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 membrane fractions were studied from canine myocardial left ventricle (LV); crude, light vesicle, and enriched sarcolemma. The percent of the total yield of membrane protein was 99.3 +/- 0.2% for the crude fraction, 0.4 +/- 0.1% for the light vesicle fraction, and 0.3 +/- 0.03% for the purified fraction. Sodium, potassium-ATPase activity in the purified fraction (100 +/- 10.8 mumol Pi/h/mg) was five fold more concentrated than in the light vesicle fraction (18.5 +/- 1.85 mumol Pi/h/mg), and nineteen fold more than in the crude fraction (5.29 +/- 0.57 mumol Pi/h/mg). beta-Adrenergic receptors were 8-fold enriched in the purified fraction (1006 +/- 219 vs 132 +/- 13 fmol/mg in the crude fraction) and 4-fold enriched in the light vesicle fraction (497 +/- 152 fmol/mg). Adenylate cyclase activity was enriched by only 13 to 17-fold in the purified fraction, and only 2 to 4-fold in the light vesicle fraction. The percent of the total beta-adrenergic receptors per gram wet weight was 94 +/- 20% for the crude fraction, 2.1 +/- 0.4% for the light vesicle fraction, and 3.8 +/- 0.7% for the purified fraction. When alamethicin was used to uncover latent enzyme activity, beta-adrenergic receptor density was not affected, but Na+,K(+)-ATPase and adenylate cyclase activity were enhanced in each membrane fraction studied. The surprising finding was that Na+,K(+)-ATPase activity was enriched to the same extent as the beta-adrenergic receptor density in the light vesicle fraction. One potential explanation is that the light vesicle fraction is located in a specialized region of the plasma membrane.
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PMID:Characterization of subfractions from purified sarcolemma of canine left ventricle. 196 9

Exposure of adult male Albino rats to higher environmental temperature (HET) at 35 degrees for 2-12 h or at 45 degrees for 1-2 h decreases hypothalamic synaptosomal (NA(+)-K+)ATPase activity. Synaptosomal (Na(+)-K+)-ATPase activity in (a) CX of rats exposed to 35 degrees for 12 h, (b) CX and PM of rats exposed to 45 degrees for 1-2 h and also (c) in CS of rats exposed to 45 degrees for 2 h are inhibited. (Na(+)-K+)-ATPase activity of synaptosomes prepared from normal rat brain regions incubated at 39 degrees-43 degrees for 0.5-1 h decreased significantly in H and such inhibition was also observed in other brain regions (CX, CS and PM) after incubation of the tissue slices at 41 degrees-43 degrees for 0.5-1 h. Lineweaver-Burk plots indicate that (a) in vivo and in vitro HET-induced inhibition of brain regional synaptosomal (Na(+)-K+)-ATPase is coupled with a decrease in Vmax without any change in Km, (b) very high temperature (under in vitro condition) causes a decrease in Vmax with an increase of Km irrespective of the brain regions. Arrhenius plots show that there is a decrease in transition temperature (TT) in H of rats exposed to either 35 degrees or 45 degrees, whereas such decrease in TT of PM and CX regions are only observed after exposure at 45 degrees. These results suggest that heat exposure increases the lipid fluidity of synaptosomal membrane which may cause the conformational change of the membrane protein and hence inhibit the activity of synaptosomal (Na(+)-K+)-ATPase of brain regions.
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PMID:Higher environmental temperature-induced change in synaptosomal (Na(+)-K+)-ATPase activity of mammalian brain regions. 196 12

The Na(+)-dependent hexose carrier, an endogenous apical marker, develops during differentiation of LLC-PK1, an established cell line with characteristics of the proximal tubule. This development was inhibited by the microtubule-disrupting drugs, colchicine and nocodazole, while it was insensitive to lumicolchicine. This strongly suggests that microtubules are involved in the plasma membrane expression of the Na(+)-dependent hexose carrier. We also analyzed the increase in activity of endogenous apical and basolateral membrane proteins during the polarization process. The development of three apical (Na(+)-dependent hexose carrier, gamma-glutamyltransferase and alkaline phosphatase) and one basolateral membrane protein (Na+/K(+)-ATPase) was studied during the reorganization of LLC-PK1 cells into a polarized epithelium. Colchicine inhibited the rapid, transient increase in the expression of the Na(+)-dependent hexose carrier during this polarization process. A similar result was observed for the development of the other apical proteins, while the development of Na+/K(+)-ATPase seemed to be largely insensitive to colchicine. Our results are in agreement with the model that the vesicles containing the apical membrane proteins use microtubules as tracks to reach the plasma membrane. The transport of vesicles containing basolateral membrane proteins clearly occurs by a different pathway which is independent on an intact microtubular network. Since the inhibition by the microtubule-disrupting drugs was complete, it can be concluded that after disruption of microtubules, the apical vesicles do not use the basolateral pathway by default.
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PMID:Development of the Na(+)-dependent hexose carrier in LLC-PK1 cells is dependent on microtubules. 197 53

