DsrJ, an Essential Part of the DsrMKJOP Transmembrane Complex in the Purple Sulfur Bacterium Allochromatium vinosum, Is an Unusual Triheme Cytochrome c

The DsrMKJOP transmembrane complex has a most important function in dissimilatory sulfur metabolism, not only in many sulfur-oxidizing organisms but also in sulfate-reducing prokaryotes. Here, we focused on an individual component of this complex, the triheme cytochrome c DsrJ from the purple sulfur...

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Published inBiochemistry (Easton) Vol. 49; no. 38; pp. 8290 - 8299
Main Authors Grein, Fabian, Venceslau, Sofia S, Schneider, Lilian, Hildebrandt, Peter, Todorovic, Smilja, Pereira, Inês A. C, Dahl, Christiane
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 28.09.2010
Subjects
Bacterial Proteins - chemistry
Catalysis
Chromatiaceae - genetics
Chromatiaceae - metabolism
Cytochrome c Group - chemistry
Cytochromes c - genetics
Cytochromes c - metabolism
Desulfovibrio vulgaris - genetics
Desulfovibrio vulgaris - metabolism
Electron Spin Resonance Spectroscopy
Electron Transport
Heme - analogs & derivatives
Heme - chemistry
Heme - metabolism
Mutagenesis, Site-Directed
Oxidation-Reduction
Sulfur - metabolism
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Abstract The DsrMKJOP transmembrane complex has a most important function in dissimilatory sulfur metabolism, not only in many sulfur-oxidizing organisms but also in sulfate-reducing prokaryotes. Here, we focused on an individual component of this complex, the triheme cytochrome c DsrJ from the purple sulfur bacterium Allochromatium vinosum. In A. vinosum, the signal peptide of DsrJ is not cleaved off but serves as a membrane anchor. Sequence analysis suggested the presence of three heme c species with bis-His, His/Met, and possibly a very unusual His/Cys ligation. A. vinosum DsrJ produced as a recombinant protein in Escherichia coli indeed contained three hemes, and electron paramagnetic resonance (EPR) spectroscopy provided evidence of possible, but only partial, His/Cys heme ligation in one of the hemes. This heme shows heterogeneous coordination, with Met being another candidate ligand. Cysteine 46 was replaced with serine using site-directed mutagenesis, with the mutant protein showing a small decrease in the magnitude of the EPR signal attributed to His/Cys coordination, but identical UV−vis and RR spectra. The redox potentials of the hemes in the wild-type protein were determined to be −20, −200, and −220 mV and were found to be virtually identical in the mutant protein. However, in vivo the same ligand exchange led to a dramatically altered phenotype, highlighting the importance of Cys46. Our results suggest that Cys46 may be involved in catalytic sulfur chemistry rather than electron transfer. Additional in vivo experiments showed that DsrJ can be functionally replaced in A. vinosum by the homologous protein from the sulfate reducer Desulfovibrio vulgaris.
AbstractList The DsrMKJOP transmembrane complex has a most important function in dissimilatory sulfur metabolism, not only in many sulfur-oxidizing organisms but also in sulfate-reducing prokaryotes. Here, we focused on an individual component of this complex, the triheme cytochrome c DsrJ from the purple sulfur bacterium Allochromatium vinosum. In A. vinosum, the signal peptide of DsrJ is not cleaved off but serves as a membrane anchor. Sequence analysis suggested the presence of three heme c species with bis-His, His/Met, and possibly a very unusual His/Cys ligation. A. vinosum DsrJ produced as a recombinant protein in Escherichia coli indeed contained three hemes, and electron paramagnetic resonance (EPR) spectroscopy provided evidence of possible, but only partial, His/Cys heme ligation in one of the hemes. This heme shows heterogeneous coordination, with Met being another candidate ligand. Cysteine 46 was replaced with serine using site-directed mutagenesis, with the mutant protein showing a small decrease in the magnitude of the EPR signal attributed to His/Cys coordination, but identical UV−vis and RR spectra. The redox potentials of the hemes in the wild-type protein were determined to be −20, −200, and −220 mV and were found to be virtually identical in the mutant protein. However, in vivo the same ligand exchange led to a dramatically altered phenotype, highlighting the importance of Cys46. Our results suggest that Cys46 may be involved in catalytic sulfur chemistry rather than electron transfer. Additional in vivo experiments showed that DsrJ can be functionally replaced in A. vinosum by the homologous protein from the sulfate reducer Desulfovibrio vulgaris.
The DsrMKJOP transmembrane complex has a most important function in dissimilatory sulfur metabolism, not only in many sulfur-oxidizing organisms but also in sulfate-reducing prokaryotes. Here, we focused on an individual component of this complex, the triheme cytochrome c DsrJ from the purple sulfur bacterium Allochromatium vinosum. In A. vinosum, the signal peptide of DsrJ is not cleaved off but serves as a membrane anchor. Sequence analysis suggested the presence of three heme c species with bis-His, His/Met, and possibly a very unusual His/Cys ligation. A. vinosum DsrJ produced as a recombinant protein in Escherichia coli indeed contained three hemes, and electron paramagnetic resonance (EPR) spectroscopy provided evidence of possible, but only partial, His/Cys heme ligation in one of the hemes. This heme shows heterogeneous coordination, with Met being another candidate ligand. Cysteine 46 was replaced with serine using site-directed mutagenesis, with the mutant protein showing a small decrease in the magnitude of the EPR signal attributed to His/Cys coordination, but identical UV-vis and RR spectra. The redox potentials of the hemes in the wild-type protein were determined to be -20, -200, and -220 mV and were found to be virtually identical in the mutant protein. However, in vivo the same ligand exchange led to a dramatically altered phenotype, highlighting the importance of Cys46. Our results suggest that Cys46 may be involved in catalytic sulfur chemistry rather than electron transfer. Additional in vivo experiments showed that DsrJ can be functionally replaced in A. vinosum by the homologous protein from the sulfate reducer Desulfovibrio vulgaris.
Author Pereira, Inês A. C
Grein, Fabian
Venceslau, Sofia S
Schneider, Lilian
Hildebrandt, Peter
Dahl, Christiane
Todorovic, Smilja
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Snippet The DsrMKJOP transmembrane complex has a most important function in dissimilatory sulfur metabolism, not only in many sulfur-oxidizing organisms but also in...
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SubjectTerms Bacterial Proteins - chemistry
Catalysis
Chromatiaceae - genetics
Chromatiaceae - metabolism
Cytochrome c Group - chemistry
Cytochromes c - genetics
Cytochromes c - metabolism
Desulfovibrio vulgaris - genetics
Desulfovibrio vulgaris - metabolism
Electron Spin Resonance Spectroscopy
Electron Transport
Heme - analogs & derivatives
Heme - chemistry
Heme - metabolism
Mutagenesis, Site-Directed
Oxidation-Reduction
Sulfur - metabolism
Title DsrJ, an Essential Part of the DsrMKJOP Transmembrane Complex in the Purple Sulfur Bacterium Allochromatium vinosum, Is an Unusual Triheme Cytochrome c
URI http://dx.doi.org/10.1021/bi1007673
https://www.ncbi.nlm.nih.gov/pubmed/20726534
Volume 49
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