Peking University, Beijing, China.
Biodegradation. 2011 Feb;22(1):71-81. doi: 10.1007/s10532-010-9377-5. Epub 2010 Jun 13.
The remediation of benzene contaminated groundwater often involves biodegradation and although the mechanisms of aerobic benzene biodegradation in laboratory cultures have been well studied, less is known about the microorganisms responsible for benzene degradation in mixed culture samples or at contaminated sites. To address this knowledge gap, DNA based stable isotope probing (SIP) was utilized to identify active benzene degraders in microcosms constructed with soil from three sources (a contaminated site and two agricultural sites). For this, replicate microcosms were amended with either labeled (¹³C) or unlabeled benzene and the extracted DNA samples were ultracentrifuged, fractioned and subject to terminal restriction fragment length polymorphism (TRFLP). The dominant benzene degraders (responsible for ¹³C uptake) were determined by comparing relative abundance of TRFLP phylotypes in heavy fractions of labeled benzene (¹³C) amended samples to the controls (from unlabeled benzene amended samples). Two phylotypes (a Polaromonas sp. and an Acidobacterium) were the major benzene degraders in the microcosms constructed from the contaminated site soil, whereas one phylotype incorporated the majority of the benzene-derived ¹³C in each of the agricultural soils ("candidate" phylum TM7 and an unclassified Sphingomonadaceae).
地下水苯污染的修复通常涉及生物降解,尽管实验室培养物中好氧苯生物降解的机制已得到充分研究,但对于混合培养物样品或污染现场中负责苯降解的微生物知之甚少。为了弥补这一知识空白,采用基于 DNA 的稳定同位素探测 (SIP) 来鉴定来自三个来源(污染现场和两个农业现场)的土壤微宇宙中的活性苯降解菌。为此,用标记的(¹³C)或未标记的苯对重复的微宇宙进行了处理,并提取了 DNA 样品进行超速离心、分级和末端限制性片段长度多态性(TRFLP)分析。通过比较标记的苯(¹³C)处理样品的重馏分中 TRFLP 类群的相对丰度与未标记的苯处理样品的对照(来自未标记的苯处理样品),确定主要的苯降解菌(负责¹³C 摄取)。从污染场地土壤构建的微宇宙中,两种类群(极地杆菌和 Acidobacterium)是主要的苯降解菌,而在每种农业土壤中,一种类群都包含了大部分的苯衍生的¹³C(“候选”门 TM7 和未分类的鞘氨醇单胞菌科)。
