UNIPROT:O95477 - FACTA Search

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Citrate is fermented by Klebsiella pneumoniae to 2 acetate, 0.5 formate and 1.2 CO2. The formation of less than 1 formate and greater than 1 CO2 per citrate can be accounted for by the oxidation of formate to CO2 in order to provide reducing equivalents for the assimilation of citrate into cell carbon. A membrane-bound electron transport chain is apparently involved in NADH synthesis by these cells. The electrons from formate oxidation to CO2 are used to reduce ubiquinone to ubiquinol by membrane-bound formate dehydrogenase and ubiquinol further delivers its electrons to NAD+, if this endergonic reaction is powered by delta mu Na+. The endogenous NADH level of K. pneumoniae cells thus increased in the presence of formate in response to a delta pNa+ greater than -100 mV. NADH formation was completely abolished in the presence of oxygen or after addition of hydroxyquinoline-N-oxide, a specific inhibitor of the Na(+)-translocating NADH:ubiquinone oxidoreductase. The increase of endogenous NADH was dependent on the delta pNa+ applied to the cells. Inverted membrane vesicles of K. pneumoniae catalysed the reduction of NAD+ to NADH with formate as electron donor after application of delta mu Na+ of about 120 mV consisting of delta pNa+ of 60 mV and delta psi of the same magnitude. Neither the delta pNa+ nor the delta psi of this size alone was sufficient to drive the endergonic reaction. Strictly anaerobic conditions were required for NADH formation and hydroxyquinoline-N-oxide completely inactivated the reaction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:NADH formation by Na(+)-coupled reversed electron transfer in Klebsiella pneumoniae. 150 43

Purified cytoplasmic and membrane-bound lactate dehydrogenases (LDH) from white muscle of skate were characterized, Km for pyruvate and NADH for purified LDH were 150 +/- 16 and 29 +/- 7 microM, and for membrane-bound LDH were 185 +/- 22 and 7.5 +/- 1.5 microM, respectively. The membrane-bound enzyme was not inhibited by high pyruvate concentration (up to 20 mM) in contrast to purified LDH. Part of membrane-bound LDH was released by incubation in solutions with a high level of KCl (up to 1 M) or at alkaline pH. The inactivation rate during trypsin digestion for solubilized LDH was 2-3-fold higher than that for the membrane-bound enzyme.
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PMID:Free and membrane-bound lactate dehydrogenase from white driving muscles of skate. 161 Mar 89

The mechanism of stimulation of 17 beta-estradiol (E2) formation from estrone (E1) by 5 alpha-dihydrotestosterone (5 alpha-DHT) in placental villi was investigated by examining; (1) if dehydroepiandrosterone (DHA) was stimulatory, (2) if NAD(P)H-generating, non-steroidal substrates stimulated E2 formation, (3) the subcellular localization of the effect, (4) if NAD(P) or NAD(P)H was required and (5) rates of 5 alpha-DHT oxidation by villi and microsomes. Although 5 alpha-DHT and DHA both inhibited the E2 to E1 reaction in villi and microsomes, only 5 alpha-DHT stimulated the conversion of E1 to E2. Glucose and lactate were slightly stimulatory when compared with 5 alpha-DHT. Stimulation of E2 formation was observed with microsomes but not with cytosol, and NAD or NADP was required. The results indicate that neither inhibition of the back reaction, E2 to E1, nor NADH or NADPH formation via the 3 beta-hydroxysteroid dehydrogenase/5-ene-3-ketosteroid isomerase reaction can account for the stimulation. It is proposed that the mechanism of stimulation involves one or more forms of membrane-bound 17 beta-hydroxysteroid oxidoreductase with NADH or NADPH formed as a product of 5 alpha-DHT oxidation being used as the cofactor for E1 reduction. This may involve a direct transfer of reduced pyridine nucleotide between enzyme molecules without equilibration with intracellular coenzyme pools.
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PMID:Regulation of human placental 17 beta-hydroxysteroid oxidoreductase: mechanism of stimulation of 17 beta-estradiol formation from estrone by 5 alpha-dihydrotestosterone in homogenates and villi in vitro. 165 69

