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Description Media types used for identifying potential U‐precipitating phosphatase phenotypes. Isolates that displayed a phosphatase‐positive phenotype appeared either bright green on TPMG (Fig. 1A) or...
Article Title: Aerobic uranium (VI) bioprecipitation by metal‐resistant bacteria isolated from radionuclide‐ and metal‐contaminated subsurface soils
Publication Title: Environmental Microbiology -
Description A–D. Polymerase chain reaction (PCR) amplification of class A, B and C NSAPs. Agarose gel lanes are: L, 1‐kb DNA ladder; N, no DNA template control; 1, Rahnella sp. Y9602; 2, Enterobacter aerogenes...
Article Title: Aerobic uranium (VI) bioprecipitation by metal‐resistant bacteria isolated from radionuclide‐ and metal‐contaminated subsurface soils
Publication Title: Environmental Microbiology -
Description Synthetic groundwater (pH 5.5) amended with 10 mM G3P (as sole C and P source) and inoculated with either viable or heat‐killed control Rahnella sp. Y9602 (squares) or Bacillus sp. Y9‐2 (circles)...
Article Title: Aerobic uranium (VI) bioprecipitation by metal‐resistant bacteria isolated from radionuclide‐ and metal‐contaminated subsurface soils
Publication Title: Environmental Microbiology -
Description Uranium (VI) speciation as a function of pH in SGW. The open system model at 30°C calculated aqueous and solid phases at equilibrium using the concentrations of ions present in SGW, UO22+(aq) = 200...
Article Title: Aerobic uranium (VI) bioprecipitation by metal‐resistant bacteria isolated from radionuclide‐ and metal‐contaminated subsurface soils
Publication Title: Environmental Microbiology