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Nucleotide excision repair and template-independent addition by HIV-1 reverse transcriptase in the presence of nucleocapsid protein

  1. Author:
    Bampi, C.
    Bibillo, A.
    Wendeler, M.
    Divita, G.
    Gorelick, R. J.
    Le Grice, S. F. J.
    Darlix, J. L.

  2. Author Address

    Ecole Normale Super Lyon, LaboRetro, INSERM, U412,Unite Virol Humaine,Inst Federat Rech 128, F-69364 Lyon 07, France. NCI, HIV Drug Resistance Program, NIH, Frederick, MD 21702 USA. Ctr Rech Biochim Macromol, CNRS, Format Rech Evolut 2593, F-36293 Montpellier 05, France. NCI, AIDS Vaccine Program, Sci Applicat Int Corp Frederick Inc, NIH, Frederick, MD 21702 USA.;Darlix, JL, Ecole Normale Super Lyon, LaboRetro, INSERM, U412,Unite Virol Humaine,Inst Federat Rech 128, 46 Allee Italie, F-69364 Lyon 07, France.;Jean-Luc.Darlix@ens-lyon.fr
    1. Year: 2006
    2. Date: Apr
  2. Journal: Journal of Biological Chemistry
    1. 281
    2. 17
    3. Pages: 11736-11743
  4. Type of Article: Article
  5. ISSN: 0021-9258
  1. Abstract:

    During HIV replication, reverse transcriptase (RT), assisted by the nucleocapsid protein (NC), converts the genomic RNA into proviral DNA. This process appears to be the major source of genetic variability, as RT can misincorporate nucleotides during minus and plus strand DNA synthesis. To investigate nucleotide addition or substitution by RT, we set up in vitro models containing HIV-1 RNA, cDNA, NC, and various RTs. We used the wild type RT and azidothymidine- and didanosine-resistant RTs, because they represent the major forms of resistant RTs selected in patients undergoing therapies. Results show that all RTs can add nucleotides in a non-template fashion at the cDNA 3'end, a reaction stimulated by NC. Nucleotide substitutions were examined using in vitro systems where 3'-mutated cDNAs were extended by RT on an HIV-1 RNA template. With NC, RT extension of the mutated cDNAs was efficient, and surprisingly, mutations were frequently corrected. These results suggest for the first time that RT has excision-repair activity that is triggered by NC. Chaperoning of RT by NC might be explained by the fact that NC stabilizes an RT-DNA binary complex. In conclusion, RT-NC interactions appear to play critical roles in HIV-1 variability.

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External Sources

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  2. DOI: 10.1074/jbc.M600290200
  3. View record in Web of ScienceĀ®
  4. WOS: 000236988100038

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