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Quéméneur M,
Cébron A,
Billard P,
Battaglia-Brunet F,
Garrido F,
Leyval C,
Joulian C,
( 2010 ) Population structure and abundance of arsenite-oxidizing bacteria along an arsenic pollution gradient in waters of the upper isle River Basin, France. PMID : 20453153 : DOI : 10.1128/AEM.03104-09 PMC : PMC2897427 Abstract >>
Denaturing gradient gel electrophoresis (DGGE) and quantitative real-time PCR (qPCR) were successfully developed to monitor functional aoxB genes as markers of aerobic arsenite oxidizers. DGGE profiles showed a shift in the structure of the aoxB-carrying bacterial population, composed of members of the Alpha-, Beta- and Gammaproteobacteria, depending on arsenic (As) and E(h) levels in Upper Isle River Basin waters. The highest aoxB gene densities were found in the most As-polluted oxic surface waters but without any significant correlation with environmental factors. Arsenite oxidizers seem to play a key role in As mobility in As-impacted waters.
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2. |
Arsène-Ploetze F,
Koechler S,
Marchal M,
Coppée JY,
Chandler M,
Bonnefoy V,
Brochier-Armanet C,
Barakat M,
Barbe V,
Battaglia-Brunet F,
Bruneel O,
Bryan CG,
Cleiss-Arnold J,
Cruveiller S,
Erhardt M,
Heinrich-Salmeron A,
Hommais F,
Joulian C,
Krin E,
Lieutaud A,
Lièvremont D,
Michel C,
Muller D,
Ortet P,
Proux C,
Siguier P,
Roche D,
Rouy Z,
Salvignol G,
Slyemi D,
Talla E,
Weiss S,
Weissenbach J,
Médigue C,
Bertin PN,
( 2010 ) Structure, function, and evolution of the Thiomonas spp. genome. PMID : 20195515 : DOI : 10.1371/journal.pgen.1000859 PMC : PMC2829063 Abstract >>
Bacteria of the Thiomonas genus are ubiquitous in extreme environments, such as arsenic-rich acid mine drainage (AMD). The genome of one of these strains, Thiomonas sp. 3As, was sequenced, annotated, and examined, revealing specific adaptations allowing this bacterium to survive and grow in its highly toxic environment. In order to explore genomic diversity as well as genetic evolution in Thiomonas spp., a comparative genomic hybridization (CGH) approach was used on eight different strains of the Thiomonas genus, including five strains of the same species. Our results suggest that the Thiomonas genome has evolved through the gain or loss of genomic islands and that this evolution is influenced by the specific environmental conditions in which the strains live.
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3. |
Bryan CG,
Marchal M,
Battaglia-Brunet F,
Kugler V,
Lemaitre-Guillier C,
Lièvremont D,
Bertin PN,
Arsène-Ploetze F,
( 2009 ) Carbon and arsenic metabolism in Thiomonas strains: differences revealed diverse adaptation processes. PMID : 19549320 : DOI : 10.1186/1471-2180-9-127 PMC : PMC2720973 Abstract >>
Thiomonas strains are ubiquitous in arsenic-contaminated environments. Differences between Thiomonas strains in the way they have adapted and respond to arsenic have never been studied in detail. For this purpose, five Thiomonas strains, that are interesting in terms of arsenic metabolism were selected: T. arsenivorans, Thiomonas spp. WJ68 and 3As are able to oxidise As(III), while Thiomonas sp. Ynys1 and T. perometabolis are not. Moreover, T. arsenivorans and 3As present interesting physiological traits, in particular that these strains are able to use As(III) as an electron donor. The metabolism of carbon and arsenic was compared in the five Thiomonas strains belonging to two distinct phylogenetic groups. Greater physiological differences were found between these strains than might have been suggested by 16S rRNA/rpoA gene phylogeny, especially regarding arsenic metabolism. Physiologically, T. perometabolis and Ynys1 were unable to oxidise As(III) and were less arsenic-resistant than the other strains. Genetically, they appeared to lack the aox arsenic-oxidising genes and carried only a single ars arsenic resistance operon. Thiomonas arsenivorans belonged to a distinct phylogenetic group and increased its autotrophic metabolism when arsenic concentration increased. Differential proteomic analysis revealed that in T. arsenivorans, the rbc/cbb genes involved in the assimilation of inorganic carbon were induced in the presence of arsenic, whereas these genes were repressed in Thiomonas sp. 3As. Taken together, these results show that these closely related bacteria differ substantially in their response to arsenic, amongst other factors, and suggest different relationships between carbon assimilation and arsenic metabolism.
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4. |
Quéméneur M,
Heinrich-Salmeron A,
Muller D,
Lièvremont D,
Jauzein M,
Bertin PN,
Garrido F,
Joulian C,
( 2008 ) Diversity surveys and evolutionary relationships of aoxB genes in aerobic arsenite-oxidizing bacteria. PMID : 18502920 : DOI : 10.1128/AEM.02851-07 PMC : PMC2493162 Abstract >>
A new primer set was designed to specifically amplify ca. 1,100 bp of aoxB genes encoding the As(III) oxidase catalytic subunit from taxonomically diverse aerobic As(III)-oxidizing bacteria. Comparative analysis of AoxB protein sequences showed variable conservation levels and highlighted the conservation of essential amino acids and structural motifs. AoxB phylogeny of pure strains showed well-discriminated taxonomic groups and was similar to 16S rRNA phylogeny. Alphaproteobacteria-, Betaproteobacteria-, and Gammaproteobacteria-related sequences were retrieved from environmental surveys, demonstrating their prevalence in mesophilic As-contaminated soils. Our study underlines the usefulness of the aoxB gene as a functional marker of aerobic As(III) oxidizers.
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( N/A ) Phylogenetic relationships of Bacteria based on comparative sequence analysis of elongation factor Tu and ATP-synthase beta-subunit genes. PMID : 8085791 : DOI : 10.1007/bf00873088 Abstract >>
Comparative sequence analyses were performed on 14 genes encoding bacterial elongation factors EF-Tu and 7 genes encoding the beta-subunit of bacterial F1F0 type ATP-synthases. The corresponding predicted amino acid sequences were compared with published primary structures of homologous molecules. Phylogenetic trees were reconstructed from both data sets of aligned protein sequences and from an equivalent selection of 16S rRNA sequences by applying distance matrix and maximum parsimony methods. The EF-Tu data were in very good agreement with the rRNA data, although the resolution within the EF-Tu tree was reduced at certain phylogenetic levels. The resolution power of the ATPase beta-subunit sequence data were more reduced than those of the EF-Tu data. In comparison with the 16S rRNA tree there are minor differences in the order of adjacent branchings within the ATPase beta-subunit tree.
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