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)

Heat shock or Sindbis virus infection of chick embryo (CE) or baby hamster kidney (BHK) cells resulted in a decrease in the uptake of 86Rubidium+, a K+ tracer. Both stressful treatments decreased 86Rb+ uptake by inhibition of the ouabain-sensitive Na+/K+ ATPase. Alterations in the intracellular levels of monovalent ions may be involved in translational or transcriptional control of the stress response. Heat shock or Sindbis virus infection also resulted in an increase in rate of uptake of [3H]deoxy-D-glucose and a decrease in the incorporation of [3H]glucosamine or [3H]mannose into most cellular proteins. These results suggested that heat shock or Sindbis virus infection alter hexose metabolism and that abnormally glycosylated proteins may accumulate in stressed cells. Exposure of uninfected chick embryo cells to elevated temperature had little effect on the overall rate of incorporation of [32P]orthophosphate into cellular proteins. However, one protein (Mr 31,000; pp31) displayed increased incorporation of [32P]orthophosphate and two other proteins (Mr 33,000 and 20,000; pp33 and pp20) displayed decreased incorporation. Sindbis virus infection failed to mimic or to modify these heat shock induced alterations in protein phosphorylation.
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PMID:Induction of the stress response: alterations in membrane-associated transport systems and protein modification in heat shocked or Sindbis virus-infected cells. 282 45

The (H+,K+)ATPase-enriched microsomal fraction prepared from hog gastric mucosa by sucrose density gradient centrifugation was effectively solubilized with Emulgen, with apparent preservation of the enzyme activity, and then the ATPase was highly purified by polyethylene glycol fractionation, and Blue Sepharose CL-6B and amino-hexyl Sepharose chromatographies. The purified enzyme showed a single band, with an apparent molecular mass of approximately 94 kDa, on SDS-PAGE, and exhibited both K+-ATPase and K+-stimulated-p-nitrophenyl phosphatase (pNPPase) activities. The optimum pH for the ATPase activity was 7.0. Amino acid analysis of the purified enzyme showed that it contains a large amount of hydrophobic amino acid (42%) and a small amount of glucosamine and galactosamine. The rabbit antibody monospecific for the ATPase, in the Ouchterlony double immunodiffusion and Western blotting tests, markedly inhibited both the K+-ATPase and K+-pNPPase activities.
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PMID:Solubilization, purification, and characterization of (H+, K+)ATPase from hog gastric microsomes. 283 Feb 46

Plasma membranes were isolated from the cultured Sertoli cells of 20-day-old rat testes by differential centrifugation and sucrose density fractionation. The distribution and purity of subcellular components was determined by marker enzyme analysis of gradient fractions. The plasma membrane fraction showed an enrichment in two plasma membrane marker enzymes, 5'-nucleotidase and ouabain-sensitive Na+/K+-ATPase-specific activities, of 9- and 23-fold, respectively. Forty-two percent and 52% of the total cellular 5'-nucleotidase and ouabain-sensitive Na+/K+-ATPase activities, respectively, were found in the membrane fraction. The protein yield of plasma membrane was approximately 6% of the total cellular protein. Two-dimensional polyacrylamide gel electrophoresis was used to compare [35S] methionine- and [3H] glucosamine-labeled membrane proteins. The incorporation of [35S] methionine and [3H] glucosamine was increased in several proteins when the cultured Sertoli cells were treated with follicle-stimulating hormone, insulin, retinol, and testosterone. Isolated Sertoli cell membranes contained a membrane-associated form of plasminogen activator. Analysis of this plasminogen activator demonstrated that the membrane-associated enzyme existed primarily as a single 38,000-40,000-Mr form.
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PMID:Isolation and characterization of Sertoli cell plasma membranes and associated plasminogen activator activity. 299 May 84

Zonal centrifugation has been used to isolate a fraction from bovine liver which appears to be derived from the Golgi apparatus. Morphologically, the fraction consists mainly of sacs and tubular elements. Spherical inclusions, probably lipoproteins, are occasionally seen in negative stains of this material. The preparation is biochemically unique. UDP-galactose:N-acetyl glucosamine, galactosyl transferase activity is concentrated about 40-fold in this fraction compared to the homogenate. Rotenone- or antimycin-insensitive DPNH- or TPNH- cytochrome c reductase activities are 60-80% of the level of activities found in microsomes. Purified organelles from bovine liver such as plasma membranes, rough microsomes, mitochondria and nuclei have negligible levels of galactosyl transferase. Some activity is present in smooth microsomes but at a level compatible with the possible presence of Golgi membranes in this fraction. The Golgi fraction does not contain appreciable amounts of enzymes such as ATPase, 5'-nucleotidase, glycosidase, glucose-6-phosphatase, acid phosphatase, or succinate-cytochrome c reductase. Similar fractions isolated from bovine epididymis also have very high levels of galactosyl transferase. The fraction is heavily osmicated when incubated for long periods of time at elevated temperatures, a characteristic property of Golgi membranes.
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PMID:Isolation and characterization of Golgi membranes from bovine liver. 424 7

