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Small Viruses, Big Battles: Experimental exploration of phage diversity and anti-phage defence mechanisms

Shyrokova, Lena LU orcid (2026) In Lund University, Faculty of Medicine Doctoral Dissertation Series
Abstract
Bacteriophages exert strong selective pressure on bacterial populations and play a central role in shaping microbial evolution. In response to phage predation, bacteria have evolved diverse antiphage defence mechanisms that interfere with viral replication through a wide range of molecular strategies. Recent genomic studies have revealed a rapidly expanding repertoire of candidate defence systems, many of which remain experimentally uncharacterised and are frequently associated with mobile genetic elements such as plasmids, prophages, and phage-plasmids. At the same time, bacteriophages themselves exhibit enormous genetic and ecological diversity, providing a rich experimental landscape for investigating phage-host interactions and... (More)
Bacteriophages exert strong selective pressure on bacterial populations and play a central role in shaping microbial evolution. In response to phage predation, bacteria have evolved diverse antiphage defence mechanisms that interfere with viral replication through a wide range of molecular strategies. Recent genomic studies have revealed a rapidly expanding repertoire of candidate defence systems, many of which remain experimentally uncharacterised and are frequently associated with mobile genetic elements such as plasmids, prophages, and phage-plasmids. At the same time, bacteriophages themselves exhibit enormous genetic and ecological diversity, providing a rich experimental landscape for investigating phage-host interactions and bacterial defence strategies.
Despite the growing catalogue of predicted defence systems, experimental understanding of how these systems function during phage infection remains limited. Many defences are identified through genomic organisation or sequence similarity, while their phenotypic effects, molecular requirements, and physiological consequences during infection remain poorly understood. Experimental approaches that integrate systematic phage biology with functional analysis of defence systems are therefore essential for understanding how bacteria restrict phage replication and how these interactions shape microbial evolution.
The work presented in this thesis addresses this gap through experimental exploration of bacteriophage diversity and antiphage defence mechanisms. Environmental E. coli-infecting bacteriophages were isolated and characterised to expand the experimental landscape for phage-host studies. Defence systems encoded within the variable mat-lxc locus of P1-like phage-plasmids were experimentally validated and functionally analysed, revealing several enzymatic defence modules with distinct activities. In addition, metabolic labelling revealed that activation of the PARIS defence system rapidly inhibits protein synthesis. Together, these findings provide experimental insight into the diversity and functional behaviour of bacterial antiphage defence systems. (Less)
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author
supervisor
opponent
  • Professor Ingmer, Hanne, Köpenhamns universitet
organization
publishing date
type
Thesis
publication status
published
subject
keywords
Phages, MGEs, Phage-host interactions, Antiphage immunity
in
Lund University, Faculty of Medicine Doctoral Dissertation Series
issue
2026:87
pages
91 pages
publisher
Lund University, Faculty of Medicine
defense location
Belfragesalen, BMC D15, Klinikgatan 32 i Lund
defense date
2026-06-02 09:30:00
ISSN
1652-8220
ISBN
978-91-8021-885-6
language
English
LU publication?
yes
id
3cc50088-5294-43ac-b348-036c37818418
date added to LUP
2026-05-05 17:16:34
date last changed
2026-05-06 14:16:31
@phdthesis{3cc50088-5294-43ac-b348-036c37818418,
  abstract     = {{Bacteriophages exert strong selective pressure on bacterial populations and play a central role in shaping microbial evolution. In response to phage predation, bacteria have evolved diverse antiphage defence mechanisms that interfere with viral replication through a wide range of molecular strategies. Recent genomic studies have revealed a rapidly expanding repertoire of candidate defence systems, many of which remain experimentally uncharacterised and are frequently associated with mobile genetic elements such as plasmids, prophages, and phage-plasmids. At the same time, bacteriophages themselves exhibit enormous genetic and ecological diversity, providing a rich experimental landscape for investigating phage-host interactions and bacterial defence strategies.<br/>Despite the growing catalogue of predicted defence systems, experimental understanding of how these systems function during phage infection remains limited. Many defences are identified through genomic organisation or sequence similarity, while their phenotypic effects, molecular requirements, and physiological consequences during infection remain poorly understood. Experimental approaches that integrate systematic phage biology with functional analysis of defence systems are therefore essential for understanding how bacteria restrict phage replication and how these interactions shape microbial evolution.<br/>The work presented in this thesis addresses this gap through experimental exploration of bacteriophage diversity and antiphage defence mechanisms. Environmental E. coli-infecting bacteriophages were isolated and characterised to expand the experimental landscape for phage-host studies. Defence systems encoded within the variable mat-lxc locus of P1-like phage-plasmids were experimentally validated and functionally analysed, revealing several enzymatic defence modules with distinct activities. In addition, metabolic labelling revealed that activation of the PARIS defence system rapidly inhibits protein synthesis. Together, these findings provide experimental insight into the diversity and functional behaviour of bacterial antiphage defence systems.}},
  author       = {{Shyrokova, Lena}},
  isbn         = {{978-91-8021-885-6}},
  issn         = {{1652-8220}},
  keywords     = {{Phages; MGEs; Phage-host interactions; Antiphage immunity}},
  language     = {{eng}},
  number       = {{2026:87}},
  publisher    = {{Lund University, Faculty of Medicine}},
  school       = {{Lund University}},
  series       = {{Lund University, Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Small Viruses, Big Battles: Experimental exploration of phage diversity and anti-phage defence mechanisms}},
  year         = {{2026}},
}