UNIPROT:P20020 - FACTA Search

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Query: UNIPROT:P20020 (adenosine triphosphatase)
3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of uncoupling of oxidative phosphorylation by carbonyl cyanide p-(trifluoromethoxy)phenylhydrazone (FCCP), oleic acid, and chloroform is further investigated by measuring in the presence of a certain concentration of each type of uncoupler (i) the mitochondrial P/O and respiratory control ratios upon progressive inhibition of the redox pumps and (ii) delta mu H and the rate of either electron transfer or adenosine 5'-triphosphate (ATP) hydrolysis in static head upon progressive inhibition of either the redox or the adenosine triphosphatase (ATPase) proton pumps. Chloroform exhibits in all the experiments a behavior very different from that of FCCP and oleic acid. For example, upon addition of antimycin to chloroform-supplemented mitochondria, the respiratory control ratio remains unchanged and the P/O ratio slightly increases (in a certain range of inhibition) instead of decreasing as expected for an increased membrane conductance (and as indeed measured in the presence of either FCCP or oleic acid). From the kinetic model of chemiosmotic free energy coupling described by Pietrobon and Caplan [Pietrobon, D., & Caplan, S.R. (1986) Biochemistry 25, 7690-7696] all the results can be simulated by making the assumptions that (i) chloroform acts specifically at the level of the proton pumps and intrinsically uncouples electron transfer and ATP hydrolysis/synthesis from proton translocation and (ii) FCCP and oleic acid have a mixed behavior and act both as protonophores and as intrinsic uncouplers of the redox pumps (but not of the ATPases). The consistency of the results with the alternative hypothesis that the three agents interfere either with localized energy coupling sites or with a direct interaction between proton pumps is discussed.
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PMID:Uncoupling of oxidative phosphorylation. 2. Alternative mechanisms: intrinsic uncoupling or decoupling? 296 36

1. In order to explain the vulnerability of medullary thick ascending limb of Henle's loop (mTAL) during hypoxia, adenosine 5'-triphosphate (ATP) content was measured in isolated rat mTAL cells during control conditions and chemically induced hypoxia and compared with those in medullary collecting duct (MCD) cells. 2. Basal ATP levels in mTAL and MCD were estimated as 3.6 and 2.1 mmol/l, respectively. Antimycin A (5 mumol/l) decreased the ATP content by 41% of the control value in the mTAL cells, but failed to reduce that of the MCD cells. Administration of sodium cyanide (5 mmol/l) drastically depleted ATP in the mTAL cells within 5 min (2-3% of control). On the other hand, ATP levels in MCD cells were sustained for at least 60 min after cyanide administration (64% of control). 3. When tubules were made permeable to sodium by the addition of nystatin, the effects of chemical hypoxia on the cell ATP levels were intensified in both segments, and this was partially blocked by pretreatment with ouabain, or by lowering the sodium concentration of the medium. 4. Higher doses of nystatin in mTAL caused a reduction in ATP levels even under control conditions, but its effect was prevented in low sodium medium. 5. The present study suggests that cell ATP levels can be altered by sodium, potassium-dependent adenosine triphosphatase activity, and that due to their high sodium-transporting activity, mTAL cells are more sensitive to reductions in ATP levels during hypoxia than are MCD cells.
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PMID:A bioenergetic explanation for the selective vulnerability of renal medullary tubules to hypoxia. 341 64

The transport system for glycylglycine in Escherichia coli behaves like a shock-sensitive transport system. The initial rate of transport is reduced 85% by subjecting whole cells to osmotic shock, and glycylglycine is not transported by membrane vesicles. The energetics of transport was studied with strain ML 308-225 and its mutant DL-54, which is deficient in Ca(2+)- and Mg(2+)-stimulated adenosine 5'-triphosphatase (EC 3.6.1.3) activity. It is concluded that active transport of glycylglycine, like other shock-sensitive transport systems, has an obligatory requirement for phosphate bond energy, but not for respiration or the energized state of the membrane. The major evidence for this conclusion is as follows. (i) Uptake of glycylglycine is severely inhibited by arsenate. (ii) Oxidizable energy sources such as d-lactate, succinate, and ascorbate, which is mediated by N-methylphenazinium methylsulfate, cannot serve as energy sources for the transport of glycylglycine in DL-54, which lacks oxidative phosphorylation. (iii) When energy is supplied only from adenosine-5'-triphosphate produced by glycolysis (anaerobic transport assays with glucose as the energy source in DL-54), substantial uptake of glycylglycine is observed. (iv) When the Ca(2+)-Mg(2+)-adenosine triphosphatase activity is absent but substrate-level phosphorylations and electron transport are operating (glucose as the energy source in DL-54), transport of glycylglycine shows significant resistance to the uncouplers, dinitrophenol and carbonyl cyanide-p-trifluoromethoxyphenylhydrazone.
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PMID:Energetics of glycylglycine transport in Escherichia coli. 427 90

