EC:1.6.5.3 - FACTA Search

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Query: EC:1.6.5.3 (complex I)
8,901 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Type-I NADH dehydrogenase (Complex I) was solubilized and dissociated into subunits by NaClO4. NADH slows the dissociation. On subsequent stepwise addition of (NH4)2SO4 the dissociation is partly reversed, as is to be expected from the opposing effects of ClO-4 and SO-24, which are on the salting-in and salting-out sides, respectively, of the lyotropic series. 2. In consequence, the aggregates of subunits that are separated by (NH4)2-SO4 fractionation consist of randomly associated subunits as well as fragments of Type I enzyme. The fraction precipitating at 27% satd. (NH4)2SO4 is flavin-poor, that remaining soluble at 55% satd. (NH4)2SO4 flavin-rich and those separating between 27 and 55% satd. (NH4)2SO4 intermediate in composition. 3. The fraction remaining soluble at 55% satd. (NH4)2SO4 contains the purified low-molecular-weight iron-sulphur flavoprotein (Type-II dehydrogenase). It is a dimer consisting of one molecule of FMN, one 28-kilodalton and one 56-kilodalton subunit per protomer. Work of others indicates that it contains 4 Fe and 4 acid-labile S atoms per molecule of FMN. Sometimes the fraction remaining soluble at 55% satd. (NH4)2SO4 contained an additional small subunit (12 kilodaltons) and four additional Fe and acid labile S atoms per protomer. The sedimentation coefficients (s020,w) of the two preparations were 5.3 and 6.6 S, respectively, with calculated frictional ratios of 1.5 and 1.24, respectively. 4. The intermediate fractions are mixtures of the various subunits present in Complex I. Specifically a fraction separating at 55% satd. (NH4)2SO4 was found to be a mixture of two fragments, the pure iron-sulphur flavoprotein and a 26-S fragment that contained per protomer four subunits of 12 kilodaltons, one each of 28, 32, 56 and 77 kilodaltons, one molecule of FMN and 20 Fe and acid-labile S atoms. It was probably tetrameric or even larger. 5. The oxidoreductase activity of the intermediate fractions is dependent on the protein concentration, the activity with ferricyanide increasing and that with ferricytochrome c decreasing with increasing protein concentration. This is interpreted as an increased association of subunits present in the intermediate fractions. Similar results are obtained when flavin-rich and flavin-poor fractions are mixed. The association is cooperative. NADH favours the association of the subunits. 6. Association of the subunits is accompanied by a 10-fold increase in k2 (rate constant for intramolecular electron flow), a 10-fold decrease of the accessibility of ferricyanide to the reduced enzyme and a 10(4)-fold decrease of the accessibility of ferricytochrome c. The Ks (NADH) is also decreased. Although the changes are in the direction to be expected from a conversion of Type II enzyme to Type I, the value of k2 is still much less than in the latter enzyme.
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PMID:Chaotropic resolution of high molecular weight (type I) NADH dehydrogenase, and reassociation of flavin-rich (type II) and flavin-poor subunits. 21 Aug 6

Cytochrome c oxidase has been purified from rat liver mitochondria using affinity chromatography. The preparation contains 10.5 to 13.4 nmol of heme a + a3 per mg of protein and migrates as a single band during polyacrylamide gel electrophoresis under nondissociating conditions. It has a heme a/a3 ratio of 1.12 and is free of cytochromes b, c, and c1 as well as the enzymes, NADH dehydrogenase, succinic dehydrogenase, coenzyme Q-cytochrome c reductase, and ATPase. The enzyme preparation consists of six polypeptides having apparent Mr of 66,000, 39,000, 23,000, 14,000, 12,500 and 10,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The peptide composition is similar to those found for cytochrome c oxidases from other systems. The enzymatic activity of the purified enzyme is completely inhibited by carbon monoxide or cyanide, partially inhibited by Triton X-100 and dramatically enhanced by Tween 80 or phospholipids.
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PMID:Purification and characterization of cytochrome c oxidase from rat liver mitochondria. 21 98

The antigenic architecture of membrane vesicles prepared from Escherichia coli ML 308--225 has been studied using crossed immunoelectrophoresis. Progressive immunoadsorption experiments conducted with control vesicles and with physically disrupted vesicles were used to monitor and quantitate the expression of 14 different immunogens. Eleven immunogens, including NADH dehydrogenase (EC 1.6.33.3), D-lactate dehydrogenase (EC 1.1.1.27), dihydro-orotate dehydrogenase (EC 1.3.3.1), 6-phosphogluconate dehydrogenase (EC 1.1.1.43), polynucleotide phosphorylase (EC 2.3.7.8), and beta-galactosidase (EC 3.2.1.23), exhibit minimal expression (10% or less) unless the vesicles are disrupted. Three unidentified antigens are expressed to a similar extent in untreated and disrupted vesicles. Consideration of these and other results [Owen, P., & Kaback, H. R. (1978) Proc. Natl. Acad. Sci. U.S.A. 75, 3148] in terms of membrane polarity, dislocation of antigens, and possible transmembrane orientation of some immunogens reveals that over 95% of the membrane in the vesicle preparations is in the form of sealed sacculi with the same orientation as the intact cell. Furthermore, antigens are distributed across the membrane in a highly asymmetric manner, indicating that dislocation of components from the inner to the outer surface of the membrane during vesicle preparation does not occur to an extent exceeding 10%.
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PMID:Antigenic architecture of membrane vesicles from Escherichia coli. 21 21

