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)

P-type ATPases constitute a large family of cation pumps that play crucial physiological roles in many organisms, including bacteria, plants and mammals. They are postulated to play important roles in a variety of environmental adaptation systems. Recently, we cloned two distinct putative P-type ATPase genes (pacS and pacL) from a photosynthetic cyanobacterium, Synechococcus species PCC7942. In this study, one of the gene products (named PacS) was found to possess a putative metal-binding motif (Gly-Met-X-Cys-X-X-Cys) in its N-terminal portion. Thus we supposed that this ATPase may function as a metal pump. Indeed, the results of Northern blotting analysis showed that pacS-mRNA specifically increases upon addition of copper or silver to the growth medium. The results of Western blotting analysis confirmed the view that PacS accumulates in copper-treated Synechococcus cells. Thus we concluded that the expression of PacS ATPase is regulated in response to the change in concentration of external metals, namely copper and silver. Consistent with this, an insertional inactivation mutant of pacS exhibited hypersensitivity in terms of growth to these potentially toxic metals. It was also revealed that PacS was mainly located in the thylakoid membrane, in which the photosynthetic reactions take place. This P-type ATPase in the thylakoid membrane is implicated as a copper-transporting system that may be involved in copper-homeostasis crucial to the photosynthetic thylakoid function.
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PMID:A copper-transporting P-type ATPase found in the thylakoid membrane of the cyanobacterium Synechococcus species PCC7942. 798 14

The two P-type ATPases CopA and CopB are effecting regulation of cellular copper activity in Enterococcus hirae. With antibodies against these ATPases, we showed on Western blots the simultaneous induction of CopA and CopB by copper or silver ions. Copper contents of wild type and mutant cells lacking either CopA, CopB or both enzymes were measured by atomic absorption. Strains disrupted in copB showed clearly enhanced copper contents. Mutants lacking CopB also lost the ability of energy dependent efflux of silver ions. Our results demonstrate that CopA and CopB are under the same genetic control and support the proposal that CopB is a copper and silver exporting ATPase.
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PMID:Induction of the putative copper ATPases, CopA and CopB, of Enterococcus hirae by Ag+ and Cu2+, and Ag+ extrusion by CopB. 803 45

The Na,K-ATPase (EC 3.6.1.37) is the receptor for cardioactive steroids, the only specific inhibitors known at the present time for this unique membrane bound transport system. We report here that silver is the most rapid and potent inhibitor of isolated Na,K-ATPase ever described. Inhibition of Na,K-ATPase activity by silver is immediate and strikingly distinct from other inhibitors: addition of 1 mM of cysteine or DMPS reactivates the silver blocked-enzyme immediately. The results reveal that silver interacts with Na,K-ATPase and inhibits differently by an on-off mechanism involving most likely a few critical sulfhydryl groups. Inhibition of Na-K transport by silver has been demonstrated also in an artificial membrane, e.g., in liposomes reconstituted with pure Na,K-ATPase performing active transport. Silver inhibits the active 86Rb transport mediated by the pure Na,K-ATPase molecule. The Na,K-ATPase contained in the liposomes was labeled specifically with 110mAg and appeared to bind two silver ions. Taken together, the results show that the mechanism of silver interaction with Na,K-ATPase might be different from other metals, for instance, mercury. The unique action mechanism of silver suggests a fundamental role of a few critical sulfhydryl groups for Na,K-transport.
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PMID:Potent and reversible interaction of silver with pure Na,K-ATPase and Na,K-ATPase-liposomes. 814 42

The plant NADH:ubiquinone oxidoreductase (or complex I) was isolated from potato (Solanum tuberosum) mitochondria. The multisubunit enzyme was solubilized with detergents, Triton X-100 and 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS), out of the inner mitochondrial membranes and purified by hydroxylapatite and gel filtration chromatography. The preparation was found to be virtually free of any ATPase or transhydrogenase contamination. Complex I of potato is composed of at least 32 individual subunits as detected in silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis and has a total molecular mass of about 900 kDa. The enzyme preparation showed an NADH:ubiquinone-2 reductase activity of 11.5 mumol x min-1 x mg-1 and is strongly inhibited by rotenone. Heterologous polyclonal antibodies against the 70- and 49-kDa subunits of the Neurospora crassa complex I and against the wheat NAD9 subunit cross-reacted specifically with the respective potato subunits. Four of the 10 NH2-terminal sequences determined show significant similarities to Neurospora or bovine complex I subunits and allow a tentative assignment of these subunits.
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PMID:Purification of the NADH:ubiquinone oxidoreductase (complex I) of the respiratory chain from the inner mitochondrial membrane of Solanum tuberosum. 829 84

