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)

S organism, an anaerobic gram-negative rod, which is one of two bacterial species isolated from the culture known as "Methanobacillus omelianskii," ferments ethanol to acetate and H(2). The present study shows that extracts of this organism contain ferredoxin and produce acetate from acetaldehyde via aldehyde: ferredoxin oxidoreductase activity. Electrons generated in the reaction are given off as H(2) by a previously demonstrated ferredoxin-linked hydrogenase system. Extracts were shown to contain good phosphotransacetylase and acetokinase activities, but no mechanism of adenosine triphosphate generation during acetaldehyde conversion to acetate could be detected. No evidence could be obtained for coenzyme A (CoASH) or phosphate requirement or for formation of acetyl CoA or acetyl phosphate.
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PMID:Ferredoxin-dependent conversion of acetaldehyde to acetate and H 2 in extracts of S organism. 455 84

Cells of the aerotolerant anaerobe Giardia lamblia respire in the presence of oxygen. Endogenous respiration is stimulated by glucose but not by other carbohydrates and Krebs cycle intermediates. Endogenous and glucose-stimulated respiration are insensitive to cyanide, malonate, and 2,4-dinitrophenol, but are inhibited by atabrin and iodoacetamide. G. lamblia produces ethanol, acetate and CO2 both aerobically and anaerobically either from endogenous reserves or exogenous glucose. Molecular hydrogen is not produced. The following enzyme activities were detected in homogenates: hexokinase, fructose-biphosphate aldolase, pyruvate kinase, phosphoenolpyruvate carboxykinase, malate dehydrogenase, malate dehydrogenase (decarboxylating), pyruvate synthase, acetyl-CoA synthetase, alcohol dehydrogenase (NADP+), NADH dehydrogenase, NADPH dehydrogenase, NADPH oxidoreductase and superoxide dismutase. The enzymes of energy and carbohydrate metabolism are nonsedimentable (109 000 x g for 30 min). Activities of lactate dehydrogenase, hydrogenase, phosphate acetyltransferase, acetate kinase, citrate synthase, succinate dehydrogenase, fumarate hydratase and catalase were below the limits of detection. The results suggest the occurrence of glycolysis, energy production by substrate level phosphorylation and a flavin, iron-sulfur protein mediated electron transport system as well as the absence of cytochrome mediated oxidative phosphorylation and functional Krebs cycle.
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PMID:Energy metabolism of the anaerobic protozoon Giardia lamblia. 610 7

A routine procedure for the growth and harvesting of large (600 1) batches of Chromatium vinosum and the isolation of hydrogenase (hydrogen: (acceptor) oxidoreductase, EC 1.12.-.-) are described. The enzyme is pure according to polyacrylamide gel electrophoresis, has a molecular weight of 61,000-63,000 and consists of a single polypeptide chain. The enzyme is stable in air but not active. Activity is obtained only after complete removal of oxygen. EPR spectroscopy at 9 GHz shows a signal indicative for a [4Fe-4S]3+(3+,2+) cluster and in addition a rather complex signal of unknown origin. This additional signal completely disappears upon removal of oxygen, by incubation with 2-mercaptoethanol or by reduction with ferrocytochrome c. No EPR signals are detected in the enzyme reduced with H2 or dithionite. The intensity of the EPR signal of the [4Fe-4S] cluster corresponds to one-quarter of the enzyme concentration, both in the untreated as well as in the He- or N2-activated enzyme. If the enzyme is activated under He and then brought in contact with air the signal increases 4-fold and represents about one free spin/enzyme molecule. When measured at 35 GHz the line shape and peak positions of the additional signal change, indicating that the signal is not originating from a simple S = 1/2 system. None of the inhibitors of the hydrogenase activity has any effect on the shape or intensity o the EPR signal fo the Fe-S cluster, 2H2O also has no effect. All EPR signals disappear after reduction with NADH or ascorbate in the presence of phenazine methosulphate. It is suggested that the Fe-S cluster is not the primary site of interaction of H2 with the enzyme.
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PMID:Purification and some properties of the soluble hydrogenase from Chromatium vinosum. 626 Jan 99

