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)

Two highly purified sarcoplasmic reticulum membrane fractiones differing in their sensitivities to the uncoupling action of caffeine were isolated from white skeletal muscles of the rabbit. The main protein component of both fractions is a catalytical polypeptide of Ca2+-dependent ATPase. Treatment of the caffeine-sensitive reticular fraction by trypsin or DTNB completely removes the effect of caffeine. It was found that similar effects on the caffeine-sensitive reticular fraction are exerted by bemegride, camphor, ethymizole and cordiamine. Isolation of Ca2+-dependent ATPase from both reticular fractions and reconstruction of Ca2+-transporting vesicles were carried out. Ca2+ transport by the vesicles enriched by ATPase from the caffeine-sensitive reticular fraction is uncoupled under the effect of caffeine; however, caffeine has no effect on the vesicles enriched by caffeine-insensitive reticular ATPase. The molecular weight of caffeine-sensitive and caffeine-insensitive ATPases determined in the presence of sedium dodecyl sulfate are found to be identical. Electrophoresis in the presence of digitonin revealed different electrophoretic behaviour of the two forms of ATPase.
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PMID:[Two forms of Ca2+-dependent ATPase from sarcoplasmic reticulum]. 15 30

The enzymic activity of Mg2+- or Ca2+-stimulated ATPase from Escherichia coli was inhibited by one of the troponin components, TN-I, and by mitochondrial ATPase inhibitor (F1-inhibitor). The inhibitory ability of component TN-I against Mg2+-stimulated AtPase activity was lost after digestion of component TN-I with trypsin. The Mg2+-stimulated ATPase activity inhibited by component TN-I was completely restored by the addition of another troponin component TN-C.
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PMID:Inhibition of E coli ATPase activity by a troponin component, TN-I, and by mitochondrial ATPase inhibitor. 16 Mar 25

The kinetics of reduction of the b-type cytochromes in the electron transport particles (ETP) from Mycobacterium phlei were studied with nicotinamide adenine dinucleotide, reduced form (NADH) or succinate as electron donors. There appeared to be three active cytochromes b in the ETP,bS563 and bS559, which were reducible by either substrate, and bN563, which was reducible by NADH but not by succinate. In the presence of adenosine 5'-triphosphate, a substantial increase in b563 reduction was observed with succinate at anaerobiosis. This was followed by a decrease in absorption. Adenosine 5'-triphosphate did not effect an increase in cytochrome b563 reduction at transition with NADH, but the occurrence of a secondary decrease in absorption was reflected in a decrease in total enzymatic reduction. The adenosine 5'-triphosphate effect was altered in trypsin-treated ETP, and abolished by uncoupling agents or by removal of the coupling factor-latent adenosine triphosphatase. In the presence of a supernatant fraction obtained during the preparation of the ETP, b563 reduction with succinate was greatly increased. A smaller increase was observed with NADH. Cytochrome b reduction was also studied in ETP inhibited by 2-n-nonylhydroxyquinoline-N-oxide, which appears to inhibit at bS563. On the basis of these data the interrelationships among the b-type cytochromes can be described in relation to the M. phlei electron transport chain.
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PMID:Multiple forms of cytochrome b in Mycobacterium phlei: kinetics of reduction. 16 77

Two fractions of gastric mucosal membranes obtained by Ficoll-sucrose density gradient centrifugation were studied by a variety of techniques to localize the polypeptides. Gel electrophoresis showed the presence of five major polypeptides and several minor ones. Only one of these, 82,000 daltons, was available for iodination in the intact tissue. The two membrane fractions differed in their accessibility to peroxidase. The denser fraction showed two major defined iodination peaks at 82,000 and 102,000 daltons. Freeze-thawing and iodinating with 131-I produced additional labeling of peaks as well as relabeling the 82,000-dalton component, showing it was accessible from both sides of the membrane. The two major components were also sensitive to cross-linking, the 102,000 polypeptide being especially sensitive to --SH oxidation. Proteolysis with trypsin removed both components in the denser membrane fraction, in addition to inhibiting the K+-ATPase and K+-p-nitrophenylphosphatase of that fraction. Phosphorylation with [gamma-32-P]ATP labeled the 102,000-dalton component and K+, HCO3- minus and p-nitrophenylphosphate reduced the level of labeling. Hence the 102,000 region contains a subunit of the ATPase, is readily iodinated in inside-out vesicles, and is the most available for interpeptide S--S cross-linking.
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PMID:Characterization of gastric mucosal membranes. VIII. The localization of peptides by iodination and phosphorylation. 16 6

