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)

Site-specific mutagenesis was used to investigate the functional roles of amino acids in the relatively hydrophobic sequence Ile-Thr-Thr-Cys-Leu-Ala-320, located at the M4S4 boundary of the sarcomplasmic reticulum Ca(2+)-ATPase. Each of the residues was replaced with either a less hydrophogic, a polar, or a charged residue. Mutants Ile-315----Arg and Leu-319----Arg were devoid of any Ca2+ transport function or ATPase activity, while the mutant Thr-317----Asp retained about 5 and 7% of the wild-type Ca2+ transport and ATPase activities, respectively. These three mutants were able to form the ADP-sensitive phosphoenzyme intermediate (E1P) by reaction with ATP, but this intermediate decayed very slowly to the ADP-insensitive phosphoenzyme intermediate (E2P). In the mutants Ile-315----Arg and Leu-319----Arg, the level of E2P formed in the backward reaction with inorganic phosphate was extremely low, but hydrolysis of E2P occurred at a normal rate. These mutants, in addition, displayed a higher apparent affinity for Ca2+ than the wild-type enzyme. In the mutants Ile-315----Ser and Ile-315----Asp, the Ca2+ transport and ATPase activities were moderately reduced to 30-40% of the wild-type activities, but normal affinities for Ca2+, Pi, and ATP were retained, as was the low affinity modulatory effect of ATP. Mutation of Thr-316 to Asp, Thr-317 to Ala, Cys-318 to Ala and Ala-320 to Arg had little or no effect on Ca2+ transport or ATPase activities. Introduction of two negative and one positive charge by triple mutation of the Ile-Thr-Thr-317 sequence created a mutant enzyme that, although completely inactive, was inserted into the membrane, consistent with a location of these residues on the cytoplasmic side of the M4S4 interface. Our findings suggest that the amphipathic character of the S4 helix and/or the distribution of charges in S4 is important for the stability of the E2P intermediate.
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PMID:Functional consequences of alterations to hydrophobic amino acids located at the M4S4 boundary of the Ca(2+)-ATPase of sarcoplasmic reticulum. 183

A synthetic, 28-residue peptide derived from the calmodulin-binding sequence of the plasma membrane Ca2+ pump (C28W) inhibits the ATPase activity of a calpain-produced, truncated fragment of the enzyme. The fragment, which has lost the calmodulin-binding domain, has a molecular mass of 124 kDa and is fully active in the absence of calmodulin. Replacement of Trp-8 in the peptide by an Ala decreases the overall inhibitory activity, while replacement with a Tyr increases it. However, at very low peptide concentrations the effect of Tyr replacement disappears. The synthetic peptide has been made photoactivatable by replacing Phe in position 9 with a synthetic phenylalanine analogue containing a diazirine group and was radioactively labeled by coupling a [3H]acetyl function to its N terminus. After cross-linking with the derivatized peptide, the 124-kDa fragment has been proteolyzed with either Lys-C, Asp-N, or V8 proteases, and the fragment(s) have been separated. Partial sequencing of the cross-linked, radioactive peptides has identified a site of the pump located C terminally to the phosphoenzyme-forming aspartic acid, spanning residues 537-544 of the hPMCA4 isoform of the enzyme. It is concluded that this sequence is part of a site which binds the calmodulin-binding domain of the pump.
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PMID:The plasma membrane Ca2+ pump contains a site that interacts with its calmodulin-binding domain. 184 39

We recently reported that autophosphorylated rat brain protein kinase C (PKC) catalyzes a Ca2(+)- and phosphatidylserine- (PS-) dependent ATPase reaction. The Ca2(+)- and PS-dependent ATPase and histone kinase reactions of PKC each had a Km app(ATP) of 6 microM. Remarkably, the catalytic fragment of PKC lacked detectable ATPase activity. In this paper, we show that subsaturating concentrations of protein substrates accelerate the ATPase reaction catalyzed by PKC and that protein and peptide substrates of PKC induce ATPase catalysis by the catalytic fragment. At subsaturating concentrations, histone III-S and protamine sulfate each accelerated the ATPase activity of PKC in the presence of Ca2+ and PS by as much as 1.5-fold. At saturating concentrations, the protein substrates were inhibitory. Poly(L-lysine) failed to accelerate the ATPase activity, indicating that the acceleration observed with histone III-S and protamine sulfate was not simply a result of their gross physical properties. Furthermore, histone III-S induced the ATPase activity of the catalytic fragment of PKC, at both subsaturating and saturating histone concentrations. The induction of ATPase activity was also elicited by the peptide substrate Arg-Arg-Lys-Ala-Ser-Gly-Pro-Pro-Val, when the peptide was present at concentrations near its Km app. The induction of the ATPase activity by the nonapeptide provides strong evidence that the binding of phospho acceptor substrates to the active site of PKC can stimulate ATP hydrolysis. Taken together, our results indicate that PKC-catalyzed protein phosphorylation is inefficient, since it is accompanied by Pi production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of the ATPase activity of rat brain protein kinase C by phospho acceptor substrates of the enzyme. 184 1

