Abstract
ColE1 plasmids are important vehicles for the spread of antibiotic resistance in the Enterobacteriaceae and Pasteurellaceae families of bacteria. Their monitoring is essential, as they harbor important resistant determinants in humans, animals and the environment. In this work, we have analyzed ColE1 replicons using bioinformatic and experimental approaches. First, we carried out a computational study examining the structure of different ColE1 plasmids deposited in databases. Bioinformatic analysis of these ColE1 replicons revealed a mosaic genetic structure consisting of a host-adapted conserved region responsible for the housekeeping functions of the plasmid, and a variable region encoding a wide variety of genes, including multiple antibiotic resistance determinants. From this exhaustive computational analysis we developed a new PCR-based technique, targeting a specific sequence in the conserved region, for the screening, capture and sequencing of these small plasmids, either specific for Enterobacteriaceae or specific for Pasteurellaceae. To validate this PCR-based system, we tested various collections of isolates from both bacterial families, finding that ColE1 replicons were not only highly prevalent in antibiotic-resistant isolates, but also present in susceptible bacteria. In Pasteurellaceae, ColE1 plasmids carried almost exclusively antibiotic resistance genes. In Enterobacteriaceae, these plasmids encoded a large range of traits, including not only antibiotic resistance determinants, but also a wide variety of genes, showing the huge genetic plasticity of these small replicons. Finally, we also used a metagenomic approach in order to validate this technique, performing this PCR system using total DNA extractions from fecal samples from poultry, turkeys, pigs and humans. Using Illumina sequencing of the PCR products we identified a great diversity of genes encoded by ColE1 replicons, including different antibiotic resistance determinants, supporting the previous results achieved with the collections of bacterial isolates. In addition, we detected cryptic ColE1 plasmids in both families with no known genes in their variable region, which we have named sentinel plasmids. In conclusion, in this work we present a useful genetic tool for the detection and analysis of ColE1 plasmids, and confirm their important role in the dissemination of antibiotic resistance, especially in the Pasteurellaceae family of bacteria.
Highlights
Plasmids are autonomously replicating fragments of extrachromosomal DNA that can be transferred horizontally between bacteria
The bioinformatic analysis of the ColE1 plasmids from Pasteurellaceae species led to the identification of two differentiated genetic regions (Figure 1): a conserved region carrying all the elements controlling replication and transfer, and a variable region encoding mainly antibiotic resistance genes
We analyzed the structure and content of ColE1 plasmids described in Pasteurellaceae and Enterobacteriaceae up to date
Summary
Plasmids are autonomously replicating fragments of extrachromosomal DNA that can be transferred horizontally between bacteria. They usually harbor genes that confer a selective advantage under adverse conditions, becoming a major source of genetic variability in bacteria and playing a key role in their adaptation and evolution (Baquero, 2011; Wiedenbeck and Cohan, 2011). ColE1-type plasmids (hereafter ColE1 plasmids) are small, mobilizable, multi-copy replicons, found mainly in Enterobacteriaceae and Pasteurellaceae (Tomizawa et al, 1977; San Millan et al, 2007), they have been described in other families of bacteria (Pan et al, 2010; Vincent et al, 2016) These plasmids have a distinctive theta replication mechanism, regulated by two small RNAs encoded close to the origin of replication (oriV) (Tomizawa, 1984; Lilly and Camps, 2015). According to the sequences of their mobilization genes, ColE1 replicons belong to the MOBP family of plasmids (Garcillán-Barcia et al, 2009, 2015)
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