1. The ability of a series of compounds to uncouple oxidative phosphorylation of rat-liver mitochondria has been investigated. 2. The compounds were: 2-amino-1,1,3-tricyanopropene; carbonyl cyanide phenylhydrazone and its m-chloro and p-trifluoromethoxy derivatives; 4,5,6,7-tetrachloro-, 5-chloro-4-nitro-, 5-nitro-and 4,5,6,7-tetrachloro-1-methyl-benzotriazole; 4-hydroxy-3,5-di-iodo-, 3,5-di-bromo-4-hydroxy- and 3,5-dichloro-4-hydroxy-benzonitrile; and pentafluorophenol. 3. In a medium the components and physical condition of which were, as far as possible, kept constant, each compound was tested for ability to stimulate adenosine triphosphatase, to stimulate respiration in the presence of pyruvate as substrate, to inhibit phosphate uptake and to prevent swelling by trimethyltin. 4. Each compound was also examined with respect to its ability to produce rapid rigor mortis in mice. 5. The biological properties were compared with the dissociation constant and the hexane-water partition coefficient for each compound. 6. With the exception of 4,5,6,7-tetrachloro-1-methylbenzotriazole, all the compounds behaved qualitatively as 2,4-dinitrophenol. 7. Within each class of compound there is a relation between biological activity and the physical attributes measured. 8. The most efficient uncouplers were the most acidic and the most hydrophobic.
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PMID:Uncouplers of rat-liver mitochondrial oxidative phosphorylation. 588 55

1. The respiration and aerobic glycolysis of pig ciliary processes in oxygenated phosphate and bicarbonate buffers have been investigated. 2. Significant amounts of lactic acid are produced only in the presence of added glucose, but this does not change the endogenous respiration rate. 3. Succinate and citrate increase the oxygen uptake considerably, but pyruvate has almost no effect; oxaloacetate and fumarate stimulate slightly in the presence of glucose. Aspartate and fumarate together stimulate pyruvate utilization and are oxidized as fast as citrate. 4. Ouabain inhibits the oxidation of glucose and other substrates by limiting the ADP supply from the sodium transport system. Cyanide and azide inhibit respiration and stimulate glycolysis. 5. The transport mechanism depends largely on ATP from oxidative phosphorylation and regulates the rate of respiration and glycolysis by controlling ADP production from the Na(+)-K(+)-activated adenosine triphosphatase.
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PMID:The tricarboxylic acid cycle and glycolysis in relation to ion transport by the ciliary body. 591 34

Both calcium ++-activated magnesium++ adenosine triphosphatase and the calcium++-accumulating activity of SR isolated from white skeletal muscle of pigs of the Yorkshire breed resistant to MH and pigs of the Belgian Landrace breed susceptible to MH continue to be stable throughout the process of growth. There was not any detectable difference between the two breeds and therefore it could not be concluded that there was a defective SR membrane. Abnormal contractions induced by halothane and caffeine in biopsy specimens of muscle of MH-susceptible pigs of the Belgian Landrace breed are mainly produced by external calcium++, CN--not having any inhibitory effect in these cases. The contractions induced by combined caffeine and halothane in susceptible animals are more marked than those occurring in resistant animals. These increased contractions are mainly due to external Ca++ and, to a less extent, to CN--sensitive mitochondrial Ca++ fluxes.
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PMID:[Halothane-induced malignant hyperthermia (MH) in the Belgian Landrace breed of pigs: some findings concerning the role of subcellular fractions (author's transl)]. 644 58

Bacteria were isolated from lake water, and their ability to remain viable in a dilute, nutrient-deficient environment was tested by a method that permits suspension of test bacteria between two appressed microporous membranes in an aqueous environment. This approach permitted separation of the lake isolates into two categories. Members of the tribe Klebsielleae were shown to have a prolonged survival rate of 40% or better after 24 h, whereas nonsurvivors were not viable for much longer than 24 h. These nonsurvivors belonged to the genera Acinetobacter, Aeromonas, Alcaligenes, Erwinia, Escherichia, Flavobacterium, and Pseudomonas. Differences in ribonuclease and adenosine triphosphatase levels between Escherichia coli (nonsurvivor) and Klebsiella (survivor) cells were detected. At pH 7.5, stressed E. coli cells contained 14% of the adenosine triphosphatase activity detected in the control, whereas at pH 5.5, in the presence of calcium ions, these same cells contained 50% of the control adenosine triphosphatase levels. At pH 7.2, E. coli cells were strongly inhibited by an adenosine triphosphatase inhibitor, bathophenanthroline (88%); oligomycin (64%); and the proton ionophore carbonyl- cyanide-m-chlorophenyl hydrazone (67%). Both sodium azide and valinomycin were only moderately inhibitory (15 and 28%, respectively). Although the ability to scavenge internal endogenous reserves seems important, we postulate that certain enteric bacteria are capable of utilizing acidic conditions (pH 5.5) as an electrochemical gradient to generate necessary high-energy intermediates for prolongation of survival beyond that possible in environments of near-neutraL pH.
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PMID:Bacterial survival in a dilute environment. 645 90

