The Linear Plasmid Prophage Vp58.5 of
            <i>Vibrio parahaemolyticus</i>
            Is Closely Related to the Integrating Phage VHML and Constitutes a New Incompatibility Group of Telomere Phages

Zabala, Beatriz; Hammerl, Jens A.; Espejo, Romilio T.; Hertwig, Stefan

doi:10.1128/jvi.00672-09

Cited by 35 publications

(42 citation statements)

References 40 publications

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“…15 We could not identify any previously characterized phages with ≥ 40% similarity that would belong to the same genus as ϕH111-1. Currently, phages with the most similar proteomes are AcaML1 of Acidithiobacillus caldus (JX507079.1; 28.17% similar) and the "Vhmllikevirus" phages VHML of Vibrio harveyi (NC_004456.1; 28.07% similar) and both [16][17][18][19] Although these phages share subfamily-level similarity, they are very distinct with respect to aspects such as host, gene content, and lifestyle. AcaML1 lysogenizes a thermophilic and acidophilic γ-proteobacterium and has a significantly larger 59 kbp genome with two insertion sequences.…”

Section: Sequence Analysismentioning

confidence: 99%

“…16 The "Vhmllikevirus" phages VHML, VP58.5, and vB_VpaM_MAR have similar genome sizes to ϕH111-1 (41-43 kbp) but are thought to lysogenize as linear plasmids with telomeres in Vibrio species. [17][18][19] The commonalities among ϕH111-1, AcaML1, and the "Vhmllikevirus" phages are largely restricted to the morphogenesis genes. These phages all have P2-like tail proteins, but encode capsid morphogenesis/DNA packaging and accessory proteins that are unrelated to those of P2 ( Table 2).…”

Section: Sequence Analysismentioning

confidence: 99%

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Identification and characterization of ϕH111-1

et al. 2013

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Section: Sequence Analysismentioning

confidence: 99%

Section: Sequence Analysismentioning

confidence: 99%

Identification and characterization of ϕH111-1

et al. 2013

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“…Apart from 'a prototype' -the enterobacteria phage N15, which was isolated in 1964 -only six other phages are known to lysogenize their hosts as linear telomere plasmids (Ravin, 2015). They are the siphoviruses FKO2 of Klebsiella oxytoca (Casjens et al, 2004) and PY54 of Yersinia enterocolitica (Hertwig et al, 2003), and the myoviruses of marine bacteria: VP882, Vp58.5 and vB_VpaM_-MAR of Vibrio parahaemolyticus (Lan et al, 2009;Zabala et al, 2009;Alanis Villa et al, 2012), and FHAP-1 of Halomonas aquamarina (Mobberley et al, 2008). All of them encode a hallmark protein called protelomerase, along with plasmid partitioning proteins ParA and ParB, required for this type of lysogeny.…”

Section: Introductionmentioning

confidence: 99%

“…All of them encode a hallmark protein called protelomerase, along with plasmid partitioning proteins ParA and ParB, required for this type of lysogeny. Another myovirus, VHML of Vibrio harveyi (Oakey et al, 2002) that is closely related to one of the abovementioned phages, VP58.5 (Zabala et al, 2009) also contains genes encoding homologues of the N15-like protelomerase (Ravin, 2015) and partitioning protein ParA (Oakey et al, 2002). VHML was initially described as a prophage integrated into the host chromosome (Oakey et al, 2002), but later it was suggested that it may be a linear plasmid-like prophage as well (Lima-Mendez et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

Two novel temperate bacteriophages co-existing in Aeromonas sp. ARM81 – characterization of their genomes, proteomes and DNA methyltransferases

Dziewit

Radlińska

2016

Journal of General Virology

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Aeromonas species are causative agents of a wide spectrum of diseases in animals and humans. Although these bacteria are commonly found in various environments, little is known about their phages. Thus far, only one temperate Aeromonas phage has been characterized. Whole-genome sequencing of an Aeromonas sp. strain ARM81 revealed the presence of two prophage clusters. One of them is integrated into the chromosome and the other was maintained as an extrachromosomal, linear plasmid-like prophage encoding a protelomerase. Both prophages were artificially and spontaneously inducible. We separately isolated both phages and compared their genomes with other known viruses. The novel phages show no similarity to the previously characterized Aeromonas phages and might represent new evolutionary lineages of viruses infecting Aeromonadaceae. Apart from the comparative genomic analyses of these phages, complemented with their structural and molecular characterization, a functional analysis of four DNA methyltransferases encoded by these viruses was conducted. One of the investigated N6-adenine-modifying enzymes shares sequence specificity with a Dam-like methyltransferase of its bacterial host, while another one is non-specific, as it catalyzes adenine methylation in various sequence contexts. The presented results shed new light on the diversity of Aeromonas temperate phages.

