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: UNIPROT:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis of D-6-phospho-[1-14C]gluconate and the utilization of this compound in a novel assay procedure for dihydrofolate reductase is described. This new assay method couples reductase-dependent NADP+ production to the enzymatic and NADP+-dependent decarboxylation of D-6-phospho-[1-14C]gluconate. By several criteria it is demonstrated that [14C]CO2 release is directly proportional to dihydrofolate reductase activity. This coupled radiometric assay for dihydrofolate reductase is more sensitive than the commonly used spectrophotometric assay and offers a number of advantages over earlier radiometric methods.
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PMID:A coupled radiometric assay for dihydrofolate reductase based on the oxidative decarboxylation of D-6-phospho-[1-14C]gluconate. 663 3

Various enzymes of the tricarboxylic acid cycle (TCA) viz., aconitase (E.C. 4.2.1.3), isocitrate dehydrogenase (E.C. 1.1.1.42), succinate dehydrognease (E.C. 1.3.99.1), fumarate reductase (NADH: fumarate oxido-reductase), fumarase (E.C. 4.2.1.2) and maltate dehydrogenase (E.C. 1.1.1.37) were detected in adult Haemonchus contortus (Nematoda: Trichostrongylidae), in vitro. Low activities of aconitase and isocitrate dehydrogenase suggested that the TCA cycle has a minor function and the pathway of CO2 fixation is the major pathway in the energy metabolism of the parasite. In vitro incubation in Tyrode's solution had no significant effect on TCA cycle enzymes and the worm was able to maintain normal metabolism for 12 h. The effects of D L-tetramisole and rafoxanide on various enzymes of the TCA cycle were studied in adult H. contortus. At 50 micrograms ml-1 varying degrees of inhibition of succinate dehydrogenase and fumarate reductase activities were observed. At the same concentration, the activities of other enzymes remained unaltered.
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PMID:The effects of DL-tetramisole and rafoxanide on tricarboxylic acid cycle enzymes of Haemonchus contortus, in vitro. 668 86

Intact membrane vesicles are required to synthesize methane from CO2 and H2 by disrupted preparations of Methanobacterium thermoautotrophicum cells. When membrane vesicles were removed by high-speed centrifugation at 226 600 g, the remaining supernatant fraction no longer synthesized methane. Alternatively, if vesicle structure was disrupted by passage through a Ribi cell fractionator at very high pressures (345 MPa), the bacterial cell extract, with all the particulate fraction in it, did not synthesize methane. Methyl-coenzyme M, a new coenzyme first described by McBride & Wolfe [(1971) Biochemistry 10, 2317--2324], was shown to stimulate methane production from CO2 and H2, as previously reported, but the methyl group of the coenzyme did not appear to be a precursor of methane in this reaction. No methyl-coenzyme M reductase activity was detected in the cytoplasmic fraction of M. thermoautotrophicum cells.
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PMID:Methane production by the membranous fraction of Methanobacterium thermoautotrophicum. 677 75

Study of kinetics of nitrate or nitrite disappearance in soils incubating with atmosphere with or without acetylene, shows that the presence of this gas increases the rate of nitrate or nitrite reduction, and therefore very probably the denitrification process. The decrease of inhibitory effect on N2O-reductase after incubation during 15 days appears to be due to a great extent at a biological transformation of this gas with a consecutive increase of CO2 production. On the other hand, acetylene does not seem to affect perceptibly nitrate immobilisation.
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PMID:[Quantitative study of biological denitrification in soils with the aid of acetylene. II.--Evolution of inhibitory effect of acetylene on N2O-reductase; influence of acetylene on denitrification rate and on nitrate immobilisation (author's transl)]. 677 91

Vitamin K is required for the posttranslational modification of liver precursors of prothrombin, blood coagulation Factors VII, IX, and X and additional proteins of undetermined functions in plasma and other tissues. This modification involves the formation of gamma-carboxyglutamic acid, an acidic amino acid needed for the interaction of these proteins with calcium ions. The vitamin is a cofactor of a unique microsomal carboxylase which requires the reduced form of vitamin K, CO2, and molecular oxygen. The vitamin is apparently oxidized to its 2,3-epoxide during the carboxylation reaction. Liver microsomes also contain an enzyme which catalyzes the reduction of the epoxide to the vitamin, vitamin K epoxide reductase, and a number of vitamin K reductases. The epoxide reductase appears to be the site of the anticoagulant action of 4-hydroxycoumarins, commonly used as oral anticoagulants.
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PMID:Recent findings in understanding the biological function of vitamin K. 680 84

The reduction of flavin in NADH--adrenodoxin reductase by the hydrated electron (eaq-) was investigated by pulse radiolysis. The eaq- reduced directly the flavin of the reductase to form a blue semiquinone of the enzyme. Subsequently, the semiquinone decayed by dismutation to form the oxidized and fully reduced forms of the enzyme with a second-order rate constant of 4.4 x 10(4) M-1 s-1. In the presence of equimolar NADP+, the decay of eaq- accompanied an absorption increase at 400 nm, the spectrum of which, formed transiently, is identical to that of NADP radical (NADP.). Subsequently, the transient species decayed concomitantly with the formation of the semiquinone. The rate constant in the formation of the semiquinone was independent of the concentration of the enzyme (6.1 x 10(4) s-1 at pH 7.5). From these results, it is concluded that eaq- reacts with NADP+ bound to the enzyme to form NADP. initially, and subsequently, an electron flows from the NADP. to the flavin by an intracomplex electron transfer. A similar result was obtained in the reaction of CO2- or N-methylnicotinamide radical with the NADP(+)-adrenodoxin reductase complex. These results suggest that the nicotinamide moiety of NADP+ bound to the enzyme is accessible to the solvent and masks the flavin completely.
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PMID:Interaction of NADPH-adrenodoxin reductase with NADP+ as studied by pulse radiolysis. 754 51

