Arsenic detoxification and evolution of trimethylarsine gas by a microbial arsenite S-adenosylmethionine methyltransferase.
TLDR
A mechanism of arsenite [As(III)]resistance through methylation and subsequent volatization is described, and this microbial-mediated transformation is proposed to have an important impact on the global arsenic cycle.Abstract:
In this article, a mechanism of arsenite [As(III)]resistance through methylation and subsequent volatization is described. Heterologous expression of arsM from Rhodopseudomonas palustris was shown to confer As(III) resistance to an arsenic-sensitive strain of Escherichia coli. ArsM catalyzes the formation of a number of methylated intermediates from As(III), with trimethylarsine as the end product. The net result is loss of arsenic, from both the medium and the cells. Because ArsM homologues are widespread in nature, this microbial-mediated transformation is proposed to have an important impact on the global arsenic cycle.read more
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Arsenic as a Food Chain Contaminant: Mechanisms of Plant Uptake and Metabolism and Mitigation Strategies
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Arsenic uptake and metabolism in plants.
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Rudra Deo Tripathi,Sudhakar Srivastava,Seema Mishra,Nandita Singh,Rakesh Tuli,Dharmendra K. Gupta,Frans J. M. Maathuis +6 more
TL;DR: Recent advances in arsenic tolerance are discussed and their potential applications, particularly in the context of multigenic engineering approaches, are discussed.
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Arsenic and selenium in microbial metabolism.
TL;DR: This review highlights recent advances in ecology, biochemistry, and molecular biology and provides a prelude to the impact of genomics studies.
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Coordination chemistry of bacterial metal transport and sensing.
TL;DR: Metal homeostasis is governed by the formation of specific protein-metal coordination complexes used to effect uptake, efflux, intracellular trafficking within compartments, and storage, and is the focus of this review.
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Comparative toxicity of trivalent and pentavalent inorganic and methylated arsenicals in rat and human cells.
Miroslav Styblo,L.M. Del Razo,Libia Vega,Dori R. Germolec,Edward L. LeCluyse,G. Hamilton,W Reed,Changqing Wang,William R. Cullen,David J. Thomas +9 more
TL;DR: It is suggested that trivalent methylated arsenicals, intermediary products of arsenic methylation, may significantly contribute to the adverse effects associated with exposure to iAs, and high methylation capacity does not protect cells from the acute toxicity of triavalent arsenicals.