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 pma1-2 mutation affecting the plasma membrane H(+)-ATPase of Schizosaccharomyces pombe has been selected for resistance to the antibiotic Dio-9. In membrane fractions purified from glucose-starved cells, the mutant ATPase activity is reduced by 96%, is insensitive to inhibition by vanadate and has a pH profile displaced in the acidic pH range when compared to the wild type. The maximum velocity of the H(+)-ATPase activity of plasma membranes from glucose-activated pma1-2 cells is activated 20-fold. This is in striking contrast with the wild-type ATPase activity, the maximal velocity of which is not affected by glucose. However, similar to the wild-type enzyme, glucose activation of the pma1-2 mutant H(+)-ATPase reduces the Km for MgATP 9-2 mM and shifts the optimal pH from 4.8 to 6.0-6.5. The pma1-2 mutation modifies Lys250 to a threonine, which is highly conserved in fungal and plant H(+)-ATPases. These results, compared to those reported for mutations of neighbour residues in yeast or mammalian P-type ATPases, suggest that Lys250 could play a significant role, not only in phosphate binding and/or in the E1P-E2P conformational isomerisation, but also in glucose activation of the H(+)-ATPase.
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PMID:Altered plasma membrane H(+)-ATPase from the Dio-9-resistant pma1-2 mutant of Schizosaccharomyces pombe. 139 4

beta Lys-155 in the glycine-rich sequence of the beta subunit of Escherichia coli F1-ATPase has been shown to be near the gamma-phosphate moiety of ATP by affinity labeling (Ida, K., Noumi, T., Maeda, M., Fukui, T., and Futai, M. (1991) J. Biol. Chem. 266, 5424-5429). For examination of the roles of beta Lys-155 and beta Thr-156, mutants (beta Lys-155-->Ala, Ser, or Thr; beta Thr-156-->Ala, Cys, Asp, or Ser; beta Lys-155/beta Thr-156-->beta Thr-155/beta Lys-156; and beta Thr-156/beta Val-157-->beta Ala-156/beta Thr-157) were constructed, and their properties were studied extensively. The beta Ser-156 mutant was active in ATP synthesis and had approximately 1.5-fold higher membrane ATPase activity than the wild type. Other mutants were defective in ATP synthesis, had < 0.1% of the membrane ATPase activity of the wild type, and showed no ATP-dependent formation of an electrochemical proton gradient. The mutants had essentially the same amounts of F1 in their membranes as the wild type. Purified mutant enzymes (beta Ala-155, beta Ser-155, beta Ala-156, and beta Cys-156) showed low rates of multisite (< 0.02% of the wild type) and unisite (< 1.5% of the wild type) catalyses. The k1 values of the mutant enzymes for unisite catalysis were lower than that of the wild type: not detectable with the beta Ala-156 and beta Cys-156 enzymes and 10(2)-fold lower with the beta Ala-155 and beta Ser-155 enzymes. The beta Thr-156-->Ala or Cys enzyme showed an altered response to Mg2+, suggesting that beta Thr-156 may be closely related to Mg2+ binding. These results suggest that beta Lys-155 and beta Thr-156 are essential for catalysis and are possibly located in the catalytic site, although beta Thr-156 could be replaced by a serine residue.
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PMID:Effects of mutations of conserved Lys-155 and Thr-156 residues in the phosphate-binding glycine-rich sequence of the F1-ATPase beta subunit of Escherichia coli. 140 Mar 77

The high affinity branched-chain amino acid transport system (LIV-I) in Pseudomonas aeruginosa is composed of five components: BraC, a periplasmic binding protein for branched-chain amino acids; BraD and BraE, integral membrane proteins; BraF and BraG, putative nucleotide-binding proteins. By using a T7 RNA polymerase/promoter system we overproduced the BraD, BraE, BraF, and BraG proteins in Escherichia coli. The proteins were found to form a complex in the E. coli membrane and solubilized from the membrane with octyl glucoside. The LIV-I transport system was reconstituted into proteoliposomes from solubilized proteins by a detergent dilution procedure. In this reconstituted system, leucine transport was completely dependent on the presence of all five Bra components and on ATP loaded internally to the proteoliposomes. Alanine and threonine in addition to branched-chain amino acids were transported by the proteoliposomes, reflecting the substrate specificity of the BraC protein. GTP replaced ATP well as an energy source, and CTP and UTP also replaced ATP partially. Consumption of loaded ATP and concomitant production of orthophosphate were observed only when BraC and leucine, a substrate for LIV-I, were added together to the proteoliposomes, indicating that the LIV-I transport system has an ATPase activity coupled to translocation of branched-chain amino acids across the membrane.
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PMID:Solubilization and reconstitution of the Pseudomonas aeruginosa high affinity branched-chain amino acid transport system. 140 Apr 43

