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)

Partially purified (Na+,K+)-ATPase (E.C. 3.6.1.3.) was investigated in the epileptic cortex of audiogenic DBA/2 mice and in the primary and secondary foci of cats with acute or chronic freeze lesions. No differences in specific activities measured at 3 mM K+ were observed between epileptic and control cortex, except an increase of enzymic activities in the primary focus of acutely lesioned cats. The (Na+,K+)-ATPase catalytic subunits were resolved by SDS-gel electrophoresis and their phosphorylation levels were measured in presence of K+ ions and phenytoin. K+ was more effective in inducing maximal dephosphorylation of (Na+,K+)-ATPase in C57/BL, with identical affinity in the two strains. Phenytoin decreased the net phosphorylation level of (Na+,K+)-ATPase by about 50% in C57/BL mice, but only by 20% in DBA/2 mice. Both K+ and phenytoin dephosphorylating influences were decreased in primary and secondary foci of acutely lesioned cats. Those changes were limited to the alpha(-) subunit. In chronic cats, the dephosphorylating step of the (Na+,K+)-ATPase catalytic subunit recovered a normal affinity to K+, but its sensitivity to phenytoin remained decreased. Those differences in K+ and phenytoin influences on brain (Na+,K+)-ATPases between control and epileptic cortex might be responsible for the ictal transformation and seizure spread. In cats, the alteration of the alpha(-) isoform could mainly affect the glial cells.
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PMID:Phosphorylation of brain (Na+,K+)-ATPase alpha catalytic subunits in normal and epileptic cerebral cortex: I. The audiogenic mice and the cat with a freeze lesion. 165 58

We examined the activity and phosphorylation level of (Na+,K+)-ATPase (E.C. 3.6.1.3) partially purified from normal and epileptic human cortices. Control patients (n = 11) were operated on for a non-epileptogenic deep brain lesion, while epileptic patients (n = 10) were operated on for temporal or frontal originating partial seizures, resistant to medications or secondary to evolutive brain tumors. No differences in the specific activity of microsomal (Na+,K+)-ATPase were observed between the two groups of patients. After partial purification of the enzyme followed by SDS-polyacrylamide gel electrophoresis, (Na+,K+)-ATPase catalytic subunit had a decreased affinity for K+ in human epileptic cortex and lost its sensitivity to phenytoin dephosphorylation. Indirect evidence suggests that those abnormalities of (Na+,K+)-ATPase in human epileptic cortex hold preferentially true for the alpha(-) enzymatic subunit. Those results indicate that, in human epileptic cortex, (Na+,K+)-ATPase and most probably its glial subtype is altered in its K+ regulation and phenytoin sensitivity and could be responsible for ictal transformation and seizure spread.
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PMID:Phosphorylation of brain (Na+,K+)-ATPase alpha catalytic subunits in normal and epileptic cerebral cortex: II. Partial seizures in human epilepsy. 165 59

The Mg(2+)-ATPase present in rabbit skeletal-muscle transverse tubules is an integral membrane enzyme which has been solubilized and purified previously in this laboratory [Kirley (1988) J. Biol. Chem. 263, 12682-12689]. The present study indicates that, in addition to the approx. 100 kDa protein (distinct from the sarcoplasmic-reticulum Ca(2+)-ATPase) seen previously to co-purify with the Mg(2+)-ATPase activity, there are also proteins having molecular masses of 160, 70 and 43 kDa. The 70 and 43 kDa glycosylated proteins (50 and 31 kDa after deglycosylation) are difficult to detect by SDS/PAGE before deglycosylation, owing to the broadness of the bands. Additional purification procedures, cross-linking studies and chemical and enzymic deglycosylation studies were undertaken to determine the structure and relationship of these proteins. Both the 97 and 160 kDa proteins were demonstrated to be N-glycosylated at multiple sites, the 97 kDa protein being reduced to a peptide core of 84 kDa and the 160 kDa protein to a peptide core of 131 kDa after deglycosylation. Although the Mg(2+)-ATPase activity is resistant to a number of chemical modification reagents, cross-linking inactivates the enzyme at low concentrations. This inactivation is accompanied by cross-linking of two 97 kDa molecules to one another, suggesting that the 97 kDa protein is involved in ATP hydrolysis. The existence of several proteins along with the inhibition of ATPase activity by cross-linking is consistent with the interpretation of the susceptibility of this enzyme to inactivation by most detergents as being due to the disruption of a protein complex of associated subunits by the inactivating detergents. The 160 kDa glycoprotein can be partially resolved from the Mg(2+)-ATPase activity, and is identified by its N-terminal amino acid sequence as angiotensin-converting enzyme.
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PMID:The Mg(2+)-ATPase of rabbit skeletal-muscle transverse tubule is a highly glycosylated multiple-subunit enzyme. 165 80

