Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria 2016
DOI: 10.1002/9781119004813.ch110
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Nickel Toxicity, Regulation, and Resistance in Bacteria

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Cited by 9 publications
(5 citation statements)
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“…Lower threshold concentrations for toxicity were previously observed for Ni when compared with Zn under the same experimental conditions (Hao et al 1994;Poulson et al 1997), again potentially due to the tendency for Zn to form Zn sulfides over Ni in mixed metal solutions, as predicted by PHREEQC. Divalent Ni competes catabolically and allosterically with Zn and Fe and therefore interferes with metalloenzyme activities, as well as generates reactive oxygen (Macomber and Hausinger 2016). Therefore, the observed inhibition of SCN − biodegradation in Ni-amended experiments may be attributed to Ni 2+ species that comprised a larger proportion of total Ni at higher amendment concentrations, as modeled.…”
Section: Discussionmentioning
confidence: 93%
“…Lower threshold concentrations for toxicity were previously observed for Ni when compared with Zn under the same experimental conditions (Hao et al 1994;Poulson et al 1997), again potentially due to the tendency for Zn to form Zn sulfides over Ni in mixed metal solutions, as predicted by PHREEQC. Divalent Ni competes catabolically and allosterically with Zn and Fe and therefore interferes with metalloenzyme activities, as well as generates reactive oxygen (Macomber and Hausinger 2016). Therefore, the observed inhibition of SCN − biodegradation in Ni-amended experiments may be attributed to Ni 2+ species that comprised a larger proportion of total Ni at higher amendment concentrations, as modeled.…”
Section: Discussionmentioning
confidence: 93%
“…Copper displays a high affinity for metalloproteins, and if equivalent quantities of all divalent metals were present, proteins would probably all bind copper [ 35 ]. The decrease in zinc content can also be explained by the inhibition of zinc metalloenzymes by nickel [ 36 ]. The reduction of strontium content can also be explained by its replacement with nickel ions [ 33 ].…”
Section: Resultsmentioning
confidence: 99%
“…Redox‐active metals like Ni promote oxidative damage as they can exist in the (II) and (I) states; Pd(II) can possibly act as a ‘surrogate’ for Ni(II) (they are in the same group of the periodic table) but not substitute functionally. Some similarities in biochemical ‘processing’ of Ni(II) and Pd(II) might be expected, e.g.…”
Section: Discussionmentioning
confidence: 99%