Abstract
Influenza viruses have a segmented viral RNA (vRNA) genome, which is replicated by the viral RNA-dependent RNA polymerase (RNAP). Replication initiates on the vRNA 3′ terminus, producing a complementary RNA (cRNA) intermediate, which serves as a template for the synthesis of new vRNA. RNAP structures show the 3′ terminus of the vRNA template in a pre-initiation state, bound on the surface of the RNAP rather than in the active site; no information is available on 3′ cRNA binding. Here, we have used single-molecule Förster resonance energy transfer (smFRET) to probe the viral RNA conformations that occur during RNAP binding and initial replication. We show that even in the absence of nucleotides, the RNAP-bound 3′ termini of both vRNA and cRNA exist in two conformations, corresponding to the pre-initiation state and an initiation conformation in which the 3′ terminus of the viral RNA is in the RNAP active site. Nucleotide addition stabilises the 3′ vRNA in the active site and results in unwinding of the duplexed region of the promoter. Our data provide insights into the dynamic motions of RNA that occur during initial influenza replication and has implications for our understanding of the replication mechanisms of similar pathogenic viruses.
Highlights
A single amino acid mutation in the PA subunit of the influenza virus RNA polymerase inhibits endonucleolytic cleavage of capped RNAs
Cy3-conjugated trisNTA was incubated with His[10] tagged RNAP and a double-stranded RNA labelled with a single ATTO647N dye at position 3U1 before singlemolecule FRET spectroscopy of diffusing molecules was carried out
In-situ labelling of the protein led to significant low-FRET populations due to high background from the unbound dye-conjugated trisNTA (S~0.9) and coincidence events arising from random collisions of the excess dyes in the confocal volume (S~0.5), a clear FRET signal could be fitted after appropriate filtering
Summary
A single amino acid mutation in the PA subunit of the influenza virus RNA polymerase inhibits endonucleolytic cleavage of capped RNAs. 2D Efficiency-Stoichiometry histogram showing FRET between a fluorescent dye on the RNA and one placed on the RNAP.
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