HUMANGGP:021133 - FACTA Search

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Query: HUMANGGP:021133 (ATP)
132,114 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Certain characteristics of chicken liver cells nuclei NAD-pyrophosphorylase (NMN-adenylytranspherase, EC 2.7.7.1) were investigated. It was established that NAD-pyrophosphorylase activity optimum pH is within interval of 7.0-7.5; temperature optimum - 38-39 degrees C; factor Q10 is equal to 2. Enzyme activation energy, inactivation energy and enthalpy were calculated; apparent Km values of NAD-pyrophosphorylase with respect to NMN and ATP are equal to 1.62-10(-7) M and 2.61-10(-7) M, respectively.
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PMID:[Properties of NAD-pyrophosphorylase of the nuclei of liver cells of chickens]. 0 Aug 33

Citrate synthase activity of Saccharomyces cerevisiae was determined by a radioactive assay procedure and the reaction product, 14C-citric acid, was identified by chromatographic techniques. ATP, d-ATP, GTP and NADH were most inhibitory to the citrate synthase invitro. The activity was inhibited to a lesser extent by ADP, UTP, and NADP whereas, AMP and CTP were much less inhibitory. NADH, like NAD, glutamic acid, glutamine, arginine, ornithine, proline, aspartic acid and alpha-ketoglutarate exhibited no inhibition. These results have been discussed in the light of the role of citrate synthase for the energy metabolism and glutamic acid biosynthesis.
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PMID:Regulation of citrate synthase activity of Saccharomyces cerevisiae. 0

1. A soluble protein with a molecular weight of 11-12-10(3) has been isolated from bovine-heart mitochondria, which stimulates the following ATP-dependent reactions of submitochondrial particles treated with 0.6 mM EDTA and 1 M NH4OH: reverse electron transfer from succinate to NAD, transhydrogenation from NADH to NADP, and ATP-Pi exchange. The factor has no effect on the NADH oxidase, succinate oxidase and ATPase activities of the particles. 2. The stimulatory effect of the factor in the ATP-dependent reduction of NAD by succinate is 12 mumol-min-1-mg-1 of the factor protein. However, the NH4OH-EDTA treated particles are saturated for maximal activation of the above reaction by very small amounts of the factor (about 20-40 mug factor per mg particle). 3. Electrophoresis of the factor preparation on polyacrylamide gels showed a single protein band plus a nonprotein material which moved at the dye front and was weakly stained with Coomassie Blue. The protein was shown to be required for activation of the particles; whether the fast-moving, nonprotein material is also required is not known. 4. The factor is inhibited by mercurials and N-ethylmaleimide. The former, but not the latter, inhibition is completely reversed by 1,4-dithiothreitol. 5. The NH4OH-EDTA treated particles are also stimulated by rutamycin up to about 0.1 nmol of rutamycin per mg particle; higher rutamycin concentrations inhibit. Depending on the particle preparation, the factor stimulates up to about 3 nmol per mg particle, but does not inhibit at higher concentrations. In addition, under certain conditions in which appropriate concentrations of rutamycin fail to stimulate the particles, the factor still does.
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PMID:Purification and properties of a low molecular weight protein factor of mitochondrial energy-linked functions. 0 97

The purpose of this work was in investigate the capability of cell extracts of Escherichia coli and E. coli treated with colicin K to catalyze the following energy-dependent reverse transhydrogenase reaction: NADP + NADH + ATP in equilibrium NADPH + NAD +ADP + Pi. Under anaerobic conditions this reaction requires the presence of a specific portion of the electron transport chain, a functional energy coupling system, including an adenosine triphosphatase, enzyme, and ATP as energy source. The ATP-linked reaction was partially inhibited in French press extracts of E. coli K-12 C600 cells that had been pretreated with colicin K but not in extracts from similarly treated cells of a colicin-tolerant mutant. Ultracentrifugation of extracts yielded particulate fractions competent in catalyzing the reaction; this reaction is substantially inhibited in fractions from colicin-treated cells. The extent of inhibition increased with increasing concentration of colicin. Supernatants also supported ATP-linked formation of NADPH, but this reaction was insensitive to the colicin effect. A comparison between the requirement of the reaction in supernatant and particulate fractions suggests that the reaction in the supernatant is different from the one inhibited by colicin. The ATP-hydrolyzing ability of particulate fractions from the control or treated bacteria was identical. Likewise, the electron transport chain was not affected by colicin treatment, as evidenced from lack of effect on NADH oxidase, succinic dehydrogenase, and NADPH-NAD transhydrogenase. It is concluded that colicin K interferes with the coupling of ATP the utilization of the intermediate for the ATP-linked transdehydrogenase reaction.
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PMID:Effect of colicin K on a membrane-associated, energy-linked function. 0 29