Yeast transformants harboring the CBS1 gene under the control of the strong ADC1 promoter on a high copy number plasmid express the mitochondrial CBS1 protein at artificially high levels. Over-expressed protein is imported into mitochondria and correctly processed to yield the mature mitochondrial 23.5 kDa form, but differs in its solubility properties from CBS1 in wild-type mitochondria. It forms insoluble protein aggregates, which are refractory to solubilization with 1% Taurodeoxycholate. We exploited this observation to separate CBS1 from the bulk of mitochondrial proteins and to isolate CBS1 after SDS gel electrophoresis. Determination of the amino-terminal amino acids of the purified protein reveals that the mature CBS1 protein starts with Ile30, at the characteristic distance of +2 amino acids from an arginine residue (Arg28). The cleavage site shows a remarkable homology to that of subunit 9 of the F0F1 ATPase from Neurospora crassa.
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PMID:Over-expression, purification and determination of the proteolytic processing site of the yeast mitochondrial CBS1 protein. 165 14

Organotin compounds have been shown to interfere with cardiovascular system. We have studied the in vitro and in vivo effects of tributyltin bromide (TBT), triethyltin bromide (TET) and trimethyltin chloride (TMT) on the cardiac SR Ca2+ pump, as well as on protein phosphorylation of SR proteins, in order to understand the relative potency of these tin compounds. All the three tin compounds inhibited cardiac SR 45Ca uptake and Ca(2+)-ATPase in vitro in a concentration-dependent manner. The order of potency for Ca(2+)-ATPase as determined by IC50, is TBT (2 microM) greater than TET (63 microM) greater than TMT (280 microM). For 45Ca uptake, it followed the same order i.e., TBT (0.35 microM) greater than TET (10 microM) greater than TMT (440 microM). In agreement with the in vitro results, both SR Ca(2+)-ATPase and 45Ca uptake were significantly inhibited in rats treated with these tin compounds, indicating that these tin compounds inhibit cardiac SR Ca2+ transport. cAMP significantly elevated (70-80%) the 32P-binding to SR proteins in vitro in the absence of any organotin. In the presence of organotins, cAMP-stimulated 32P-binding to proteins was significantly reduced, but the decrease was concentration dependent only at lower concentrations. The order of potency is TBT greater than TET greater than TMT. In agreement with in vitro studies, cAMP-dependent 32P bound to proteins was significantly reduced in rats treated with TBT, TET and TMT. SDS-polyacrylamide gel electrophoresis of the cardiac SR revealed at least 30 Coomassie blue stainable bands ranging from 9 to 120 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of Ca2+ transport associated with cAMP-dependent protein phosphorylation in rat cardiac sarcoplasmic reticulum by triorganotins. 165 51

Three isoforms of the alpha subunit of Na,K-ATPase, alpha 1, alpha 2, and alpha 3 have been characterized at the DNA, mRNA and protein levels. In admixtures, isoforms migrate as doublets (i.e. alpha 1 and another band originally designated alpha +, comprising alpha 2 + alpha 3) when analyzed by SDS-PAGE. As deduced from cDNA sequences their masses range from 111.7 to 112.6 kDa. With conventional protein standards, however, SDS-PAGE yields nominal masses of 85-105 kDa. In this system, the presence of a doublet that reacted with a polyclonal anti-Na,K-ATPase antibody in the kidney was interpreted as indicating two molecular or conformational species of the kidney alpha sub-unit (Siegel, G.J. and Desmond, T.J. (1989) J. Biol. Chem. 264, 4751-4754). We report that Na,K-ATPase purified from dog, guinea pig and rat kidney medulla or from rat brain, can yield two distinct bands when analyzed by SDS-PAGE or STS-PAGE, migrating between 85 and 105 kDa. An additional band migrating at 117 and 120 kDa appears often in enzyme purified from rat and guinea pig kidney medulla. The apparent molecular weights and relative intensities of these bands vary with temperature and duration of incubation during sample preparation. N-terminal sequencing and monospecific antibody probes revealed that the two distinct bands obtained from the kidney enzyme consist only of the alpha 1 isoform. The band appearing at 117-120 kDa also contains only the alpha 1 N-terminal sequence. In contrast, as reported earlier (Sweadner, K.J. (1979) J. Biol. Chem. 254, 6060-6067), the doublet seen in brain preparations consists of alpha 1 and alpha 2 or (alpha 2 + alpha 3). We conclude that monospecific antibody probes or N-terminal sequencing must be used to identify Na,K-ATPase isoforms by SDS- or STS-PAGE. In addition, gel conditions that may affect the mobilities of the isoforms are discussed.
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PMID:Anomalous mobilities of Na,K-ATPase alpha subunit isoforms in SDS-PAGE: identification by N-terminal sequencing. 166 Nov 52

