2012
DOI: 10.1002/aoc.2821
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Mechanism of multi‐metal(loid) methylation and hydride generation by methylcobalamin and cob(I)alamin: a side reaction of methanogenesis

Abstract: a Metal(loid)s are subject to many transformation processes in the environment, such as oxidation, reduction, methylation and hydride generation, predominantly accomplished by prokaryotes. Since these widespread processes affect the bioavailability and toxicity of metal(loid)s to a large extent, the investigation of their formation is of high relevance. Methanogenic Archaea are capable of methylating and hydrogenating Group 15 and 16 metal(loid)s arsenic, selenium, antimony, tellurium, and bismuth due to side … Show more

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Cited by 18 publications
(14 citation statements)
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“…This suggests that either microorganisms have the ability to reduce As(III) or use other methylation pathways for methylation directly using As(V). Although several methylation pathways have been proposed (Mestrot et al 2013;Wu 2005;Wuerfel et al 2012), the current state of knowledge is still not able to explain the occurrence of methyl As of different chemical forms in nature and their linkage to the different enzymatic systems involved in microbial methylation; e.g. As(V) reductase, monomethylarsonic acid reductase, As(III) methyltransferase and monomethylarsonous acid methyltransferase (Wu 2005).…”
Section: Methylationmentioning
confidence: 99%
“…This suggests that either microorganisms have the ability to reduce As(III) or use other methylation pathways for methylation directly using As(V). Although several methylation pathways have been proposed (Mestrot et al 2013;Wu 2005;Wuerfel et al 2012), the current state of knowledge is still not able to explain the occurrence of methyl As of different chemical forms in nature and their linkage to the different enzymatic systems involved in microbial methylation; e.g. As(V) reductase, monomethylarsonic acid reductase, As(III) methyltransferase and monomethylarsonous acid methyltransferase (Wu 2005).…”
Section: Methylationmentioning
confidence: 99%
“…Reports of HG-CT applications in connection with ICP-MS detection are surprisingly scarce. [11][12][13][14][15][16] The principal drawback of the HG-based approach is its limited selectivity, as the CT step can only distinguish four volatile As species, arsine and mono-, di-and trimethylarsine. Therefore, the selectivity of the analysis is aided by the HG step because some As species do not form hydrides under certain conditions.…”
Section: Introductionmentioning
confidence: 99%
“…Additionally, it was demonstrated that methylation of As(V) did not occur and that methylation of As(III) did not involve oxidation, and was therefore similar in process to the methylation of Hg whereby the methyl group is added as a carbanion rather than a carbocation. While Weufel et al [10] were able to demonstrate the formation of higher methylated compounds, another study [11] suggested that the reaction pathway produces only monomethylated forms, which contrasts the environment where higher methylated forms are often more abundant. In addition to methylation of As, cobalamin has also been shown to methylate Sb [11].…”
Section: The Biotic Methylation Of Arsenic and Antimonymentioning
confidence: 98%
“…In this case, it has been suggested that methylation may involve cobalamin and therefore involve a different mechanism whereby a carbanion or a radical from methylcobalamin is added to As III in the presence of mediating enzymes [4,7]. Methanogenic Achaea, for example, were shown to methylate a variety of metalloids of Groups 15 and 16 (As, Se, Sb, Te, and Bi) [10]. The mechanism was attributed to side reactions with methylcobalamin.…”
Section: The Biotic Methylation Of Arsenic and Antimonymentioning
confidence: 99%
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