利用 Triton X-100 和 β-环糊精增强海洋耐盐菌 Achromobacter xylosoxidans 对总多环芳烃（TPAHs）的生物降解——微宇宙研究。

Enhanced biodegradation of total polycyclic aromatic hydrocarbons (TPAHs) by marine halotolerant Achromobacter xylosoxidans using Triton X-100 and β-cyclodextrin--a microcosm approach.

机构信息

Department of Life Sciences, Maharaja Krishnakumarsinhji Bhavnagar University, Bhavnagar, Gujarat, India.

出版信息

Mar Pollut Bull. 2014 Feb 15;79(1-2):123-9. doi: 10.1016/j.marpolbul.2013.12.027. Epub 2013 Dec 29.

DOI:10.1016/j.marpolbul.2013.12.027

Abstract

Ability of Achromobacter xylosoxidans, a chrysene degrading marine halotolerant bacterium to degrade polycyclic aromatic hydrocarbons (PAHs) using a cost effective laboratory microcosm approach, was investigated. Effect of variables as chrysene, glucose as a co-substrate, Triton X-100 as a non-ionic surfactant and β-cyclodextrin as a PAHs solubilizer was examined on degradation of low molecular weight (LMW) and high molecular weight (HMW) PAHs. A total of eleven PAHs detected from polluted saline soil were found to be degraded. Glucose, in combination with Triton X-100 and β-cyclodextrin resulted in 2.8 and 1.4-fold increase in degradation of LMW PAHs and 7.59 and 2.23-fold increase in degradation of HMW PAHs, respectively. Enhanced biodegradation of total PAHs (TPAHs) by amendments with Triton X-100 and β-cyclodextrin using Achromobacter xylosoxidans can prove to be promising approach for in situ bioremediation of marine sites contaminated with PAHs.

摘要

采用经济有效的实验室微宇宙方法，研究了海洋耐盐菌阿氏假单胞菌（Achromobacter xylosoxidans）利用多环芳烃（PAHs）的能力。考察了变量如苯并[a]蒽、葡萄糖作为共底物、Triton X-100 作为非离子表面活性剂和β-环糊精作为 PAHs 增溶剂对低分子量（LMW）和高分子量（HMW）PAHs 降解的影响。从污染的盐土中检测到的 11 种 PAHs 被发现被降解。葡萄糖与 Triton X-100 和β-环糊精结合使用，分别使 LMW PAHs 的降解增加了 2.8 倍和 1.4 倍，使 HMW PAHs 的降解增加了 7.59 倍和 2.23 倍。使用阿氏假单胞菌（Achromobacter xylosoxidans）用 Triton X-100 和β-环糊精进行的添加剂增强了总多环芳烃（TPAHs）的生物降解，这对于原位修复受 PAHs 污染的海洋场地可能是一种很有前途的方法。

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利用 Triton X-100 和 β-环糊精增强海洋耐盐菌 Achromobacter xylosoxidans 对总多环芳烃（TPAHs）的生物降解——微宇宙研究。

Enhanced biodegradation of total polycyclic aromatic hydrocarbons (TPAHs) by marine halotolerant Achromobacter xylosoxidans using Triton X-100 and β-cyclodextrin--a microcosm approach.

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