EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutants of Escherichia coli K-12 deficient in adenyl cyclase (cya) and catabolite activator protein (crp) have been shown to grow more slowly than their parent strains in glucose-minimal medium. Their growth rate decreased markedly with increasing pH between 6 and 7.8. We have shown that this pH sensitivity is a direct consequence of the cya mutation, because a mutation to pH resistance also restored ability to ferment a variety of sugars. The proton motive force-dependent uptake of proline and glutamate was also reduced and sensitive to pH in the cya mutant. The membrane-bound ATPase activity was normal. The rate of oxygen uptake by cells, although reduced, was pH insensitive. We suggest several explanations for this phenotype, including a possible defect in energy transduction.
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PMID:A deficiency in cyclic AMP results in pH-sensitive growth of Escherichia coli K-12. 284 Dec 87

Recent evidence indicates that L-glutamate is taken up into synaptic vesicles in an ATP-dependent manner, supporting the notion that synaptic vesicles may be involved in glutamate synaptic transmission. In this study, we further characterized the ATP-dependent vesicular uptake of glutamate. Evidence is provided that a Mg-ATPase, not Ca-ATPase, is responsible for the ATP hydrolysis coupled to the glutamate uptake. The ATP-dependent glutamate uptake was inhibited by agents known to dissipate the electrochemical proton gradient across the membrane of chromaffin granules. Hence, it is suggested that the vesicular uptake of glutamate is driven by electrochemical proton gradients generated by the Mg-ATPase. Of particular interest is the finding that the ATP-dependent glutamate uptake is markedly stimulated by chloride over a physiologically relevant, millimolar concentration range, suggesting an important role of intranerve terminal chloride in the accumulation of glutamate in synaptic vesicles. The vesicular glutamate translocator is highly specific for L-glutamate, and failed to interact with aspartate, its related agents, and most of the glutamate analogs tested. It is proposed that this vesicular translocator plays a crucial role in determining the fate of glutamate as a neurotransmitter.
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PMID:Characterization of glutamate uptake into synaptic vesicles. 285 86

Chemical changes in central glutamate neurotransmission were assessed by measuring synaptic membrane receptor binding, the uptake and release by synaptosomes of glutamate in rats treated acutely with tetraethyl lead and chronically with lead acetate. The activity of Na+, K+-ATPase in synaptosomes was measured to correlate with the changes in uptake/release studies. The affinity of receptor binding and uptake systems was significantly reduced although the number of receptor sites and the capacity of uptake systems were increased. The activity of Na+, K+-ATPase was also found to be increased in synaptosomes. The changes were more marked in inorganic lead toxicity, and all three regions studied--cerebral cortex, cerebellum, and brainstem--showed significant alterations.
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PMID:Effects of organic and inorganic lead on synaptosomal uptake, release, and receptor binding of glutamate in young rats. 285 52

Tight divalent metal binding sites in Escherichia coli F1-adenosinetriphosphatase (F1-ATPase) were studied. Native enzyme contained two Mg per F1, confirming previous results. All of the Mg may be replaced by Co or Mn using a dissociation-repolymerization procedure. The substituted enzymes are homogeneous and contain two Mn per F1 or two Co per F1. They are fully active as ATPases, they rebind to F1-depleted membranes, and they catalyze ATP-driven proton pumping. N,N'-Dicyclohexylcarbodiimide-(DCCD) inactivated F1 retains all the intrinsic tightly bound Mg. Evidence is presented that DCCD affects at least two beta subunits in E. coli F1, and therefore, the tightly bound metals appear not to be bound at the DCCD-reactive glutamate residue on the beta subunit. However, the nature of the tightly bound metal (Mg, Mn, or Co) as well as the presence of added (2 mM) MgSO4, MnSO4, or CoSO4 affected the rate of DCCD inactivation, showing that metal binding changes the beta-subunit conformation. Isolated F1 alpha subunit bound Mg, Mn, or Co stoichiometrically and independently of ATP binding. Isolated F1 beta subunit bound only small amounts of Mg, and no Co or Mn. Therefore, it is possible, although not conclusively shown, that the alpha subunit is the site of tight metal binding in the intact F1.
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PMID:Tight divalent metal binding to Escherichia coli F1-adenosinetriphosphatase. Complete substitution of intrinsic magnesium by manganese or cobalt and studies of metal binding sites. 286 56

