Over exploitation of mineral resources has increasingly caused serious heavy metal
contamination such as chromium (Cr). Cr (VI), the pathogenicity factor, is one of common …

The understanding of bacterial resistance to hexavalent chromium [Cr (VI)] are crucial for the
enhancement of Cr (VI)-polluted soil bioremediation. However, the mechanisms related to …

A proteomic approach was used to identify proteins involved in Cr (VI) stress response of
Pseudomonas aeruginosa to toxic Cr (VI). Cytosolic and membrane fractions from bacteria …

Microbial remediation of heavy metal polluted environment is ecofriendly and cost effective.
Therefore, in the present study, Shewanella putrefaciens stain 4H was previously isolated by …

Staphylococcus aureus strain LZ-01, isolated from the Lanzhou reaches of the Yellow River,
is capable of reducing Cr (VI) to Cr (III) aerobically. We employed transcriptome sequencing …

Microbial bioremediation of Cr (VI)-contaminated environments has drawn extensive
concern. However, the molecular processes underlying the microbial Cr (VI) tolerance and …

Klebsiella sp. strain AqSCr, isolated from Cr (VI)-polluted groundwater, reduces Cr (VI) both
aerobically and anaerobically and resists up 34 mM Cr (VI); this resistance is independent of …

Pseudomonas aeruginosa RW9 is a promising candidate for the bioremediation of
chromium hexavalent (Cr (VI)) pollution, as it resists a high concentration of up to 60 mg/L of …

Growing industrialization and unchecked release of industrial waste, including heavy metals
have resulted in disastrous effects on environment. Considering the problem of heavy metal …

The toxicity of Cr (VI) was widely investigated, but the defense mechanism against Cr (III) in
bacteria are seldom reported. Here, we found that Cr (III) inhibited bacterial growth and …