Abstract
Cadmium (Cd) can be transported into plants from polluted soils and may cause animal and human diseases through food chains, which requires the development of highly efficient methods for soil Cd remediation. Although we isolated an Enterobacter cloacae strain Cu6 with Cd resistance, this strain cannot be used for soil Cd remediation due to its lower resistance. Here, we domesticated Cu6 and obtained a highly Cd-resistant strain, LPY6, and found that this strain can attenuate the toxic effects of Cd on wheat seedling growth. We deciphered the high Cd-resistance mechanism of LPY6 by genome comparative and genetic analysis. Compared with Cu6, 75 genes were mutated in LPY6. Thirty-four of these genes were deleted, and 41 had single nucleotide polymorphisms (SNPs). Most of these mutated proteins are involved in basic metabolism, substrate transport, stress response and formate and hydrogen metabolism. RNA quantitative analysis and promoter activity assays showed that the transcription or mRNA levels of two operons (cadA and norVW) in these mutated genes were regulated by Cd, zinc (Zn) or lead (Pb) ions, suggesting that these two operons might be required for Cd, Zn or Pb resistance. Expression of cadA and norVW operons in LPY6 partially recovered Cd susceptibility, demonstrating that CadA and NorVW are involved in Cd resistance in E. cloacae. Our findings illustrate that E. cloacae acquires Cd resistance through different pathways and lay a foundation for developing highly efficient methods for soil Cd remediation.
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More From: International microbiology : the official journal of the Spanish Society for Microbiology
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