BMC Infectious Diseases (Jun 2003)

Bioelectronic DNA detection of human papillomaviruses using eSensor™: a model system for detection of multiple pathogens

  • Miller Donna L,
  • Chan Vivian,
  • Unger Elizabeth R,
  • Farkas Daniel H,
  • Vernon Suzanne D,
  • Chen Yin-Peng,
  • Blackburn Gary F,
  • Reeves William C

DOI
https://doi.org/10.1186/1471-2334-3-12
Journal volume & issue
Vol. 3, no. 1
p. 12

Abstract

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Abstract Background We used human papillomaviruses (HPV) as a model system to evaluate the utility of a nucleic acid, hybridization-based bioelectronic DNA detection platform (eSensor™) in identifying multiple pathogens. Methods Two chips were spotted with capture probes consisting of DNA oligonucleotide sequences specific for HPV types. Electrically conductive signal probes were synthesized to be complementary to a distinct region of the amplified HPV target DNA. A portion of the HPV L1 region that was amplified by using consensus primers served as target DNA. The amplified target was mixed with a cocktail of signal probes and added to a cartridge containing a DNA chip to allow for hybridization with complementary capture probes. Results Two bioelectric chips were designed and successfully detected 86% of the HPV types contained in clinical samples. Conclusions This model system demonstrates the potential of the eSensor platform for rapid and integrated detection of multiple pathogens.