The roles of the Escherichia coli H(+)-ATPase (FoFl) delta subunit (177 amino acid residues) was studied by analyzing mutants. The membranes of nonsense (Gln-23----end, Gln-29----end, Gln-74----end) and missense (Gly-150----Asp) mutants had very low ATPase activities, indicating that the delta subunit is essential for the binding of the Fl portion to Fo. The Gln-176----end mutant had essentially the same membrane-bound activity as the wild type, whereas in the Val-174----end mutant most of the ATPase activity was in the cytoplasm. Thus Val-174 (and possibly Leu-175 also) was essential for maintaining the structure of the subunit, whereas the two carboxyl terminal residues Gln-176 and Ser-177 were dispensable. Substitutions were introduced at various residues (Thr-11, Glu-26, Asp-30, Glu-42, Glu-82, Arg-85, Asp-144, Arg-154, Asp-161, Ser-163), including apparently conserved hydrophilic ones. The resulting mutants had essentially the same phenotypes as the wild type, indicating that these residues do not have any significant functional role(s). Analysis of mutations (Gly-150----Asp, Pro, or Ala) indicated that Gly-150 itself was not essential, but that the mutations might affect the structure of the subunit. These results suggest that the overall structure of the delta subunit is necessary, but that individual residues may not have strict functional roles.
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PMID:Escherichia coli H(+)-ATPase: role of the delta subunit in binding Fl to the Fo sector. 153 Sep 99

The role of protein kinase C (PKC) in regulating the contractile state of smooth muscle was investigated using the constitutively active catalytic fragment of PKC (PKM) with skinned (demembranated) chicken gizzard fibres. PKM attenuated a submaximal contraction in gizzard smooth muscle skinned fibres, but not in rabbit cardiac skinned fibres. PKM-mediated relaxation of submaximal contractions of smooth muscle was accompanied by a reduction in the rate of ATP hydrolysis in the fibre and by phosphorylation of the 20 kDa light chain of gizzard myosin at the PKC sites (serine-1, serine-2 and threonine-9). In addition, several other endogenous proteins were phosphorylated by PKM. However, the inhibitory effects on tension and ATPase are consistent with the biochemical effects of PKC-catalysed phosphorylation of myosin, i.e. reduction of the actin-activated MgATPase activity of myosin prephosphorylated at serine-19 by myosin light chain kinase. Pretreatment of skinned fibres with PKM and ATP gamma S in the absence of Ca2+ had no inhibitory effect on the subsequent submaximal Ca(2+)-activation of force. Consistent with this observation, PKC was not able to utilize ATP gamma S as a substrate, confirming that the observed effects were the result of PKM-catalysed protein phosphorylation. We suggest that PKC may have two distinct effects on smooth muscle contraction: translocation of PKC to the sarcolemma on stimulation results in phosphorylation of a protein(s) other than myosin and a slow, sustained contraction; in some circumstances PKC may undergo proteolysis to PKM resulting in myosin phosphorylation at PKC-specific sites, a reduction in ATPase activity and relaxation of the muscle.
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PMID:Effects of the constitutively active proteolytic fragment of protein kinase C on the contractile properties of demembranated smooth muscle fibres. 153 85

The binding site of a monoclonal antibody, M45-80, against the alpha-subunit of horse Na,K-ATPase was determined. Various sizes of DNA fragments derived from rat Na,K-ATPase alpha 1-subunit cDNA were cloned into pUC19 expression vector and some fragments of horse genomic DNA were cloned into pUC18. Escherichia coli JM83 cells harboring the plasmids were grown and the cell lysates were used as antigens. An enzyme-linked immunosorbent assay revealed that M45-80 recognizes the hexapeptide Glu-Tyr-Thr-Trp-Leu-Glu (which is identical to the rat and horse alpha 1-subunits) at the M3-M4 junction located on the extracellular side. The ouabain-binding site is discussed in relation to the recognition site of M45-80.
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PMID:Antigenic determinant of a monoclonal antibody: extracellular domain at the M3-M4 junction of the alpha-subunit of Na,K-ATPase. 170 16

Effect of protein deficient diet on hepatic plasma membrane fluidity has been studied in rats using (i) steady state fluorescence polarization and anisotropy, (ii) phospholipid and cholesterol contents, (iii) phospholipid fatty acid composition, (iv) turnover of phosphatidyl choline (PC), and (v) activities of membrane-bound enzymes as parameters and rats fed casein (20%) diet as standard group. A significant increase in steady state fluorescence and anisotropy values was registered in the deficient group, indicating increased resistance and hence decrease in fluidity of the plasma membrane. Supplementation of the diet with lysine and threonine improved these values, thereby suggesting the significance of diet for membrane fluidity. Simultaneous significant alterations in other parameters, viz. (i) decrease in PC, PE and free cholesterol and increase in esterified cholesterol contents, (ii) decrease in unsaturation of fatty acids of PC, (iii) decrease in incorporation of NaH2 32PO4, [CH3-14C]choline and [CH3-14C]methionine into plasma membrane PC, and (iv) decrease in activities of plasma membrane 5'-nucleotidase and phosphodiesterase along with increase of (Na(+)-K+)ATPase and adenyl cyclase, were observed in the deficient group which on supplementation with lysine and threonine showed improvement over alterations.
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PMID:Hepatic plasma membrane fluidity and dietary proteins. 175 32

