KEGG:D02011 - FACTA Search

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Query: KEGG:D02011 (FAD)
5,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of hyperthermia (1 hr, 41 degrees C) on the functional properties of Ehrlich ascites tumor mitochondria was investigated. Mitochondria isolated from Ehrlich ascites tumor after exposure of whole cells to 41 degrees C for 1 hr still phosphorylate and maintain a normal acceptor control ratio (ACR). The temperature decreases state 4 and ADP-and FCCP-stimulated respiration on various substrates entering at three energy-conserving sites of the respiratory chain. The inhibition of oxygen consumption by NAD- and FAD-linked substrates was 40% for state 4 and 70% for ADP- or FCCP-stimulated respiration. State 4 and FCCP-stimulated respiration of mitochondria on TMPD + ascorbate was affected 38% and 45%, respectively. ATPase activity was unaffected by hyperthermia, indicating that under these experimental conditions, the inhibition of ADP-stimulated respiration does not depend on an effect on either Fo F1-ATPase or adenine translocase, the activity of which is required for ATP entry prior to ATPase activity. Because of the inability to detect a specific site of action of temperature, it is conceivable that hyperthermia might inhibit substrate oxidation by altering some components of the inner mitochondrial membrane, which regulates the kinetic properties of the membrane-associated enzymes.
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PMID:Effect of hyperthermia on electron transport in Ehrlich ascites tumor mitochondria. 295 47

Establishing the relative intracellular proportions of flavins in Neurospora crassa (and in other organisms) in vivo may be hampered by degradation of flavins after homogenization of the cells. The system described here allows separation and identification of intracellular free and bound flavins under conditions restrictive for the FAD-degrading enzyme(s). A "protective buffer" containing 0.1 M citrate adjusted to pH 4.0 with K2HPO4, 5 mM ATP, and 0.5 mM EDTA prevents FAD from rapid enzymatic cleavage in crude cell lysates of the Neurospora crassa mutant "slime."
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PMID:Method for identification of intracellular free flavin species in the photosensitive fungus Neurospora crassa. 297 61

Previous attempts to produce anti-(ADP-ribose) antibodies by immunization of rabbits with ADP-ribose conjugated to serum albumin had resulted in the production of 5'AMP-specific antibodies [Bredehorst et al. (1978) Eur. J. Biochem. 82, 105-113]. To obtain true anti-(ADP-ribose) antibodies an antigen was constructed that was resistant to enzymic degradation at the pyrophosphate group. The enzymically active beta-methylene derivative of NAD (NAD[CH2]) was synthesized from ADP containing a methylene bridge (CH2) instead of an oxygen in the diphosphate group. NAD[CH2] was converted to its N6-[(2-carboxyethyl)thiomethyl] derivative and hydrolyzed to the corresponding ADP[CH2]-ribose derivative which was then coupled to bovine serum albumin. The antibodies obtained with this antigen were specific for free or protein-bound ADP-ribose groups, except for a cross-reaction with FAD, AMP, ADP, ATP or poly(ADP-ribose) interfered with [3H]ADP-ribose tracer binding only at higher concentrations. No interference was observed with poly(A), RNA and DNA at 6000-fold excess. The antibodies were purified on a novel type of affinity matrix. This was formed from NAD and guanidinobutyrate by a cholera-toxin-catalyzed reaction and the product, ADP-ribosyl guanidinobutyrate, was bound to Affi Gel by carbodiimide-aided condensation. The purified antibodies allowed the detection of ADP-ribose conjugated to polypeptides in amounts lower than 1 pmol as demonstrated by immunoblotting of [14C]ADP-ribosylated elongation factor 2. They also could be used to observe in situ, by indirect immunofluorescence, the increased mono(ADP-ribosyl)ation of nuclear proteins in dimethyl-sulfate-treated cells, and to show that histone H2B was the principal histone acceptor of single ADP-ribose groups in alkylated 3T3 cells.
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PMID:Production of anti-(ADP-ribose) antibodies with the aid of a dinucleotide-pyrophosphatase-resistant hapten and their application for the detection of mono(ADP-ribosyl)ated polypeptides. 300 88

