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In vitro reconstitution reveals major differences between human and bacterial cytochrome c synthases.


ABSTRACT: Cytochromes c are ubiquitous heme proteins in mitochondria and bacteria, all possessing a CXXCH (CysXxxXxxCysHis) motif with covalently attached heme. We describe the first in vitro reconstitution of cytochrome c biogenesis using purified mitochondrial (HCCS) and bacterial (CcsBA) cytochrome c synthases. We employ apocytochrome c and peptide analogs containing CXXCH as substrates, examining recognition determinants, thioether attachment, and subsequent release and folding of cytochrome c. Peptide analogs reveal very different recognition requirements between HCCS and CcsBA. For HCCS, a minimal 16-mer peptide is required, comprised of CXXCH and adjacent alpha helix 1, yet neither thiol is critical for recognition. For bacterial CcsBA, both thiols and histidine are required, but not alpha helix 1. Heme attached peptide analogs are not released from the HCCS active site; thus, folding is important in the release mechanism. Peptide analogs behave as inhibitors of cytochrome c biogenesis, paving the way for targeted control.

SUBMITTER: Sutherland MC 

PROVIDER: S-EPMC8112865 | biostudies-literature | 2021 May

REPOSITORIES: biostudies-literature

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In vitro reconstitution reveals major differences between human and bacterial cytochrome c synthases.

Sutherland Molly C MC   Mendez Deanna L DL   Babbitt Shalon E SE   Tillman Dustin E DE   Melnikov Olga O   Tran Nathan L NL   Prizant Noah T NT   Collier Andrea L AL   Kranz Robert G RG  

eLife 20210511


Cytochromes c are ubiquitous heme proteins in mitochondria and bacteria, all possessing a CXXCH (CysXxxXxxCysHis) motif with covalently attached heme. We describe the first in vitro reconstitution of cytochrome c biogenesis using purified mitochondrial (HCCS) and bacterial (CcsBA) cytochrome c synthases. We employ apocytochrome c and peptide analogs containing CXXCH as substrates, examining recognition determinants, thioether attachment, and subsequent release and folding of cytochrome c. Peptid  ...[more]

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