Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Non-autotrophic ( Aut -) mutants of Rhodopseudomonas capsulata B10 were tested for their efficiency of nitrogenase-mediated H2 production. Three of these mutants ( IR3 , IR4 and IR5 ) showed an increase stoichiometry of H2 production, mediated by nitrogenase, from certain organic substrates. For example, in a medium containing 7 mM-L-glutamate as nitrogen source, strain IR4 produced 10-20% more H2 than did the wild type with DL-lactate or L-malate as major carbon source, 20-50% more H2 with DL-malate, and up to 70% more with D-malate. Strain IR4 was deficient in 'uptake' hydrogenase activity as measured by H2-dependent reduction of Methylene Blue or Benzyl Viologen. However, this observation did not explain the increased efficiency of H2 production, since H2 uptake (H2 recycling) was undetectable in cells of the wild type. Instead, increased H2 production by the mutant appeared to be due to an improved conversion of organic substrates to H2 and CO2, presumably due to an altered carbon metabolism. The metabolism of D-malate by different strains was studied. An NAD+-dependent D-malic enzyme was synthesized constitutively by the wild type, and showed a Km for D-malate of 3 mM. The activity of this enzyme was approx. 50% higher in strain IR4 than in the wild type, and the mutant also grew twice as fast as the wild type with D-malate as sole carbon source.
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PMID:Increased photoproduction of hydrogen by non-autotrophic mutants of Rhodopseudomonas capsulata. 614 10

The soluble hydrogenase (hydrogen-NAD+ oxidoreductase, EC 1.12.1.2) of Alcaligenes eutrophus H16 was shown to be stabilized by oxidation with oxygen and ferricyanide as long as electron donors and reducing compounds were absent. The simultaneous presence of H2, NADH and O2 in the enzyme solution, however, caused an irreversible inactivation of hydrogenase that was dependent on the O2 concentration. The half-life periods of 4 degrees C under partial pressures of 0.1, 5, 20 and 50% O2 were 11, 5, 2.5 and 1.5 h respectively. Evidence has been obtained that hydrogenase produces superoxide free radical anions (O2-.), which were detected by their ability to oxidize hydroxylamine to nitrite. The correlation between O2 concentration, nitrite formation and inactivation rates and the stabilization of hydrogenase by addition of superoxide dismutase indicated that superoxide radicals are responsible for enzyme inactivation. During short-term activity measurements (NAD+ reduction, H2 evolution from NADH), hydrogenase activity was inhibited by O2 only very slightly. In the presence of 0.7 mM-O2 an inhibition of about 20% was observed.
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PMID:Production of superoxide radicals by soluble hydrogenase from Alcaligenes eutrophus H16. 627 8

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 NAD-reducing hydrogenase of Nocardia opaca 1 b was found to be a soluble, cytoplasmic enzyme. N. opaca 1 b does not contain an additional membrane-bound hydrogenase. The soluble enzyme was purified to homogeneity with a yield of 19% and a final specific activity of 45 mumol H2 oxidized min-1 mg protein-1. NAD reduction with H2 was completely dependent on the presence of divalent metal ions (Ni2+, Co2+, Mg2+, Mn2+) or of high salt concentrations (0.5-1.5 M). The most specific effect was caused by NiCl2, whose optimal concentration turned out to be 1 mM. The stimulation of activity by salts was the greater the less chaotrophic the anion. Maximal activity was achieved in 0.5 M potassium phosphate. Hydrogenase was also activated by protons. The pH optimum in 50 mM triethanolamine/HCl buffer containing 1 mM NiCl2 was 7.8-8.0. In the absence of Ni2+, hydrogenase was only active at pH values below 7.0. The reduction of other electron acceptors was not dependent on metal ions or salts, even though an approximately 1.5-fold stimulation of the reactions by 0.1-10 microM NiCl2 was observed. With the most effective electron acceptor, benzyl viologen, a 50-fold higher specific activity was determined than with NAD. The total molecular weight of hydrogenase has been estimated to be 200 000 (gel filtration) and 178 000 (sucrose density gradient centrifugation, and sodium dodecyl sulfate electrophoresis) respectively. The enzyme is a tetramer consisting of non-identical subunits with molecular weights of 64 000, 56 000, 31 000 and 27 000. It was demonstrated by electrophoretic analyses that in the absence of NiCl2 and at alkaline pH values the native hydrogenase dissociates into two subunit dimers. The first dimer was dark yellow coloured, completely inactive and composed of subunits with molecular weights of 64 000 and 31 000. The second dimer was light yellow, inactive with NAD but still active with methyl viologen. It was composed of subunits with molecular weights of 56 000 and 27 000. Immunological comparison of the hydrogenase of N. opaca 1 b and the soluble hydrogenase of Alcaligenes eutrophus H16 revealed that these two NAD-linked hydrogenases are partially identical proteins.
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PMID:Effect of nickel on activity and subunit composition of purified hydrogenase from Nocardia opaca 1 b. 631 36

