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)

A partial purification of the Epstein-Barr-virus nuclear antigen 2A (EBNA 2A) protein from the Epstein-Barr-virus-infected lymphoblastoid cell line, Cherry, has been designed. The main purification step was immunoaffinity chromatography, based on the mAb, 115E, directed towards the carboxy terminus of EBNA 2A. This was followed by chromatography over a Blue Sepharose column. According to silver-stained SDS/PAGE, EBNA 2A was estimated to be 20% pure. The purified fractions contained an ATPase activity that was inhibited by the mAb 115E. Immunopurification of six EBNA-2A-positive cell lines and their negative counterpart showed that only fractions from EBNA-2A-positive lines contained ATPase activity. In gel-filtration experiments EBNA 2A eluted as a 75-kDa protein in conjunction with an ATPase activity. The EBNA 2A protein was covalently labeled by the ATP analog [14C]5'-[p-(fluorosulfonyl)benzoyl]adenosine. The ATPase activity was found to be optimal in the presence of 0.25 mM MgCl2 or CaCl2, whereas, in the presence of MnCl2 and ZnCl2, the activity was only about 50% of the control. High concentrations of Na2VO3 and heparin do not interfere with the activity, while 2.5 mM NaF or 0.5 M NaCl give a 50% reduction of the activity. The Km for ATP and for GTP was 13 microM and 11 microM, respectively, and the Vmax for ATP was about six-times higher than with GTP as substrate. Other low-molecular-mass non-protein phosphate esters, such as phosphoserine or phosphothreonine inhibited the ATPase activity with a Ki of 18 and 32 microM, respectively. Phosphotyrosine had a Ki of 480 microM. Serine, threonine and tyrosine had no inhibitory effect on the ATPase activity.
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PMID:Biochemical characterization of Epstein-Barr virus nuclear antigen 2A and an associated ATPase activity. 132 Oct 48

The effects of divalent cations and of some inhibitors on the activities of alkaline phosphatase and ATPase were examined in rat jejunal brush-border membranes (BBM) isolated by tha Ca(2+)-(BBMCa) or the Mg(2+)-precipitation method (BBMMg). Similar results were found in BBMCa and BBMMg though generally higher in BBMCa. Alkaline phosphatase activity was stimulated by 5 mM MgCl2 (30% to 44%), but not by 5 mM CaCl2 or 0.1 mM ZnCl2, at pH 9.5 or 7.4. ATPase activity was equally stimulated by 5 mM MgCl2 and by 5 mM CaCI2 (about 150%). Alkaline phosphatase activity was significantly inhibited by 1 mM vanadate, 5 mM diamox, 5.0 mM L-leucine and 1 mM theophylline. In contrast, Ca(2+)-ATPase and Mg(2+)-ATPase activities were not depressed by those alkaline phosphatase inhibitors, but were inhibited by 0.1 mM trifluoperazine (more than 70%). 0.1 mM ZnCl2 also appeared to be inhibitory to Ca(2+)-ATPase and Mg(2+)-ATPase, but not to alkaline phosphatase activity even in the presence of Ca2+ and Mg2+. These results suggest that Ca(2+)-ATPase and Mg(2+)-ATPase activities of the rat jejunal BBM are not merely manifestations of alkaline phosphatase, but rather belong to (a) distinct enzyme(s).
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PMID:Alkaline phosphatase and ATPases in brush-border membranes of rat jejunum: distinct effects of divalent cations and of some inhibitors. 138 82

