EC:1.12.7.2 - FACTA Search

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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 method of solution and puridication of hydrogenase from chromatophores of purpur sulphur bacteria Thiocapsa roseopersicina strain BBS are described. Hydrogenase molecular weight is 73000. It contains 4,4 mole S2- and 3.1 mole Fe2+ per mole of protein; pI 4.15. The enzyme absorption spectrum has the maximun et 400-410 nm, which is characteristic of proteins containing non-haem iron. Membrane--linked enzyme as well as soluble hydrogenase of that microorganism is characterized by high thermal stability: inactivation occurs at the temperature above 78 degrees C when the optimal temperature for that enzyme is 70 degrees C. Homogenous enzyme catalyses D2--H2O exchange reaction, reversible redox reaction of methyl viologene and benzyl viologene.
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PMID:[Purification and properties of phototrophic bacteria Thiocapsa roseopersicina hydrogenase bound with chromatophores]. 1 62

The soluble and chromatophore-bound hydrogenases from the purple sulphur bacterium Thiocapsa roseopersicina strain BBS were purified up to homogeneity and the properties studied. The amino acid composition of hydrogenase preparations from different fractions of T. roseopersicina is identical, glycine and alanine as N-terminal amino acid residues. In comparison with other hydrogenases, especially in the immobilized state, the preparations obtained are shown to be more stable to O2 during storage and they are characterized by high thermal stability. Inactivation is observed above 78--80 degrees C and the optimal temperature for enzyme action is 70 degrees C. The homogeneous enzyme preparations catalyse the exchange reaction between 2H2 and H2O and reversible redox reactions of methyl viologen and benzyl viologen as well as H2 formation from reduced ferredoxin. According to our data, the hydrogenase of T. roseopersicina bound with chromatophores is identical to the soluble one.
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PMID:The properties of hydrogenase from Thiocapsa roseopersicina. 65 33

The isolation method and some peoperties of purple sulphur bacteria (Thiocapsa roseopersicina strain BBS) hydrogenase are described Hydrogenase molecular weight is found to be 66000; it contains 3.7 moles of S2- and 3.9 moles of Fe2+ per one mole of the enzyme;pI=4.2. The enzyme absorption spectrum has the maximum at 400-412 nm which is characteristic of proteins containing non-haem iron. Hydrogenase is suggested to consist pf 4 subunits of two types: with molar weight 27000 and 6000. Unlike other hydrogenases, this enzyme is rather resistant to O2 and is more thermostable: the inactivation of the enzyme was observed at the temperature above 80 degrees C; Hydrogenase preparation catalyses D2-H2O exchange reaction, H2 evolution from the reduced methyl viologene (MV) and H2 absorption in the presense of MV or benzylviologene but not in the presense of NAD(P), FAD, FMN, azocarmine, methylene blue and ferricyanide.
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PMID:[Purification and properties of hydrogenase from phototrophic bacterium Thiocapsa roseopersicina]. 102 87

This review surveys recent work done in the laboratory of the author and related laboratories on the properties and possible practical applications of hydrogenases of phototrophic microorganisms. Homogeneous hydrogenase preparations were obtained from purple non-sulfur (Rhodospirillum rubrum S1, Rhodobacter capsulatus B10) and purple sulfur (Chromatium vinosum D, Thiocapsa roseopersicina BBS) bacteria, and from the green sulfur bacterium Chlorobium limicola forma thiosulfatophilum L; highly purified hydrogenase samples were prepared from the cyanobacterium Anabaena cylindrica and from the green alga Chlamydomonas reinhardii. It was shown that hydrogenases of R. capsulatus and T. roseopersicina contain Ni and Fe-S cluster. The cytochromes of the c or b type serve as native electron acceptors for the hydrogenases of the purple bacteria and cyanobacteria; rubredoxin or cytochrome c for the hydrogenase of the green sulfur bacterium; and ferredoxin for Ch. reinhardii hydrogenase. The hydrogenase of T. roseopersicina BBS reversibly activates H2 at Eh less than -290 mV (pH 7), whereas those from R. capsulatus and from C. limicola f. thiosulfatophilum exhibit their maximum activity at Eh greater than -300 mV and are thus favourable only for the H2 uptake. Hydrogenase synthesis in different phototrophs depends on pO2, H2 concentrations and organic substrates. Organic compounds, which serve as electron donors and carbon sources, repress hydrogenase synthesis in R. rubrum, R. capsulatus and in Ectothiorhodospira shaposhnikovii when present at high concentrations. The synthesis of T. roseopersicina hydrogenase is constitutive. H2 notably stimulates hydrogenase activity in R. capsulatus. The synthesis of hydrogenase in R. sphaeroides 2R occurs only in the presence of H2 and does not depend on the presence of organic compounds in the medium.
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PMID:Hydrogenases of phototrophic microorganisms. 301 44