Gentamicin uptake and killing were studied in aminoglycoside-susceptible wild-type Staphylococcus aureus strains and aminoglycoside-resistant small-colony mutants selected by gentamicin from these strains. In wild-type S. aureus three phases of gentamicin accumulation were noted, and killing occurred during the last and most rapid phase of uptake. Uptake and killing were abolished by anaerobic growth and sodium azide, suggesting that energy-dependent active drug transport required respiration. Treatment of wild-type strains with the uncouplers N,N'-dicyclohexyl carbodiimide (DCCD) and carbonyl cyanide-m-chlorophenyl hydrazone showed disparate effects on gentamicin uptake, producing enhanced and diminished accumulations, respectively. Small-colony mutants demonstrated markedly deficient uptake compared with the wild-type strains and were not killed by gentamicin in concentrations up to 10 mug/ml. Several classes of aminoglycoside-resistant mutant strains are described. One mutant strain was a menadione auxotroph which, when grown in the presence of menadione, exhibited normal gentamicin uptake and killing. Gentamicin uptake and killing in this strain were abolished by KCN when the strain was grown in a medium supplemented with menadione. The membrane adenosine triphosphatase inhibitor DCCD was lethal for this mutant but not for other mutants or wild-type strains. Preincubation with menadione prevented the lethal effect of DCCD, and this strain demonstrated normal gentamicin accumulation when exposed to both DCCD and menadione. A second mutant strain demonstrated both gentamicin uptake and killing in the presence but not the absence of DCCD. Studies with small-colony mutants of S. aureus indicated that the defect in aminoglycoside uptake is very likely related to an inability to generate or maintain energized membranes from respiration. These studies suggest that the membrane energization associated with active aminoglycoside accumulation requires electron transport for the generation of a protonmotive force.
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PMID:Gentamicin uptake in wild-type and aminoglycoside-resistant small-colony mutants of Staphylococcus aureus. 744 28

A radiation inactivation technique was employed to determine the functional size of adenosine triphosphatase from Escherichia coli (EF0EF1-ATPase). Functional units of the membrane-bound and the soluble ATPases were estimated to be 300 +/- 39 and 295 +/- 32 kDa, respectively. The presence of the free radical scavenger dithiothreitol was crucial in measuring the radiation inactivation size of ATPase. When gramicidin and carbonyl cyanide p-trifluoromethoxyphenylhydrazone were added, an increase in the functional mass of membrane-bound ATPase was observed. In contrast, valinomycin and KCl had hardly any effect on the functional size of ATPase. We also determined a functional unit of 355 +/- 33 kDa for proton translocation by a fluorescence quenching technique. A reconstitution study using irradiated coupling factor 1 (EF1)-depleted membrane revealed that the functional mass of the proton channel was 96 +/- 11 kDa. A similar functional size for ATP-Pi exchange and ATP hydrolysis implies that both reactions might utilize identical machinery. Furthermore, functional units of soluble EF1 for unisite (nonsteady state) and multisite (steady state) ATP hydrolysis were calculated as 200 +/- 32 and 298 +/- 32 kDa, respectively. A working hypothesis was proposed from radiation inactivation analysis to elucidate the structure and mechanism of F1-ATPase.
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PMID:Functional size analysis of F-ATPase from Escherichia coli by radiation inactivation. 768 67

The main fate for fetal bile acids is to be transferred to the mother by the trophoblast. In this study, ATP-dependent bile acid transport across the maternal- and the fetal-facing plasma membranes (mTPM and fTPM, respectively) of the human trophoblast was investigated. With the use of [14C]glycocholate (GC) and a rapid-filtration technique, GC transport by mTPM and fTPM was measured in the absence or the presence of 3 mM ATP plus an ATP-regenerating system. GC efflux from preloaded mTPM or fTPM vesicles was found to be insensitive to ATP. By contrast, GC uptake by mTPM, but not by fTPM, was significantly increased (approximately threefold) by ATP. This was temperature sensitive and occurred into an osmotically reactive space. Kinetic analysis revealed that GC uptake by mTPM was saturable and fit the Michaelis-Menten equation both in the absence and in the presence of ATP. ATP-dependent transport was not abolished by a protonophore (carbonyl cyanide p-trifluormethoxyphenyl hydrazone) together with 100 mM K+ (in = out) plus a K+ ionophore (valinomycin). It specifically required hydrolyzable ATP, although CTP had a slight stimulatory effect. Neither Na+ nor Cl- (100 mM, in = out) was mandatory. Moreover, 100 mM gradients of either Na+ (in << out) or Cl- (in >> out) had no effect on ATP-dependent GC uptake. This was inhibited by vanadate and bile acid analogues but not by several cholephilic organic anions and a variety of adenosine triphosphatase inhibitors. These results provide strong evidence for the existence of an ATP-dependent transport system for bile acids across the apical membrane of human trophoblast, which may play an important role in the control of the overall fetal-maternal bile acid traffic.
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PMID:ATP-dependent bile acid transport across microvillous membrane of human term trophoblast. 773 92

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