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)

The rabbit colon brush-border membrane possesses a unique K+-stimulated, ouabain-insensitive ATPase. This enzyme is similar to previously described potassium-transporting enzymes such as the ubiquitous (Na + K)-ATPase and the gastric (H+ + K+)-ATPase in forming a phosphorylated intermediate whose rate of dephosphorylation is accelerated by K+. The molecular weight of the phosphorylated polypeptide subunit of the colon membrane enzyme is 114,000 as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The release of 32Pi from the 32P-labeled ATPase at alkaline pH and in the presence of hydroxylamine at pH 5.0 suggests that the phosphorylated enzyme intermediate is an acyl phosphate. These results indicate that the phosphorylated intermediate of the colon brush-border membrane is similar in chemical nature and molecular weight to the phosphorylated intermediates of other cation-transporting ATPases.
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PMID:Characterization of the phosphorylated intermediate of the K+-ouabain-insensitive ATPase of the rabbit colon brush-border membrane. 612 6

Ca2+ -dependent hydroxylamine-sensitive phosphorylated proteins can be demonstrated in a microsomal fraction of porcine antrum (stomach) smooth muscle and in a Ca2+ -transport ATPase ((Ca2+ + Mg2+)-ATPase) purified from this tissue by means of a calmodulin affinity technique. These phosphoproteins represent the phosphorylated intermediates of the (Ca2+ + Mg2+)-ATPases. In the (Ca2+ + Mg2+)-ATPase purified from smooth muscle the phosphorylated intermediate has an Mr of 130000 corresponding to the value found for erythrocyte (Ca2+ + Mg2+)-ATPase. In the smooth muscle microsomal fraction this 130 kDa phosphoprotein can also be seen, although its intensity is usually very low compared to a corresponding phosphorylation at Mr 100000. Including La3+ together with Ca2+ during phosphorylation of the microsomes increased selectively the steady state-level of the 130 kDa phosphoprotein over the value of the 100 kDa one. The 100 kDa Ca2+ -dependent phosphoprotein could either indicate the presence of a (Ca2+ + Mg2+)-ATPase of the same type of sarcoplasmic reticulum of skeletal muscle, or it could represent a proteolytic product of the 130 kDa phosphoprotein.
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PMID:Demonstration of the phosphorylated intermediates of the Ca2+-transport ATPase in a microsomal fraction and in a (Ca2+ + Mg2+)-ATPase purified from smooth muscle by means of calmodulin affinity chromatography. 612 96

Renal basal-lateral and brush border membrane preparations were phosphorylated in the presence of [gamma-32P]ATP. The 32P-labeled membrane proteins were analysed on SDS-polyacrylamide gels. The phosphorylated intermediates formed in different conditions are compared with the intermediates formed in well defined membrane preparations such as erythrocyte plasma membranes and sarcoplasmic reticulum from skeletal muscle, and with the intermediates of purified renal enzymes such as (Na+ + K+)-ATPase and alkaline phosphatase. Two Ca2+-induced, hydroxylamine-sensitive phosphoproteins are formed in the basal-lateral membrane preparations. They migrate with a molecular radius Mr of about 130 000 and 100 000. The phosphorylation of the 130 kDa protein was stimulated by La3+-ions (20 microM) in a similar way as the (Ca2+ + Mg2+)-ATPase from erythrocytes. The 130 kDa phosphoprotein also comigrated with the erythrocyte (Ca2+ + Mg2+)-ATPase. In addition in the same preparation, another hydroxylamine-sensitive 100 kDa phosphoprotein was formed in the presence of Na+. This phosphoprotein comigrates with a preparation of renal (Na+ + K+)-ATPase. In brush border membrane preparations the Ca2+-induced and the Na+-induced phosphorylation bands are absent. This is consistent with the basal-lateral localization of the renal Ca2+-pump and Na+-pump. The predominant phosphoprotein in brush border membrane preparations is a 85 kDa protein that could be identified as the phosphorylated intermediate of renal alkaline phosphatase. This phosphoprotein is also present in basal-lateral membrane preparations, but it can be accounted for by contamination of those membranes with brush border membranes.
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PMID:Phosphorylated intermediates of (Ca2+ + Mg2+)-ATPase and alkaline phosphatase in renal plasma membranes. 613 Jul 91