Ammetric titration with silver nitrate revealed the presence in pig kidney Na+,K(+)-ATPase of five disulfide bonds and twenty free cysteine residues, most of which are masked. Complete alkylation of all of free SH groups was found possible only after preliminary digestion of the membrane-bound Na+,K(+)-ATPase. A fraction of disulfide-containing peptides involving three fragments of the alpha-subunit polypeptide chain, namely: Cys452-Lys461, Ile507-Lys519, Val545-Phe558, has been isolated from the tryptic digest alkylated with 4-vinylpyridine. Reduction of S-S bonds with beta-mercaptoethanol and alkylation of the released cysteine residues with radiolabeled iodoacetic acid indicated that three above fragments contained cysteine residues that are involved in the formation of two disulfide bonds.
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PMID:Analysis of disulfide bonds in the Na+,K(+)-ATPase alpha-subunit. 838 94

Tryptic digest of the pig kidney Na+, K(+)-ATPase was subjected to HPLC for separating water-soluble fragments. Using ammetric titration with silver nitrate, disulfide-containing peptides were identified and demonstrated to contain s-s bonds with differential sensitivity to reduction. The amino acid sequences of cystine-containing peptides were determined by chemical modification of cysteine residues during the sequence analysis. Among the cystine-containing peptides, three fragments of the alpha-subunit polypeptide chain were identified: Cys452-Lys461, Ile507-Lys519, Val545-Phe558.
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PMID:Sequence analysis of cystine-containing peptides in the Na+, K(+)-ATPase alpha subunit. 839 25

In a previous study, fluorescence labeling of a plasmalemmal ATPase protein with the 5F10 monoclonal antibody revealed prominent antigen in the cerebellar molecular layer surrounding the somata and dendrites of Purkinje cells. In the present study, this antibody labeled with silver enhanced nano-sized gold particles on semithin plastic sections revealed a clearly demarcated plasma membrane outlining the somata and entire dendritic arbors of Purkinje cells including their spines. Ultrastructural analysis of horseradish peroxidase preparations showed reaction product along the plasmalemma and extending on to the sub-plasmalemmal endoplasmic reticulum. In the granular layer, somata of granule cells were reactive, as were their dendritic extensions into glomeruli where reactive claws surrounded voids formed by mossy fiber rosettes. Somata and dendrites of cerebellar nuclear cells also had reactive zones that were limited to the plasma membrane and a narrow zone of the sub-plasmalemmal endoplasmic reticulum. Comparative labeling of this protein and P channel protein revealed similar plasmalemmal locations. This study shows that a specific calcium ATPase pump protein is located on the plasmalemma of certain types of cerebellar neurons. The ultrastructural distribution of calcium pump and P channel antibodies occurred in punctate sites along the plasma membrane of dendrites and spines of Purkinje cells. The close association between P-type calcium channels and the plasma membrane calcium pump is consistent with rapid extrusion of intracellular calcium from neurons endowed with large numbers of voltage-gated calcium channels.
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PMID:Ultrastructural localization of the plasmalemmal calcium pump in cerebellar neurons. 873 2

