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)

The inhibitory effect of epsilon subunit in F(1)-ATPase from thermophilic Bacillus PS3 was examined focusing on the structure-function relationship. For this purpose, we designed a mutant for epsilon subunit similar to the one constructed by Schulenberg and Capaldi (Schulenberg, B., and Capaldi, R. A. (1999) J. Biol. Chem. 274, 28351-28355). We introduced two cysteine residues at the interface of N-terminal beta-sandwich domain (S48C) and C-terminal alpha-helical domain (N125C) of epsilon subunit. The alpha(3)beta(3)gammaepsilon complex containing the reduced form of this mutant epsilon subunit showed suppressed ATPase activity and gradual activation during the measurement. This activation pattern was similar to the complex with the wild type epsilon subunit. The conformation of the mutant epsilon subunit must be fixed and similar to the reported three-dimensional structure of the isolated epsilon subunit, when the intramolecular disulfide bridge was formed on this subunit by oxidation. This oxidized mutant epsilon subunit could form the alpha(3)beta(3)gammaepsilon complex but did not show any inhibitory effect. The complex was converted to the activated state, and the cross-link in the mutant epsilon subunit in the complex was efficiently formed in the presence of ATP-Mg, whereas no cross-link was observed without ATP-Mg, suggesting the conformation of the oxidized mutant epsilon subunit must be similar to that in the activated state complex. A non-hydrolyzable analog of ATP, 5'-adenylyl-beta,gamma-imidodiphosphate, could stimulate the formation of the cross-link on the epsilon subunit. Furthermore, the cross-link formation was stimulated by nucleotides even when this mutant epsilon subunit was assembled with a mutant alpha(3)beta(3)gamma complex lacking non-catalytic sites. These results indicate that binding of ATP to the catalytic sites induces a conformational change in the epsilon subunit and triggers transition of the complex from the suppressed state to the activated state.
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PMID:Movement of the helical domain of the epsilon subunit is required for the activation of thermophilic F1-ATPase. 1095 1

The multi-subunit H+-ATPase pump is present at particularly high density on the apical (luminal) surface of -intercalated cells of the cortical collecting duct of the distal nephron, where vectorial proton transport is required for urinary acidification. The complete subunit composition of the apical ATPase, however, has not been fully agreed upon. Functional failure of -intercalated cells results in a group of disorders, the distal renal tubular acidoses (dRTA), whose features include metabolic acidosis accompanied by disturbances of potassium balance, urinary calcium solubility, bone physiology and growth. Mutations in the gene encoding the B-subunit of the apical pump (ATP6B1) cause dRTA accompanied by deafness. We previously localized a gene for dRTA with preserved hearing to 7q33-34 (ref. 4). We report here the identification of this gene, ATP6N1B, which encodes an 840 amino acid novel kidney-specific isoform of ATP6N1A, the 116-kD non-catalytic accessory subunit of the proton pump. Northern-blot analysis demonstrated ATP6N1B expression in kidney but not other main organs. Immunofluorescence studies in human kidney cortex revealed that ATP6N1B localizes almost exclusively to the apical surface of -intercalated cells. We screened nine dRTA kindreds with normal audiometry that linked to the ATP6N1B locus, and identified different homozygous mutations in ATP6N1B in eight. These include nonsense, deletion and splice-site changes, all of which will truncate the protein. Our findings identify a new kidney-specific proton pump 116-kD accessory subunit that is highly expressed in proton-secreting cells in the distal nephron, and illustrate its essential role in normal vectorial acid transport into the urine by the kidney.
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PMID:Mutations in ATP6N1B, encoding a new kidney vacuolar proton pump 116-kD subunit, cause recessive distal renal tubular acidosis with preserved hearing. 1097 52

