Bioremediation potential of hexavalent chromium-resistant Arthrobacter globiformis 151B: study of the uptake of cesium and other alkali ions

Cesium (Cs + ) enters environments largely because of global release into the environment from weapons testing and accidents such as Fukushima Daiichi and Chernobyl nuclear waste. Even at low concentrations, Cs + is highly toxic to ecological receptors because of its physicochemical similarity to ma...

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Bibliographic Details
Published in:International microbiology 2022-11, Vol.25 (4), p.745-758
Main Authors: Rcheulishvili, Olia, Metreveli, Nunu, Solomonia, Revaz, Tsverava, Lia, Holman, Hoi-Ying
Format: Article
Language:English
Subjects:
Accumulation
Alkali metals
Applied Microbiology
Arthrobacter
Arthrobacter globiformis
Bacteria
Biomedical and Life Sciences
Bioremediation
Cations
Cesium
Chromium
Contaminants
Efflux
Electrophoresis
Eukaryotic Microbiology
Hexavalent chromium
Homeostasis
Life Sciences
Low concentrations
Medical Microbiology
Metal ions
Microbial Ecology
Microbiology
Nuclear accidents
Nuclear weapons
Original Article
Potassium
Proteomes
Radioactive wastes
Reactive oxygen species
Rubidium
Sodium
Spectrometry
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Summary:Cesium (Cs + ) enters environments largely because of global release into the environment from weapons testing and accidents such as Fukushima Daiichi and Chernobyl nuclear waste. Even at low concentrations, Cs + is highly toxic to ecological receptors because of its physicochemical similarity to macronutrient potassium (K + ). We investigated the uptake and accumulation of Cs + by Arthrobacter globiformis strain 151B in reference to three similar alkali metal cations rubidium (Rb + ), sodium (Na + ), and potassium (K + ). The impact of hexavalent chromium (Cr +6 ) as a co-contaminant was also evaluated. A. globiformis 151B accumulated Cs + and Cr 6+ in a time-dependent fashion. In contrast, the uptake and accumulation of Rb + did not exhibit any trends. An exposure to Cs + , Rb + , and Cr +6 triggered a drastic increase in K + and Na + uptake by the bacterial cells. That was followed by the efflux of K + and Na + , suggesting a Cs + “substitution.” Two-dimensional gel-electrophoresis of bacterial cell proteomes with the following mass-spectrometry of differentially expressed bands revealed that incubation of bacterial cells with Cs + induced changes in the expression of proteins involved in the maintenance of cellular homeostasis and reactive oxygen species removal. The ability of A. globiformis 151B to mediate the uptake and accumulation of cesium and hexavalent chromium suggests that it possesses wide-range bioremediation potential.
ISSN:1618-1905
1139-6709
1618-1905
DOI:10.1007/s10123-022-00258-5