Structurally and functionally distinct populations of intercalated cells have been described in the collecting duct of both rat and rabbit. However, little is known about these cells in the mouse kidney. The study presented here examines ultrastructural and immunological characteristics of different types of intercalated cells in the mouse. Kidneys of two strains of normal female mice, C57BL/6 and IBR, were preserved by in vivo perfusion with 1% glutaraldehyde or paraformaldehyde-picric acid fixatives and processed for morphological evaluation or light and electron microscopic immunohistochemistry, respectively. The avidin-biotin-horseradish peroxidase procedure was performed on was sections using antibodies against carbonic anhydrase II, H+ -ATPase and Band 3 protein. Immunogold cytochemistry was performed on Lowicryl sections using antibodies to H+ -ATPase and Band 3 protein. Colocalization of H+ -ATPase and Band 3 protein was performed by double labeling using an immunogold technique with silver enhancement. Intercalated cells identified by positive staining for H+ -ATPase and carbonic anhydrase II constituted 35% to 40% of all cells in the connecting tubule (CNT), cortical collecting duct (CCD), and outer medullary collecting duct (OMCD). Type A intercalated cells identified by positive Band 3 staining constituted 16%, 24%, and 33% of the total cell population in the CNT, CCD, and OMCD, respectively. Electron microscopy and immunogold cytochemistry demonstrated three distinct populations of intercalated cells. Type A intercalated cells with apical H+ -ATPase and basolateral Band 3 immunoreactivity were present in all segments examined, and had prominent apical microprojections and characteristic tubulovesicular structures beneath the apical surface, both coated with studs on the cytoplasmic face. Type B intercalated cells with basolateral and cytoplasmic H+-ATPase and no Band 3 immunoreactivity were most frequently observed in the initial collecting tubule, but were present also in the CNT and early CCD. Type B intercalated cells had a fairly smooth apical surface, a gray zone free of organelles beneath the apical plasma membrane, and small cytoplasmic vesicles without studs throughout the cell. A third type of intercalated cell with apical and cytoplasmic H+-ATPase, but no basolateral Band 3 protein, was observed exclusively in the CNT and the initial collecting tubule. This type of cell was large, with numerous mitochondria, and vesicles coated with studs were present throughout the cell. It resembled a third type of intercalated cell described previously in the rat. It is concluded that three morphologically and immunologically distinct types of intercalated cells are present in the mouse kidney.
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PMID:Identification of distinct subpopulations of intercalated cells in the mouse collecting duct. 878 96

A protein inhibitor of erythrocyte plasma membrane Ca(2+)-ATPase was purified to homogeneity using a Ca(2+)-ATPase-Sepharose affinity column. Inhibitor isolated by anion exchange chromatography was loaded onto the affinity column in the presence of Ca2+ and the purified inhibitor was eluted with EGTA. The estimated yield was 0.1-0.2 mg protein inhibitor/1. red cells. SDS-polyacrylamide gel electrophoresis of freshly purified inhibitor revealed one single silver stained band with an apparent molecular mass of 50-51 kD.
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PMID:Purification of a protein inhibitor of erythrocyte plasma membrane Ca(2+)-ATPase by Ca(2+)-ATPase-sepharose affinity chromatography. 879 42

In the present study we compared, in vivo in rats, the hepatobiliary transport of monovalent (silver:Ag) and divalent metals (zinc:Zn; cadmium:Cd) with that of copper (Cu). Cu can have two oxidation states in vivo, i.e. Cu(I) and Cu(II). Studies were performed in normal Wistar (NW) rats and mutant GY Wistar rats. The latter express defective canalicular ATP-dependent glutathione-conjugate transport (cMOAT); reduced glutathione (GSH) is virtually absent in bile of these mutants. Cd (400 nmol/100g body wt, i.v.) was rapidly secreted into bile in NW rats concommitant with a 4-fold increase in biliary GSH secretion. In contrast, biliary Cd concentrations remained below detection limits in GY rats. Injection of Zn (1500 nmol/100g body wt) did not affect Zn secretion in GY rats and resulted only in a very small increase in NW rats (recovery < 2%). The biliary secretion pattern of Ag (800 nmol/100g body wt, i.v.) was highly similar to that of Cu (260 nmol/100g body wt). A biphasic pattern composed of a rapid and slow phase was observed in NW rats for both metals with a recovery of 48.5 +/- 10.6% and 44.9 +/- 8.4% of the dose for Ag and Cu, respectively. In GY rats, the rapid phase of both Ag and Cu secretion was absent and recoveries were 23.2 +/- 3.6% and 19.7 +/- 3.2%, respectively. When Ag and Cu were administered simultaneously, the recoveries of Ag and Cu were decreased in NW and GY rats when compared to single administration. Our data indicate that divalent and monovalent metals are secreted into bile via different transport systems in the rat. The absence of Cd and Zn secretion into bile of GY rats after their i.v. administration suggest a role of cMOAT in their biliary elimination. Cu and Ag probably share common transport systems for hepatobiliary removal, being in part dependent on the presence of either GSH in bile or cMOAT activity or on both. The GSH-independent portion of transport, i.e. the slow phase, may be mediated by the newly identified Cu transporting P-type ATPase (cCOP).
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PMID:Bile secretion of cadmium, silver, zinc and copper in the rat. Involvement of various transport systems. 884 10

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