After isolation and purification, the H(+)-ATPase from chloroplasts, CF(0)F(1), contains one endogenous ADP at a catalytic site, and two endogenous ATP at non-catalytic sites. Incubation with 2-azido-[alpha-(32)P]ADP leads to tight binding of azido-nucleotides. Free nucleotides were removed by three consecutive passages through centrifugation columns, and upon UV-irradiation most of the label was covalently bound. The labelled enzyme was digested by trypsin, the peptides were separated by ion exchange chromatography into nitreno-AMP, nitreno-ADP and nitreno-ATP labelled peptides, and these were then separated by reversed phase chromatography. Amino acid sequence analysis was used to identify the type of the nucleotide binding site. After incubation with 2-azido-[alpha-(32)P]ADP, the covalently bound label was found exclusively at beta-Tyr-362. Incubation conditions with 2-azido-[alpha-(32)P]ADP were varied, and conditions were found which allow selective binding of the label to different catalytic sites, designated as 1, 2 and 3 in order of decreasing affinity for ADP, and either catalytic site 1 or catalytic sites 1 and 2 together were labelled. For measurements of the degree of inhibition by covalent modification, CF(0)F(1) was reconstituted into phosphatidylcholine liposomes, and the membranes were energised by an acid-base transition in the presence of a K(+)/valinomycin diffusion potential. The rate of ATP synthesis was 50-80 s(-1), and the rate of ATP hydrolysis was 15 s(-1) measured under multi-site conditions. Covalent modification of either catalytic site 1 or catalytic sites 1 and 2 together inhibited ATP synthesis and ATP hydrolysis equally, the degree of inhibition being proportional to the degree of modification. Extrapolation to complete inhibition indicates that derivatisation of catalytic site 1 leads to complete inhibition when 1 mol 2-nitreno-ADP is bound per mol CF(0)F(1). Derivatisation of catalytic sites 1 and 2 together extrapolates to complete inhibition when 2 mol 2-nitreno-ADP are bound per CF(0)F(1). The rate of ATP synthesis and the rate of ATP hydrolysis were measured as a function of the substrate concentration from multi-site to uni-site conditions with derivatised CF(0)F(1) and with non-derivatised CF(0)F(1). ATP synthesis and ATP hydrolysis under uni-site and under multi-site condition were inhibited by covalent modification of either catalytic site 1 or catalytic sites 1 and 2 together. The results indicate that derivatisation of site 1 inhibits activation of the enzyme and that cooperative interactions occur at least between the catalytic sites 2 and 3.
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PMID:Covalent modification of the catalytic sites of the H(+)-ATPase from chloroplasts with 2-nitreno-ADP. Modification of the catalytic site 1 (tight) and catalytic sites 1 and 2 together impairs both uni-site and multi-site catalysis of ATP synthesis and ATP hydrolysis. 1100 35

The substrate kinetics and the role of free Mg(2+) and free ATP were studied in membrane-bound F(1)-ATPase from crayfish (Orconectes virilis) gills. It was shown that the MgATP complex was the true substrate for the ATPase activity with a K(m) value of 0.327 mM. In the absence of bicarbonate, the maximum azide-sensitive activities in the presence and absence (<18 microM) of free ATP were 0.878 and 0.520 micromol P(i)/mg protein/min, respectively, while the maximum bicarbonate-stimulated activity in absence of free ATP was 1.486 micromol P(i)/mg protein/min. Free ATP was a competitive inhibitor (K(i)=0.77 mM) and free Mg(2+) was a mixed inhibitor (K(i)=0.81 mM, K(i)'=5.89 mM). However, free ATP also acted as an activator. Lineweaver-Burk plots for MgATP hydrolysis at high free Mg(2+) concentrations exhibited an apparent negative cooperativity, which was not the case for high free ATP levels. These results suggest that, although free ATP inhibited the enzyme by binding to catalytic sites, it stimulated ATPase activity by binding to non-catalytic sites and promoted the dissociation of inhibitory MgADP from the catalytic site.
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PMID:Kinetic studies on mitochondrial F(1)-ATPase from crayfish (Orconectes virilis) gills. 1120 46

