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

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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)

An endogenous ATPase inhibitor protein has been identified and isolated for the first time from plant mitochondria. The inhibitor protein was isolated from potato (Solanum tuberosum) tuber mitochondria and purified to homogeneity. The isolated inhibitor is a heat-stable, trypsin-sensitive, basic protein, with a molecular mass approximately 8.3 kDa. Amino acid analysis reveals a high content of glutamic acid, lysine and arginine and the absence of proline; threonine and leucine. The interaction of the inhibitor with F1-ATPase requires the presence of Mg2(+)-ATP in the incubation medium. The ATPase activity of isolated F1 is inhibited to 50% in the presence of 14 micrograms inhibitor/mg F1. A stoichiometry of 1.3 mol inhibitor/mol F1 for complete inhibition can be calculated from this value. The potato ATPase inhibitor is also a potent inhibitor of the ATPase activity of the isolated yeast F1. The inhibitor resembles the ATPase inhibitors of yeast and mammalian mitochondria, and does not seem to be related to the inhibitory peptide, epsilon subunit, of chloroplast ATPase.
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PMID:Evidence for an endogenous ATPase inhibitor protein in plant mitochondria. Purification and characterization. 213 39

New antibiotic pumilacidins A, B, C, D, E, F and G were isolated from the culture broth of a strain of Bacillus pumilus. They are cyclic acylheptapeptide composed of a beta-hydroxy fatty acid, two L-leucine, two D-leucine, L-glutamic acid, L-aspartic acid and L-isoleucine (or L-valine). Pumilacidin components were inhibitory to herpes simplex virus type 1 and H+, K(+)-ATPase and demonstrated antiulcer activity in rat.
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PMID:Pumilacidin, a complex of new antiviral antibiotics. Production, isolation, chemical properties, structure and biological activity. 215 95

Glutamic acid [(L-glu)n] + dihydrogen phosphate systems are studied by infrared (IR) spectroscopy dried and hydrated at 75% relative humidity, as a function of both the phosphate-glutamic acid residue (Pi/glu) ratio and the type of cations present. It is shown that the glutamic acid groups form hydrogen-bonded chains with the phosphates. In these chains the positive charge fluctuates, and they show very large proton polarizability which increases in the series Li+,Na+,K+ systems. These chains are cross-linked via phosphate-phosphate hydrogen bonds, in which the proton is almost localized at one Pi. The comparison of the (L-glu)n + dihydrogen phosphate systems with the results obtained earlier in the case of (L-glu)n + hydrogen phosphate systems shows that the behavior of (L-glu)n + Pi systems strongly depends on the pH. Only with decreasing pH the conducting chains are formed. Finally, a hypothesis is discussed with regard to the charge conduction in the F0 subunit of the H+-ATPase in mitochondria.
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PMID:Glutamic acid-dihydrogen phosphate hydrogen-bonded networks: their proton polarizability as a function of cations present. Infrared investigations. 244 70

Kinetic studies of the phosphoenzyme intermediates of site-specific mutants were used to examine the role of Gly233 in the reaction mechanism of the sarcoplasmic reticulum Ca2(+)-ATPase. When this glycine residue, which is highly conserved among cation-transporting ATPases, was replaced by valine, arginine, or glutamic acid, a complete loss of the ability to pump Ca2+ was observed. The mutant enzymes were able to form an ADP-sensitive phosphoenzyme intermediate (E1P) by reaction with ATP in the presence of Ca2+, but this intermediate decayed to the ADP-insensitive form (E2P) very slowly, relative to the wild-type enzyme. The mutant phosphoenzyme intermediate remained ADP-sensitive, even when phosphorylation from ATP was performed under conditions which permitted accumulation of the ADP-insensitive phosphoenzyme intermediate in the wild type. The mutants were also defective in their ability to form the ADP-insensitive phosphoenzyme intermediate by phosphorylation from inorganic phosphate. In addition, they displayed a higher affinity for Ca2+ and a lower cooperativity in Ca2+ binding than did the wild-type enzyme, as measured through the phosphorylation reaction with ATP. These findings can be rationalized either in terms of a parallel shift of E1 to E2 and E1P to E2P conformational equilibria toward the E1 and E1P forms, respectively, or in terms of destabilization of the phosphoryl-protein interaction in the E2P form. The roles of 7 other residues located in the vicinity of Gly233 were also examined by mutation. Although the side chains of these residues are potential Ca2+ ligands, their replacement did not affect the Ca2+ affinity of the enzyme, suggesting the lack of a role of this region of the peptide in formation of Ca2(+)-binding sites.
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PMID:Functional consequences of mutations in the beta-strand sector of the Ca2(+)-ATPase of sarcoplasmic reticulum. 253 42

