PLoS ONE (Jan 2014)

Evaluating the coverage and potential of imputing the exome microarray with next-generation imputation using the 1000 Genomes Project.

  • Erwin Tantoso,
  • Lai-Ping Wong,
  • Bowen Li,
  • Woei-Yuh Saw,
  • Wenting Xu,
  • Peter Little,
  • Rick Twee-Hee Ong,
  • Yik-Ying Teo

DOI
https://doi.org/10.1371/journal.pone.0106681
Journal volume & issue
Vol. 9, no. 9
p. e106681

Abstract

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Next-generation genotyping microarrays have been designed with insights from large-scale sequencing of exomes and whole genomes. The exome genotyping arrays promise to query the functional regions of the human genome at a fraction of the sequencing cost, thus allowing large number of samples to be genotyped. However, two pertinent questions exist: firstly, how representative is the content of the exome chip for populations not involved in the design of the chip; secondly, can the content of the exome chip be imputed with the reference data from the 1000 Genomes Project (1KGP). By deep whole-genome sequencing two Asian populations that are not part of the 1KGP, comprising 96 Southeast Asian Malays and 36 South Asian Indians for which the same samples have also been genotyped on both the Illumina 2.5 M and exome microarrays, we discovered the exome chip is a poor representation of exonic content in our two populations. However, up to 94.1% of the variants on the exome chip that are polymorphic in our populations can be confidently imputed with existing non-exome-centric microarrays using the 1KGP panel. The coverage further increases if there exists population-specific reference data from whole-genome sequencing. There is thus limited gain in using the exome chip for populations not involved in the microarray design. Instead, for the same cost of genotyping 2,000 samples on the exome chip, performing whole-genome sequencing of at least 35 samples in that population to complement the 1KGP may yield a higher coverage of the exonic content from imputation instead.