RT Journal Article SR Electronic T1 dupRadar: a Bioconductor package for the assessment of PCR artifacts in RNA-Seq data JF bioRxiv FD Cold Spring Harbor Laboratory SP 046243 DO 10.1101/046243 A1 Sergi Sayols A1 Denise Scherzinger A1 Holger Klein YR 2016 UL http://biorxiv.org/content/early/2016/03/29/046243.abstract AB Background PCR clonal artefacts originating from NGS library preparation can affect both genomic as well as RNA-Seq applications when protocols are pushed to their limits. In RNA-Seq however the artifactual reads are not easy to tell apart from normal read duplication due to natural over-sequencing of highly expressed genes. Especially when working with little input material or single cells assessing the fraction of duplicate reads is an important quality control step for NGS data sets. Up to now there are only tools to calculate the global duplication rates that do not take into account the effect of gene expression levels which leaves them of limited use for RNA-Seq data.Results Here we present the tool dupRadar, which provides an easy means to distinguish artefactual from natural duplicate reads in RNA-Seq data. dupRadar assesses the fraction of duplicate reads per gene dependent on the expression level. Apart from the Bioconductor package dupRadar we provide shell scripts for easy integration into processing pipelines.Conclusions The Bioconductor package dupRadar offers straight-forward methods to assess RNA-Seq datasets for quality issues with PCR duplicates. It is aimed towards simple integration into standard analysis pipelines as a default QC metric that is especially useful for low-input and single cell RNA-Seq data sets.RPKreads per kilobasePCRpolymerase chain reactionUMIunique molecular identifiersQCquality controlChIPchromatin immunoprecipitationbpbase pairNGSnext-generation sequencing