%0 Journal Article %A Mafessoni, Fabrizio %A Prasad, Rashmi B. %A Groop, Leif %A Hansson, Ola %A Prüfer, Kay %+ Genomes, Department of Evolutionary Genetics, Max Planck Institute for Evolutionary Anthropology, Max Planck Society Genomes, Department of Evolutionary Genetics, Max Planck Institute for Evolutionary Anthropology, Max Planck Society %T Turning Vice into Virtue: Using Batch-Effects to Detect Errors in Large Genomic Data Sets : %G eng %U https://hdl.handle.net/21.11116/0000-0002-D530-7 %R 10.1093/gbe/evy199 %7 2018-09-10 %D 2018 %* Review method: peer-reviewed %X It is often unavoidable to combine data from different sequencing centers or sequencing platforms when compiling data sets
with a large number of individuals. However, the different data are likely to contain specific systematic errors that will appear
as SNPs. Here, we devise a method to detect systematic errors in combined data sets. To measure quality differences between
individual genomes, we study pairs of variants that reside on different chromosomes and co-occur in individuals. The
abundance of these pairs of variants in different genomes is then used to detect systematic errors due to batch effects.
Applying our method to the 1000 Genomes data set, we find that coding regions are enriched for errors, where

1% of the
higher frequency variants are predicted to be erroneous, whereas errors outside of coding regions are much rarer
(
<
0.001%). As expected, predicted errors are found less often than other variants in a data set that was generated with
a different sequencing technology, indicating that many of the candidates are indeed errors. However, predicted 1000
Genomes errors are also found in other large data sets; our observation is thus not specific to the 1000 Genomes data set. Our
results show that batch effects can be turned into a virtue by using the resulting variation in large scale data sets to detect
systematic errors. %K sequencing error; 1000 Genomes data set; Illumina; next-generation sequencing; exome sequencing %J Genome Biology and Evolution %V 10 %N 10 %& 2697 %P 2697 - 2708 %I Oxford University Press %C Oxford %@ 2192-8851