Host genetic requirements for DNA release of lactococcal phage TP901‐1

The first step in phage infection is the recognition of, and adsorption to, a receptor located on the host cell surface. This reversible host adsorption step is commonly followed by an irreversible event, which involves phage DNA delivery or release into the bacterial cytoplasm. The molecular compon...

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Autores principales: Ruiz‐Cruz, Sofía, Erazo Garzon, Andrea, Kelleher, Philip, Bottacini, Francesca, Breum, Solvej Østergaard, Neve, Horst, Heller, Knut J., Vogensen, Finn K., Palussière, Simon, Courtin, Pascal, Chapot‐Chartier, Marie‐Pierre, Vinogradov, Evgeny, Sadovskaya, Irina, Mahony, Jennifer, van Sinderen, Douwe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9733650/
https://www.ncbi.nlm.nih.gov/pubmed/36259418
http://dx.doi.org/10.1111/1751-7915.14156
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author Ruiz‐Cruz, Sofía
Erazo Garzon, Andrea
Kelleher, Philip
Bottacini, Francesca
Breum, Solvej Østergaard
Neve, Horst
Heller, Knut J.
Vogensen, Finn K.
Palussière, Simon
Courtin, Pascal
Chapot‐Chartier, Marie‐Pierre
Vinogradov, Evgeny
Sadovskaya, Irina
Mahony, Jennifer
van Sinderen, Douwe
author_facet Ruiz‐Cruz, Sofía
Erazo Garzon, Andrea
Kelleher, Philip
Bottacini, Francesca
Breum, Solvej Østergaard
Neve, Horst
Heller, Knut J.
Vogensen, Finn K.
Palussière, Simon
Courtin, Pascal
Chapot‐Chartier, Marie‐Pierre
Vinogradov, Evgeny
Sadovskaya, Irina
Mahony, Jennifer
van Sinderen, Douwe
author_sort Ruiz‐Cruz, Sofía
collection PubMed
description The first step in phage infection is the recognition of, and adsorption to, a receptor located on the host cell surface. This reversible host adsorption step is commonly followed by an irreversible event, which involves phage DNA delivery or release into the bacterial cytoplasm. The molecular components that trigger this latter event are unknown for most phages of Gram‐positive bacteria. In the current study, we present a comparative genome analysis of three mutants of Lactococcus cremoris 3107, which are resistant to the P335 group phage TP901‐1 due to mutations that affect TP901‐1 DNA release. Through genetic complementation and phage infection assays, a predicted lactococcal three‐component glycosylation system (TGS) was shown to be required for TP901‐1 infection. Major cell wall saccharidic components were analysed, but no differences were found. However, heterologous gene expression experiments indicate that this TGS is involved in the glucosylation of a cell envelope‐associated component that triggers TP901‐1 DNA release. To date, a saccharide modification has not been implicated in the DNA delivery process of a Gram‐positive infecting phage.
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spelling pubmed-97336502022-12-12 Host genetic requirements for DNA release of lactococcal phage TP901‐1 Ruiz‐Cruz, Sofía Erazo Garzon, Andrea Kelleher, Philip Bottacini, Francesca Breum, Solvej Østergaard Neve, Horst Heller, Knut J. Vogensen, Finn K. Palussière, Simon Courtin, Pascal Chapot‐Chartier, Marie‐Pierre Vinogradov, Evgeny Sadovskaya, Irina Mahony, Jennifer van Sinderen, Douwe Microb Biotechnol Research Articles The first step in phage infection is the recognition of, and adsorption to, a receptor located on the host cell surface. This reversible host adsorption step is commonly followed by an irreversible event, which involves phage DNA delivery or release into the bacterial cytoplasm. The molecular components that trigger this latter event are unknown for most phages of Gram‐positive bacteria. In the current study, we present a comparative genome analysis of three mutants of Lactococcus cremoris 3107, which are resistant to the P335 group phage TP901‐1 due to mutations that affect TP901‐1 DNA release. Through genetic complementation and phage infection assays, a predicted lactococcal three‐component glycosylation system (TGS) was shown to be required for TP901‐1 infection. Major cell wall saccharidic components were analysed, but no differences were found. However, heterologous gene expression experiments indicate that this TGS is involved in the glucosylation of a cell envelope‐associated component that triggers TP901‐1 DNA release. To date, a saccharide modification has not been implicated in the DNA delivery process of a Gram‐positive infecting phage. John Wiley and Sons Inc. 2022-10-19 /pmc/articles/PMC9733650/ /pubmed/36259418 http://dx.doi.org/10.1111/1751-7915.14156 Text en © 2022 The Authors. Microbial Biotechnology published by Society for Applied Microbiology and John Wiley & Sons Ltd. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Research Articles
Ruiz‐Cruz, Sofía
Erazo Garzon, Andrea
Kelleher, Philip
Bottacini, Francesca
Breum, Solvej Østergaard
Neve, Horst
Heller, Knut J.
Vogensen, Finn K.
Palussière, Simon
Courtin, Pascal
Chapot‐Chartier, Marie‐Pierre
Vinogradov, Evgeny
Sadovskaya, Irina
Mahony, Jennifer
van Sinderen, Douwe
Host genetic requirements for DNA release of lactococcal phage TP901‐1
title Host genetic requirements for DNA release of lactococcal phage TP901‐1
title_full Host genetic requirements for DNA release of lactococcal phage TP901‐1
title_fullStr Host genetic requirements for DNA release of lactococcal phage TP901‐1
title_full_unstemmed Host genetic requirements for DNA release of lactococcal phage TP901‐1
title_short Host genetic requirements for DNA release of lactococcal phage TP901‐1
title_sort host genetic requirements for dna release of lactococcal phage tp901‐1
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9733650/
https://www.ncbi.nlm.nih.gov/pubmed/36259418
http://dx.doi.org/10.1111/1751-7915.14156
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