Five heavy metals were introduced into the bacterial heavy metal resistance tests. The results showed that apparent inhibition effects of Cd2+ and Cu2+ on the growth of Acidithiobacillus ferrooxidans BYSW1 occured at high concentrations (>0.04 mol l−1). Significant differences (P < 0.001) were both noticed in the expression of two ferredoxin-encoding genes (fd-I and fd-II) related to heavy metal resistance in the presence of Cd2+ and Cu2+. When exposed to 0.06 mol l−1 Cd2+, the relative expression levels of fd-I and fd-II were about 11 and 13 times as much as those of the control, respectively. Similarly, exposure to 0.04 mol l−1 Cu2+ caused approximate 8 and 4 times higher than those of the control, respectively. These two genes were cloned and expressed in Escherichia coli, and the structures, functions of two corresponding target proteins, i.e. Ferredoxin-I (Fd-I) and Ferredoxin-II (Fd-II), were predicted. The recombinant cells inserted by fd-I or fd-II were more resistant to Cd2+ and Cu2+ compared with wild type cells. This study was the first investigation regarding the contribution of fd-I and fd-II to enhancing heavy metal resistance of this bioleaching bacterium, and laid a foundation for further elucidation of heavy metal resistance mechanisms caused by ferredoxin.
In this study, the Cu2+ (120 mg/L) and Cr6+(80 mg/L) removal rate of S. rhizophila JC1 reached at 79.9% and 89.3%, respectively. Scanning electron microscopy showed that Pb2+ and Zn2+ had no obvious effect on cell structure, but the cells became smaller and brighter under Cu2+ stress, and many nanoparticles formed on the cell surface under Cr6+ stress. The physiological response analyses demonstrated that moderate change of membrane permeability was necessary for adsorption. FI-IR and EDS analyses showed that exopolysaccharides (EPS) and the replacement of basic elements (ie., C, O) might be the main means of heavy metals adsorption by strain. In addition, 323 transport proteins were predicted in the genome of S. rhizophila JC1. Among them, two, six and five proteins of the cation diffusion facilitator, resistance-nodulation-division efflux and P-type ATPase families were respectively predicted. The expression of genes showed that the synergistic action of transport proteins played an important role in the process of adsorption. The comparative genomics analysis revealed that S. rhizophila JC1 has long-distance evolutionary relationships with other strains, but the efflux system of S. rhizophila JC1 contained the same types of metal transport proteins as other metal-resistant bacteria.
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