Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.5 (NADH dehydrogenase)
 2,135 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) Aerobic incubation of heart muscle submitochondrial particles in phosphate buffer after treatment with NADH causes a progressive and substantial inhibition of the NADH oxidation system. Succinate oxidation remains almost unaffected by NADH treatment. (2) The loss of NADH oxidase activity is due to an inhibition of the respiratory chain-linked NADH dehydrogenase. This inhibition of the enzyme is very similar to that caused by combination of the organic mercurial mersalyl with NADH dehydrogenase. (3) The inhibition of NADH oxidation is largely prevented by compounds that are known to react with superoxide ions (02-.), including superoxide dismutase, cytochrome c, tiron and Mn2+. EDTA also has a protective effect, but a number of other metal chelating agents, and several proteins, including catalase, are without effect. (4) It is concluded that the inhibition of NADH oxidation of NADH oxidation by superoxide ions or by mersalyl is reversible and is therefore not due to the loss of oxidoreduction components from the respiratory chain or to an irreversible change in protein conformation. (6) The function of mitochondrial superxide dismutase is discussed in relation to the key role of NADH dehydrogenase in energy-conserving reactions and the formation of hydrogen peroxide during mitochondrial oxidations.
Biochim Biophys Acta 1975 Sep 08
PMID:A protective function of superoxide dismutase during respiratory chain activity. 16 98

1. An NADH dehydrogenase, obtained from an extremely halophilic bacterium, was activated by various salts when enzyme activity was measured as the observed velocity, whereas the maximum velocity was unaffected by either the salt concentration or the nature of the salt. 2. Two ion effects were observed; a quantitative cation effect, reflected in changes in the apparent Michaelis constant for 2,6-dichlorophenolindophenol, and a qualitative anion effect, reflected in the apparent Michaelis and dissociation constants for NADH. 3. The data suggest that cations act by neutralizing electrostatic charges surrounding the 2,6-dichlorophenolindophenol-binding site, whereas the anions affect the conformation of the enzyme by altering the accessibility of the NADH-binding site to the bulk solvent. 4. Thus, the apparent activation of this enzyme, obtained from an extremely halophilic bacterium, is a reflection of measuring enzyme activity at non-saturating substrate concentrations.
Biochim Biophys Acta 1975 Sep 22
PMID:Studies of a halophilic NADH dehydrogenase. II. Kinetic properties of the enzyme in relation to salt activation. 16 11

Semliki Forest virus inhibits phosphatidylethanolamine biosynthesis in baby hamster kidney-21 cells 6 h after infection. Viral infection reduced the incorporation of [1,2-14C]-ethanolamine into intact cells by approximately 50%. A similar reduction in the activity of the ethanolaminephosphotransferase (EC 2.7.8.1) was also observed. The apparent Km for CDPethanolamine was 60 muM for the microsomal enzymes from infected or mock-infected cells. In addition, exogenous diglyceride only stimulated by 1.5-fold the ethanolaminephosphotransferase from virus- or mock-infected cells, whereas the same diglyceride preparations stimulated the cholinephosphotransferase (EC 2.7.8.2) from baby hamster kidney cells by sixfold. Generation of endogenous diglyceride by pretreatment of the microsomes with phospholipase C (EC 3.1.4.3) stimulated the activity of the cholinephosphotransferase but not the ethanolaminephosphotranferase. Semliki Forest virus does not inhibit all microsomal enzymes, since the activities of NADH- K3Fe(CN)6 reductase and NADH dehydrogenase (EC 1.6.99.3) were not affected. The ethanolaminephosphotransferase from virus- and mock-infected cells showed similar profiles of activity as a function of temperature; this result and other studies suggest that that membranous environment of the ethanolaminephosphotransferase was not significantly modified by the virus.
Can J Biochem 1975 Sep
PMID:Inhibition of phosphatidylethanolamine biosynthesis in baby hamster kidney-21 cells infected with Semliki Forest virus. 17 Oct 43

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.
Biochim Biophys Acta 1978 Sep 07
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

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.
Gene 1978 Sep
PMID:Amplification of the respiratory NADH dehydrogenase of Escherichia coli by gene cloning. 36 90

Cells of Rhodopseudomonas capsulata, strain 37b4, leu-, precultivated anaerobically under low light intensity, were exposed to high light intensity (2000 W.m-2). The cells grew with a mass doubling time of 3 h. The synthesis of bacteriochlorophyll (BChl) began after two doublings of cell mass. Reaction center and light-harvesting BChl I (B-875) were the main constituents of the photosynthetic apparatus incorporated into the membrane. The size of the photosynthetic unit (total BChl/reaction center) decreased and light-harvesting BChl I became the dominating BChl species. Concomitant with the appearance of the different spectral forms of BChl the respective proteins were incorporated into the membrane, i.e. the three reaction center polypeptides, the polypeptide associated with light-harvesting BChl I, the two polypeptides associated with BChl II. A polypeptide of an apparent molecular weight of 45 000 was also incorporated. A lowering of the light intensity to 7 W.m-2 resulted in a lag phase of growth for 6 h. Afterwards, the time for doubling of cell mass was 11 h. The concentration of all three BChl complexes (reaction center, light-harvesting BChl I and II complexes)/cell and per membrane protein increased immediately. Also the size of the photosynthetic unit and the amount of intracytoplasmic membranes/cell increased. The activities of photophosphorylation, succinate dehydrogenase, NADH dehydrogenase and NADH oxidation (respiratory chain)/membrane protein are higher in membrane preparations isolated from cells grown at high light intensities than in such preparations from cells grown at low light intensities.
Biochim Biophys Acta 1979 Sep 11
PMID:Effects of light intensity on membrane differentiation in Rhodopseudomonas capsulata. 48 32