Separation of ATP, ADP, AMP, adenine, adenosine, cAMP, ITP, IDP, IMP, hypoxanthine, inosine, cIMP, the guanine series, NAD, NADPH, xanthine, 3-methylxanthine, theobromine, theophylline, and caffeine was accomplished using high-performance liquid chromatography with a microparticulate reversed-phase column. Under isocratic conditions all compounds could be eluted with reasonable resolution and retention time. Quantitation by peak height for several of the compounds was used to the 10-ng level.
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PMID:Isocratic separation of some purine nucleotide, nucleoside, and base metabolites from biological extracts by high-performance liquid chromatography. 0 84

Perfusion of the rat liver in situ for 150 min provides for maintaining optimal values of acid-base balance for the following indexes: surplus of bases, content of standard bicarbonate, buffer bases pH, pO2, pCO2, HbO2, the level of bile secretion, content of lactate, pyruvate, ATP, ADP, that evidences for a high functional activity in the tissue. Introduction of dinitro-ortho-cresol (DNC) into the perfusion liquid causes development of acidosis. DNC results in dissociation of oxidative phosphorylation: the content of ATP and intensity of inorganic phosphorus utilization decrease, oxygen uptake intensifies. A compensatory increase in the glycolysis intensity directed to maintaining the level of macroergs under these conditions is is pronounced in the intensified uptake of glucose, in a rise in the content of lactate in perfusate and an increase in the pyruvate kinase activity in the liver. The redox state of NAD-pairs (ratio of [NAD+] : [NADN] calculated from the content of redox metabolites and the equilibrium constant for the lactate dehydrogenase system shifts toward an increase in the reducing properties of hepatocytes cytoplasm. The phosphate potential value calculated from the ratio [ATP] : [ADP] - [Pinor] lowers under conditions of the experiment.
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PMID:[Dinitroorthocresol dissociation of oxidative phosphorylation in the rat liver perfused in situ]. 0 66

A hitherto undescribed sphingomyelinase (sph'ase 7.4) of human brain has been studied in crude and partially purified (3- to 4- fold) extracts of grey matter, and compared to the known sphingomyelinase with an acid pH optimum (sph'ase 5.0). Its specificity for sphingomyelin as substrate is similar to that of sph'ase 5.0, but it differs from sph'ase 5.0 in its pH optimum (7.4 vs 5.0) and in a requirement for Mg2+ for optimal activity. Other properties of sph'ase 7.4 that distinguish it from sph'ase 5.0 include (a) its lack of appreciable solubilization during dialysis of crude homogenates (b) a more marked concentrations in grey matter than in white matter (9- to 13- fold vs 1.5- to 2-fold for sph'ase 5.0); (c) inhibition by Ca2+ and Cd2+ ions, and by EDTA; (D) stimulation by dithiothreitol, and inhibition by cysteine, N-ethylmaleimide, and p-hydroxymercuribenzoate; (e) lack of inhibition by nucleotides (AMP.ADP, and ATP) and by NAD plus NADH; and (f) relative instability to storage or manipulation between -20degrees C and 40degrees C. These differences indicate the SPH'ASE 7.4 is a different enzyme protein from sph'ase 5.0. Unlike sph'ase 5.0, which is widely distributed in mammalian tissues, sph'ase 7.4 occurs predominantly in grey matter and little activity was observed is spleen, liver, or leukocytes. The high levels of this enzyme in brain suggest a role related to the specific functions of this organ or to the need for a more stringent control of sphingomyelin catabolism in brain as compared to other organs.
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PMID:Sphingomyelinase activity at pH 7.4 in human brain and a comparison to activity at pH 5.0. 0 63

The effect of hemorrhagic shock, hypoxemia, and anoxia on the levels of adenine and pyridine nucleotides of liver and kidney was assessed. ATP levels in liver and kidney of animals in shock or animals subjected to 7 min of anoxia decreased by 85 and 73%, respectively. Under hypoxic conditions (arterial PO2 AT 18 MMHg), the decrease was only 62 and 48% in liver and kidney, respectively. Tissue NAD levels decreased and NADH levels increased during shock but were found to be essentially unaltered during experimental hypoxemia. Thus, shock produced greater alterations in adenine and pyridine nucleotides than did hypoxemia alone, indicating that stagnant hypoxemia due to shock is more deleterious to energy metabolism than is severe hypoxemia with an otherwise normal circulation. The results also suggest that if an anterial PO2 OF 18 MMHg represents the initial stages of tissue hypoxia, then tissue ATP levels are a more sensitive indicator of this than NAD levels.
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PMID:Differences in the altered energy metabolism of hemorrhagic shock and hypoxemia. 1 Oct 40