Plasma membrane vesicles of Ehrlich ascites carcinoma cells have been isolated to a high degree of purity. In the presence of Mg2+, the plasma membrane preparation exhibits a Ca2+-dependent ATPase activity of 2 mumol Pi per h per mg protein. It is suggested that this (Ca2+ + Mg2+)-ATPase activity is related to the measured Ca2+ transport which was characterized by Km values for ATP and Ca2+ of 44 +/- 9 microM and 0.25 +/- 0.10 microM, respectively. Phosphorylation of plasma membranes with [gamma-32P]ATP and analysis of the radioactive species by polyacrylamide gel electrophoresis revealed a Ca2+-dependent hydroxylamine-sensitive phosphoprotein with a molecular mass of 135 kDa. Molecular mass and other data differentiate this phosphoprotein from the catalytic subunit of (Na+ + K+)-ATPase and from the catalytic subunit of (Ca2+ + Mg2+)-ATPase of endoplasmic reticulum. It is suggested that the 135 kDa phosphoprotein represents the phosphorylated catalytic subunit of the (Ca2+ + Mg2+)-ATPase of the plasma membrane of Ehrlich ascites carcinoma cells. This finding is discussed in relation to previous attempts to identify a Ca2+-pump in plasma membranes isolated from nucleated cells.
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PMID:Identification of Ca2+-pump-related phosphoprotein in plasma membrane vesicles of Ehrlich ascites carcinoma cells. 613 90

Calcium-accumulating vesicles were isolated by differential centrifugation of sonicated platelets. Such vesicles exhibit a (Ca2+ + Mg2+)-ATPase activity of about 10 nmol (min . mg)-1 and an ATP-dependent Ca2+ uptake of about 10 nmol (min . mg)-1. When incubated in the presence of Mg[gamma-32P]ATP, the pump is phosphorylated and the acyl phosphate bond is sensitive to hydroxylamine. The [32P]phosphate-labeled Ca2+ pump exhibits a subunit molecular weight of 120 000 when analyzed by lithium dodecyl sulfate-polyacrylamide gel electrophoresis. Platelet calcium-accumulating vesicles contain a 23 kDa membrane protein that is phosphorylatable by the catalytic subunit of cAMP-dependent protein kinase but not by protein kinase C. This phosphate acceptor is not phosphorylated when the vesicles are incubated in the presence of either Ca2+ or Ca2+ plus calmodulin. The latter protein is bound to the vesicles and represents 0.5% of the proteins present in the membrane fraction. Binding of 125I-labeled calmodulin to this membrane fraction was of high affinity (16 nM), and the use of an overlay technique revealed four major calmodulin-binding proteins in the platelet cytosol (Mr = 94 000, 87 000, 60 000 and 43 000). Some minor calmodulin-binding proteins were enriched in the membrane fractions (Mr = 69 000, 57 000, 39 000 and 37 000). When the vesicles are phosphorylated in the presence of MgATP and of the catalytic subunit of cAMP-dependent protein kinase, the rate of Ca2+ uptake is essentially unaltered, while the Ca2+ capacity is diminished as a consequence of a doubling in the rate of Ca2+ efflux. Therefore, the inhibitory effect of cAMP on platelet function cannot be explained in such simple terms as an increased rate of Ca2+ removal from the cytosol. Calmodulin, on the other hand, was observed to have no effect on the initial rate of calcium efflux when added either in the absence or in the presence of the catalytic subunit of the cyclic AMP-dependent protein kinase, nor did the addition of 0.5 microM calmodulin result in increased levels of vesicle phosphorylation.
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PMID:Regulation of calcium accumulation and efflux from platelet vesicles. Possible role for cyclic-AMP-dependent phosphorylation and calmodulin. 613 52

