PLoS ONE (Jan 2013)

Development of a physical model-based algorithm for the detection of single-nucleotide substitutions by using tiling microarrays.

  • Naoaki Ono,
  • Shingo Suzuki,
  • Chikara Furusawa,
  • Hiroshi Shimizu,
  • Tetsuya Yomo

DOI
https://doi.org/10.1371/journal.pone.0054571
Journal volume & issue
Vol. 8, no. 1
p. e54571

Abstract

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High-density DNA microarrays are useful tools for analyzing sequence changes in DNA samples. Although microarray analysis provides informative signals from a large number of probes, the analysis and interpretation of these signals have certain inherent limitations, namely, complex dependency of signals on the probe sequences and the existence of false signals arising from non-specific binding between probe and target. In this study, we have developed a novel algorithm to detect the single-base substitutions by using microarray data based on a thermodynamic model of hybridization. We modified the thermodynamic model by introducing a penalty for mismatches that represent the effects of substitutions on hybridization affinity. This penalty results in significantly higher detection accuracy than other methods, indicating that the incorporation of hybridization free energy can improve the analysis of sequence variants by using microarray data.