Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

1. Gel-filtration results indicate that the major component of inhibitory-factor preparations isolated by dissociation of the troponin complex consisted of a protein of subunit weight 23000 daltons. By the same procedure a molecular weight of 18000 was obtained for the calcium-sensitizing factor. 2. The inhibitory factor is specific for the actomyosin type of ATPase and ITPase. It is effective on desensitized actomyosin, natural actomyosin and intact myofibrils. 3. For inhibition, the actomyosin ATPase must be stimulated by Mg(2+), Ca(2+) or Mn(2+). The Co(2+)-, Cd(2+)- or Zn(2+)-stimulated ATPases are not affected. 4. Biological activity is stable to treatment with dissociating agents, heat, pH11, pH1 and carboxymethylation. 5. Increasing amounts of actin, but not myosin or tropomyosin, progressively neutralize the inhibitory activity when added to desensitized actomyosin or myofibrils.
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PMID:The regulatory proteins of the myofibril. Characterization and properties of the inhibitory factor (troponin B). 433 Nov 79

The contraction of cardiac muscle that has been treated with glycerol requires Ca2+ (pCa 8-5), when MgATP is used as a substrate. In contrast, this preparation contracts, even in the absence of Ca2+ (pCa 8-10), when ATP is replaced by ITP. Ca2+ dependency was not observed after increasing free Ca2+ concentrations from pCa 8.0 to 5.0, or after increasing MgITP concentration from 5 to 80 mM. On the other hand, rabbit skeletal muscle fiber treated by the same method as cardiac muscle demonstrates Ca2+ dependency in the presence of both MgITP and MgATP, although this Ca2+ regulation is less in the presence of MgITP. Loss of Ca2+ dependency was confirmed by the finding that, in contrast to ATPase, the ITPase activity of cardiac myofibrils was not dependent on Ca2+ concentrations. Furthermore, the very fast tension responses (quick phases) following quick stretch and quick release were missing in MgITP, and the contractions were similar to rigor. These were not rigor however, because phosphate liberation from ITP continued, and muscle shortening occurred in MgITP. These findings suggest that MgITP dissociates the contraction mechanism from the regulatory mechanism, modulating the regulatory properties of cardiac muscle fiber.
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PMID:Calcium ion-insensitive contraction of glycerinated porcine cardiac muscle fibers by Mg-inosine triphosphate. ITP as a tool to dissociate the contraction mechanism from the regulatory mechanism. 611 11

A soluble Mg-dependent ATPase, similar to the mitochondrial ATPase from beef heart, has been isolated from heart mitochondria of salmon (Salmo salar). The salmon heart ATPase has 5 subunits with molecular weights similar to the beef heart enzyme, but the Stoke's radius of the intact salmon enzyme is larger. The salmon heart ATPase is less temperature labile than the beef heart enzyme. The salmon heart ATPase is strongly inhibited by ADP, and the inhibition is highly temperature dependent. The ITPase activity is also inhibited by IDP (Ki = 180 micron). 2,4-Dinitrophenol in small concentrations stimulates the ITPase activity as well as the ATPase activity of the "washed" salmon heart enzyme. However, in an enzyme preparation which had been freed of most of the bound nucleotides by dialysis in the presence of glycerol (Roveri et al., 1980) the ITPase activity is not stimulated by 2,4-dinitrophenol.
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PMID:Some properties of isolated mitochondrial ATPase from salmon heart. 615 Aug 4

Actomyosin complex was extracted from the brain cortex in a medium consisting of low salt, ATP, and EDTA, in the presence of protease inhibitors, followed by ammonium sulfate fractionation. Myosin was then purified from the actomyosin. Myosin obtained according to the procedure used was significantly contaminated with actin high (greater than 200,000 dalton) and low molecular weight proteins. Therefore, an alternative method based on affinity chromatography (Blue Dextran/Sepharose) and gel filtration (Sepharose 4B) was developed to purify myosin. This procedure yielded myosin that was greater than 95% pure as judged by electron microscopy and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The subunit composition of purified brain myosin was monitored by sodium dodecyl sulfate-polyacrylamide gel also containing a urea gradient. A closely migrating triplet in the heavy chain and three light chains, LC1, LC2, and LC3, of Mr 21,000, 19,000, and 17,000, respectively, were observed. These findings raise the possibility of the existence of myosin isoenzymes in the brain. Brain myosin formed bipolar thick filaments in 0.075 M KCl and MgCl2. At low ionic strength, the Mg2+-ATPase activity of myosin was stimulated 3- to 3.5-fold in the presence of skeletal muscle f-actin. Brain myosin also hydrolyzed other nucleotides; the rate of hydrolysis was ITP greater than ATP approximately equal to CTP greater than GTP approximately equal to UTP. The substrate (ATP) saturation curve in the presence of 10 mM CaCl2 and 0.6 M KCl was complex and consisted of plateau regions. The Arrhenius plot of the Ca-ATPase data was linear, whereas with ITPase, it was biphasic with a break occurring around 20 degrees C.
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PMID:Purification and characterization of myosin from calf brain. 622 62

