Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Parvalbumin (PV) is a soluble Ca++ binding protein which is particularly concentrated in fast muscles of rodents. We have developed a new protocol to fix frozen sections of muscle by formaldehyde vapor, which enabled us to immunochemically stain serial frozen sections for PV. Fiber types were defined on the basis of myosin ATPase stability, and of isomyosins identified by a variety of antibodies because ATPase stability alone yielded ambiguous results in the mouse. Slow Type I fibers in mouse and rat were devoid of PV and had intermediate to high SDH levels. Fast fiber subtypes IIA, IIB, and IIX-like were defined in the mouse on the basis of the similarity of their myosin heavy chain immunoreactivity to these types in the rat. The soleus muscle was usually PV negative, but a small population of strongly PV-positive IIX-like fibers was present in the mouse. In mouse fast muscle, small diameter IIA fibers were PV negative with high SDH activity. In both mouse and rat, PV reactivities of IIB and IIX fibers were higher than those of IIA and I, whereas SDH levels of IIA, IIX, and I fibers were higher than those of IIB. Thus, PV content correlated with the type of myosin ATPase but not with SDH levels. The method described for immunocytochemistry of PV may be applicable to other highly soluble proteins.
...
PMID:Direct correlation of parvalbumin levels with myosin isoforms and succinate dehydrogenase activity on frozen sections of rodent muscle. 182 16

Activities of Ca2(+)-dependent ATPase, Mg2(+)-dependent ATPase, Na(+)-K(+)-dependent ATP-ase, alkaline phosphatase, and 5'-nucleotidase were demonstrated after incubation of 40-microns vibratome sections of bovine parathyroids and subsequent visualization by electron microscopy. Prior to sectioning, parathyroid tissue was fixed with 1% glutaraldehyde for localization of alkaline phosphatase, and with 2% formaldehyde and 1% glutaraldehyde for demonstration activities of ATPases and 5'-nucleotidase. The activities of the five enzymes were found at the apicolateral domain of the plasma membrane in parathyroid cells, i.e. at the site parathyroid cells face neighbouring parenchymal cells. Ca2(+)-ATPase activity was also seen on mitochondria, Golgi complex and RER. The presence of these plasma membrane associated enzymes at the apicolateral domain only indicate polarity in parathyroid cells. It further suggests that many processes including transmembrane transport take place at the apicolateral domain, the site of parathyroid cells opposing blood capillaries.
...
PMID:Parathyroid cell polarity as revealed by cytochemical localization of ATPases, alkaline phosphatase and 5'-nucleotidase. 214 38

Spectrophotometric and cytochemical methods were used to investigate the localization and/or the sensitivity of phosphatase activities in aldehyde-fixed beet leaves and membrane fractions. The nonspecific acid phosphatase substrates, p-nitrophenyl phosphate and beta-glycerol phosphate, each exhibited unique spectrophotometric patterns of hydrolysis as a function of pH. Additionally, beta-glycerol phosphatase activity was primarily present on the tonoplast, whereas p-nitrophenyl phosphatase was present on the plasma membrane. Because of the unique pH response of each enzyme and their different localization, we conclude that they cannot be entirely "nonspecific." The spectrophotometric pattern of ATP hydrolysis differed from that of p-nitrophenol phosphate in that it decreased at pH 5.0-5.5 and was greatly inhibited by 10 mM sodium fluoride; however, both activities were on the plasma membrane. Therefore, we conclude that these activities represent either two enzymes or only one enzyme that differs in its ability to hydrolyze these two substrates. Generally, enzymatically produced lead deposits on the plasma membrane of non-vascular cells were as frequent and large as those on phloem cells; frequently, deposits on sieve element plasma membranes were relatively small. We therefore conclude that there is no evidence for the presence of relatively intense ATPase activity on the plasma membrane of phloem cells in beet leaf, in contrast to other species. Studies with membrane fractions indicated that formaldehyde could completely inhibit the inhibitor-sensitive phosphatase activities in mitochondrial and vacuolar fractions while preserving significant activity in the plasma membrane fraction.
...
PMID:Spectrophotometric and cytochemical analyses of phosphatase activity in Beta vulgaris L. 241 91

