化学致癌物的细菌氧化作用:由苯并[a]蒽形成多环芳烃酸。
Bacterial oxidation of chemical carcinogens: formation of polycyclic aromatic acids from benz[a]anthracene.
作者信息
Mahaffey W R, Gibson D T, Cerniglia C E
机构信息
Center for Applied Microbiology, University of Texas, Austin 78712.
出版信息
Appl Environ Microbiol. 1988 Oct;54(10):2415-23. doi: 10.1128/aem.54.10.2415-2423.1988.
Abstract
A Beijerinckia strain designated strain B1 was shown to oxidize benz[a]anthracene after induction with biphenyl, m-xylene, and salicylate. Biotransformation experiments showed that after 14 h a maximum of 56% of the benz[a]anthracene was converted to an isomeric mixture of three o-hydroxypolyaromatic acids. Nuclear magnetic resonance and mass spectral analyses led to the identification of the major metabolite as 1-hydroxy-2-anthranoic acid. Two minor metabolites were also isolated and identified as 2-hydroxy-3-phenanthroic acid and 3-hydroxy-2-phenanthroic acid. Mineralization experiments with [12-14C]benz[a]anthracene led to the formation of 14CO2. These results show that the hydroxy acids can be further oxidized and that at least two rings of the benz[a]anthracene molecule can be degraded.
摘要
一株名为B1的拜叶林克氏菌在经联苯、间二甲苯和水杨酸盐诱导后,显示出能够氧化苯并[a]蒽。生物转化实验表明,14小时后,最多56%的苯并[a]蒽被转化为三种邻羟基多环芳烃酸的异构体混合物。核磁共振和质谱分析确定主要代谢产物为1-羟基-2-蒽甲酸。还分离出两种次要代谢产物,鉴定为2-羟基-3-菲甲酸和3-羟基-2-菲甲酸。用[12-14C]苯并[a]蒽进行的矿化实验导致了14CO2的形成。这些结果表明,羟基酸可以进一步氧化,并且苯并[a]蒽分子的至少两个环可以被降解。
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