A manyfold increase in phosphorylation of cardiac sarcoplasmic reticulum (SR) was seen when SR was incubated in the presence of a bovine cardiac cyclic AMP-dependent protein kinase and cyclic AMP. This phosphoprotein had stability characteristics of a phosphoester in which the phosphate is incorporated largely into serine, and its formation did not required calcium ions, unlike the formation of acyl phosphoprotein intermediate of calcium-transport ATPase which is present within the same membrane. When examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the protein kinase-catalyzed phosphorylation occurred at a 22,000-dalton component of the cardiac sarcoplasmic reticulum. This 22,000-dalton protein has been named "phospholamban" (lambda alpha mu beta alpha nu epsilon iota nu = to receive), based on its ability to receive phosphate from ATP. Phosphorylation of phospholamban by cyclic AMP-dependent protein kinase was associated with the stimulation of calcium transport by the cardiac sarcoplasmic reticulum. This stimulation was accompanied by an increase in the calcium-activated ATPase activity, indicating that the overall rate of calcium transport rather than its efficiency is enhanced by protein kinase. The 22,000-dalton phopholamban was susceptible to trypsin. Brief digestion with trypsin in the presence of 1 M sucrose prevented subsequent phosphorylation of phospholamban, while leaving the calcium pump apparently intact. Incubation of trypsin-treated sarcoplasmic reticulum with cyclic AMP-depentent protein kinase did not result in the stimulation of calcium transport. These results may suggest that phospholamban is a modulator of the calcium pump of the cardiac sarcoplasmic reticulum.
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PMID:Regulation of calcium transport in cardiac sarcoplasmic reticulum by cyclic AMP-dependent protein kinase. 17 97

The transverse distribution of enzyme proteins and phospholipids within microsomal membranes was studied by analyzing membrane composition after treatment with proteases and phospholipases. Upon trypsin treatment of closed microsomal vesicles, NADH- and NADPH-cytochrome c reductases as well as cytochrome b5 were solubilized or inactivated, while cytochrome P-450 was partially inactivated. When microsomes were exposed to a concentration of deoxycholate which makes them permeable to macromolecules but does not disrupt the membrane, the detergent alone was sufficient to release four enzymes: nucleoside diphosphatase, esterase, beta-glucuronidase, and a portion of the DT-diaphorase. Introduction of trypsin into the vesicle lumen inactivated glucose-6-phosphatase completely and cytochrome P-450 partially. The rest of this cytochrome, ATPase, AMPase, UDP-glucuronyltransferase, and the remaining 50% of DT-diaphorase activity were not affected by proteolysis from either side of the membrane. Phospholipase A treatment of intact microsomes in the presence of albumin hydrolyzed all of the phosphatidylethanolamine, phosphatidylserine, and 55% of the phosphatidylcholine. From this observation, it was concluded that these lipids are localized in the outer half of the bilayer of the microsomal membrane; Phosphatidylinositol, 45% of the phosphatidylcholine, and sphingomyelin are tentatively assigned to the inner half of this bilayer. It appears that the various enzyme proteins and phospholipids of the microsomal membrane display an asymmetric distribution in the transverse plane.
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PMID:Enzyme and phospholipid asymmetry in liver microsomal membranes. 19 Feb 41

Mitoplasts, that is, mitochondria freed from their outer membranes, were prepared from pig heart. Sonication induced an inversion of these mitoplasts, giving inside-out vesicles. Added cytochrome c can be bound much better to mitoplasts than to sonicated vesicles; addition of trypsin increased adenosinetriphosphatase (ATPase) (ATP phosphohydrolase; EC 3.6.1.3) activity of sonicated vesicles without significantly affecting that of the mitoplasts. Since the site of fixation of cytochrome c was located on the outer side of the inner mitochondrial membrane and since the protein inhibitor of the mitochondrial ATPase is present on the inner face of the inner membrane and is very sensitive to trypsin, it can be concluded that mitoplasts are mainly oriented as normal mitochondria while sonicated vesicles are mainly inverted. Trypsin treatment can abolish the oligomycin sensitivity of ATPase activity of either mitoplasts or sonicated vesicles. However, trypsin induced the solubilization of the soluble F(1)-ATPase of sonicated vesicles while the ATPase activity remained with the mitoplasts after trypsin action. Therefore, trypsin destroyed the oligomycin effect by rupturing the liaison between F(1) and the membrane in sonicated vesicles. On the other hand, the effect of trypsin on mitoplasts must be attributed to the hydrolysis of a protein located near the outer surface of the inner membrane that is at least structurally involved in the oligomycin sensitivity of the ATPase complex.
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PMID:Location of protein(s) involved in oligomycin-induced inhibition of mitochondrial adenosinetriphosphatase near the outer surface of the inner membrane. 20 Sep 6