Renal brush border membrane vesicles (BBMV) of the dog possess at least two ATPase activities. In the present study, we have examined the effect of pH, ions, and inhibitors on the activity of ATPase in BBMV. Two different sets of conditions were identified that produced stimulation of ATPase activity. A unique stimulation of BBMV ATPase activity occurred at acidic pH in the presence of 1 mM ZnCl2. In the absence of Zn2+, a second ATPase activity was stimulated by alkaline pH values with peak stimulation occurring between pH 8.5 and 9.0. The results suggest that the alkaline pH-stimulated hydrolysis of ATP probably represents the activity of BBMV alkaline phosphatase. The unique acidic pH + Zn2(+)-stimulated ATPase activity must represent the activity of a second protein other than the alkaline phosphatase, since purified alkaline phosphatase did not show this activity. The biochemical identity and physiological function of this renal BBMV ATPase activity remain to be determined, but it may be an ecto-ATPase.
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PMID:Stimulation of canine kidney BBMV ATPase activity by acidic pH in the presence of Zn2+: an ATPase activity distinct from transport ATPases and alkaline phosphatase that may be an ecto-ATPase. 215 Feb 16

Effects of morphine on noradrenaline release from rat cerebrocortical synaptosomes and on the Na+,K(+)-ATPase activity in homogenates of synaptosomes and of synaptic membranes were examined. Both morphine (10(-3)-10(-5) M) and methionine-enkephalin (M-Enk; 10(-5) M) inhibited the enhanced [3H]noradrenaline [( 3H]NA) release evoked by high concentrations of K+ from synaptosomes and these inhibitory actions were antagonized by naloxone (10(-4), 10(-5) M). Morphine (10(-3)-10(-5) M) and M-Enk (10(-5) M) stimulated the Na+,K(+)-ATPase activity in homogenates of synaptosomes but not of synaptic membranes in the incubation medium containing 2.2 X 10(-6)-4.7 X 10(-7) M free Ca2+ and these stimulatory effects were antagonized by naloxone. In homogenates of synaptic membranes, the same concentrations of morphine and M-Enk stimulated the Na+,K(+)-ATPase activity suppressed by FeCl2 (5 X 10(-7) M) but not by CuCl2 nor ZnCl2, and these stimulatory effects were antagonized by naloxone. Significant levels of Fe2+ were liberated from synaptosomes during the preparation of synaptic membrane using distilled water. These results suggest that both morphine and M-Enk stimulate the suppressed Na+,K(+)-ATPase activity by interacting with Fe2+ at opioid receptor sites, and they may play a role in the suppression of membrane depolarization and/or the release of NA through their stimulatory action on the Na+,K(+)-ATPase activity probably suppressed by Fe2+ in the rat cerebral cortex.
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PMID:Effect of morphine on Na+,K(+)-ATPase from homogenate of synaptosomes and of synaptic membrane of rat cerebral cortex. 215 27

The main electric organ of Electrophorus electricus is particularly rich in thiamine triphosphate, which represents 87% of the total thiamine content in this tissue. The thiamine pyrophosphate concentration, however, is very low in the eel electric organ and skeletal muscle as compared with other eel or rat tissues. Furthermore, electroplax membranes contain a whole set of enzymes responsible for the dephosphorylation of thiamine tri-, pyro- and monophosphate. Thiamine triphosphatase has a pH optimum of 6.8 and is dependent on Mg2+. The real substrate of the enzyme is probably a 1:1 complex of Mg2+ and thiamine triphosphate. Thiamine pyrophosphatase is activated by Ca2+. The apparent Km for thiamine triphosphate and Vmax are found to be, respectively, 1.76 mM and 5.95 nmol/mg of protein/min. Thiamine triphosphatase activity is inhibited at physiological K+ concentrations (up to 90 mM) and increasing Na+ concentrations (50% inhibition at 300 mM). ZnCl2 (10 mM) inhibits 90% of the enzyme activity. ATP and ITP are also strongly inhibitory. No significant effect of neurotoxins is seen. Membrane-associated thiamine triphosphatase is affected differently by proteolytic enzymes and is partially inactivated by pretreatment with phospholipase C and neuraminidase. The physiological significance of thiamine triphosphatase is discussed in relation to a specific role of thiamine in the nervous system.
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PMID:Thiamine triphosphate and membrane-associated thiamine phosphatases in the electric organ of Electrophorus electricus. 303 30

