Project description:Low concentrations of pharmaceutical compounds were shown to induce transcriptional responses in isolated microorganisms, which could have consequences on ecosystem dynamics. In order to test if these transcriptional responses could also be observed in complex river microbial communities, biofilm reactors were inoculated with water from two distinct rivers and supplemented with environmentally relevant doses of four pharmaceutical products (erythromycin-ER, gemfibrozil-GM, sulfamethazine-SN and sulfamethoxazole-SL). To follow the expression of functional genes, we constructed a 9,600 features anonymous DNA microarray platform onto which cDNA from the various biofilms was hybridized. The reactor design for biofilm development has been previously described (Lawrence et al., 2004; Lawrence et al., 2000). Two duplicate experiments were carried out, with reactors being inoculated with either water from the WC (nutrient rich) or the SSR (nutrient poor). Treatments consisted in the addition of various pharmaceutical compounds: 1 µg l-1 erythromycin (ER), 1 µg l-1 gemfibrozil (GM), 0.5 µg l-1 sulfamethazine (SN), 0.5 µg l-1 sulfamethoxazole (SL). Nothing was added to control reactors (CO). All treatments were replicated independently three times. A reference sample (composite sample from Wascana Creek reactors used to construct the microarray) was hybridized (Cy5) on each slide.
Project description:Low concentrations of pharmaceutical compounds were shown to induce transcriptional responses in isolated microorganisms, which could have consequences on ecosystem dynamics. In order to test if these transcriptional responses could also be observed in complex river microbial communities, biofilm reactors were inoculated with water from two distinct rivers and supplemented with environmentally relevant doses of four pharmaceutical products (erythromycin-ER, gemfibrozil-GM, sulfamethazine-SN and sulfamethoxazole-SL). To follow the expression of functional genes, we constructed a 9,600 features anonymous DNA microarray platform onto which cDNA from the various biofilms was hybridized.
Project description:Identify and characterize two distinct communities, the aerobic community and the anaerobic community in the partial nitritation/anammox reactors using metaproteomics approach
2019-07-26 | PXD009787 | Pride
Project description:Microbial communities in biogas reactors inoculated with different effluent sources
