Biosensors and Bioelectronics: X (May 2023)

A novel isothermal digital amplification system and its application for absolute quantification of respiratory infectious virus

  • Yong Ju,
  • Younseong Song,
  • Jaemin Kim,
  • Hyoyong Kim,
  • Yan Li,
  • Kyoung G. Lee,
  • Seok Jae Lee,
  • Hyun Gyu Park

Journal volume & issue
Vol. 13
p. 100317

Abstract

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Herein, we establish a novel isothermal digital amplification system termed digital nicking and extension chain reaction system-based amplification (dNESBA) by utilizing the isothermal NESBA technique and the newly developed miniaturized fluorescence monitoring system (mFMS). dNESBA enables parallel isothermal NESBA reactions in more than 10,000 localized droplet microreactors and read the fluorescence signals rapidly in 150 s by mFMS. This system could identify the genomic RNA (gRNA) extracted from target respiratory syncytial virus A (RSV A) as low as 10 copies with remarkable specificity. The practical applicability of dNESBA was also successfully verified by reliably detecting the gRNA in the artificial sputum samples with excellent reproducibility and accuracy. Due to the intrinsic advantages of isothermal amplifying technique including the elimination of the requirement of thermocycling device and the enhanced portability of the miniaturized read-out equipment, the dNESBA technique equipped with mFMS could serve as a promising platform system to achieve point-of-care (POC) digital molecular diagnostics, enabling absolute and ultra-sensitive quantification of various infectious pathogens even in an early stage.

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