Yoshitaka Ishii scite author profile

Heterocyclic organosulfur compounds such as dibenzothiophene (DBT) in petroleum cannot be completely removed by hydrodesulfurization using chemical catalysts. A moderately thermophilic bacterium Bacillus subtilis WU-S2B, which could desulfurize DBT at 50 degrees C through the selective cleavage of carbon-sulfur (CS) bonds, was newly isolated. At 50 degrees C, growing cells of WU-S2B could degrade 0.54 mM DBT within 120 h to produce 2-hydroxybiphenyl, and the resting cells could also degrade 0.81 mM DBT within 12 h. The DBT-desulfurizing ability of WU-S2B is high over a wide temperature range from 30 to 50 degrees C, and highest at 50 degrees C for both the growing and resting cells, and this is an extremely advantageous property for the practical biodesulfurization. In addition, WU-S2B could also desulfurize DBT derivatives such as 2,8-dimethylDBT, 4,6-dimethylDBT and 3,4-benzoDBT. Therefore, B. subtilis WU-S2B is considered to have more beneficial properties than other desulfurizing bacteria such as Rhodococcus strains previously reported, particularly from the viewpoint of its capacity for thermophilic desulfurization through the CS bond cleavage.

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Thermophilic carbon-sulfur-bond-targeted biodesulfurization

Konishi¹,

Ishii²,

Onaka³

et al. 1997

Appl Environ Microbiol

182

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Petroleum contains many heterocyclic organosulfur compounds refractory to conventional hydrodesulfurization carried out with chemical catalysts. Among these, dibenzothiophene (DBT) and DBTs bearing alkyl substitutions are representative compounds. Two bacterial strains, which have been identified as Paenibacillus strains and which are capable of efficiently cleaving carbon-sulfur (COS) bonds in DBT at high temperatures, have been isolated for the first time. Upon attacking DBT and its various methylated derivatives at temperatures up to 60°C, both growing and resting cells of these bacteria can release sulfur atoms as sulfate ions and leave the monohydroxylated hydrocarbon moieties intact. Moreover, when either of these paenibacilli was incubated at 50°C with light gas oil previously processed through hydrodesulfurization, the total sulfur content in the oil phase clearly decreased.

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Enzymatic Kolbe–Schmitt reaction to form salicylic acid from phenol: Enzymatic characterization and gene identification of a novel enzyme, Trichosporon moniliiforme salicylic acid decarboxylase

Kirimura

Gunji

Wakayama

et al. 2010

Biochemical and Biophysical Research Communications

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Operon Structure and Functional Analysis of the Genes Encoding Thermophilic Desulfurizing Enzymes of Paenibacillus sp. A11-2

Ishii

Konishi

Okada

et al. 2000

Biochemical and Biophysical Research Communications

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Yoshitaka Ishii

Biodesulfurization of Dibenzothiophene and Its Derivatives through the Selective Cleavage of Carbon-Sulfur Bonds by a Moderately Thermophilic Bacterium Bacillus subtilis WU-S2B.

Thermophilic carbon-sulfur-bond-targeted biodesulfurization

Enzymatic Kolbe–Schmitt reaction to form salicylic acid from phenol: Enzymatic characterization and gene identification of a novel enzyme, Trichosporon moniliiforme salicylic acid decarboxylase

Operon Structure and Functional Analysis of the Genes Encoding Thermophilic Desulfurizing Enzymes of Paenibacillus sp. A11-2

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