The effects of the condensation product of N-methyl-p-methoxyphenethylamine with formaldehyde (compound 48/80) and ruthenium red on the partial reactions of the catalytic cycle of the sarcoplasmic reticulum Ca2+-ATPase of skeletal muscle were studied. The ATPase activity and both Ca2+ and Sr2+ uptake were inhibited by compound 48/80 when oxalate was used as a precipitating agent. The degree of inhibition decreased when oxalate was replaced by orthophosphate as the precipitating anion. Both the fast Ca2+ efflux and the synthesis of ATP observed during reversal of the Ca2+ pump were inhibited by compound 48/80. Inhibition of the reversal of the Ca2+ pump was caused by a competition between compound 48/80 and orthophosphate for the phosphorylation site of the enzyme. The fast Ca2+ release promoted by arsenate was impaired by compound 48/80. Ruthenium red competes with Ca2+ for the high affinity binding site of the Ca2+-ATPase, but did not interfere with the binding of Ca2+ to the low affinity binding site of the enzyme. In presence of Ca2+ concentrations higher than 5 microM, ruthenium red in concentrations up to 200 microM had no effect on both ATPase activity and Ca2+ uptake. However, the fast Ca2+ efflux promoted by arsenate and the fast Ca2+ efflux coupled with the synthesis of ATP observed during the reversal of the Ca2+ pump were inhibited by ruthenium red, half-maximal inhibition being attained in presence of 10-20 microM ruthenium red. In contrast to the effect of compound 48/80, ruthenium red did not inhibit the phosphorylation of the enzyme by orthophosphate. The ATP in equilibrium with Pi exchange catalyzed by the Ca2+-ATPase in the absence of transmembrane Ca2+ gradient was also inhibited by ruthenium red.
...
PMID:Effect of compound 48/80 and ruthenium red on the Ca2+-ATPase of sarcoplasmic reticulum. 243 Sep 71

To study the topology of Na+,K+-ATPase monoclonal antibodies (MAbs) specific for membrane-bound enzyme were produced. Using immunofluorescence staining of viable cells or smears of a pig kidney embryonic (PKE) cell line, two groups of MAbs were selected, namely those binding to extra- or intracellular portions of the alpha-subunit. The extracellular location of peptide loop 804-841 linking the Vth and VIth intramembrane hydrophobic segments was proved using MAb VG2. Another MAb, IIC9, interacting with PKE cells only after membrane perforation (4% formaldehyde and 0.1% Tween-20), was shown to bind to the hydrophilic loop 868-945. The antigenic determinants recognized by MAb IIC9 and VG2 are located in peptides 887-904 and 810-825, respectively. The C-terminus of the alpha-subunit molecule was positioned on the outer side of the cytoplasmic membrane utilizing affinity-purified antibodies to the synthetic peptide corresponding to fragment 999-1008.
...
PMID:Topology of Na+,K+-ATPase. Identification of the extra- and intracellular hydrophilic loops of the catalytic subunit by specific antibodies. 244 69

We describe a technique for analysis by light microscopic immunocytochemistry of the distribution of plasmalemmal proteins in polarized epithelial cells. For this purpose, Madin Darby Canine Kidney (MDCK) cells were grown to confluency on Cytodex beads, the beads were fixed with formaldehyde, and semi-thin (0.5 micron) sections were cut at liquid nitrogen temperature on an ultracryomicrotome. The distribution of the basolaterally distributed plasmalemmal protein, Na,K-ATPase, was assessed by indirect immunofluorescence using a monospecific polyclonal antibody directed against the alpha-subunit of the Na pump. Such preparations enable epithelial monolayers to be evaluated in cross-section, thus permitting unambiguous topological assessment of apical and basolateral membrane proteins. Thus, the spatial uncertainties encountered in en face examination of membrane protein distribution in epithelia grown on solid supports are largely obviated. In addition, we describe a technique for removal of the bead matrix, which markedly reduces nonspecific background staining and improves access of reagents to the basal cell surface, thus permitting localization of basal lamina components.
...
PMID:Immunocytochemical localization of plasmalemmal proteins in semi-thin sections of epithelial monolayers. 244 92

Canine renal Na,K-ATPase was treated with ATP dialdehyde, "oxATP" (20 microM), as described by G. Ponzio, B. Rossi, and M. Lazdunski (1983, J. Biol. Chem. 258, 8201-8205). In this system, a by-product, formaldehyde, was the inactivator. We modified the system to minimize such inhibition and to speed up the reaction. oxATP itself inactivated the enzyme at a rate that was slow at first and later speeded up. We fitted a precursor-product model to the data. Labeling with [3H]oxATP indicated about three sites per alpha beta protomer at complete inactivation. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the labeled enzyme showed radioactivity in many components, in the alpha and beta subunits and in small molecules at the tracker dye region. ATP (20 mM) prevented all labeling and inactivation. Ponzio et al. concluded that oxATP labels covalently an ATP binding site. Our experiments did not support this conclusion. Ouabain did not affect labeling. Sodium stimulated both inhibition and labeling more than potassium did, indicating a high-affinity ATP binding site, if any. But nucleotide specificity for preventing or producing inhibition did not correspond to nucleotide specificity for binding of ATP to the native enzyme. Blocking the ATP binding center with fluorescein isothiocyanate or fluorosulfonyl benzoyl adenosine had no effect on [3H]oxATP labeling. ATP also prevented [3H]oxATP labeling of bovine serum albumin or of integral-membrane proteins.
...
PMID:Inhibition and labeling of sodium, potassium ATPase by the dialdehyde derivative of ATP. 253 59

