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)

Basolateral membranes of Aplysia foregut epithelia contain both a Cl(-)-stimulated ATPase activity and an ATP-dependent Cl- transport. The protein responsible for both of these biochemical activities (Cl- pump) can be solubilized and reconstituted into liposomes with the aid of the detergent digitonin. Proteoliposomal Cl- pump activity was inhibited by vanadate.
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PMID:Reconstitution of a chloride-translocating ATPase from Aplysia californica gut. 170 25

The localization of Ca(2+)- and Mg(2+)-ATPases was determined in Aplysia central and peripheral nervous system, using an electron microscopic cytochemical method. The enzyme activity appeared localized to the membrane of glial granules (gliagrana), particularly in the peripheral nervous system of the esophagus, and on the plasma membrane of central glial cells adjacent to neuronal cell bodies. No calcium- and/or magnesium-ATPase activity was detectable on the plasma membrane of glial cells surrounding nerve axons in the pleuro-visceral connectives. These findings are discussed along two main lines: (a) the calcium-ATPase of the gliagrana coincides with a high intragranular calcium and/or proton concentration; and (b) the presence of a calcium-ATPase activity at the glio-neuronal interface around the neuronal cell bodies coincides with the use of calcium ions as charge carriers of the action potential, and its absence at the level of the axon with the concurrent functional use of sodium ions.
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PMID:Ca(2+)-ATPase and Mg(2+)-ATPase in Aplysia glial and interstitial cells: an EM cytochemical study. 171 71

A Cl(-)-stimulated ATPase activity, which is sensitive to both N-ethylmaleimide and p-chloromercuribenzenesulfonate, has been localized to the basolateral membrane of Aplysia enterocytes. Dithiothreitol reversed the inhibition of Cl(-)-stimulated ATPase induced by p-chloromercuribenzenesulfonate. These results suggest that surface sulfhydryl ligands of the ATPase participate in the catalytic activity of the enzyme.
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PMID:Inhibition of Cl(-)-stimulated ATPase activity in isolated basolateral membranes from Aplysia gut. 215 44

Both a Cl(+)-stimulated adenosinetriphosphatase (ATPase) activity and an ATP-dependent Cl- transport process were found in Aplysia foregut absorptive cell plasma membranes. In an attempt to further characterize this transport process, plasma membrane vesicles from Aplysia foregut absorptive cells were prepared utilizing differential centrifugation and sucrose density-gradient techniques. Sulfhydryl ligand participation in ATP-dependent Cl- transport was confirmed in three ways. First, 1,4-dithiothreitol partially restored a p-chloromercurobenzene sulfonate (PCMBS)-inhibited ATP-dependent Cl- transport. Second, 1,4-dithiothreitol restored intravesicular negativity inhibited by PCMBS. Third, 1,4-dithiothreitol had no effect on either ATP-dependent Cl- transport or ATP-dependent intravesicular negativity inhibited by N-ethylmaleimide. These results are consistent with the hypothesis that surface sulfhydryl groups participate in the functioning of the active electrogenic Cl- transport mechanism in Aplysia gut.
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PMID:p-Chloromercurobenzene sulfonate inhibition of active Cl- transport in plasma membrane vesicles from Aplysia gut. 217 68

1. Reidentifiable Aplysia neurones were current and voltage clamped in vitro using standard microelectrode techniques. 2. Bath or focal application of Cu2+ at concentrations of 1-100 microM produced a rapid and reversible depolarization of the somal, but not the axonal, membrane potential. The depolarization was accompanied by an increased membrane conductance and activation of an inward current (ICu) which could not be activated by intracellular ionophoretic injection of Cu2+. 3. ICu is carried, in part, by Na+ because the reversal potential of ICu was shifted in a Nernstian fashion by decreasing the extracellular Na+ concentration. The reversal potential of ICu was not affected by removal of extracellular Ca2+ or K+. 4. ICu does not result from (1) activation of known chemically or voltage-gated Na+ conductances, (2) inhibition of the Na+-K+-ATPase or (3) a generalized increase in membrane permeability resulting from lipid peroxidation. 5. A similar inward current was activated by AgNO3 (100 microM) and HgCl2 (100 microM).
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PMID:Copper activates a unique inward current in molluscan neurones. 283 93

1. Na+ absorption across Aplysia gut was mediated by a Na+/K+-ATPase located in the enterocyte basolateral membrane. 2. In the absence of Na+ in the bathing medium, net Cl- absorption across Aplysia gut wall was identical to the SCC. 3. Intracellular Cl- was at a lower electrochemical potential in Aplysia enterocytes than in either the mucosal or serosal medium. 4. Cl--stimulated ATPase activity was localized in the basolateral membrane of Aplysia enterocytes. 5. ATP-dependent Cl- transport was localized in the basolateral membrane of Aplysia enterocytes. 6. In Aplysia gut primary active transport systems for both Na+ and Cl- are postulated based on the evidence presented.
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PMID:Sodium and chloride transport across the molluscan gut. 290 69

