Characterization of the inducible nickel and cobalt resistance determinant cnr from pMOL28 of Alcaligenes eutrophus CH34

Liesegang, Heiko; Lemke, Karen; Siddiqui, Ruby; Schlegel, H. G.

doi:10.1128/jb.175.3.767-778.1993

Cited by 211 publications

(191 citation statements)

References 39 publications

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“…It has been suggested that SigX may play a similar role in B. subtifis (17). (12,(32)(33)(34) (14), and preliminary sequence similarities suggest that the E. coli 0.E operon also encodes a negative regulator (M.A.L., data not shown). Although the precise mechanism of negative regulation in these systems has not been established, in the case of CarQ the stoichiometry ofthe a factor and its negative regulator is critically important.…”

Section: Methodsmentioning

confidence: 99%

Analysis of the Streptomyces coelicolor sigE gene reveals the existence of a subfamily of eubacterial RNA polymerase sigma factors involved in the regulation of extracytoplasmic functions.

Lonetto

Brown

Rudd³

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

462

474

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gE, an RNA polymerase ofactor ofapparent Mr 28,000, was previously identified by its ability to direct transcription from the P2 promoter of the agarase gene (dagA) was grown in YEME medium containing 34% sucrose and 5 mM MgCl2 to OD6oo = 0.6-0.8, and o-E-containing RNA polymerase holoenzyme was purified from approximately 50 g of mycelium as described (2,4). In vitro transcription reactions on the dagA promoter region carried on a 589-bp Sma I-Ava II DNA fragment (4) were performed as described previously (2, 4) and oE was renatured for holoenzyme reconstitution experiments by using the GroEL-assisted protocol ofBrown et al. (2). Fractions ofRNA polymerase eluted from the final Superose 6 (Pharmacia) gel filtration column with peak levels of dagA P2 transcribing activity were pooled, electrophoresed on a 7.5% polyacrylamide/SDS gel, and electroblotted for 30 min at 0.5 A onto Trans-Blot [Trans-Blot Transfer Medium polyvinylidene difluoride (PVDF) protein sequencing membrane; Bio-Rad] in 10 mM cyclohexylaminopropanesulfonic acid (Caps), pH 11.0/10%o (vol/vol) aqueous methanol. The membrane was subsequently stained and treated as described (2) to visualize the yE polypeptide. The sequence of the first 27 residues of aE was determined by sequential N-terminal Edman degradation using a gas-phase sequenator.Cloning and Nucleotide Sequencing of the sigE Gene. The 256-fold-degenerate 49-mer G332, designed from the sequence of the first 17 N-terminal residues of o-E, was

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Section: Methodsmentioning

confidence: 99%

Analysis of the Streptomyces coelicolor sigE gene reveals the existence of a subfamily of eubacterial RNA polymerase sigma factors involved in the regulation of extracytoplasmic functions.

Lonetto

Brown

Rudd³

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

462

474

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show abstract

“…Genetic determinants for Ni resistance have been first identified and characterized at the molecular level from Alcaligenes xylosoxidans 31A (known also as Ralstonia eutropha, then as Ralstonia metallidurans and now as Cupriavidus metallidurans 31A) and Alcaligenes eutrophus CH34 (now known as Cupriavidus metallidurans CH34) which were isolated from industrially contaminated sites (Mergeay et al 1978;Schmidt and Schlegel 1989). A. xylosoxidans 31A harbors two genetic determinants (ncc, nre) on plasmid pTOM9, while C. metallidurans CH34 contains one system only (cnr) (Liesegang et al 1993;Mergeay et al 2003;Nies 2000), but a large number of transporters and a regulatory apparatus are present also in its genome constituting an integrated (both plasmid-borne and chromosomal) system for resistance to metals (Mergeay et al 2003;von Rozycki and Nies 2008). In all these systems Ni resistance is due to an inducible efflux system, mediated by ATP binding cassette (ABC) transporters, that lower the intracellular Ni concentration by pumping out Ni cations from the cytoplasm (Mergeay et al 2003).…”

Section: Genes For Metal Resistance: Single Operons or Genome Adaptatmentioning

confidence: 99%

Plants as extreme environments? Ni-resistant bacteria and Ni-hyperaccumulators of serpentine flora

2009

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During recent years there has been an increasing interest in the bacterial communities occurring in unusual, often extreme, environments. On serpentine outcrops around the world, a high diversity of plant species showing the peculiar features of metal hyperaccumulation is present. These metal hyperaccumulators have received much attention for their potential biotechnological exploitation in phytoremediation processes, but also as unusual, extreme habitats for the associated bacterial flora, which could reveal novel details concerning bacterial adaptation. This paper will briefly focus on the research topics that have been addressed to date on bacteria associated with serpentine plants and aims to provide a state of the art and to present possible future directions for research which could lead to new insights on microbial adaptation and evolution, and potentially applied in technologies for sustainable use and remediation of contaminated land.

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“…Resistance to Cd# + , Zn# + and Co# + has been shown to be located on a czc operon of the plasmid pMOL30 (240 kb), while Co# + combined with Ni# + resistance is located on the cnr operon of the plasmid pMOL28 (163 kb) (Liesegang et al, 1993 ;Mergeay et al, 1985 ;Nies et al, 1987 ;Siddiqui et al, 1989). Other plasmid-borne resistances to metals include resistance to copper (cop), lead ( pbr) and mercury (mer) on pMOL30 and resistance to chromate (chr) and mercury on pMOL28 (for a review see Mergeay, 2000).…”

Section: Introductionmentioning

confidence: 99%

Classification of metal-resistant bacteria from industrial biotopes as Ralstonia campinensis sp. nov., Ralstonia metallidurans sp. nov. and Ralstonia basilensis Steinle et al. 1998 emend.

Goris¹,

Vos²,

Coenye³

et al. 2001

International Journal of Systematic and Evolutionary Microbiology

196

145

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Characterization of the inducible nickel and cobalt resistance determinant cnr from pMOL28 of Alcaligenes eutrophus CH34

Cited by 211 publications

References 39 publications

Analysis of the Streptomyces coelicolor sigE gene reveals the existence of a subfamily of eubacterial RNA polymerase sigma factors involved in the regulation of extracytoplasmic functions.

Analysis of the Streptomyces coelicolor sigE gene reveals the existence of a subfamily of eubacterial RNA polymerase sigma factors involved in the regulation of extracytoplasmic functions.

Plants as extreme environments? Ni-resistant bacteria and Ni-hyperaccumulators of serpentine flora

Classification of metal-resistant bacteria from industrial biotopes as Ralstonia campinensis sp. nov., Ralstonia metallidurans sp. nov. and Ralstonia basilensis Steinle et al. 1998 emend.

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