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The free energy landscape of retroviral integration

Author

Listed:
  • Willem Vanderlinden

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich
    KU Leuven, Division of Molecular Imaging and Photonics)

  • Tine Brouns

    (KU Leuven, Division of Molecular Imaging and Photonics
    KU Leuven, Department of Pharmaceutical and Pharmacological Sciences)

  • Philipp U. Walker

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

  • Pauline J. Kolbeck

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

  • Lukas F. Milles

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

  • Wolfgang Ott

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

  • Philipp C. Nickels

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

  • Zeger Debyser

    (KU Leuven, Department of Pharmaceutical and Pharmacological Sciences)

  • Jan Lipfert

    (Nanosystems Initiative Munich, Center for NanoScience, LMU Munich)

Abstract

Retroviral integration, the process of covalently inserting viral DNA into the host genome, is a point of no return in the replication cycle. Yet, strand transfer is intrinsically iso-energetic and it is not clear how efficient integration can be achieved. Here we investigate the dynamics of strand transfer and demonstrate that consecutive nucleoprotein intermediates interacting with a supercoiled target are increasingly stable, resulting in a net forward rate. Multivalent target interactions at discrete auxiliary interfaces render target capture irreversible, while allowing dynamic site selection. Active site binding is transient but rapidly results in strand transfer, which in turn rearranges and stabilizes the intasome in an allosteric manner. We find the resulting strand transfer complex to be mechanically stable and extremely long-lived, suggesting that a resolving agent is required in vivo.

Suggested Citation

  • Willem Vanderlinden & Tine Brouns & Philipp U. Walker & Pauline J. Kolbeck & Lukas F. Milles & Wolfgang Ott & Philipp C. Nickels & Zeger Debyser & Jan Lipfert, 2019. "The free energy landscape of retroviral integration," Nature Communications, Nature, vol. 10(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12649-w
    DOI: 10.1038/s41467-019-12649-w
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    Cited by:

    1. Gayan Senavirathne & James London & Anne Gardner & Richard Fishel & Kristine E. Yoder, 2023. "DNA strand breaks and gaps target retroviral intasome binding and integration," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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