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Examining Ty3 polypurine tract structure and function by nucleoside analog interference

  1. Author:
    Dash, C.
    Marino, J. P.
    Le Grice, S. F. J.

  2. Author Address

    NCI, Resistance Mech Lab, HIV Drug Resistance Program, NIH, Frederick, MD 21702 USA. Univ Maryland, Ctr Adv Res Biotechnol, Inst Biotechnol, Rockville, MD 20850 USA. Natl Inst Stand & Technol, Rockville, MD 20850 USA Le Grice, SFJ, NCI, Resistance Mech Lab, HIV Drug Resistance Program, NIH, Frederick, MD 21702 USA
    1. Year: 2006
    2. Date: FEB 3
  2. Journal: Journal of Biological Chemistry
    1. 281
    2. 5
    3. Pages: 2773-2783
  4. Type of Article: Article
  1. Abstract:

    We have combined nucleoside analog interference with chemical footprinting, thermal denaturation, NMR spectroscopy, and biochemical studies to understand recognition of the polypurine tract (PPT) primer of the Saccharomyces cerevisiae long terminal repeatcontaining retrotransposon Ty3 by its cognate reverse transcriptase. Locked nucleic acid analogs, which constrain sugar ring geometry, were introduced pairwise throughout the PPT (-)-DNA template, whereas abasic tetrahydrofuran linkages, which lack the nucleobase but preserve the sugar phosphate backbone, were introduced throughout the (-)-strand DNA template and (+)-strand RNA primer. Collectively, our data suggest that both the 5'- and 3'-portions of the PPT-containing RNA/DNA hybrid are sensitive to nucleoside analog substitution, whereas the intervening region can be modified without altering cleavage specificity. These two regions most likely correspond to portions of the PPT that make close contact with the Ty3 reverse transcriptase thumb subdomain and RNase H catalytic center, respectively. Achieving a similar phenotype with nucleoside analogs that have different effects on duplex geometry reveals structural features that are important mediators of Ty3 PPT recognition. Finally, the results from introducing tetrahydrofuran lesions around the scissile PPT/unique 3'-sequence junction indicate that template nucleobase -1 is dispensable for catalysis

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  1. View record in Web of ScienceĀ®
  2. WOS: 000234931800044

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