# Interaction of bacteriophage P1 with an epiphytic Pantoea agglomerans strain—the role of the interplay between various mobilome elements

**Authors:** Katarzyna Giermasińska-Buczek, Jan Gawor, Emil Stefańczyk, Urszula Gągała, Karolina Żuchniewicz, Hanna Rekosz-Burlaga, Robert Gromadka, Małgorzata Łobocka

PMC · DOI: 10.3389/fmicb.2024.1356206 · 2024-03-25

## TL;DR

This study explores how bacteriophage P1 interacts with Pantoea agglomerans, showing it can be used for genome engineering and plasmid replacement.

## Contribution

The study demonstrates P1's utility in P. agglomerans genome engineering and highlights how antibiotic selection affects horizontal gene transfer outcomes.

## Key findings

- P1 with Tn9 can transfer plasmids to P. agglomerans and replace resident plasmids under certain conditions.
- Antibiotic selection influences whether P1 can outcompete resident plasmids based on marker mobility.
- P. agglomerans strains often contain plasmids with replication or partition incompatibility with P1.

## Abstract

P1 is a model, temperate bacteriophage of the 94 kb genome. It can lysogenize representatives of the Enterobacterales order. In lysogens, it is maintained as a plasmid. We tested P1 interactions with the biocontrol P. agglomerans L15 strain to explore the utility of P1 in P. agglomerans genome engineering. A P1 derivative carrying the Tn9 (cmR) transposon could transfer a plasmid from Escherichia coli to the L15 cells. The L15 cells infected with this derivative formed chloramphenicol-resistant colonies. They could grow in a liquid medium with chloramphenicol after adaptation and did not contain prophage P1 but the chromosomally inserted cmR marker of P1 Tn9 (cat). The insertions were accompanied by various rearrangements upstream of the Tn9 cat gene promoter and the loss of IS1 (IS1L) from the corresponding region. Sequence analysis of the L15 strain genome revealed a chromosome and three plasmids of 0.58, 0.18, and 0.07 Mb. The largest and the smallest plasmid appeared to encode partition and replication incompatibility determinants similar to those of prophage P1, respectively. In the L15 derivatives cured of the largest plasmid, P1 with Tn9 could not replace the smallest plasmid even if selected. However, it could replace the smallest and the largest plasmid of L15 if its Tn9 IS1L sequence driving the Tn9 mobility was inactivated or if it was enriched with an immobile kanamycin resistance marker. Moreover, it could develop lytically in the L15 derivatives cured of both these plasmids. Clearly, under conditions of selection for P1, the mobility of the P1 selective marker determines whether or not the incoming P1 can outcompete the incompatible L15 resident plasmids. Our results demonstrate that P. agglomerans can serve as a host for bacteriophage P1 and can be engineered with the help of this phage. They also provide an example of how antibiotics can modify the outcome of horizontal gene transfer in natural environments. Numerous plasmids of Pantoea strains appear to contain determinants of replication or partition incompatibility with P1. Therefore, P1 with an immobile selective marker may be a tool of choice in curing these strains from the respective plasmids to facilitate their functional analysis.

## Linked entities

- **Chemicals:** chloramphenicol (PubChem CID 5959), kanamycin (PubChem CID 6032)
- **Species:** Pantoea agglomerans (taxon 549), Escherichia coli (taxon 562)

## Full-text entities

- **Chemicals:** kanamycin (MESH:D007612), chloramphenicol (MESH:D002701)
- **Species:** Punavirus P1 (species) [taxon 10678], Pantoea agglomerans (species) [taxon 549], Pantoea (genus) [taxon 53335], Escherichia coli (E. coli, species) [taxon 562]
- **Cell lines:** L15 — Cricetulus griseus (Chinese hamster), Spontaneously immortalized cell line (CVCL_UU65)

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10999674/full.md

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Source: https://tomesphere.com/paper/PMC10999674