1. Hi-Plex for high-throughput mutation screening: application to the breast cancer susceptibility gene PALB2.
- Author
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Tú Nguyen-Dumont, Zhi L. Teo, Pope, Bernard J., Hammet, Fleur, Mahmoodi, Maryam, Tsimiklis, Helen, Sabbaghian, Nelly, Tischkowitz, Marc, Foulkes, William D., Giles, Graham G., Hopper, John L., Southey, Melissa C., and Park, Daniel J.
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BREAST cancer , *BIOLOGICAL research , *CELL lines , *TUMORS , *COST effectiveness - Abstract
Background Massively parallel sequencing (MPS) has revolutionised biomedical research and offers enormous capacity for clinical application. We previously reported Hi-Plex, a streamlined highly-multiplexed PCR-MPS approach, allowing a given library to be sequenced with both the Ion Torrent and TruSeq chemistries. Comparable sequencing efficiency was achieved using material derived from lymphoblastoid cell lines and formalin-fixed paraffin-embedded tumour. Methods Here, we report high-throughput application of Hi-Plex by performing blinded mutation screening of the coding regions of the breast cancer susceptibility gene PALB2 on a set of 95 blood-derived DNA samples that had previously been screened using Sanger sequencing and high-resolution melting curve analysis (n = 90), or genotyped by Taqman probe-based assays (n = 5). Hi-Plex libraries were prepared simultaneously using relatively inexpensive, readily available reagents in a simple half-day protocol followed by MPS on a single MiSeq run. Results We observed that 99.93% of amplicons were represented at ⩾10X coverage. All 56 previously identified variant calls were detected and no false positive calls were assigned. Four additional variant calls were made and confirmed upon re-analysis of previous data or subsequent Sanger sequencing. Conclusions These results support Hi-Plex as a powerful approach for rapid, cost-effective and accurate high-throughput mutation screening. They further demonstrate that Hi-Plex methods are suitable for and can meet the demands of high-throughput genetic testing in research and clinical settings. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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