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)

The activation by Mg2+, in the presence of 0.2 mM Ca2+, of the erythrocyte ATPase from rats fed with six different fat-supplemented diets has been studied. A sigmoid kinetic curve was found. The values of the Hill coefficient showed a positive correlation with the membrane fatty acid fluidity, which is expressed as the ratio between double bond index and saturated fatty acid content. The values of the Hill coefficient ranged from 1.0, in animals fed with lard-supplemented diet, to 2.0, in animals fed with corn oil-supplemented diet. When the effect of increasing Ca2+ concentration in these two groups was studied at pH 8.1, an activation with the latter group and an inhibition with the former one were found. The activation by Ca2+ found in corn oil-fed animals was lost after treatment with phospholipase C and restored after the addition of homologous phospholipids. The activation could not be restored by addition of phospholipids from lard-fed animals. In this group, treatment with phospholipase C left the kinetic behavior unmodified, but an activation by Ca2+ could be detected after adding phospholipids from corn oil-fed animals. It is suggested that membrane fatty acid fluidity is involved in the cooperative transitions and cryptic activity of the (Mg2+ + Ca2+)-ATPase.
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PMID:Kinetic changes of the erythrocyte (Mg2+ + Ca2+)-adenosine triphosphatase of rats fed different fat-supplemented diets. 12 51

Human erythrocytes from healthy male donors were fractionated with respect to in vivo age by simple centrifugation in order to characterize changes in the functional integrity of the membrane during the life-span of the cell. The three enzymes, Na/K-ATPase, glyceraldehyde-3-phosphate dehydrogenase and NADH-ferricyanide reductase, were found not to change with age, but significant age-dependent decreases were observed in the cases of acetylcholinesterase, phosphoglycerate kinase, purine nucleoside phosphorylase, adenylate kinase, Mg-ATPase and alkaline phosphatase. The possibility that these changes were attributable to mechanisms other than age-related inactivation, such as reticulocyte contamination, differential resealing and crypticity, was investigated. Only the decrease in acetylcholinesterase could be explained wholly in terms of reticulocyte contamination. A decrease in membrane integrity on ageing was observed, which accounted for approximately half the change in alkaline phosphatase and may have contributed to the other enzyme activity changes. This membrane integrity effect masked a real decrease in the highly cryptic NADH-ferricyanide reductase, this decrease being apparent only after total disaggregation of the membrane with nonionic surfactant.
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PMID:Changes in the activities of some membrane-associated enzymes during in vivo ageing of the normal human erythrocyte. 14 40

Previous work suggested that the major Mr 46,000 ATP-binding protein [a putative nucleoside triphosphatase (NTPase)] found in rat liver nuclear scaffold (NS) may be proteolytically derived from lamins A/C. To definitively establish this identification, we undertook a series of photolabeling, proteolysis, and immunoprecipitation experiments. Mice were immunized with human lamin C expressed in bacteria, and monoclonal antibody-producing hybridomas were obtained. The purified monoclonal antibodies all recognized lamins A and C on immunoblots of NS, as well as Mr 46,000 or 34,000 proteolytic fragments as minor components. The Mr 46,000 photolabeled band was the only major NS component photolabeled with low concentrations of azido-ATP, and it was immunoprecipitated with anti-lamin monoclonal antibodies. To preclude the possibility that the photolabeled Mr 46,000 protein represented a minor component which comigrated with the Mr 46,000 lamin fragment and which specifically associated with lamins A/C during immunoprecipitation, a series of proteolytic digestions were undertaken. Digestion of the photolabeled Mr 46,000 peptide with chymotrypsin and staphylococcal protease V8 produced a limited number of photolabeled fragments, all of which comigrated with major stainable fragments produced from the Mr 46,000 lamin fragment. Cyanogen bromide cleavage of the photolabeled Mr 46,000 polypeptide, followed by polyacrylamide gel electrophoresis or high performance liquid chromatography/amino acid analyses, defined the COOH-terminal cleavage site as the Y residue at amino acid 376 and localized the photolabeled site to the COOH-terminal region (amino acids 372-376). In support of this proposed proteolytic cleavage site, specific assays with tyrosine-containing thiobenzyl ester substrate documented the presence of NS protease activity which cleaves at tyrosine residues; this activity shows a Km of 0.2 mM and a Kcat of approximately 250/s. Parallel experiments with mildly proteolyzed cloned lamin C preparations showed selective photolabeling of an Mr 34,000 fragment, which corresponds to a proteolytic breakdown product of the Mr 46,000 NS polypeptide; this Mr 34,000 photolabeled fragment was also immunoprecipitated with anti-lamin monoclonal antibodies and contained the same photolabeled site as the Mr 46,000 peptide. Cloned lamin C preparations were inactive in NTPase assays but did exhibit substantial ATP binding with an apparent KD = 4 x 10(-5) M ATP. These results indicate that the major Mr 46,000 photoaffinity-labeled protein in NS, which represents the putative NTPase thought to participate in nucleocytoplasmic transport, is derived from lamin A or lamin C by NS proteolytic activity which exposes a cryptic ATP-binding site near the highly conserved end of coil-2.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The Mr 46,000 nuclear scaffold ATP-binding protein: identification of the putative nucleoside triphosphatase by proteolysis and monoclonal antibodies directed against lamins A/C. 196 40

