Integrative and conjugative elements (ICEs) of the SXT/R391 family have been recognized as key drivers of antibiotic resistance dissemination in the seventh-pandemic lineage of Vibrio cholerae. SXT/R391 ICEs propagate by conjugation and integrate site-specifically into the chromosome of a wide range of environmental and clinical Gammaproteobacteria. SXT/R391 ICEs bear setC and setD, two conserved genes coding for a transcriptional activator complex that is essential for activation of conjugative transfer. We used chromatin immunoprecipitation coupled with exonuclease digestion (ChIP-exo) and RNA sequencing (RNA-seq) to characterize the SetCD regulon of three representative members of the SXT/R391 family. We also identified the DNA sequences bound by SetCD in MGIVflInd1, a mobilizable genomic island phylogenetically unrelated to SXT/R391 ICEs that hijacks the conjugative machinery of these ICEs to drive its own transfer. SetCD was found to bind a 19-bp sequence that is consistently located near the promoter -35 element of SetCD-activated genes, a position typical of class II transcriptional activators. Furthermore, we refined our understanding of the regulation of excision from and integration into the chromosome for SXT/R391 ICEs and demonstrated that de novo expression of SetCD is crucial to allow integration of the incoming ICE DNA into a naive host following conjugative transfer.
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Article Synopsis
- The study examined the presence of SXT/R391 integrative and conjugative elements (ICEs) in 103 bacterial strains isolated from 25 farms in China, revealing that 25.2% contained these ICEs, which are capable of transferring antibiotic resistance genes (ARGs) to other bacteria.* -
- All SXT/R391 ICE-positive strains exhibited significant levels of drug resistance, and conjugation experiments showed efficient transfer rates of these elements, with one ICE (ICEChnSC1111) carrying 19 different ARGs, the highest reported for an SXT/R391 ICE.* -
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