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Interplay between the Xer recombination system and the dissemination of antibioresistance in Acinetobacter baumannii
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Edité par CCSD ; Oxford University Press -
International audience. Abstract Antibiotic-resistant infections are a pressing clinical challenge. Plasmids are known to accelerate the emergence of resistance by facilitating horizontal gene transfer of antibiotic resistance genes between bacteria. We explore this question in Acinetobacter baumannii, a globally emerging nosocomial pathogen responsible for a wide range of infections with a worrying accumulation of resistance, particularly involving plasmids. In this species, plasmids of the Rep_3 family harbor antibiotic resistance genes within variable regions flanked by potential site-specific recombination sites recognized by the XerCD recombinase. We first show that the Xer system of A. baumannii functions as described in Escherichia coli, resolving chromosome dimers at the dif site and recombining plasmid-carried sites. However, the multiple Xer recombination sites found in Rep_3 plasmids do not allow excision of plasmid fragments. Rather, they recombine to cointegrate plasmids, which could then evolve to exchange genes. Cointegrates represent a significant fraction of the plasmid population and their formation is controlled by the sequence of recombination sites, which determines the compatibility between recombination sites. We conclude that plasmids in A. baumannii frequently recombine by Xer recombination, allowing a high level of yet controlled plasticity in the acquisition and combination of antibiotic resistance genes.
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