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Query: EC:3.6.3.1 (Mg2+-ATPase)
 1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat brain microsomal Mg2+-ATPases with two distinct activities: ethacrynic acid (EA) highly sensitive and EA less sensitive Mg2+-ATPase activities were solubilized by the combined treatment with 10 mM 3-(3-chlolamidopropyl)-dimethylammonio-1-propane-sulfate (CHAPS) and 30 mM octyl-beta-D-glucoside. The solubilized enzymes had properties similar to those of the membrane-bound enzyme in microsomes with respect to the sensitivity to EA and Cl-, although the optimal pH and the affinity to ATP were slightly altered after the solubilization. Fast protein liquid chromatography of the solubilized enzymes on an anion-exchanger (Mono Q) column with a linear NaCl gradient (0-1.0 M) yielded separate peaks for EA highly sensitive and EA less sensitive Mg2+-ATPase activities at 0.1 and 0.35 M NaCl, respectively. Polyacrylamide gradient gel electrophoresis of the samples from the peak-fractions of EA highly sensitive and EA less sensitive Mg2+-ATPase activities yielded prominent bands at 600 and 70 kDa, respectively. These results indicate that EA highly sensitive Mg2+-ATPase is solubilized and separated from EA less sensitive Mg2+-ATPase as a large enzyme molecule with anion-sensitive sites.
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PMID:Solubilization and separation of ethacrynic acid (EA) highly sensitive and EA less sensitive Mg2+-ATPases in the rat brain. 295 25

Rat liver microsomal fraction was incubated at pH 8.8 with fluorescein-5'-isothiocyanate in a Tris-buffered sucrose medium. This treatment completely inhibited ATP-dependent Ca2+ transport, Ca2+-ATPase activity, and Ca2+-ATPase phosphoenzyme intermediate formation. Inhibition of Ca2+ transport and phosphoenzyme intermediate formation by fluorescein-5'-isothiocyanate was partially prevented by including ATP in the treatment medium. These data taken together are consistent with the proposal that fluorescein-5'-isothiocyanate binds the Ca2+-ATPase ATP-binding site, suggesting the presence of a lysine residue in this domain. Fluorescein-5'-isothiocyanate labeling of microsomal proteins had no measurable effect on the basal, Mg2+-ATPase activity. Using fluorescein-5'-isothiocyanate-labeled microsomal fraction, we demonstrated that the Mg2+-ATPase activity was inhibited by Ca2+.
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PMID:Inhibition of rat liver microsomal Ca2+-ATPase by fluorescein-5'-isothiocyanate. 295 7

Solubilization of microsomal proteins followed by calmodulin affinity chromatography resulted in the separation of two distinct Ca2+-Mg2+-ATPases (Ca2+-regulated Mg2+-dependent ATPases), one being insensitive to calmodulin (ATPase-1), the other being stimulated about 5-fold by calmodulin (ATPase-2). ATPase-2 accounts for only 8% of total microsomal Ca2+-Mg2+-ATPase-activity. ATPase-1 and -2 can also be distinguished by different pH optima, different sensitivity towards inhibition by vanadate and LaCl3, and different apparent Mr values of the phosphoenzyme intermediates (115,000 and 150,000 for ATPase-1 and ATPase-2 respectively). ATPase-1 from liver co-migrated with Ca2+-Mg2+-ATPase from rat skeletal-muscle sarcoplasmic reticulum, whereas ATPase-2 from liver co-migrated with calmodulin-dependent Ca2+-Mg2+-ATPase derived from rat skeletal-muscle sarcolemma. After separation of parenchymal and nonparenchymal liver cells, a calmodulin-dependent Ca2+-Mg2+-ATPase of Mr 150,000 was found only in the non-parenchymal cells. The kinetic parameters of ATPase-2 and the similarity of the apparent Mr of its phosphoenzyme intermediate to that of skeletal-muscle sarcolemma Ca2+-Mg2+-ATPase makes it likely that the calmodulin-sensitive Ca2+-Mg2+-ATPase found in rat liver microsomal fractions reflects a contamination with plasma membranes (possibly from non-parenchymal cells) rather than a true location in the endoplasmic reticulum of parenchymal liver cells.
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PMID:Does a calmodulin-dependent Ca2+-regulated Mg2+-dependent ATPase contribute to hepatic microsomal calcium uptake? 295 69

The effect of chronic acetaldehyde inhalation on (Na+ + K+)-ATPase (EC 3.6.1.3) activities of subcellular fractions of the rat cerebral cortex was studied. Chronic administration of acetaldehyde by inhalation for 4-21 weeks caused significant increases in the enzyme activities of both the synaptosomal plasma membrane (SPM) fraction and the microsomal (MC) fraction. This indicates the change in neural membrane functions of the brain after acetaldehyde treatment. Mg2+-ATPase activities of both subcellular fractions remained unchanged after acetaldehyde treatment.
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PMID:Effect of chronic administration of acetaldehyde by inhalation on (Na+ + K+)-activated adenosine triphosphatase activity of rat brain membranes. 298 17

Changes in microsomal Na+, K+-, Mg2+- and Ca2+-ATPase activities during cell proliferation were examined in Chinese hamster V-79 (V-79) cells (normal cells) and human HeLaS-3 (HeLaS-3) cells (malignant cells). For V-79 cells, the Mg2+-ATPase activity per cell (pmol Pi/h/cell) in the confluent phase was higher than that in the logarithmically growing (log) phase. The amount of microsomal protein per cell was also high in the confluent phase. Specific activities (mumol Pi/h/mg protein) of Na+, K+-, Mg2+- and Ca2+-ATPase were significantly lower in the confluent phase than in the log phase. For HeLaS-3 cells, an increase in Ca2+-ATPase activity per cell was observed. The amount of microsomal protein per cell did not change between the log and confluent phase. The specific activity of Ca2+-ATPase in the confluent phase was also markedly higher than in the log phase. The relation between changes in ATPase activities and cell proliferation is discussed.
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PMID:Changes in microsomal Na+, K+-, Mg2+- and Ca2+-ATPase activities during proliferation of Chinese hamster V-79 and human HeLaS-3 cells. 300 38

