Transcription Profiling of Bacillus subtilis Cells Infected with AR9, a Giant Phage Encoding Two Multisubunit RNA Polymerases

Bacteriophage AR9 is a recently sequenced jumbo phage that encodes two multisubunit RNA polymerases. Here we investigated the AR9 transcription strategy and the effect of AR9 infection on the transcription of its host, Analysis of whole-genome transcription revealed early, late, and continuously exp...

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Bibliographic Details
Published in:mBio 2017-02, Vol.8 (1)
Main Authors: Lavysh, Daria, Sokolova, Maria, Slashcheva, Marina, Förstner, Konrad U, Severinov, Konstantin
Format: Article
Language:English
Subjects:
Antibiotics, Antitubercular - pharmacology
Bacillus Phages - enzymology
Bacillus Phages - genetics
Bacillus Phages - physiology
Bacillus subtilis - drug effects
Bacillus subtilis - genetics
Bacillus subtilis - virology
DNA, Viral
DNA-Directed RNA Polymerases - chemistry
DNA-Directed RNA Polymerases - genetics
DNA-Directed RNA Polymerases - metabolism
Host-Pathogen Interactions - genetics
Promoter Regions, Genetic
Rifampin - pharmacology
Sequence Alignment
Transcription, Genetic
Viral Proteins - metabolism
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Summary:Bacteriophage AR9 is a recently sequenced jumbo phage that encodes two multisubunit RNA polymerases. Here we investigated the AR9 transcription strategy and the effect of AR9 infection on the transcription of its host, Analysis of whole-genome transcription revealed early, late, and continuously expressed AR9 genes. Alignment of sequences upstream of the 5' ends of AR9 transcripts revealed consensus sequences that define early and late phage promoters. Continuously expressed AR9 genes have both early and late promoters in front of them. Early AR9 transcription is independent of protein synthesis and must be determined by virion RNA polymerase injected together with viral DNA. During infection, the overall amount of host mRNAs is significantly decreased. Analysis of relative amounts of host transcripts revealed notable differences in the levels of some mRNAs. The physiological significance of up- or downregulation of host genes for AR9 phage infection remains to be established. AR9 infection is significantly affected by rifampin, an inhibitor of host RNA polymerase transcription. The effect is likely caused by the antibiotic-induced killing of host cells, while phage genome transcription is solely performed by viral RNA polymerases. Phages regulate the timing of the expression of their own genes to coordinate processes in the infected cell and maximize the release of viral progeny. Phages also alter the levels of host transcripts. Here we present the results of a temporal analysis of the host and viral transcriptomes of infected with a giant phage, AR9. We identify viral promoters recognized by two virus-encoded RNA polymerases that are a unique feature of the phiKZ-related group of phages to which AR9 belongs. Our results set the stage for future analyses of highly unusual RNA polymerases encoded by AR9 and other phiKZ-related phages.
ISSN:2161-2129
2150-7511
DOI:10.1128/mBio.02041-16