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Benchmarking Relatedness Inference Methods with Genome-Wide Data from Thousands of Relatives.

Monica D RamstetterThomas D DyerDonna M LehmanJoanne E CurranRavindranath DuggiralaJohn BlangeroJason G MezeyAmy L Williams
Published in: Genetics (2017)
Inferring relatedness from genomic data is an essential component of genetic association studies, population genetics, forensics, and genealogy. While numerous methods exist for inferring relatedness, thorough evaluation of these approaches in real data has been lacking. Here, we report an assessment of 12 state-of-the-art pairwise relatedness inference methods using a data set with 2485 individuals contained in several large pedigrees that span up to six generations. We find that all methods have high accuracy (92-99%) when detecting first- and second-degree relationships, but their accuracy dwindles to <43% for seventh-degree relationships. However, most identical by descent (IBD) segment-based methods inferred seventh-degree relatives correct to within one relatedness degree for >76% of relative pairs. Overall, the most accurate methods are Estimation of Recent Shared Ancestry (ERSA) and approaches that compute total IBD sharing using the output from GERMLINE and Refined IBD to infer relatedness. Combining information from the most accurate methods provides little accuracy improvement, indicating that novel approaches, such as new methods that leverage relatedness signals from multiple samples, are needed to achieve a sizeable jump in performance.
Keyphrases
  • genome wide
  • electronic health record
  • big data
  • dna methylation
  • healthcare
  • gene expression
  • dna damage
  • single cell
  • dna repair
  • health information
  • mass spectrometry
  • artificial intelligence