Incubation of the isolated H(+)-ATPase from chloroplasts, CF(0)F(1), with 2-azido-[alpha-(32)P]ATP leads to the binding of this nucleotide to different sites. These sites were identified after removal of free nucleotides, UV-irradiation and trypsin treatment by separation of the tryptic peptides by ion exchange chromatography. The nitreno-AMP, nitreno-ADP and nitreno-ATP peptides were further separated on a reversed phase column, the main fractions were subjected to amino acid sequence analysis and the derivatized tyrosines were used to distinguish between catalytic (beta-Tyr362) and non-catalytic (beta-Tyr385) sites. Several incubation procedures were developed which allow a selective occupation of each of the three non-catalytic sites. The non-catalytic site with the highest dissociation constant (site 6) becomes half maximally filled at 50 microM 2-azido-[alpha-(32)P]ATP, that with the intermediate dissociation constant (site 5) at 2 microM. The ATP at the site with the lowest dissociation constant had to be hydrolyzed first to ADP before a replacement by 2-azido-[alpha-(32)P]ATP was possible. CF(0)F(1) with non-covalently bound 2-azido-[alpha-(32)P]ATP and after covalent derivatization was reconstituted into liposomes and the rates of ATP synthesis as well as ATP hydrolysis were measured after energization of the proteoliposomes by Delta pH/Delta phi. Non-covalent binding of 2-azido-ATP to any of the three non-catalytic sites does not influence ATP synthesis and ATP hydrolysis, whereas covalent derivatization of any of the three sites inhibits both, the degree being proportional to the degree of derivatization. Extrapolation to complete inhibition indicates that derivatization of one site (either 4 or 5 or 6) is sufficient to block completely multi-site catalysis. The rates of ATP synthesis and ATP hydrolysis were measured as a function of the ADP and ATP concentration from uni-site to multi-site conditions with covalently derivatized and non-derivatized CF(0)F(1). Uni-site ATP synthesis and ATP hydrolysis were not inhibited by covalent derivatization of any of the non-catalytic sites, whereas multi-site catalysis is inhibited. These results indicate that multi-site catalysis requires some flexibility between beta- and alpha-subunits which is abolished by covalent derivatization of beta-Tyr385 with a 2-nitreno-adenine nucleotide. Conformational changes connected with energy transduction between the F(0)-part and the F(1)-part are either not required for uni-site ATP synthesis or they are not impaired by the derivatization of any of the three beta-Tyr385.
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PMID:Covalent modification of the non-catalytic sites of the H(+)-ATPase from chloroplasts with 2-azido-[alpha-(32)P]ATP and its effect on ATP synthesis and ATP hydrolysis. 1134 74

Bicarbonate, an activating anion of ATP hydrolysis, inhibited ATP synthesis coupled to succinate oxidation in beef heart submitochondrial particles but diminished the lag time and increased the steady-state velocity of the (32)Pi-ATP exchange reaction. The latter effects exclude the possibility that bicarbonate is inducing an intrinsic uncoupling between ATP hydrolysis and proton translocation at the level of F(1)F(o) ATPase. The inhibition of ATP synthesis was competitive with respect to ADP at low fixed [Pi], mixed at high [Pi] and non-competitive towards Pi at any fixed [ADP]. From these results we can conclude that (i) bicarbonate does not bind to a Pi site in the mitochondrial F(1); (ii) it competes with the binding of ADP to a low-affinity site, likely the low-affinity non-catalytic nucleotide binding site. It is postulated that bicarbonate stimulates ATP hydrolysis and inhibits ATP synthesis by modulating the relative affinities of the catalytic site for ATP and ADP.
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PMID:Inhibition of steady-state mitochondrial ATP synthesis by bicarbonate, an activating anion of ATP hydrolysis. 1177 57

The gastric proton pump, H(+),K(+)-ATPase, consists of the catalytic alpha-subunit and the non-catalytic beta-subunit. Correct assembly between the alpha- and beta-subunits is essential for the functional expression of H(+),K(+)-ATPase. The beta-subunit contains nine conserved cysteine residues; two are in the cytoplasmic domain, one in the transmembrane domain, and six in the ectodomain. The six cysteine residues in the ectodomain form three disulfide bonds. In this study, we replaced each of the cysteine residues of the beta-subunit with serine individually and in several combinations. The mutant beta-subunits were co-expressed with the alpha-subunit in human embryonic kidney 293 cells, and the role of each cysteine residue or disulfide bond in the alpha/beta assembly, stability, and cell surface delivery of the alpha- and beta-subunits and H(+),K(+)-ATPase activity was studied. Mutant beta-subunits with a replacement of the cytoplasmic and transmembrane cysteines preserved H(+),K(+)-ATPase activity. All the mutant beta-subunits with replacement(s) of the extracellular cysteines did not assemble with the alpha-subunit, resulting in loss of H(+),K(+)-ATPase activity. These mutants did not permit delivery of the alpha-subunit to the cell surface. Therefore, each of these disulfide bonds of the beta-subunit is essential for assembly with the alpha-subunit and expression of H(+),K(+)-ATPase activity as well as for cell surface delivery of the alpha-subunit.
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PMID:Mutational study on the roles of disulfide bonds in the beta-subunit of gastric H+,K+-ATPase. 1190 58

