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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 gel-overlay technique with 125I-labelled calmodulin allowed the detection of several calmodulin-binding proteins of Mr 280 000, 150 000, 97 000, 56 000, 35 000 and 24 000 in canine cardiac sarcoplasmic reticulum. Only two calmodulin-binding proteins could be identified unambiguously. Among them, the 97 000-Mr protein that undergoes phosphorylation in the presence of Ca2+ and calmodulin, is likely to be glycogen phosphorylase. In contrast, the (Ca2+ + Mg2+)-activated ATPase did not appear to bind calmodulin under our experimental conditions. The second known calmodulin target is dephosphophospholamban, which migrates with an apparent Mr of 24 000. The dimeric as well as the monomeric form of phospholamban was found to bind calmodulin. Phospholamban shifts the apparent Kd of erythrocyte (Ca2+ + Mg2+)-activated ATPase for calmodulin, suggesting thus a tight binding of calmodulin to the proteolipid. Interestingly enough, phospholamban phosphorylation by either the catalytic subunit of cyclic AMP-dependent protein kinase or the Ca2+/calmodulin-dependent phospholamban kinase was found to inhibit calmodulin binding.
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PMID:Cardiac sarcoplasmic-reticulum calmodulin-binding proteins. Modulation of calmodulin binding to phospholamban by phosphorylation. 298 48

Zinc, lead and cadmium in the form of chloride salts when added to a standard assay system containing 80 X 10(-6) ejaculated washed human spermatozoa caused a dose and duration-dependent inhibition of their motility. The activity of certain key enzymes of carbohydrate and energy metabolism, viz, glycogen phosphorylase, glucose-6-phosphatase, fructose-1, 6-diphosphatase, glucose-6-phosphate isomerase, amylase, Mg2+- dependent ATPase and lactic and succinic acid dehydrogenases were also found to be inhibited. The order of inhibitory effects of the heavy metals were zinc less than lead less than cadmium. The metal chelating agent, ethylene diamine tetra-acetic acid (EDTA, disodium salt) also interfered with the spermatozoal motility and inhibited the enzyme activities.
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PMID:Effect of selected metal ions on the motility and carbohydrate metabolism of ejaculated human spermatozoa. 314 74

We recently reported that phospholamban, the activator of the cardiac sarcoplasmic reticulum calcium pump, is phosphorylated by both cAMP-dependent protein kinase and a membrane-bound, Ca2+/calmodulin-dependent phospholamban kinase. Phospholamban kinase and glycogen phosphorylase b kinase share the same substrate specificity. They differ however in that phospholamban kinase exhibits an absolute requirement for exogenous calmodulin. In line with the latter observation, phospholamban kinase is shown in this report to be inhibited by fluphenazine. Lower concentrations of the drug induced an activation of the kinase, presumably by hydrophobic interaction with either membrane phospholipids or integral proteins. Also, phospholamban kinase was found to be totally insensitive to antibodies elicited against phosphorylase kinase. Since antipsychotic drugs fail to inhibit the delta-subunit-dependent activity of phosphorylase kinase, the above findings confirm that the two kinases are distinct molecular entities. After detergent solubilization of the sarcoplasmic reticulum, the phospholamban-ATPase complex remains a substrate for phospholamban kinase activity, which retains the ability to catalyze the phosphorylation of exogenous phosphorylase b. However, the Ca2+ dependence is entirely lost upon solubilization and no kinase activity is retained on calmodulin-Sepharose in the presence of Ca2+ ions. Phospholamban and phosphorylase kinase activities copurify with the pump-phospholamban complex upon fractionation of the solubilized proteins by density gradient ultracentrifugation, suggesting a tight interaction between the ATPase, its activator, and the phospholamban kinase. A tentative schematic representation of this supramolecular assembly is based upon the results described in this and preceding papers.
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PMID:Ca2+/calmodulin-dependent phospholamban kinase from cardiac sarcoplasmic reticulum is distinct from phosphorylase kinase and forms a regulatory complex with phospholamban and the Ca2+-ATPase. 622 Jun 53

