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The kinetics of nsp7-11 polyprotein processing and impact on complexation with nsp16 among human coronaviruses

Author

Listed:
  • Kira Schamoni-Kast

    (University of Lübeck
    University of Lübeck)

  • Boris Krichel

    (University of Lübeck
    University of Lübeck)

  • Tomislav Damjanović

    (University of Lübeck
    University of Lübeck)

  • Fatema-Aqila Said

    (University of Lübeck)

  • Thomas Kierspel

    (University of Lübeck)

  • Sibel Toker

    (University of Lübeck)

  • Charlotte Uetrecht

    (University of Lübeck
    University of Lübeck)

Abstract

In coronavirus (CoV) infection, polyproteins (pp1a/pp1ab) are processed into non-structural proteins (nsps), which largely form the replication/transcription complex (RTC). The polyprotein processing and complex formation is critical and offers potential therapeutic targets. However, the interplay of polyprotein processing and RTC-assembly remains poorly understood. Here, we study two key aspects: The order of polyprotein processing by viral main protease Mpro and its influence on complex formation with the methyltransferase nsp16. Moreover, we establish an approach to determine rate constants k from cleavage sites in structured CoV polyprotein based on native mass spectrometry (MS). The high sensitivity and precision of our method allow quantification of multi-reaction kinetics of nsp7-11 processing from four human pathogenic CoV species. The experimentally determined rate constants are put into perspective with a comprehensive analysis of primary sequences and structural models, revealing distinct cleavage mechanisms for each site based on their local structural environments. Our systematic approach provides a blueprint for kinetic analysis of complex multi-cleavage reactions.

Suggested Citation

  • Kira Schamoni-Kast & Boris Krichel & Tomislav Damjanović & Fatema-Aqila Said & Thomas Kierspel & Sibel Toker & Charlotte Uetrecht, 2025. "The kinetics of nsp7-11 polyprotein processing and impact on complexation with nsp16 among human coronaviruses," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61554-y
    DOI: 10.1038/s41467-025-61554-y
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    References listed on IDEAS

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