1.14.14.22: dibenzothiophene sulfone monooxygenase
This is an abbreviated version!
For detailed information about dibenzothiophene sulfone monooxygenase, go to the full flat file.
Word Map on EC 1.14.14.22
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1.14.14.22
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desulfurization
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erythropolis
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rhodococcus
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2-hydroxybiphenyl
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sulfur
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carbon-sulfur
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flavin
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mesophilic
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paenibacillus
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biodesulfurization
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desulfinase
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petroleum
- 1.14.14.22
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desulfurization
- erythropolis
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rhodococcus
- 2-hydroxybiphenyl
- sulfur
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carbon-sulfur
- flavin
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mesophilic
- paenibacillus
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biodesulfurization
- desulfinase
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petroleum
Reaction
Synonyms
BdsA, DBT sulfone monooxygenase, DBTO2-MO, DBTO2-monooxygenase, dibenzothiophene sulfone monooxygenase, dszA, TdsA
ECTree
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Cofactor
Cofactor on EC 1.14.14.22 - dibenzothiophene sulfone monooxygenase
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NADH
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the enzyme does not directly react with NADH, but uses the activity of the FMN:NADH oxidoreductase, DszD
NADH flavin reductase, essentially required
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additional information
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NADH flavin reductase, essentially required
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additional information
the flavin reductase, EC 1.5.1.36, from Rhodococcus erythropolis strain D-1 grown in a medium containing dibenzothiophene as the sole source of sulfur is essential for the reactions of the two monooxygenases DszC and DszA in vivo. The purified flavin reductase contains no chromogenic cofactors and has a molecular mass of 86 kDa and four identical 22-kDa subunits. The enzyme catalyzes NADH-dependent reduction of flavin mononucleotide, FMN. The flavin reductase does not catalyze reduction of any nitroaromatic compound
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additional information
the purified TdsA absolutely requires an oxidoreductase for its activity, oxidoreductase TdsD is completely FMN-dependent, and FAD does not act as a cofactor. TsdD is active with NADH and NADPH to the same extent. TdsA exhibits no activity in the absence of TdsD
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additional information
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the purified TdsA absolutely requires an oxidoreductase for its activity, oxidoreductase TdsD is completely FMN-dependent, and FAD does not act as a cofactor. TsdD is active with NADH and NADPH to the same extent. TdsA exhibits no activity in the absence of TdsD
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