Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.12.7.2 (hydrogenase)
 3,522 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hupM gene, previously called ORFX, found downstream from and contiguous with the structural hydrogenase genes hupS and hupL in Rhodobacter capsulatus, is shown here to form a single hupSLM transcription unit with the two other genes. The hupM gene was inactivated by interposon mutagenesis. The two selected mutants, BCX1 and BCX2, which contained the kanamycin-resistance gene in opposite orientation, still exhibited hydrogenase activity when assayed with the artificial electron acceptors benzylviologen and methylene blue. However, the hydrogenase was not physiologically active in these mutants, which could not grow autotrophically and were unable to recycle electrons to nitrogenase or to respire on H2. The hupM gene starts nine base pairs downstream from the TGA stop codon of hupL gene, which encodes the large subunit of the [NiFe]hydrogenase of Rhodobacter capsulatus. The three contiguous genes hupS, hupL and hupM were subcloned downstream from the promoter of hupSL, either with the promoter in the correct orientation (plasmid pBC8) or with the promoter in the opposite orientation (plasmid pBC9), then the constructs were introduced into the mutant strains. Only plasmid pBC8 could restore the formation of a competent hydrogenase in mutants BCX1 and BCX2, indicating that the hupM gene is expressed only from the hupSL promoter.
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PMID:The hydrogenase structural operon in Rhodobacter capsulatus contains a third gene, hupM, necessary for the formation of a physiologically competent hydrogenase. 179 62

Two gene clusters encoding similar formate dehydrogenases (FDH) were identified in Eubacterium acidaminophilum. Each cluster is composed of one gene coding for a catalytic subunit ( fdhA-I, fdhA-II) and one for an electron-transferring subunit ( fdhB-I, fdhB-II). Both fdhA genes contain a TGA codon for selenocysteine incorporation and the encoded proteins harbor five putative iron-sulfur clusters in their N-terminal region. Both FdhB subunits resemble the N-terminal region of FdhA on the amino acid level and contain five putative iron-sulfur clusters. Four genes thought to encode the subunits of an iron-only hydrogenase are located upstream of the FDH gene cluster I. By sequence comparison, HymA and HymB are predicted to contain one and four iron-sulfur clusters, respectively, the latter protein also binding sites for FMN and NAD(P). Thus, HymA and HymB seem to represent electron-transferring subunits, and HymC the putative catalytic subunit containing motifs for four iron-sulfur clusters and one H-cluster specific for Fe-only hydrogenases. HymD has six predicted transmembrane helices and might be an integral membrane protein. Viologen-dependent FDH activity was purified from serine-grown cells of E. acidaminophilum and the purified protein complex contained four subunits, FdhA and FdhB, encoded by FDH gene cluster II, and HymA and HymB, identified after determination of their N-terminal sequences. Thus, this complex might represent the most simple type of a formate hydrogen lyase. The purified formate dehydrogenase fraction contained iron, tungsten, a pterin cofactor, and zinc, but no molybdenum. FDH-II had a two-fold higher K(m) for formate (0.37 mM) than FDH-I and also catalyzed CO(2) reduction to formate. Reverse transcription (RT)-PCR pointed to increased expression of FDH-II in serine-grown cells, supporting the isolation of this FDH isoform. The fdhA-I gene was expressed as inactive protein in Escherichia coli. The in-frame UGA codon for selenocysteine incorporation was read in the heterologous system only as stop codon, although its potential SECIS element exhibited a quite high similarity to that of E. coli FDH.
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PMID:Molecular and biochemical characterization of two tungsten- and selenium-containing formate dehydrogenases from Eubacterium acidaminophilum that are associated with components of an iron-only hydrogenase. 1256 Sep 90