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Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases

Bacterial cytochrome c maturation occurs at the outside of the cytoplasmic membrane, requires transport of haem b across the membrane, and depends on membrane-bound cytochrome c haem lyase (CCHL), an enzyme that catalyses covalent attachment of haem b to apocytochrome c. Epsilonproteobacteria such a...

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Autores principales: Kern, Melanie, Scheithauer, Juliane, Kranz, Robert G., Simon, Jörg
Formato: Texto
Lenguaje:English
Publicado: Microbiology Society 2010
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3068706/
https://www.ncbi.nlm.nih.gov/pubmed/20705660
http://dx.doi.org/10.1099/mic.0.042838-0
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author Kern, Melanie
Scheithauer, Juliane
Kranz, Robert G.
Simon, Jörg
author_facet Kern, Melanie
Scheithauer, Juliane
Kranz, Robert G.
Simon, Jörg
author_sort Kern, Melanie
collection PubMed
description Bacterial cytochrome c maturation occurs at the outside of the cytoplasmic membrane, requires transport of haem b across the membrane, and depends on membrane-bound cytochrome c haem lyase (CCHL), an enzyme that catalyses covalent attachment of haem b to apocytochrome c. Epsilonproteobacteria such as Wolinella succinogenes use the cytochrome c biogenesis system II and contain unusually large CCHL proteins of about 900 amino acid residues that appear to be fusions of the CcsB and CcsA proteins found in other bacteria. CcsBA-type CCHLs have been proposed to act as haem transporters that contain two haem b coordination sites located at different sides of the membrane and formed by histidine pairs. W. succinogenes cells contain three CcsBA-type CCHL isoenzymes (NrfI, CcsA1 and CcsA2) that are known to differ in their specificity for apocytochromes and apparently recognize different haem c binding motifs such as CX(2)CH (by CcsA2), CX(2)CK (by NrfI) and CX(15)CH (by CcsA1). In this study, conserved histidine residues were individually replaced by alanine in each of the W. succinogenes CCHLs. Characterization of NrfI and CcsA1 variants in W. succinogenes demonstrated that a set of four histidines is essential for maturing the dedicated multihaem cytochromes c NrfA and MccA, respectively. The function of W. succinogenes CcsA2 variants produced in Escherichia coli was also found to depend on each of these four conserved histidine residues. The presence of imidazole in the growth medium of both W. succinogenes and E. coli rescued the cytochrome c biogenesis activity of most histidine variants, albeit to different extents, thereby implying the presence of two functionally distinct histidine pairs in each CCHL. The data support a model in which two conserved haem b binding sites are involved in haem transport catalysed by CcsBA-type CCHLs.
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spelling pubmed-30687062011-12-01 Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases Kern, Melanie Scheithauer, Juliane Kranz, Robert G. Simon, Jörg Microbiology (Reading) Physiology and Biochemistry Bacterial cytochrome c maturation occurs at the outside of the cytoplasmic membrane, requires transport of haem b across the membrane, and depends on membrane-bound cytochrome c haem lyase (CCHL), an enzyme that catalyses covalent attachment of haem b to apocytochrome c. Epsilonproteobacteria such as Wolinella succinogenes use the cytochrome c biogenesis system II and contain unusually large CCHL proteins of about 900 amino acid residues that appear to be fusions of the CcsB and CcsA proteins found in other bacteria. CcsBA-type CCHLs have been proposed to act as haem transporters that contain two haem b coordination sites located at different sides of the membrane and formed by histidine pairs. W. succinogenes cells contain three CcsBA-type CCHL isoenzymes (NrfI, CcsA1 and CcsA2) that are known to differ in their specificity for apocytochromes and apparently recognize different haem c binding motifs such as CX(2)CH (by CcsA2), CX(2)CK (by NrfI) and CX(15)CH (by CcsA1). In this study, conserved histidine residues were individually replaced by alanine in each of the W. succinogenes CCHLs. Characterization of NrfI and CcsA1 variants in W. succinogenes demonstrated that a set of four histidines is essential for maturing the dedicated multihaem cytochromes c NrfA and MccA, respectively. The function of W. succinogenes CcsA2 variants produced in Escherichia coli was also found to depend on each of these four conserved histidine residues. The presence of imidazole in the growth medium of both W. succinogenes and E. coli rescued the cytochrome c biogenesis activity of most histidine variants, albeit to different extents, thereby implying the presence of two functionally distinct histidine pairs in each CCHL. The data support a model in which two conserved haem b binding sites are involved in haem transport catalysed by CcsBA-type CCHLs. Microbiology Society 2010-12 /pmc/articles/PMC3068706/ /pubmed/20705660 http://dx.doi.org/10.1099/mic.0.042838-0 Text en Copyright © 2010, SGM
spellingShingle Physiology and Biochemistry
Kern, Melanie
Scheithauer, Juliane
Kranz, Robert G.
Simon, Jörg
Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title_full Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title_fullStr Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title_full_unstemmed Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title_short Essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
title_sort essential histidine pairs indicate conserved haem binding in epsilonproteobacterial cytochrome c haem lyases
topic Physiology and Biochemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3068706/
https://www.ncbi.nlm.nih.gov/pubmed/20705660
http://dx.doi.org/10.1099/mic.0.042838-0
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