A material with inhibitory action to Na+/K+ ATPase was found in the lens of the ICR/f rat, a recessive hereditary cataractous rat. The material also induced lens opacification in vitro. From the results of amino acid analysis and by secondary ion mass spectroscopy, it was suggested that the material might contain approximately equimolar amounts of four amino acids, ie, aspartic acid, serine, glutamic acid and glycine, and that the molecular weight was 444. These facts suggested that this material with Na+/K+ ATPase inhibitory action might be a peptide. However, there is not yet any corroborating evidence to show whether this peptide is only a single material or not. The peptide significantly increased with aging in the lens of the ICR/f rat until approximately 90 days, when cataract became manifest, but its content decreased thereafter. This study suggests that one of the causes of cataractogenesis in the ICR/f rat might be this peptide, which is transformed in the lens with aging, and also that the peptide might accelerate lens opacification after cataractogenesis.
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PMID:Characterization of peptide inducing cataractogenesis in lens of hereditary cataractous rat (ICR/f RAT). 255 1

In submerged grown hyphae of Penicillium cyclopium the activities of seven transport systems could be distinguished which share in the uptake of L-arginine, L-glutamic acid, L-phenylalanine and L-leucine. They include the specific systems a (accepting L-arginine and L-lysine), b (L-phenylalanine, L-tyrosine), c (L-glutamic acid) and d (L-leucine), system I (a 'general amino-acid permease') and the low-affinity systems II and III, which accept acidic or basic amino acids, respectively, but also L-phenylalanine. In nutrient-sufficient cells, systems I, II and III remain repressed; uptake is dominated by the specific systems b, c, d and a, the latter reaching its maximum activity. Nitrogen starvation is the most powerful signal for the development of systems I, II and III, whereas, in carbon-starved cells, systems b, c and d reach maximum activities. The development of the general amino-acid permease in nitrogen-starved cells requires both translational and--with a few hours delay--transcriptional events as indicated by the influence of cycloheximide and 5-fluorouracil. The uptake of all amino acids is accompanied by a transient acidification of the cellular interior. Short-time preaccumulation of several anions, such as citrate, alpha-oxo-glutarate, glutamate (but not glutamine), increases the initial rate of amino-acid uptake at a pH above the optimum. Uncouplers inhibit the uptake not only under aerobic but also under anaerobic conditions, where the ATP content is not influenced by these compounds. These findings point to an H+/amino acid symport, which is tightly connected with the recycling of the incoming protons by the plasmalemma H+-ATPase.
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PMID:Kinetic properties, nutrient-dependent regulation and energy coupling of amino-acid transport systems in Penicillium cyclopium. 256 28

We have studied a female mongrel dog found in Kanagawa Prefecture, Japan. This dog was selected and examined thoroughly because she naturally maintained a high glutathione (GSH) concentration in her erythrocytes and did not exhibit any clinical signs or hematologic disorders. Erythrocytes from this animal demonstrated high K and low Na concentrations, as well as accumulation of the amino acids, glutamic acid, aspartic acid and glutamine. The Na, K-ATPase activity was also markedly elevated and the osmotic fragility of the dog's erythrocytes was found to be significantly increased. Crossbreeding of our dog with a normal dog and also with a heterozygous carrier dog revealed that the genetic abnormality possessed by our dog is transmitted as an autosomal recessive trait. All of the clinical data obtained from studying this animal strongly suggest that it possesses a genetic trait similar to that of the HK dogs previously described by Maede.
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PMID:A dog possessing high glutathione (GSH) and K concentrations with an increased Na, K-ATPase activity in its erythrocytes. 284 Mar 4

The inactivation of the bovine heart mitochondrial F1-ATPase with 1-(ethoxycarbonyl)-2-ethoxy-1,2-dihydroquinoline (EEDQ) in the presence of [3H]aniline at pH 7.0 led to the covalent incorporation of 3H into the enzyme. When the ATPase was inactivated by 94% with 0.9 mM EEDQ in the presence of 3.6 mM [3H]aniline in a large-scale experiment in which the protein concentration was 21 mg/ml, 4.2 mol [3H]anilide were formed per mol enzyme, of which 0.35 mol was incorporated per mol of the alpha subunit and 1.0 mol was incorporated per mol of the beta subunit. Examination of a tryptic digest of the isolated alpha subunit revealed that the majority of the 3H was contained in a single tryptic peptide, which, when purified, was shown to contain the [3H]anilide of a glutamic acid residue which corresponds to alpha-Glu-402 of the Escherichia coli F1-ATPase. This residue was labeled to the extent of about 1.0 mol/mol enzyme. Analysis of tryptic peptides purified from the isolated beta subunit showed that 0.8 and 1.5 mol, respectively, of the [3H]anilides of beta-Glu-341 and beta-Glu-199 were formed per mol MF1 during the inactivation of the enzyme at 21 mg/ml. When the ATPase was inactivated by 90% at a protein concentration of 1.7 mg/ml by 0.9 mM EEDQ in the presence of 1.7 mM [3H]aniline, 3.1 mol [3H]anilide were formed per mol enzyme. From the analysis of the radioactive peptides purified from a tryptic digest of the labeled ATPase from this experiment it was estimated that 0.7 mol of the [3H]anilide of alpha-Glu-402, 0.3 mol of the [3H]anilide of beta-Glu-341, and 1.5 mol of the [3H]anilide of beta-Glu-199 were formed per mol F1-ATPase. Since beta-Glu-199 is labeled to the same extent in the two experiments while alpha-Glu-402 and beta-Glu-341 were not, suggests that the modification of beta-Glu-199 is responsible for inactivation of the enzyme by EEDQ.
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PMID:The use of [3H]aniline to identify the essential carboxyl group in the bovine mitochondrial F1-ATPase that reacts with 1-(ethoxycarbonyl)-2-ethoxy-1,2-dihydroquinoline. 286 44

