河口沉积物源真菌简单青霉对壬基酚的生物降解研究。

The nonylphenol biodegradation study by estuary sediment-derived fungus Penicillium simplicissimum.

作者信息

Zhang Yan, Liu Ying, Dong Han, Li Xianguo, Zhang Dahai

机构信息

Key Laboratory of Marine Chemistry Theory and Technology, Ministry of Education, Qingdao, 266100, Shandong, People's Republic of China.

College of Chemistry and Chemical Engineering, Ocean University of China, Qingdao, 266100, Shandong, People's Republic of China.

出版信息

Environ Sci Pollut Res Int. 2016 Aug;23(15):15122-32. doi: 10.1007/s11356-016-6656-7. Epub 2016 Apr 20.

DOI:10.1007/s11356-016-6656-7

PMID:27094271

Abstract

Nonylphenols (NPs) are persistent organic pollutants (POPs) with estrogenic properties that can perform endocrine-disrupting activities. By using high-concentration NP as environmental selection pressure, one NP biodegradation strain named NPF-4 was isolated and purified from estuary sediment of the Moshui River. It was identified as Penicillium simplicissimum (PS1) by appearance and 18S rDNA analysis. In different culture situations, the strain mass growth and biodegradation ability were evaluated. Within 4-n-nonylphenol (4-n-NP) initial concentration of 20 mg L(-1), it could be degraded 53.76, 90.08, and 100.00 % at 3, 7, and 14 days, respectively. In feeding experiments, it showed that NPF-4 could use 4-n-NP as a sole carbon source. Based on seven products/intermediates detected with GC and LC-MS, a novel biopathway for 4-n-NP biodegradation was proposed, in which sequential hydroxylation, oxidation, and decarboxylation at terminal β-C atom may occur for 4-n-NP detoxification, even complete mineralization in the end.

摘要

壬基酚（NPs）是具有雌激素特性的持久性有机污染物（POPs），能够产生内分泌干扰活性。以高浓度壬基酚作为环境选择压力，从墨水河河口沉积物中分离并纯化出一株名为NPF - 4的壬基酚生物降解菌株。通过形态学和18S rDNA分析，将其鉴定为简单青霉（PS1）。在不同培养条件下，对该菌株的群体生长和生物降解能力进行了评估。在4 - 壬基酚（4 - n - NP）初始浓度为20 mg L⁻¹时，在3、7和14天分别可降解53.76%、90.08%和100.00%。在投加实验中，结果表明NPF - 4能够利用4 - n - NP作为唯一碳源。基于气相色谱（GC）和液相色谱 - 质谱联用（LC - MS）检测到的7种产物/中间产物，提出了一种新的4 - n - NP生物降解途径，即4 - n - NP通过在末端β - C原子处依次进行羟基化、氧化和脱羧反应实现解毒，最终甚至可完全矿化。

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河口沉积物源真菌简单青霉对壬基酚的生物降解研究。

The nonylphenol biodegradation study by estuary sediment-derived fungus Penicillium simplicissimum.

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