The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.

The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.

Dissemination of antibiotic resistance genes occurs mostly by conjugation, which mediates DNA transfer between cells in direct contact. Conjugative plasmids of the IncA/C incompatibility group have become a substantial threat due to their broad host-range, the extended spectrum of antimicrobial resi...

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Main Authors: Nicolas Carraro, Dominick Matteau, Peng Luo, Sébastien Rodrigue, Vincent Burrus
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-10-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC4207636?pdf=render
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spelling doaj-72ec8445a2ab45508898034b933f77342020-11-25T00:07:15ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042014-10-011010e100471410.1371/journal.pgen.1004714The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.Nicolas CarraroDominick MatteauPeng LuoSébastien RodrigueVincent BurrusDissemination of antibiotic resistance genes occurs mostly by conjugation, which mediates DNA transfer between cells in direct contact. Conjugative plasmids of the IncA/C incompatibility group have become a substantial threat due to their broad host-range, the extended spectrum of antimicrobial resistance they confer, their prevalence in enteric bacteria and their very efficient spread by conjugation. However, their biology remains largely unexplored. Using the IncA/C conjugative plasmid pVCR94ΔX as a prototype, we have investigated the regulatory circuitry that governs IncA/C plasmids dissemination and found that the transcriptional activator complex AcaCD is essential for the expression of plasmid transfer genes. Using chromatin immunoprecipitation coupled with exonuclease digestion (ChIP-exo) and RNA sequencing (RNA-seq) approaches, we have identified the sequences recognized by AcaCD and characterized the AcaCD regulon. Data mining using the DNA motif recognized by AcaCD revealed potential AcaCD-binding sites upstream of genes involved in the intracellular mobility functions (recombination directionality factor and mobilization genes) in two widespread classes of genomic islands (GIs) phylogenetically unrelated to IncA/C plasmids. The first class, SGI1, confers and propagates multidrug resistance in Salmonella enterica and Proteus mirabilis, whereas MGIVmi1 in Vibrio mimicus belongs to a previously uncharacterized class of GIs. We have demonstrated that through expression of AcaCD, IncA/C plasmids specifically trigger the excision and mobilization of the GIs at high frequencies. This study provides new evidence of the considerable impact of IncA/C plasmids on bacterial genome plasticity through their own mobility and the mobilization of genomic islands.http://europepmc.org/articles/PMC4207636?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Nicolas Carraro
Dominick Matteau
Peng Luo
Sébastien Rodrigue
Vincent Burrus
spellingShingle Nicolas Carraro
Dominick Matteau
Peng Luo
Sébastien Rodrigue
Vincent Burrus
The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
PLoS Genetics
author_facet Nicolas Carraro
Dominick Matteau
Peng Luo
Sébastien Rodrigue
Vincent Burrus
author_sort Nicolas Carraro
title The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
title_short The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
title_full The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
title_fullStr The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
title_full_unstemmed The master activator of IncA/C conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
title_sort master activator of inca/c conjugative plasmids stimulates genomic islands and multidrug resistance dissemination.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2014-10-01
description Dissemination of antibiotic resistance genes occurs mostly by conjugation, which mediates DNA transfer between cells in direct contact. Conjugative plasmids of the IncA/C incompatibility group have become a substantial threat due to their broad host-range, the extended spectrum of antimicrobial resistance they confer, their prevalence in enteric bacteria and their very efficient spread by conjugation. However, their biology remains largely unexplored. Using the IncA/C conjugative plasmid pVCR94ΔX as a prototype, we have investigated the regulatory circuitry that governs IncA/C plasmids dissemination and found that the transcriptional activator complex AcaCD is essential for the expression of plasmid transfer genes. Using chromatin immunoprecipitation coupled with exonuclease digestion (ChIP-exo) and RNA sequencing (RNA-seq) approaches, we have identified the sequences recognized by AcaCD and characterized the AcaCD regulon. Data mining using the DNA motif recognized by AcaCD revealed potential AcaCD-binding sites upstream of genes involved in the intracellular mobility functions (recombination directionality factor and mobilization genes) in two widespread classes of genomic islands (GIs) phylogenetically unrelated to IncA/C plasmids. The first class, SGI1, confers and propagates multidrug resistance in Salmonella enterica and Proteus mirabilis, whereas MGIVmi1 in Vibrio mimicus belongs to a previously uncharacterized class of GIs. We have demonstrated that through expression of AcaCD, IncA/C plasmids specifically trigger the excision and mobilization of the GIs at high frequencies. This study provides new evidence of the considerable impact of IncA/C plasmids on bacterial genome plasticity through their own mobility and the mobilization of genomic islands.
url http://europepmc.org/articles/PMC4207636?pdf=render
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