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)

The complete amino acid sequence of dicyclohexylcarbodiimide (DCC)-binding subunit of proton adenosine triphosphatase from glycolysing bacteria Streptococcus faecalis was established. Isolation of the protein from subbacterial particles was carried out by using extraction with a chloroform/methanol mixture and following gel-filtration on Sephadex LH-60 and Bio-gel P-30. To establish the primary structure, use was made of cyanogen bromide and hydroxylamine cleavages, trypsin and partial acid hydrolyses. Separation of the peptide fragments obtained from cyanogen bromide and hydroxylamine cleavages and partial acid hydrolysis was performed by gel-filtration on Bio-gel P-10 and reversed-phase HPLC. Peptide structures were determined mainly with the aid of 4-N,N-dimethylaminoazobenzene-4'-isothiocyanate. The polypeptide chain of the protein consists of 71 amino acid residues (mol. wt. 7291). The primary structure of the protein from S. faecalis shares all common features of the structural organization of other H+-ATPase DCC-binding subunits and shows a high degree of homology with the corresponding subunit of thermophilic bacterium PS-3. Inactivation of H+-ATPase with DCC was due to modification of Glu54 of the polypeptide chain.
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PMID:[Primary structure of the dicyclohexylcarbodiimide-binding subunit of Streptococcus faecalis H+-ATPase]. 623 59

The lipid specificity for the enzymatic and proton-translocating functions of a reconstituted thermophilic ATPase complex has been investigated. The proteoliposomes were prepared from the ATPase complex of the thermophilic cyanobacterium Synechococcus 6716 and various lipids and lipid mixtures extracted from this organism and from a related mesophilic strain. Some commercial lipids were used as well. An improved method of lipid extraction from chlorophyll-containing membranes is presented. This method is based on acetone extraction and additional chlorophyll separation and results in higher yields, less chlorophyll contamination and a simpler procedure than the conventional methods based on chloroform/methanol extraction. The lipids of Synechococcus 6716 thus extracted were fractionated by thin-layer chromatography. The fatty acyl chain composition of the separated lipids was analyzed by gas chromatography. The coupling quality of the reconstituted ATPase proteoliposomes made of different lipids was tested by a membrane-bound fluorescent probe and uncoupler stimulation of ATP hydrolysis. None of the separated lipids alone was able to produce a well-coupled system. The best results were obtained with the native lipid mixture. The minimum requirement was the combination of a typical bilayer-forming lipid and the non-bilayer (hexagonal II structure)-forming monogalactosyldiacylglycerol. Lipids from the mesophilic Synechococcus 6301 and commercial lipids (also mesophilic) produced poorly coupled vesicles but significant improvement was obtained when thermophilic monogalactosyldiacylglycerol was included. Both the reconstituted and solubilized ATPase complex have a sharp temperature optimum at 50 degrees C. The effect of reconstitution and measurement temperatures on the yield of well-coupled vesicles from different lipid sources was also studied.
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PMID:Lipid specificity for the reconstitution of well-coupled ATPase proteoliposomes and a new method for lipid isolation from photosynthetic membranes. 623 8

Efforts were made to understand the nature of the site of 1,1-bis-(p-chlorophenyl)-2,2,2-trichloroethane (DDT) inhibition of nerve ATPase. THe phospholipid content of nerve preparations from the walking leg of the lobster was reduced by treating them with phospholipase A, or with a chloroform-methanol mixture at -75 degrees. By these treatments the enzymes lost approximately 70 or 95% of their phospholipids and 50-80% of their Na,K- and Ca-ATPase activities. The lost ATPase activities could be partially restored by the addition of phospholipids, either the ones extracted from the lobster nerves or those from commercial sources. ATPase inhibition by DDT and permethrin was found to be highest in preparations where the phospholipids were removed by the above treatments, next highest with the untreated original enzyme, and least with the reconstituted ATPase regardless of the source of phospholipids used for reconstitution. This tendency was more pronounced in the case of Ca-ATPase. The effects of DDT and permethrin on inhibition of reconstituted Ca-ATPase were higher when the insecticide was first added to the protein portion and the enzyme was then reconstituted with the phospholipids, than when the same amount of insecticide was first added to the phospholipids which were then used for reconstitution.
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PMID:Role of phospholipids in the inhibitory action of DDT and permethrin on the nerve ATPase of lobster, Homarus americanus. 628 78

