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印度古吉拉特邦阿莫拉哈迪运河烃污染沉积物中分离的假单胞菌 DMVP2 对菲的降解。

Phenanthrene degradation by Pseudoxanthomonas sp. DMVP2 isolated from hydrocarbon contaminated sediment of Amlakhadi canal, Gujarat, India.

机构信息

BRD School of Biosciences, Sardar Patel Maidan, Vadtal Road, Satellite Campus, Post Box No. 39, Sardar Patel University, Vallabh Vidyanagar 388 120, Gujarat, India. vapatel

出版信息

J Hazard Mater. 2012 Jan 30;201-202:43-51. doi: 10.1016/j.jhazmat.2011.11.002. Epub 2011 Nov 22.

DOI:10.1016/j.jhazmat.2011.11.002
PMID:22169141
Abstract

Amlakhadi canal, flowing through Ankleshwar (Gujarat, India) has been impinged with various xenobiotic compounds, released in industrial discharges, over last many decades. Twenty five bacterial strains capable of phenanthrene degradation were isolated from sediments of Amlakhadi canal. The best strain amongst them was identified as Pseudoxanthomonas sp. DMVP2 based on 16S rRNA gene sequence analysis, and selected for further studies. Experiments were carried out for optimization of abiotic parameters for efficient phenanthrene degradation. Strain DMVP2 was able to degrade 300 ppm of phenanthrene completely in minimal medium containing peptone (0.1%, w/v) as nitrogen source with initial pH 8.0 at 37°C under shaking condition (150 rpm) within 120 h. Strain DMVP2 was able to consume 1,600 mg/l of phenanthrene even at high initial concentration (4,000 mg/l) of phenanthrene. Identification of phthalic acid as major metabolite on GC-MS analysis and detection of protocatechuate dioxygenase activity revealed that phenanthrene was metabolized by phthalic acid-protocatechuate acid pathway. Strain DMVP2 was also able to utilize other xenobiotic compounds as sole carbon source and degrade phenanthrene in presence of other petroleum hydrocarbons. Consequently, Pseudoxanthomonas sp. DMVP2 has potential applications in bioremediation strategies.

摘要

阿姆拉哈迪运河流经印度古吉拉特邦的安克勒什瓦尔,几十年来一直受到各种外来化合物的影响,这些化合物是工业排放物释放的。从阿姆拉哈迪运河的沉积物中分离出了 25 株能够降解菲的细菌菌株。其中最好的菌株根据 16S rRNA 基因序列分析被鉴定为假单胞菌 sp. DMVP2,并被选来进行进一步的研究。进行了实验以优化非生物参数,以实现高效降解菲。在初始 pH 值为 8.0、37°C、摇床条件(150 rpm)下,用蛋白胨(0.1%,w/v)作为氮源的最小培养基中,DMVP2 菌株能够在 120 小时内完全降解 300 ppm 的菲。即使在高初始浓度(4000 mg/L)的菲存在下,DMVP2 菌株也能够消耗 1600 mg/L 的菲。GC-MS 分析鉴定出邻苯二甲酸为主要代谢物,检测到原儿茶酸双加氧酶活性,表明菲通过邻苯二甲酸-原儿茶酸途径进行代谢。DMVP2 菌株还能够利用其他外来化合物作为唯一的碳源,并在存在其他石油烃的情况下降解菲。因此,假单胞菌 sp. DMVP2 具有在生物修复策略中的应用潜力。

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