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)

Three ATP-dependent reactions catalyzed by the inner membrane of rat liver mitochondria and the ATPase reaction catalyzed by purified mitochondrial ATPase (F1), were studied with respect to kinetic properties, substrates specificity, and sensitivity to bicarbonate. The ATP-dependent transhydrogenase reaction (reduction of NADP+ by NADH) catalyzed by inner membrane vesicles displays typical Michaelis-Menten kinetics in both Tris-Cl and Tris-bicarbonate buffers, with Km (ATP) values of 0.035 mM and 0.054 mM respectively. The Vmax of transhydrogenase activity (25 nmol min-1 mg-1) is the same in Tris-bicarbonate or Tris-Cl buffer. ITP and GTP readily substitute for ATP in the transhydrogenase reaction. The ATP-P1 exchange reaction catalyzed by inner membrane vesicles displays typical Michaelis-Menten kinetics in both Tris-Cl and Tris-bicarbonate buffers with Km (ATP) values of 1.0 mM and 1.4 mM respectively. The Vmax of exchange (200 nmol min-1 mg-1) is the same in either buffer. ITP and GTP do not effectively replace ATP in the exchange reaction.
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PMID:ATP-dependent reactions catalyzed by inner membrane vesicles of rat liver mitochondria. Kinetics, substrate specificity, and bicarbonate sensitivity. 17 67

Treatment of either beef heart or rat liver mitochondrial ATPase with the arginine reagent, 2,3-butanedione, resulted in enzyme inactivation. The reaction followed pseudo-first order kinetics until 90 to 95% of the enzyme had been inactivated, and prolonged incubation with butanedione resulted in complete inactivation. When the modification reaction was performed in the presence of ATP, the rate of inactivation was significantly decreased. The kinetics of inactivation indicates that the reaction of 1 molecule of reagent per active site of beef heart mitochondrial ATPase is necessary for inactivation. The loss of ATPase activity was also observed when submitochondrial particles were treated with butanedione. Studies with beef heart mitochondrial ATPase indicated that the inactivation was not due to enzyme dissociation into subunits. Kinetic studies with partially inactivated enzyme demonstrated that the Km values of ITP and of ATP in the presence of HCO3-were similar to the same constants for the control enzyme. When ATP was used as the substrate in the absence of anion activator, the partially inactivated enzyme still exhibited negative cooperativity. Inactivation was also observed when beef heart mitochondrial ATPase was treated with another arginine reagent, phenylglyoxal. The loss of ATPase activity was analyzed in terms of [14C]phenylglyoxal incorporation. From the present studies it is concluded that arginyl residues play an essential role in mitochondrial ATPase, probably at the hydrolytic site.
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PMID:Essential arginyl residues in mitochondrial adenosine triphosphatase. 17 62

Membrane phosphorylation and nucleoside triphosphatase activity of sarcoplasmic reticulum vesicles isolated from rabbit skeletal muscle were studied using ATP and ITP as substrates. The Ca2+ concentration was varied over a range large enough to saturate either the high affinity Ca2+-binding site or both high and low affinity binding sites. In intact vesicles, which are able to accumulate Ca2+, the steady state level of enzyme phosphorylated by either ATP or ITP is already high in 0.02 mM Ca2+ and does not vary as the Ca2+ concentration is increased to 10 mM. Essentially the same pattern of membrane phosphorylation by ATP is observed when leaky vesicles, which are unable to accumulate Ca2+, are used. However, for leaky vesicles, when ITP is used as substrate, the phosphoenzyme level increases 3- to 4-fold when the Ca2+ concentration is raised from 0.02 to 20 mM. When Mg2+ is omitted from the assay medum, the degree of membrane phosphorylation by ATP varies with Ca2+ in the same way as when ITP is used in the presence of Mg2+. Membrane phosphorylation of leaky vesicles by either ATP or ITP is observed in the absence of added Mg2+. When these vesicles are incubated in media containing ITP and 0.1 mM Ca2+, addition of Mg2+ up to 10 mM simultaneously decreases the steady state level of phosphoenzyme and increases the rate of ITP hydrolysis. When ATP is used, the addition of 10 mM Mg2+ increases both the steady state level of phosphoenzyme and the rate of ATP hydrolysis. When the Ca2+ concentration is raised to 10 or 20 mM, the degree of membrane phosphorylation by either ATP or ITP is maximal even in the absence of added Mg2+ and does not vary with the addition of 10 mM Mg2+. In these conditions the ATPase and ITPase activities are activated by Mg2+, although not to the level observed in 0.1 mM Ca2+. An excess of Mg2+ inhibits both the rate of hydrolysis and membrane phosphorylation by either ATP or ITP.
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PMID:Calcium and magnesium regulation of phosphorylation by ATP and ITP in sarcoplasmic reticulum vesicles. 18 11