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“…All of them were identified in γ-proteobacteria, and they fall into two groups: the siphoviruses ϕKO2 of Klebsiella oxytoca (15) and PY54 of Yersinia enterocolitica (16), and the myoviruses of marine bacteria: phages VP882, Vp58.5, and vB_VpaM_MAR of Vibrio parahaemolyticus (17)(18)(19) and phage ΦHAP-1 of Halomonas aquamarina (20). All of them are related to N15 and carry a similar genetic determinants responsible for prophage replication and generation of covalently closed telomeres.…”

Section: The Family Of Linear N15-like Phage-plasmidsmentioning

confidence: 99%

Replication and Maintenance of Linear Phage-Plasmid N15

Ravin

2015

Microbiol Spectr

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The lambdoid phage N15 of Escherichia coli is very unusual among temperate phages in that its prophage is not integrated into the chromosome but is a linear plasmid molecule with covalently closed ends (telomeres). Upon infection, the phage DNA circularizes via cohesive ends, and then a special phage enzyme of the tyrosine recombinase family, protelomerase, cuts at another site and joins the ends, forming hairpin telomeres of the linear plasmid prophage. Replication of the N15 prophage is initiated at an internally located ori site and proceeds bidirectionally, resulting in the formation of duplicated telomeres. The N15 protelomerase cuts them, generating two linear plasmid molecules with hairpin telomeres. Stable inheritance of the plasmid prophage is ensured by a partitioning operon similar to the F factor sop operon. Unlike the F centromere, the N15 centromere consists of four inverted repeats dispersed in the genome. The multiplicity and dispersion of centromeres are required for efficient partitioning of a linear plasmid. The centromeres are located in the N15 genome regions involved in phage replication and control of lytic development, and binding of partition proteins at these sites regulates these processes. The family of N15-like linear phage-plasmids includes lambdoid phages ϕKO2 and pY54, as well as Myoviridae phages ΦHAP-1, VHML, VP882, Vp58.5, and vB_VpaM_MAR of marine gamma-proteobacteria. The genomes of these phages contain similar protelomerase genes, lysogeny control modules, and replication genes, suggesting that these phages may belong to a group diverged from a common ancestor. THE FAMILY OF LINEAR N15-LIKE PHAGE-PLASMIDSAll cells with linear chromosomes must employ special mechanisms to replicate the extreme termini of their chromosomes, since DNA polymerases alone are unable to perform this function (1).Most eukaryotes have openended DNA and employ special "telomerase" enzymes for this purpose, but there are other solutions that ensure complete replication of linear DNA: protein priming, recombination, and covalently closed terminal hairpins (reviewed in reference 2). Prokaryotes usually posses circular plasmids and chromosomes, but examples of linear replicons are known. Bacteriophage N15 belongs to the small group of organisms known to replicate as linear DNA with covalently closed telomeres. Besides N15 and related phage-plasmids, only a few examples of such replicons from bacteria are known, including the linear plasmids and chromosomes common in the spirochete genus Borrelia (3-5) and one of the two chromosomes of Agrobacterium tumefaciens (6, 7). In this review I will summarize the most relevant work on N15 and related phages, with a special emphasis on the mechanism of replication, generation of hairpin telomeres, control of lysogeny, and plasmid prophage maintenance.Phage N15 was isolated by Victor Ravin in 1964 (8). N15 belongs to the lambdoid phage family on the basis of cross-hybridization of their DNA (9) and is similar to phage λ with respect to the morphology of phag...

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The Linear Plasmid Prophage Vp58.5 of Vibrio parahaemolyticus Is Closely Related to the Integrating Phage VHML and Constitutes a New Incompatibility Group of Telomere Phages

Cited by 35 publications

References 40 publications

Identification and characterization of ϕH111-1

Identification and characterization of ϕH111-1

Two novel temperate bacteriophages co-existing in Aeromonas sp. ARM81 – characterization of their genomes, proteomes and DNA methyltransferases

Replication and Maintenance of Linear Phage-Plasmid N15

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