The ATPase or ITPase reaction and ATP- or ITP-induced superprecipitation were studied as a function of the ATP or ITP concentration with suspensions of chicken gizzard "native" myosin B or "reconstituted" myosin B (a combination of actin, myosin, and native tropomyosin). The specific aim of the study was to answer the following questions: i) Is the superprecipitation or the ATPase reaction sensitive to calcium ions even at very low concentrations of ATP? ii) Is tropomyosin required for calcium sensitivity? iii) Does "native" myosin B from gizzard muscle behave differently from "reconstituted" myosin B? iv) Does the troponin-tropomyosin complex of rabbit skeletal muscle act as a regulatory protein for the contractile activity of acto-phosphorylated myosin? Considering the overall time course of reaction rather than single values of activity, we found that the answers to the first three questions were negative, while that to the last question was positive. These results favor the kinase-phosphatase mechanism of calcium regulation rather than the leiotonin mechanism.
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PMID:The nucleoside triphosphate (NTP)-induced superprecipitation and NTPase reaction of chicken gizzard actomyosin as a function of the NTP concentration. 626 Jul 64

The mono- and bidentate forms of adenosine 5'-diphosphate, chromium (III) salt (CrADP) were separated using Sephadex G-10 column chromatography. The isomeric purity of the two forms was monitored using high voltage electrophoresis and column chromatography. The same techniques were employed to assess the purity of the mono-, bi-, and tridentate forms of adenosine 5'-triphosphate, chromium (III) salt (CrATP). Distinct differences in the interaction of beef heart mitochondrial ATPase with the various isomers of chromium nucleotides were seen in kinetic studies. Monodentate CrADP was a competitive inhibitor of the ATP hydrolysis activity of both purified ATPase and submitochondrial particles. However, when ITPase activity was examined, noncompetitive inhibition was observed. The bidentate isomer of CrADP did not affect ATPase activity. Enzymatic synthesis of the transition state analog of ATP synthesis and hydrolysis, Pi-CrADP occurred exclusively with the monodentate isomer of CrADP. It was also found that only the mono- and tridentate forms of CrATP were potent inhibitors of ATP hydrolysis by beef heart mitochondrial ATPase. These results are discussed in terms of possible ATP synthesis and hydrolysis mechanisms.
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PMID:Structural preferences for the binding of chromium nucleotides by beef heart mitochondrial ATPase. 645 68

Lineweaver-Burk plots for ATP hydrolysis catalyzed by bovine heart mitochondrial F1-ATPase (MF1) at 30 degrees C are biphasic, whereas they are linear at 15 degrees C. The rate of inactivation of the enzyme at 23 degrees C by 5'-[(p-fluorosulfonyl)benzoyl]adenosine (FSBA), which derivatizes noncatalytic nucleotide binding sites, is about 4 times faster when loss of activity is monitored at 15 degrees C as opposed to 30 degrees C. This suggests that maximal loss of ATPase monitored at 15 degrees C is observed when a single noncatalytic site is derivatized, whereas maximal inactivation at 30 degrees C requires modification of three noncatalytic sites. Prior incubation of MF1 depleted of endogenous nucleotides (nd-MF1) with pyrophosphate (PPi) stimulates ATPase activity 2-fold when assayed at 30 degrees C and pH 8.0. This stimulation correlates with binding of [32P]PPi to the second and third binding sites for PPi to be filled. Prior binding of PPi to nd-MF1 increases the rate of inactivation of the enzyme by FSBA at 23 degrees C about 4-fold when loss of activity is monitored at 30 degrees C and pH 8.0, whereas it does not affect the rate of inactivation when loss of ATPase is monitored at 15 degrees C or loss of ITPase is monitored at 30 degrees C. This indicates that the accelerated rate of inactivation induced by PPi when assays are conducted at 30 degrees C is not due to an increased rate of derivatization of noncatalytic sites. After 85% inactivation with FSBA, nd-MF1 retains the capacity to bind 2.8 mol of [32P]PPi per mole.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lowered temperature or binding of pyrophosphate to sites for noncatalytic nucleotides modulates the ATPase activity of the beef heart mitochondrial F1-ATPase by decreasing the affinity of a catalytic site for inhibitory MgADP. 799 54

