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 archaeon Pyrodictium occultum is one of the most thermophilic organisms presently known. Previous experiments provided support for the significant contribution of a high-molecular-mass protein complex to the extreme thermotolerance of P. occultum. This protein complex, the 'thermosome', is composed of two subunits, alpha and beta, which form a hexadecameric double ring complex. In order to obtain the thermosome in amounts sufficient for structural and functional investigations, we produced the two subunits jointly and separately in Escherichia coli BL21(DE3). In all three cases, we isolated soluble, high-molecular-mass double-ring complexes from E. coli BL21(DE3). On electron micrographs, the recombinant complexes were indistinguishable from each other and from the natural thermosome. To characterize the quaternary structure of the recombinant particles, we used native gel electrophoresis, analytical gel filtration, and analytical ultracentrifugation. Spectral analysis, using absorption, fluorescence emission and far-UV circular dichroism spectroscopy were applied to compare the three recombinant protein complexes with the natural thermosome from P. occultum. All three recombinant complex species exhibit ATPase activity. Furthermore, we could demonstrate that the recombinant complexes slow down the aggregation of citrate synthase, alcohol dehydrogenase, and insulin. Thus, we conclude that the recombinant protein complexes exhibit a chaperone-like activity, interacting with non-native proteins; they do so at temperatures far below the lower physiological limit of growth.
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PMID:Recombinant homo- and hetero-oligomers of an ultrastable chaperonin from the archaeon Pyrodictium occultum show chaperone activity in vitro. 987 54

The archaeon Methanopyrus kandleri is the most thermophilic methanogen presently known. It contains a chaperonin (thermosome) which represents a 951 kDa homo-hexadecameric protein complex with NH4+-dependent ATPase activity. Since its synthesis is not increased upon heat shock, we set out to test its chaperone function. In order to obtain the chaperonin in amounts sufficient for functional investigations, the gene encoding the 60 kDa subunit was expressed in E. coili BL21 (DE3) cells. Purification yielded soluble, high-molecular-mass double-ring complexes, indistinguishable from the natural thermosome. In order to study the functional properties of the recombinant protein complex, pig citrate synthase, yeast alcohol dehydrogenase, yeast alpha-glucosidase, bovine insulin, and Thermotoga phosphoglycerate kinase were used as model substrates. The results demonstrate that the recombinant M. kandleri thermosome possesses a chaperone-like activity in vitro, inhibiting aggregation as the major off-pathway-reaction during thermal unfolding and refolding of proteins after chemical denaturation. However, the chaperonin only forms dead-end complexes with its non-native substrates, no release is detectable at temperatures between 25 and 60 degrees C.
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PMID:The recombinant thermosome from the hyperthermophilic archaeon Methanopyrus kandleri: in vitro analysis of its chaperone activity. 1006 37

The mucosal protective effect of nitric oxide (NO) was examined by using N(G)-nitro-L-arginine methyl ester (L-NAME) as nitric oxide synthase (NOS) inhibitor and nitroprusside (NP) as NO donating agent, in ethanol-induced rat gastric lesion model. The results are summarized as follows: (1) As gastric tissue samples were examined by light microscopy, intragastric exposure of ethanol was demonstrated to induce gastric injury, which was more prominent in female rats. The depletion of NO by L-NAME treatment exacerbated the ethanol-induced gastric lesion but NP together with ethanol promoted repair of the mucosal injury, especially in female rats. (2) Gastric H+, K+ -ATPase enzyme activity, which was responsible for acid secretion, seemed not to be effected by ethanol treatment. Together with ethanol, L-NAME treatment activated, whereas NP treatment inhibited, the enzyme activity in female rats. (3) Ethanol treatment inhibited gastric alcohol dehydrogenase (ADH) activity, which was responsible for the first-pass metabolism of ethanol. Together with ethanol, L-NAME did not effect the enzyme activity whereas NP treatment disappeared the inhibitory effect of ethanol in both gender. Hydroxyl radical (OH*) scavenger activity was found to increase in ethanol and ethanol + NP groups in both sexes, but superoxide radical (O2-*) scavenger activity did not change. The results indicate that NO may ameliorate the damaging effect of ethanol possibly by regulating acid secretion, ethanol metabolism, and antioxidant content in rat gastric mucosa.
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PMID:Nitric oxide-mediated regulation of gastric H+, K+ -ATPase and alcohol dehydrogenase following ethanol-induced injury in rats. 1048 28