Membrane-bound NADPH oxidase of pig blood neutrophils was solubilized with heptylthioglucoside in a high yield. The solubilized preparation from myristate-stimulated cells (sample S) showed high O2- generating activity, and the preparation from resting cells (sample R) had no activity, but the two samples had equal amounts of flavins and cytochrome b-558 (cyt b-558). The electron transfer reactions to exogenous cytochrome c (cyt c) or cyt b-558 in samples S and R were examined. Under anaerobic conditions, NADPH-dependent cyt c reductase activity appeared higher in sample S than in sample R, and the addition of FMN and FAD greatly enhanced the reductase activity of sample S, but not that of sample R. No marked difference between the reductase activities of samples S and R was seen with NADH. Photoreduction of the NADPH oxidase system was examined in the absence of NADPH under anaerobic conditions by monitoring the reduction rates of exogenous cyt c using a flashlight with cut-off filters between 400 and 500 nm. Cyt c reduction was much higher in sample S than in sample R on photoexcitation at about 450 nm. Photoreduction was carried out with a band-pass filter for selective irradiation at 450 nm. Marked reduction of exogenous cyt c was observed only in sample S: the small reduction of cyt c by sample R was independent of the light wavelength and was equal to the blank level. In contrast, no difference in the reduction of cyt b-558 by the two samples was found by either NADPH or photoreduction. Under aerobic conditions, no direct reduction of either cyt c or cyt b-558 was observed. These results suggest that an NADPH-cyt c reductase (a membrane-bound flavoprotein) is involved in the NADPH oxidase system of stimulated neutrophils.
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PMID:Electron transfer reactions in the NADPH oxidase system of neutrophils--involvement of an NADPH-cytochrome c reductase in the oxidase system. 165 5

Female virgin rats, Wistar strain, divided into three groups of 18 each, were fed either a diet containing 45% of calories as fat (45 g%), the second received low-fat diet (15 g%), before and throughout pregnancy, and the third served as control. For both dietary fat levels, the polyunsaturated to saturated fatty acid (P/S) ratio was adjusted by substitution of saturated fatty acids for corn oil, to provide P/S of 2.0. The control group was fed a diet containing 30% of calories, as fat, with a P/S ratio of 1.0. Rats were sacrificed by decapitation 20 days after mating: fetuses, placenta and liver were then removed and weighed. Liver and placenta mitochondria were isolated. Phospholipids were extracted from mitochondrial membranes, and fatty acid tail composition was determined. Cytochrome c oxidase (a3) and rotenone-insensitive-NADH cytochrome c reductase (NADH cyt c red) in mitochondria subfractions were also assayed. The high-fat diet (45 g%) resulted in an increase in both liver and placental a3, but NADHcyt-c-red, activity did not change. The low fat diet (15 g%) reduced the activity of insensitive rotenone-NADH cytochrome c reductase. The fetal weight of the mothers fed the high-fat diet was higher (p less than 0.001) than in the other groups. No difference in fetal weight was observed between the pregnant groups fed 30% or 15% of calories (fat diets). These results suggest that changes in the fatty acid mitochondrial phospholipids which reflects the composition of dietary fat can result in changes in lipid-dependent function of integral membrane-bound enzymes. Therefore, it can be postulated that the increase of membrane fatty acid Omega 6 enhanced the a3 enzyme activity, which correlated with an increase in fetal growth.
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PMID:[The effect of dietary Omega 6 polyunsaturated fatty acids on the activity of enzymes associated with liver mitochondrial and placental function in rats]. 166 97

Microsomal membranes prepared from the mesophilic yeast Candida lipolytica grown at 10 degrees C were hydrogenated by the homogeneous Pd-catalyst, palladium di (sodium alizarine sulfonate) (Pd(QS)2). After hydrogenation to various levels, the microsomes were washed free of the Pd-complex and transferred to a reaction mixture (containing NADH, MgCl2, ATP, CoA and [14C]18:1-CoA) for assay of 18:1-CoA desaturase activity. Microviscosity alterations were also followed by measuring changes in DPH fluorescence polarization. Rapid catalytic hydrogenation of unsaturated fatty acids of the lipids occurred within 20-120 s, resulting in large increases in 16:0, 18:0 and 18:1 acids and decreases in 18:2 acid. In the range 7-20% 18:0 content, a pronounced increase in desaturase activity was observed, with a maximum of greater than 2-fold at a 18:0 content of 12%, followed by a decrease to the initial activity at 33% 18:0 content. These changes were well-correlated with changes in microviscosity, maximal desaturase activity occurring in the DPH fluorescence anisotropy range of 0.23-0.24; above and below this range, desaturase activities were close to the initial control values. It is suggested that the hydrogenation-induced increase in the formation of 18:2 from 18:1-CoA (proceeding partly through direct desaturation of PC) may be due to changes in conformation of the membrane-bound desaturase enzyme complex as a result of controlled rigidification of the surrounding lipids. The operation of such a self-regulating control mechanism would be consistent with a previously proposed model for microsomal desaturase action.
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PMID:Lipid hydrogenation induces elevated 18:1-CoA desaturase activity in Candida lipolytica microsomes. 168 4