The postnatal development of mammalian skeletal muscle is associated with an increased capacity for glycogenolysis. In the present study rabbit skeletal muscle underwent a 7-fold increase in glycogen synthase and glycogen phosphorylase activity over the postnatal period of 0--8 weeks. An enriched fraction of sarcolemma was prepared from neonatal and adult muscle to examine the development of the beta-adrenergic receptor-adenylate cyclase system. Adult membranes possessed a 2-fold greater Na+K+(Mg2+)-ATPase activity and a 6--8 fold greater sodium fluoride- and epinephrine-stimulated adenylate cyclase activity. The activation ratio (effector activity/basal activity) increased 2--3 fold for epinephrine and sodium fluoride in adult sarcolemma. The activation by catecholamines conformed to the physiological beta 2 type response with isoproterenol (1.8 . 10(-8) M) > epinephrine (1.1 . 10(-7) M) > norinephrine (3.2 . 10(-6) M). In contrast, binding studies employing (-)-[3H]dihydroalprenolol showed little difference between neonatal and adult membranes with respect to (1) number of binding sites, (2) equilibrium dissociation constant and (3) displacement of (-)-[3H]dihydroalprenolol by catecholamine agonists. Protein and lipid components of the sarcolemma were also modified during development. Neonatal membranes possessed two glycopeptides of Mr 80000 and 86000, whereas in the adult only a single Mr 113000 species was evident. The total lipid phosphorus and phospholipid composition was unchanged during development. The content of linoleic acid increased approx. 3-fold during development in the phosphatidylcholine, phosphatidylethanolamine and phosphatidylserine phospholipids. The cholesterol content of adult membranes was decreased by 29% compared to neonatal membranes.
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PMID:Beta-adrenergic receptor-adenylate cyclase alterations during the postnatal development of skeletal muscle. 625 11

Regulation of the ATPase activity of smooth and nonmuscle myosin II involves reversible phosphorylation of the regulatory light chain (RLC). The RLC from skeletal muscle myosin (skRLC) is unable to confer regulation (myosin is locked in an inactive state) to smooth muscle myosin when substituted for the endogenous smooth RLC (smRLC). Studies of chimeric light chains comprised of the N- or C-terminal half of each skRLC and smRLC suggest that the structural basis for the loss of this regulation is within the C-terminal half of the RLC (Trybus, K.M., and Chatman, T.A. (1993) J. Biol. Chem. 268, 4412-4419). The purpose of this study is to delineate the structural elements within the C-terminal half of the smRLC that are absent in the skRLC and are necessary for regulation. By sequence comparison, six residues, Arg-103, Arg-123, Met-129, Gly-130, Arg-143, and Arg-160, which are conserved in regulated myosin RLCs but missing in nonregulated myosin RLCs, were identified in smRLC. To test whether these amino acids provide the missing structural elements necessary for phosphorylation-mediated regulation, a skRLC was engineered that replaced the corresponding skRLC amino acids (positions 100, 120, 126, 127, 140, and 157, respectively) with their smRLC counterparts. Using a newly developed RLC exchange procedure, the purified mutant protein was evaluated for its ability to regulate chicken gizzard smooth muscle myosin. Substitution of the six conserved amino acids into the skRLC completely restored phosphorylation-mediated regulation. Thus, a subset of these amino acids, including four basic arginine residues located in the E, F, G, and H helices which are missing in skRLC, may be the structural coordinates for the phosphorylserine in the N terminus. Based on this result, the regulation of glycogen phosphorylase is discussed as a model for the regulation of smooth muscle myosin.
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PMID:Restoration of phosphorylation-dependent regulation to the skeletal muscle myosin regulatory light chain. 755 73

