Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli

Department of Veterinary and Animal Sciences

Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli. / Sørensen, Anders Nørgaard; Kalmár, Dorottya; Lutz, Veronika Theresa; Klein-Sousa, Victor; Taylor, Nicholas M. I.; Sørensen, Martine C.; Brøndsted, Lone.

In: microLife, Vol. 5, uqad047, 2024.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Sørensen, AN, Kalmár, D, Lutz, VT, Klein-Sousa, V, Taylor, NMI, Sørensen, MC & Brøndsted, L 2024, 'Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli', microLife, vol. 5, uqad047. https://doi.org/10.1093/femsml/uqad047

APA

Sørensen, A. N., Kalmár, D., Lutz, V. T., Klein-Sousa, V., Taylor, N. M. I., Sørensen, M. C., & Brøndsted, L. (2024). Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli. microLife, 5, [uqad047]. https://doi.org/10.1093/femsml/uqad047

Vancouver

Sørensen AN, Kalmár D, Lutz VT, Klein-Sousa V, Taylor NMI, Sørensen MC et al. Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli. microLife. 2024;5. uqad047. https://doi.org/10.1093/femsml/uqad047

Author

Sørensen, Anders Nørgaard ; Kalmár, Dorottya ; Lutz, Veronika Theresa ; Klein-Sousa, Victor ; Taylor, Nicholas M. I. ; Sørensen, Martine C. ; Brøndsted, Lone. / Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli. In: microLife. 2024 ; Vol. 5.

Bibtex

@article{c86175cae0314d5289328908041bd527,

title = "Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli",

abstract = "Bacteriophages in the Agtrevirus genus are known for expressing multiple tail spike proteins (TSPs), but little is known about their genetic diversity and host recognition apart from their ability to infect diverse Enterobacteriaceae species. Here, we aim to determine the genetic differences that may account for the diverse host ranges of Agrevirus phages. We performed comparative genomics of 14 Agtrevirus and identified only a few genetic differences including genes involved in nucleotide metabolism. Most notably was the diversity of the tsp gene cluster, specifically in the receptor-binding domains that were unique among most of the phages. We further characterized agtrevirus AV101 infecting nine diverse Extended Spectrum β-lactamase (ESBL) Escherichia coli and demonstrated that this phage encoded four unique TSPs among Agtrevirus. Purified TSPs formed translucent zones and inhibited AV101 infection of specific hosts, demonstrating that TSP1, TSP2, TSP3, and TSP4 recognize O8, O82, O153, and O159 O-antigens of E. coli, respectively. BLASTp analysis showed that the receptor-binding domain of TSP1, TSP2, TSP3, and TSP4 are similar to TSPs encoded by E. coli prophages and distant related virulent phages. Thus, Agtrevirus may have gained their receptor-binding domains by recombining with prophages or virulent phages. Overall, combining bioinformatic and biological data expands the understanding of TSP host recognition of Agtrevirus and give new insight into the origin and acquisition of receptor-binding domains of Ackermannviridae phages.",

author = "S{\o}rensen, {Anders N{\o}rgaard} and Dorottya Kalm{\'a}r and Lutz, {Veronika Theresa} and Victor Klein-Sousa and Taylor, {Nicholas M. I.} and S{\o}rensen, {Martine C.} and Lone Br{\o}ndsted",

note = "{\textcopyright} The Author(s) 2023. Published by Oxford University Press on behalf of FEMS.",

year = "2024",

doi = "10.1093/femsml/uqad047",

language = "English",

volume = "5",

journal = "microLife",

issn = "2633-6693",

publisher = "Oxford University Press",

}

RIS

TY - JOUR

T1 - Agtrevirus phage AV101 recognizes four different O-antigens infecting diverse E. coli

AU - Sørensen, Anders Nørgaard

AU - Kalmár, Dorottya

AU - Lutz, Veronika Theresa

AU - Klein-Sousa, Victor

AU - Taylor, Nicholas M. I.

AU - Sørensen, Martine C.

AU - Brøndsted, Lone

PY - 2024

Y1 - 2024

N2 - Bacteriophages in the Agtrevirus genus are known for expressing multiple tail spike proteins (TSPs), but little is known about their genetic diversity and host recognition apart from their ability to infect diverse Enterobacteriaceae species. Here, we aim to determine the genetic differences that may account for the diverse host ranges of Agrevirus phages. We performed comparative genomics of 14 Agtrevirus and identified only a few genetic differences including genes involved in nucleotide metabolism. Most notably was the diversity of the tsp gene cluster, specifically in the receptor-binding domains that were unique among most of the phages. We further characterized agtrevirus AV101 infecting nine diverse Extended Spectrum β-lactamase (ESBL) Escherichia coli and demonstrated that this phage encoded four unique TSPs among Agtrevirus. Purified TSPs formed translucent zones and inhibited AV101 infection of specific hosts, demonstrating that TSP1, TSP2, TSP3, and TSP4 recognize O8, O82, O153, and O159 O-antigens of E. coli, respectively. BLASTp analysis showed that the receptor-binding domain of TSP1, TSP2, TSP3, and TSP4 are similar to TSPs encoded by E. coli prophages and distant related virulent phages. Thus, Agtrevirus may have gained their receptor-binding domains by recombining with prophages or virulent phages. Overall, combining bioinformatic and biological data expands the understanding of TSP host recognition of Agtrevirus and give new insight into the origin and acquisition of receptor-binding domains of Ackermannviridae phages.

AB - Bacteriophages in the Agtrevirus genus are known for expressing multiple tail spike proteins (TSPs), but little is known about their genetic diversity and host recognition apart from their ability to infect diverse Enterobacteriaceae species. Here, we aim to determine the genetic differences that may account for the diverse host ranges of Agrevirus phages. We performed comparative genomics of 14 Agtrevirus and identified only a few genetic differences including genes involved in nucleotide metabolism. Most notably was the diversity of the tsp gene cluster, specifically in the receptor-binding domains that were unique among most of the phages. We further characterized agtrevirus AV101 infecting nine diverse Extended Spectrum β-lactamase (ESBL) Escherichia coli and demonstrated that this phage encoded four unique TSPs among Agtrevirus. Purified TSPs formed translucent zones and inhibited AV101 infection of specific hosts, demonstrating that TSP1, TSP2, TSP3, and TSP4 recognize O8, O82, O153, and O159 O-antigens of E. coli, respectively. BLASTp analysis showed that the receptor-binding domain of TSP1, TSP2, TSP3, and TSP4 are similar to TSPs encoded by E. coli prophages and distant related virulent phages. Thus, Agtrevirus may have gained their receptor-binding domains by recombining with prophages or virulent phages. Overall, combining bioinformatic and biological data expands the understanding of TSP host recognition of Agtrevirus and give new insight into the origin and acquisition of receptor-binding domains of Ackermannviridae phages.

U2 - 10.1093/femsml/uqad047

DO - 10.1093/femsml/uqad047

M3 - Journal article

C2 - 38234449

VL - 5

JO - microLife

JF - microLife

SN - 2633-6693

M1 - uqad047

ER -

ID: 384497737