The serosa negative transepithelial potential difference across Aplysia intestine is generated by a Na+-independent, active electrogenic Cl- absorptive mechanism. In an attempt to clarify the Cl- absorptive mechanism an anion-stimulated ATPase was prepared from plasma membranes from Aplysia enterocytes utilizing differential centrifugation and sucrose density gradient techniques. ATPase activity, which could be activated by either Cl- or HCO3-, was found in the plasma membrane fraction. Maximal anion-ATPase activity was achieved with either 25 mM Cl- or 25 mM HCO3-. The apparent Km for Cl- activation of the ATPase was 10.3 mM, whereas apparent Km for HCO3- was 9.7 mM. ATP was the most effective nucleotide substrate for both HCO3- and Cl- -ATPase activities, whereas optimum pH for both activities was 7.8. These enzyme activities were inhibited more than 30% by thiocyanate (10 mM). Acetazolamide and vanadate were also found to strongly inhibit both Cl- and HCO3- -ATPase activities, whereas 10 microM 4-acetamido-4'-isothiocyanostilbene-2,2'-disulfonic acid, 1 mM furosemide, or 1 mM ouabain had little or no effect. These results are consistent with the hypothesis that the active Cl- transport mechanism in Aplysia intestine could be a Cl- -HCO3- -stimulated ATPase found in the enterocyte plasma membrane.
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PMID:Cl- -HCO3- -stimulated ATPase in intestinal mucosa of Aplysia. 298 87

A Cl--stimulated adenosinetriphosphatase (ATPase) activity and an ATP-dependent Cl- transport process were found in Aplysia enterocyte plasma membranes. In an attempt to further elucidate this transport process plasma membrane vesicles from Aplysia enterocytes were prepared utilizing differential centrifugation and sucrose density gradient techniques. Electrogenicity of the ATP-dependent Cl- transport was confirmed in three ways. First, an inwardly directed valinomycin-induced K+ diffusion potential, making the vesicle interior electrically positive, enhanced ATP-driven Cl- uptake compared with vesicles lacking the ionophore. Second, ATP plus Cl- increased intravesicular negativity measured by lipophilic triphenylmethylphosphonium distribution across the vesicular membrane. Third, both vanadate and thiocyanate inhibited the ATP plus Cl--dependent intravesicular negativity. These results are consistent with the hypothesis that the active electrogenic Cl- transport mechanism in Aplysia intestine could be a Cl--stimulated ATPase found in the enterocyte plasma membrane.
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PMID:Electrogenic ATP-dependent Cl- transport by plasma membrane vesicles from Aplysia intestine. 333 66

Microinjection into an axon of an identified invertebrate neuron is shown to be a useful technique for analyzing the mechanisms of fast axonal transport. It permits direct assessment of the effect of agents that cannot permeate the plasma membrane on the translocation of material in the axon. The actin filament depolymerizer DNase I, when injected into the axon of the Aplysia neuron R2, caused a local block of fast transport of [3H]glycoprotein. Two agents that should interfere with the functioning of actin filaments without causing extensive depolymerization, tne N-ethylmaleimide-modified nuclease S1 fragment of myosin (injected) and dihydrocytochalasin B (applied externally). had no effect. Together these results suggest that actin plays a structural role in the axonal cytoskeleton rather than a role in transport force generation, the effect of DNase I being mediated by structural disordering of the axoplasm. Experiments were also done with inhibitors of dynein, the microtubule-associated ATPase. erythro-9-[3-(2-Hydroxynonyl)]adenine blocked transport but vanadate was ineffective.
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PMID:Microinjection into an identified axon to study the mechanism of fast axonal transport. 618 16

The proximal intestine of Aplysia californica was employed to assess the effect of alanine absorption on apical membrane K+ conductance (GKa) and basolateral membrane conductance (Gb) and the role of the electrogenic Na(+)-K(+)-adenosinetriphosphatase (Na+ pump) in the repolarization of apical membrane electrical potential difference (Va) after alanine-induced depolarization. Addition of 50 mM L-alanine (isosmotic substitution for mannitol) to the apical superfusate depolarized Va, reduced the ratio of apical to basolateral membrane resistances (Ra/Rb), and stimulated short-circuit current (Isc). Following these initial events, Va repolarized, Ra/Rb increased, and there was a slight decline in Isc. Apical high-K+ artificial seawater revealed an alanine-induced increase in GKa. Washout of alanine from the apical solution increased Ra/Rb above the prealanine control value. Thus alanine absorption is accompanied by an increase in Gb. Basolateral 0.1 mM ouabain abolished alanine-stimulated Isc but had little effect on Va ( < 3 mV depolarization) either before or after exposure to alanine. The repolarization of Va was not affected in tissues superfused with 0.1 mM basolateral ouabain for approximately 3 min even though the alanine-stimulated increase in Isc was abolished. Therefore, the electrogenic Na+ pump contributes minimally to the repolarization of Va in sea hare intestine. The origin of the hyperpolarization of Va resides therefore, at least in part, in the increase in GKa, which restores the driving force for Na(+)-alanine cotransport and prevents K+ accumulation in the enterocytes.
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PMID:Effect of L-alanine and ouabain on membrane conductances and apical membrane potential in Aplysia intestine. 773 88

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