Rapid assessment of the stability of DNA duplexes by impedimetric real-time monitoring of chemically induced denaturation

B. van Grinsven*, N. Vanden Bon, L. Grieten, M. Murib, S. D. Janssens, K. Haenen, E. Schneider, S. Ingebrandt, M. J. Schoening, V. Vermeeren, M. Ameloot, L. Michiels, R. Thoelen, W. De Ceuninck, P. Wagner

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

In this article, we report on the electronic monitoring of DNA denaturation by NaOH using electrochemical impedance spectroscopy in combination with fluorescence imaging as a reference technique. The probe DNA consisting of a 36-mer fragment was covalently immobilized on nanocrystalline-diamond electrodes and hybridized with different types of 29-mer target DNA (complementary, single-nucleotide defects at two different positions, and a non-complementary random sequence). The mathematical separation of the impedimetric signals into the time constant for NaOH exposure and the intrinsic denaturation-time constants gives clear evidence that the denaturation times reflect the intrinsic stability of the DNA duplexes. The intrinsic time constants correlate with calculated DNA-melting temperatures. The impedimetric method requires minimal instrumentation, is label-free and fast with a typical time scale of minutes and is highly reproducible. The sensor electrodes can be used repetitively. These elements suggest that the monitoring of chemically induced denaturation at room temperature is an interesting approach to measure DNA duplex stability as an alternative to thermal denaturation at elevated temperatures, used in DNA-melting experiments and single nucleotide polymorphism (SNP) analysis.

Original languageEnglish
Pages (from-to)1656-1663
Number of pages8
JournalLab on A Chip
Volume11
Issue number9
DOIs
Publication statusPublished - 2011
Externally publishedYes

Keywords

  • SINGLE-NUCLEOTIDE POLYMORPHISMS
  • LABEL-FREE DETECTION
  • DIAMOND THIN-FILMS
  • IMPEDANCE SPECTROSCOPY
  • ACCURATE DETECTION
  • MUTATION DETECTION
  • HYBRIDIZATION
  • SURFACES
  • SENSORS
  • ELECTROPHORESIS

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