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Isolation and characterisation of mineral-oxidizing “Acidibacillus” spp. from mine sites and geothermal environments in different global locations. / Holanda, Roseanne; Hedrich, Sabrina; Nancucheo, Ivan et al.
In: Research in Microbiology, Vol. 167, No. 7, 09.2016, p. 613-623.

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Holanda R, Hedrich S, Nancucheo I, Oliveira G, Grail B, Johnson D. Isolation and characterisation of mineral-oxidizing “Acidibacillus” spp. from mine sites and geothermal environments in different global locations. Research in Microbiology. 2016 Sept;167(7):613-623. Epub 2016 May 3. doi: 10.1016/j.resmic.2016.04.008

Author

Holanda, Roseanne ; Hedrich, Sabrina ; Nancucheo, Ivan et al. / Isolation and characterisation of mineral-oxidizing “Acidibacillus” spp. from mine sites and geothermal environments in different global locations. In: Research in Microbiology. 2016 ; Vol. 167, No. 7. pp. 613-623.

RIS

TY - JOUR

T1 - Isolation and characterisation of mineral-oxidizing “Acidibacillus” spp. from mine sites and geothermal environments in different global locations

AU - Holanda, Roseanne

AU - Hedrich, Sabrina

AU - Nancucheo, Ivan

AU - Oliveira, Guilherme

AU - Grail, Barry

AU - Johnson, David

PY - 2016/9

Y1 - 2016/9

N2 - Eight strains of acidophilic bacteria, isolated from mine-impacted and geothermal sites from different parts of the world, were shown to form a distinct clade (proposed genus “Acidibacillus”) within the phylum Firmicutes, well separated from the acidophilic genera Sulfobacillus and Alicyclobacillus. Two of the strains (both isolated from sites in Yellowstone National Park, USA) were moderate thermophiles that oxidised both ferrous iron and elemental sulphur, while the other six were mesophiles that also oxidised ferrous iron, but not sulphur. All eight isolates reduced ferric iron to varying degrees. The two groups shared <95% similarity of their 16S rRNA genes and were therefore considered to be distinct species: “A. sulphuroxidans” (moderately thermophilic isolates) and “A. ferrooxidans” (mesophilic isolates). Both species were obligate heterotrophs; none of the eight strains grew in the absence of organic carbon. “Acidibacillus” spp. were generally highly tolerant of elevated concentrations of cationic transition metals, though “A. sulphuroxidans” strains were more sensitive to some (e.g. nickel and zinc) than those of “A. ferrooxidans”. Initial annotation of the genomes of two strains of “A. ferrooxidans” revealed the presence of genes (cbbL) involved in the RuBisCO pathway for CO2 assimilation and iron oxidation (rus), though with relatively low sequence identities.

AB - Eight strains of acidophilic bacteria, isolated from mine-impacted and geothermal sites from different parts of the world, were shown to form a distinct clade (proposed genus “Acidibacillus”) within the phylum Firmicutes, well separated from the acidophilic genera Sulfobacillus and Alicyclobacillus. Two of the strains (both isolated from sites in Yellowstone National Park, USA) were moderate thermophiles that oxidised both ferrous iron and elemental sulphur, while the other six were mesophiles that also oxidised ferrous iron, but not sulphur. All eight isolates reduced ferric iron to varying degrees. The two groups shared <95% similarity of their 16S rRNA genes and were therefore considered to be distinct species: “A. sulphuroxidans” (moderately thermophilic isolates) and “A. ferrooxidans” (mesophilic isolates). Both species were obligate heterotrophs; none of the eight strains grew in the absence of organic carbon. “Acidibacillus” spp. were generally highly tolerant of elevated concentrations of cationic transition metals, though “A. sulphuroxidans” strains were more sensitive to some (e.g. nickel and zinc) than those of “A. ferrooxidans”. Initial annotation of the genomes of two strains of “A. ferrooxidans” revealed the presence of genes (cbbL) involved in the RuBisCO pathway for CO2 assimilation and iron oxidation (rus), though with relatively low sequence identities.

U2 - 10.1016/j.resmic.2016.04.008

DO - 10.1016/j.resmic.2016.04.008

M3 - Article

VL - 167

SP - 613

EP - 623

JO - Research in Microbiology

JF - Research in Microbiology

SN - 0923-2508

IS - 7

ER -