Mitochondrial NADH dehydrogenase (NADH:(acceptor) oxidoreductase, EC .6.99.3) from either Drosophila hydei larvae or embryos has been purified 150- and 120-fold, respectively. The purified enzyme appeared homogeneous and showed a molecular weight of 57 000. The molecular weight of the nondenatured enzyme was 79 000. On isoelectro-focussing of the preparation, two fractions were observed, a major one with an isoelectric point of 6.2 and a minor fraction with an isoelectric point of 4.9. Straight-line kinetics in Lineweaver-Burk plots were observed for the purified enzyme with a Km of 0.040 mM. The Km was not changed during the purification procedure, suggesting that the enzyme was not denatured or inactivated. The pH optimum of the purified enzyme was 5.6. The molecular weight of the purified mitochondrial NADH dehydrogenase does not correspond to that of one of the 'heat-shock' polypeptides.
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PMID:Purification of mitochondrial NADH dehydrogenase from Drosophila hydei and comparison with the 'heat-shock' polypeptides. 22 25

The electron spin relaxation of iron-sulphur centres and ubisemiquinones of plant mitochondria was studied by microwave power saturation of the respective EPR signals. In the microwave power saturation technique, the experimental saturation data were fitted by a least-squares procedure to a saturation function which is characterized by the power for half-saturation (P1/2) and the inhomogeneity parameter (b). Since the theoretical saturation curves were based on a one-electron spin system, it became possible to differentiate between EPR signals of iron-sulphur centres which have similar g values but different P1/2 values. If the difference in the P1/2 values of the overlapped components was small, no significant deviation from these theoretical saturation curves was observed, as shown for the overlapped signals of centre S-3 and the Ruzicka centre of mung bean mitochondria. By contrast, the microwave power saturation data for the g = 1.93 signal (17--26 K) of Arum maculatum submitochondrial particles reduced by succinate could not be fitted using one-electron saturation curves. Reduction by NADH resulted in a stronger deviation. Since the iron-sulphur centres of Complex I were present only in an unusually low concentration in A. maculatum mitochondria, it was proposed that an iron-sulphur centre of the external NADH dehydrogenase contributes to the spectrum of centre S-1. For mung bean mitochondria, the g = 1.93 signal below 20 K could be attributed mainly to centre N-2. The microwave power saturation technique was also suitable for detecting magnetic interactions between paramagnetic centres. From the saturation data of the complex spectrum attributable to centre S-3 and an interacting ubisemiquinone pair in mung bean mitochondria (oxidized state) followed that centre S-3 has a faster electron spin relaxation than the ubisemiquinone molecules. It is noteworthy that the differences in the relaxation rates were maintained despite the interaction between centre S-3 and the ubisemiquinones. Furthermore, a relaxation enhancement was observed for centre S-1 of A. maculatum submitochondrial particles upon reduction of centre S-2 by dithionite. This indicated a magnetic interaction between centres S-1 and S-2.
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PMID:Characterization of iron-sulphur centres of plant mitochondria by microwave power saturation. 22 32

The enzyme system from Clostridium sticklandii catalyzing the NADH-dependent reduction of D-proline was co-purified by chromatography on DEAE-cellulose at pH 8.2 and ammonium sulfate fractionation, and resolved into fractions containing three different protein components, NADH dehydrogenase, D-proline reductase and a third protein factor, by chromatography on DEAE-cellulose at pH 7.0. Upon recombination of the fractions containing the three different protein components, the NADH-dependent reduction of D-proline was successfully reconstituted. The NADH dehydrogenase fractions oxidized NADH in the presence of artificial electron acceptors, and were inhibited by p-hydroxymercuriphenylsulfonate (50% at 80 nM). They contained 3--4 different enzyme bands as revealed by polyacrylamide-gel electropherograms stained with the NADH-dependent reduction of 2,3,5-triphenyltetrazolium chloride. D-Proline reduction was also coupled to a leuco-methylene blue-generating system containing D-glucose and glucose-oxidase (EC 1.1.3.4). Circumstantial evidence indicated that, among the clostridial proteins, only D-proline reductase and the third protein factor were needed for this reaction.
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PMID:NADH-dependent reduction of D-proline in Clostridium sticklandii. Reconstitution from three fractions containing NADH dehydrogenase, D-proline reductase, and a third protein factor. 23 43