The enzyme complex F1-ATPase has been isolated from bovine heart mitochondria by gel filtration of the enzyme released by chloroform from sub-mitochondrial particles. The five individual subunits alpha, beta, gamma, delta and epsilon that comprise the complex have been purified from it, and their amino acid sequences determined almost entirely by direct protein sequence analysis. A single overlap in the gamma-subunit was obtained by DNA sequence analysis of a complementary DNA clone isolated from a bovine cDNA library using a mixture of 32 oligonucleotides as the hybridization probe. The alpha, beta, gamma, delta and epsilon subunits contain 509, 480, 272, 146 and 50 amino acids, respectively. Two half cystine residues are present in the alpha-subunit and one in each of the gamma- and epsilon-chains; they are absent from the beta- and delta-subunits. The stoichiometry of subunits in the complex is estimated to be alpha 3 beta 3 gamma 1 delta 1 epsilon 1 and the molecular weight of the complex is 371,135. Mild trypsinolysis of the F1-ATPase complex, which has little effect on the hydrolytic activity of the enzyme, releases peptides from the N-terminal regions of the alpha- and beta-chains only; the C-terminal regions are unaffected. Sequence analysis of the released peptides demonstrates that the N terminals of the alpha- and beta-chains are ragged. In 65% of alpha-chains, the terminus is pyrrolidone carboxylic acid; in the remainder this residue is absent and the chains commence at residue 2, i.e. lysine. In the beta-subunit a minority of chains (16%) have N-terminal glutamine, or its deamidation product, glutamic acid (6%), or the cyclized derivative, pyrrolidone carboxylic acid (5%). A further 28% commence at residue 2, alanine, and 45% at residue 3, serine. The delta-chains also are heterogeneous; in 50% of chains the N-terminal alanine residue is absent. The sequences of the alpha- and beta-chains show that they are weakly homologous, as they are in bacterial F1-ATPases. The sequence of the bovine delta-subunit of F1-ATPase shows that it is the counterpart of the bacterial epsilon-subunit. The bovine epsilon-subunit is not related to any known bacterial or chloroplast H+-ATPase subunit, nor to any other known sequence. The counterpart of the bacterial delta-subunit is bovine oligomycin sensitivity conferral protein, which helps to bind F1 to the inner mitochondrial membrane.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Primary structure and subunit stoichiometry of F1-ATPase from bovine mitochondria. 286 55

Studies of various parameters of amino acid and catecholamine metabolism in human cerebral cortex have provided a number of biochemical markers that appear to delineate areas of focal epileptic activity. These observations have been consolidated further by investigations of a number of experimental models of epilepsy in animals. In appraising this data, it is important to take into consideration whether the tissue samples were obtained during an actual seizure state or in an interictal period. It is also important when possible to assess the extent of astrogliosis and neuronal loss. Sites of spontaneously active epileptic spiking in the cerebral neocortex have a somewhat different amino acid profile when compared to gray matter obtained from surrounding nonspiking gyri several centimeters away. There is an elevation in glycine content, a relative diminution in taurine, and a trend towards lowered glutamic acid levels. However, the concentrations of the eight amino acids measured appear in both the foci and surround to still be within the general range for normal tissue. Measurements of key enzymes involved in the synthesis and regulation of neurotransmitters provide a complementary method of evaluating functional changes in epileptic brain as they are generally less labile than their substrates. There is a moderate increase in the activity of glutamic acid dehydrogenase, an enzyme that plays an important role in the synthesis of glutamic acid from glucose. In some patients a decrease in glutamic acid decarboxylase has also been reported: this enzyme forms gamma-aminobutyric acid (GABA) from glutamic acid and is thus important for inhibition in the central nervous system. Moreover, there is a striking increase in the activity of tyrosine hydroxylase, the rate-limiting enzyme responsible for catecholamine synthesis. The possibility of a focal abnormality in catecholamine metabolism is reinforced by the simultaneous finding of a relative decrease in the number of alpha-1 postsynaptic receptor sites. An important marker of energy metabolism in neural tissue, Na+,K+-ATPase activity, has also been found to be decreased in actively spiking human cerebral cortex. Data from experimental animal foci produced by topical application of convulsant agents show a consistent drop in glutamic acid tissue content. This can be matched to an efflux of glutamic acid from the cortical surface, which in turn is proportional to the electrographic activity of the spike focus. In addition, there is often also a decrease in taurine and GABA in such foci, as well as an increase in the levels of a number of neutral amino acids.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Amino acid and catecholamine markers of metabolic abnormalities in human focal epilepsy. 287 18


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