Literature DB >> 12853466

Mechanism of the electron transfer catalyst DsbB from Escherichia coli.

Ulla Grauschopf1, Andrea Fritz, Rudi Glockshuber.   

Abstract

The membrane protein DsbB from Escherichia coli is essential for disulfide bond formation and catalyses the oxidation of the periplasmic dithiol oxidase DsbA by ubiquinone. DsbB contains two catalytic disulfide bonds, Cys41-Cys44 and Cys104-Cys130. We show that DsbB directly oxidizes one molar equivalent of DsbA in the absence of ubiquinone via disulfide exchange with the 104-130 disulfide bond, with a rate constant of 2.7 x 10 M(-1) x s(-1). This reaction occurs although the 104-130 disulfide is less oxidizing than the catalytic disulfide bond of DsbA (E(o)' = -186 and -122 mV, respectively). This is because the 41-44 disulfide, which is only accessible to ubiquinone but not to DsbA, is the most oxidizing disulfide bond in a protein described so far, with a redox potential of -69 mV. Rapid intramolecular disulfide exchange in partially reduced DsbB converts the enzyme into a state in which Cys41 and Cys44 are reduced and thus accessible for reoxidation by ubiquinone. This demonstrates that the high catalytic efficiency of DsbB results from the extreme intrinsic oxidative force of the enzyme.

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Year:  2003        PMID: 12853466      PMCID: PMC165626          DOI: 10.1093/emboj/cdg356

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  37 in total

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  15 in total

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2.  Structural basis and kinetics of inter- and intramolecular disulfide exchange in the redox catalyst DsbD.

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3.  The prokaryotic enzyme DsbB may share key structural features with eukaryotic disulfide bond forming oxidoreductases.

Authors:  Carolyn S Sevier; Hiroshi Kadokura; Vincent C Tam; Jon Beckwith; Deborah Fass; Chris A Kaiser
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Review 7.  Kinetics and mechanisms of thiol-disulfide exchange covering direct substitution and thiol oxidation-mediated pathways.

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8.  De novo design and evolution of artificial disulfide isomerase enzymes analogous to the bacterial DsbC.

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9.  Redox-active cysteines of a membrane electron transporter DsbD show dual compartment accessibility.

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Journal:  EMBO J       Date:  2007-07-19       Impact factor: 11.598

10.  Real-time monitoring of intermediates reveals the reaction pathway in the thiol-disulfide exchange between disulfide bond formation protein A (DsbA) and B (DsbB) on a membrane-immobilized quartz crystal microbalance (QCM) system.

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Journal:  J Biol Chem       Date:  2013-10-21       Impact factor: 5.157
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