Both the external oxidation of NADH and NADPH in intact potato (Solanum tuberosum L. cv. Bintje) tuber mitochondria and the rotenone-insensitive internal oxidation of NADPH by inside-out submitochondrial particles were dependent on Ca2+. The stimulation was not due to increased permeability of the inner mitochondrial membrane. Neither the membrane potential nor the latencies of NAD(+)-dependent and NADP(+)-dependent malate dehydrogenases were affected by the addition of Ca2+. The pH dependence and kinetics of Ca(2+)-dependent NADPH oxidation by inside-out submitochondrial particles were studied using three different electron acceptors: O2, duroquinone and ferricyanide. Ca2+ increased the activity with all acceptors with a maximum at neutral pH and an additional minor peak at pH 5.8 with O2 and duroquinone. Without Ca2+, the activity was maximal around pH 6. The Km for NADPH was decreased fourfold with ferricyanide and duroquinone, and twofold with O2 as acceptor, upon addition of Ca2+. The Vmax was not changed with ferricyanide as acceptor, but increased twofold with both duroquinone and O2. Half-maximal stimulation of the NADPH oxidation was found at 3 microM free Ca2+ with both O2 and duroquinone as acceptors. This is the first report of a membrane-bound enzyme inside the inner mitochondrial membrane which is directly dependent on micromolar concentrations of Ca2+. Mersalyl and dicumarol, two potent inhibitors of the external NADH dehydrogenase in plant mitochondria, were found to inhibit internal rotenone-insensitive NAD(P)H oxidation, at the same concentrations and in manners very similar to their effects on the external NAD(P)H oxidation.
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PMID:Effect of calcium ions and inhibitors on internal NAD(P)H dehydrogenases in plant mitochondria. 172 51

Slow active/inactive transition of the membrane-bound mitochondrial NADH-ubiquinone reductase (Kotlyar, A.B. and Vinogradov, A.D. (1990) Biochim. Biophys. Acta 1019, 151-158) is sensitive to Ca2+ and other divalent cations. Millimolar concentrations of Ca2+ drastically reduce the rate of the turnover-dependent activation of NADH-ubiquinone reductase. When NADH oxidase, the rotenone-sensitive NADH-ubiquinone reductase or the succinate-supported delta mu H+-dependent NAD+ reduction were initiated by the deactivated enzyme preparations all the three activities were strongly inhibited by Ca2+; no sensitivity of these reactions to Ca2+ was observed when the assays were started by the activated enzyme preparations. The affinity of the deactivated enzyme to polyvalent cations was in the following order: Ni2+ greater than Co2+ greater than La3+ greater than Mn2+ greater than Ca2+ approximately Mg2+ greater than Ba2+. Monovalent metal cations had no effect on the slow turnover-dependent enzyme activation. The apparent affinity of the deactivated enzyme to Ca2+ was strongly pH-dependent. The KCa2+ values of 5.7 mM and 0.6 mM at pH 7.5 and 8.5 were determined from the presteady-state kinetics parameters. The spontaneous temperature-dependent deactivation of the enzyme was insensitive to Ca2+. Ca2+ increases the reactivity of the enzyme sulfhydryl group in the deactivated preparations towards N-ethylmaleimide. This effect was also used to quantitate Ca2+ affinity for the enzyme. The KCa2+ values of 1.2 mM and 0.4 mM at pH 8.0 and 9.0, respectively, were determined. The data obtained suggest that Ca2+ content in the mitochondrial matrix may play an important role in the control of NADH oxidation by the respiratory chain.
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PMID:Effect of Ca2+ ions on the slow active/inactive transition of the mitochondrial NADH-ubiquinone reductase. 173 7

The kinetics of the NAD: artificial acceptor-oxidoreductase and delta mu H(+)-dependent succinate: NAD(+)-oxidoreductase reactions (reverse electron transfer) reactions catalyzed by the membrane-bound complex I was studied. The values of apparent rate constants of dissociation of complexes of the oxidized and reduced enzyme with NAD+ and NADH were determined. It was shown that the apparent affinity of NADH for the oxidized complex I is by nearly three orders of magnitude as high as that of the reduced one; a reverse correlation is found for NAD+. A kinetic scheme of complex I functioning in the forward and reverse reactions, according to which the free reduced enzyme is not an intermediate of the forward (NADH-oxidase) reaction and the free oxidized enzyme is not an intermediate of the reverse (NAD(+)-reductase) reaction, is proposed.
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PMID:[Kinetics of NADH oxidation of NAD+ reduction by mitochondrial complex I]. 174 28

Microsomes possessing the lactate dehydrogenase (LDH) activity were isolated from white driving muscles of the skate (Raja clavata) using differential centrifugation. It was shown that the increase of the ionic strength after addition of 0.6 M KCl and alkalinization of the medium result in the solubilization of the LDH activity - by 50% and 80%, respectively. The Km values for pyruvate and NADH are 171 microM and 7.5 mM, respectively. Membrane-bound LDH, is not inhibited by pyruvate excess (up to 20 mM); the rate of the enzyme inactivation by trypsin is 3 times as low as that of the solubilized enzyme. The existence of two-membrane-bound LDH pools is postulated. The enzyme from the first pool is bound to the membrane by electrostatic whereas the second pool LDH - by hydrophobic forces.
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PMID:[Characteristics of microsome-bound lactate dehydrogenase from skate white muscles]. 180 5

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