Extensively resistant Acinetobacter baumannii isolate RCH52 carries several resistance genes derived from an IncC plasmid

Abstract

Abstract Objectives To identify the origins of resistance in a sporadic extensively resistant Acinetobacter baumannii isolate. Methods The complete genome of RCH52 was determined by combining available Illumina short reads with MinION (Oxford Nanopore) long reads using Unicycler. Bioinformatic searches were used to identify features of interest. Results The complete genome of RCH52 revealed an unusual chromosomal region containing all of the antibiotic resistance genes, except tet39, which is in a plasmid. A 129 585 bp segment was bounded by inversely oriented copies of ISAba1 and included two groups of resistance genes separated by the large segment of the backbone of type 1 IncC plasmids that lies between the ARI-A and ARI-B resistance islands but does not include the replication region. The ISAba1-bounded segment was located in a novel integrative element that had integrated into the chromosomal thyA gene but provided a replacement thyA gene. Several resistance genes are derived from either the ARI-A or the ARI-B resistance islands found in IncC plasmids that have been brought together by an IS26-mediated deletion of the original plasmid. This non-replicating circular molecule (or translocatable unit) has been incorporated into a smaller ISAba1-bounded unit that includes oxa23 in Tn2008B via homologous recombination between sul2-CR2-floR segments found in both. Conclusions The plasmids shared by most Gram-negative pathogens, including the broad host range IncC plasmids, have not been detected in Acinetobacter species. However, it seems likely that they can conjugate into members of this genus and contribute pre-existing clusters of antibiotic resistance genes.