EC:3.6.1.3 - FACTA Search

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)

A light-sensitive derivative, 2,3-dimethyl-8-[(4-azidophenyl)methoxy]imidazo[1,2-a]pyridine (DAZIP), of the drug 3-(cyanomethyl)-2-methyl-8-(phenylmethoxy)imidazo[1,2-a]pyridine (SCH 28080) has been synthesized and shown to be a K+-competitive inhibitor of gastric H+,K+-ATPase in the dark. The apparent dissociation constants calculated for DAZIP at pH 6.4 and 7.4 were 1.8 +/- 0.2 and 4.7 +/- 1.2 microM, respectively. Inhibition required binding of DAZIP to a luminal-facing site on the enzyme. Irradiation in the presence of DAZIP and 2 mM Mg2+ resulted in irreversible loss of ATPase activity that was more than 2-fold greater at pH 6.4 than at pH 7.4, showing the enhanced efficiency of covalent incorporation at the lower pH. Further photolyses were conducted at pH 6.4 in the presence of either 1,2-diaminocyclohexane-N,N,N',N'-tetraacetic acid (CDTA), ATP and CDTA, or MgATP. The specificity of light-dependent, covalent insertion of DAZIP for the site of reversible inhibition was shown both by protection against photoinactivation given by K+ (the competing ligand) and by the observation that the amount of K+-protectable photoinactivation approached a maximum limiting value as a function of DAZIP concentration. The effectiveness of K+ in protecting against photoinactivation was 100-fold greater in the presence of ATP and CDTA than in the presence of either Mg2+ or CDTA and suggests the formation of a ternary complex of the apoenzyme with ATP and tightly bound K+. The dissociation constant for DAZIP (2 microM) calculated from photolyses in the presence of MgATP without added K+ agreed with the kinetic experiments and suggests that DAZIP inhibits turnover by binding to E.MgATP.
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PMID:Inactivation of H+,K+-ATPase by a K+-competitive photoaffinity inhibitor. 284 21

Using strictly controlled ionic conditions we have demonstrated, in agreement with previous findings (Lotersztajn et al. (1981) J. Biol. Chem. 256, 11209-11215; Lotersztajn, S. and Pecker, F. (1982) J. Biol. Chem. 257, 6638-6641) a Ca2+-stimulated ATPase in rat liver plasma membranes which is detectable at low free Mg2+ concentrations (normally fulfilled by endogenous levels) but not at free Mg2+ concentrations greater than about 10(-5) M. The findings reported here also suggest that this (Ca2+ + Mg2+)-ATPase is activated by EGTA or one of its liganded species. Furthermore, this is probably an intrinsic property of the enzyme as it was found to be independent of the isolation technique. The stimulation by EGTA appears to be a function both of free Ca2+ concentration and of one or more liganded species of EGTA and it is also inhibited at high free Mg2+ concentrations (approx. 10(-5) M). The specificity of the EGTA effect on ATPase activity is studied with respect to other, widely used, chelating agents namely HEEDTA, EDTA and CDTA. Of these, only CDTA shares the effect, although the concentration dependence of the activation is different from EGTA, suggesting that there is some degree of structural specificity involved rather than a generalised effect of complexed Ca2+.
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PMID:Effects of chelating agents on the Ca2+-stimulated ATPase of rat liver plasma membranes. 293 94

Audiogenic seizure (AGS)-susceptible DBA/2 (D2) mice have a significant reduction in brain Ca2+-ATPase activity compared to AGS-resistant C57BL/6 (B6) mice. This reduction is inherited together with AGS susceptibility in B6 X D2 recombinant inbred strains. The Ca2+-ATPase reduction occurs in microsomes and synaptosomes, but not in mitochondria. This enzyme activity is measured at a high Ca2+ concentration (2 mM) with no added Mg2+ or EGTA. We further studied this Ca2+-ATPase activity and a Mg2+-dependent (Ca2+ + Mg2+)-ATPase activity in synaptic plasma membranes (SPM) from the B6 and D2 strains. Using EGTA or CDTA to adjust free Ca2+ concentrations, we measured Ca2+-ATPase activities at Ca2+ concentrations from 0.8 microM to 436 microM. The Ca2+-ATPase activity is consistently lower in the D2 than in the B6 SPM over all Ca2+ concentrations. The basal Mg2+-ATPase activity measured at 2 mM MgCl2, is also lower in SPM of D2 than B6 mice. Calcium stimulates the basal Mg2+-ATPase activity to the same extent in the SPM of the B6 and the D2 mice. Maximum stimulation in both strains occurs at 150 microM added CaCl2 (buffered with 100 microM EGTA). Higher Ca2+ concentrations inhibit this ATPase activity similarly in both strains. The EGTA-EDTA washing of SPM significantly reduces by 50% of the (Ca2+ + Mg2+)-ATPase activities of both strains, whereas calmodulin treatment restored these activities. Neither of these treatments, however, has any noticeable effects on the Ca2+-ATPase activities of the strains.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calcium ATPase activities in synaptic plasma membranes of seizure-prone mice. 293 83