Two psychrotrophic strains of Rhizobium, DDSS69, a non-cold acclimated strain, and ATR1, a cold acclimated strain, were subjected to cold stress. A 4-fold increase in the specific activity of lactate dehydrogenase (LDH) was characteristic for cold stressed cells of DDSS69, whereas ATR1 showed a higher LDH activity in general, which increased 1.5-fold under cold stress. Cold sensitive mutants of DDSS69 which could not grow below 15 degrees C, in contrast to the wild type which could grow at 5 degrees C, were isolated using Tn5-tagged mutagenesis. These mutants showed a 40% lower LDH activity than the wild type grown at 5 degrees C that was comparable to the wild type grown at 15 degrees C. High specific activity of succinic dehydrogenase (SDH) at 28 degrees C in both strains and mutants indicated that aerobic respiration via the citrate cycle is the normal mode of saccharide utilization. Shifts to lower temperatures decreased the specific activity of SDH. However, alcohol dehydrogenase (ADH) activity remained very low in both the strains and the mutants at low temperatures indicating that a shift from aerobic saccharide metabolism to anaerobic one under cold stress involves lactate glycolysis rather than alcohol fermentation. There was an increase in membrane-bound ATPase activity under cold stress which is correlated to higher LDH activity. These data show that, in psychrotrophic Rhizobium strains, cold stress induces a switchover of respiratory metabolism from aerobic to anaerobic pathway, especially lactate glycolysis.
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PMID:Cold stress induces switchover of respiratory pathway to lactate glycolysis in psychrotrophic Rhizobium strains. 1127 29

Microbial proliferation and biofilm formation on biologic or inert substrates are characteristics of invasive Staphylococcus aureus infections and is associated with phenotypic alterations such as reduced antimicrobial susceptibility. To identify genes which are typically expressed in biofilms, a micro-representational-difference analysis (micro-RDA) was adapted for gram-positive bacteria and used with cDNA derived from populations of S. aureus DSM 20231 growing in a biofilm or plankonically. In comparison to previously described cDNA RDA protocols, micro-RDA has the advantages that only minimal quantities of total RNA are needed and, most importantly, that total RNA can be used since the large amount of rRNA in total RNA does not interfere with the micro-RDA procedure. Using a series of spiked controls with various amounts of MS2 RNA in a background of total RNA from S. aureus, the equivalent of five copies of MS2 per cell were detectable after three rounds of subtractive enrichment. Five genes were identified as being differentially expressed in biofilm versus planktonic cultures. These genes revealed homology to a threonyl-tRNA synthetase, a phosphoglycerate mutase, a triosephosphate isomerase, an alcohol dehydrogenase I, and a ClpC ATPase. Differential levels of expression were subsequently confirmed by standard Northern blotting. In conclusion, micro-RDA is a sensitive and specific method to detect transcripts differentially expressed as a function of different S. aureus growth conditions.
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PMID:Detection of differential gene expression in biofilm-forming versus planktonic populations of Staphylococcus aureus using micro-representational-difference analysis. 1142 8

A protein isolated from goat testis cytosol is found to inhibit Na+,K+-ATPase from rat brain microsomes. The inhibitor has been purified by ammonium sulphate precipitation followed by hydroxyapatite column chromatography. The purified fraction appears as a single polypeptide band on 10% SDS-PAGE of approximate molecular mass of 70 kDa. The concentration at which 50% inhibition (I50) occurs is in the nanomolar range. The inhibitor seems to bind Na+,K+-ATPase reversibly at ATP binding site in a competitive manner with ATP, but away from ouabain binding site. It does not affect p-nitrophenyl-phosphatase activity. The inhibitor is found to inhibit the phosphorylation step of the Na+,K+-ATPase. The enhancement of tryptophan fluorescence and changes in CD pattern suggest conformational changes of Na+,K+-ATPase on binding to the inhibitor. Amino acid sequence of the trypsinised fragments show some homology with aldehyde reductase.
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PMID:Purification, characterization and partial amino acid sequencing of a 70 kD inhibitor protein of Na+,K+-ATPase from goat testis cytosol. 1168 23