Mitochondria were isolated from Euglena gracilis strain Z by pressure-breakage of the cells and sucrose-cushion centrifugation. Multiple peaks (2-4) were observed in the rate of phosphorylation with Mg-ADP-phosphate concentration curves. The phosphorylative and oxidative activities were highest with NADH as the substrate, moderate with succinate, and lowest with glutamate. Inhibition of phosphorylation with 2,4-dinitrophenol and carbonyl cyanide, m-chlorophenylhydrazone gave sigmoidal concentration curves, with the extent of inhibition by DNP depending on the substrate used. Inhibition of phosphorylation by valinomycin, atractyloside, or carboxyatractyloside was only approximately 60%. Oligomycin inhibited phosphorylation in 2 phases at low and high concentrations; it inhibited Mg-ATPase in a sigmoidal fashion. Both phosphorylation and oxidation had discontinuities in Arrhenius plots at 34 C and 18 C. The relative Mg2+-dependent nucleoside triphosphatase activity was: 1 for ATP and GTP, 0.6 for ITP, 0.15 for CTP and UTP; with Ca2+ in place pf Mg2+ this activity was 0.35. Both DNP and CCCP stimulated the Mg-ATPase 50-200%. The optimal pH for the stimulation was approximately 7 regardless of the uncoupler used, and approximately 8 without the uncouplers. The few differences observed between mitochodria from Euglena and those from other sources are probably due to the fragmentation of the reticular mitochondrial structure during isolation and not to unique characteristics of these mitochondria.
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PMID:Some biochemical properties of mitochondria isolated from Euglena gracilis. 19 37

We have prepared human blood lymphocyte membrane vesicles of high purity in sufficient quantity for detailed enzyme analysis. This was made possible by the use of plateletpheresis residues, which contain human lymphocytes in amounts equivalent to thousands of milliliters of blood. The substrate specificity and the kinetics of the cofactor and substrate requirements of the human lymphocyte membrane Na+, K+-ATPase activity were characterized. The Na+, K+-ATPase did not hydrolyze ADP, AMP, ITP, UTP, GTP or TTP. The mean ATPase stimulated by optimal concentrations of Na+ and K+ (Na+, K+-ATPase) was 1.5 nmol of P(i) hydrolyzed, microgram protein-1, 30 min-1 (range 0.9-2.1). This activity was completely inhibited by the cardiac glycoside, ouabain. The K(m) for K+ was approximately 1.0 mM and the K(m) for Na+ was approximately 15 mM. Active Na+ and K+ transport and ouabain-sensitive ATP production increase when lymphocytes are stimulated by PHA. Na+, K+-ATPase activity must increase also to transduce energy for the transport of Na+ and K+. Some studies have reported that PHA stimulates the lymphocyte membrane ATPase directly. We did not observe stimulation of the membrane Na+, K+-ATPase when either lymphocytes or lymphocyte membranes were treated with mitogenic concentrations of PHA. Moreover, PHA did not enhance the reaction velocity of the Na+, K+-ATPase when studied at the K(m) for ATP, Na+, K+ OR Mg++, indicating that it does not alter the affinity of the enzyme for its substrate or cofactors. Thus, our data indicate that the increase in ATPase activity does not occur as a direct result of PHA action on the cell membrane.
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PMID:Sodium-potassium adenosine triphosphatase activity of human lymphocyte membrane vesicles: kinetic parameters, substrate specificity, and effects of phytohemagglutinin. 22 68

