M.I. Pividori scite author profile

Alegret

2001

Analyst

A new electrochemical hybridisation genosensor for the detection of resistant bacteria has been developed. This device relies on the immobilisation of a 50-mer oligonucleotide target, unique to a novel determinant of beta-lactamase resistance in Staphylococcus aureus, onto an electrochemical transducer. This genosensor is based on a concept adapted from classical dot-blot DNA analysis, but implemented in an electrochemical biosensor configuration. Amperometric transduction and an enzyme label method, that increases the genosensor sensitivity, are the main features of this new approach. In addition to the adapted dot-blot format, a double hybridisation assay, in which two different labelled probes were used, is reported. This procedure, if combined with polymerase chain reaction (PCR), allows determination of the genotype of an antibiotic-resistant organism in a shorter time than that required to perform traditional phenotypic susceptibility testing. Its characteristics are ideal for implementation in a kit form.

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Graphite-epoxy composites as a new transducing material for electrochemical genosensing

Biosensors and Bioelectronics

Alegret

2003

Rapid electrochemical genosensor assay using a streptavidin carbon-polymer biocomposite electrode

Williams

Biosensors and Bioelectronics

et al. 2003

Development and application of an electronic tongue for detection and monitoring of nitrate, nitrite and ammonium levels in waters

Nuñez

Cetó

et al. 2013

Microchemical Journal

Disposable Magnetic DNA Sensors for the Determination at the Attomolar Level of a Specific Enterobacteriaceae Family Gene

et al. 2008

Disposable magnetic DNA sensors using an enzyme-amplified strategy for the specific detection of a gene related to the Enterobacteriaceae bacterial family, based on the coupling of streptavidin-peroxidase to biotinylated lacZ gene target sequences, has been developed. A biotinylated 25-mer capture probe was attached to streptavidin-modified magnetic beads and hybridization with the biotinylated target was allowed to proceed. Then, a streptavidin-peroxidase polymer was attached to the biotinylated target, and the resulting modified magnetic beads were captured by a magnetic field on the surface of tetrathiafulvalene (TTF) modified gold screen-printed electrodes (Au/SPEs). The amperometric response obtained at -0.15 V after the addition of hydrogen peroxide was used to detect the hybridization process. In order to improve the sensitivity of the determination and reduce the assay time, different variables of the assay protocol were optimized. A low detection limit (5.7 fmol) with good stability (RSD = 7.1%, n = 10) was obtained. The DNA nonspecific adsorption at the magnetic beads was negligible, the obtained results thus demonstrating the possibility to detect the hybridization event with great specificity and sensitivity. The developed method was used for the analysis of Escherichia coli DNA fragments (326 bases) in polymerase chain reaction (PCR) amplicons extracted from a cell culture. As low as 2.5 aM asymmetric PCR product could be detected with the developed methodology.

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Classical dot–blot format implemented as an amperometric hybridisation genosensor

Biosensors and Bioelectronics

Alegret

2001

Genomagnetic assay based on label-free electrochemical detection using magneto-composite electrodes

Erdem

Sensors and Actuators B: Chemical

Lermo

et al. 2006