高效耐热石油降解菌戈登氏菌属1D的特性及基因组分析

Characterization and genomic analysis of highly efficient thermotolerant oil-degrading bacterium Gordonia sp. 1D.

作者信息

Delegan Yanina A, Valentovich Leonid N, Shafieva Samira M, Ganbarov Khudaverdi G, Filonov Andrey E, Vainstein Mikhail B

机构信息

FSBIS G.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences, 5 Prospekt Nauki, Pushchino, 142290, Russia.

Institute of Microbiology, National Academy of Sciences of Belarus, 2 Kuprevich str, 220141, Minsk, Belarus.

出版信息

Folia Microbiol (Praha). 2019 Jan;64(1):41-48. doi: 10.1007/s12223-018-0623-2. Epub 2018 Jun 27.

DOI:10.1007/s12223-018-0623-2

PMID:29951843

Abstract

A thermotolerant bacterial strain 1D isolated from refinery oil-contaminated soil was identified as Gordonia sp. based on the analysis of 16S rRNA and gyrB gene sequences. The strain was found to utilize crude oil, diesel fuel, and a wide spectrum of alkanes at temperatures up to 50 °C. Strain 1D is the first representative of Gordonia amicalis capable of utilizing alkanes of chain length up to С at a temperature of 45-50 °C. The degree of crude oil degradation by Gordonia sp. 1D at 45 °C was 38% in liquid medium and 40% in soil (with regard to abiotic loss). There are no examples of so effective hydrocarbon-oxidizing thermotolerant Gordonia in the world literature. The 1D genome analysis revealed the presence of two alkane hydroxylase gene clusters, genes of dibenzothiophene cleavage, and the cleavage of salicylate and gentisate - naphthalene metabolism intermediates. The highly efficient thermotolerant strain Gordonia sp. 1D can be used in remediation of oil-contaminated soils in hot climates.

摘要

从炼油厂油污土壤中分离出的一株耐热细菌菌株1D，基于16S rRNA和gyrB基因序列分析被鉴定为戈登氏菌属。该菌株被发现能够在高达50°C的温度下利用原油、柴油燃料和多种烷烃。菌株1D是戈登友好菌中首个能够在45-50°C温度下利用链长高达C的烷烃的代表菌株。戈登氏菌属1D在45°C时对原油的降解程度在液体培养基中为38%，在土壤中为40%（相对于非生物损失）。世界文献中没有如此高效的烃氧化耐热戈登氏菌的实例。1D基因组分析揭示了存在两个烷烃羟化酶基因簇、二苯并噻吩裂解基因以及水杨酸和龙胆酸盐（萘代谢中间体）的裂解基因。高效耐热菌株戈登氏菌属1D可用于炎热气候下油污土壤的修复。

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高效耐热石油降解菌戈登氏菌属1D的特性及基因组分析

Characterization and genomic analysis of highly efficient thermotolerant oil-degrading bacterium Gordonia sp. 1D.

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