A highly purifed preparation of rat intestinal phosphodiesterase II (oligonucleate 3'-nucleotidohydrolase, EC 3.1.4.18) has been studied using a synthetic substrate, thymidine 3'(2,4-dinitrophenyl) phosphate. The enzyme was most active between pH 6.1 and pH 6.7 and was inhibited by Cu2+ and Zn2+ but unaffected by EDTA, Mg2+, Co2+, and Ni2+. The reaction rate decreased at high levels of enzyme because of competitive inhibition by deoxythymidine 3'-phosphate, a reaction product, which showed a Ki of 2-10(-5) M. The molecular weight of the enzyme by gel-filtration was 150 000-170 000. In electrofocusing experiments multiple peaks of activity were found at pH 3.4, 4.2-4.5and 7.2. Polyacrylamide gel electrophoresis of freshly purified phosphodiesterase II showed up to 10 protein bands in the gels. If the preparations were stored at 4 degrees C for some time only one or two bands appeared. Investigation of the reaction of rat intestinal phosphodiesterase II with a number of possible phosphodiesterase substrates indicated that the enzyme required a nucleoside 3'-phosphoryl residue for the initiation of hydrolysis. Thus compounds such as NAD, ATP, bis-(p-nitrophenyl)phosphate, thymidine 5'-(p-nitrophenyl)phosphate, glycerylphosphorylcholine, guanylyl-(2' leads to 5')-adenosine and 3',5'-cyclic AMP which contain phosphodiester bonds, nevertheless were not substrates for the enzyme. The enzyme was inhibited reverisbly by p-chloromercuribenzoate and p-chloromercuriphenylsulfonate and inactivated irreversibly by iodoacetic acid. Activity of the phosphodiesterase II was reduced to 50% by incubation with 2.0-10(-3)--5.0-10(-3) M iodoacetate for 20--30 min at 24 degrees C at pH 5.0--6.1. Iodoacetamide had no effect. The degree of inactivation by iodoacetate was reduced by the presence of a substrate for the enzyme or, more effectively by deoxythymidine 3'-phosphate, a competitive inhibitor. It is concluded that iodoacetic acid alkylates an essential residue at the active centre of the enzyme.
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PMID:Rat intestinal phosphodiesterase II. Properties of the highly purified enzyme and its inactivation by iodoacetic acid. 1 24

Phosphofructokinase from oyster (Crassostrea virginica) adductor muscle occurs in a single electrophorectic form at an activity of 8.1 mumol of product formed per minute per gram wet weight. The enzyme was purified to homogeneity by a novel method involving extraction in dilute ethanol and subsequent precipitation with polyethylene glycol. Oyster adductor phosphofructokinase has a molecular weight of 3400000 +/- 20000 as measured by Sephadex gel chromatography. Mg2+ or Mn2+ can satisfy the divalent ion requirement while ATP, GTP, or ITP can serve as phosphate donors for the reaction. Oyster adductor phosphofructokinase displays hyperbolic saturation kinetics with respect to all substrates (fructose 6-phosphate, ATP, and Mg2+) at either pH 7.9 OR PH 6.8. The Michaelis constant for fructose 6 phosphate at pH 6.8, the cellular pH of anoxic oyster tissues, is 3.5 mM. In the presence of AMP, by far the most potent activator and deinhibitor of the enzyme, this drops to 0.70 mM. Many traditional effectors of phosphofructokinase including citrate, NAD(P)H,Ca2+, fructose 1,6-bisphosphate, 3-phosphoglycerate, ADP, and phosphoenolpyruvate do not alter enzyme activity when tested at their physiological concentrations. Monovalent ions (K +, NH4+) are activators of the enzyme. ATP and arginine phosphate are the only compounds found to inhibit the adductor enzyme. The inhibitory action of both can be reversed by physiological concentrations of AMP(0.2- 1.0mM) and to a lesser extent by high concentrations of Pi (20 mM) and adenosine 3' :5'-monophosphate (0.1 mM). The two inhibitors exhibit very different pH versus inhibition profiles. The Ki (ATP) decreases from 5.0 mM to 1.3 mM as the pH decreases from 7.9 to 6.8, whereas the Ki for arginine phosphate increases from 1.3 mM to 4.5 mM for the same pH drop. Of all compounds tested, only AMP, within its physiological range, activated adductor phosphofructokinase significantly at low pH values. The kinetic data support the proposal that arginine phosphate, not ATP or citrate, is the most likely regulator of adductor phosphofructokinase in vivo under aerobic, high tissue pH, conditions. In anoxia, the depletion of arginine phosphate reserves and the increase in AMP concentrations in the tissue, coupled with the increase in the Ki for arginine phosphate brought about by low pH conditions, serves to activate phosphofructokinase to aid maintenance of anaerobic energy production.
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PMID:Purification and properties of adductor muscle phosphofructokinase from the oyster, Crassostrea virginica. The aerobic/anaerobic transition: role of arginine phosphate in enzyme control. 1 48

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