Skeletal muscle glycogen phosphorylase b binds to sarcoplasmic reticulum (SR) membranes with a dissociation constant of 1.7 +/- 0.6 mg of phosphorylase/ml at 25 degrees C at physiological pH and ionic strength. Raising the temperature to 37 degrees C produced a 2-3-fold decrease in the dissociation constant. The SR membranes could bind up to 1.1 +/- 0.1 mg of glycogen phosphorylase b/mg of SR protein, whereas liposomes prepared with endogenous SR lipids and reconstituted Ca(2+)-ATPase were unable to bind glycogen phosphorylase. Binding of glycogen phosphorylase b to SR membranes is accompanied by inhibition of its activity in the presence of AMP. The Vmax for glycogen phosphorylase b associated with SR membranes is 40 +/- 5% of that for purified glycogen phosphorylase and shows a decreased affinity for its allosteric activators, AMP and IMP. These kinetic effects are also observed with purified glycogen phosphorylase b when starch or alpha-amylose is used as substrate instead of glycogen. Treatment of SR membranes with alpha-amylase produced dissociation of glycogen phosphorylase b from the SR membranes. Thus, linear polysaccharide fragments of glycogen bound to the SR membranes are likely mediating the binding of glycogen phosphorylase b to these membranes.
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PMID:Interaction between glycogen phosphorylase and sarcoplasmic reticulum membranes and its functional implications. 774 50

As demonstrated previously, liver acini draining the blood from intraportally transplanted pancreatic islets in streptozotocin-diabetic rats are altered in various respects. The hepatocytes in these acini store glycogen and/or fat, and they show an increase in proliferation as well as in apoptotic activity. Thus, they are phenotypically similar to carcinogen-induced preneoplastic liver foci (glycogen-storing foci and sometimes also mixed cell foci). By means of catalytic enzyme histochemistry or immunohistochemistry, we investigated the activity of key enzymes of alternative pathways of carbohydrate metabolism and some additional marker enzymes (well known from studies on preneoplastic hepatic foci) in the altered liver acini surrounding the islet isografts. In addition, the expression of glucose transporter proteins 1 and 2 (GLUT-1 and GLUT-2) were investigated immunohistochemically. The activities of hexokinase, pyruvate kinase, glyceraldehyde-3-phosphate dehydrogenase, and glucose-6-phosphate dehydrogenase were increased, whereas the activities of glycogen phosphorylase, adenylate cyclase, glucose-6-phosphatase, and membrane-bound adenosine triphosphatase were decreased in the altered liver acini. The expression of GLUT-2 was also decreased. GLUT-1 and glutathione S-transferase placental form were not expressed, and the activities of glycogen synthase and gamma-glutamyl-transferase remained unchanged. All changes of the enzyme activities were in line with the well known effects of insulin and resembled alterations characteristic of preneoplastic liver foci observed in different models of hepatocarcinogenesis. It remains to be clarified in long-term experiments whether or not these foci represent preneoplastic lesions and may proceed to neoplasia.
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PMID:Altered liver acini induced in diabetic rats by portal vein islet isografts resemble preneoplastic hepatic foci in their enzymic pattern. 864 65

The function of the membrane-bound ATPase in S. mutans is to regulate cytoplasmic pH values for the purpose of maintaining delta pH. Previous studies have shown that as part of its acid-adaptive ability, S. mutans is able to increase H(+)-ATPase levels in response to acidification. As part of the study of ATPase regulation in S. mutans, we have cloned the ATPase operon and determined its genetic organization. The structural genes from S. mutans were found to be in the order: c, a, b, delta, alpha, gamma, beta, and epsilon; where c and a were reversed from the more typical bacterial organization. The operon contained no I gene homologue but was preceded by a 239-bp intergenic space. Deduced aa sequences from open reading frames indicated that genes encoding homologues of glycogen phosphorylase and nonphosphorylating, NADP-dependent glyceraldehyde-3-phosphate dehydrogenase flank the H(+)-ATPase operon, 5' and 3' respectively. Sequence analysis indicated the presence of three inverted-repeat nt sequences in the glgP-uncE intergenic space. Primer extension analysis of mRNAs prepared from batch-grown or steady-state cultures demonstrated that the transcriptional start site did not change as a function of culture pH value. The data suggest that potential stem-and-loop structures in the promoter region of the operon do not function to alter the starting position of ATPase-specific mRNA transcription.
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PMID:Cloning and nucleotide sequence analysis of the Streptococcus mutans membrane-bound, proton-translocating ATPase operon. 899 91

