Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The apical and basal-lateral plasma membranes of toad bladder epithelium were radio-iodinated with the glucose-glucose oxidase-lactoperoxidase system. The covalently bound radio iodine was used as a marker during subcellular fractionation and membrane isolation. Homogenization conditions that ensured rupture of more than 80% of the cells without substantial nuclear damage were defined by Normarski optics. The nuclei were separated by differential centrifugation and the apical and basal-lateral components were resolved by differential and sucrose density gradient centrifugation. The apical components yielded two radioactive bands that were identified as glycocalyx and plasma membrane labeled with 125I. The basal-lateral components yielded a hetero-disperse pattern made up of at least 3 radioactive bands, but the bulk of the activity of ouabain-sensitive ATPase comigrated with only one of these bands. The mitochondia, identified by assays for cytochrome oxidase and NADH cytochrome c reductase activities, were separated from the radio-iodine labeled by centrifugation in sucrose density gradients under isokinetic conditions. The labeled glycocalyx and the slowly migrating components of basal-lateral labeling were separated from the radio-iodinated membranes by centrifugation at 100,000 x g x 1 hr after removal of the mitochrondria by the isokinetic method. The labeled membranes were then subjected to ultracentrifugation in sucrose density gradients under isopycnic conditions; the basal-lateral membranes containing ouabain-sensitive ATP-ase were well resolved from the apical membranes by this method. These results provide a relatively rapid method of attaining partial purification of the apical and basal-lateral plasma membranes of toad bladder epithelium.
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PMID:Isolation of radio-iodinated apical and basal-lateral plasma membranes of toad bladder epithelium. 22 11

The outer tegument membranes of Schistosoma mansoni schistosomula have been removed by mechanical disruption in a hypotonic salt solution and partially purified by differential and sucrose density gradient centrifugation. Fractionation was monitored by measuring increase in specific activity of bound [125I]wheat-germ agglutinin (WGA), alkaline phosphatase and calcium-stimulated ATPase. Two-dimensional IEF/SDS polyacrylamide gel electrophoresis was used to analyse the peptide composition of the isolated membranes and to compare and contrast with lactoperoxidase/glucose oxidase surface labelled peptides. At least 35 surface-labelled peptides were resolved on the two-dimensional maps: all were also present in the membrane material recovered from the sucrose gradient. Western blot analysis demonstrated a marked heterogeneity in the antibody response of infected human patients to individual membrane antigens. The antigenic profile of membranes isolated from cercariae, 18 and 96 h schistosomula were compared using Western blots: some minor differences were observed between the three preparations.
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PMID:Isolation and antigen analysis of surface tegument membranes from schistosomula of Schistosoma mansoni. 624 13

Based on a glucose oxidase sensor for determination of glucose several glucoseoxidase bioenzyme electrodes have been developed. Enzymes producing glucose by hydrolysis of saccharides (glucamylase, invertase, cellulase) as well as glucose consuming systems (hexo-kinase, glucose dehydrogenase) have been coupled to glucose oxidase. The function of the bienzyme systems was demonstrated by concentration measurements (blood glucose, maltose, ATP, NAD+, starch) and enzyme activity measurements (alpha-amylase, ATPase, lactate dehydrogenase).
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PMID:Glucose oxidase bienzyme electrodes for ATP, NAD+, starch and disaccharides. 677 73

Hyphal cells of three fungal species of the genus Penicillium reduced the nonpermeable, external electron acceptor hexabromoiridate IV (HBI IV). In Penicillium cyclopium, the rate of HBI IV reduction by hyphal cells was drastically increased by the addition of beta-glucose. The stimulation showed high specificity for this sugar and did not require its uptake and cellular metabolism. Cell wall oxidases (e.g., glucose oxidase) did not seem to be involved in the reduction of HBI IV, as no measurable H2O2 was formed from added glucose and removal of oxygen had no effect. We propose that there is a glucose-binding component outside the plasma membrane which controls transmembrane electron fluxes in response to external glucose. Reduction of HBI IV was accompanied by rapid acidification of the cellular interior (measured by confocal pH topography). Subsequently, the outer medium was acidified of the cellular interior (measured by confocal pH topography). Subsequently, the outer medium was acidified with an e-/H+ stoichiometry of > 1. In plasma membrane vesicles containing endogenous electron donors, the membrane-residing fluoroprobe Di-8-ANEPPS reported a transient depolarization of the membrane potential triggered by the external electron acceptor. Inhibitors of ATP-dependent proton pumping enhanced the extent of this depolarization, inhibited the subsequent normalization of membrane potential, and, in whole cells, reduced the amount of redox-triggered proton extrusion. From these and other findings, it is concluded that the observed trans-plasma membrane redox process activates the H(+)-ATPase via membrane depolarization and cytosolic acidification.
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PMID:A glucose-activated electron transfer system in the plasma membrane stimulates the H(+)-ATPase in Penicillium cyclopium. 807 Dec 21

