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Desulfurization of Dibenzothiophene and Diesel Oil by Metabolically Engineered Escherichia coli

Park Si-Jae , In-Su Lee 1, Yong-Keun Chang 1 and Sang-Yup Lee 2

Metabolic and Biomolecular Engineering National Research Laboratory Korea Advanced Institute of Science andTechnology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea, 1Department of Chemical and Biomolecular Engineering and BioProcess Engineering Research Center Korea Advanced Institute of Science and Technology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea, 2Bioinformatics Research Center Korea Advanced Institute of Science and Technology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea

J. Microbiol. Biotechnol. 2003; 13(4): 578-583

Published August 28, 2003

Copyright © The Korean Society for Microbiology and Biotechnology.

Abstract

The desulfurization genes (dszABC) were cloned from Gordonia nitida. Nucleotide sequences similarity between the dszABC genes of G. nitida and those of Rhodococcus rhodochrous IGTS8 was 89%. The similarities of deduced amino acids between the two were 86% for DszA, 86% for DszB, and 90% for DszC. The G. nitida dszABC genes were expressed in several different Escherichia coli strains under an inducible trc promoter. Cultivation of these metabolically engineered E. coli strains in the presence of 0.2 mM dibenzothiophene (DBT) allowed the conversion of DBT to 2-hydroxybiphenyl (2-HBP), which is the final metabolite of the sulfur-specific desulfurization pathway. The maximum conversion of DBT to 2-HBP was 16% in 60 h. Recombinant E. coli was applied for the deep desulfurization of diesel oil supplemented into the medium at 5% (v/v). Sulfur content in diesel oil was decreased from 250 mg sulfur/1 to 212.5 mg sulfur/1, resulting in the removal of 15% of sulfur in diesel oil in 60 h.

Keywords

Desulfurization,dibenzothiophene,dieseloil,Gordonianitida,metabolicengineering,Escherichiacoli

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Article

J. Microbiol. Biotechnol. 2003; 13(4): 578-583

Published online August 28, 2003

Copyright © The Korean Society for Microbiology and Biotechnology.

Desulfurization of Dibenzothiophene and Diesel Oil by Metabolically Engineered Escherichia coli

Park Si-Jae , In-Su Lee 1, Yong-Keun Chang 1 and Sang-Yup Lee 2

Metabolic and Biomolecular Engineering National Research Laboratory Korea Advanced Institute of Science andTechnology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea, 1Department of Chemical and Biomolecular Engineering and BioProcess Engineering Research Center Korea Advanced Institute of Science and Technology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea, 2Bioinformatics Research Center Korea Advanced Institute of Science and Technology 373-1 Guseong-dong Yuseong-gu Daejeon 305-701 Korea

Abstract

The desulfurization genes (dszABC) were cloned from Gordonia nitida. Nucleotide sequences similarity between the dszABC genes of G. nitida and those of Rhodococcus rhodochrous IGTS8 was 89%. The similarities of deduced amino acids between the two were 86% for DszA, 86% for DszB, and 90% for DszC. The G. nitida dszABC genes were expressed in several different Escherichia coli strains under an inducible trc promoter. Cultivation of these metabolically engineered E. coli strains in the presence of 0.2 mM dibenzothiophene (DBT) allowed the conversion of DBT to 2-hydroxybiphenyl (2-HBP), which is the final metabolite of the sulfur-specific desulfurization pathway. The maximum conversion of DBT to 2-HBP was 16% in 60 h. Recombinant E. coli was applied for the deep desulfurization of diesel oil supplemented into the medium at 5% (v/v). Sulfur content in diesel oil was decreased from 250 mg sulfur/1 to 212.5 mg sulfur/1, resulting in the removal of 15% of sulfur in diesel oil in 60 h.

Keywords: Desulfurization,dibenzothiophene,dieseloil,Gordonianitida,metabolicengineering,Escherichiacoli