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The oxidation and reduction of protein disulfide bonds in vitro also generally occurs via thiol–disulfide exchange reactions. Typically, the thiolate of a redox reagent such as glutathione, dithiothreitol attacks the disulfide bond on a protein forming a mixed disulfide bond between the protein and the reagent. This mixed disulfide bond when ...
DsbC (Disulfide bond C) is a prokaryotic disulfide bond isomerase. The formation of native disulfide bonds play an important role in the proper folding of proteins and stabilize tertiary structures of the protein. [1] [2] [3] DsbC is one of 6 proteins in the Dsb family in prokaryotes. The other proteins are DsbA, DsbB, DsbD, DsbE and DsbG. [4]
Oxidative protein folding is a process that is responsible for the formation of disulfide bonds between cysteine residues in proteins. The driving force behind this process is a redox reaction , in which electrons pass between several proteins and finally to a terminal electron acceptor .
Protein disulfide-isomerase has two catalytic thioredoxin-like domains (active sites), each containing the canonical CGHC motif, and two non catalytic domains. [4] [5] [6] This structure is similar to the structure of enzymes responsible for oxidative folding in the intermembrane space of the mitochondria; an example of this is mitochondrial IMS import and assembly (Mia40), which has 2 ...
This reaction generally proceeds through a mixed-disulfide intermediate, in which a cysteine from the enzyme forms a bond to a cysteine on the substrate. DsbA is responsible for introducing disulfide bonds into nascent proteins. In equivalent terms, it catalyzes the oxidation of a pair of cysteine residues on the substrate protein.
The formation of disulfide bonds from cysteine residues may also be referred to as a post-translational modification. [3] For instance, the peptide hormone insulin is cut twice after disulfide bonds are formed, and a propeptide is removed from the middle of the chain; the resulting protein consists of two polypeptide chains connected by ...
All of these last three proteins (DsbC, DsbE (CcmG) and DsbG) can donate electrons to oxidized disulfide-containing proteins in the periplasm of a Gram-negative bacterium or presumably in the external milieu of a Gram-positive bacterium or an archaeon. Thus, the pathway is: NADPH → TrxB → TrxA → DsbD → (DsbC, DsbE, or DsbG) → proteins.
It is also used in molecular biology as an oxidising agent, for example to oxidise free thiols to form disulfide bonds in proteins. References This ...