[HTML][HTML] Use of heavy metals resistant bacteria—a strategy for arsenic bioremediation

S Sher, A Rehman - Applied microbiology and biotechnology, 2019 - Springer
A large number of industries release their untreated wastes in the environment causing an
increase in the concentration of toxic pollutants including heavy metal ions in ground and …

Metal-resistant bacteria as a green bioresource for arsenic remediation in wastewaters

DA Bukhari, A Rehman - Current Opinion in Green and Sustainable …, 2023 - Elsevier
Most of the industrial units dispose of their wastes without any proper treatment, causing
increased toxic pollutants concentration including heavy metal ions to corrupt the …

Comparisons of four As (V)-respiring bacteria from contaminated aquifers: activities to respire soluble As (V) and to reductively mobilize solid As (V)

XC Zeng, Y Xu, Z Liu, X Chen, Y Wu - Water Research, 2022 - Elsevier
It was shown that dissimilatory arsenate [As (V)]-respiring prokaryotes (DARPs) play
important roles in driving the formation of arsenic-contaminated groundwater. However …

Biological effect of phosphate on the dissimilatory arsenate-respiring bacteria-catalyzed reductive mobilization of arsenic from contaminated soils

W Shi, Y Xu, W Wu, XC Zeng - Environmental Pollution, 2022 - Elsevier
Dissimilatory arsenate-respiring prokaryotes (DARPs) are considered to be the major drive
of the reductive mobilization of arsenic from solid phases. However, it is not fully understood …

Degradation of neonicotinoid insecticide acetamiprid by two different nitrile hydratases of Pseudaminobacter salicylatoxidans CGMCC 1.17248

L Guo, W Yang, X Cheng, Z Fan, X Chen, F Ge… - International …, 2021 - Elsevier
Acetamiprid is a neonicotinoid insecticide used worldwide that has caused environmental
pollution and adverse effects on ecosystems. Here, a novel bacterium, Pseudaminobacter …

Unraveling the Central Role of Sulfur-Oxidizing Acidiphilium multivorum LMS in Industrial Bioprocessing of Gold-Bearing Sulfide Concentrates

A Panyushkina, A Bulaev, AV Belyi - Microorganisms, 2021 - mdpi.com
Acidiphilium multivorum LMS is an acidophile isolated from industrial bioreactors during the
processing of the gold-bearing pyrite-arsenopyrite concentrate at 38–42° C. Most strains of …

Can Sb (III)-oxidizing prokaryote also oxidize As (III) under aerobic and anaerobic conditions, and vice versa?

X Chen, T Yu, L Xiao, XC Zeng - Journal of Hazardous Materials, 2024 - Elsevier
Abstract Sb (III) and As (III) share similar chemical features and coexist in the environment.
However, their oxidase enzymes have completely different sequences and structures. This …

Phyllobacteriaceae: a family of ecologically and metabolically diverse bacteria with the potential for different applications

S Mustaq, A Moin, B Pandit, BK Tiwary, M Alam - Folia Microbiologica, 2024 - Springer
The family Phyllobacteriaceae is a heterogeneous assemblage of more than 146 species of
bacteria assigned to its existing 18 genera. Phylogenetic analyses have shown great …

Environmental Mn (II) enhances the activity of dissimilatory arsenate-respiring prokaryotes from arsenic-contaminated soils

Y Wu, W Wu, Y Xu, Y Zuo, XC Zeng - Journal of Environmental Sciences, 2023 - Elsevier
Many investigations suggest that dissimilatory arsenate-respiring prokaryotes (DARPs) play
a key role in stimulating reductive mobilization of As from solid phase into groundwater, but it …

Biological oxidation of As (III) and Sb (III) by a novel bacterium with Sb (III) oxidase rather than As (III) oxidase under anaerobic and aerobic conditions

T Yu, X Chen, XC Zeng, Y Wang - Science of The Total Environment, 2024 - Elsevier
Sb and As are chemically similar, but the sequences and structures of Sb (III) and As (III)
oxidase are totally distinct. It is thus interesting to explore whether Sb (III) oxidase oxidizes …