It is shown that the activity of phototrophic bacteria hydrogenases depends on the redox potential (Eh) of the medium. Hydrogenase from the purple sulfur bacterium Thiocapsa roseopersicina strain BBS reversibly activates H2 at Eh less than -290 mV (pH 7.0). When Eh is increased from -290 to -170 mV, the enzyme is converted into an inactive form which is accompanied by one-electron oxidation of its Fe-S cluster. In contrast, the hydrogenases of the purple nonsulfur bacterium Rhodobacter capsulatus B10 and the green sulfur bacterium Chlorobium limicola forma thiosulfatophilum exhibit maximum activity at Eh greater than -300 mV, favourable only for H2 uptake. When Eh decreases the activities of these enzymes drop dramatically; this accounts for their unidirectional effect directed mainly towards H2 uptake. Such dependence on Eh of activity of hydrogenases from these bacteria correlates with their physiological function in the metabolism of phototrophic bacteria, i.e. with the catalysis of the H2 uptake reaction. Hydrogenases from purple bacteria contain nickel and a single Fe-S cluster. Metal chelators do not affect the activity of these enzymes, which indicates that iron and nickel are tightly bound to the apoprotein. Sulfhydryl compounds irreversibly inactivate T. roseopersicina hydrogenase by 30-40% in the presence of sulfide. Acetylene and carbon monoxide are reversible inhibitors of the enzyme. EPR and inhibitory analysis indicate a direct interaction of H2 with the nickel ion in the active center of the T. roseopersicina hydrogenase.
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PMID:Redox properties and active center of phototrophic bacteria hydrogenases. 301 53

The method of purification up to electrophoretical homogeneity of cytochrome c552 from the phototrophic bacterium Thiocapsa roseopersicina, strain BBS is described. For the cytochrome absorption spectrum the maxima at 417, 523 and 552 nm are characteristic for the reduced state and at 409 nm--for the oxidized state. The molecular weight is equal to 62000. The cytochrome contains two hemes per molecule and consists of two subunits. pI is 4.1; E0' is about 10 mV. Cytochrome c552 is a flavoprotein according to its fluorescence spectrum and subunit structure. T. roseopersicina cytochrome c552 is able to be reduced with sulphide, cysteine and ascorbate as well as with H2 in the presence of hydrogenase from the same bacterium. These data suggest that cytochrome c552 from T. roseopersicina functions in vivo at the initial stage of electron transport from hydrogen and sulphide.
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PMID:[Purification and properties of cytochrome c552 from purple sulfur bacterium Thiocapsa roseopersicina]. 626 68

The low potential c-type cytochrome from the phototrophic purple sulphur bacterium Thiocapsa roseopersicina, strain BBS was isolated in electrophoretically homogeneous state. The bulk of the cytochrome (approximately 90%) after disruption of the cells remained in the membrane fraction. The absorption spectrum of the cytochrome was characterized by the maxima at 420, 523 and 552 nm in the reduced state and at 408 nm in the oxidized one. The cytochrome interacted with CO in the reduced state. The molecular weight of the cytochrome is 50 000. The cytochrome contains great amounts of phenylalanine, leucine, valine, aspartic and glutamic acids and can be reduced by dithionite but not by cysteine, sulfide or ascorbate. Besides, the cytochrome can also be reduced by NAD(P)H in the presence of NAD(P)-reductases of T. roseopersicina, when ferredoxin of Spirulina platensis or benzyl viologen are added to the reaction mixture. The cytochrome can act as an electron donor (acceptor) for T. roseopersicina hydrogenase.
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PMID:[Low potential c-type cytochrome of Thiocapsa roseopersicina]. 628 Jul 82