Active transport of catecholamines into chromaffin granules is driven by the transmembrane pH gradient and membrane potential, created by an electrogenic proton-translocating ATPase in the granule membrane. The ATPase activity of highly purified chromaffin granule membranes is inhibited by a number of agents in common with mitochondrial ATPase, and also by antibodies raised against mitochondrial F1. Dichloromethane treatment of these membranes solubilizes an enzyme that is closely similar to mitochondrial F1, but distinguishable from it by its interaction with specific antisera and the inhibitor aurovertin. Chromaffin granule membranes contain a low-molecular-weight protein that reacts with dicyclohexylcarbodiimide; it can be extracted into chloroform-methanol, and is of higher electrophoretic mobility than the corresponding mitochondrial protein. Evidence is presented that this is a component of the proton-translocating ATPase complex.
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PMID:Proton-translocating ATPase of chromaffin granule membranes. 628 79

Adenosine diphosphatase (ADPase) activity was studied in rat liver with [beta-32P]ADP as a substrate. Mitochondria and outer mitochondrial membrane fractions were isolated and assayed for ADPase and various marker enzymes. ADPase activity was strikingly reduced when the outer membranes were removed from the mitochondria whether by digitonin treatment or osmotic shock. Addition of the inter-membrane space subfraction to the purified outer membranes resulted in enhanced ADPase activity. Addition of the inter-mitochondrial membrane enzyme adenylate kinase to outer membranes also produced a large stimulation of activity. The ADPase activity could also be reconstituted in vitro with adenylate kinase and either mitoplast ATPase or ouabain-sensitive (Na+ + K+ + Mg2+)-ATPase. Chloroform-released ATPase, however, was not capable of producing an ADPase activity when combined with adenylate kinase. Gel permeation chromatography of Triton-solubilised outer mitochondrial membranes was unable to resolve ADPase activity from contaminating ATPase. These results suggest that the majority of ADPase activity in rat liver mitochondria consists of the coupled activity of adenylate kinase and ATPase.
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PMID:Studies on the nature of adenosine diphosphatase activity from rat liver mitochondria. 632 48

Previous studies on the human Rhesus D antigen revealed several similarities between the D antigen and proteolipids. Proteolipids are a family of low-molecular-weight, hydrophobic proteins that are soluble in chloroform/methanol. In addition, many proteolipids bind dicyclohexylcarbodiimide (DCCD), an ATPase inhibitor. For determination of whether the D antigen was a proteolipid, the chloroform/methanol solubility and DCCD binding of the antigen were investigated. DCCD specifically inhibited the binding of anti-D IgG to Rh-positive red blood cells and to partially purified D antigen as determined by enzyme-linked immunoassays. The antigen was not only soluble in chloroform/methanol but was purified to apparent homogeneity by extraction with these solvents and subsequent discontinuous sucrose gradient centrifugation. The antigen's chloroform/methanol solubility, DCCD binding, low molecular weight, and previously reported phospholipid dependence allow classification of the D antigen as a proteolipid. The discovery that the D antigen is a proteolipid provides further clues to the antigen's cellular function.
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PMID:The Rhesus D antigen. A dicyclohexylcarbodiimide-binding proteolipid. 640 29

The proteolipid subunit of the ATPase complex was identified in whole membranes of the thermophilic bacterium PS-3 by means of a covalent modification with the 14C-labelled inhibitor dicyclohexylcarbodiimide. The proteolipid could be purified from the membrane in free and carbodiimide-modified form by extraction with chloroform/methanol and subsequent carboxymethylcellulose chromatography in mixtures of chloroform/methanol/water. The complete amino acid sequence of the 72-residue polypeptide could be determined by automated solid-phase Edman degradation of the whole protein, and of fragments obtained after cleavage with cyanogen bromide and N-bromosuccinimide. Chemical cleavages and separations of the resulting fragments by gel chromatography were performed in 80% formic acid. The amino acid sequence shows a concentration of hydrophobic amino acids in two segments of about 25 residues at the amino-terminal and carboxy-terminal ends. The polar residues are clustered in the middle of the polypeptide chain. The bound [14C]dicyclohexylcarbodiimide label is recovered exclusively at position 56, which is occupied by a glutamyl residue. The proteolipid from PS-3 exhibits homology to the corresponding ATPase subunit from mitochondria. The carbodiimide-reactive glutamyl residue occurs at the position as in the mitochondrial proteins.
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PMID:Amino acid sequence of the proteolipid subunit of the proton-translocating ATPase complex from the thermophilic bacterium PS-3. 644 66