The agarose-coupled triazine dye Procion Red HE-3B has been demonstrated to be applicable as an affinity gel for the purification of five diverse hydrogenases, namely the soluble, NAD-specific and the membrane-bound hydrogenase of Alcaligenes eutrophus, the membrane-bound hydrogenase of the N2-fixing Alcaligenes latus, the reversible H2-evolving and the unidirectional H2-oxidizing hydrogenase of Clostridium pasteurianum. In the case of the soluble hydrogenase of A. eutrophus, chromatography on Procion Red-agarose even permitted the separation of inactive from active enzyme, thus yielding a 2-3-fold increase in specific activity. For the homogeneous enzyme preparation obtained after two column steps (Procion Red-agarose, DEAE-Sephacel), a specific activity of 121 mumol of H2 oxidized/min per mg of protein was determined. Kinetic studies with free Procion Red provided evidence that the diverse hydrogenases are competitively inhibited by the dye, each with respect to the electron carrier (NAD, Methylene Blue, Methyl Viologen), indicating a specific interaction between Procion Red and the catalytic centres of the enzymes. For the highly purified preparations of the soluble and the membrane-bound hydrogenase of A. eutrophus, in 50 mM-potassium phosphate, pH 7.0, Ki values for Procion Red of 103 and 19 microM have been determined.
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PMID:Purification of hydrogenases by affinity chromatography on Procion Red-agarose. 635 40

When strains and mutants of the strictly aerobic hydrogen-oxidizing bacterium Alcaligenes eutrophus are grown heterotrophically on gluconate or fructose and are subsequently exposed to anaerobic conditions in the presence of the organic substrates, molecular hydrogen is evolved. Hydrogen evolution started immediately after the suspension was flushed with nitrogen, reached maximum rates of 70 to 100 mumol of H2 per h per g of protein, and continued with slowly decreasing rates for at least 18 h. The addition of oxygen to an H2-evolving culture, as well as the addition of nitrate to cells (which had formed the dissimilatory nitrate reductase system during the preceding growth), caused immediate cessation of hydrogen evolution. Formate is not the source of H2 evolution. The rates of H2 evolution with formate as the substrate were lower than those with gluconate. The formate hydrogenlyase system was not detectable in intact cells or crude cell extracts. Rather the cytoplasmic, NAD-reducing hydrogenase is involved by catalyzing the release of excessive reducing equivalents under anaerobic conditions in the absence of suitable electron acceptors. This conclusion is based on the following experimental results. H2 is formed only by cells which had synthesized the hydrogenases during growth. Mutants lacking the membrane-bound hydrogenase were still able to evolve H2. Mutants lacking the NAD-reducing or both hydrogenases were unable to evolve H2.
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PMID:Hydrogen evolution by strictly aerobic hydrogen bacteria under anaerobic conditions. 637 84

