Abstract
Achromobacter spp. is an opportunistic pathogen that can cause lung infections in patients with cystic fibrosis (CF). Although a variety of mobile genetic elements (MGEs) carrying antimicrobial resistance genes have been identified in clinical isolates, little is known about the contribution of Achromobacter spp. mobilome to its pathogenicity. To provide new insights, we performed bioinformatic analyses of 54 whole genome sequences and investigated the presence of phages, insertion sequences (ISs), and integrative and conjugative elements (ICEs). Most of the detected phages were previously described in other pathogens and carried type II toxin-antitoxin systems as well as other pathogenic genes. Interestingly, the partial sequence of phage Bcep176 was found in all the analyzed Achromobacter xylosoxidans genome sequences, suggesting the integration of this phage in an ancestor strain. A wide variety of IS was also identified either inside of or in proximity to pathogenicity islands. Finally, ICEs carrying pathogenic genes were found to be widespread among our isolates and seemed to be involved in transfer events within the CF lung. These results highlight the contribution of MGEs to the pathogenicity of Achromobacter species, their potential to become antimicrobial targets, and the need for further studies to better elucidate their clinical impact.
Highlights
Horizontal gene transfer (HGT) is the transfer of genetic elements among organisms by means other than vertical transmission [1,2]
Fifty-four Achromobacter spp. clinical isolates were longitudinally collected over 5 years from sputum samples of 26 patients followed at the cystic fibrosis (CF) Center of Verona (Italy)
Four strains isolated from two patients showed an average nucleotide identity of
Summary
Horizontal gene transfer (HGT) is the transfer of genetic elements among organisms by means other than vertical transmission [1,2]. MGEs include a wide variety of different elements that can be horizontally transmitted in three ways: transformation, transduction, or conjugation. Transformation is the process by which bacteria take up foreign DNA from the local environment [11], while transduction consists of a DNA transfer mediated by phages, called bacteriophages [10]. These are bacterial viruses that can contain into their capsid elements of host DNA, which can be transferred to a new host and be inherited,
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