1. Previous studies have established that diphenyleneiodonium binds to and inhibits the respiratory enzyme NADH dehydrogenase and also catalyses an exchange of Cl- for OH- across membranes. 2. The hypoglycaemia produced by diphenyleneiodonium was confirmed and shown to be reversible at a dose of 4 mg/kg in starved rats. 3. The lethality of diphenyleneiodonium in mice was cumulative. 4. Presumably as a result of the Cl-/OH- exchange, diphenyleneiodonium-treated rats excreted less Cl- than controls in the first 12 h after administration. However, the swelling of erythrocytes observed in vitro did not occur in vivo. 5. When [125I]diphenyleneiodonium was administered to rats and rabbits, its distribution did not appear to be governed by its binding to NADH dehydrogenase. Reasons for this are discussed. 6 Over 90% of the radioactivity excreted in the faeces of rabbits could not be extracted with boiling water or with dil. HNO3.
Xenobiotica 1979 Sep
PMID:Some aspects of the pharmacology of diphenyleneiodonium, a bivalent iodine compound. 52 14

X-band electron-paramagnetic-resonance spectroscopy at 4.2--77K combined with measurements of oxidation-reduction potential was used to identify iron--sulphur centres in Arum maculatum (cuckoo-pint) mitochondria. In the oxidized state a signal with a derivative maximum at g = 2.02 was assigned to succinate dehydrogenase centre S-3. Unreduced particles showed additional signals at g = 2.04 and 1.98 (at 9.2 GHz), which may be due to a spin-spin interaction. In the reduced state a prominent signal at g = 1.93 and 2.02 was resolved into at least three components that could be assigned to centres S-1 and S-2 of succinate dehydrogenase (midpoint potentials -7 and -240 mV respectively at pH 7.2) and a small amount of centre N-1b (e'o= -240 mV) of NADH-ubiquinone reductase. In addition, changes in line shape around -10 mV indicated the presence of a fourth component in this signal. The latter was more readily reduced by NADH than by succinate, suggesting that it might be associated with the external NADH dehydrogenase. The iron-sulphur centres of NADH-ubiquinone reductase were present in an unusually low concentration, indicating that the alternative, non-phosphorylating, NADH dehydrogenase containing a low number of iron-sulphur centres may be responsible for most of the high rate of oxidation of NADH.
Biochem J 1977 Sep 15
PMID:Iron-sulphur centres in mitochondria from Arum maculatum spadix with very high rates of cyanide-resistant respiration. 59 30

A membrane-bound NADH dehydrogenase, solubilized and partially purified from a marine bacterium Photobacterium phosphoreum, contains FAD as the prosthetic group, and is specific for NADH. Ferricyanide, various other redox dyes and cytochrome c can act as electron acceptors. The enzymatic activity when assayed with electron acceptors other than cytochrome c, is activated by monovalent cations (Na+ and K+) and deactivated by high concentrations of monovalent anions (SCN-, NO3-, and Cl-) but not by phosphate ions. The enzymatic reaction follows a ping-pong mechanism and kinetic analysis of the enzyme showed that the activation by monovalent cations is due to increase of affinity of the enzyme for substrates; Vm was not affected. The increase of affinity was 62- and 46-fold for NADH and 57- and 31-fold for 2,6-dichlorophenol indophenol in the presence of Na+ and K+, respectively. On the other hand, NADH-cytochrome c reductase activity of the enzyme was strongly inhibited by these cations.
J Biochem 1978 Sep
PMID:Properties and kinetics of salt activation of a membrane-bound NADH dehydrogenase from a marine bacterium Photobacterium phosphoreum. 72 93

In this paper, we present the nucleotide sequence of a 5248 bp-long region of the mitochondrial (mt) genome of the dermatophyte Trichophyton rubrum. This region which represents about 1/4 of the total mt genome of this species reveals a compact organization of genes including: the glutaminyl tRNA, the methionyl tRNA, the cytochrome oxidase subunit I gene, the arginyl tRNA, the mitochondrial version of the ATPase subunit 9 gene, the cytochrome oxidase subunit II gene and a part of the NADH dehydrogenase ND4L and ND5 gene "complex". The main features of the part of mt DNA sequenced is the non-interrupted COXI gene and the presence in the mitochondrial version of the ATPase 9 gene of a small group IA intron. The extensive amino-acid sequence similarity with the equivalent gene in Aspergillus nidulans and Neuropora crassa indicates that this gene codes for a dicyclohexylcarbodiimide binding protein. The conserved arrangement of this portion of the mt genome and the presence of tRNAs between the protein-coding genes are compatible with a large polycistronic transcript processed by the excision of tRNAs, or similar secondary structures, as proposed for other fungal or mammalian mt DNAS.
Curr Genet 1992 Sep
PMID:Mitochondrial DNA sequence analysis of the cytochrome oxidase subunit I and II genes, the ATPase9 gene, the NADH dehydrogenase ND4L and ND5 gene complex, and the glutaminyl, methionyl and arginyl tRNA genes from Trichophyton rubrum. 132 16


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