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Evaluating the detection ability of a range of epistasis detection methods on simulated data for pure and impure epistatic models

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  • Dominic Russ
  • John A Williams
  • Victor Roth Cardoso
  • Laura Bravo-Merodio
  • Samantha C Pendleton
  • Furqan Aziz
  • Animesh Acharjee
  • Georgios V Gkoutos

Abstract

Background: Numerous approaches have been proposed for the detection of epistatic interactions within GWAS datasets in order to better understand the drivers of disease and genetics. Methods: A selection of state-of-the-art approaches were assessed. These included the statistical tests, fast-epistasis, BOOST, logistic regression and wtest; swarm intelligence methods, namely AntEpiSeeker, epiACO and CINOEDV; and data mining approaches, including MDR, GSS, SNPRuler and MPI3SNP. Data were simulated to provide randomly generated models with no individual main effects at different heritabilities (pure epistasis) as well as models based on penetrance tables with some main effects (impure epistasis). Detection of both two and three locus interactions were assessed across a total of 1,560 simulated datasets. The different methods were also applied to a section of the UK biobank cohort for Atrial Fibrillation. Results: For pure, two locus interactions, PLINK’s implementation of BOOST recovered the highest number of correct interactions, with 53.9% and significantly better performing than the other methods (p = 4.52e − 36). For impure two locus interactions, MDR exhibited the best performance, recovering 62.2% of the most significant impure epistatic interactions (p = 6.31e − 90 for all but one test). The assessment of three locus interaction prediction revealed that wtest recovered the highest number (17.2%) of pure epistatic interactions(p = 8.49e − 14). wtest also recovered the highest number of three locus impure epistatic interactions (p = 6.76e − 48) while AntEpiSeeker ranked as the most significant the highest number of such interactions (40.5%). Finally, when applied to a real dataset for Atrial Fibrillation, most notably finding an interaction between SYNE2 and DTNB.

Suggested Citation

  • Dominic Russ & John A Williams & Victor Roth Cardoso & Laura Bravo-Merodio & Samantha C Pendleton & Furqan Aziz & Animesh Acharjee & Georgios V Gkoutos, 2022. "Evaluating the detection ability of a range of epistasis detection methods on simulated data for pure and impure epistatic models," PLOS ONE, Public Library of Science, vol. 17(2), pages 1-19, February.
  • Handle: RePEc:plo:pone00:0263390
    DOI: 10.1371/journal.pone.0263390
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    References listed on IDEAS

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    1. Clare Bycroft & Colin Freeman & Desislava Petkova & Gavin Band & Lloyd T. Elliott & Kevin Sharp & Allan Motyer & Damjan Vukcevic & Olivier Delaneau & Jared O’Connell & Adrian Cortes & Samantha Welsh &, 2018. "The UK Biobank resource with deep phenotyping and genomic data," Nature, Nature, vol. 562(7726), pages 203-209, October.
    2. Brendan Maher, 2008. "Personal genomes: The case of the missing heritability," Nature, Nature, vol. 456(7218), pages 18-21, November.
    3. Masao Ueki & Heather J Cordell, 2012. "Improved Statistics for Genome-Wide Interaction Analysis," PLOS Genetics, Public Library of Science, vol. 8(4), pages 1-19, April.
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