UNIPROT:O95477 - FACTA Search

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytidylate cyclase was demonstrated to be distributed in various tissues of rat, with the highest activity in brain, and it was shown to be a membrane-bound type enzyme. The enzyme was effectively dispersed from the membrane fraction of rat brain with 0.3% (w/v) Triton X-100. The dispersed cytidylate cyclase had an optimal pH of 9.4 and the activity at a physiological pH of 7.5 was less than 20% of the maximum value. This enzyme completely lost its activity in the absence of divalent cation such as Mn2+ and Mg2+. The Km value for CTP was calculated as 0.0156 mM, by Lineweaver-Burk analysis. It was also found that activity of dispersed enzyme was inhibited by ATP, but not GTP. Both forskolin and lanthanum chloride, which affect adenylate cyclase, showed no effect on cytidylate cyclase. These results indicate that cytidylate cyclase is a unique membrane-bound enzyme distinct from purine nucleotide cyclases, adenylate cyclase and guanylate cyclase.
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PMID:Characterization of detergent dispersed cytidylate cyclase of rat brain. 228 31

The effects of guanine nucleotides on binding of 8-cyclopentyl-1,3-[3H]dipropylxanthine ([3H]DPCPX), a highly selective A1 adenosine receptor antagonist, have been investigated in rat brain membranes and solubilized A1 receptors. GTP, which induces uncoupling of receptors from guanine nucleotide binding proteins, increased binding of [3H]DPCPX in a concentration-dependent manner. The rank order of potency for different guanine nucleotides for increasing [3H]DPCPX binding was the same as for guanine nucleotide-induced inhibition of agonist binding. Therefore, a role for a guanine nucleotide binding protein, e.g., Gi, in the regulation of antagonist binding is suggested. This was confirmed by inactivation of Gi by N-ethylmaleimide (NEM) treatment of membranes, which resulted in an increase in [3H]DPCPX binding similar to that seen with addition of GTP. Kinetic and equilibrium binding studies showed that the GTP- or NEM-induced increase in antagonist binding was not caused by an affinity change of A1 receptors for [3H]DPCPX but by an increased Bmax value. Guanine nucleotides had similar effects on membrane-bound and solubilized receptors, with the effects in the solubilized system being more pronounced. In the absence of GTP, when most receptors are in a high-affinity state for agonists, only a few receptors are labeled by [3H]DPCPX. It is suggested that [3H]DPCPX binding is inhibited when receptors are coupled to Gi. Therefore, uncoupling of A1 receptors from Gi by guanine nucleotides or by inactivation of Gi with NEM results in an increased antagonist binding.
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PMID:Guanine nucleotide effects on 8-cyclopentyl-1,3-[3H]dipropylxanthine binding to membrane-bound and solubilized A1 adenosine receptors of rat brain. 233 52

Periodate-oxidized ADP, if left in aqueous solution, loses its phosphates by beta-elimination. This dephosphorylated dialdehyde compound caused rapid and irreversible inhibition of membrane-bound spinach chloroplast coupling factor 1 (CF1). Inhibition was 2.5 times faster in the light than in the dark. A high concentration of uncoupler eliminated the light stimulation. Light could be replaced by an acid-base transition. Therefore, the dialdehyde reacts with a site or sites on CF1 that become exposed by a high-energy state-induced conformational change. The substrate nucleotides ADP, ATP, GDP, and GTP protected against inhibition while Pi and the non-substrate nucleotides AMP, GMP, CTP, and UTP did not. The protection by GTP was competitive and magnesium-dependent, suggesting that the dialdehyde binds to a nucleotide-binding site. However, the corresponding UDP and CDP dialdehyde derivatives also inhibited CF1 and showed the light-stimulation effect, indicating that the adenine is not important for the binding. These derivatives could be binding to a nucleotide-binding site or to another reactive site that becomes exposed during the light-induced conformational change. In the latter case the protection by substrate nucleotides would be due to prevention of the energy-dependent conformational change.
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PMID:Inhibition of membrane-bound chloroplast coupling factor 1 by a dephosphorylated derivative of dialdehyde ADP. 240 86