Maximum growth of Campylobacter fetus subsp. jejuni, strain C-61, occurred when the cultures were incubated with shaking in atmospheres containing approximately 30% hydrogen, 5% oxygen, and 10% CO2. Suspensions of cells grown under these conditions consumed oxygen with formate as the substrate in the presence of 0.33 mM cyanide, which completely inhibited respiration with ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine and with lactate. Spectroscopic evidence with intact cells suggested that a form of cytochrome c, reducible with formate but not with lactate or ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine, can be reoxidized by a cyanide-insensitive system. Analysis of membranes from the cells showed high- and low-potential forms of cytochrome c, cytochrome b, and various enzymes, including hydrogenase, formate dehydrogenase, and fumarate reductase. The predominant carbon monoxide-binding pigment appeared to be a form of cytochrome c, but the spectra also showed evidence of cytochrome o. The membrane cytochromes were reduced by hydrogen in the presence of 2-heptyl-4-hydroxyquinoline-N-oxide at concentrations which prevented the reduction of cytochrome c with succinate as the electron donor. Reoxidation of the substrate-reduced cytochromes by oxygen was apparently mediated by cyanide-sensitive and cyanide-insensitive systems. The membranes also had hydrogen-fumarate oxidoreductase activity mediated by cytochrome b. We conclude that C. fetus jejuni has high- and low-potential forms of cytochrome which are associated with a complex terminal oxidase system.
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PMID:Aerobic and anaerobic respiratory systems in Campylobacter fetus subsp. jejuni grown in atmospheres containing hydrogen. 628 61

Tritrichomonas foetus mutants resistant to metronidazole lack the hydrogenosomal enzymes pyruvate: ferredoxin oxidoreductase and hydrogenase. Hydrogenosomes of these organisms did not oxidize pyruvate or produce ATP in its presence. Elimination of hydrogenosomal metabolism of pyruvate was compensated by an increased rate of glycolysis. The resistant mutants excreted no organic acids and H2 as metabolic end products. Glycolysis of the resistant T. foetus KV1-1MR-100 can be summarized as 1 mol glucose----2 mol ethanol + 2 mol CO2. The parent strain KV1, excreting H2, CO2 and acidic end products, converted about 10% of glucose to ethanol. Both strains produced ethanol from pyruvate through the action of two cytoplasmic enzymes: pyruvate decarboxylase and alcohol dehydrogenase. The specific activity of the former enzyme, catalyzing nonoxidative decarboxylation of pyruvate to acetaldehyde, was nearly seven times higher in the resistant than in the parent strain. Alcohol dehydrogenase reducing acetaldehyde to ethanol was specific to NADPH; it catalyzed the reverse reaction only slowly, and displayed similar activities in both resistant and sensitive trichomonads. Development of anaerobic metronidazole resistance in T. foetus depended on the loss of pyruvate:ferredoxin oxidoreductase as well as on the ability to increase alcoholic fermentation.
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PMID:Metabolic differences between metronidazole resistant and susceptible strains of Tritrichomonas foetus. 637 46

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

Periplasmic hydrogenase [hydrogen:ferricytochrome c3 oxidoreductase, EC 1.12.2.1] from Desulfovibrio vulgaris Miyazaki K (MK) was purified to homogeneity. Its chemical and immunological properties were examined and compared with those of other Desulfovibrio hydrogenases. The pure enzyme showed a specific activity of 1,000 mumol H2 evolution min-1 (mg protein)-1. The enzyme had a molecular weight of 50,000 as estimated by gel filtration and consisted of a single polypeptide chain. The absorption spectrum of the enzyme was characteristic of an iron-sulfur protein and the extinction coefficients at 400 and 280 nm were 34 and 104 mM-1. cm-1, respectively. It contained 9.4 mol iron and 6.9 mol of acid-labile sulfide per mol. The amino acid composition of the preparation was very similar to the value reported for D. desulfuricans NRC 49001 hydrogenase. Rabbit antisera were prepared against the enzyme of D. vulgaris MK. Ouchterlony double diffusion and immunotitration tests of crude extracts from several strains of Desulfovibrio revealed that the enzyme from MK cells was immunologically identical with those from D. vulgaris Hildenborough and D. desulfuricans NRC 49001, but different from those from D. vulgaris Miyazaki F (MF) and Miyazaki Y, and D. desulfuricans Essex 6 strains. It is concluded that among Desulfovibrio hydrogenases, those from D. vulgaris MK, D. vulgaris Hildenborough and D. desulfuricans NRC 49001 form one group in terms of both subunit structure and antigenicity.
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PMID:Characterization of periplasmic hydrogenase from Desulfovibrio vulgaris Miyazaki K. 687 62

