土壤及富集培养物中苯乙烯和[14C]苯乙烯的微生物转化

Microbial transformations of styrene and [14C] styrene in soil and enrichment cultures.

作者信息

Sielicki M, Focht D D, Martin J P

出版信息

Appl Environ Microbiol. 1978 Jan;35(1):124-8. doi: 10.1128/aem.35.1.124-128.1978.

DOI:10.1128/aem.35.1.124-128.1978

PMID:74979

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC242790/

Abstract

Two different mechanisms were responsible for the disappearance of styrene in enrichment cultures: (i) a mixed population of microorganisms, capable of utilizing styrene as a sole carbon source, oxidized this substrate to phenylethanol and phenylacetic acid; (ii) the culture also mediated polymerization of the monomer to low-molecular-weight styrene oligomers. This chemical reaction probably occurred as the result of microbial degradation of butylcatechol, an antioxidant polymerization inhibitor present in commercial styrene. The resultant polymer material was subsequently metabolized. In soil incubation studies, 14CO2 evolution from applied [8-14C] styrene was used to estimate microbial degradation. Approximately 90 percent of the labeled carbon was evolved from a 0.2 percent addition, and about 75 percent was lost from the 0.5 percent application over a 16-week period.

摘要

在富集培养中，苯乙烯消失的原因有两种不同机制：（i）一群能够将苯乙烯作为唯一碳源利用的混合微生物，将该底物氧化为苯乙醇和苯乙酸；（ii）培养物还介导单体聚合成低分子量苯乙烯低聚物。这种化学反应可能是由于商业苯乙烯中存在的抗氧化聚合抑制剂丁基邻苯二酚被微生物降解所致。随后，生成的聚合物材料被代谢。在土壤培养研究中，利用施加的[8-14C]苯乙烯释放的14CO2来估计微生物降解情况。在16周的时间里，约90%的标记碳从0.2%的添加量中释放出来，约75%从0.5%的施用量中损失。

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