ABCR, also known as ABCA4, is a member of the superfamily of ATP binding cassette transporters that is believed to transport retinal or retinylidene-phosphatidylethanolamine across photoreceptor disk membranes. Mutations in the ABCR gene are responsible for Stargardt macular dystrophy and related retinal dystrophies that cause severe loss in vision. ABCR consists of two tandemly arranged halves each containing a membrane spanning segment followed by a large extracellular/lumen domain, a multi-spanning membrane domain, and a nucleotide binding domain (NBD). To define the role of each NBD, we examined the nucleotide binding and ATPase activities of the N and C halves of ABCR individually and co-expressed in COS-1 cells and derived from trypsin-cleaved ABCR in disk membranes. When disk membranes or membranes from co-transfected cells were photoaffinity labeled with 8-azido-ATP and 8-azido-ADP, only the NBD2 in the C-half bound and trapped the nucleotide. Co-expressed half-molecules displayed basal and retinal-stimulated ATPase activity similar to full-length ABCR. The individually expressed N-half displayed weak 8-azido-ATP labeling and low basal ATPase activity that was not stimulated by retinal, whereas the C-half did not bind ATP and exhibited little if any ATPase activity. Purified ABCR contained one tightly bound ADP, presumably in NBD1. Our results indicate that only NBD2 of ABCR binds and hydrolyzes ATP in the presence or absence of retinal. NBD1, containing a bound ADP, associates with NBD2 to play a crucial, non-catalytic role in ABCR function.
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PMID:Functional interaction between the two halves of the photoreceptor-specific ATP binding cassette protein ABCR (ABCA4). Evidence for a non-exchangeable ADP in the first nucleotide binding domain. 1288 72

A and B subunits of the V-type Na+-ATPase from Enterococcus hirae were suggested to possess nucleotide binding sites (Murata, T. et al., J. Biochem., 132, 789-794 (2002)), although the B subunit did not have the consensus sequence for nucleotide binding. To further characterize the binding sites in the V-ATPase, we did the photoaffinity labeling study using 8-azido-[alpha-32P]ATP. A and B subunits were labeled with 8-azido-[alpha-32P]ATP when analysed with SDS polyacrylamide gel electrophoresis. The peptide fragment of A subunit obtained by lysyl endopeptidase digestion after labeling showed a molecular size of 9 kDa and its amino acid sequencing revealed that it corresponded to residues Arg423-Lys494. The peptide fragment from B subunit after photoaffinity labeling and lysyl endopeptidase digestion showed the size of 5 kDa and corresponded to residues Phe404-Lys443. In our structure model, these peptides were close to the adenine ring of ATP. We suggest that non-catalytic B subunit of E. hirae V-ATPase has a nucleotide binding site, similarly to eukaryotic V-ATPases and F-ATPases.
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PMID:Identification of nucleotide binding sites in V-type Na+-ATPase from Enterococcus hirae. 1498 Dec 90

Mammalian SWI/SNF-related chromatin remodeling complexes are required for transcription controls that underlie differentiation, development, and tumor suppression. The complexes each consist of an ATPase of the SWI2/SNF2 family and approximately seven stably associated non-catalytic subunits. In spite of the importance of these complexes to biological processes, monoclonal antibodies to the various subunits have not been readily available. Mammalian complexes can vary in subunit composition, but the BAF155 (SMARCC1) subunit and a closely related protein, BAF170 (SMARCC2), appear to be ubiquitous components. Here we report the development of antibodies raised against a BAF155-derived peptide. The antibodies were raised against a single peptide of 18 amino acids. However, hybridomas expressing antibodies of two different specificities were isolated. One, designated DXD7, is specific for BAF155. The other, designated DXD12, is reactive with both BAF155 and BAF170. The antibodies are reactive against both native and denatured proteins, and are suitable for immunoprecipitation and Western blots. The DXD7 antibody is suitable additionally for immunofluorescence assays.
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PMID:Monoclonal antibodies reactive with the BAF155 (SMARCC1) and BAF170 (SMARCC2) components of human SWI/SNF-related complexes. 1578 10

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