In this work, we propose an electrochemical DNA-based sensor for sensitive de-tection of organophosphorus pesticides. To improve the sensitivity of the DNA-based sensor, polyaniline film and gold nanoparticles were progressively electro-deposited on the graphite screen-printed electrode surface by cyclic voltammetry. Gold nanoparticles were then employed as platform for the immobilization of thi-ol-tethered DNA oligonucleotide sequence complementary to the selected bioti-nylated DNA aptamer for profenofos detection. Streptavidin-alkaline phosphatase enzyme conjugate was then added to trace the affinity reaction through the hy-drolysis of 1-naphthyl phosphate to 1-naphthol, which was then detected by dif-ferential pulse voltammetry. A decrease of the signal was obtained when the pes-ticide concentration was increased, making the sensor work as signal off sensor.
Electrochemical DNA-Based Sensor for Organophosphorus Pesticides Detection / Giulia Selvolini, Ioana Băjan, Oana Hosu, Cecilia Cristea, Robert Săndulescu, Giovanna Marrazza. - ELETTRONICO. - 539:(2019), pp. 1-5. (Intervento presentato al convegno IV Convegno Nazionale Sensori tenutosi a Catania nel 21-23 Febbraio 2018).
Electrochemical DNA-Based Sensor for Organophosphorus Pesticides Detection
Giulia Selvolini;Oana Hosu;Giovanna Marrazza
2019
Abstract
In this work, we propose an electrochemical DNA-based sensor for sensitive de-tection of organophosphorus pesticides. To improve the sensitivity of the DNA-based sensor, polyaniline film and gold nanoparticles were progressively electro-deposited on the graphite screen-printed electrode surface by cyclic voltammetry. Gold nanoparticles were then employed as platform for the immobilization of thi-ol-tethered DNA oligonucleotide sequence complementary to the selected bioti-nylated DNA aptamer for profenofos detection. Streptavidin-alkaline phosphatase enzyme conjugate was then added to trace the affinity reaction through the hy-drolysis of 1-naphthyl phosphate to 1-naphthol, which was then detected by dif-ferential pulse voltammetry. A decrease of the signal was obtained when the pes-ticide concentration was increased, making the sensor work as signal off sensor.
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