During anaerobic growth Escherichia coli uses a specific ribonucleoside-triphosphate reductase (class III enzyme) for the production of deoxyribonucleoside triphosphates. In its active form, the enzyme contains an iron-sulfur center and an oxygen-sensitive glycyl radical (Gly-681). The radical is generated in the inactive protein from S-adenosylmethionine by an auxiliary enzyme system present in E. coli. By modification of the previous purification procedure, we now prepared a glycyl radical-containing reductase, active in the absence of the auxiliary reducing enzyme system. This reductase uses formate as hydrogen donor in the reaction. During catalysis, formate is stoichiometrically oxidized to CO2, and isotope from [3H]formate appears in water. Thus E. coli uses completely different hydrogen donors for the reduction of ribonucleotides during anaerobic and aerobic growth. The aerobic class I reductase employs redox-active thiols from thioredoxin or glutaredoxin to this purpose. The present results strengthen speculations that class III enzymes arose early during the evolution of DNA.
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PMID:Formate is the hydrogen donor for the anaerobic ribonucleotide reductase from Escherichia coli. 756 12

Cell-free extracts of crotonate-grown cells of the syntrophic butyrate-oxidizing bacterium Syntrophospora bryantii contained high hydrogenase activities (8.5-75.8 mumol.min-1mg-1 protein) and relatively low formate dehydrogenase activities (0.04-0.07 mumol.min-1 mg-1 protein). The KM value and threshold value of the hydrogenase for H2 were 0.21 mM and 18 microM, respectively, whereas the KM value and threshold value of the formate dehydrogenase for formate were 0.22 mM and 10 microM, respectively. Hydrogenase, butyryl-CoA dehydrogenase and 3-OH-butyryl-CoA dehydrogenase were detected in the cytoplasmic fraction. Formate dehydrogenase and CO2 reductase were membrane-bound, likely located at the outer aspect of the cytoplasmic membrane. Results suggest that during syntrophic butyrate oxidation H2 is formed intracellularly while formate is formed at the outside of the cell.
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PMID:Localization of the enzymes involved in H2 and formate metabolism in Syntrophospora bryantii. 757 50

N5-Methyltetrahydromethanopterin:coenzyme M methyltransferase (Mtr) from Methanobacterium thermoautotrophicum strain Marburg is a membrane-associated enzyme complex which catalyzes an energy-conserving, sodium-ion-translocating step in methanogenesis from H2 and CO2. We report here that the complex is composed of eight different subunits for which evidence was obtained at the protein, DNA and RNA levels: (a) SDS/PAGE of the purified complex revealed the presence of eight different polypeptides of apparent molecular masses of 34 (MtrH), 28 (MtrE), 24 (MtrC), 23 (MtrA), 21 (MtrD), 13 (MtrG), 12.5 (MtrB) and 12 kDa (MtrF). The N-terminal amino acid sequences of the 12-, 12.5- and 13-kDa polypeptides, which had previously not been accessible, were determined; (b) cloning and sequencing of the corresponding genes revealed the presence of the eight mtr genes organized in a 4.9-kbp gene cluster in the order mtrEDCBAFGH; (c) Northern-blot analysis revealed the presence of a 5-kbp transcript. DNA probes derived from the mtrE and mtrH genes hybridized to the transcript, indicating that the eight mtr genes are organized in a transcription unit. By primer extension, the 5' end of the mtrEDC-BAFGH mRNA was analyzed. The mtr operon was found to be located between the methyl-coenzyme M reductase I operon (mcr) and a downstream open reading frame predicted to encode a Na+/Ca2+, K+ exchanger.
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PMID:The energy conserving N5-methyltetrahydromethanopterin:coenzyme M methyltransferase complex from Methanobacterium thermoautotrophicum is composed of eight different subunits. 773 57

Synechococcus sp. strain RF-1 exhibits a circadian rhythm of N2 fixation when cells are grown under a light-dark cycle, with nitrogenase activity observed only during the dark period. This dark-dependent activity correlated with nif gene transcription in strain RF-1. By using antibodies against dinitrogenase reductase (the Fe protein of the nitrogenase complex), it was found that there was a distinct shift in the mobility of this protein on sodium dodecyl sulfate gels during the light-dark cycle. The Fe protein was present only when cells were incubated in the dark. Upon illumination, there was a conversion of all Fe protein to a modified form, after which it rapidly disappeared from extracts. These studies indicated that all nitrogenase activity present during the dark cycle resulted from de novo synthesis of nitrogenase. Upon entering the light phase, cells appeared to quickly degrade the modified form of Fe protein, perhaps as a result of activating or inducing a protease. By contrast, transcription of the rbcL gene, which encodes the catalytic subunit of the key enzyme of CO2 fixation (a light-dependent process), was enhanced in the light.
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PMID:Reciprocal light-dark transcriptional control of nif and rbc expression and light-dependent posttranslational control of nitrogenase activity in Synechococcus sp. strain RF-1. 792 99


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