Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members

Research output: Contribution to journalJournal articleResearchpeer-review

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Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members. / Kyrkou, Ifigeneia; Byth Carstens, Alexander; Ellegaard-Jensen, Lea; Kot, Witold; Zervas, Athanasios; Djurhuus, Amaru Miranda; Neve, Horst; Hansen, Martin; Hestbjerg Hansen, Lars.

In: Viruses, Vol. 11, No. 7, 2019.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Kyrkou, I, Byth Carstens, A, Ellegaard-Jensen, L, Kot, W, Zervas, A, Djurhuus, AM, Neve, H, Hansen, M & Hestbjerg Hansen, L 2019, 'Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members', Viruses, vol. 11, no. 7. https://doi.org/10.3390/v11070611

APA

Kyrkou, I., Byth Carstens, A., Ellegaard-Jensen, L., Kot, W., Zervas, A., Djurhuus, A. M., Neve, H., Hansen, M., & Hestbjerg Hansen, L. (2019). Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members. Viruses, 11(7). https://doi.org/10.3390/v11070611

Vancouver

Kyrkou I, Byth Carstens A, Ellegaard-Jensen L, Kot W, Zervas A, Djurhuus AM et al. Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members. Viruses. 2019;11(7). https://doi.org/10.3390/v11070611

Author

Kyrkou, Ifigeneia ; Byth Carstens, Alexander ; Ellegaard-Jensen, Lea ; Kot, Witold ; Zervas, Athanasios ; Djurhuus, Amaru Miranda ; Neve, Horst ; Hansen, Martin ; Hestbjerg Hansen, Lars. / Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members. In: Viruses. 2019 ; Vol. 11, No. 7.

Bibtex

@article{5f9ae474bcda4b91ad1b4965bf9aefad,
title = "Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members",
abstract = "Lactobacillus plantarum is a bacterium with probiotic properties and promising applications in the food industry and agriculture. So far, bacteriophages of this bacterium have been moderately addressed. We examined the diversity of five new L. plantarum phages via whole genome shotgun sequencing and in silico protein predictions. Moreover, we looked into their phylogeny and their potential genomic similarities to other complete phage genome records through extensive nucleotide and protein comparisons. These analyses revealed a high degree of similarity among the five phages, which extended to the vast majority of predicted virion-associated proteins. Based on these, we selected one of the phages as a representative and performed transmission electron microscopy and structural protein sequencing tests. Overall, the results suggested that the five phages belong to the family Myoviridae, they have a long genome of 137,973-141,344 bp, a G/C content of 36.3-36.6% that is quite distinct from their host's, and surprisingly, 7 to 15 tRNAs. Only an average 41/174 of their predicted genes were assigned a function. The comparative analyses unraveled considerable genetic diversity for the five L. plantarum phages in this study. Hence, the new genus {"}Semelevirus{"} was proposed, comprising exclusively of the five phages. This novel lineage of Lactobacillus phages provides further insight into the genetic heterogeneity of phages infecting Lactobacillus sp. The five new Lactobacillus phages have potential value for the development of more robust starters through, for example, the selection of mutants insensitive to phage infections. The five phages could also form part of phage cocktails, which producers would apply in different stages of L. plantarum fermentations in order to create a range of organoleptic outputs.",
author = "Ifigeneia Kyrkou and {Byth Carstens}, Alexander and Lea Ellegaard-Jensen and Witold Kot and Athanasios Zervas and Djurhuus, {Amaru Miranda} and Horst Neve and Martin Hansen and {Hestbjerg Hansen}, Lars",
year = "2019",
doi = "10.3390/v11070611",
language = "English",
volume = "11",
journal = "Viruses",
issn = "1999-4915",
publisher = "M D P I AG",
number = "7",

}

RIS

TY - JOUR

T1 - Expanding the Diversity of Myoviridae Phages Infecting Lactobacillus plantarum - A Novel Lineage of Lactobacillus Phages Comprising Five New Members

AU - Kyrkou, Ifigeneia

AU - Byth Carstens, Alexander

AU - Ellegaard-Jensen, Lea

AU - Kot, Witold

AU - Zervas, Athanasios

AU - Djurhuus, Amaru Miranda

AU - Neve, Horst

AU - Hansen, Martin

AU - Hestbjerg Hansen, Lars

PY - 2019

Y1 - 2019

N2 - Lactobacillus plantarum is a bacterium with probiotic properties and promising applications in the food industry and agriculture. So far, bacteriophages of this bacterium have been moderately addressed. We examined the diversity of five new L. plantarum phages via whole genome shotgun sequencing and in silico protein predictions. Moreover, we looked into their phylogeny and their potential genomic similarities to other complete phage genome records through extensive nucleotide and protein comparisons. These analyses revealed a high degree of similarity among the five phages, which extended to the vast majority of predicted virion-associated proteins. Based on these, we selected one of the phages as a representative and performed transmission electron microscopy and structural protein sequencing tests. Overall, the results suggested that the five phages belong to the family Myoviridae, they have a long genome of 137,973-141,344 bp, a G/C content of 36.3-36.6% that is quite distinct from their host's, and surprisingly, 7 to 15 tRNAs. Only an average 41/174 of their predicted genes were assigned a function. The comparative analyses unraveled considerable genetic diversity for the five L. plantarum phages in this study. Hence, the new genus "Semelevirus" was proposed, comprising exclusively of the five phages. This novel lineage of Lactobacillus phages provides further insight into the genetic heterogeneity of phages infecting Lactobacillus sp. The five new Lactobacillus phages have potential value for the development of more robust starters through, for example, the selection of mutants insensitive to phage infections. The five phages could also form part of phage cocktails, which producers would apply in different stages of L. plantarum fermentations in order to create a range of organoleptic outputs.

AB - Lactobacillus plantarum is a bacterium with probiotic properties and promising applications in the food industry and agriculture. So far, bacteriophages of this bacterium have been moderately addressed. We examined the diversity of five new L. plantarum phages via whole genome shotgun sequencing and in silico protein predictions. Moreover, we looked into their phylogeny and their potential genomic similarities to other complete phage genome records through extensive nucleotide and protein comparisons. These analyses revealed a high degree of similarity among the five phages, which extended to the vast majority of predicted virion-associated proteins. Based on these, we selected one of the phages as a representative and performed transmission electron microscopy and structural protein sequencing tests. Overall, the results suggested that the five phages belong to the family Myoviridae, they have a long genome of 137,973-141,344 bp, a G/C content of 36.3-36.6% that is quite distinct from their host's, and surprisingly, 7 to 15 tRNAs. Only an average 41/174 of their predicted genes were assigned a function. The comparative analyses unraveled considerable genetic diversity for the five L. plantarum phages in this study. Hence, the new genus "Semelevirus" was proposed, comprising exclusively of the five phages. This novel lineage of Lactobacillus phages provides further insight into the genetic heterogeneity of phages infecting Lactobacillus sp. The five new Lactobacillus phages have potential value for the development of more robust starters through, for example, the selection of mutants insensitive to phage infections. The five phages could also form part of phage cocktails, which producers would apply in different stages of L. plantarum fermentations in order to create a range of organoleptic outputs.

U2 - 10.3390/v11070611

DO - 10.3390/v11070611

M3 - Journal article

C2 - 31277436

VL - 11

JO - Viruses

JF - Viruses

SN - 1999-4915

IS - 7

ER -

ID: 227088625