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Short Exon Detection via Wavelet Transform Modulus Maxima

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  • Xiaolei Zhang
  • Zhiwei Shen
  • Guishan Zhang
  • Yuanyu Shen
  • Miaomiao Chen
  • Jiaxiang Zhao
  • Renhua Wu

Abstract

The detection of short exons is a challenging open problem in the field of bioinformatics. Due to the fact that the weakness of existing model-independent methods lies in their inability to reliably detect small exons, a model-independent method based on the singularity detection with wavelet transform modulus maxima has been developed for detecting short coding sequences (exons) in eukaryotic DNA sequences. In the analysis of our method, the local maxima can capture and characterize singularities of short exons, which helps to yield significant patterns that are rarely observed with the traditional methods. In order to get some information about singularities on the differences between the exon signal and the background noise, the noise level is estimated by filtering the genomic sequence through a notch filter. Meanwhile, a fast method based on a piecewise cubic Hermite interpolating polynomial is applied to reconstruct the wavelet coefficients for improving the computational efficiency. In addition, the output measure of a paired-numerical representation calculated in both forward and reverse directions is used to incorporate a useful DNA structural property. The performances of our approach and other techniques are evaluated on two benchmark data sets. Experimental results demonstrate that the proposed method outperforms all assessed model-independent methods for detecting short exons in terms of evaluation metrics.

Suggested Citation

  • Xiaolei Zhang & Zhiwei Shen & Guishan Zhang & Yuanyu Shen & Miaomiao Chen & Jiaxiang Zhao & Renhua Wu, 2016. "Short Exon Detection via Wavelet Transform Modulus Maxima," PLOS ONE, Public Library of Science, vol. 11(9), pages 1-20, September.
  • Handle: RePEc:plo:pone00:0163088
    DOI: 10.1371/journal.pone.0163088
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    Cited by:

    1. Xiaolei Zhang & Weijun Pan, 2019. "Exon prediction based on multiscale products of a genomic-inspired multiscale bilateral filtering," PLOS ONE, Public Library of Science, vol. 14(3), pages 1-15, March.

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