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Complex rearrangements and oncogene amplifications revealed by long-read DNA and RNA sequencing of a breast cancer cell line
- Nattestad, Maria;
- Goodwin, Sara;
- Ng, Karen;
- Baslan, Timour;
- Sedlazeck, Fritz J;
- Rescheneder, Philipp;
- Garvin, Tyler;
- Fang, Han;
- Gurtowski, James;
- Hutton, Elizabeth;
- Tseng, Elizabeth;
- Chin, Chen-Shan;
- Beck, Timothy;
- Sundaravadanam, Yogi;
- Kramer, Melissa;
- Antoniou, Eric;
- McPherson, John D;
- Hicks, James;
- McCombie, W Richard;
- Schatz, Michael C
- et al.
Published Web Location
https://doi.org/10.1101/gr.231100.117Abstract
The SK-BR-3 cell line is one of the most important models for HER2+ breast cancers, which affect one in five breast cancer patients. SK-BR-3 is known to be highly rearranged, although much of the variation is in complex and repetitive regions that may be underreported. Addressing this, we sequenced SK-BR-3 using long-read single molecule sequencing from Pacific Biosciences and develop one of the most detailed maps of structural variations (SVs) in a cancer genome available, with nearly 20,000 variants present, most of which were missed by short-read sequencing. Surrounding the important ERBB2 oncogene (also known as HER2), we discover a complex sequence of nested duplications and translocations, suggesting a punctuated progression. Full-length transcriptome sequencing further revealed several novel gene fusions within the nested genomic variants. Combining long-read genome and transcriptome sequencing enables an in-depth analysis of how SVs disrupt the genome and sheds new light on the complex mechanisms involved in cancer genome evolution.
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