Genes from the exo–xis region of λ and Shiga toxin-converting bacteriophages influence lysogenization and prophage induction

Bloch, Sylwia; Nejman-Faleńczyk, Bożena; Łoś, Jerzy; Barańska, Sylwia; Łepek, Krzysztof; Felczykowska, Agnieszka; Łoś, Marcin; Węgrzyn, Grzegorz; Węgrzyn, Alicja

doi:10.1007/s00203-013-0920-8

Cited by 25 publications

(56 citation statements)

References 43 publications

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“…Similarly, other authors could not identify these two genes in Stx2a phages from an O104:H4 EAHEC strain of the 2011 German outbreak (Beutin et al, 2012, from an O111:H2 EAHEC strain , and two O157:H7 STEC strains (Yin et al, 2015). The exo-xis region, that was proposed to participate in the regulation of lysogenization and the promotion of phage induction, also differs from those described in 933W and Φ24 b prophages (Bloch et al, 2013;Licznerska et al, 2016). Interestingly, despite the particular characteristics of early regulatory genes in ArgO145, phage titers were similar for strains EDL933 and FB5, both in basal and induced conditions.…”

Section: Discussionmentioning

confidence: 93%

ArgO145, a Stx2a prophage of a bovine O145:H- STEC strain, is closely related to phages of virulent human strains

Krüger

Burgán

Friedrich

et al. 2018

Infection, Genetics and Evolution

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Shiga toxins (Stx) are the main virulence factor of a pathogroup of Escherichia coli strains that cause severe human diseases. These toxins are encoded in prophages (Stx prophages), and generally their expression depends on prophage induction. Several studies have reported high diversity among both Stx prophages and Stx. In particular, the toxin subtype Stx2a is associated with high virulence and HUS. Here, we report the genome of ArgO145, an inducible Stx2a prophage identified in a bovine O145:H- strain which produced high levels of Shiga toxin and Stx phage particles. The ArgO145 genome shared lambda phage organization, with recombination, regulation, replication, lysis, and head and tail structural gene regions, although some lambda genes encoding regulatory proteins could not be identified. Remarkably, some Stx2a phages of strains isolated from patients in other countries showed high similarity to ArgO145.

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Section: Discussionmentioning

confidence: 93%

ArgO145, a Stx2a prophage of a bovine O145:H- STEC strain, is closely related to phages of virulent human strains

Krüger

Burgán

Friedrich

et al. 2018

Infection, Genetics and Evolution

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“…Monitoring of phage lytic development during one round of infection of the E. coli host cells. Lytic cycle of the tested bacteriophages was studied in one-step growth experiments, according to the procedure described by Bloch and others (Bloch et al, 2013). Host bacteria were grown in the LB medium at 30 o C to A 600 =0.2.…”

Section: Methodsmentioning

confidence: 99%

“…These data indicated that overexpression of the exo-xis region impairs the lysogenization process and contributes to a decreased transcription from the cII-stimulated promoters p I , pa Q and p E , which are responsible for promotion of the lysogenic cycle (Łoś et al, 2008a). Moreover, a few years later it was demonstrated that more efficient induction of λ and Φ24 B prophages, induced by mitomycin C and hydrogen peroxide, occurred in cultures of host cells bearing a plasmid with the exo-xis region (Bloch et al, 2013). Following prophage induction, an increase in the phage DNA amount was significantly higher in lysogenic E. coli cells containing plasmid-borne exo-xis region, while survival rate of such bacteria was lower (Bloch et al, 2013 andBloch et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, a few years later it was demonstrated that more efficient induction of λ and Φ24 B prophages, induced by mitomycin C and hydrogen peroxide, occurred in cultures of host cells bearing a plasmid with the exo-xis region (Bloch et al, 2013). Following prophage induction, an increase in the phage DNA amount was significantly higher in lysogenic E. coli cells containing plasmid-borne exo-xis region, while survival rate of such bacteria was lower (Bloch et al, 2013 andBloch et al, 2014). These observations were supported by a finding that deletion of the phage exoxis region resulted in a dramatic decrease in the level of phage gene expression that are crucial for the lytic development of lambdoid viruses (Licznerska et al, 2016b).…”

Section: Introductionmentioning

confidence: 99%

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Role of orf73 in the development of lambdoid bacteriophages during infection of the Escherichia coli host

et al. 2019

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Shiga toxin-producing Escherichia coli (STEC) is a group of pathogenic strains responsible for human infections that result in bloody diarrhea and hemorrhagic colitis, often with severe complications. The main virulence factors of STEC are Shiga toxins encoded by stx genes located in genomes of Shiga toxin-converting bacteriophages (Stx phages). These bacterial viruses are clustered in the lambdoid bacteriophages family represented by phage λ. Here, we report that expression of orf73 from the exo-xis region of the phage genome promotes the lysogenic pathway of development of λ and Φ24B phages. We demonstrated that the mutant phages with deletions of orf73 revealed higher burst size during the lytic cycle. Moreover, survival rates of E. coli infected with mutant bacteriophages were lower relative to wild-type viruses. Additionally, orf73 deletion negatively influenced the lysogenization process of E. coli host cells. We conclude that orf73 plays an important biological role in the development of lambdoid viruses, and probably it is involved in the network of molecular mechanism of the lysis-vs.-lysogenization decision.

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“…Regulatory processes are indicated as thin arrows and thin blunt-ended lines (positive regulations are represented by arrows and negative regulations are represented by blunt-ended lines). This figure is an updated version of the scheme published by Węgrzyn, Licznerska, and Węgrzyn (2012), with included data reported by Bloch et al (2013), Kwan et al (2013), and Olszewski et al (2014).…”

Section: The Level Of Complexity Of the Systemmentioning

confidence: 99%

Personality and genes: remarks from a biological perspective

Węgrzyn¹

2014

Current Issues in Personality Psychology

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Although there is no doubt that genes' functions influence human personality, years of studies provided no clear picture on regulation of particular traits by specific genes. In this article, an overview of the complexity of the system of genetic control of personality is presented, and the level of complications of biological processes operating in this system is underlined. The methodology of studies devoted to determine effects of genes on personality traits is discussed, and limitations of various methods in such studies are indicated. Finally, suggestions for further research are listed and commented on. It is likely that to increase the level of our understanding of genetic mechanisms that modulate human personality, researchers conducting further studies will have to focus on using large sample sizes, performing independent replications, considering experiments on animal models, integrating cross-cultural data and epigenetic measures, and performing interdisciplinary experiments which combine methods of various disciplines, such as biology and psychology. review paper Grzegorz WęgrzynDepartment of Molecular Biology, University of Gdansk, Gdansk, PolandPersonality and genes 134 current issues in personality psychology background

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Genes from the exo–xis region of λ and Shiga toxin-converting bacteriophages influence lysogenization and prophage induction

Cited by 25 publications

References 43 publications

ArgO145, a Stx2a prophage of a bovine O145:H- STEC strain, is closely related to phages of virulent human strains

ArgO145, a Stx2a prophage of a bovine O145:H- STEC strain, is closely related to phages of virulent human strains

Role of orf73 in the development of lambdoid bacteriophages during infection of the Escherichia coli host

Personality and genes: remarks from a biological perspective

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