Modifications to the two-phase polymer gradient procedure for isolating plasma membrane from mammalian cells have resulted in greatly increased yields of purified plasma membrane. First, the cells were not treated with a membrane stabilizer (ZnCl2) prior to homogenization. This reduced the severity of homogenization required for disruption and allowed a greater proportion of the surface membrane to form large, flattened sheets that are more easily purified than the smaller fragments formed during more severe homogenization. Second, three crude fractions obtained from the homogenate (600g, 2000g, and 12,000g pellets), rather than a single, low-speed pellet (600g) containing only large sheets of membrane, were subjected to gradient centrifugation to obtain plasma membrane. This modification allowed purification of small as well as large fragments of plasmalemma and greatly increased the yield of purified membrane. Mg+2-dependent, Na+-K+-stimulated ATPase, a marker enzyme for plasma membrane, was enriched in the purified fraction by congruent to 17-fold relative to homogenate on a specific activity basis, and the yield of isolated plasma membrane averaged 70%, and was occasionally as high as 90%.
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PMID:Improved yield of plasma membrane from mammalian cells through modifications of the two-phase polymer isolation procedure. 632 33

The Saccharomyces cerevisiae gene, VPH1 (Vacuolar pH 1), encodes a 95-kDa integral membrane subunit of the vacuolar-type H(+)-ATPase (V-ATPase) that is required for enzyme assembly; disruption of the VPH1 gene impairs vacuolar acidification (Manolson, M.F., Proteau, D., Preston, R. A., Stenbit, A., Roberts, B. T., Hoyt, M. A., Preuss, D., Mulholland, J., Botstein, D., and Jones, E. W. (1992) J. Biol. Chem. 267, 14294-14303). Here we show that STV1 (Similar To VPH1) encodes an integral membrane polypeptide of 102 kDa with 54% identity with the peptide sequence of Vph1p. High copy expression of STV1 partially restores vacuolar acidification in a delta vph1 mutant strain; solubilization and fractionation of membrane proteins from these vacuoles show that Stv1p co-purifies with bafilomycin A1-sensitive ATPase activity and with the 60- and 69-kDa V-ATPase subunits. Immunofluorescence microscopy of strains bearing a single copy of epitope-tagged STV1 reveals punctate staining of the cytoplasm; overexpression of epitope-tagged Stv1p reveals both punctate cytoplasmic staining and vacuolar membrane staining. Northern analysis shows that disruption of STV1 does not affect the level of transcription of VPH1 and that disruption of VPH1 does not affect the level of transcription of STV1. Strains bearing disruption of genes encoding other V-ATPase subunits (VMA1, VMA2, VMA3, and VMA4) fail to grow on media supplemented with 100 mM CaCl2 or 4 mM ZnCl2, media buffered to pH 7.5, or media with a glycerol carbon source. On the same types of media only a delta vph1 delta stv1 double disruption mutant has growth phenotypes equivalent to strains bearing a single disruption of the VMA1, VMA2, VMA3, and VMA4 genes; a delta vph1 strain has only moderate growth inhibition while a delta stv1 strain has wild type growth on the conditions listed above. We conclude that Stv1p is a functional homologue of Vph1p and suggest that Stv1p and Vph1p may be equivalent subunits for V-ATPases located on different organelles. The function of these 100-kDa homologues may be to target or regulate other common V-ATPase subunits for two distinct cellular locations.
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PMID:STV1 gene encodes functional homologue of 95-kDa yeast vacuolar H(+)-ATPase subunit Vph1p. 751 99