The interactions of aminoglycoside, 3',4'-dideoxykanamycin B(DKB) with ATP and its related compounds were investigated. ATP, ADP, cyclic AMP and FAD bound to the DKB-conjugated Sepharose 4B column. The binding of DKB to ATP was also confirmed by equilibrium gel filtration. In the acidic pH region, the fluorescence of nucleotides was quenched by DKB. The Stern-Volmer plots showed that the molar ratios of the complexes were 1:1. The apparent stability constant was dependent on the number of the phosphate groups of nucleotides and was in the order of ATP greater than ADP greater than AMP.
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PMID:Binding of 3',4'-dideoxykanamycin B to ATP and its related compounds. 302 Mar 30

Pyruvate dehydrogenase from Desulfovibrio vulgaris Miyazaki F was partially purified from the soluble fraction of the bacterial sonicate, and characterized. The enzyme catalyzes oxidative decarboxylation of pyruvate to produce acetyl-CoA, in contrast to statements in current review articles in which acetyl phosphate is indicated to be a direct decomposition product of pyruvate in sulfate-reducing bacteria. The established reaction stoichiometry is: pyruvate + CoA + FMN----acetyl-CoA + CO2 + FMNH2. The Km values are 2.9 mM for pyruvate, 32 microM for CoA and 6.7 mumol for FMN. Participation of thiamine diphosphate in the enzymic process was not proven. 2-Oxobutyrate, but not 2-oxoglutarate, can substitute for pyruvate. The three flavin compounds, FMN, FAD, and flavodoxin, as well as clostridial ferredoxin, serve as electron carriers for the enzyme. Thus the enzyme is a kind of pyruvate synthase [EC 1.2.7.1], but acts in the direction of pyruvate degradation in the growing cells. The rate of cytochrome C3 reduction is extremely low, but in the presence of flavodoxin as an electron mediator, the reduction rate of cytochrome C3 becomes faster than the reduction rate of flavodoxin alone. It seems that the physiological electron acceptor for this enzyme is flavodoxin, which might be complexed with cytochrome C3 to produce a very efficient electron transfer system in the cell. The soluble fraction of D. vulgaris cells has been proved to contain, in addition to the pyruvate dehydrogenase, lactate dehydrogenase (Ogata, M., Arihara, K., & Yagi, T. (1981) J. Biochem. 89, 1423-1431), phosphate acetyltransferase and acetate kinase, i.e., all the enzymes necessary to convert lactate to acetate, producing ATP by substrate level phosphorylation.
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PMID:Pyruvate dehydrogenase and the path of lactate degradation in Desulfovibrio vulgaris Miyazaki F. 302 4

The superoxide-forming NADPH oxidase of human neutrophils was studied in subcellular fractions of unstimulated cells. Purified neutrophils were disrupted by nitrogen cavitation and separated on Percoll density gradients into four fractions: alpha, azurophil granules; beta, mostly specific granules; gamma, plasma membrane, and cytosol. NADPH-dependent O2-. formation by these fractions was quantitated as the rate of superoxide dismutase-inhibitable reduction of ferricytochrome c. In the presence of cytosol, NADPH, and either arachidonic acid (optimum 90 microM) or sodium dodecyl sulfate (optimum 160 microM), 70-75% of the oxidase was in the beta fraction and about 25% was in the gamma fraction. A similar distribution was found for cytochrome b559 and FAD, two putative components of the oxidase. The reaction rates observed with arachidonic acid activation were sufficient to account for 25-75% of the O2-. generated by intact neutrophils. The properties of the beta and gamma enzymes were similar and closely resembled those of the oxidase in intact neutrophils or disrupted prestimulated cells. These included resistance to azide and cyanide, a pH optimum of 7.4, and a preference for NADPH (Km approximately 40-45 microM) rather than NADH (Km approximately 2.5 mM) as the electron donor. The combination of beta and gamma fractions displayed additive activity. The activatable oxidase required Mg2+ but not Ca2+. ATP was required for maximum reaction rates. When beta and gamma membranes were preincubated with cytosol and arachidonic acid in the presence of millimolar Mg2+ and then ultracentrifuged membrane-bound O2-. -forming activity was recovered in the pellet and the enzyme required only NADPH (i.e. no cytosol, arachidonic acid, or Mg2+) for expression of activity. These data suggest that cytosol contains a Mg2+-dependent oxidase-activating factor. Molecular sieve chromatography of cytosol indicated a single peak of activity (i.e. ability to activate O2-. generation by beta and/or gamma fraction) eluting with molecules of about 10,000 daltons.
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PMID:NADPH oxidase of human neutrophils. Subcellular localization and characterization of an arachidonate-activatable superoxide-generating system. 303 Oct 60