Na+/K(+)-ATPase was evaluated in the retina and kidney of the spontaneously diabetic BB/Wor rat after 1 and 4 months of insulin dependency. Retinal synthesis of the Na+/K(+)-ATPase was measured during a 2-h intravitreal pulse of [35S]methionine and analyzed by SDS-PAGE and scintillation counting. Synthesis of the alpha-1 and 'alpha(+)' (includes both alpha-2 and alpha-3) isoforms of the catalytic subunit was increased 123% and 69%, respectively at 4 months. Increases were also suggested at 1 month, but were not significant. The diabetes-dependent peak of synthesis in long-term diabetic rats turned over rapidly and by 3 days after intravitreal labeling, radioactively labeled enzyme was equal in both control and diabetic retinae. The amount of axonally transported, labeled enzyme recovered from endings of the optic nerve in the superior colliculus paralleled retinal labeling. Significant renal hypertrophy (48%) was noted at 4 months, but not at 1 month. The strophanthidin-inhibition constant for diabetes-induced renal enzyme was the same as for control enzyme (approx. 10(-4) M), indicating that diabetic renal hypertrophy does not induce a Na pump isozyme that is more sensitive to cardiotonic steroids. SDS-PAGE of the renal enzyme also failed to indicate more than one isoform of the alpha subunit.
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PMID:Molecular isoforms of Na+/K(+)-ATPase in the nervous system and kidney of the spontaneously diabetic BB/Wor rat. 166 41

1. This experiment was designed to study the effects of fasting and enforced exercise on the physiological, biochemical and physical characteristics of duck muscle. 2. Sixty 75-d-old male ducks weighing 3.0 +/- 0.2 kg were assigned to three treatments: a control, and an 8 and 24 h fast plus enforced exercise for 10 min. The ducks were then sacrificed and the carcass stored at 4 degrees C for 24 h. 3. Although the pH and serum lactate contents gradually increased with fasting time the responses were not significant. The ultimate pH was elevated and the lactate of breast and thigh muscles was lower in stressed birds. 4. The activity of lactic dehydrogenase was significantly increased by the stress, and the activities of creatine phosphokinase and alkaline phosphatase were also increased slightly. However, no effect was found on the ATPase activity of the myofibrillar protein of either breast or thigh muscle as a result of the stress. The ATPase activity of myofibrillar protein of breast muscle significantly increased with storage time. 5. The extractability of myofibrillar protein increased with storage time for all treatments. The SDS-PAGE patterns of myofibrillar proteins were also studied. 6. Consequently DFD-like muscle was observed in the breast and thigh muscles of ducks which had been stressed.
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PMID:Effect of stresses before slaughter on changes to the physiological, biochemical and physical characteristics of duck muscle. 166 82

The Ca2(+)-ATPase from rat liver microsomes has been solubilized in Triton X-100 and purified to homogeneity by ficoll-sucrose treatment, column chromatography with agarose-hexane adenosine 5'-triphosphate Type 2, and high pressure liquid chromatography (HPLC). The purified enzyme obtained by this sequential procedure exhibited a 183-fold increase in specific activity. After ficoll-sucrose treatment, the activity of the Ca2(+)-ATPase was stable for at least two weeks when stored at -70 degrees C. In SDS-polyacrylamide gels, several fractions from HPLC chromatography showed a single band at a position corresponding to a molecular weight of about 107 kDa. This value is consistent with the molecular weight of the phosphoenzyme intermediate of endoplasmic reticulum (ER) Ca2(+)-ATPase. Further characterization of the ER Ca2(+)-ATPase was performed by western immunoblots. Antiserum raised against the 100-kDa sarcoplasmic reticulum (SR) Ca2(+)-ATPase cross-reacted with the purified Ca2(+)-ATPase from rat liver ER membranes.
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PMID:Purification of the microsomal Ca2(+)-ATPase from rat liver. 170 38

Right-side-out vesicles of pig kidney microsomes and amino-acid-sequence-specific antibodies were used to probe the sidedness of the C-terminus and the N-terminus of the catalytic alpha subunit of Na+/K(+)-ATPase. Polyclonal antibodies were raised in rabbits against the peptide corresponding to the N-terminal sequence GRDKYEPAAVSE (peptide 1-12) and against peptides corresponding to the C-terminal sequences IFVYDEVRKLIIRRR (peptide 991-1005) and RPGGWVEKETYY (peptide 1005-1016). These antibodies were purified by affinity chromatography on the respective peptide-Sepharose columns. Moreover, antibodies against the N-terminal dodecapeptide GRDKYEPAAVSE were obtained by affinity purification from heteroclonal antibodies against the alpha subunit of pork kidney Na+/K(+)-ATPase. These antibodies reacted with native as well as SDS-denaturated Na+/K(+)-ATPase. When the antibodies were used to probe the sidedness of the sequences in right-side-out vesicles of pig kidney microsomes, the N-terminal peptide 1-12 as well as the C-terminal peptides 991-1005 and 1005-1016 were found on the cytosolic side. Concanavalin A, however, which interacts with the beta subunit, a glycoprotein, reacted with the outside of right-side-out vesicles.
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PMID:Epitope mapping by amino-acid-sequence-specific antibodies reveals that both ends of the alpha subunit of Na+/K(+)-ATPase are located on the cytoplasmic side of the membrane. 171 97

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