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Biotransformation and reduction of estrogenicity of bisphenol A by the biphenyl-degrading Cupriavidus basilensis |
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| Authors: | Zühlke Marie-Katherin Schlüter Rabea Mikolasch Annett Zühlke Daniela Giersberg Martin Schindler Henning Henning Ann-Kristin Frenzel Heidi Hammer Elke Lalk Michael Bornscheuer Uwe T. Riedel Katharina Kunze Gotthard Schauer Frieder |
| Affiliation: | 1.Institute of Microbiology, Ernst-Moritz-Arndt-University of Greifswald, Friedrich-Ludwig-Jahn-Str. 15, 17487, Greifswald, Germany ;2.Leibniz Institute of Plant Genetics and Crop Plant Research, Corrensstr. 3, OT Gatersleben, 06466, Seeland, Germany ;3.Institute of Biochemistry, Ernst-Moritz-Arndt-University of Greifswald, Felix-Hausdorff-Str. 4, 17487, Greifswald, Germany ; |
| Abstract: | The biphenyl-degrading Gram-negative bacterium Cupriavidus basilensis (formerly Ralstonia sp.) SBUG 290 uses various aromatic compounds as carbon and energy sources and has a high capacity to transform bisphenol A (BPA), which is a hormonally active substance structurally related to biphenyl. Biphenyl-grown cells initially hydroxylated BPA and converted it to four additional products by using three different transformation pathways: (a) formation of multiple hydroxylated BPA, (b) ring fission, and (c) transamination followed by acetylation or dimerization. Products of the ring fission pathway were non-toxic and all five products exhibited a significantly reduced estrogenic activity compared to BPA. Cell cultivation with phenol and especially in nutrient broth (NB) resulted in a reduced biotransformation rate and lower product quantities, and NB-grown cells did not produce all five products in detectable amounts. Thus, the question arose whether enzymes of the biphenyl degradation pathway are involved in the transformation of BPA and was addressed by proteomic analyses. |
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