The characterization of a hyd gene cluster encoding the stable, bidirectional [NiFe]hydrogenase 1 enzyme in Thiocapsa roseopersicina BBS, a purple sulfur photosynthetic bacterium belonging to the family Chromatiaceae, is presented. The heterodimeric hydrogenase 1 had been purified to homogeneity and thoroughly characterized (K. L. Kovacs et al., J. Biol. Chem. 266:947-951, 1991; C. Bagyinka et al., J. Am. Chem. Soc. 115:3567-3585, 1993). As an unusual feature, a 1,979-bp intergenic sequence (IS) separates the structural genes hydS and hydL, which encode the small and the large subunits, respectively. This IS harbors two sequential open reading frames (ORFs) which may code for electron transfer proteins ISP1 and ISP2. ISP1 and ISP2 are homologous to ORF5 and ORF6 in the hmc operon, coding for a transmembrane electron transfer complex in Desulfovibrio vulgaris. Other accessory proteins are not found immediately downstream or upstream of hydSL. A hup gene cluster coding for a typical hydrogen uptake [NiFe]hydrogenase in T. roseopersicina was reported earlier (A. Colbeau et al. Gene 140:25-31, 1994). The deduced amino acid sequences of the two small (hupS and hydS) and large subunit (hupL and hydL) sequences share 46 and 58% identity, respectively. The hup and hyd genes differ in the arrangement of accessory genes, and the genes encoding the two enzymes are located at least 15 kb apart on the chromosome. Both hydrogenases are associated with the photosynthetic membrane. A stable and an unstable hydrogenase activity can be detected in cells grown under nitrogen-fixing conditions; the latter activity is missing in cells supplied with ammonia as the nitrogen source. The apparently constitutive and stable activity corresponds to hydrogenase 1, coded by hydSL, and the inducible and unstable second hydrogenase may be the product of the hup gene cluster.
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PMID:Unusual organization of the genes coding for HydSL, the stable [NiFe]hydrogenase in the photosynthetic bacterium Thiocapsa roseopersicina BBS. 951 14

A random transposon-based mutagenesis system was optimized for the purple sulfur phototrophic bacterium Thiocapsa roseopersicina BBS. Screening for hydrogenase-deficient phenotypes resulted in the isolation of six independent mutants in a mini-Tn5 library. One of the mutations was in a gene showing high amino acid sequence similarity to HypF proteins in other organisms. Inactivation of hydrogen uptake activity in the hypF-deficient mutant resulted in a dramatic increase in the hydrogen evolution capacity of T. roseopersicina under nitrogen-fixing conditions. This mutant is therefore a promising candidate for use in practical biohydrogen-producing systems. The reconstructed hypF gene was able to complement the hypF-deficient mutant of T. roseopersicina BBS. Heterologous complementation experiments, using hypF mutant strains of T. roseopersicina, Escherichia coli, and Ralstonia eutropha and various hypF genes, were performed. They were successful in all of the cases tested, although for E. coli, the regulatory region of the foreign gene had to be replaced in order to achieve partial complementation. RT-PCR data suggested that HypF has no effect on the transcriptional regulation of the structural genes of hydrogenases in this organism.
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PMID:Transposon mutagenesis in purple sulfur photosynthetic bacteria: identification of hypF, encoding a protein capable of processing [NiFe] hydrogenases in alpha, beta, and gamma subdivisions of the proteobacteria. 1137 53

There are at least two membrane-bound (HynSL and HupSL) and one soluble (HoxEFUYH) [NiFe] hydrogenases in Thiocapsa roseopersicina BBS, a purple sulfur photosynthetic bacterium. Genes coding for accessory proteins that participate in the biosynthesis and maturation of hydrogenases seem to be scattered along the chromosome. Transposon-based mutagenesis was used to locate the hydrogenase accessory genes. Molecular analysis of strains showing mutant phenotypes led to the identification of hupK (hoxV ), hypC1, hypC2, hypD, hypE, and hynD genes. The roles of hynD, hupK and the two hypC genes were investigated in detail. The putative HynD was found to be a hydrogenase-specific endoprotease type protein, participating in the maturation of the HynSL enzyme. HupK plays an important role in the formation of the functionally active membrane-bound [NiFe] hydrogenases, but not in the biosynthesis of the soluble enzyme. In-frame deletion mutagenesis showed that HypC proteins were not specific for the maturation of either hydrogenase enzyme. The lack of either HypC protein drastically reduced the activity of every hydrogenase. Hence both HypCs might participate in the maturation of [NiFe] hydrogenases. Homologous complementation with the appropriate genes substantiated the physiological roles of the corresponding gene products in the H2 metabolism of T. roseopersicina.
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PMID:Accessory proteins functioning selectively and pleiotropically in the biosynthesis of [NiFe] hydrogenases in Thiocapsa roseopersicina. 1275 41

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