Flavin adenine dinucleotide synthetase (ATP:FMN adenylyltransferase, EC 2.7.7.2) was purified about 10,000-fold from the high-speed supernatant of rat liver by a sequence of ammonium sulfate fractionation and column chromatographies on DEAE-Sephadex (A-50), chromatofocusing, FMN-agarose affinity, and Sephadex G-200. The specific activity of the purified enzyme was 133 units (nanomoles of FAD formed per min at 37 degrees C)/mg of protein. This preparation was free from contaminating FAD pyrophosphatase. The apparent molecular weight was estimated to be 97,000 by gel filtration on Sephadex G-200. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed an apparent subunit molecular weight of 53,000. Hence, the enzyme is a dimer of approximately 100,000. The enzyme was found most active at pH 7.1, requires Mg2+, and is essentially irreversible in the direction of FAD formation. Kinetic analysis gave Km values of 9.6 microM for FMN and 53 microM for ATP.
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PMID:Complete purification and general characterization of FAD synthetase from rat liver. 303 93

The metabolism of [14C]pipecolic acid was studied in peroxisomal fractions of rat liver obtained by density gradient centrifugation in Percoll. The production rate of [14CO2] was used to measure the metabolic activity of the fractions towards [14C]carboxypipecolic acid as a substrate. It was shown that this activity was located in the peroxisomal fractions by comparison with the peroxisomal marker enzyme urate oxidase (EC 1.7.3.3). The process was markedly elevated by the addition of FAD. The apparent Km for DL-pipecolic acid was found to be 1.2 mmol L-1. Addition of ATP (1 mmol L-1) did not influence the decarboxylation rate of pipecolic acid. These results might explain the defective metabolism of pipecolic acid in patients with Zellweger syndrome who are lacking peroxisomes.
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PMID:Localization of pipecolic acid metabolism in rat liver peroxisomes: probable explanation for hyperpipecolataemia in Zellweger syndrome. 311 31

We have recently reported that prostaglandin F2 alpha can be chain-shortened by isolated rat liver peroxisomes. In the present study it is further established by cell fractionation experiments that the enzymes involved in this reaction are localized to peroxisomes. Under the conditions employed, the highest activity was found in the light mitochondrial fraction. Further fractionation of the light mitochondrial fraction by sucrose density gradient centrifugation showed that the prostaglandin oxidation activity comigrated with peroxisomal marker enzymes. Di(2-ethylhexyl)phthalate treatment resulted in a tenfold increased capacity for the conversion of prostaglandin F2 alpha into tetranorprostaglandin F1 alpha. The reaction was not inhibited by KCN. The reaction was further characterized with respect to cofactor requirements. The prostaglandin oxidation was found to be completely dependent on NAD, CoA, ATP, Mg2+ and was stimulated by FAD. Incubation of prostaglandin E2 with peroxisomes resulted in conversion into several products. After alkaline hydrolysis, one of these was identified as tetranorprostaglandin B1.
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PMID:Peroxisomal chain-shortening of prostaglandin F2 alpha. 324 14

E. coli cells harbouring the recombinant plasmid pDB222 with the 6-HDNO gene under the control of the tac-promotor were induced with IPTG to synthesize a high amount of 6-HDNO protein. Part of this protein was present as 6-HDNO apoenzyme. The proportion of 6-HDNO apoenzyme formed could be increased when the induction of 6-HDNO synthesis by IPTG was performed in the presence of the inhibitor diphenyleneiodonium. The 6-HDNO apoenzyme thus formed could be transformed into enzymatically active holoenzyme in the presence of FAD by a process requiring an energy-generating system consisting of ATP, phosphoenolpyruvate and pyruvate kinase. This finding suggests that an enzymatic step(s) is (are) involved in the covalent flavinylation of 6-HDNO.
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PMID:Covalent flavinylation of 6-hydroxy-D-nicotine oxidase involves an energy-requiring process. 331 42

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