土壤和培养物中砷化氢和甲基胂的产生。

Production of arsine and methylarsines in soil and in culture.

作者信息

Cheng C N, Focht D D

出版信息

Appl Environ Microbiol. 1979 Sep;38(3):494-8. doi: 10.1128/aem.38.3.494-498.1979.

DOI:10.1128/aem.38.3.494-498.1979

PMID:533276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC243522/

Abstract

Arsenate, arsenite, monomethylarsonate, and dimethylarsinate were added to different soils, and evolution of gaseous arsenical products was determined over 3 weeks. Arsine was produced in all three soils from all substrates, whereas methylarsine and dimethylarsine were produced only from methylarsonate and dimethylarsinate, respectively. At least three times more arsine than dimethylarsine was produced in soil incubated with dimethylarsinate. Resting cell suspensions of Pseudomonas and Alcaligenes produced arsine as the sole product when incubated anaerobically in the presence of arsenate or arsenite. In all instances, no trimethylarsine was observed, nor could any evidence be shown for the methylation of any arsenical substrate in soil or in culture. It was concluded that reduction to arsine, not methylation to trimethylarsine, was the primary mechanism for gaseous loss of arsenicals from soil.

摘要

将砷酸盐、亚砷酸盐、一甲基胂酸和二甲基胂酸添加到不同土壤中，并在3周内测定气态砷产物的演变。所有三种土壤中的所有底物都产生了胂，而甲基胂和二甲基胂仅分别由一甲基胂酸和二甲基胂酸产生。在用二甲基胂酸培养的土壤中产生的胂至少是二甲基胂的三倍。假单胞菌和产碱菌的静息细胞悬浮液在砷酸盐或亚砷酸盐存在下厌氧培养时，产生胂作为唯一产物。在所有情况下，均未观察到三甲基胂，也没有证据表明土壤或培养物中的任何砷底物发生了甲基化。得出的结论是，砷还原为胂而非甲基化为三甲基胂是土壤中砷气态损失的主要机制。

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