The two isoforms of ribulose 1,2-bisphosphate carboxylase activase (Rbu-P2 carboxylase) from spinach (Spinacea oleracea L.) were individually purified from Escherichia coli transformed with expression vectors for the appropriate cDNAs. Both isoforms catalyzed activation of Rbu-P2 carboxylase (ribulose 1,5-bisphosphate carboxylase/oxygenase, EC 4.1.1.39) and ATP hydrolysis. The kinetics of the two isoforms with respect to ATP concentration were different, in that the 45-kDa polypeptide exhibited a sigmoidal response while a rectangular response was observed with the 41-kDa isoform. These observations suggest that the additional domain at the C terminus of the 45-kDa isoform modulates the ATP regulation of activity. Lysine 169, at the putative ATP-binding site of the 41-kDa form of Rbu-P2 carboxylase activase, was changed to arginine, isoleucine, and threonine by directed mutagenesis. These mutations abolished Rbu-P2 carboxylase activase and ATPase activities, as well as the capability of the protein to bind ATP. These results confirm that lysine 169 is an essential residue.
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PMID:Expression of the two isoforms of spinach ribulose 1,5-bisphosphate carboxylase activase and essentiality of the conserved lysine in the consensus nucleotide-binding domain. 182 41

Purified Ca(2+)-stimulated, Mg(2+)-dependent ATPase (Ca(2+)-ATPase) from human erythrocytes was phosphorylated with a stoichiometry of about 1 mol of phosphate/mol of ATPase at both threonine and serine residues by purified rat brain type III protein kinase C. In the presence of calmodulin, the phosphorylation was markedly reduced. Labeled phosphate from [gamma-32P]ATP was retained on an 86-kDa calmodulin-binding tryptic fragment of Ca(2+)-ATPase but not on 82- and 77-kDa non-calmodulin-binding fragments. Similarly, fragmentation of the phosphorylated Ca(2+)-ATPase by calpain I revealed that calmodulin-binding fragments (127 and 125 kDa) retained phosphate label whereas a non-calmodulin-binding fragment (124 kDa) did not. The calmodulin-binding domain, located about 12 kDa from the carboxyl terminus of the Ca(2+)-ATPase, was thus located as a site of protein kinase C phosphorylation. A synthetic peptide corresponding to a segment of the calmodulin-binding domain (H2 N-R-G-L-N-R-I-Q-T-Q-I-K-V-V-N-COOH) was indeed phosphorylated at the single threonine residue within this sequence. The additional serine phosphorylation site was carboxyl terminal to the calmodulin domain. Phosphorylation by purified type III protein kinase C (canine heart) antagonized the calmodulin activation of the Ca(2+)-ATPase, particularly at lower Ca2+ concentrations (0.2-1.0 microM). By contrast, a purified but unresolved protein kinase C isoenzyme mixture from rat brain stimulated the activity of Ca(2+)-ATPase prepared in asolectin, but not glycerol, by more than 2-fold in the presence of the ionophore A23187, without increasing its Ca2+ sensitivity. The results clearly indicate that human erythrocyte Ca(2+)-ATPase is a substrate of protein kinase C, but the effect of phosphorylation on the activity of the enzyme depends on the isoenzyme form of protein kinase C used and on the lipid associated with the Ca(2+)-ATPase.
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PMID:Protein kinase C phosphorylates the carboxyl terminus of the plasma membrane Ca(2+)-ATPase from human erythrocytes. 182 43

A sequence motif in the beta subunit of Escherichia coli F1 (Gly-Gly-Ala-Gly-Val-Gly-Lys-Thr, residue 149-156, where conserved residues are underlined) is one of the glycine-rich sequences found in many nucleotide binding proteins. In this study, we constructed a plasmid carrying all the F0F1 genes. This plasmid gave the highest membrane ATPase activity so far reported. Substitution of beta Gly149 by Ser suppressed the effect of the beta Ser174----Phe mutation (defective H(+)-ATPase), but beta Gly150----Ser substitution did not have this effect. A single mutation (beta Gly149----Ser or beta Gly150----Ser) gave active enzyme with altered divalent cation dependency and azide sensitivity: the beta Gly149----Ser mutant enzyme had 100-fold lower azide sensitivity and essentially no Ca(2+)-dependent activity, but had the wild-type level of Mg(2+)-dependent activity with active oxidative phosphorylation. Introduction of a beta Gly149----Ser or beta Gly150----Ser mutation with the beta Ser174----Phe mutation also lowered the Ca(2+)-dependent activity and azide sensitivity. Consistent with our previous findings (Takeyama, M., Ihara, K., Moriyama, Y., Noumi, T., Ida, K., Tomioka, N., Itai, A., Maeda, M., and Futai, M. (1990) J. Biol. Chem. 265, 21279-21284), a beta Thr156----Ala or Cys mutation impaired ATPase activity, suggesting that the hydroxyl moiety at position 156 is essential for the catalytic activity. The possible location of the catalytic site including divalent cation binding site(s) is discussed.
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PMID:Mutations in Ser174 and the glycine-rich sequence (Gly149, Gly150, and Thr156) in the beta subunit of Escherichia coli H(+)-ATPase. 183 55

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