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  • Title: Priming of duck hepatitis B virus reverse transcription in vitro: premature termination of primer DNA induced by the 5'-triphosphate of fialuridine.
    Author: Staschke KA, Colacino JM.
    Journal: J Virol; 1994 Dec; 68(12):8265-9. PubMed ID: 7525986.
    Abstract:
    Hepadnaviruses employ a unique mechanism for the initiation of RNA-directed DNA synthesis. Initially, four bases (5'-GTAA-3') are added to a tyrosine residue of the viral polymerase by reverse transcription of a bulge sequence in epsilon, a stem-loop structure which functions as the packaging signal for pregenomic RNA. This protein-DNA complex acts as the primer for minus-strand elongation from the 3' sequence, DR1. To understand this process in greater detail, we investigated whether the protein-mediated priming of viral DNA synthesis is affected by nucleotide analogs. By using cell-free expression of duck hepatitis B virus (DHBV) reverse transcriptase (G.-H. Wang and C. Seeger, Cell 71:663-670, 1992), the 5'-triphosphate of the thymidine analog fialuridine (FIAU) was shown to inhibit the incorporation of radiolabeled TMP into primer DNA in a dose-dependent manner. Inhibition by the 5'-triphosphate of FIAU (FIAU-TP) was nearly complete at a concentration of 10 microM. The dideoxynucleotide analogs ddGTP, ddTTP, and 3'-azidodeoxythymidine triphosphate, known inhibitors of DHBV endogenous DNA polymerase, did not affect substantially the synthesis of primer DNA. Alternate substrate analysis suggested that FIAU is incorporated efficiently into nascent primer DNA as an analog of thymidine. Using site-directed mutagenesis to construct a mutant RNA template yielding a primer with the sequence 5'-GTAC-3', we demonstrated that FIAU-TP inhibited the incorporation of TMP, had no effect on that of dAMP, and decreased markedly the incorporation of dCMP. These results show that the synthesis of full-length DHBV primer DNA is inhibited by FIAU-TP but not by the dideoxynucleotide analogs that we tested. The significance of these findings as they relate to HBV DNA replication is discussed.
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