abSNP: RNA-Seq SNP calling in repetitive regions via abundance estimation. Variant calling, in particular, calling SNPs (single nucleotide polymorphisms) is a fundamental task in genomics. While existing packages offer excellent performance on calling SNPs which have uniquely mapped reads, they suffer in loci where the reads are multiply mapped, and are unable to make any reliable calls. Variants in multiply mapped loci can arise, for example in long segmental duplications, and can play important role in evolution and disease. par In this paper, we develop a new SNP caller named abSNP, which offers three innovations. (a) abSNP calls SNPs from RNA-Seq data. Since RNA-Seq data is primarily sampled from gene regions, this method is inexpensive. (b) abSNP is able to successfully make calls on repetitive gene regions by exploiting the quality scores of multiply mapped reads carefully in order to make variant calls. (c) abSNP exploits a specific feature of RNA-Seq data, namely the varying abundance of different genes, in order to identify which repetitive copy a particular read is sampled from. par We demonstrate that the proposed method offers significant performance gains on repetitive regions in simulated data. In particular, the algorithm is able to achieve near-perfect sensitivity on high-coverage SNPs, even when multiply mapped.
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References in zbMATH (referenced in 1 article , 1 standard article )
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- Mao, Shunfu; Mohajer, Soheil; Ramachandran, Kannan; Tse, David; Kannan, Sreeram: abSNP: RNA-Seq SNP calling in repetitive regions via abundance estimation (2017)