Abstract
Post-translational maturation of cytochromes c involves the covalent attachment of heme to the Cys-Xxx-Xxx-Cys-His motif of the apo-cytochrome. For this process, the two cysteines of the motif must be in the reduced state. In bacteria, this is achieved by dedicated, membrane-bound thiol-disulfide oxidoreductases with a high reducing power, which are essential components of cytochrome c maturation systems and are also linked to cellular disulfide-bond formation machineries. Here we report high-resolution structures of oxidized and reduced states of a soluble, functional domain of one such oxidoreductase, ResA, from Bacillus subtilis. The structures elucidate the structural basis of the protein's high reducing power and reveal the largest redox-coupled conformational changes observed to date in any thioredoxin-like protein. These redox-coupled changes alter the protein surface and illustrate how the redox state of ResA predetermines to which substrate it binds. Furthermore, a polar cavity, present only in the reduced state, may confer specificity to recognize apo-cytochrome c. The described features of ResA are likely to be general for bacterial cytochrome c maturation systems.
Highlights
Ess, the two cysteines of the motif must be in the reduced In contrast, relatively little is known about how c-type cytostate. This is achieved by dedicated, membrane-bound thiol-disulfide oxidoreductases with a high reducing power, which are essential components of cytochrome c maturation systems and are linked to cellular disulfide-bond formation machineries
CcmA, CcmB, and CcmC form an ABC-type transporter, the function of which is unknown [20, 21], it is known that CcmC, together with CcmE, is involved in heme delivery to the cytochrome c heme lyase complex consisting of CcmFH [22,23,24,25,26]
The described features of ResA are likely to be the cysteinyls of the Cys-Xxx-Xxx-Cys-His motif prior to heme general for bacterial cytochrome c maturation systems. insertion is accomplished by CcmG and CcmH, but it is not clear whether the electrons flow from CcmG by means of
Summary
Ess, the two cysteines of the motif must be in the reduced In contrast, relatively little is known about how c-type cytostate. The observed conformational differences in the two structures suggest a mechanism whereby the redox state of ResA might predetermine which substrate, apo-cytochrome c or CcdA, it binds.
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