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  • Title: Mutation of an Influenza Virus Polymerase 3' RNA Promoter Binding Site Inhibits Transcription Elongation.
    Author: Walker AP, Sharps J, Fodor E.
    Journal: J Virol; 2020 Jun 16; 94(13):. PubMed ID: 32295915.
    Abstract:
    Influenza viruses encode a viral RNA-dependent RNA polymerase (FluPol), which is responsible for transcribing and replicating the negative-sense viral RNA (vRNA) genome. FluPol transcribes vRNA using a host-capped mRNA primer and replicates it by synthesizing a positive-sense cRNA intermediate, which is copied back into vRNA. To carry out these functions, FluPol interacts with vRNA and cRNA using conserved promoter elements at the 5' and 3' termini. Recent structural studies have identified a new surface binding site for the 3' vRNA and cRNA promoters on FluPol, referred to as the mode B site. However, the role of this binding site in FluPol function is unknown. In this study, we used a combination of cell-based and biochemical assays to show that the mode B site is important for both viral genome transcription and replication in influenza A virus. Furthermore, we show that the mode B site is not needed for initiating transcription in vitro but is required to synthesize a full-length product. This is consistent with a model in which the 3' terminus of the vRNA template binds in the mode B site during elongation. Our data provide the first functional insights into the role of the mode B site on FluPol, which advances our understanding of FluPol function and influenza virus replication.IMPORTANCE Influenza viruses are responsible for up to 650,000 deaths per year through seasonal epidemics, and pandemics have caused tens of millions of deaths in the past. Most current therapeutics suffer from widespread resistance, creating a need for new drug targets against influenza virus. The virus encodes an RNA-dependent RNA polymerase, which replicates and transcribes the vRNA genome. The polymerase interacts with vRNA and the complementary replicative intermediate cRNA using several specific binding sites; however, the functions associated with these binding sites remain unknown. Here, we functionally characterize a binding site for the 3' vRNA and cRNA promoters. Our data offer insight into the mechanism of viral genome transcription by the influenza virus polymerase and may be applicable to other related viruses.
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