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Transcription-coupled repair and mismatch repair contribute towards preserving genome integrity at mononucleotide repeat tracts

Author

Listed:
  • Ilias Georgakopoulos-Soares

    (Wellcome Sanger Institute, Wellcome Genome Campus
    University of California San Francisco)

  • Gene Koh

    (Wellcome Sanger Institute, Wellcome Genome Campus
    University of Cambridge
    University of Cambridge)

  • Sophie E. Momen

    (University of Cambridge
    University of Cambridge)

  • Josef Jiricny

    (Institute of Molecular Life Sciences, University of Zurich and Institute of Biochemistry, ETH Zurich)

  • Martin Hemberg

    (Wellcome Sanger Institute, Wellcome Genome Campus)

  • Serena Nik-Zainal

    (University of Cambridge
    University of Cambridge)

Abstract

The mechanisms that underpin how insertions or deletions (indels) become fixed in DNA have primarily been ascribed to replication-related and/or double-strand break (DSB)-related processes. Here, we introduce a method to evaluate indels, orientating them relative to gene transcription. In so doing, we reveal a number of surprising findings: First, there is a transcriptional strand asymmetry in the distribution of mononucleotide repeat tracts in the reference human genome. Second, there is a strong transcriptional strand asymmetry of indels across 2,575 whole genome sequenced human cancers. We suggest that this is due to the activity of transcription-coupled nucleotide excision repair (TC-NER). Furthermore, TC-NER interacts with mismatch repair (MMR) under physiological conditions to produce strand bias. Finally, we show how insertions and deletions differ in their dependencies on these repair pathways. Our analytical approach reveals insights into the contribution of DNA repair towards indel mutagenesis in human cells.

Suggested Citation

  • Ilias Georgakopoulos-Soares & Gene Koh & Sophie E. Momen & Josef Jiricny & Martin Hemberg & Serena Nik-Zainal, 2020. "Transcription-coupled repair and mismatch repair contribute towards preserving genome integrity at mononucleotide repeat tracts," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15901-w
    DOI: 10.1038/s41467-020-15901-w
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    Cited by:

    1. Weifeng Zhang & Zhuo Yang & Wenjie Wang & Qianwen Sun, 2024. "Primase promotes the competition between transcription and replication on the same template strand resulting in DNA damage," Nature Communications, Nature, vol. 15(1), pages 1-16, December.

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