Bromouridine Triphosphate Inhibits Transcription Termination and MRNA Release by Vaccinia Virions

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 1989 Dec 15

PMID 2592381

Citations 16

Authors

S Shuman

B Moss

Affiliations

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Abstract

Termination of transcription in vitro by purified vaccinia virus RNA polymerase occurs downstream of a cis-acting signal UUUUUNU in the nascent RNA strand and requires a trans-acting termination factor, VTF, that is associated with the viral mRNA capping enzyme. Factor-dependent termination can be inhibited specifically by incorporation of BrUMP (from BrUTP) into nascent RNA in place of UMP. The relevance of VTF action to early vaccinia mRNA biogenesis was demonstrated in the present study of the effects of BrUTP on mRNA synthesis and release by permeabilized vaccinia virions. BrUMP incorporation inhibited the release of newly made transcripts from the virus particle, resulting in the accumulation of transcripts within virus cores. This effect was observed also with IUMP, but not with BrCMP or IMP incorporation. Transcripts synthesized in the presence of BrUTP were heterogeneous in size and severalfold larger than transcripts made in the presence of UTP. The progressive increase in the size of the core-associated, BrUMP-containing transcripts indicated that they were still engaged by elongating RNA polymerase. These results are consistent with a predominant pathway of mRNA 3'-end formation by virions that involves VTF-dependent transcription termination. These data do not support an alternative model of 3'-end formation by endonucleolytic cleavage of larger RNA precursors.

Citing Articles

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Role of forward translocation in nucleoside triphosphate phosphohydrolase I (NPH I)-mediated transcription termination of vaccinia virus early genes.

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Genome-wide analysis of the 5' and 3' ends of vaccinia virus early mRNAs delineates regulatory sequences of annotated and anomalous transcripts.

Yang Z, Bruno D, Martens C, Porcella S, Moss B J Virol. 2011; 85(12):5897-909.

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Temperature-sensitive mutant in the vaccinia virus E6 protein produce virions that are transcriptionally inactive.

Boyd O, Strahl A, Rodeffer C, Condit R, Moussatche N Virology. 2010; 399(2):221-30.

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The NPH-II helicase displays efficient DNA x RNA helicase activity and a pronounced purine sequence bias.

Taylor S, Solem A, Kawaoka J, Pyle A J Biol Chem. 2010; 285(15):11692-703.

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