It has been possible to specifically label rabbit skeletal muscle actin at Lys-237 with 2,4-pentanedione, producing an enamine. This reaction can be reversed with hydroxylamine. The modification can be carried out with actin in either the G- or F-forms and does not affect polymerization-depolymerization. The modification does affect, however, the interaction of tropomyosin (Tm) with the modified F-actin. In the absence of Ca2+ and Mg2+ (mu = 0.12), Tm failed to bind to the modified F-actin whereas it did bind to unmodified F-actin (1 Tm:7 actins). Tm binding could be restored under these conditions by the addition of either troponin (Tn), Mg2+, or Mg2+ and Ca2+. Under certain conditions, Tm alone has been shown to inhibit actin-activated heavy meromyosin (HMM)-Mg2+-ATPase. This inhibition did not occur with the modified F-actin even though Tm was bound (approximately 1 Tm:7 actins). Even when Tn was added to this system (in the absence of Ca2+), no inhibition of ATPase could be observed. Thus, this modification appears to prevent F-actin X Tm from assuming the "blocking" inhibitory position (conformation). In addition, Tn appears to enhance the activation of heavy meromyosin-Mg2+-ATPase by the modified F-actin X Tm complex whether Ca2+ is present or not. This state may be analogous to the potentiated state (Murray, J. M., Knox, M. K., Trueblood, C. E., and Weber, A. (1982) Biochemistry 27, 906-915) seen with myosin subfragment 1-saturated actin at low ATP levels. Thus, using modified and unmodified F-actin, it is possible to produce three Tm X actin states: off (F-actin X Tm), on (modified F-actin X Tm), and "potentiated" (modified F-actin X Tm X Tn).
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PMID:Modification of Lys-237 on actin by 2,4-pentanedione. Alteration of the interaction of actin with tropomyosin. 614 49

Properties of (Ca2+ + Mg2+) adenosine triphosphatase (ATPase) in plasma membranes from boar epididymal spermatozoa are described. Enzyme activity is optimum at high pH and has a high affinity for Ca2+. It is not inhibited by the calmodulin antagonist trifluoperazine (TFP), but it is inhibited by low concentrations of Ca2+. Plasma membrane vesicles obtained by hypotonic lysis of intact sperm [mixed inside-out (IOV) and right side-out (ROV) vesicles] transport 45Ca2+ in the presence of oxalate. Similar to the Ca2+-stimulated Mg ATPase activity, transport is unaffected by TFP, but unlike the ATPase, transport is at an optimum rate near neutral pH and is completely inhibited by p-chloromercurphenylsulfonate (pCMS). When plasma membranes are labeled in the presence and absence of Ca2+ and Mg2+ with [gamma-32P]ATP, differences in the intensity of labeling and lability of bound 32P to alkali and hydroxylamine suggest that two polypeptides between 100-120K may be related to a transport ATPase. The addition of TFP at concentrations which stimulate net Ca2+ uptake in intact cells causes intense labeling of a single neutrally charged protein near 68K. These labeling patterns and the properties of (Ca2+ + Mg2+) ATPase identify particular plasma membrane proteins (PMPs) from the complex surface of these cells that may be involved in Ca2+-dependent functions and support the view that calmodulin is not directly involved in the regulation of ATP-driven Ca2+ efflux from boar spermatozoa.
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PMID:Characterization of (Ca2+ + Mg2+) adenosine triphosphatase activity and calcium transport in boar sperm plasma membrane vesicles and their relation to phosphorylation of plasma membrane proteins. 615 5