The ATPase preparations from the hog thyroid was preincubated with various amounts of trypsin. The activity of Mg-ATPase was consistently elevated. On the contrary, the Na, K-ATPase activity decreased with increasing amounts of trypsin. The effects were similar to those which were observed in the enzyme preparations treated with basis polyamino acids as previously reported. This phenomenon seemed to be specific in the preparations from the thyroid. The Mg-dependent activity was increased after pretreatment with trypsin or poly-L-lysine (PLL) when CTP, ITP and UTP were used as substrate. Thus the substrate specificity of Mg-ATPase was low. The enzyme-kinetics using ATP as substrate showed that the increase in activity was due to an increase in Vmax and not to a change in Km. The activity of Mg-ATPase was increased even after 30 min of preincubation with trypsin, while the Na, K-ATPase activity was almost diminished. These results suggest that the activity of Mg-ATPase in the preparation from the thyroid is specifically changed by the modification of the molecular environment of the enzyme with trypsin or basic polyamino acids.
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PMID:Some properties of hog thyroidal membrane-bound adenosine tri-phosphatase: proteolytic activation of Mg-dependent activity. 23 39

The ATP-phosphohydrolase activity of extracts prepared from bovine spermatozoa flagella (BSFE), was characterized with respect to enzyme, substrate, activator ion and salt concentration, temperature dependence and time stability. BSFE required the presence of a divalent cation for activity: Mg++ or Ca++ could function as activator; Mn++, Zn++ and Cd++ could not. EDTA, but not EGTA, was inhibitory to enzymatic activity. Ca++ inhibited the Mg++ stimulated activity. ATP was dephosphorylated more rapidly than GTP greater than CTP greater than ITP, and ADP was dephosphorylated at 40% of the rate of ATP. The magnesium activated ATPase was stimulated by potassium and inhibited by sodium ions. Activation of BSFE ATP-phosphohydrolase was maximal in the presence of Mg++ and ATP in equimolar concentrations and K+ (0.05-0.3 M) at 30 degrees C. Although the enzymatic activity of the extract was found to decrease rapidly with time, it could be maintained for up to three days by the addition of 2-beta-mercaptoethanol to the bovine spermatozoa flagellar extracts.
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PMID:Characterization of the ATP-phosphohydrolase activity of bovine spermatozoa flagellar extracts. 23 27

Adenosine triphosphatase (ATPase) from Thiobacillus ferrooxidans was purified 55-fold. Polyacrylamide gel electrophoresis of the most purified fraction showed only one major band; histochemical analysis showed that the ATPase activity was associated with this band. The pH optimum is 9-10. The enzyme hydrolyzed ATP stoichiometrically to ADP and inorganic phosphate, the Km for this substrate being 7.75 times 10-3 M. GTP and ITP are alternate substrates, the Km values for these being 6.71 times 10-3 M and 3.12 times 10-3 M, respectively. ADP is slightly hydrolyzed. Magnesium, manganese, and calcium can serve as cofactors; Km values for these are 2.0 times 10-3 M, 9.4 times 10-4 M, and 8.0 times 10-4 M, respectively. The enzyme activity was not activated by either sodium or potassium, but a combination of the two ions were inhibitory. Azide and p-hydroxymercuribenzoate strongly inhibited the enzyme activity, whereas cyanide, dinitrophenol, and N,N'-dicyclohexylcarbodiimide (DCCD) were without effect. The enzyme was cold labile at 0 degrees-C, but was more stable at 18-24 degrees-C.
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PMID:The soluble adenosine triphosphatase of Thiobacillus ferrooxidans. 23 78

