Multiple interactions within the hepatitis C virus RNA polymerase repress primer-dependent RNA synthesis |
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| Authors: | Ranjith-Kumar C T Gutshall Les Sarisky Robert T Kao C Cheng |
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| Affiliation: | Department of Biology, Indiana University, Bloomington, IN 47405, USA. |
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| Abstract: | The hepatitis C virus (HCV) RNA-dependent RNA polymerase (RdRp) initiates RNA synthesis in vivo by a de novo mechanism. In vitro, however, the HCV RdRp can initiate de novo or extend from a primed template. A novel beta-loop near the RdRp active site was previously found to prevent the use of primed templates. We found that, in addition to the beta-loop, the C-terminal tail of the HCV RdRp and the de novo initiation GTP are required to exclude the use of primed-templates. GTP binding to the NTPi site of the HCV RdRp orchestrates the participation of other structures. The interactions of the beta-loop, C-terminal tail, and GTP provide an elegant solution to ensure de novo initiation of HCV RNA synthesis. |
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| Keywords: | NS5B de novo synthesis suppression of primer-extension GTP RNA-dependent RNA synthesis |
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