Myoglobin (Mb), the muscular oxygen reservoir, was shown to possess peroxidative reactivity in presence of H2O2 leading to oxidation of isolated cellular proteins like myosin. The objective of this study was to investigate the peroxidative effect of Mb/H2O2 on proteins in intact myofibrils (MF). Incubation of chicken leg MF in isotonic, pH 7.3 buffer at 37 degrees C in the presence of Mb (30 microM) and H2O2 (200 microM), resulted in aggregation of MF material as inspected under light microscope. SDS-PAGE analysis revealed presence of high molecular weight aggregates at the expense of myosin heavy chains, but not actin. This crosslinking was unaffected by S-S reducing agents. Continuous low flow (0.03-3.00 microM/minute), produced by glucose oxidase and glucose, was more active than bolus H2O2 addition in myosin crosslinking in MF material. Hemin which may be released from Mb under oxidative stress, was more active than Mb as a trigger of MF peroxidative aggregation. Calcium-ATPase activity of crosslinked MF was considerably lost. These findings suggest that Mb/H2O2 may lead to oxidation of neighbouring muscular protein thereby jeopardize their functioning thus explaining muscular malfunction under oxidative stress.
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PMID:Involvement of the oxygen storage protein myoglobin in muscle damage under oxidative stress. 988 95

The methylotrophic yeast H. polymorpha is a popular system for the expression of recombinant proteins using the strong and regulatable methanol oxidase (MOX) promoter. Here we show that the constitutive PMA1 promoter can programme the expression of two heterologous proteins, glucose oxidase and human serum albumin. A constitutive promoter provides a useful additional facility to the H. polymorpha expression system because it allows a simplified fermentation regime, avoids the use of methanol, which is both toxic and an explosive hazard, and allows more flexibility for ectopic gene expression during the course of academic studies. A fragment previously isolated in a promoter screen, using glucose oxidase (GOD) as a reporter gene, was shown to consist of the promoter region and the first 659 bp of the H. polymorpha PMA1 gene, encoding the plasma membrane H(+)-ATPase. When the PMA1 promoter was optimally aligned with the GOD coding region, it produced 185 mg/l glucose oxidase in high cell density fed batch fermentations, whereas in previous experiments using the MOX promoter, a yield of 500 mg/l was recovered. The PMA1 promoter was also used to express recombinant human serum albumin (rHA) in H. polymorpha. In high cell density fermentations the PMA1 promoter produced 460 mg/l rHA, whereas 280 mg/l rHA was obtained using the MOX promoter. Taken together, these experiments show that the HpPMA1 programmes the constitutive expression of recombinant proteins and provides a yield comparable to that from the MOX promoter.
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PMID:Constitutive expression of recombinant proteins in the methylotrophic yeast Hansenula polymorpha using the PMA1 promoter. 1099 83

The gene encoding glucose oxidase (GOD) from Aspergillus niger was expressed as a secretory product in the yeast Saccharomyces cerevisiae. Six consecutive histidine residues were fused to the C-terminus of GOD to facilitate purification. The recombinant GOD-His(6) secreted by S. cerevisiae migrated as a broad diffuse band on SDS-PAGE, with an apparent molecular weight higher than that in natural A. niger GOD. To investigate the effects of hyperglycosylation on the secretion efficiency and enzyme properties, GOD-His(6) was expressed and secreted in a S. cerevisiae mutant in which the PMR1 gene encoding Ca(++)-ATPase was disrupted. The pmr1 null mutant strain secreted an amount of GOD-His(6) per unit cell mass higher than that in the wild-type strain. In contrast to the hyperglycosylated GOD-His(6) secreted in the wild-type strain, the pmr1 mutant strain secreted GOD-His(6) in a homogeneous form with a protein band pattern similar to that in natural A. niger GOD, based on SDS-PAGE. The hyperglycosylated and pmr1Delta mutant-derived GOD-His(6) enzymes were purified to homogeneity by immobilized metal ion-affinity chromatography and their specific activities and stabilities were compared. The specific activity of the pmr1Delta mutant-derived GOD-His(6) on a protein basis was very similar to that of the hyperglycosylated GOD-His(6), although its pH and thermal stabilities were lower than those of the hyperglycosylated GOD-His(6).
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PMID:Secretory expression and purification of Aspergillus niger glucose oxidase in Saccharomyces cerevisiae mutant deficient in PMR1 gene. 1218 30

