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MISTIC: A prediction tool to reveal disease-relevant deleterious missense variants

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Listed:
  • Kirsley Chennen
  • Thomas Weber
  • Xavière Lornage
  • Arnaud Kress
  • Johann Böhm
  • Julie Thompson
  • Jocelyn Laporte
  • Olivier Poch

Abstract

The diffusion of next-generation sequencing technologies has revolutionized research and diagnosis in the field of rare Mendelian disorders, notably via whole-exome sequencing (WES). However, one of the main issues hampering achievement of a diagnosis via WES analyses is the extended list of variants of unknown significance (VUS), mostly composed of missense variants. Hence, improved solutions are needed to address the challenges of identifying potentially deleterious variants and ranking them in a prioritized short list. We present MISTIC (MISsense deleTeriousness predICtor), a new prediction tool based on an original combination of two complementary machine learning algorithms using a soft voting system that integrates 113 missense features, ranging from multi-ethnic minor allele frequencies and evolutionary conservation, to physiochemical and biochemical properties of amino acids. Our approach also uses training sets with a wide spectrum of variant profiles, including both high-confidence positive (deleterious) and negative (benign) variants. Compared to recent state-of-the-art prediction tools in various benchmark tests and independent evaluation scenarios, MISTIC exhibits the best and most consistent performance, notably with the highest AUC value (> 0.95). Importantly, MISTIC maintains its high performance in the specific case of discriminating deleterious variants from benign variants that are rare or population-specific. In a clinical context, MISTIC drastically reduces the list of VUS (

Suggested Citation

  • Kirsley Chennen & Thomas Weber & Xavière Lornage & Arnaud Kress & Johann Böhm & Julie Thompson & Jocelyn Laporte & Olivier Poch, 2020. "MISTIC: A prediction tool to reveal disease-relevant deleterious missense variants," PLOS ONE, Public Library of Science, vol. 15(7), pages 1-23, July.
  • Handle: RePEc:plo:pone00:0236962
    DOI: 10.1371/journal.pone.0236962
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    1. Sarah B. Ng & Emily H. Turner & Peggy D. Robertson & Steven D. Flygare & Abigail W. Bigham & Choli Lee & Tristan Shaffer & Michelle Wong & Arindam Bhattacharjee & Evan E. Eichler & Michael Bamshad & D, 2009. "Targeted capture and massively parallel sequencing of 12 human exomes," Nature, Nature, vol. 461(7261), pages 272-276, September.
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