从文莱达鲁萨兰国受石油污染场地中鉴定可培养的石油降解细菌和真菌。

Identification of culturable petroleum-degrading bacteria and fungi from petroleum-contaminated sites in Brunei Darussalam.

作者信息

Taha Hussein, Shivanand Pooja, Khoo De Hwa, Mohammad Yumni Haziqah, Matussin Nur Bazilah Afifah, Metali Faizah

机构信息

Environmental and Life Sciences Programme, Faculty of Science, Universiti Brunei Darussalam, Bandar Seri Begawan, Brunei Darussalam.

出版信息

J Environ Sci Health A Tox Hazard Subst Environ Eng. 2020;55(13):1542-1547. doi: 10.1080/10934529.2020.1826238. Epub 2020 Sep 30.

DOI:10.1080/10934529.2020.1826238

PMID:32997595

Abstract

Microbes that can be cultured and degrade petroleum are of particular interest for biotechnology such as bioremediation. This study aims to isolate and identify culturable petroleum-degrading bacteria and fungi from Brunei Darussalam, which has not previously been explored. A total of eight bacterial and nine fungal isolates that could degrade petroleum were obtained from petroleum-contaminated water or soil samples. DNA barcoding using 16S rRNA gene sequence identified five different bacterial genera which were , , , and . DNA barcoding using rRNA-ITS gene sequence identified nine different fungal taxa which were , , , , , , , and . Biolog provided additional support to the identification of some isolates. This study is the first to report these unique microbes from Brunei Darussalam, which are of ecological and biotechnological value.

摘要

可培养且能降解石油的微生物在生物修复等生物技术领域具有特殊意义。本研究旨在从文莱达鲁萨兰国分离并鉴定可培养的石油降解细菌和真菌，此前该国尚未开展过此类探索。从石油污染的水或土壤样本中总共获得了8株可降解石油的细菌分离株和9株真菌分离株。利用16S rRNA基因序列进行DNA条形码分析鉴定出5个不同的细菌属，分别是、、、和。利用rRNA-ITS基因序列进行DNA条形码分析鉴定出9个不同的真菌分类单元，分别是、、、、、、、和。Biolog鉴定法为部分分离株的鉴定提供了额外支持。本研究首次报道了来自文莱达鲁萨兰国的这些具有生态和生物技术价值的独特微生物。

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从文莱达鲁萨兰国受石油污染场地中鉴定可培养的石油降解细菌和真菌。

Identification of culturable petroleum-degrading bacteria and fungi from petroleum-contaminated sites in Brunei Darussalam.

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