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An Improved Systematic Approach to Predicting Transcription Factor Target Genes Using Support Vector Machine

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  • Song Cui
  • Eunseog Youn
  • Joohyun Lee
  • Stephan J Maas

Abstract

Biological prediction of transcription factor binding sites and their corresponding transcription factor target genes (TFTGs) makes great contribution to understanding the gene regulatory networks. However, these approaches are based on laborious and time-consuming biological experiments. Numerous computational approaches have shown great potential to circumvent laborious biological methods. However, the majority of these algorithms provide limited performances and fail to consider the structural property of the datasets. We proposed a refined systematic computational approach for predicting TFTGs. Based on previous work done on identifying auxin response factor target genes from Arabidopsis thaliana co-expression data, we adopted a novel reverse-complementary distance-sensitive n-gram profile algorithm. This algorithm converts each upstream sub-sequence into a high-dimensional vector data point and transforms the prediction task into a classification problem using support vector machine-based classifier. Our approach showed significant improvement compared to other computational methods based on the area under curve value of the receiver operating characteristic curve using 10-fold cross validation. In addition, in the light of the highly skewed structure of the dataset, we also evaluated other metrics and their associated curves, such as precision-recall curves and cost curves, which provided highly satisfactory results.

Suggested Citation

  • Song Cui & Eunseog Youn & Joohyun Lee & Stephan J Maas, 2014. "An Improved Systematic Approach to Predicting Transcription Factor Target Genes Using Support Vector Machine," PLOS ONE, Public Library of Science, vol. 9(4), pages 1-9, April.
    • Handle: RePEc:plo:pone00:0094519
    DOI: 10.1371/journal.pone.0094519
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    References listed on IDEAS

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    1. Sayda M. Elbashir & Jens Harborth & Winfried Lendeckel & Abdullah Yalcin & Klaus Weber & Thomas Tuschl, 2001. "Duplexes of 21-nucleotide RNAs mediate RNA interference in cultured mammalian cells," Nature, Nature, vol. 411(6836), pages 494-498, May.
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    Cited by:

    1. Song Cui & Qiang Wu & James West & Jiangping Bai, 2019. "Machine learning-based microarray analyses indicate low-expression genes might collectively influence PAH disease," PLOS Computational Biology, Public Library of Science, vol. 15(8), pages 1-25, August.

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