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Accueil > Biblio > The Phage-Encoded -Acetyltransferase Rac Mediates Inactivation of Transcription by Cleavage of the RNA Polymerase Alpha Subunit.

The Phage-Encoded -Acetyltransferase Rac Mediates Inactivation of Transcription by Cleavage of the RNA Polymerase Alpha Subunit.

Surveillance de la santé et des maladies  
[1]
Téléchargement 4.84 Mo [1]

Public Access

Published

Peer reviewed scientific article

Anglais

DOI : https://doi.org/10.3390/v12090976 [2]

Auteurs

Pieter-Jan Ceyssens [3]; De Smet, Jeroen [4]; Jeroen Wagemans [5]; Natalia Akulenko [6]; Evgeny Klimuk [7]; Subray Hedge [8]; Voet, Marleen [9]; Hendrix, Hanne [10]; Paeshuyse, Jan [11]; Bart Landuyt [12]; Xu, Hua [13]; John Blanchard [14]; Konstantin Severinov [15]; Lavigne, Rob [16]

Mots-clés

  1. acetylomics [17]
  2. bacterial shutdown [18]
  3. Bacteriophage [19]

Résumé:

In this study, we describe the biological function of the phage-encoded protein RNA polymerase alpha subunit cleavage protein (Rac), a predicted Gcn5-related acetyltransferase encoded by phiKMV-like viruses. These phages encode a single-subunit RNA polymerase for transcription of their late (structure- and lysis-associated) genes, whereas the bacterial RNA polymerase is used at the earlier stages of infection. Rac mediates the inactivation of bacterial transcription by introducing a specific cleavage in the α subunit of the bacterial RNA polymerase. This cleavage occurs within the flexible …
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Résumé

In this study, we describe the biological function of the phage-encoded protein RNA polymerase alpha subunit cleavage protein (Rac), a predicted Gcn5-related acetyltransferase encoded by phiKMV-like viruses. These phages encode a single-subunit RNA polymerase for transcription of their late (structure- and lysis-associated) genes, whereas the bacterial RNA polymerase is used at the earlier stages of infection. Rac mediates the inactivation of bacterial transcription by introducing a specific cleavage in the α subunit of the bacterial RNA polymerase. This cleavage occurs within the flexible linker sequence and disconnects the C-terminal domain, required for transcription initiation from most highly active cellular promoters. To achieve this, Rac likely taps into a novel post-translational modification (PTM) mechanism within the host . From an evolutionary perspective, this novel phage-encoded regulation mechanism confirms the importance of PTMs in the prokaryotic metabolism and represents a new way by which phages can hijack the bacterial host metabolism.

Associated health topics:

Résistance aux antimicrobiens (AMR) [20]

Source URL:https://sciensano.be/fr/biblio/phage-encoded-acetyltransferase-rac-mediates-inactivation-transcription-cleavage-rna-polymerase

Liens
[1] https://sciensano.be/sites/default/files/viruses-12-00976.pdf [2] https://doi.org/10.3390/v12090976 [3] https://sciensano.be/fr/people/pieter-jan-ceyssens/biblio [4] https://sciensano.be/fr/biblio?f%5Bauthor%5D=50955&f%5Bsearch%5D=De%20Smet%2C%20Jeroen [5] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90117&f%5Bsearch%5D=Jeroen%20Wagemans [6] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90118&f%5Bsearch%5D=Natalia%20Akulenko [7] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90119&f%5Bsearch%5D=Evgeny%20Klimuk [8] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90120&f%5Bsearch%5D=Subray%20Hedge [9] https://sciensano.be/fr/biblio?f%5Bauthor%5D=33012&f%5Bsearch%5D=Voet%2C%20Marleen [10] https://sciensano.be/fr/biblio?f%5Bauthor%5D=33009&f%5Bsearch%5D=Hendrix%2C%20Hanne [11] https://sciensano.be/fr/biblio?f%5Bauthor%5D=40953&f%5Bsearch%5D=Paeshuyse%2C%20Jan [12] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90121&f%5Bsearch%5D=Bart%20Landuyt [13] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90122&f%5Bsearch%5D=Xu%2C%20Hua [14] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90123&f%5Bsearch%5D=John%20Blanchard [15] https://sciensano.be/fr/biblio?f%5Bauthor%5D=90124&f%5Bsearch%5D=Konstantin%20Severinov [16] https://sciensano.be/fr/biblio?f%5Bauthor%5D=33030&f%5Bsearch%5D=Lavigne%2C%20Rob [17] https://sciensano.be/fr/biblio?f%5Bkeyword%5D=36618&f%5Bsearch%5D=acetylomics [18] https://sciensano.be/fr/biblio?f%5Bkeyword%5D=36617&f%5Bsearch%5D=bacterial%20shutdown [19] https://sciensano.be/fr/biblio?f%5Bkeyword%5D=26628&f%5Bsearch%5D=Bacteriophage [20] https://sciensano.be/fr/sujets-sante/resistance-aux-antimicrobiens-amr