The effect of L-3,5,3'-triiodothyronine (T3) (50 micrograms/100 body wt) on the incorporation of labeled glucosamine and fucose into the subunits of Na+-K+-ATPase was examined by gel electrophoresis in sodium dodecyl sulfate. T3 augmented the incorporation of glucosamine into the alpha- and beta-subunits by 51 and 58%, respectively, in the 22-h chase experiments. Similarly T3 augmented the incorporation of fucose into the alpha- and beta-subunits by 58 and 43%, respectively. Reverse T3 did not alter the incorporation of labeled fucose in either subunit. The effect of T3 on the rate constant of degradation of renal cortical Na+-K+-ATPase was assessed. The rate constant of degradation (Kd) of the [3H]fucose labeled alpha- and beta-subunits for the hypothyroid rats were both 0.20, and for T3-treated rats, the Kd of the alpha- and beta-subunits were 0.23 and 0.18, respectively, suggesting that T3 enhanced fucose incorporation into the subunits of Na+-K+-ATPase rather than retarding the degradation of this enzyme.
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PMID:Effect of thyroid hormone on carbohydrate content of Na+-K+-adenosine triphosphatase. 608 78

In order to elucidate the biochemical basis for the selective cytotoxicity of D-glucosamine to neoplastic cells, the effect of glucosamine on the growth and several functions of mastocytoma P-815 cells were examined. Incubation of mastocytoma cells with 5 mM glucosamine resulted in a marked inhibition of growth and a significant reduction of cellular uptake and oxidation of glucose and of cellular levels of adenosine triphosphatase (ATP). Glucosamine also reduced the uridine nucleotide pool sizes, and accumulated uridine diphosphate (UDP)-N-acetylglucosamine. However, growth inhibition by glucosamine, which was reversed by glucose, was not prevented by exogenous uridine. In addition, glucosamine suppressed the phosphorylation of thymidine and its incorporation into deoxyribonucleic acid (DNA). The suppression of cell division by glucosamine was accompanied by the elevation of several functions of mastocytoma cells, including the accumulation of adenosine-3', 5'-monophosphate (cAMP), histamine, and serotonin. The incorporation of [(35)S]SO(4)(2-) into acidic glycosaminoglycan was also increased. Of these functional alterations, the elevation of cAMP levels was the earliest detectable change, indicating that growth and functions of mastocytoma cells are also regulated by cAMP. However, glucosamine did not affect the adenylate cyclase activity of plasma membrane in vitro, suggesting the necessity of intact membrane structure for the action of glucosamine.
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PMID:Effect of D-glucosamine on growth and several functions of cultured mastocytoma P-815 cells. 626 62

Proteoglycan production by granulosa cells in vitro is regulated by gonadotropins. The objective of this study was to determine if FSH stimulation of proteoglycan synthesis was modulated by calmodulin or calcium. Assay for calmodulin using an ATPase assay dependent on calmodulin yielded concentrations of 7.7 microM. Bovine granulosa cells from follicles 1-9 mm diameter were incubated for 45 minutes in a chemically defined medium containing 5 microCi/ml 3H-glucosamine and various phenothiazine drugs which are inhibitors of calmodulin. In response to oFSH or rFSH at equivalent biological potencies, proteoglycan production decreased with increasing concentrations of phenothiazines from 1 to 50 microM. Addition of EGTA at 0.0, 0.5, 1.0 or 2.0 mM showed decreased proteoglycan production with increased amounts of the chelator. These data suggest that calmodulin and calcium are necessary for proteoglycan production by granulosa cells in response to FSH in vitro.
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PMID:Proteoglycan production by bovine granulosa cells in vitro is regulated by calmodulin and calcium. 645 23