Changes in the activities of enzymes responsible for the active transport of Na+, K+, Ca2+, Mg2+ in synaptosomal membrane (SM) preparations from the cerebral cortex, hippocampus and thalamus with hypothalamus after incubation with L-glutamate (Glu) or kainic acid (KA) were investigated. Glu stimulated Ca,Mg- and Na,K-ATPase activities in cortex but reduced the activities of all the investigated ATPases, except Na,K-ATPase in the hippocampus and thalamus with hypothalamus. KA reduced distinctly the activity of ATPases in the cortex and only slightly in the thalamus with hypothalamus, but stimulated the enzyme activities in the hippocampus. Both, Glu and KA in vitro altered the processes of active transport of cations in SM preparations.
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PMID:Effects in vitro of L-glutamate and kainic acid on the ATPase activities of synaptosomal membranes from different areas of rat brain. 287 28

A cell-free system prepared from rat liver containing cytosol and mitochondria as well as a number of cofactors and gluconeogenic intermediates at near-physiological concentrations was shown to form hexose 6-phosphates linearly from lactate + pyruvate + glutamate at a rate of 0.82 +/- 0.05 mumol/min per g of liver (mean +/- S.E.M., n = 8, 37 degrees C). The indicated rates were measured between 20 min and 60 min incubation time, when the system was near steady state. Experiments with either [1-14C]lactate or [U-14C]glutamate revealed that the incorporation of radioactive label into hexose 6-phosphates was proportional to the utilization of lactate + pyruvate and of glutamate during incubation and that both served as gluconeogenic substrates at a ratio of about 2:1. When the [ATP]/[ADP] ratio was lowered from 60 to 19 by addition of ATPase, the rate of hexose 6-phosphate formation fell to one-third. This decrease in gluconeogenic flux was mainly due to a decreased flow through the phosphoglycerate kinase step. Hexose 6-phosphate formation could also be decreased by increasing the ratio [NADH]/[NAD+], either by addition of ethanol or by increasing the initial concentration of lactate + pyruvate at a fixed ratio of 10:1. The observed inhibition was linked to a limitation in the availability of oxaloacetate for the phosphoenolpyruvate carboxykinase reaction and to an increased formation of sn-glycerol 3-phosphate. Finally, the rates of hexose 6-phosphate formation in incubations with cytosols from fed rats were only 50% of those observed with cytosols from animals starved for 48 h. One of the limiting steps was found to be the flow through the phosphoenolpyruvate carboxykinase step.
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PMID:Formation of hexose 6-phosphates from lactate + pyruvate + glutamate by a cell-free system from rat liver. 287 56

Triethyllead (TEL) is a CNS neurotoxin producing bizarre neurobehavioral changes. The principal objective of this study was to determine if TEL-induced defects in energy metabolism were responsible for the inhibition of synaptosomal Na+-dependent high-affinity uptake of gamma-aminobutyric acid (GABA). A dose-dependent inhibition of GABA uptake (ID50 = 10 microM TEL) was found during 30-s incubations. Uptake of glutamate was more resistant to the inhibitory effects of TEL. A TEL-induced Cl(-)-dependent synaptosomal deficit of ATP was observed. Such deficit in high-energy phosphate was time-dependent and did not occur in the absence of Cl- or as early as 30 s. Inhibition of GABA uptake, on the other hand, was a Cl(-)-independent phenomenon and was observed at as early as 30 s. TEL was not competitive with Na+ or GABA itself, as the effects of TEL were not overcome with high [Na+] or [GABA]. These results indicate that the locus of TEL inhibition of GABA uptake is not a Cl(-)-dependent event and does not involve a perturbed transmembrane electrochemical gradient, due to either an observed mitochondrial defect or an inhibition of Na+, K+-ATPase directly.
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PMID:Selective inhibition of synaptosomal gamma-aminobutyric acid uptake by triethyllead: role of energy transduction and chloride ion. 288 Sep 29

