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Mechanistic insights into the kinetics of HIV-1 nucleocapsid protein-facilitated tRNA annealing to the primer binding site

  1. Author:
    Hargittai, M. R. S.
    Gorelick, R. J.
    Rouzina, L.
    Musier-Forsyth, K.

  2. Author Address

    Musier-Forsyth, K, Univ Minnesota, Dept Biochem Mol Biol & Biophys, Minneapolis, MN 55455 USA Univ Minnesota, Dept Biochem Mol Biol & Biophys, Minneapolis, MN 55455 USA. NCI, SAIC Frederick, AIDS Vaccine Program, Frederick, MD 21702 USA. Univ Minnesota, Dept Chem, Minneapolis, MN 55455 USA.
    1. Year: 2004
  2. Journal: Journal of Molecular Biology
    1. 337
    2. 4
    3. Pages: 951-968
  4. Type of Article: Article
  1. Abstract:

    HIV-1 reverse transcriptase uses human tRNA(Lys,3) as a primer to initiate reverse transcription. Prior to initiation, the 3' 18 nucleotides of this tRNA are annealed to a complementary sequence on the RNA genome known as the primer binding site (PBS). Here, we show that the HIV-1 nucleocapsid protein (NC) enhances this annealing by approximately five orders of magnitude in vitro, decreasing the transition state enthalpy from approximately 20 kcal mol(-1) for the uncatalyzed reaction to 13 kcal mol-1 for the NC-catalyzed process. Moreover, the annealing follows second-order kinetics, consistent with the nucleation of the intermolecular duplex being the rate-limiting step. This nucleation is preceded by melting of a small duplex region within the original structure, and is followed by much faster zipping of the rest of the 18 base-pair (bp) duplex. A tRNA mutational analysis shows that destabilization of the tRNA acceptor stem has only a minor effect on the annealing rate. In contrast, addition of bases to the 5' end of tRNA that are complementary to its single-stranded 3' end interferes with duplex nucleation and therefore has a much larger effect on the net reaction rate. Assuming that the apparent transition free energy of the annealing reaction, DeltaG(double dagger), is a sum of the melting (DeltaG(m)) and nucleation (DeltaG(nuc)) free energies, we show that NC affects both DeltaG(m) and DeltaG(nuc). We estimate that ten to 100-fold of the overall rate enhancement is due to NC-induced destabilization of a 4 bp helix in the PBS, while the additional factor of 10(3)-10(4) rate enhancement is a result of NC-facilitated duplex nucleation. The apparently similar effectiveness of wild-type and SSHS NC, a mutant that lacks the zinc finger structures, in facilitating the tRNA annealing reaction is most likely the result of the mutual cancellation of two factors: SSHS NC is less effective than wild-type NC as a duplex destabilizer, but more effective as a duplex nucleating agent. (C) 2004 Elsevier Ltd. All rights reserved

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