ATPase activity which is stimulated by submicromolar concentrations of calcium (Ca2+) was identified in human placental microvillous brush border membranes. The high-affinity enzyme has an apparent K0.5 for free Ca2+ of 18.3 +/- 3.7 nM and a Vmax of 233.0 +/- 30.0 nmol/min/mg protein. Studies using trans-1,2-diaminocyclohexane-N,N,N1,N1-tetraacetic acid (CDTA) show that this enzyme requires submicromolar concentrations of Mg2+ for maximal activity, but that it appears to have a low basal activity in the absence of this cation. The high-affinity Ca2+-ATPase was unaffected by up to 100 microM concentrations of vanadate, but was sensitive to trifluoperazine inhibition (I50 less than 50 microM). It was not found to be stimulated by the addition of up to 10 micrograms calmodulin, but this lack of effect may be related to the endogenous calmodulin content of the membrane preparation. A low-affinity, non-specific divalent cation ATPase was also identified in this membrane preparation. In contrast to the high-affinity enzyme, it has an apparent K0.5 for calcium of 99.7 +/- 22.1 microM, and a Vmax of 1.54 +/- 0.17 mumol/min/mg protein. The characteristics of the high-affinity Ca2-ATPase are similar to those of other Ca2+- ATPases known to transport and regulate intracellular calcium concentrations in other tissues. By analogy, we suggest that the high-affinity Ca2+-ATPase described here could play an important role in cellular calcium homeostasis in the human placenta.
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PMID:High-affinity, calcium-stimulated ATPase in brush border membranes of the human term placenta. 294 89

Media prepared with CDTA and low concentrations of Ca2+, as judged by the lack of Na+-dependent phosphorylation and ATPase activity of (Na+ +K+)-ATPase preparations are free of contaminant Mg2+. In these media, the Ca2+-ATPase from human red cell membranes is phosphorylated by ATP, and a low Ca2+-ATPase activity is present. In the absence of Mg2+ the rate of phosphorylation in the presence of 1 microM Ca2+ is very low but it approaches the rate measured in Mg2+-containing media if the concentration of Ca2+ is increased to 5 mM. The KCa for phosphorylation is 2 microM in the presence and 60 microM in the absence of Mg2+. Results are consistent with the idea that for catalysis of phosphorylation the Ca2+-ATPase needs Ca2+ at the transport site and Mg2+ at an activating site and that Ca2+ replaces Mg2+ at this site. Under conditions in which it increases the rate of phosphorylation, Ca2+ is without effect on the Ca2+-ATPase activity in the absence of Mg2+ suggesting that to stimulate ATP hydrolysis Mg2+ accelerates a reaction other than phosphorylation. Activation of the E1P----E2P reaction by Mg2+ is prevented by Ca2+ after but not before the synthesis of E1P from E1 and ATP, suggesting that Mg2+ stabilizes E1 in a state from which Mg2+ cannot be removed by Ca2+ and that Ca2+ stabilizes E1P in a state insensitive to Mg2+. The response of the Ca2+-ATPase activity to Mg2+ concentration is biphasic, activation with a KMg = 88 microM is followed by inhibition with a Ki = 9.2 mM. Ca2+ at concentration up to 1 mM acts as a dead-end inhibitor of the activation by Mg2+, and Mg2+ at concentrations up to 0.5 mM acts as a dead-end inhibitor of the effects of Ca2+ at the transport site of the Ca2+-ATPase.
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PMID:The reaction of Mg2+ with the Ca2+-ATPase from human red cell membranes and its modification by Ca2+. 294 27

The Ca2+-sensitive ATPase activity of rabbit skeletal myofibrils disappeared completely after treatment with a solution containing CDTA, a strong divalent cation chelator, at a low ionic strength. A gel electrophoretic study revealed that all troponin C and about half of myosin light chain 2 were removed from the myofibrils by the CDTA treatment. The CDTA-treated myofibrils, when reconstituted with skeletal troponin C, showed almost exactly the same Ca2+- or Sr2+-sensitive ATPase activity as that of intact myofibrils. The CDTA-treated myofibrils reconstituted with porcine cardiac troponin C showed the same Ca2+- or Sr2+-sensitivity of the ATPase as that of porcine cardiac myofibrils; Sr2+-sensitivity relative to Ca2+-sensitivity was about ten times higher than, and the maximal slope of the activation curve was about half that of skeletal myofibrils. These findings indicate that these characteristic features of divalent cation regulation in the contraction of skeletal and cardiac muscles are determined solely by the species of troponin C. Bovine brain calmodulin hardly activated the ATPase activity of the CDTA-treated myofibrils even in the presence of Ca2+. Excess calmodulin, however, was found to give Ca2+- or Sr2+-sensitivity to the ATPase activity of the CDTA-treated myofibrils. Frog skeletal parvalbumins 1 and 2, even in excess, did not affect the ATPase activity of the CDTA-treated myofibrils.
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PMID:Ca2+- and Sr2+-sensitivity of the ATPase activity of rabbit skeletal myofibrils: effect of the complete substitution of troponin C with cardiac troponin C, calmodulin, and parvalbumins. 295 10

