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RNA translocation and unwinding mechanism of HCV NS3 helicase and its coordination by ATP

Author

Listed:
  • Sophie Dumont

    (Biophysics Graduate Group)

  • Wei Cheng

    (Molecular and Cell Biology Department)

  • Victor Serebrov

    (Yale University)

  • Rudolf K. Beran

    (Yale University)

  • Ignacio Tinoco

    (Chemistry Department)

  • Anna Marie Pyle

    (Yale University)

  • Carlos Bustamante

    (Biophysics Graduate Group
    Molecular and Cell Biology Department
    Chemistry Department
    University of California)

Abstract

Helicases are a ubiquitous class of enzymes involved in nearly all aspects of DNA and RNA metabolism. Despite recent progress in understanding their mechanism of action, limited resolution has left inaccessible the detailed mechanisms by which these enzymes couple the rearrangement of nucleic acid structures to the binding and hydrolysis of ATP1,2. Observing individual mechanistic cycles of these motor proteins is central to understanding their cellular functions. Here we follow in real time, at a resolution of two base pairs and 20 ms, the RNA translocation and unwinding cycles of a hepatitis C virus helicase (NS3) monomer. NS3 is a representative superfamily-2 helicase essential for viral replication3, and therefore a potentially important drug target4. We show that the cyclic movement of NS3 is coordinated by ATP in discrete steps of 11 ± 3 base pairs, and that actual unwinding occurs in rapid smaller substeps of 3.6 ± 1.3 base pairs, also triggered by ATP binding, indicating that NS3 might move like an inchworm5,6. This ATP-coupling mechanism is likely to be applicable to other non-hexameric helicases involved in many essential cellular functions. The assay developed here should be useful in investigating a broad range of nucleic acid translocation motors.

Suggested Citation

  • Sophie Dumont & Wei Cheng & Victor Serebrov & Rudolf K. Beran & Ignacio Tinoco & Anna Marie Pyle & Carlos Bustamante, 2006. "RNA translocation and unwinding mechanism of HCV NS3 helicase and its coordination by ATP," Nature, Nature, vol. 439(7072), pages 105-108, January.
  • Handle: RePEc:nat:nature:v:439:y:2006:i:7072:d:10.1038_nature04331
    DOI: 10.1038/nature04331
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    Cited by:

    1. Sean P. Carney & Wen Ma & Kevin D. Whitley & Haifeng Jia & Timothy M. Lohman & Zaida Luthey-Schulten & Yann R. Chemla, 2021. "Kinetic and structural mechanism for DNA unwinding by a non-hexameric helicase," Nature Communications, Nature, vol. 12(1), pages 1-14, December.

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