Human beta-cell glucokinase recognition and phosphorylation of different sugars was investigated by steady-state kinetic analysis, measurements of substrate-induced intrinsic fluorescence changes, and molecular modeling and calculation of interaction energies. Measurements of kcat/Km showed that glucokinase phosphorylated the sugars in the order glucose = mannose > deoxyglucose > fructose = glucosamine. The mode of binding of these sugars to the open conformation of glucokinase was predicted from molecular modeling. Glucokinase is predicted to form similar interactions with the 6-OH, 4-OH, and 1-OH groups of all these sugars. The interactions of the 2-OH and 3-OH groups differ and depend on the type of sugar and reflect differences in cooperative behavior. For example, glucose and deoxyglucose exhibited cooperative behavior with Hill coefficients of 1.8 and 1.5, respectively, while mannose and fructose demonstrated Michaelis-Menten behavior. Galactose, allose, and 2,5-anhydroglucitol were not substrates under the assay conditions used, and the alpha- and beta-anomers of methylglucose were poor substrates with Km's greater than 1000 mM. Glucokinase exhibited an ATPase activity which was 1/2000th that of the rate of the kinase reaction, and unlike yeast hexokinase, it was not affected by the addition of lyxose. Glucosamine was a low affinity inhibitor as well as a substrate, while N-acetylglucosamine and mannoheptulose were high-affinity inhibitors. The change in intrinsic fluorescence that was induced by glucose, mannose, and mannoheptulose had the opposite sign for glucosamine, which implies a very different mode of binding from the other sugars. The calculated interaction energies of glucokinase with glucose, mannose, deoxyglucose, and fructose agree very well with the measured values of kcat/Km, which indicates that these sugars are recognized by binding to the open conformation of glucokinase.
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PMID:Sugar specificity of human beta-cell glucokinase: correlation of molecular models with kinetic measurements. 774 12

In root hairs of alfalfa (Medicago sativa), the requirement of Ca(2+) for Nod factor signaling has been investigated by means of ion-selective microelectrodes. Measured 50 to 100 microm behind the growing tip, 0.1 microM NodRm-IV(C16:2,S) increased the cytosolic free [Ca2+] by about 0.2 pCa, while the same concentration of chitotetraose, the nonactive glucosamine backbone, had no effect. We demonstrate that NodRm-IV(C16:2,S) still depolarized the plasma membrane at external Ca(2+) concentrations below cytosolic values if the free EGTA concentration remained low (</=0.01 mM). Externally added Sr(2+) was able to replace Ca(2+), and to some extent even enhanced the Nod-factor-induced depolarization, whereas with Mg(2+) it was decreased. This suggests that the Nod factor response is triggered by Ca(2+) from external stores. The addition of the endomembrane Ca(2+)-ATPase inhibitor 2,5-di(t-butyl)-1, 4-benzohydroquinone, which presumably mobilizes Ca(2+) from Ins(1,4, 5)P(3)-sensitive stores, mimicked the Nod factor response, i.e. increased the cytosolic free [Ca2+], triggered Cl(-)-efflux, depolarized the plasma membrane, and alkalized the root hair space. In all cases a refractory state toward Nod factor perception was produced, indicating a shortcut of Nod factor signal transduction by releasing Ca(2+) from internal stores. These latter results strongly support the idea that an elevation of cytosolic free [Ca2+] is indispensable for the transduction of the Nod factor signal, which is consistent with the role of Ca(2+) as a second messenger.
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PMID:Elevation of the cytosolic free [Ca2+] is indispensable for the transduction of the Nod factor signal in alfalfa. 1048 83

The transcription factor Sp1 was previously shown to undergo proteasome-dependent degradation when cells were glucose-starved and stimulated with the adenylate cyclase inducer, forskolin. However, the control of the Sp1 degradation process is largely unknown. Using in vitro and in vivo interaction studies, we show in the present study that Sp1 interacts with human Sug1 [hSug1, also known as p45 or thyroid-hormone-receptor interacting protein ('TRIP1')], an ATPase subunit of the 26 S proteasome and a putative transcriptional modulator. This interaction with Sp1 occurs through the C-terminus of hSug1, the region that contains the conserved ATPase domain in this protein. Both in vitro studies, in reconstituted degradation assays, and in vivo experiments, in which hSug1 is overexpressed in normal rat kidney cells, show that full-length hSug1 is able to stimulate the proteasome-dependent degradation of Sp1. However, hSug1 truncations that lack either the N- or C-terminal domain of hSug1 act as dominant negatives, inhibiting Sp1 degradation in vitro. Also, an ATPase mutant of hSug1, while still able to bind Sp1, acts as a dominant negative, blocking Sp1 degradation both in vitro and in vivo. These results demonstrate that hSug1 is involved in the degradation of Sp1 and that ATP hydrolysis by hSug1 is necessary for this process. Our findings indicate that hSug1 is an exchangeable proteasomal component that plays a critical regulatory role in the proteasome-dependent degradation of Sp1. However, hSug1 is not the factor limiting Sp1 degradation in the cells treated with glucosamine. This and other considerations suggest that hSug1 co-operation with other molecules is necessary to target Sp1 for proteasome degradation.
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PMID:Human Sug1/p45 is involved in the proteasome-dependent degradation of Sp1. 1081 20

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