The proton pump (H+-ATPase) found in the plasma membrane of the fungus Neurospora crassa is inactivated by dicyclohexylcarbodiimide (DCCD). Kinetic and labeling experiments have suggested that inactivation at 0 degrees C results from the covalent attachment of DCCD to a single site in the Mr = 100,000 catalytic subunit (Sussman, M. R., and Slayman, C. W. (1983) J. Biol. Chem. 258, 1839-1843). In the present study, when [14C]DCCD-labeled enzyme was treated with the cleavage reagent, N-bromosuccinimide, a single major radioactive peptide fragment migrating at about Mr = 5,300 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was produced. The fragment was coupled to glass beads and partially sequenced by automated solid-phase Edman degradation at the amino terminus and at an internal tryptic cleavage site. By comparison to the DNA-derived amino acid sequence for the entire Mr = 100,000 polypeptide (Hager, K., and Slayman, C. W. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 7693-7697), the fragment has been identified as arising by cleavage at tyrosine 100 and tryptophan 141. Covalently incorporated [14C]DCCD was released at a position corresponding to glutamate 129. The DCCD-reactive glutamate is located in the middle of the first of eight predicted transmembrane sequences. When the sequence surrounding the DCCD site is compared to that surrounding the DCCD-reactive residue of two other proton pumps, the F0F1-ATPase and cytochrome c oxidase, no homology is apparent apart from an abundance of hydrophobic amino acids.
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PMID:Location of a dicyclohexylcarbodiimide-reactive glutamate residue in the Neurospora crassa plasma membrane H+-ATPase. 288 24

[14C]Glutamine uptake in a crude synaptosomal (P2) fraction, (representing the sum of [14C]glutamine accumulated and [14C]glutamate formed by hydrolysis), is distinct from glutamate uptake. Glutamine uptake is Na+-independent and unaffected by the Na+-K+-ATPase inhibitor ouabain, whereas glutamate uptake is Na+-dependent and inhibited by ouabain. The uptake of both glutamine and glutamate is unaffected by the gamma-glutamyltransferase inhibitor, Acivicin. This indicates that glutamine uptake is not mediated by a carrier, as distinct from that of glutamate, and also not linked to gamma-glutamyl-transferase. Na+ affects the distribution of glutamine-derived glutamate by increasing the synaptosomal content and reducing that of the medium. When glutamate release from synaptosomes preloaded with [14C]glutamate is measured by superfusion technique in order to prevent reuptake, Na+ has been found to inhibit release in a non-depolarizing medium (Ringer buffer with no Ca2+) of the [14C]glutamate as well as of endogenous glutamate. The specific activity of the [14C]glutamine-derived glutamate in the incubation medium is much higher than that in the synaptosomes, indicating that there exists a readily releasable pool of newly formed glutamate in addition to another pool. The latter glutamate pool is partially reduced by Na+.
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PMID:Uptake and release for glutamine and glutamate in a crude synaptosomal fraction from rat brain. 288 93

Isolated rat-liver mitochondria were used to study the relation between mitochondrial NADH levels, oxygen consumption (QO2), and extra-mitochondrial phosphates. Alterations in NADH and QO2 were accomplished by incubating mitochondria with different substrates or varying amounts of exogenous ATPase while monitoring QO2 and NAD(P)H fluorescence. Two sets of conditions were studied: (1) in the presence of excess ADP and inorganic phosphate, an increase in NAD(P)H fluorescence was associated with a linear increase in QO2; (2) when QO2 was driven by the steady-state hydrolysis of ATP by exogenous ATPase, increases in QO2 were associated with proportional decreases in NAD(P)H fluorescence. For all substrates tested this relation was linear; however, the slope was substrate dependent. Different substrates were able to maintain different NAD(P)H levels at the same QO2. To investigate this further, effects of changing substrates at constant QO2 on NAD(P)H and extra-mitochondrial phosphates were determined. Addition of glutamate + malate to mitochondria respiring on citrate caused a 50% increase in NAD(P)H fluorescence, a 41% decrease in ADP, and a 30% decrease in inorganic phosphate. Similar changes for the substrate jump, pyruvate + malate to glutamate + malate were found. Finally, it was determined that a linear relation holds between increases in NAD(P)H fluorescence and increases in QO2 when substrates were varied at constant, physiologic levels of extra-mitochondrial ADP. These results indicate that QO2 depends on NAD(P)H levels as well as on extra-mitochondrial phosphates over a wide range of respiratory rates.
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PMID:Changes in pyridine nucleotide levels alter oxygen consumption and extra-mitochondrial phosphates in isolated mitochondria: a 31P-NMR and NAD(P)H fluorescence study. 288 84

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