Detection of low-frequency DNA variants by targeted sequencing of the Watson and Crick strands

Cohen, JD; Douville, C; Dudley, JC; Mog, BJ; Popoli, M; Ptak, J; Dobbyn, L; Silliman, N; Schaefer, J; Tie, J; Gibbs, P; Tomasetti, C; Papadopoulos, N; Kinzler, KW; Vogelstein, B

Author(s): Cohen, JD; Douville, C; Dudley, JC; Mog, BJ; Popoli, M; Ptak, J; Dobbyn, L; Silliman, N; Schaefer, J; Tie, J; Gibbs, P; Tomasetti, C; Papadopoulos, N; Kinzler, KW; Vogelstein, B;
Details: Publication Year 2021-10,Volume 39,Issue #10,Page 1220-1227
Journal Title: Nature Biotechnology
Publication Type: Research article
Abstract: Identification and quantification of low-frequency mutations remain challenging despite improvements in the baseline error rate of next-generation sequencing technologies. Here, we describe a method, termed SaferSeqS, that addresses these challenges by (1) efficiently introducing identical molecular barcodes in the Watson and Crick strands of template molecules and (2) enriching target sequences with strand-specific PCR. The method achieves high sensitivity and specificity and detects variants at frequencies below 1 in 100,000 DNA template molecules with a background mutation rate of <5 x 10(-7) mutants per base pair (bp). We demonstrate that it can evaluate mutations in a single amplicon or simultaneously in multiple amplicons, assess limited quantities of cell-free DNA with high recovery of both strands and reduce the error rate of existing PCR-based molecular barcoding approaches by >100-fold.
Keywords: Biomarkers, Tumor/blood/genetics; DNA Mutational Analysis/*methods; DNA, Neoplasm/blood/genetics; High-Throughput Nucleotide Sequencing/*methods; Humans; Mutation; Mutation Rate; Polymerase Chain Reaction
Department(s): Medical Oncology
PubMed ID: 33941929
Publisher's Version: https://doi.org/10.1038/s41587-021-00900-z
Terms of Use/Rights Notice: Refer to copyright notice on published article.

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