Sensors (Nov 2016)

Highly Sensitive and Practical Detection of Plant Viruses via Electrical Impedance of Droplets on Textured Silicon-Based Devices

  • Marianna Ambrico,
  • Paolo Francesco Ambrico,
  • Angelantonio Minafra,
  • Angelo De Stradis,
  • Danilo Vona,
  • Stefania R. Cicco,
  • Fabio Palumbo,
  • Pietro Favia,
  • Teresa Ligonzo

DOI
https://doi.org/10.3390/s16111946
Journal volume & issue
Vol. 16, no. 11
p. 1946

Abstract

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Early diagnosis of plant virus infections before the disease symptoms appearance may represent a significant benefit in limiting disease spread by a prompt application of appropriate containment steps. We propose a label-free procedure applied on a device structure where the electrical signal transduction is evaluated via impedance spectroscopy techniques. The device consists of a droplet suspension embedding two representative purified plant viruses i.e., Tomato mosaic virus and Turnip yellow mosaic virus, put in contact with a highly hydrophobic plasma textured silicon surface. Results show a high sensitivity of the system towards the virus particles with an interestingly low detection limit, from tens to hundreds of attomolar corresponding to pg/mL of sap, which refers, in the infection time-scale, to a concentration of virus particles in still-symptomless plants. Such a threshold limit, together with an envisaged engineering of an easily manageable device, compared to more sophisticated apparatuses, may contribute in simplifying the in-field plant virus diagnostics.

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