Electrochemiluminescent disposable cholesterol biosensor based on avidin–biotin assembling with the electroformed luminescent conducting polymer poly(luminol-biotinylated pyrrole)
Metadatos
Afficher la notice complèteAuteur
Ballesta Claver, Julio; Ametis-Cabello, Javier; Morales Sanfrutos, Julia; Megía Fernández, Alicia; Valencia-Mirón, M. Carmen; Santoyo González, Francisco; Capitán Vallvey, Luis FermínEditorial
Elsevier
Materia
Cholesterol biosensor Luminol copolymers
Date
2012Referencia bibliográfica
Anal Chim Acta 2012, 754, 91-98
Patrocinador
Ministerio de Economía y Competitividad, Dirección General de Investigación y Gestión del Plan Nacional de I+D+i (Spain) (Projects CTQ2009- 14428-C02-01, CTQ2009-14428-C02-02 and CTQ2008-01754); Junta de Andalucía (Proyecto de Excelencia P08-FQM-3535and P10- FQM-5974); European Regional Development Funds (ERDF)Résumé
An electrochemiluminescent cholesterol disposable biosensor has been prepared by the formation of
assembled layers on gold screen-printed cells. The detection layer is based on the electro-formation of
new luminol copolymers with different synthesized biotinylated pyrroles prepared by click-chemistry,
offering a new transduction layer with new electroluminescent properties on biosensors. The electro chemiluminescence (ECL) luminol copolymers are electroformed by cyclic voltammetry (five cycles) at
pH 7.0 uses a10−3 M biotinylated pyrrole–luminol ratio of 1:10 in PBS buffer. With respect to the recogni tion layer, cholesterol oxidase was biotinylated by incubation with biotin vinyl sulfone, and immobilized
on the copolymer by avidin–biotin interaction. The analytical signal of the biosensor is the ECL enzymatic
initial rate working in chronoamperometric mode at 0.5V excitation potential with 10 s between pulses
at pH 9.5. Satisfactory results were obtained for cholesterol determination in serum samples compared to a
reference procedure.