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Mutations of the membrane-bound disulfide reductase DsbD that block electron transfer steps from cytoplasm to periplasm in Escherichia coli.


ABSTRACT: The cytoplasmic membrane protein DsbD keeps the periplasmic disulfide isomerase DsbC reduced, using the cytoplasmic reducing power of thioredoxin. DsbD contains three domains, each containing two reactive cysteines. One membrane-embedded domain, DsbDbeta, transfers electrons from thioredoxin to the carboxy-terminal thioredoxin-like periplasmic domain DsbDgamma. To evaluate the role of conserved amino acid residues in DsbDbeta in the electron transfer process, we substituted alanines for each of 19 conserved amino acid residues and assessed the in vivo redox states of DsbC and DsbD. The mutant DsbDs of 11 mutants which caused defects in DsbC reduction showed relatively oxidized redox states. To analyze the redox state of each DsbD domain, we constructed a thrombin-cleavable DsbD (DsbDTH) from which we could generate all three domains as separate polypeptide chains by thrombin treatment in vitro. We divided the mutants with strong defects into two classes. The first mutant class consists of mutant DsbDbeta proteins that cannot receive electrons from cytoplasmic thioredoxin, resulting in a DsbD that has all six of its cysteines disulfide bonded. The second mutant class represents proteins in which the transfer of electrons from DsbDbeta to DsbDgamma appears to be blocked. This class includes the mutant with the most clear-cut defect, P284A. We relate the properties of the mutants to the positions of the amino acids in the structure of DsbD and discuss mechanisms that would interfere with the electron transfer process.

SUBMITTER: Cho SH 

PROVIDER: S-EPMC1539965 | biostudies-literature | 2006 Jul

REPOSITORIES: biostudies-literature

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Mutations of the membrane-bound disulfide reductase DsbD that block electron transfer steps from cytoplasm to periplasm in Escherichia coli.

Cho Seung-Hyun SH   Beckwith Jon J  

Journal of bacteriology 20060701 14


The cytoplasmic membrane protein DsbD keeps the periplasmic disulfide isomerase DsbC reduced, using the cytoplasmic reducing power of thioredoxin. DsbD contains three domains, each containing two reactive cysteines. One membrane-embedded domain, DsbDbeta, transfers electrons from thioredoxin to the carboxy-terminal thioredoxin-like periplasmic domain DsbDgamma. To evaluate the role of conserved amino acid residues in DsbDbeta in the electron transfer process, we substituted alanines for each of  ...[more]

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