We have characterized divalent-cation-stimulated nucleoside triphosphate hydrolase activity of the excitable ciliary membrane and compared it with a soluble Ca2+-ATPase released upon deciliation of Paramecium. The membrane-bound activity is strongly dependent on a divalent cation; calcium stimulates the basal activity of this enzyme at least 10-fold; magnesium and manganese stimulate less well, and strontium and barium, although less effective, also give measurable stimulation. This membrane-bound activity prefers ATP and GTP as substrates but also hydrolyzes UTP and CTP at measurable rates. The maximum velocity at saturating ATP concentrations and optimal calcium concentrations is 0.3 mumol/min per mg. The pH optimum for the membrane-bound activity is broad and centers around pH 7. From the temperature dependence of ATP hydrolysis, we calculate activation energies of 14 and 11 kcal/mol for the Ca2+- and Mg2+-stimulated activities, respectively. The Arrhenius plot is linear over the temperature range of 4 to 25 degrees C. The membrane ATPase is relatively insensitive to ouabain, oligomycin, N,N'-dicyclohexylcarbodiimide, vanadate, Ruthenium red and two calmodulin antagonists. Polyclonal antisera raised against the purified soluble ATPase from the deciliation supernatant show low reactivity with the membrane-bound ATPase. We conclude from the comparison of properties of the two activities that the ciliary membrane-bound ATPase is distinct from the soluble ATPase released by deciliation.
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PMID:Characterization of Ca2+- or Mg2+-ATPase of the excitable ciliary membrane from Paramecium tetraurelia: comparison with a soluble Ca2+-dependent ATPase. 242 1

Our previous work demonstrated that 8-bromo-cAMP promotes the secretion of both hCG and progesterone by cultured cytotrophoblasts. This study was conducted to characterize the adenylate cyclase of cytotrophoblasts and to examine the effects of agents that stimulate adenylate cyclase on hCG secretion. Adenylate cyclase activity was detected in purified cytotrophoblasts, as were membrane-bound stimulatory and inhibitory guanine nucleotide regulatory proteins, Gs and Gi. Adenylate cyclase was stimulated by MnCl2 and MgCl2, and the effects of MgCl2 were amplified by the GTP analog guanylylimidodiphosphate. Cholera toxin stimulated both cAMP and hCG production by cultured cytotrophoblasts, confirming the coupling of Gs to the adenylate cyclase. Forskolin also stimulated adenylate cyclase, cAMP synthesis, and hCG secretion. Pertussis toxin did not affect hCG secretion in either the absence or presence of forskolin. 8-Bromo-cAMP stimulated cytotrophoblast protein kinase activity, resulting in the increased phosphorylation of a protein with a mol wt of about 70,000, and produced a marked stimulation of hCG secretion. Our findings suggest that the level of expression of adenylate cyclase activity is one determinant of the endocrine function of the differentiating trophoblast.
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PMID:Adenylate cyclase in human cytotrophoblasts: characterization and its role in modulating human chorionic gonadotropin secretion. 244 28

The enzymatic properties of adenylate and guanylate cyclases were examined in sonicates of trypsinized guinea pig epidermal cells as enzyme source. Adenylate cyclase was found to be membrane-bound, while guanylate cyclase activity was detected in both membrane and cytosolic fractions. The maximal activities of the enzymes were obtained in the presence of Mn++ in the pH range 7.8-8.8. The apparent Km values of adenylate cyclase for Mn++- and Mg++-ATP were 20.5 and 38.6 microM, respectively, while the value of guanylate cyclase for Mn++-GTP was 500 microM. Examinations of cells separated by velocity sedimentation at unit gravity revealed that the basal activity of adenylate and guanylate cyclases was maximal in the germinative cells, falling gradually to the low level as cells differentiated. We assume that in the epidermis, the control and coordination of proliferation require higher concentrations of adenylate and guanylate cyclases as compared with events occurring during terminal differentiation.
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PMID:Adenylate and guanylate cyclase activities in isolated guinea pig epidermal cells at various stages of differentiation. 244 8

Mg-ATP dependent electrogenic proton transport, monitored with fluorescent acridine orange, 9-aminoacridine, and oxonol V, was investigated in a fraction enriched with potassium transporting goblet cell apical membranes of Manduca sexta larval midgut. Proton transport and the ATPase activity from the goblet cell apical membrane exhibited similar substrate specificity and inhibitor sensitivity. ATP and GTP were far better substrates than UTP, CTP, ADP, and AMP. Azide and vanadate did not inhibit proton transport, whereas 100 microM N,N'-dicyclohexylcarbodiimide and 30 microM N-ethylmaleimide were inhibitors. The pH gradient generated by ATP and limiting its hydrolysis was 2-3 pH units. Unlike the ATPase activity, proton transport was not stimulated by KCl. In the presence of 20 mM KCl, a proton gradient could not be developed or was dissipated. Monovalent cations counteracted the proton gradient in an order of efficacy like that for stimulation of the membrane-bound ATPase activity: K+ = Rb+ much greater than Li+ greater than Na+ greater than choline (chloride salts). Like proton transport, the generation of an ATP dependent and azide- and vanadate-insensitive membrane potential (vesicle interior positive) was prevented largely by 100 microM N,N'-dicyclohexylcarbodiimide and 30 microM N-ethylmaleimide. Unlike proton transport, the membrane potential was not affected by 20 mM KCl. In the presence of 150 mM choline chloride, the generation of a membrane potential was suppressed, whereas the pH gradient increased 40%, indicating an anion conductance in the vesicle membrane. Altogether, the results led to the following new hypothesis of electrogenic potassium transport in the lepidopteran midgut. A vacuolar-type electrogenic ATPase pumps protons across the apical membrane of the goblet cell, thus energizing electroneutral proton/potassium antiport. The result is a net active and electrogenic potassium flux.
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PMID:A vacuolar-type proton pump in a vesicle fraction enriched with potassium transporting plasma membranes from tobacco hornworm midgut. 247 89