Troponin C was removed almost completely from the porcine cardiac myofibrils by the same extraction procedure using CDTA as that previously reported for the rabbit skeletal myofibrils (Morimoto, S. & Ohtsuki, I. (1987) J. Biochem. 101, 291-301), and the effects of substitution of troponin C in cardiac myofibrils with rabbit skeletal troponin C or bovine brain calmodulin were examined. While the ATPase activity of intact cardiac myofibrils or cardiac troponin C-reconstituted cardiac myofibrils was activated at only a little higher concentration of Sr2+ than Ca2+, the skeletal troponin C-substituted cardiac myofibrils, as well as intact rabbit skeletal myofibrils, required more than 10 times higher concentration of Sr2+ than Ca2+ for activation of the myofibrillar ATPase activity. However, the concentrations of Ca2+ and Sr2+ required for the activation of the ATPase activity of the skeletal troponin C-substituted cardiac myofibrils were both about 5 times higher than those of intact skeletal myofibrils. The skeletal troponin C-substituted cardiac myofibrils, as well as intact skeletal myofibrils, also showed higher cooperativity in the Ca2+-activation of the ATPase activity than intact or cardiac troponin C-reconstituted cardiac myofibrils. The ATPase activity of calmodulin-substituted cardiac myofibrils was activated at a several times lower concentration of Ca2+ or Sr2+ than that of calmodulin-substituted skeletal myofibrils, while the ratios of the concentration of Sr2+ to Ca2+ required for activation were almost the same in both cases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of substitution of troponin C in cardiac myofibrils with skeletal troponin C or calmodulin on the Ca2+- and Sr2+-sensitive ATPase activity. 297 54

A tegumental fraction was prepared from Schistosoma mansoni. This fraction exhibited ATPase activity stimulated by Ca2+ in the absence of Mg2+. The Mg2+ independency was assessed by lowering contaminant Mg2+ using CDTA. The peak of activity was 220 mumol Pi mg-1 protein h-1 and the K0.5 for CaATP was 0.32 mM; the same K0.5 was obtained using MgATP as substrate, in the absence of Ca2+. Both activities may be promoted by the same enzyme since the addition of Ca2+ did not increase the ATPase activity measured in the presence of a saturating MgATP concentration.
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PMID:A Mg2+-independent Ca2+-stimulated ATPase activity in the tegument of Schistosoma mansoni. 297 83

Single fibers from glycerinated rabbit psoas muscle were treated with a solution containing CDTA, a strong chelator of metal ions. The CDTA-treated fibers lost all of the troponin C and showed no Ca2+-activated tension development. The addition of troponin C restored the Ca2+-activated tension of CDTA-treated fibers. The tension-pCa relationship in the case of the CDTA-treated fibers reconstituted with troponin C was almost the same as that in the case of the same fibers before the CDTA treatment. These results are consistent with those of the previous study on the Ca2+-activated ATPase of CDTA-treated rabbit skeletal myofibrils.
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PMID:Restoration of Ca2+-activated tension of CDTA-treated single skeletal muscle fibers by troponin C. 314 38

The hepatic microsomal Ca2+- and Mg2+-dependent ATPase phosphoenzyme intermediates were distinguished by using the chelators EGTA and CDTA (trans-cyclohexane-1,2-diamine-NNN'N'-tetra-acetic acid). The Ca2+-ATPase intermediate is a hydroxylamine-labile base-labile 125 000-Mr phosphoprotein. The Mg2+-ATPase intermediate is a hydroxylamine-stable base-stable 30 000-Mr phosphoprotein. This enzyme intermediate probably reflects the large basal ATPase activity of hepatic microsomal fraction. It is dependent on Mg2+, since formation of the phosphoenzyme is abolished in the presence of CDTA. Under these conditions, the basal ATPase activity is dramatically decreased. These data demonstrate two separate and distinct enzymes which are responsible for the two ATPase activities of hepatic microsomal fraction. Furthermore, these data indicate that more meaningful data about the microsomal Ca2+-ATPase might be obtained if the free ion concentrations are controlled with CDTA.
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PMID:Phosphorylated intermediates of two hepatic microsomal ATPases. 315 73

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