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AmpliconReconstructor integrates NGS and optical mapping to resolve the complex structures of focal amplifications

Author

Listed:
  • Jens Luebeck

    (University of California at San Diego
    University of California at San Diego)

  • Ceyda Coruh

    (Salk Institute for Biological Studies)

  • Siavash R. Dehkordi

    (University of California at San Diego)

  • Joshua T. Lange

    (University of California at San Diego
    University of California at San Diego)

  • Kristen M. Turner

    (University of California at San Diego)

  • Viraj Deshpande

    (University of California at San Diego)

  • Dave A. Pai

    (Bionano Genomics, Inc.)

  • Chao Zhang

    (University of California at San Diego)

  • Utkrisht Rajkumar

    (University of California at San Diego)

  • Julie A. Law

    (Salk Institute for Biological Studies)

  • Paul S. Mischel

    (University of California at San Diego
    University of California at San Diego
    University of California at San Diego)

  • Vineet Bafna

    (University of California at San Diego)

Abstract

Oncogene amplification, a major driver of cancer pathogenicity, is often mediated through focal amplification of genomic segments. Recent results implicate extrachromosomal DNA (ecDNA) as the primary driver of focal copy number amplification (fCNA) - enabling gene amplification, rapid tumor evolution, and the rewiring of regulatory circuitry. Resolving an fCNA’s structure is a first step in deciphering the mechanisms of its genesis and the fCNA’s subsequent biological consequences. We introduce a computational method, AmpliconReconstructor (AR), for integrating optical mapping (OM) of long DNA fragments (>150 kb) with next-generation sequencing (NGS) to resolve fCNAs at single-nucleotide resolution. AR uses an NGS-derived breakpoint graph alongside OM scaffolds to produce high-fidelity reconstructions. After validating its performance through multiple simulation strategies, AR reconstructed fCNAs in seven cancer cell lines to reveal the complex architecture of ecDNA, a breakage-fusion-bridge and other complex rearrangements. By reconstructing the rearrangement signatures associated with an fCNA’s generative mechanism, AR enables a more thorough understanding of the origins of fCNAs.

Suggested Citation

  • Jens Luebeck & Ceyda Coruh & Siavash R. Dehkordi & Joshua T. Lange & Kristen M. Turner & Viraj Deshpande & Dave A. Pai & Chao Zhang & Utkrisht Rajkumar & Julie A. Law & Paul S. Mischel & Vineet Bafna, 2020. "AmpliconReconstructor integrates NGS and optical mapping to resolve the complex structures of focal amplifications," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18099-z
    DOI: 10.1038/s41467-020-18099-z
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    Cited by:

    1. Chaohui Li & Lingxi Chen & Guangze Pan & Wenqian Zhang & Shuai Cheng Li, 2023. "Deciphering complex breakage-fusion-bridge genome rearrangements with Ambigram," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    2. Shixiang Wang & Chen-Yi Wu & Ming-Ming He & Jia-Xin Yong & Yan-Xing Chen & Li-Mei Qian & Jin-Ling Zhang & Zhao-Lei Zeng & Rui-Hua Xu & Feng Wang & Qi Zhao, 2024. "Machine learning-based extrachromosomal DNA identification in large-scale cohorts reveals its clinical implications in cancer," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    3. Xue-Ke Zhao & Pengwei Xing & Xin Song & Miao Zhao & Linxuan Zhao & Yonglong Dang & Ling-Ling Lei & Rui-Hua Xu & Wen-Li Han & Pan-Pan Wang & Miao-Miao Yang & Jing-Feng Hu & Kan Zhong & Fu-You Zhou & Xu, 2021. "Focal amplifications are associated with chromothripsis events and diverse prognoses in gastric cardia adenocarcinoma," Nature Communications, Nature, vol. 12(1), pages 1-14, December.

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