The atpB encodes the a [corrected] subunit of the H(+)-ATPase of E. coli. The topology of this membrane protein has been analyzed by PhoA fusions. The results support an eight transmembrane segment model that is consistent with the hydropathic profile.
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PMID:The transmembrane topology of the a [corrected] subunit from the ATPase in Escherichia coli analyzed by PhoA protein fusions. 213 94

We have separately analyzed membrane-targeting and membrane translocation of an exported bacterial protein. The precursor of the outer membrane protein LamB of Escherichia coli was synthesized in vitro and translocated into inverted plasma membrane vesicles under co- and post-translational conditions. The translation/translocation products of LamB were subsequently resolved into soluble and membrane-associated material. Dissipation of the H(+)-motive force, depletion of ATP and treatment of membranes with N-ethylmaleimide each inhibited processing and translocation of preLamB without preventing its binding to the membranes. Hence, all three conditions block transmembrane passage rather than membrane-targeting. The latter was abolished by pretreatment of salt-extracted membrane vesicles with trypsin. It was also drastically reduced when preLamB was synthesized in cell extracts derived from either a secA amber or a secB null mutant. Membrane-targeting of preLamB therefore requires soluble SecA and SecB as well as a protease-sensitive membrane receptor. The finding that SecA is involved in targeting whereas ATP is required for the transmembrane passage suggests that SecA, which harbors an ATPase activity [Lill et al. (1989), EMBO J., 8, 961-966], might have a dual function in bacterial protein export.
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PMID:Determinants of membrane-targeting and transmembrane translocation during bacterial protein export. 214 Jul 71

In order to improve our understanding of membrane protein solubilization by sodium dodecylsulphate, sarcoplasmic reticulum vesicles have been treated with this surfactant at different detergent: protein mole ratios. Effects on Ca2(+)-ATPase activity, membrane protein solubilization, and protein conformation have been independently monitored, and correlations among the various parameters have been observed. The thermal denaturation of sarcoplasmic reticulum proteins in the presence of sodium dodecylsulphate has also been characterized spectroscopically.
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PMID:Solubilization of sarcoplasmic reticulum membranes by sodium dodecylsulphate. A Fourier-transform infrared spectroscopic study. 214 30

The tonoplast mediates the transport of various ions and metabolites between the vacuole and cytosol by mechanisms that remain to be elucidated at the molecular level. The primary structure of only one tonoplast protein, the H(+)-ATPase, has been reported to date. Here we report the primary structure of tonoplast intrinsic protein (TIP), a 27-kilodalton intrinsic membrane protein that occurs widely in the tonoplasts of the protein storage vacuoles (protein bodies) of seeds [Johnson, K.D., et al. (1989). Plant Physiol. 91, 1006-1013]. Hydropathy plots and secondary structure analysis of the polypeptide predict six membrane-spanning domains connected by short loops and hydrophilic, cytoplasmically oriented N- and C-terminal regions. TIP displays significant homology with several other membrane proteins from diverse sources: major intrinsic polypeptide from bovine lens fiber plasma membrane; NOD 26, a peribacteroid membrane protein in the nitrogen-fixing root nodules of soybean; and interestingly, GIpF, the glycerol facilitator transport protein in the cytoplasmic membrane of Escherichia coli. Based on the homology between TIP and GIpF and the knowledge that the protein storage vacuolar membrane and the peribacteroid membrane are active in solute transport, we propose that TIP transports small metabolites between the storage vacuoles and cytoplasm of seed storage tissues.
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PMID:An intrinsic tonoplast protein of protein storage vacuoles in seeds is structurally related to a bacterial solute transporter (GIpF). 215 74

We previously reported a novel rat membrane protein that exhibits a voltage-dependent potassium channel activity on the basis of molecular cloning combined with an electrophysiological assay. This protein, termed IsK protein, is small and different from the conventional potassium channel proteins but induces selective permeation of potassium ions on its expression in Xenopus oocytes. In this investigation, we examined cellular localization of rat IsK protein by preparing three different types of antibody that specifically reacts with a distinct part of rat IsK protein. Immunohistochemical analysis using these antibody preparations demonstrated that rat IsK protein is confined to the apical membrane portion of epithelial cells in the proximal tubule of the kidney, the submandibular duct and the uterine endometrium. The observed tissue distribution of rat IsK protein was consistent with that of the IsK protein mRNA determined by blot hybridization analysis. In epithelial cells, the sodium, potassium-ATPase pump in the basolateral membrane generates a sodium gradient across the epithelial cell and allows sodium ions to enter the cell through the apical membrane. Thus, taking into account the cellular localization of the IsK protein, together with its electrophysiological properties, we discussed a possible function of the IsK protein, namely that this protein is involved in potassium permeation in the apical membrane of epithelial cells through the depolarizing effect of sodium entry.
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PMID:Immunohistochemical study of a rat membrane protein which induces a selective potassium permeation: its localization in the apical membrane portion of epithelial cells. 215 81