NAD+ had a biphasic effect on the NADH oxidase activity in electron transport particles from Mycobacterium phlei. The oxidase was inhibited competitively by NAD+ at concentrations above 0.05 mM. NAD+ in concentrations from 0.02 to 0.05 mM resulted in maximum stimulation of both NADH oxidation and oxygen uptake with concentrations of substrate both above and below the apparent K-M. Oxygen uptake and cyanide sensitivity indicated that the NAD+ stimulatory effect was linked to the terminal respiratory chain. The stimulatory effect was specific for NAD+. NAD+ was also specific in protecting the oxidase during heating at 50 degrees and against inactivation during storage at 0 degrees. NAD+ glycohydrolase did not affect stimulation nor heat protection of the NADH oxidase activity if the particles were previously preincubated with NAD+. Binding studies revealed that the particles bound approximately 3.6 pmol of [14C1NAD+ per mg of electron transport particle protein. Although bound NAD+ represented only a small fraction of the total added NAD+ necessary for maximal stimulation, removal of the apparently unbound NAD+ by Sephadex chromatography revealed that particles retained the stimulated state for at least 48 hours. Further addition of NAD+ to stimulated washed particles resulted in competitive inhibition of oxidase activity. Desensitization of the oxidase to the stimulatory effect of NAD+ was achieved by heating the particles at 50 degrees for 2 min without appreciable loss of enzymatic activity. Kinetic studies indicated that addition of NADH to electron transport particles prior to preincubation with NAD+ inhibited stimulation. In addition, NADH inhibited binding of [14C]NAD+. The utilization of artificial electron acceptors, which act as a shunt of the respiratory chain at or near the flavoprotein component, indicated that NAD+ acts as at the level of the NADH dehydrogenase at a site other than the catalytic one resulting in a conformational change which causes restoration as well as protection of oxidase activity.
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PMID:Effect of nicotinamide adenine dinucleotide on the membrane-associated reduced nicotinamide adenine dinucleotide oxidase of Mycobacterium phlei. 23 63

A relatively simple method has been used to clone the gene coding for the respiratory NADH dehydrogenase (NADH-ubiquinone oxidoreductase) of Escherichia coli from unfractionated chromosomal DNA. The restriction endonucleases EcoRI, BamI and HindIII were used to construct three hybrid plasmid pools from total E. coli DNA and the amplifiable plasmids pSF2124 and pGM706. Three different restriction endonucleases were used to increase the chances of cloning the ndh gene intact. Mobilization by the plasmid F was used to transfer the hybrid plasmids into ndh mutants and selection was made for Apr and complementation of ndh. DNA fragments complementing ndh were isolated from both the EcoRI and HindIII hybrid plasmid pools. The strain carrying the hybrid plasmid constructed with EcoRI produced about 8--10 times the normal level of the respiratory NADH dehydrogenase in the cytoplasmic membrane. Treating the cells with chloramphenicol to increase the plasmid copy number allowed the level of NADH dehydrogenase in the membrane to be increased to 50--60 times the level in the wild type. The results indicate the potential of gene cloning for the specific amplification of particular proteins prior to their purification.
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PMID:Amplification of the respiratory NADH dehydrogenase of Escherichia coli by gene cloning. 36 90

By the use of a mutation, hxB-20, that eliminates purine hydroxylase II activity but retains cross-reacting material and an ancillary NADH dehydrogenase activity, it has been established that 6-hydroxynicotinic acid rather than nicotinic acid, is the true inducer of purine hydroxylase II.
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PMID:Product induction of purine hydroxylase II in Asperigillus nidulans. 38 57

1. Incubation of NADH-ubiquinone oxidoreductase (Complex I) with chymotrypsin caused loss of rotenone-sensitive ubiquinone-1 reduction and an increase in rotenone-insensitive ubiquinone reduction. 2. Within the same time-course, NADH-K(3)Fe(CN)(6) oxidoreductase activity was unaffected. 3. Mixing of chymotrypsin-treated Complex I with Complex III did not give rise to NADH-cytochrome c oxidoreductase activity. 4. Gel electrophoresis in the presence of sodium dodecyl sulphate revealed selective degradation of several constituent polypeptides by chymotrypsin. 5. With higher chymotrypsin concentrations and longer incubation times, a decrease in NADH-K(3)Fe(CN)(6) oxidoreductase was observed. The kinetics of this decrease correlated with solubilization of the low-molecular-weight type-II NADH dehydrogenase (subunit mol.wts. 53000 and 27000) and with degradation of a polypeptide of mol.wt. 30000. 6. Phospholipid-depleted Complex I was more rapidly degraded by chymotrypsin. Specifically, a subunit of mol.wt. 75000, resistant to chymotrypsin in untreated Complex I, was degraded in phospholipid-depleted Complex I. In addition, the 30000-mol.wt. polypeptide was also more rapidly digested, correlating with an increased rate of transformation to type II NADH dehydrogenase.
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PMID:Effects of proteolytic digestion by chymotrypsin on the structure and catalytic properties of reduced nicotinamide-adenine dinucleotide-ubiquinone oxidoreductase from bovine heart mitochondria. 41 83

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