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The hepatitis C virus (HCV) RNA-dependent RNA polymerase NS5B is a central enzyme of the intracellular replication of the viral (+)RNA genome. Here, we studied the individual steps of NS5B-catalyzed RNA synthesis by a combination of biophysical methods, including real-time 1D (1)H NMR spectroscopy. NS5B was found to bind to a nonstructured and a structured RNA template in different modes. Following NTP binding and conversion to the catalysis-competent ternary complex, the polymerase revealed an improved affinity for the template. By monitoring the folding/unfolding of 3'(-)SL by (1)H NMR, the base pair at the stem's edge was identified as the most stable component of the structure. (1)H NMR real-time analysis of NS5B-catalyzed RNA synthesis on 3'(-)SL showed that a pronounced lag phase preceded the processive polymerization reaction. The presence of the double-stranded stem with the edge base pair acting as the main energy barrier impaired RNA synthesis catalyzed by NS5B. Our observations suggest a crucial role of RNA-modulating factors in the HCV replication process.

Initiation of RNA Synthesis by the Hepatitis C Virus RNA-Dependent RNA Polymerase Is Affected by the Structure of the RNA Template