Transient soil flooding limits cellular oxygen to roots and reduces crop yield. Plant response to oxygen deprivation involves increased expression of the alcohol dehydrogenase gene (ADH) and ethanolic fermentation. Disruption of the Arabidopsis gene that encodes Rop (RHO-like small G protein of plants) guanosine triphosphatase (GTPase) activating protein 4 (ROPGAP4), a Rop deactivator, elevates ADH expression in response to oxygen deprivation but decreases tolerance to stress. Rop-dependent production of hydrogen peroxide via a diphenylene iodonium chloride-sensitive calcium-dependent reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase is necessary for induction of both ADH and RopGAP4 expression. Tolerance to oxygen deprivation requires Rop activation and RopGAP4-dependent negative feedback regulation. This Rop signal transduction rheostat balances the ability to increase ethanolic fermentation with survival.
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PMID:RopGAP4-dependent Rop GTPase rheostat control of Arabidopsis oxygen deprivation tolerance. 1206 37

Changes in the properties of extractable vacuolar H+-pumping pyrophosphatase (V-PPase) and vacuolar ATPase activities in chilling-sensitive seedlings of mung bean (Vigna radiata) were investigated. Following chilling at 4[deg]C for 48 h, both hydrolytic and proton-pumping activities of the V-PPase increased 1.5- to 2-fold over controls and remained elevated even after 72 h at low temperatures. Vacuolar ATPase levels did not change significantly throughout the chilling regime. However a large increase in alcohol dehydrogenase activity during chilling suggests a shift toward fermentative metabolism, which can be expected to decrease ATPase activity in situ. Western blotting of vacuolar membrane-enriched fractions from control and treated plants has confirmed that the changes in V-PPase activity are mirrored by increases in the amount of pump protein. Results suggest a specific role for the V-PPase in protecting chill-sensitive plants from the injurious effects of low temperatures via the maintenance of the proton gradient across the vacuolar membrane.
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PMID:Chill-Induced Changes in the Activity and Abundance of the Vacuolar Proton-Pumping Pyrophosphatase from Mung Bean Hypocotyls. 1222 20

We screened a Thermotoga sp. strain RQ2 lambda library for genes present in that strain but absent from the closely related completely sequenced relative Thermotoga maritima strain MSB8, by using probes generated in an earlier genomic subtraction study. Five lambda insert fragments were sequenced, containing, respectively, an archaeal type ATPase operon, rhamnose biosynthetic genes, ORFs with similarity to an arabinosidase, a Thermotoga sp. strain RQ2-specific alcohol dehydrogenase and a novel archaeal Mut-S homologue. All but one of these fragments contained additional Thermotoga sp. strain RQ2-specific sequences not screened for, suggesting that many such strain-specific genes will be found clustered in the genome. Moreover, phylogenetic analyses, phylogenetic distribution and/or G + C content suggests that all the Thermotoga sp. strain RQ2 specific sequences in the sequenced lambda clones have been acquired by lateral gene transfer. We suggest that the use of strain-specific small insert clones obtained by subtractive hybridization to target larger inserts for sequencing is an efficient, economical way to identify environmentally (or clinically) relevant interstrain differences and novel gene clusters, and will be invaluable in comparative genomics.
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PMID:Targeting clusters of transferred genes in Thermotoga maritima. 1464 94

The lipid peroxidation product 4-hydroxynonenal (4-HNE) has been shown to interfere with protein function. The goal of this study was to determine the effects of substrate modification by 4-HNE on protein degradation. Equine liver alcohol dehydrogenase (ADH, EC 1.1.1.1) treated with 2-fold molar excess 4-HNE was degraded by a rabbit reticulocyte lysate (RRL) system approximately 1.5-fold faster than control, while treatment with concentrations up to 100-fold molar excess aldehyde were inhibitory to degradation. Involvement of the 26S proteasome (EC 3.4.99.46) was demonstrated through the use of specific proteasome and ATPase inhibitors, and confirmed by measuring the extent of ADH polyubiquitination. Tryptic digestion and LC/MS analysis of 4-HNE-treated ADH identified modification of two zinc chelating Cys residues. Through molecular modeling experiments a conformational shift in both zinc-containing regions was predicted, with an approximate doubling of the distance between the structural zinc and its respective chelating residues. Modification of residues in the active site zinc binding motif resulted in less pronounced alteration in protein structure. The data presented here demonstrate accelerated ubiquitination and proteasomal degradation of ADH modified with 4-HNE, and suggest a conformational change after 4-HNE docking as a mechanism behind these observations.
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PMID:4-Hydroxynonenal regulates 26S proteasomal degradation of alcohol dehydrogenase. 1545 82


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