When is an SNP not an SNP?

ABSTRACT

Genomic duplications are important sources of structural change and gene innovation. In humans, the most recent and highly identical sequences (>90% homology, >1 kb long) are known as segmental duplications (SDs). Single-nucleotide variants or single-nucleotide polymorphisms within SDs have not been systematically assessed due to limitations around mapping short-read sequencing data. Single-nucleotide variant rs62486260 was flagged in a study of familial renal stone disease but it was unclear whether it was real or an artifact resulting from the presence of a SD. We describe in silico and wet-lab approaches to investigate this, using segment-specific long-PCR assays, followed by short PCR for Sanger sequencing. Our conclusion was that rs62486260 is an artifact. Our approach can be generalized to deal with other such situations.

The method described includes a two-step procedure for determining whether an apparent single-nucleotide polymorphism may be an artifact resulting from the presence of a duplicated genomic region/pseudogene. Step one involves identifying sequence differences between the two duplicated regions and designing a long PCR assay to specifically amplify each region separately. Step 2 involves amplifying a short PCR product which flanks the single-nucleotide polymorphism of interest, from the long products generated in step 1.