Cerebral metabolism of glucose, one of the determinants of tissue ATP level, is crucial for central nervous system function. The activity of P-type pumps, namely Na(+), K(+) - ATPase, Ca(+2) - ATPase and Mg (+2) - ATPase were examined in brain synaptosomes of 5 - day, 3 - month and 18 - month - old rats to determine if changes in enzyme activity related to aging are potentially associated with alterations in glucose homeostasis. Activities of all the ATPases studied in isolated brain synaptosomes were expressed in micromol of Pi liberated from ATP by 1 mg of synaptosome protein during one hour. Serum glucose concentration was measured by the glucose oxidase method and insulin level was estimated by the RIA. Our results demonstrate that 18 - month - old rats are characterized by hyperglycemia and hyperinsulinemia. Their serum glucose concentration was significantly increased approx. 62.3% and 135.8 % as compared to 3 - month - old rats and 5 - day, newborn rats, respectively. An enormous increase in serum insulin concentration in the old, hyperglycemic rats was observed concomitantly. As a result of these changes the insulin - to - glucose ratio in the old rats was greatly increased approx. (270% and 230%) compared to young, mature and newborn rats. Hyperglycemia and hyperinsulinemia occurring in the old rats, had a different impact on activities of the ATPases tested. Our results have revealed that Na(+), K(+) - ATPase activity remains almost unchanged with age, the activity of Ca(+2) - ATPase decreases, whereas that of Mg(+2) - ATPase increases significantly in old, insulin resistant rats. In conclusion it seems that changes in activity of different P - type pumps may differ with aging and that adaptation of specific ATPases to internal environment alterations is not identical.
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PMID:Age-related changes of NA(+), K(+) - ATPase, Ca(+2) - ATPase and Mg(+2) - ATPase activities in rat brain synaptosomes. 1521 65

The mechanism of charge propagation in "ion channel sensors" (ICSs) consisting of gold electrodes modified with a layer of charged proteins and highly charged redox-active marker ions in solution was investigated by electrochemical techniques, QCM and AFM. The study is based on seven proteins (concanavalin A, cytochrome c, glucose oxidase, lysozyme, thyroglobulin, catalase, aldolase, and EF1-ATPase) in combination with seven electroactive marker ions ([Fe(CN)6]3-, [Fe(CN)6]4-, [Ru(NH3)6]3+, mono-, di-, and trimeric viologens), as well as a series of suppressor and enhancer ions leading to the following general statements: (i) electrostatic binding of charged marker ions to the domains of the protein is a prerequisite for an electrochemical current and (ii) charge propagation through the layer consists of electron hopping along surface-confined marker ions into the pores between adsorbed proteins. It is further shown that (iii) marker ions and suppressor ions with identical charge compete for oppositely charged sites on the protein domain, (iv) electrostatically bound multilayers of marker or enhancer ions with alternating charge form on a charged protein domain, and (v) self-exchange and exergonic ET catalysis between adsorbed marker ions and marker ions in solution take place. In addition to fundamental insight into the mechanism of charge propagation, valuable information for the design, optimization, and tailoring of new biosensors based on the ICS concept is demonstrated by the current findings.
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PMID:Charge propagation in "ion channel sensors" based on protein-modified electrodes and redox marker ions. 1608 79

The Hsp90 molecular chaperone is responsible for the conformational maturation of nascent polypeptides and the rematuration of denatured proteins. Inhibition of Hsp90 represents a promising approach towards the treatment of cancer because numerous signaling cascades can be simultaneously targeted by disruption of the Hsp90-mediated process. Hsp90's ATPase activity is essential to the Hsp90-mediated protein folding process, consequently, a coupled assay was developed and optimized for determination of Hsp90's inherent ATPase activity. Using maltose phosphorylase, glucose oxidase, and horseradish peroxidase as components of this assay, a highly reproducible assay with a Z-factor of 0.87 has been produced.
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PMID:Development and optimization of a useful assay for determining Hsp90's inherent ATPase activity. 1621 44


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