Controversy exists concerning the localization of the enzyme Na+,K(+)-ATPase to canalicular membranes in hepatocytes. Most studies find enzyme activity only at the basolateral plasma membrane domain of the hepatocyte. However, Na+,K(+)-ATPase activity has been detected recently in a canalicular membrane fraction prepared by Mg++ precipitation, suggesting that differences in membrane domain fluidity account for these discrepancies. To reinvestigate this question, we used free-flow electrophoresis to further purify canalicular liver plasma membranes originally separated by sucrose density centrifugation. With this technique, canalicular membranes devoid of Na+,K(+)-ATPase activity by routine assay were separated into six subfractions. More than 80% of the activities of canalicular marker enzymes was recovered in two subfractions closest to the anode, which were totally devoid of Na+,K(+)-ATPase activity. However, Na+,K(+)-ATPase activity could now be detected in the four other fractions that contained only small amounts of canalicular marker enzymes. The basolateral marker enzyme, glucagon-stimulated adenyl cyclase, comigrated with this cryptic Na+,K(+)-ATPase activity. Furthermore, addition of 6 mumol/L [12-(2-methoxyethoxy)-ethyl-8-(cis-2-n-octylcyclopropyl)-octanoate ], a membrane-fluidizing agent, to the original canalicular membrane preparation and to all subfractions did not stimulate or unmask latent Na+,K(+)-ATPase activity. Finally, when canalicular membranes isolated by Mg++ precipitation were subjected to free-flow electrophoresis, they could not be separated from the more positively charged Na+,K(+)-ATPase-containing fractions, probably because of alterations in surface charge. Together these findings suggest that Na+,K(+)-ATPase is a basolateral enzyme, that represents a small contaminant when present in canalicular liver plasma membranes and that methodological differences may account for previous discrepancies.
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PMID:Cryptic Na+,K(+)-ATPase activity in rat liver canalicular plasma membranes: evidence for its basolateral origin. 215 68

