Project description:To investigate the molecular mechanisms of how Cupriavidus basilensis SRS may aid bioextraction of metals from ores, we exposed C. basilensis SRS to different metals, as well as natural ores
Project description:A bacterial strain identified as Cupriavidus basilensis uses aromatic compounds as carbon and energy sources and has a high capability to transform the structurally related and hormonally active substance bisphenol A (BPA). Biphenyl-grown and phenol-grown cells converted BPA to five products within 24 h of incubation representing four different transformation pathways: (a) ring hydroxylation, (b) ring fission, (c) transamination and acetylation, and (d) 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 in nutrient broth resulted in lower product quantities and dimerization was not proved. Thus the question arose whether enzymes of the biphenyl or phenol degradation pathway are involved in the transformation of BPA. Proteomic analyses revealed the constitutive expression of biphenyl degrading enzymes and indicated that the 2,3 dihydroxybiphenyl-1,2-dioxygenase might catalyse the meta-cleavage of the aromatic ring of BPA while enzymes of other pathways seemed to be involved in ring hydroxylation.
Project description:Response of Cupriavidus metallidurans CH34, AE104 and delta zupT mutant to Zn/EDTA stress In this study 3 different treatments were performed to acquire expression profiles of the total genome of Cupriavidus metallidurans
Project description:Response of Cupriavidus metallidurans AE104(delta zupT) mutant to Zn/EDTA stress In this study 2 different treatments were performed to acquire expression profiles of the total genome of Cupriavidus metallidurans
Project description:Response of Cupriavidus metallidurans CH34 to cisplatin, Pt(IV)chloride and Au-NP In this study 7 different treatments were performed (first 2 as 3 replicates) to acquire expression profiles of the total genome of Cupriavidus metallidurans