The biologic activity of substance P has been demonstrated to be limited both in in vivo and in vitro by a membrane-bound protease, neutral endopeptidase (EC 3.4.24.11). The interaction of substance P with its receptor on guinea pig lung tissues was studied in the presence of an inhibitor of neutral endopeptidase under conditions that protect the peptide from degradation. Uptake of 0.1 nM [125I]-BH-substance P in lung membrane preparations was rapid at 4 degrees C, reaching equilibrium in 30 to 40 min, and binding was stable for at least 30 min thereafter. Binding was reversible and saturable. Scatchard analyses of saturation binding data are consistent with a single class of receptor molecules in both lung parenchymal and airway membranes, with a Kd of 2 to 3 nM and a receptor density of 4,000 to 5,000 fmol/g wet wt of tissue. In competitive binding experiments, neurokinin A and substance P methyl ester were equipotent and required approximately 100-fold higher concentrations to effect equivalent displacement than unlabeled substance P. Eledoisin also competed for [125I]-BH-substance P binding, but was less effective than the other analogs. The spasmogenically inactive derivative, substance P 1-9, did not compete for substance P binding at concentrations as high as 1 microM. Binding of [125I]-BH-substance P was rapidly and completely reversed by addition of 0.1 mM GTP, suggesting that association with a GTP binding protein is required for high affinity binding of substance P to its receptor in lung. The substance P receptor molecule was further characterized by covalently crosslinking [125I]-BH-substance P to membrane preparations followed by SDS-PAGE of the solubilized material.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the substance P receptor in guinea pig lung tissues. 248 20

Muscarinic receptors of cardiac pacemaker and atrial cells are linked to a potassium channel (IK.ACh) by a pertussis toxin-sensitive GTP-binding protein. The dissociation of G-proteins leads to the generation of two potential transducing elements, alpha-GTP and beta gamma. IK.ACh is activated by G-protein alpha- and beta gamma-subunits applied to the intracellular surface of inside-out patches of membrane. beta gamma has been shown to activate the membrane-bound enzyme phospholipase A2 in retinal rods. Arachidonic acid, which is produced from the action of phospholipase A2 on phospholipids, is metabolized to compounds which may act as second messengers regulating ion channels in Aplysia. Muscarinic receptor activation leads to the generation of arachidonic acid in some cell lines. We therefore tested the hypothesis that beta gamma activates IK.ACh by stimulation of phospholipase A2. When patches were first incubated with antibody that blocks phospholipase A2 activity, or with the lipoxygenase inhibitor, nordihydroguaiaretic acid, beta gamma failed to activate IK.ACh. Arachidonic acid and several of its metabolites derived from the 5-lipoxygenase pathway, activated the channel. Blockade of the cyclooxygenase pathway did not inhibit arachidonic acid-induced channel activation. We conclude that the beta gamma-subunit of G-proteins activates IK.ACh by stimulating the production of lipoxygenase-derived second messengers.
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PMID:G-protein beta gamma-subunits activate the cardiac muscarinic K+-channel via phospholipase A2. 249 40

Signal transducing G proteins are present in all eukaryotic cells, but they have not been found in prokaryotes so far. Myxobacteria, especially Stigmatella aurantiaca, are prokaryotic organisms able to exchange signals. Moreover, they exhibit an active phosphoinositide metabolism, whose intensity is dependent on the physiological state of the cell. Therefore G proteins potentially involved in the activation of phospholipid metabolism or any other event stimulated by external signals were looked for in S. aurantiaca membranes. Using a photoaffinity technique based on cross-linking of radioactive GTP to membrane-associated proteins under UV irradiation, only one major band in the range of 54 kDa was detected. This GTP-binding protein present specifically in membrane preparations binds also GDP, whereas it does not react with other nucleotides, such as ATP, UTP and CTP. The membrane-bound G protein of S. aurantiaca needs further characterization but could be homologous to G alpha subunits found in cytoplasmic membranes of eukaryotes.
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PMID:Evidence for a membrane-associated GTP-binding protein in Stigmatella aurantiaca, a prokaryotic cell. 249 3

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