Clostridium pasteurianum cell-free extracts enzymatically reduced metronidazole when coupled by hydrogenase via reduced ferredoxin. A 5 mM concentration of methyl viologen, flavin adenine dinucleotide, or flavin mononucleotide could completely replace ferredoxin (0.05 mM) in the in vitro reduction assay system, whereas 5 mM benzyl viologen was less effective. However, when these electron carriers were used at a concentration of 0.05 mM, there was a drastic loss in their abilities to couple the metronidazole reduction system compared with the comparable concentration of ferredoxin. It is not understood why these flavin coenzymes participate in this enzymatic reaction. NAD and NADP had no activity when substituted for ferredoxin in the enzyme system. Two reduced ferredoxin-linked pathways, "metronidazole reductase" and the inducible dissimilatory sulfite reductase system, when combined in a single in vitro competition experiment demonstrated a preferential flow of electrons to metronidazole away from sulfite. A proposed bactericidal mechanism for metronidazole against C. pasteurianum incorporating the above findings is discussed.
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PMID:Ferredoxin-linked reduction of metronidazole in Clostridium pasteurianum. 651 54

Oxygen-labile extract of Methanobacterium thermoautotrophicum was resolved into three components, A, B, and C, that were required for the reductive demethylation of methyl coenzyme M, 2-(methylthio)-ethanesulfonate, in the presence of molecular hydrogen. Components A and C were found to be large heat-labile proteins with A being in excess of 500,000 daltons, and C being 130,000 daltons. Component A exhibited hydrogenase activity for reduction of viologen dyes, coenzyme F420, or flavins but not for NAD+ or NADP+. An apparent Km of 25 microM was determined for F420 and a Km of 1.5 mM for methyl viologen. After centrifugation at 100,000 x g for 1 h, 80% of Component A was found in the supernatant solution. Component B was found to be an oxygen-labile, heat-resistant, dialyzable cofactor with a size of about 1,000 daltons and with no apparent absorption in the visible range. Known cofactors failed to substitute for the new coenzyme.
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PMID:Methyl coenzyme M reductase from Methanobacterium thermoautotrophicum. Resolution and properties of the components. 676 57

The soluble, NAD+-reducing hydrogenase in intact cells of Alcaligenes eutrophus was inactivated by oxygen when electron donors such as hydrogen or pyruvate were available. The sole presence of either oxygen or oxidizable substrates did not lead to inactivation of the enzyme. Inactivation occurred similarly under autotrophic growth conditions with hydrogen, oxygen and carbon dioxide. The inactivation followed first order reaction kinetics, and the half-life of the enzyme in cells exposed to a gas atmosphere of hydrogen and oxygen (8:2, v/v) at 30 degrees C was 1.5h. The process of inactivation did not require ATP-synthesis. There was no experimental evidence that the inactivation is a reversible process catalyzed by a regulatory protein. The possibility is discussed that the inactivation is due to superoxide radical anions (O2-) produced by the hydrogenase itself.
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PMID:In vivo inactivation of soluble hydrogenase of Alcaligenes eutrophus. 678 48

A thermostable ferredoxin was purified from Clostridium thermocellum. The final preparation was homogeneous as judged by electrophoresis in sodium dodecyl sulfate polyacrylamide gel and sedimentation equilibrium. It contains eight atoms of iron and eight acid-labile sulfur groups per molecule, the molecular weight is estimated to be 6 400 and the isoelectric point 3.35. Its amino-acid composition is characterized by the absence of histidine residues and the presence of eight cysteine residues. The absorption spectrum has a maximum at 390 nm with a molar absorption coefficient of 39 x 10(3) M1 cm-1, similar to that of other bacterial eight iron ferredoxins. The purified ferredoxin has high thermal stability, since the spectrophotometric absorption of the protein at 390 nm did not change after one hour at 70 degrees C and only thirty five per cent of absorbance were lost after one hour at 80 degrees C. With regard to the electron carrier activity, the stability is slightly higher, only twenty five per cent of the activity were lost after one hour at 80 degrees C. During pyruvate oxidation, ferredoxin functions in the transfer of electrons to hydrogenase and also in the back reaction during pyridine nucleotide reduction by a ferredoxin -NAD oxidoreductase using hydrogen as electron donor.
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PMID:Purification and characterization of a heat stable ferredoxin isolated from Clostridium thermocellum. 681 98


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