An acid-stable phosphoprotein was formed in a microsomal membrane fraction isolated from bovine aortic smooth muscle in the presence of Mg2+ + ATP and Ca2+. The microsomes also showed Ca2+ uptake activity. The Ca2+ dependence of phosphoprotein formation and of Ca2+ uptake occurred over the same range of Ca2+ concentration (1-10 microM), and resembled similar findings from rabbit skeletal microsomes. The molecular weight of the phosphorylated protein, estimated by SDS-gel electrophoresis, was approximately 105,000. The phosphoprotein was labile at alkaline pH, and its decomposition was accelerated by hydroxylamine. Half-maximum incorporation of 32P in the presence of 10 microM Ca2+ occurred at 60 nM ATP. The calcium-dependent phosphoprotein formation was not affected by 5 mM NaN3, but was inhibited in a dose-dependent fashion by ADP with a 50% inhibition occurring at 180 microM. Fifty mM MgCl2 was required for the maximal phosphorylation. The rate of phosphoprotein decomposition after adding 2 mM EGTA was accelerated by varying the Mg2+ concentration from 10 microM to 3 mM. Alkaline pH (9.0) slowed the rate of phosphoprotein decay. Optimal Ca2+-dependent phosphoprotein occurred at 15 degrees C over a broad pH range (6.4 to 9.0). The activation energy of EGTA-induced phosphoprotein decomposition was 25.6 kcal/mol between 0 and 16 degrees C and 14.6 kcal/mol between 16 and 30 degrees C. The phosphoprotein formed by aortic microsomes was thus quite similar to the acid-stable phosphorylated intermediate of the Ca2+-transport ATPase of sarcoplasmic reticulum from skeletal and cardiac muscle. These data suggest that the Ca2+-dependent phosphoprotein is a reaction intermediate of the Ca2+,Mg2+-ATPase of the aortic microsomes.
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PMID:Ca2+,Mg2+-ATPase of microsomal membranes from bovine aortic smooth muscle. Identification and characterization of an acid-stable phosphorylated intermediate of the Ca2+,Mg2+-ATPase. 615 48

(Ca2+ + Mg2+)-dependent ATPase purified from sarcoplasmic reticulum was phosphorylated by [gamma-32P]ATP in the presence of ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, dimethyl sulfoxide, and magnesium up to levels of 1.0 mumol of phosphoenzyme/g of protein. In the presence of 30% (v/v) dimethyl sulfoxide, phosphorylation by ATP measured in the absence of calcium was abolished by 100 mM NaCl or KCl. Optimal pH for phosphoenzyme formation was 5.5 to 6.0. The phosphoenzyme levels were not significantly affected by varying the temperature of the reaction medium in the range from 0 to 20 degrees C. Increasing dimethyl sulfoxide concentrations lead to a progressive increase of the steady state level of phosphoenzyme and to a decrease of both the velocities of formation and breakdown of phosphoenzyme. The observed decrease of phosphoenzyme hydrolysis was greater than that of formation, accounting for the higher phosphoenzyme levels observed with increasing dimethyl sulfoxide concentrations. Phosphoenzyme formed from ATP in the absence of calcium is an acylphosphate-type compound, as demonstrated by its pH and hydroxylamine sensitivity. The phosphate radioactivity was incorporated into the (Ca2+ + Mg2+)-ATPase as shown by polyacrylamide gel electrophoresis. Controls were performed that eliminate both the possibility of calcium bound to the enzyme and the possibility of enzyme phosphorylation by contaminant 32Pi.
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PMID:Phosphorylation by ATP of sarcoplasmic reticulum ATPase in the absence of calcium. 621 9

The spontaneous contractions of cultured chick skeletal muscle fibers were abolished by growth of cultures in the presence of tetrodotoxin (TTX). Inhibition of the contractile activity of cultured myofibers was associated with a marked reduction in the rate of azide-insensitive, ATP-dependent Ca2+ uptake by the total particulate fraction of cell homogenates and by purified sarcoplasmic reticulum. Myosin heavy chain (MHC) accumulation and azide-insensitive, ATP-dependent Ca2+ uptake into a total cell membrane fraction were measured simultaneously in the same culture dish. A decrease in the activity of the ATP-dependent Ca2+ uptake system preceded a significant reduction in MHC content of contraction-inhibited cultures. The reduced rate of Ca2+ uptake observed in the sarcoplasmic reticulum from TTX-treated cultures paralleled a decrease in the amount of enzymatically active Ca2+-transport ATPase. The cellular concentration of the ATPase was estimated from a measurement of the concentration of the Ca2+-dependent, hydroxylamine-sensitive, steady state level of phosphorylated intermediate formed in culture microsomes. In contrast to the changes observed in activity of the sarcoplasmic reticulum ATPase and MHC content of TTX-treated cultures, neither the specific activity of creatine kinase nor the accumulation of the MM isoenzyme were affected. It is therefore concluded that the contractile activity of muscle has a selective effect on the maintenance of the adult skeletal muscle phenotype.
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PMID:Effect of tetrodotoxin relaxation of cultured skeletal muscle on the sarcoplasmic reticulum Ca2+-transport ATPase. 622 Sep 16


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