The effects of various electron carriers, a substrate (H2) and a reversible inhibitor (CO) on the rate of irreversible oxygen inactivation of clostridial hydrogenase (ferredoxin: H+ oxidoreductase, EC 1.18.3.1) have been studied kinetically. Some electron carriers (e.g., clostridial ferredoxin and methyl viologen) greatly stabilize the enzyme, some (FAD, FMN) drastically reduce its stability, while others (benzyl viologen and methylene blue) only slightly alter the stability. Competitive experiments indicate that stabilizers and destabilizers do not compete with each other for binding with the active center of hydrogenase. Hydrogen and CO do not affect the rate of the oxygen inactivation. On the basis of the results obtained herein and kinetic data on hydrogenase catalysis from the literature, it is concluded that the active center of this hydrogenase comprises at least three different independent subsites. The first one (presumably an iron atom of the iron-sulfur cluster) binds H2 and CO and does not contribute to the oxygen stability. The second one binds stabilizers like methyl viologen while the third one binds destabilizers like FMN and FAD.
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PMID:The effect of electron carriers and other ligands on oxygen stability of clostridial hydrogenase. 702 Jul 66

A major simplification of the methyl coenzyme M methylreductase system of Methanobacterium has been effected. The 500,000-dalton hydrogenase complex has been replaced by an NADPH-coenzyme F420 oxidoreductase. By use of this electron-generating reaction, the methylreductase was found to be localized in component C, an acidic protein fraction. In the presence of the oxidoreductase and the methylreductase, formation of methane under a nitrogen atmosphere was dependent upon the addition of NADPH, coenzyme F420, component B (a new cofactor of unknown structure), ATP, Mg2+, and methyl coenzyme M.
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PMID:Role of component C in the methylreductase system of Methanobacterium. 741 Mar 69

The strictly anaerobic archaeon Thermococcus strain ES-1 was recently isolated from near a deep-sea hydrothermal vent. It grows at temperatures up to 91 degrees C by the fermentation of peptides and reduces elemental sulfur (S(o)) to H2S. It is shown here that the growth rates and cell yields of strain ES-1 are dependent upon the concentration of S(o) in the medium, and no growth was observed in the absence of S(o). The activities of various catabolic enzymes in cells grown under conditions of sufficient and limiting S(o) concentrations were investigated. These enzymes included alcohol dehydrogenase (ADH); formate benzyl viologen oxidoreductase; hydrogenase; glutamate dehydrogenase; alanine dehydrogenase; aldehyde ferredoxin (Fd) oxidoreductase; formaldehyde Fd oxidoreductase; and coenzyme A-dependent, Fd-linked oxidoreductases specific for pyruvate, indolepyruvate, 2-ketoglutarate, and 2-ketoisovalerate. Of these, changes were observed only with ADH, formate benzyl viologen oxidoreductase, and hydrogenase, the specific activities of which all dramatically increased in cells grown under S(o) limitation. This was accompanied by increased amounts of H2 and alcohol (ethanol and butanol) from cultures grown with limiting S(o). Such cells were used to purify ADH to electrophoretic homogeneity. ADH is a homotetramer with a subunit M(r) of 46,000 and contains 1 g-atom of Fe per subunit, which, as determined by electron paramagnetic resonance analyses, is present as a mixture of ferrous and ferric forms. No other metals or acid-labile sulfide was detected by colorimetric and elemental analyses. ADH utilized NADP(H) as a cofactor and preferentially catalyzed aldehyde reduction. It is proposed that, under So limitation, ADH reduces to alcohols the aldehydes that are generated by fermentation, thereby serving to dispose of excess reductant.
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PMID:Effects of elemental sulfur on the metabolism of the deep-sea hyperthermophilic archaeon Thermococcus strain ES-1: characterization of a sulfur-regulated, non-heme iron alcohol dehydrogenase. 764 2


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