The Ca(2+)-ATPase from sarcoplasmic reticulum (SR) membranes couples the Ca(2+) transport to ATP hydrolysis through phosphorylation in its cytoplasmic catalytic domain. Interactions between protein domains and the role of monomer-monomer interactions remain unclear. Here, we report a differential scanning calorimetric study of the thermal unfolding of this protein. In the pH range 6-8, thermal unfolding of the Ca(2+)-ATPase in glycogen phosphorylase-free SR membranes shows a major endothermic peak with a critical temperature midpoint ranging between 51 and 55 degrees C, depending on pH, Ca(2+), Mg(2+)-ADP and KCl concentrations. The enthalpy change of the overall unfolding process ranged between 250 and 300 kcal/mol of Ca(2+)-ATPase monomer. Thermal denaturation of the Ca(2+)-ATPase in SR membranes is well fitted to an irreversible process that can be rationalized in terms of a non-two state process, N (native)right harpoon over left harpoon I (intermediate)-->D (denatured). Thermodynamic analysis show that this protein has a compact structure, implying a tight structural interconnection between catalytic and Ca(2+) transport domains. The apparent cooperative unit, defined by the van 't Hoff enthalpy to the overall unfolding enthalpy ratio, increased from 1.1 at pH 6 to 1.8 at pH 8, showing that monomer-monomer interactions are stronger at weakly basic pH than at weakly acidic pH. While micromolar Ca(2+) concentrations had only a weak effect on the cooperativity of the unfolding process, this is clearly increased by millimolar Mg(2+)-ADP. In addition, high ionic strength lowered the apparent cooperative unit to approximately 1.0 in the pH range 6-8. Taken together, these results suggest that protein-protein interactions are altered by variables that modulate the catalytic activity of this enzyme.
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PMID:pH and ligand binding modulate the strength of protein-protein interactions in the Ca(2+)-ATPase from sarcoplasmic reticulum membranes. 1044 3

The mechanisms and myocardial alterations associated with NO-deficient hypertension are still far from clear. The aim of the present study was to focus on the enzyme histochemical and subcellular changes in the heart of L-NAME treated rats, as well as to examine the influence of captopril treatment. Wistar rats were administered either L-NAME (40 mg/kg/day) alone or together with captopril (100 mg/kg/day) for a period of 4 weeks. A significant increase of blood pressure confirmed the reliability of the model. The results showed that long-lasting L-NAME administration was accompanied by a decrease of endothelial NO-synthase activity and by a significant local decrease of the following enzyme activities: capillary-related alkaline phosphatase, 5'-nucleotidase and ATPase (but not dipeptidyl peptidase IV) and cardiomyocyte-related glycogen phosphorylase, succinic dehydrogenase, beta-hydroxybutyrate dehydrogenase and ATPases. No activity of these enzymes was found in the scar, whereas a marked increase of alkaline phosphatase and dipeptidyl peptidase IV activities was found in the foci of fibrotization. Histochemical changes correlated with subcellular changes, which were characterized by 1) apparent fibroblast activation associated with interstitial/perivascular fibrosis, 2) heterogeneous population of the normal, hypertrophic and injured cardiomyocytes, 3) enhancement of the atrial granules and their translocation into the sarcolemma, and 4) impairment of capillaries as well as by induction of angiogenesis. Similar alterations were also found in the heart of captopril co-treated rats, despite of the significant suppression of blood pressure. The results indicate that NO-deficient hypertension is accompanied by metabolic disturbances and ultrastructural alterations of the heart and these changes are probably not induced by the renin-angiotension system only.
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PMID:Chronic disturbances in NO production results in histochemical and subcellular alterations of the rat heart. 1080 8


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