The effects of aliphatic hydrocarbons within the liposomes on the Ca2+ transport function of isolated sarcoplasmic reticulum (SR) membranes of rabbit skeletal muscle, vesiculate preparation of Ca2+ dependent ATPase and proteoliposomes reconstituted from Ca2+-ATPase and egg phosphatidylcholine, were studied. It was shown that liposomes prepared from dipalmitoyl phosphatidylcholine containing aliphatic hydrocarbons increase 2 to 3 times Ca2+ accumulation by Ca2+-dependent ATPase from rabbit skeletal muscle SR. Ca2+ transport by SR vesicles increases in the presence of hydrocarbons by 15--20%. The activating effect of hydrocarbons on Ca2+ transport by proteoliposomes depends on the lipid/protein ratio. The proteoliposomes with a high lipid/protein ratio are practically insensitive to the effects of hydrocarbons. It was suggested that activation of Ca2+ transport by hydrocarbons is due to blocking of Ca2+ leakage channels formed during the aggregation of Ca2+-ATPase molecules. Treatment of membranes by formaldehyde results in the oligomerization of Ca2+-ATPase and decreases 2--4-fold the ATP-dependent accumulation of Ca2+. Subsequent addition of decane restores Ca2+ transport practically completely.
...
PMID:[The blocking effect of aliphatic hydrocarbons on Ca2+ leakage channels formed by aggregates of Ca2+-ATPase of the sarcoplasmic reticulum]. 255 87

To define the role of calmodulin in Ca2+ fluxes behavior of canine masseter muscle sarcoplasmic reticulum (SR) vesicles, the effect of condensation product of N-methyl-p-methoxy-phenethylamine with formaldehyde (compound 48/80), a selective and powerful inhibitor of calmodulin-regulated function, on Ca(2+)-ATPase activity, oxalate-supported Ca2+ uptake velocity, and on interaction with Ca2+ permeability and Ca2+ loading at steady-state were evaluated. Compound 48/80, at concentrations of 10 to 100 micrograms/ml, reduced oxalate-supported Ca2+ uptake velocity without affecting Ca(2+)-ATPase activity. In the presence of 10 micrograms/ml compound 48/80, there was a shift of pH- or temperature-response curve of oxalate-supported Ca2+ uptake velocity, but not of Ca(2+)-ATPase activity, down. It was found that Arrhenius plots of the Ca(2+)-ATPase activity show a break at about 21 degrees C in the presence or absence of 10 micrograms/ml compound 48/80, and that compound 48/80 has no effect on Arrhenius plots of the oxalate-supported Ca2+ uptake velocity. Furthermore, Ca2+ loading at steady-state, but not passive Ca2+ permeability, was decreased by compound 48/80 at low concentrations (1-2 micrograms/ml). The results of this study suggest that calmodulin-dependent process plays a functional role in the coupling of ATP hydrolysis and Ca2+ accumulation, perhaps through regulation of Ca2+ release channels in masseter muscle SR membrane. Calmodulin-dependent component of Ca2+ fluxes in the SR vesicles may be directly modified by compound 48/80, thereby diminishing Ca2+ accumulation without affecting the Ca2+ uptake mechanism.
...
PMID:[Effect of compound 48/80 on masseter muscle sarcoplasmic reticulum calcium transport system]. 256 76

The enamel organ of growing rat incisors was perfusion-fixed with a mixture of formaldehyde and glutaraldehyde and processed for ultracytochemical demonstration of ouabain-resistant, K+-stimulated p-nitrophenylphosphatase representing the second dephosphorylative step of H-K-ATPase by use of the one-step lead method. Throughout the stages of amelogenesis, the enzymatic activity was found in the plasma membranes, mitochondrial membranes, and lysosomal structures of the cells of stratum intermedium, papillary layer, and ameloblast layer. Gap junctions and desmosomes between these cells were, however, free of reaction product or showed slight precipitates of reaction. The stellate reticulum and the outer enamel epithelium at the stage of enamel secretion were usually negative for reaction. Although secretory, transition, and ruffle-ended maturation ameloblasts showed enzymatic activity at their basolateral cell surfaces, their distal cell surfaces facing the enamel were always free of reaction product. On the other hand, the smooth-ended maturation ameloblasts seldom showed a positive reaction, except in lysosomes and along their basal cell surfaces. An energy-dispersive X-ray microanalysis of reaction products of H-K-ATPase in unosmicated tissue sections demonstrated that they were composed of lead and phosphorus, which had been released during the dephosphorylation of substrate. In cytochemical controls, the enzymatic activity was completely dependent on substrate and potassium ion, resistant to ouabain and levamisole, and inhibited by nolinium bromide, a specific inhibitor of H-K-ATPase. In addition, inorganic trimetaphosphatase as enzymatic marker of lysosome was localized in dark and pale lysosomes, phagosomes, multivesicular bodies, and ferritin-containing vesicles of the ameloblasts and the cells of stratum intermedium and papillary layer. These membrane-bound structures were also positive for H-K-ATPase reaction. These results suggest that: 1) H-K-ATPase functions to maintain an acidic internal pH of lysosomes in the enamel organ cells; and 2) H-K-ATPase localization in the plasma membranes of enamel organ cells is concerned with efflux of protons derived from cytoplasmic water.
...
PMID:H+-K+-ATPase activity in the rat incisor enamel organ during enamel formation. 284 91


<< Previous 1 2 3 4 5 6 Next >>

---