Reference |
| PMID | Title & Author | Abstract | Year |
0 | 12907302 | A novel membrane-bound respiratory complex from Desulfovibrio desulfuricans ATCC 27774.Ricardo H Pires , Alexandra I Lourenço, Francisco Morais, Miguel Teixeira, António V Xavier, Lígia M Saraiva, Inês A C Pereira | In the anaerobic respiration of sulfate, performed by sulfate-reducing prokaryotes, reduction of the terminal electron acceptor takes place in the cytoplasm. The membrane-associated electron transport chain that feeds electrons to the cytoplasmic reductases is still very poorly characterized. In this study we report the isolation and characterization of a novel membrane-bound redox complex from Desulfovibrio desulfuricans ATCC 27774. This complex is formed by three subunits, and contains two hemes b, two FAD groups and several iron-sulfur centers. The two hemes b are low-spin, with macroscopic redox potentials of +75 and -20 mV at pH 7.6. Both hemes are reduced by menadiol, a menaquinone analogue, indicating a function for this complex in the respiratory electron-transport chain. EPR studies of the as-isolated and dithionite-reduced complex support the presence of a [3Fe-4S](1+/0) center and at least four [4Fe-4S](2+/1+) centers. Cloning of the genes coding for the complex subunits revealed that they form a putative transcription unit and have homology to subunits of heterodisulfide reductases (Hdr). The first and second genes code for soluble proteins that have homology to HdrA, whereas the third gene codes for a novel type of membrane-associated protein that contains both a hydrophobic domain with homology to the heme b protein HdrE and a hydrophilic domain with homology to the iron-sulfur protein HdrC. Homologous operons are found in the genomes of other sulfate-reducing organisms and in the genome of the green-sulfur bacterium Chlorobium tepidum TLS. The isolated complex is the first example of a new family of respiratory complexes present in anaerobic prokaryotes. | 2003 |
1 | 9063468 | Heterodisulfide reductase from methanol-grown cells of Methanosarcina barkeri is not a flavoenzyme.A Künkel 1, M Vaupel, S Heim, R K Thauer, R Hedderich | Heterodisulfide reductase from methanol-grown cells of Methanosarcina barkeri (MbHdrDE) is a membrane-bound enzyme composed of a 46-kDa subunit MbHdrD and a 23-kDa subunit MbHdrE. The enzyme has been shown to contain 0.6 mol heme and 20 mol Fe/S per mol heterodimer. In addition, substoichiometric amounts of FAD, thought to be an essential component of the active enzyme, were detected. We have now obtained preparations of active heterodisulfide reductase in high yields completely devoid of a flavin. Cloning and sequencing of the genes encoding MbHdrD and MbHdrE, which were found to form a transcription unit hdrED, revealed that both subunits also lack an FAD-binding motif. MbHdr thus differs from heterodisulifde reductase from Methanobacterium thermoautotrophicum (MtHdr), which is a flavo iron-sulfur protein composed of the subunits MtHdrA (80 kDa), MtHdrB (36 kDa) and MtHdrC (21 kDa), the subunit HdrA harboring the flavin-binding site. Sequence comparisons revealed that the N-terminal third of MbHdrD, which contained two sequence motifs for [4Fe-4S] clusters, is similar to MtHdrC and that the C-terminal two thirds of MbHdrD are similar to MtHdrB. Thus, MbHdrD and MtHdrC are structurally equivalent subunits. MbHdrE shows sequence similarity to b-type cytochromes, in agreement with the finding that this subunit contains a heme. These and other results indicate that MbHdrD harbors the active site of heterodisulfide reduction and that a flavin is not involved in catalysis. Since MbHdrD contains only iron-sulfur clusters, a mechanism of disulfide reduction involving one electron rather than two electron-transfer reactions has to be considered such as operative in ferredoxin :thioredoxin reductases from chloroplasts and cyanobacteria. | 1997 |
2 | 15009189 | Two distinct heterodisulfide reductase-like enzymes in the sulfate-reducing archaeon Archaeoglobus profundus.Gerd J Mander 1, Antonio J Pierik, Harald Huber, Reiner Hedderich | Heterodisulfide reductase (Hdr) is a unique disulfide reductase that plays a key role in the energy metabolism of methanogenic archaea. Two types of Hdr have been identified and characterized from distantly related methanogens. Here we show that the sulfate-reducing archaeon Archaeoglobus profundus cultivated on H2/sulfate forms enzymes related to both types of Hdr. From the membrane fraction of A. profundus, a two-subunit enzyme (HmeCD) composed of a b-type cytochrome and a hydrophilic iron-sulfur protein was isolated. The amino-terminal sequences of these subunits revealed high sequence identities to subunits HmeC and HmeD of the Hme complex from A. fulgidus. HmeC and HmeD in turn are closely related to subunits HdrE and HdrD of Hdr from Methanosarcina spp. From the soluble fraction of A. profundus a six-subunit enzyme complex (Mvh:Hdl) containing Ni, iron-sulfur clusters and FAD was isolated. Via amino-terminal sequencing, the encoding genes were identified in the genome of the closely related species A. fulgidus in which these genes are clustered. They encode a three-subunit [NiFe] hydrogenase with high sequence identity to the F420-nonreducing hydrogenase from Methanothermobacter spp. while the remaining three polypeptides are related to the three-subunit heterodisulfide reductase from Methanothermobacter spp. The oxidized enzyme exhibited an unusual EPR spectrum with gxyz = 2.014, 1.939 and 1.895 similar to that observed for oxidized Hme and Hdr. Upon reduction with H2 this signal was no longer detectable. | 2004 |
Ehrenfeld N , Levicán, Gloria, Parada P . Heterodisulfide Reductase from Acidithiobacilli is a Key Component Involved in Metabolism of Reduced Inorganic Sulfur Compounds[J]. Advanced Materials Research, 2013, 825:194-197.
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