Deep desulfurization of hydrodesulfurization-treated diesel oil by a facultative thermophilic bacterium Mycobacterium sp. X7B

Deep desulfurization of hydrodesulfurization-treated diesel oil by a facultative thermophilic bacterium Mycobacterium sp. X7B

The dibenzothiophene (DBT) desulfurization pathway of a facultative thermophilic bacterium Mycobacterium sp. X7B was investigated. Metabolites were identified by gas chromatography-mass spectrometry, and the results showed that 2-hydroxybiphenyl, the end product of the previously reported sulfur-spe...

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Bibliographic Details
Published in:FEMS microbiology letters Vol. 223; no. 2; pp. 301 - 307
Main Authors: Fu Li Li, Xu, Ping, Cui Qing Ma, Lai Long Luo, Wang, Xiao Shan
Format: Journal Article
Language:English
Published: Oxford Oxford University Press 01-06-2003
Subjects:
Bacteria
Biocatalysts
Desulfurization
Desulfurizing
Dibenzothiophene
Diesel
Emission analysis
Flame ionization
Gas chromatography
Hydrodesulfurization
Ionization
Mass spectrometry
Mass spectroscopy
Metabolites
Microbiology
Mycobacterium
Sulfur
Sulfur content
Thermophilic bacteria
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Summary:The dibenzothiophene (DBT) desulfurization pathway of a facultative thermophilic bacterium Mycobacterium sp. X7B was investigated. Metabolites were identified by gas chromatography-mass spectrometry, and the results showed that 2-hydroxybiphenyl, the end product of the previously reported sulfur-specific pathway (also called 4S pathway), was further converted to 2-methoxybiphenyl. This is the first strain to possess this ability and therefore, an extended 4S pathway was determined. In addition, the DBT-desulfurizing bacterium Mycobacterium sp. X7B was able to grow on DBT derivatives such as 4-methylDBT and 4,6-dimethylDBT. Resting cells could desulfurize diesel oil (total sulfur, 535 ppm) after hydrodesulfurization. GC flame ionization detection and GC atomic emission detection analyses were used to qualitatively evaluate the effect of Mycobacterium sp. X7B treatment on the content of the diesel oil. The total sulfur content of the diesel oil was reduced 86% using resting cell biocatalysts for 24 h at 45°C.
ISSN:0378-1097
1574-6968
DOI:10.1016/S0378-10970300397-5