Protein composition of cardiac sarcolemmal membranes was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Membranes were observed to contain about 20 polypeptide bands ranging from 18000 to 200 000 dalton mass. Out of these, six bands were prominent and together comprised 57% of the membrane protein. When sarcolemmal membranes, phosphorylated by [gamma-(32)P] ATP in the presence of Ca(2+) or Na+ with and without K+, were fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis at pH 2.4, the band III region (Mr 105 000) of gels was found to contain active sites of monomeric Ca-ATPase and (Na,K)ATPase. Bands I (Mr greater than 200 000), II (Mr 150 000), III (Mr 105 000), and VI (Mr 47 000) were accesible to trypsin; the extent of proteolysis was dependent on the time of exposure to, and the concentration of, trypsin (i.e, ratio of sarcolemmal protein/trypsin). Addition of molar sucrose protected sarcolemmal proteins from the tryptic proteolysis. Calcium transport was reduced by the action of trypsin; the degree of reduction was influenced by the time of exposure of membranes to trypsin as well as the concentration of trypsin. (Mg,Ca)ATPase activity, on the other hand, was elevated moderately at lower concentration and reduced at higher concentration of trypsin. Treatment with phospholipase C cium transport and (Mg,Ca)ATPase activity; electrophoretic patterns were unaffected by this treatment. Addition of lecithin to phospholipase C treated membranes produced a moderate increase in calcium transport. Exposure to Triton X-100 (1%) specifically solubilized three protein bands (Mr90 000, 67 000, and 57 000), whereas exposure to deoxycholate (1%) preferentially solubilized high-molecular-weight proteins, including band III (Mr 105 000); Lubrol-PX (1%) caused nonspecific solubilization of proteins, although the extent of solubilization with Lubrol-PX was considerably less than with either Triton or deoxycholate.
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PMID:Protein analysis of cardiac sarcolemma: effects of membrane-perturbing agents on membrane proteins and calcium transport. 21 4

In the present paper we report on an improved procedure for the preparation of free uterine cells which avoids the use of trypsin and employs very low concentration of collagenase. The cells released mechanically from the digested tissue are constantly removed from the enzyme containing medium, thus minimizing exposure to collagenase. 60%-70% of the cells which make up the intact uterus are obtained as free cells and 95% of these cells are viable for at least 15 hours at 37 degrees. Metabolic integrity was assessed by measuring the cell's ability to oxidize glucose and synthesize proteins over extended periods of time. The membrane leucine carrier protein and the membrane Na+/K+ ATPase were found to be fully functional. Electron microscopic analysis of the cells confirmed their structural integrity. Data are presented illustrating that with this system the estrogen binding protein is stable at physiological temperatures. The cells contain approximately 30,000 specific estrogen binding sites, with an apparent KA of 5--6 x 10(9) M-1. At 37 degrees 80% of the hormone receptor complexes were in the nuclear fraction, 20% in the cytoplasm. The similarity of the estrogen receptor binding parameters with those measured in the intact tissue after in vivo hormone adminsistration, together with the cells' structural and metabolic integrity make this procedure for the preparation of uterine cell suspensions in high yields particularly suitable for studies in which minimal cell injury is an essential prerequisite.
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PMID:An improved procedure for the preparation of rat uterine cell suspensions. 22 Jul 54

The brain contains two distinct molecular forms of the (Na,K)-ATPase (sodium and potassium ion-stimulated adenosine triphosphatase). They can be resolved by gel electrophoresis in sodium dodecyl sulfate, and can be identified by sodium-dependent, potassium-sensitive phosphorylation by [gamma-32P]ATP. They are present in the brain of every animal species examined, while only one molecular form is detected in the other organs examined. They are located in different kinds of cells within the brain, and can be physically separated while fully active by gentle tissue fractionation procedures. One is the only (Na,K)-ATPase of brain non-neuronal cells (astrocytes), while the other is the only (Na,K)-ATPase of axolemma (plasma membrane of myelinated axons). They differ in at least one kinetic parameter: the affinity for the specific inhibitor strophanthidin. They have similar one-dimensional peptide maps, but differ in their sensitivity to digestion by trypsin and in the number or reactivity of sulfhydryl groups. It is anticipated that they will be found to play functionally different roles in the complex ion transport mechanisms of the brain.
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PMID:Two molecular forms of (Na+ + K+)-stimulated ATPase in brain. Separation, and difference in affinity for strophanthidin. 22 88

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