The heterogeneity of mitochrondrial autoantibodies in a variety of diseases states has been critically re-examined by a combination of immunofluorescence staining (IFL) and complement fixation tests (CFT). The different mitochondrial IFL patterns described by other workers were confirmed and extra criteria using new substrates are presented for their differential recognition. Biochemically defined mitochondrial subfractions were used in the CFT to confirm and extend the IFL classifications. The 'M1' cardiolipin antibodies of syphilis did not react with the ATPase fraction but the antigen was present in all membrane preparations and found to be chemically resistant. The major antibody specificity of the 'M3' pattern associated with drug-induced pseudolupus syndrome is a firmly bound, outer membrane component; and a second, minor reactivity is apparently to a mercurial-insensitive antigen present in the chloroform-released ATPase preparation. The 'M5' antibody pattern correlates with a digitonin-sensitive outer membrane component. Although it was not possible to differentiate within the group of liver diseases between the 'M2' antibodies of primary biliary cirrhosis and the previously described 'M4' antibodies of other chronic liver diseases, several antibody specificities were demonstrated. All sera from liver disease patients contain the antibody directed against a mercurial-sensitive protein found in the chloroform-released ATPase preparation, and, in addition, varying titres of antibodies against two or more mercurial-resistant membrane components, of which at least one is on the inner membrane and one on the outer membrane.
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PMID:Mitochondrial antibodies in chronic liver diseases and connective tissue disorders: further characterization of the autoantigens. 644 33

1. The content of the membrane sector of the ATPase complex (Fo) in brown adipose tissue mitochondria was determined by means of specific [14C]-DCCD binding. 2. The specific DCCD binding to the F0 protein was distinguished from the nonspecific binding to the other membrane proteins and phospholipids by: (a) Scatchard plot analysis of the equilibrium binding data, (b) SDS-polyacrylamide gel electrophoresis of the 14C-labelled membrane proteins, (c) partial purification of the chloroform-methanol extractable DCCD-binding protein. It was found that the specific DCCD binding was present in three polypeptides of a relative molecular weight of 9000, 16 000 and 32 000. In brown adipose tissue mitochondria the specific binding was 10-times lower than in heart or liver mitochondria. The binding to the other membrane proteins and to phospholipids was quite similar in all mitochondrial preparations studied. 3. The decreased quantity of the specific binding sites in brown adipose tissue mitochondria demonstrated that the reduction of F0 parallels the reduction of the F1-ATPase and revealed that in these mitochondrial membranes the ratio between the respiratory chain enzymes and the ATPase complex is 10- to 20- times higher than in heart or liver mitochondria.
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PMID:Evaluation of the specific dicyclohexylcarbodiimide binding sites in brown adipose tissue mitochondria. 645 Dec 41

1. In isolated bovine heart mitochondria, the 14C-labelled dicyclohexylcarbodiimide (DCCD) induced inhibition of the ATPase activity is accompanied by labelling of three polypeptides of Mx 9000, 16 000 and 33 000. Of these, only the 9000 polypeptide reacts with [14C]DCCD proportionally to the inhibitory effect, being saturated when the enzyme is maximally inhibited. 2. The 9000 and 16 000 polypeptides are extracted by neutral chloroform/methanol (2 : 1 v/v) while the 33 000 polypeptide remains in the non-extractable residue. No disaggregation of the polypeptides takes place during the extraction. 3. In the ATPase complex immunoprecipitated with antibody against F1, the 9000 and 16 000 polypeptides are present, but the 33 000 polypeptide is absent. 4. The results obtained indicate that the 33 000 polypeptide is not a component of the ATPase complex. As far as F0 is concerned, two types of the binding sites for DCCD were demonstrated, corresponding to the 9000 and 16 000 polypeptides. Their existence is explained by a non-random arrangement among individual monomers of the DCCD-binding protein.
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PMID:Differentiation of dicyclohexylcarbodiimide reactive sites of the ATPase complex bovine heart mitochondria. 645 Dec 42


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