Strains bearing the vph2 mutation are defective in vacuolar acidification. The VPH2 gene was isolated from a genomic DNA library by complementation of the zinc-sensitive phenotype of the mutant. Deletion analysis localized the complementing activity to a 1.2 kb DNA fragment. Sequence analysis of this fragment revealed the presence of a single open reading frame that encoded a protein of 215 amino acids. Computer analysis indicated that the protein, which has a predicted molecular mass of 25,286 Daltons, has two distinct membrane-spanning domains. Biochemical studies indicated that strains bearing the vph2 mutation have greatly reduced levels of vacuolar proton pumping and ATPase activity and that the nucleotide binding subunits of the multimeric vacuolar H(+)-ATPase failed to be correctly targeted to the vacuolar membrane. The vph2 mutant fails to grow on YEP glycerol medium and on media containing 100 mM-CaCl2 or 4 mM-ZnCl2 or buffered to pH 7.5, a phenotype observed in strains carrying deletions in the genes encoding several vacuolar H(+)-ATPase subunits. The VPH2 gene is identical to the VMA12 gene (T. Stevens and Y. Anraku, personal communication).
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PMID:The VPH2 gene encodes a 25 kDa protein required for activity of the yeast vacuolar H(+)-ATPase. 846 4

Activation of immature thymocytes or transformed T lymphocytes via T-cell receptor (TCR)/CD3 signalling can induce programmed cell death (apoptosis). Recent data indicate that anti-CD3/TCR monoclonal antibodies (mAb) also trigger apoptosis in activated (but not resting) mature peripheral blood T lymphocytes. Here we report that triggering of resting CD4-CD8-TCR alpha beta+ and/or TCR gamma delta+ via the alternative CD2-dependent activation pathway is able to induce programmed cell death. A pair of mitogenic anti-CD2 mAb provoked a dramatic rise in [Ca2+]i that was almost entirely sustained by extracellular fluxes, and the inhibition of membrane [Ca2+/Mg2+] ATPase. The resulting endonuclease activation was able to induce DNA fragmentation, as revealed by propidium iodide staining and gel electrophoresis. Induction of apoptosis was prevented by the presence of interleukin-4 (IL-4) as well as by endonuclease inactivation with 100 microM ZnCl2, but enhanced by the contemporary block of protein kinase C. Thus it seems that in resting T lymphocytes the strong calcium signal delivered by the alternative CD2 activation pathway may act as a negative apoptotic signal in both alpha beta and gamma delta T cells with low (non-major histocompatibility complex restricted) antigenic affinity, so limiting the extension of polyclonal T-cell growth.
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PMID:IL-4 is able to reverse the CD2-mediated negative apoptotic signal to CD4-CD8- alpha beta and/or gamma delta T lymphocytes. 855 74

Elsewhere it has been shown that zinc is highly concentrated in the hypertrophic zone of epiphyseal cartilage. It has also been shown that zinc deficiency can result in abnormal bone development, suggesting a direct or indirect role for zinc in calcification. Because matrix vesicles have been implicated in the initiation of calcification, we tested the effect of zinc and its chelators, such as EGTA and phenanthroline, on ATP-dependent Ca uptake by rat matrix vesicles. EGTA pretreatment of matrix vesicles inhibited ATP-dependent Ca uptake by 50%. To see if zinc depletion by EGTA pretreatment is responsible for decreased levels of ATP-dependent Ca uptake, ZnCl2 concentrations, ranging from 5 to 100 mumol/L, were tested for their ability to restore Ca deposition. Zinc exerted a striking enhancing effect on ATP-dependent Ca uptake of both untreated and EGTA-pretreated matrix vesicles in a dose-dependent manner. A 50% activation occurs at about 16 mumol/L Zn2+. At 63 mumol/L Zn2+, there was a fourfold increase in Ca-depositing activity. Addition of an excess amount of phenanthroline relative to Zn2+ concentration to the reaction mixture failed to abolish activation of Ca uptake by Zn2+, indicating that the putative chelator-Zn2+ complex formation did not prevent activation. The observed partial inhibition of ATPase and the activation of ATP-dependent Ca uptake of Zn2+ suggest that, in addition to ATPase, some other Ca and/or Pi uptake activators responsive to Zn2+ treatment are present in mammalian matrix vesicles.
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PMID:Effects of zinc and divalent cation chelators on ATP hydrolysis and Ca deposition by rachitic rat matrix vesicles. 857 59

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