Structural Basis of Poxvirus Transcription: Transcribing and Capping Vaccinia Complexes

Structural Basis of Poxvirus Transcription: Transcribing and Capping Vaccinia Complexes

Poxviruses use virus-encoded multisubunit RNA polymerases (vRNAPs) and RNA-processing factors to generate m7G-capped mRNAs in the host cytoplasm. In the accompanying paper, we report structures of core and complete vRNAP complexes of the prototypic Vaccinia poxvirus (Grimm et al., 2019; in this issu...

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Bibliographic Details
Published in:Cell Vol. 179; no. 7; pp. 1525 - 1536.e12
Main Authors: Hillen, Hauke S., Bartuli, Julia, Grimm, Clemens, Dienemann, Christian, Bedenk, Kristina, Szalay, Aladar A., Fischer, Utz, Cramer, Patrick
Format: Journal Article
Language:English
Published: United States Elsevier Inc 12-12-2019
Subjects:
capping enzyme
cryo electron microscopy
cryo-EM
DNA-dependent RNA polymerase
elongation
Poxviridae
RNA polymerase
structure
transcription
Vaccinia
transcription
Poxviridae
capping enzyme
DNA-dependent RNA polymerase
cryo electron microscopy
RNA polymerase
elongation
Vaccinia
cryo-EM
structure
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Summary:Poxviruses use virus-encoded multisubunit RNA polymerases (vRNAPs) and RNA-processing factors to generate m7G-capped mRNAs in the host cytoplasm. In the accompanying paper, we report structures of core and complete vRNAP complexes of the prototypic Vaccinia poxvirus (Grimm et al., 2019; in this issue of Cell). Here, we present the cryo-electron microscopy (cryo-EM) structures of Vaccinia vRNAP in the form of a transcribing elongation complex and in the form of a co-transcriptional capping complex that contains the viral capping enzyme (CE). The trifunctional CE forms two mobile modules that bind the polymerase surface around the RNA exit tunnel. RNA extends from the vRNAP active site through this tunnel and into the active site of the CE triphosphatase. Structural comparisons suggest that growing RNA triggers large-scale rearrangements on the surface of the transcription machinery during the transition from transcription initiation to RNA capping and elongation. Our structures unravel the basis for synthesis and co-transcriptional modification of poxvirus RNA. [Display omitted] •Structures of Vaccinia RNA polymerase during transcription and cap formation•Capping enzyme contains mobile modules that bind to the polymerase and transcript•Comparison with complete vRNAP suggests large rearrangements during initiation•The Vaccinia-specific Rap94 resembles TFIIB and is displaced by nucleic acids Coupled transcript elongation and capping by the poxvirus RNA polymerase rely on large-scale rearrangements triggered by the nascent RNA.
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ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2019.11.023