Biosensors (Nov 2022)

SOI-FET Sensors with Dielectrophoretic Concentration of Viruses and Proteins

  • Olga Naumova,
  • Vladimir Generalov,
  • Dmitry Shcherbakov,
  • Elza Zaitseva,
  • Yuriy Zhivodkov,
  • Anton Kozhukhov,
  • Alexander Latyshev,
  • Alexander Aseev,
  • Alexander Safatov,
  • Galina Buryak,
  • Anastasia Cheremiskina,
  • Julia Merkuleva,
  • Nadezhda Rudometova

DOI
https://doi.org/10.3390/bios12110992
Journal volume & issue
Vol. 12, no. 11
p. 992

Abstract

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Quick label-free virus screening and highly sensitive analytical tools/techniques are becoming extremely important in a pandemic. In this study, we developed a biosensing device based on the silicon nanoribbon multichannel and dielectrophoretic controlled sensors functionalized with SARS-CoV-2 spike antibodies for the use as a platform for the detection and studding of properties of viruses and their protein components. Replicatively defective viral particles based on vesicular stomatitis viruses and HIV-1 were used as carrier molecules to deliver the target SARS-CoV-2 spike S-proteins to sensory elements. It was shown that fully CMOS-compatible nanoribbon sensors have the subattomolar sensitivity and dynamic range of 4 orders. Specific interaction between S-proteins and antibodies leads to the accumulation of the negative charge on the sensor surface. Nonspecific interactions of the viral particles lead to the positive charge accumulation. It was shown that dielectrophoretic controlled sensors allow to estimate the effective charge of the single virus at the sensor surface and separate it from the charge associated with the binding of target proteins with the sensor surface.

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