重新考虑基于溶解度和化学形态考虑的培养基中锑的生物甲基化。

Antimony biomethylation in culture media revisited in the light of solubility and chemical speciation considerations.

机构信息

SCHEMA, Rue Principale 92, L-6990 Rameldange, Luxembourg, Australia.

出版信息

Environ Toxicol. 2010 Oct;25(5):431-9. doi: 10.1002/tox.20587.

DOI:10.1002/tox.20587

PMID:20549617

Abstract

Laboratory culture experiments have shown that antimony biomethylation can result from bacterial and fungal activity under both aerobic and anaerobic conditions. However, in the light of our current knowledge of antimony solubility and equilibria, critical analysis of the conditions used in published laboratory studies reveals that solution chemistry was generally overlooked and oversaturated solutions were used. As a result, it is very difficult, if not impossible, to establish reliable observed effect-concentration relationships in the experiments published.

摘要

实验室培养实验表明，在有氧和无氧条件下，细菌和真菌的活动都可以导致甲基胂酸化。然而，根据我们目前对锑的溶解度和平衡的了解，对已发表的实验室研究中使用的条件进行批判性分析表明，通常忽略了溶液化学，并且使用了过饱和溶液。因此，在已发表的实验中，很难（如果不是不可能的话）建立可靠的观察到的效应-浓度关系。

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重新考虑基于溶解度和化学形态考虑的培养基中锑的生物甲基化。

Antimony biomethylation in culture media revisited in the light of solubility and chemical speciation considerations.

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