Membrane proteins of transporting epithelia are often distributed between apical and basolateral surfaces to produce a functionally polarized cell. The distribution of Na+,K+-ATPase [ATP phosphohydrolase (Na+/K+-transporting), EC 3.6.1.37] between apical and basolateral membranes of hepatocytes has been controversial. Because Na+,K+-ATPase activity is fluidity dependent and the physiochemical properties of the apical membrane reduces its fluidity, we investigated whether altering membrane fluidity might uncover cryptic Na+,K+-ATPase in bile canalicular (apical) surface fractions free of detectable Na+,K+-ATPase and glucagon-stimulated adenylate cyclase activities. Apical fractions exhibited higher diphenylhexatriene-fluorescence polarization values when compared with sinusoidal (basolateral) membrane fractions. When 2-(2-methoxyethoxy)ethyl 8-(cis-2-n-octylcyclopropyl)octanoate (A2C) was added to each fraction, Na+,K+-ATPase, but not glucagon-stimulated adenylate cyclase activity, was activated in the apical fraction. In contrast, further activation of both enzymes was not seen in sinusoidal fractions. The A2C-induced increase in apical Na+,K+-ATPase approached 75% of the sinusoidal level. Parallel increases in apical Na+,K+-ATPase were produced by benzyl alcohol and Triton WR-1339. All three fluidizing agents decreased the order component of membrane fluidity. Na+,K+-ATPase activity in each subfraction was identically inhibited by the monoclonal antibody 9-A5, a specific inhibitor of this enzyme. These findings suggest that hepatic Na+,K+-ATPase is distributed in both surface membranes but functions more efficiently and, perhaps, specifically in the sinusoidal membranes because of their higher bulk lipid fluidity.
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PMID:Biochemical localization of hepatic surface-membrane Na+,K+-ATPase activity depends on membrane lipid fluidity. 284 69

Membranes from Halobacterium saccharovorum contained a cryptic ATPase which required Mg2+ or Mn2+ and was activated by Triton X-100. The optimal pH for ATP hydrolysis was 9-10. ATP or GTP were hydrolyzed at the same rate while ITP, CTP, and UTP were hydrolyzed at about half that rate. The products of ATP hydrolysis were ADP and phosphate. The ATPase required high concentrations (3.5 M) of NaCl for maximum activity. ADP was a competitive inhibitor of the activity, with an apparent Ki of 50 microM. Dicyclohexylcarbodiimide (DCCD) inhibited ATP hydrolysis. The inhibition was marginal at the optimum pH of the enzyme. When the ATPase was preincubated with DCCD at varying pH values, but assayed at the optimal pH for activity, DCCD inhibition was observed to increase with increasing acidity of the preincubation medium. DCCD inhibition was also dependent on time of preincubation, and protein and DCCD concentrations. When preincubated at pH 6.0 for 4 h at a protein:DCCD ratio of 40 (w/w), ATPase activity was inhibited 90%.
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PMID:Dicyclohexylcarbodiimide-sensitive ATPase in Halobacterium saccharovorum. 293 Oct 49

Simian virus 40 (SV40)-transformed monolayer cells were analyzed in situ by indirect immunofluorescence microscopy for the postulated cell surface location of SV40 T-antigen-related molecules. With antisera prepared against purified, sodium dodecyl sulfate-denatured SV40 T-antigen, positive surface staining was obtained when the cells had been treated with formaldehyde before immunofluorescence analysis. In contrast, living SV40-transformed cells analyzed in monolayer were surface fluorescence negative. The fixation procedure developed in this study combined with a double staining immunofluorescence technique allowed the simultaneous analysis of the same cells for the expression of both SV40 T-antigen-related surface antigen and nuclear T-antigen. The localization of SV40 T-antigen-related surface antigen on the outer surface of the plasma membrane of formaldehyde-fixed SV40-transformed cells was demonstrated directly by the protein A-mediated binding of Staphylococcus aureus bacteria on formaldehyde-fixed SV40-transformed cells precoated with antiserum against sodium dodecyl sulfate-denatured T-antigen. Both cell surface staining and S. aureus binding were found to be highly specific for SV40 T-antigen-related binding sites. These results indicate that T-antigen-related molecules in a cryptic form are located on the surface of SV40-transformed monolayer cells and can be detected in situ after modification of the cell surface architecture.
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PMID:Simian virus 40 T-antigen-related cell surface antigen: serological demonstration on simian virus 40-transformed monolayer cells in situ. 625 89