The Na+, K+-ATPase activity in the homogenate and in subcellular fractions of different parts of the brain of adult and old rats was studied in comparison. The content of cholesterol in the above fractions was also determined. In old age the Na+, K+-ATPase activity in the homogenate and microsomal fraction of the cerebral hemispheres' cortex decreases, while the Mg2+-ATPase activity in the cortex microsomal fraction increases. The age-related Na+, K+- and Mg2+-ATPase activity in the myelin of the stem in the synaptic plasma membranes of hemispheres and the brain stem remains unchanged whereas in the myelin fraction of hemispheres it grows. The content of cholesterol in the brain of old rats as compared with adult ones increases in the microsomal fraction and remains unchanged in synaptic membranes. The possible role of age-related modification of lipid component of plasma membranes in the above changes of Na+, K+-ATPase activity is discussed.
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PMID:[Na+,K+-ATPase activity of the subcellular fractions of the rat brain in aging]. 300 87

Studies were performed to characterize ethacrynic acid (EA) highly sensitive Mg2+-ATPase isolated from microsomal fractions of the rat brain. The functional molecular sizes of the EA highly sensitive and EA less sensitive Mg2+-ATPases, estimated by a radiation inactivation method, were 480 and 80 kDa, respectively. An anion transport inhibitor, 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid (SITS) inhibited the EA highly sensitive Mg2+-ATPase activity. The type of inhibition was uncompetitive with respect to ATP, and the inhibition was suppressed by anions such as Cl-, Br- and I-. Chloride ions stimulated enzyme activity with an increase in Vmax, but not in Km, for ATP. Anions tested also increased the enzyme activity in the following order of decreasing potency: Cl- greater than Br- greater than CH3COO- = I- greater than SO4(2-) = HCO3- greater than SO3(2-). These results suggest that EA highly sensitive Mg2+-ATPase is a relatively large molecule with anion-sensitive sites that affect the ATP hydrolyzing activity and the SITS binding capacity through anions, with Cl- being the most potent.
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PMID:Characteristics of ethacrynic acid highly sensitive Mg2+-ATPase in microsomal fractions of the rat brain: functional molecular size, inhibition by SITS and stimulation by Cl-. 302 85

Na+-K+-ATPase, Ca2+-ATPase and Mg2+-ATPase activities of erythrocyte membrane, microsomal fractions of rectus muscle, and liver were measured colorimetrically in the biopsy specimens of 14 control, 7 uncomplicated trauma (group 2), and 14 severe trauma or septic patients (groups 3-A and 3-B). In erythrocytes, these three ATPase activities in group 2 were not significantly changed but sepsis of both the acute (group 3-A) and ongoing type (group 3-B) decreased all of the ATPase activities. In muscle, there was a significant loss of three ATPase activities in the acute insult of severe trauma or sepsis (group 3-A), while Na+-K+-ATPase and Mg2+-ATPase activities were not significantly changed in ongoing, severe trauma (group 3-B). In the liver, a tendency for all three ATPase activities to decrease is noted in the severe traumatic group. However, a statistical difference between the control and severe traumatic group showed only for Na+-K+ ATPase and Mg2+-ATPase in group 3-A and Ca2+-ATPase in group 3-B. Correlation coefficients between erythrocyte, muscle, and liver for three ATPase activities are between 0.4 and 0.5. The mechanism which alters ATPase activity remains unknown in this study, but it may account for the variation in traumatic insult, in hemodynamic and hormone changes, and in tissue energy stores.
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PMID:Alterations of Na+-K+-ATPase, Ca2+-ATPase, and Mg2+-ATPase activities in erythrocyte, muscle, and liver of traumatic and septic patients. 304 Feb 90

The distribution of plasma membrane markers, the sodium pump [evaluated as ouabain-sensitive, potassium-stimulated p-nitrophenyl phosphatase (K+-pNPPase)], [3H]saxitoxin binding, and 5'-AMPase, was studied in the subcellular fractions prepared from the homogenates of the longitudinal smooth muscle/myenteric plexus of dog ileum. The K+-pNPPase activity and [3H]-saxitoxin binding were found to be predominantly associated with the synaptosomal fraction as indicated by the high level of these activities in the crude synaptosomal fraction and by the copurification of K+-pNPPase and [3H]saxitoxin binding, but not 5'-AMPase, with several synaptosomal markers during the fractionation of the crude synaptosomal fraction on density gradients. In contrast to the K+-pNPPase activity and [3H]saxitoxin binding, the 5'-AMPase activity was found to be concentrated in the microsomal pellet. Further fractionation of microsomes on density gradient resulted in copurification of 5'-AMPase but not K+-pNPPase or [3H]saxitoxin binding, with other smooth muscle plasma membrane-bound enzymes, such as high-affinity Ca2+-ATPase, Mg2+-ATPase, and Ca2+-ATPase. It was concluded that in the longitudinal smooth muscle/myenteric plexus, the sodium pump activity is present in higher density in the neuronal plasma membranes whereas 5'-AMPase activity is concentrated in the smooth muscle plasma membranes.
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PMID:Subcellular fractionation of the longitudinal smooth muscle/myenteric plexus of dog ileum: dissociation of the distribution of two plasma membrane marker enzymes. 304 Sep 6

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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