The basolateral membrane of the thick ascending loop of Henle (TALH) of the mammalian kidney is characterized by its high content of Na+/K(+)-ATPase and a Cl- conductance, which function in parallel in salt reabsorption. In order to reconstitute the Cl- channels, TALH membrane vesicles were solubilized in 1% sodium cholate in buffer containing 200 mM KCl, followed by dilution with soybean lipids (final ratio of protein/detergent/lipid of 1:3:15 in mg) and removal of the detergent by gel filtration on Sephadex G-50. Cl- channel activity in the liposomes was determined by a 36Cl- uptake assay where the accumulation of the radioactive tracer against its chemical gradient is driven by the membrane potential (positive inside) generated by an outward Cl- gradient. The 36Cl- uptake by the KCl-loaded liposomes was dependent on the inclusion of membrane protein and was abolished by valinomycin, indicating the involvement of a conductive pathway. It was also inhibited by 36% by 100 microM 4,4'-diisothiocyanostilbene-2,2'-disulfonate (DIDS) and 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB). Solubilization of the Cl- channels in cholate was optimal in the presence of 200 mm KCl, but was found to decrease markedly at low ionic strength. SDS-PAGE analysis of the proteins extracted by cholate at high and low salt concentrations showed that the Cl- channel-containing high KCl extract was enriched in the 96 and 55 kDa alpha- and beta-subunits of the Na+/K(+)-ATPase (the major proteins in the membrane preparation) and several minor protein bands. Treatment of the membrane vesicles with the radioactive analogue of DIDS, [3H]2DIDS, labeled primarily a 65 and a 31 kDa protein. The solubilization of the 31 kDa protein by cholate depended markedly on the ionic strength and thus paralleled the solubilization pattern of Cl- channel activity. Furthermore, the labeling of the 31 kDa protein was prevented by nonradioactive DIDS and by NPPB but not by other compounds, indicating that it may be a Cl- channel component.
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PMID:Reconstitution of a kidney chloride channel and its identification by covalent labeling. 215 22

The role of the phospholipid environment in modulating the activity of the rat brain synaptic plasma membrane (SPM) Ca2(+)-ATPase was investigated by its reconstitution into different phospholipids. Retention of activity of the solubilized Ca2(+)-ATPase depended on addition of exogenous phospholipids. As the cholate concentration used for solubilization of native SPM increased, a larger excess of exogeneous phospholipids, relative to membrane protein, had to be added to maintain optimal activity. Highest ATP-dependent Ca2+ transport activity was obtained when reconstitution was carried out in calf brain phospholipids (BPLs) followed by soybean phospholipids (SPLs) and the lowest in egg PC; reconstitution at a 40:1 weight ratio of exogenous phospholipids to native SPM protein resulted in ATP-dependent Ca2+ transport of 40.0 +/- 4.16, 23.4 +/- 8.48, and 11.54 +/- 2.31 nmol of Ca2+ (mg of protein)-1 (5 min)-1, respectively. Partial substitution of egg PC with BPLs led to an increase in the activity of the reconstituted Ca2+ pump. The highest ATP-dependent Ca2+ uptake was obtained when ratios of 15:25 or 10:30 egg PC to BPLs were used. Testing the individual phospholipids participating in the BPL mixture showed that addition of PS to egg PC led to a consistent increase in Ca2+ pump activity. Substitution of 50% of the PC with PS resulted in a 3.8-fold higher ATP-dependent Ca2+ uptake than that obtained in egg PC alone. No other phospholipid tested--PE, SM, or PI--had a similar effect. Increasing the proportion of PS within the BPL mixture above its original content led to a gradual decrease in the reconstituted SPM Ca2+ pump activity. Enrichment of asolectin with PS led first to increased Ca2+ pump activity; then, as the proportion of PS increased, Ca2+ transport of the reconstituted pump decreased. An increased proportion of PE, SM, or PI within the BPLs or asolectin, above their original contents, resulted in decreased Ca2+ transport. These results indicate that optimal SPM Ca2+ pump activity requires the combined presence of a critical amount of PC and PS within the reconstituted membrane.
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PMID:Role of the phospholipid environment in modulating the activity of the rat brain synaptic plasma membrane Ca2(+)-ATPase. 216 73

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