sufficient sensitivity for use in the detection of physiologically important targets. Biotin, also known as vitamin H, was selected as the model analyte. The detecting system employs biotin-tagged, potassium ferrocyanide-encapsulated liposomes as the signal amplifier and PAH (poly allylamine hydrochloride)-modified, nanosized-Au particles assembled screen-printed electrode (nanoAu-SPE) as the working electrode. The diagnostic procedures are based on selective immunoanalytical recognitions and sensitive electrochemical detection. The model analyte biotin was determined based on a "competitive-type" immunoassay in which competition occurs between the analyte biotin and potassium ferrocyanide-encapsulated, biotin-tagged liposomes for a limited number of anti-biotin antibody binding sites, which were immobilized on the PAH/nanoAu/SPE surface. The nanostructured Au SPE surface was covalently bonded to the PAH layer, which subsequently interacted with anti-biotin antibodies. The ferrocyanide released from ruptured bound-liposomes was finally measured using square-wave voltammetry. The calibration curve for biotin had a linear range of 10(-11)-10(-2) M, covering nine orders of magnitude. The detection limit of this immunodetecting system was as low as 9.1 pg of biotin (equivalent to 4.5/microL of 8.3 x 10(-9) M).
ISSN:1533-4880
DOI:10.1166/jnn.2009.SE40