Effects of long-term, subtotal inhibition of Na+-K+ transport, either by growth of cells in sublethal concentrations of ouabain or in low-K+ medium, are described for HeLa cells. After prolonged growth in 2 X 10(-8) M ouabain, the total number of ouabain molecules bound per cell increases by as much as a factor of three, mostly due to internalization of the drug. There is only about a 20% increase in ouabain-binding sites on the plasma membrane, representing a modest induction of Na+, K+-ATPase. In contrast, after long-term growth in low K+ there can be a twofold or greater increase in ouabain binding per cell, and in this case the additional sites are located in the plasma membrane. The increase is reversible. To assess the corresponding transport changes, we have separately estimated the contributions of increased intracellular [Na+] and of transport capacity (number of transport sites) to transport regulation. During both induction and reversal, short-term regulation is achieved primarily by changes in [Na+]i. More slowly, long-term regulation is achieved by changes in the number of functional transporters in the plasma membrane as assessed by ouabain binding Vmax for transport, and specific phosphorylation. Parallel exposure of cryptic Na+,K+-ATPase activity with sodium dodecyl sulfate in the plasma membranes of both induced and control cells showed that the induction cannot be accounted for by an exposure of preexisting Na+,K+-ATPase in the plasma membrane. Analysis of the kinetics of reversal indicates that it may be due to a post-translational event.
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PMID:Na+, K+-ATPase in HeLa cells after prolonged growth in low K+ or ouabain. 625 87

The mitochondrial F1-ATPase beta subunit (ATPase-beta) of Nicotiana plumbaginifolia is nucleus-encoded as a precursor containing an NH2-terminal extension. By sequencing the mature N. tabacum ATPase-beta, we determined the length of the presequence, viz. 54 residues. To define the essential regions of this presequence, we produced a series of 3' deletions in the sequence coding for the 90 NH2-terminal residues of ATPase-beta. The truncated sequences were fused with the chloramphenicol acetyl transferase (cat) and beta-glucuronidase (gus) genes and introduced into tobacco plants. From the observed distribution of CAT and GUS activity in the plant cells, we conclude that the first 23 amino-acid residues of ATPase-beta remain capable of specifically targeting reporter proteins into mitochondria. Immunodetection in transgenic plants and in vitro import experiments with various CAT fusion proteins show that the precursors are processed at the expected cleavage site but also at a cryptic site located in the linker region between the presequence and the first methionine of native CAT.
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PMID:Truncated presequences of mitochondrial F1-ATPase beta subunit from Nicotiana plumbaginifolia transport CAT and GUS proteins into mitochondria of transgenic tobacco. 815 82

The biochemical properties of the Escherichia coli UvrA tandem ATPase site mutants in nucleotide excision repair have been studied. In these and earlier studies it was found that ATP binding is required for protein-protein and nucleoprotein association reactions, whereas the dissociation reactions are driven by the hydrolysis of ATP. The self-association of UvrA to form the reactive dimeric species UvrA2 is driven by nucleotide binding, but its dissociation from DNA requires ATP hydrolysis. Similarly, ATP binding drives those allosteric changes in DNA topology during UvrA2-nucleoprotein formation (Oh, E.Y., and Grossman, L. (1986) Nucleic Acids Res. 14, 8557-8571). The manifestation of the UvrB-associated cryptic ATPase requires UvrA and DNA in a helicase-catalyzed supercoiling reaction. The UvrA2B helicase activity requires ATP hydrolysis by the C-terminal ATPase site of UvrA in addition to UvrB. ATP hydrolysis by the C-terminal ATPase site of UvrA also participates in the localization of damaged sites contributing to the formation of damage-specific high affinity nucleoprotein complexes. The levels of complementation to UV survival by the ATPase site mutants of UvrA (Thiagalingam, S., and Grossman, L. (1991) J. Biol. Chem. 266, 11395-11403) correspond to its ability to self-bind and translocate in combination with the UvrB subunit in its search for damaged sites during the preincision mode of nucleotide excision.
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PMID:The multiple roles for ATP in the Escherichia coli UvrABC endonuclease-catalyzed incision reaction. 834 13

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