Dissection of a novel metal resistance mechanism in Cupriavidus metallidurans.

Md Muntasir Ali, Kristel Mijnendonckx, Natalie Leys, Pieter Monsieurs, Daniel Charlier, Rob Van Houdt

Research output: Unpublished contribution to conferencePoster

Abstract

Cupriavidus metallidurans strains are characterized by multiple metal resistances and have been mostly isolated from industrial sites. Studies at SCK•CEN underscored the rapid evolution of C. metallidurans strains towards significantly increased metal resistance. Surprisingly, the canonical mechanisms did not participate in this adaptive evolution. In contrast, a novel and unique resistance mechanism was discovered.
In this work, we investigated silver resistance. Different C. metallidurans strains including type strain CH34, its plasmidless derivative AE104 and strain NA4, which was isolated form the silver-sanitized drinking water of International Space Station (ISS), were grown in toxic concentration of silver to obtain silver-resistant mutants. Since silver-resistant mutants were even found in the plasmidless AE104 strain, the dominant silver-resistant mechanism does not include the canonical efflux mechanisms encoded by the megaplasmids. Whole-genome expression profiling was used to compare the up- and downregulated genes of the silver-resistant mutants with their respective parents. Only eight genes were commonly upregulated in all silver-resistant mutants and no commonly downregulated genes were observed. Deletion mutants confirmed that the deletion of the two-component system agrRS and a copQ-like gene coding for a small periplasmic protein render susceptibility to silver. Furthermore, plasmid-based complementation restored resistance to silver. Further investigation is ongoing with the other differentially expressed genes.
Altogether, our data indicate that C. metallidurans is able to adapt rapidly to toxic silver concentrations without mediation of its known silver efflux pumps. Although the mechanism that confers increased silver resistance is still not fully understood, these results indicate differential regulation via a two-component regulatory system and the involvement of a family of small periplasmic proteins.
Original languageEnglish
Publication statusPublished - 7 Feb 2017
Event22nd Naional Symposium on Applied Biological Sciences - Onderwijs & Navorsing 2, Herestraat 49, 3000 Leuven, Leuven, Belgium
Duration: 7 Feb 20177 Feb 2017
Conference number: 22
http://www.biw.kuleuven.be/nsabs2017

Conference

Conference22nd Naional Symposium on Applied Biological Sciences
Abbreviated titleNSABS 2017
Country/TerritoryBelgium
CityLeuven
Period7/02/177/02/17
Internet address

Keywords

  • Bacteria
  • Metal resis
  • Two component system

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