The effects of Mg2+ and bicarbonate on the kinetics of ITP hydrolysis by soluble ATPase (F1) from human placental mitochondria were studied. Increasing amounts of Mg2+ at fixed ITP concentration, caused a marked activation of F1 followed by inhibition at higher Mg2+ concentration. The appropriate substrate for the mitochondrial F1 seems to be the MgITP complex as almost no ITP was hydrolysed in the absence of magnesium. Mg2+ behaved as a competitive inhibitor towards the MgITP complex. In this respect the human placental enzyme differ from that from other sources such as yeast, beef liver or rat liver. The linearity of the plot presenting competitive inhibition by free Mg2+ of MgITP hydrolysis (in the presence of activating bicarbonate anion) suggests that both Mg2+ and MgITP bind to the same catalytic site (Km(MgITP) = 0.46 mM, Ki(Mg) = 4 mM). When bicarbonate was absent in the ITPase assay, placental F1 exhibited apparent negative cooperativity in the presence of 5 mM Mg2+, just as it did with MgATP as a substrate under similar conditions. Bicarbonate ions eliminated the negative cooperativity with respect to ITP (as the Hill coefficient of 0.46 was brought to approx. 1), and thus limited inhibition by free Mg2+. The results presented suggest that the concentration of free magnesium ions may be an important regulatory factor of the human placental F1 activity.
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PMID:Mitochondrial adenosine triphosphatase from human placenta--inhibition by free magnesium ions of ITP hydrolysis. 803 Mar 73

Glutamine 170 to tyrosine mutation in the beta-subunit from Schizosaccharomyces pombe mitochondrial F1 was found to increase both affinity for ADP, apparent negative cooperativity of ATPase activity, and sensitivity to azide inhibition (Falson, P., Di Pietro, A., Jault, J.-M., Gautheron, D.C., and Boutry, M. (1989) Biochim. Biophys. Acta 975, 119-126). The mutation is shown here to increase the affinity for GDP, IDP, and guanosine 5'-(beta,gamma-imidotriphosphate), which are competitive inhibitors of GTPase and ITPase activities. Various fluorescence approaches also reveal an increased affinity of the catalytic site in mutant as compared with wild-type enzyme for GDP, IDP, and 2'(3')-N-methylanthraniloyl GDP. The mutation alters the maximal rates and pH dependence of GTPase and ITPase activities, whereas wild-type F1 exhibits single optima at pH 7.5-8.0. The pH activity profiles of the mutant enzyme for these substrates are biphasic, with optima at pH 8.5-9.0 and below 6.5. The mutation increases the sensitivity of GTPase and ITPase activities to azide inhibition, which increases with decreasing pH. At pH 6.0-7.0, an apparent negative cooperativity is observed when mutant F1 hydrolyzes GTP or ITP, whereas the wild-type enzyme shows Michaelian kinetics. Addition of bicarbonate at pH 7.0 substantially stimulates GTP or ITP hydrolysis and abolishes the apparent negative cooperativity by the mutant enzyme; on the contrary, the anion produces a slight inhibition of these activities catalyzed by wild-type F1. The overall results suggest that apparent negative cooperativity can be observed with GTP or ITP hydrolysis provided that the release of the respective diphosphate is a rate-limiting step.
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PMID:Glutamine 170 to tyrosine substitution in yeast mitochondrial F1 beta-subunit increases catalytic site interaction with GDP and IDP and produces negative cooperativity of GTP and ITP hydrolysis. 840 1

Binding of 1 mole 5'-fluorosulfonylbenzoyladenosine (FSBA) per mol F1 induces about 50% inhibition of ATPase activity and 80% inhibition of ITPase activity. The binding of additional ligand results in a further inhibition of both activities. Maximally 5 mol/mol F1, causing complete inhibition of activity, can be bound. Using radioactive FSBA more label is found on alpha-subunits than on beta-subunits under the usual buffer conditions. The modified amino acids are alpha-Tyr300, alpha-Tyr244 and beta-Tyr368. Binding of FSBA, at least up to 3 mol/mol F1, does not result in loss of bound ADP, whether the starting enzyme contains 2, 3 or 4 bound nucleotides. Added adenine nucleotides compete with FSBA only for binding that results in modification of beta-subunits, shifting the alpha/beta ratio of bound label to higher values. It is concluded that the alpha-subunits contain two hydrophobic pockets for the binding of nucleoside moieties, with a different orientation relative to the P-loop. One pocket contains alpha-Tyr244 and alpha-Tyr300, the other beta-Tyr368. Since, however, in the binding of adenine nucleotide di- or triphosphates the P-loop is involved, only one of these ligands can bind per subunit. The previously not understood binding characteristics of several substrate analogues have now become interpretable on the assumption that also the structurally homologous beta-subunits contain 2 pockets where nucleoside moieties can bind. The kinetic effects of FSBA binding indicate that the first FSBA binds at the regulatory site that has a high affinity for ADP and pyrophosphate. Binding of pyrophosphate at this high-affinity regulatory site increases the Vmax of the enzyme, while binding at a second regulatory site, a low-affinity site, increases the rate of binding of FSBA with a factor of about 3. Binding of bicarbonate at this latter site is responsible for the disappearance of the apparent negative cooperativity of the ATPase activity.
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PMID:FSBA modifies both alpha- and beta-subunits of F1 specifically and can be bound together with AXP at the same alpha-subunit. 903 Feb 59


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