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Dedicated surveillance mechanism controls G-quadruplex forming non-coding RNAs in human mitochondria

Author

Listed:
  • Zbigniew Pietras

    (Laboratory of RNA Biology and Functional Genomics
    Laboratory of Protein Structure)

  • Magdalena A. Wojcik

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

  • Lukasz S. Borowski

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

  • Maciej Szewczyk

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

  • Tomasz M. Kulinski

    (Laboratory of RNA Biology and Functional Genomics)

  • Dominik Cysewski

    (Laboratory of RNA Biology and Functional Genomics)

  • Piotr P. Stepien

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

  • Andrzej Dziembowski

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

  • Roman J. Szczesny

    (Laboratory of RNA Biology and Functional Genomics
    University of Warsaw)

Abstract

The GC skew in vertebrate mitochondrial genomes results in synthesis of RNAs that are prone to form G-quadruplexes (G4s). Such RNAs, although mostly non-coding, are transcribed at high rates and are degraded by an unknown mechanism. Here we describe a dedicated mechanism of degradation of G4-containing RNAs, which is based on cooperation between mitochondrial degradosome and quasi-RNA recognition motif (qRRM) protein GRSF1. This cooperation prevents accumulation of G4-containing transcripts in human mitochondria. In vitro reconstitution experiments show that GRSF1 promotes G4 melting that facilitates degradosome-mediated decay. Among degradosome and GRSF1 regulated transcripts we identified one that undergoes post-transcriptional modification. We show that GRSF1 proteins form a distinct qRRM group found only in vertebrates. The appearance of GRSF1 coincided with changes in the mitochondrial genome, which allows the emergence of G4-containing RNAs. We propose that GRSF1 appearance is an evolutionary adaptation enabling control of G4 RNA.

Suggested Citation

  • Zbigniew Pietras & Magdalena A. Wojcik & Lukasz S. Borowski & Maciej Szewczyk & Tomasz M. Kulinski & Dominik Cysewski & Piotr P. Stepien & Andrzej Dziembowski & Roman J. Szczesny, 2018. "Dedicated surveillance mechanism controls G-quadruplex forming non-coding RNAs in human mitochondria," Nature Communications, Nature, vol. 9(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05007-9
    DOI: 10.1038/s41467-018-05007-9
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    Cited by:

    1. Matthias M. Zimmer & Anuja Kibe & Ulfert Rand & Lukas Pekarek & Liqing Ye & Stefan Buck & Redmond P. Smyth & Luka Cicin-Sain & Neva Caliskan, 2021. "The short isoform of the host antiviral protein ZAP acts as an inhibitor of SARS-CoV-2 programmed ribosomal frameshifting," Nature Communications, Nature, vol. 12(1), pages 1-15, December.

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