Potential role of bacteriophages in facilitating the horizontal transfer of plasmids
Abstract
Plasmids, small circular DNA molecules, are key players in bacterial ecology and evolution due
to their role in horizontal gene transfer (HGT). This process allows bacteria to exchange genetic
material, including antibiotic resistance genes (ARGs), across species and environments. The
rapid spread of ARGs through HGT is a major contributor to the growing challenge of antibiotic
resistance. This study focuses on the role of bacteriophages, or phages, in facilitating the
horizontal transfer of plasmids. During viral replication, phages may accidentally incorporate
fragments of host bacterial DNA, such as plasmids, into their capsids, a process known as viral
mispackaging. When these phages infect new bacterial hosts, they can inadvertently introduce
plasmid-borne genes, including ARGs, promoting the spread of resistance. The study explores
this phenomenon in the context of transduction, where bacteriophages transfer genetic material
between bacteria. If plasmids carrying ARGs are mispackaged and introduced into new hosts,
this can accelerate the emergence of antibiotic-resistant strains. This has significant implications
for public health, as the spread of resistance genes could outpace our ability to control infections
with existing antibiotics. The findings highlight the need for further research into the role of
bacteriophages in HGT and the dynamics of ARG dissemination. The study also emphasises the
broader public health implications, underscoring the complexity of controlling antibiotic
resistance. Phages could contribute to the spread of ARGs, adding a new layer to the already
difficult challenge of managing antibiotic resistance in both clinical and ecological settings. To
address this, there is a need for targeted interventions to mitigate the spread of resistance genes.
Future research should focus on developing surveillance systems to track the movement of
ARGs across environments and understanding the factors that drive their spread. Overall, this
research highlights the crucial role of plasmids and bacteriophages in shaping bacterial
populations.