The dynamic properties of cross-bridge movement were investigated in glycerol-treated muscle fibers under various conditions by analyzing tension responses to two types of length change. First, the fiber bundles were stretched linearly with time for 0.3 s from the rest length (L0) by 2.5% of L0, suddenly released, then fixed at L0 (sudden release of the slow stretch). Second, they were stretched for 0.01 s by 2.5% of L0, then held at the plateau length (a quick stretch). 1. The transient tension responses following both length changes were divided into three phases: (i) very quick recovery of tension (0 approximately 0.05 s), (ii) quick recovery (0.05 approximately 0.3-0.4 s), and (iii) gradual recovery (0.3-0.4 s approximately several seconds). 2. The effects of activating conditions on the rates of the quick phases (0 approximately 0.3-0.4 s) were not associated with those on the nucleoside triphosphatase [EC 3.6.1.3] rates: the rates of the quick phases increased with increase in temperature and Mg2+-ATP concentration, with decrease in Ca2+ concentration, and also on replacement of Mg2+-ATP by Mg2+-ITP or Mn2+-ATP. Only a small amount of ADP, 0.07 mol per mol of myosin (Fig. 24 in the preceding paper), was liberated during the quick recovery phases. 3. The remaining slow tension recovery was concluded to be associated with one cycle of ATP splitting, and progressed very smoothly. This suggests that most of the cross-bridges do not exist in a synchronously dissociated state during one cycle of ATP splitting.
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PMID:Factors affecting the transient tension change after applying stepwise length change to glycerol-treated muscle fibers. Effects of temperature, divalent cations, and modification with p-chloromercuribenzoate. 47 41

The kinetic properties of the nonmitochondrial ATP-dependent Ca sequestering mechanism in disrupted nerve terminal (synaptosome) preparations have been investigated with radioactive tracer techniques; all solutions contained DNP, NaN3, and oligomycin, to block mitochondrial Ca uptake. The apparent half-saturation constant, KCa, for the nonmitochondrial Ca uptake is approximately 0.4 micrometer Ca; the Hill coefficient is approximately 1.6. Mg is also required for the Ca uptake, and the apparent KMg is approximately 80 micrometer. ATP and deoxy-ATP, but not CTP, GTP, ITP, UTP, ADP, or cyclic AMP, promote Ca uptake; the KATP, is approximately 10 micrometer. ATP analogs with blocked gamma-phosphate groups are unable to replace ATP. Particulate fractions from the disrupted synaptosomes possess Ca-dependent ATPase activity in the presence of Mg; the apparent KCa for this activity is 0.4--0.8 micrometer Ca, and the Hill coefficient is approximately 1.6. The Ca uptake and ATPase kinetic data suggest that the hydrolysis of 1 ATP may energize the transport of two Ca2+ ions into the storage vesicles. The second part of the article concerns the intraterminal distribution of Ca in "intact" terminals. When the terminals are disrupted after 45Ca loading, about one-half of the 45Ca is retained in the particulate material; some of this Ca, presumably stored in mitochondria, is released by the uncoupler, FCCP. Some of the 45Ca is released by A-23187, but not by FCCP; this fraction may be Ca stored in the nonmitochondrial sites described above. The proportion of 45Ca stored in the nonmitochondrial sites is increased when the Ca load is reduced or when the mitochondria are blocked with ruthenium red. These data indicate that the nonmitochondrial Ca storage sites are involved in intraterminal Ca buffering; they may play an important role in synaptic facilitation and post-tetanic potentiation, which result from Ca retention after neural activity.
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PMID:Calcium buffering in presynaptic nerve terminals. II. Kinetic properties of the nonmitochondrial Ca sequestration mechanism. 70 6

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