The rat gastric H+,K(+)-ATPase alpha subunit gene was cloned and the nucleotide sequence of its 5'-upstream region was determined. Sequence comparison with the corresponding part of the human gene indicated the presence of highly conserved regions which may be important for specific transcription of the alpha subunit in gastric parietal cells. The amino-terminal sequence (Met-Gly-Lys-Ala-Glu-) of the rat enzyme was similar to those of the pig and human enzymes. The gene organization of the rat enzyme was also similar to that of the human gene: introns 1, 2 and 9 were located in exactly the same positions as those in the human gene, and, as in the latter, exon 6 was not separated by an intron. The sequences of introns 1 and 2 were highly conserved among the rat, human and pig genes, but were entirely different from those of Na+,K(+)-ATPase catalytic subunit genes. Northern blot hybridization indicated that the gene was transcribed only in gastric mucosa.
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PMID:Control region and gastric specific transcription of the rat H+,K(+)-ATPase alpha subunit gene. 184 40

In mammalian hepatocytes the L-alanine carrier contains a sulfhydryl group that is essential for its activity and is inhibited by mercurials. In hepatocytes of the evolutionarily primitive little skate (Raja erinacea), HgCl2 inhibits Na(+)-dependent alanine uptake and Na+/K(+)-ATPase and increase K+ permeability. To distinguish between direct effects of HgCl2 on the Na(+)-alanine cotransporter and indirect effects on membrane permeability, [3H]alanine transport was studied in plasma membrane vesicles. [3H]Alanine uptake was stimulated by an "out-to-in" Na+ but not K+ gradient and was saturable confirming the presence of Na(+)-alanine cotransport in liver plasma membranes from this species. Preincubation of the vesicles with HgCl2 for 5 min reduced initial rates of Na(+)-dependent but not Na(+)-independent alanine uptake in a dose-dependent manner (10-200 microM). In the presence of equal concentrations of NaCl or KCl inside and outside of the vesicles, 75 microM HgCl2 directly inhibited sodium-dependent alanine-[3H]alanine exchange, demonstrating that HgCl2 directly affected the alanine cotransporter. Inhibition of Na(+)-dependent alanine uptake by 30 microM HgCl2 was reversed by dithiothreitol (1 mM). HgCl2 (10-30 microM) also increased initial rates of 22Na uptake (at 5 sec), whereas 22Na uptake rates were decreased at HgCl2 concentrations greater than 50 microM. Higher concentrations of HgCl2 (100-200 microM) produced nonspecific effects on vesicle integrity. These studies indicate that HgCl2 inhibits Na(+)-dependent alanine uptake in skate hepatocytes by three different concentration-dependent mechanisms: direct interaction with the transporters, dissipation of the driving force (Na+ gradient), and loss of membrane integrity. Inactivation of the Na(+)-coupled alanine carrier by mercury in hepatocytes of this evolutionarily primitive vertebrate, as in mammals, suggests that the sulfhydryl groups on this transport protein are highly conserved.
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PMID:Mechanism of mercurial inhibition of sodium-coupled alanine uptake in liver plasma membrane vesicles from Raja erinacea. 199 17

Some indices of nonspecific reactivity: the number of cyclic immunological complexes, titer of antibodies, activity of alkaline and acid phosphatases, alanine aminotranspherase, mitochondrial liver H(+)-ATPase, content of glutathione ceruloplasmin transferrin are stated to change in the model of food anaphylaxis in 37 guinea pigs, 26 rats and 12 rabbits orally sensitized with hen egg protein and they are estimated prior to and after the allergy development.
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PMID:[Nonspecific allergy indices in oral sensitization by chicken egg white]. 205 32

Cloned uncG genes (wild-type or in vitro mutagenized) for the Escherichia coli gamma subunit were introduced into the uncG mutant Gln-14----end), and the functions of the mutant subunits were studied. The F1's with Ala-283----end and Thr-277----end mutant gamma subunits had 63 and 14% of the wild-type ATPase activity, respectively, and mutants with these subunits showed reduced growth by oxidative phosphorylation, indicating that the 10 residues at the carboxyl terminus (286th residue) are important, but dispensable, for catalysis. On the other hand, F1 with a Gln-269----end gamma subunit was inactive. Replacement of conserved residues (Gln-269, Thr-273, or Glu-275) between Gln-269 and Leu-276 gave enzymes with significantly reduced ATPase activity (2-41% of that of the wild-type) and lower ATP-driven proton conduction. Thus these residues are required for the normal catalytic activity of F1, although they are not absolutely essential. Membranes with amino acid replacements (Thr-277----end, Gln-269----Leu, or Glu-275----Lys) and the frameshift mutation (downstream of Thr-277) had about 15% of the wild-type ATPase activity, but showed different degrees of ATP-dependent H+ translocation and growth yield by oxidative phosphorylation, suggesting that the gamma subunit, especially its carboxyl-terminal region, functions in coupling between catalysis and H+ translocation.
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PMID:H(+)-ATPase gamma subunit of Escherichia coli. Role of the conserved carboxyl-terminal region. 213 24

Vanadate-sensitized photocleavage of the Ca2(+)-ATPase of rabbit sarcoplasmic reticulum was observed upon illumination of sarcoplasmic reticulum vesicles or the purified Ca2(+)-ATPase by ultraviolet light in the presence of 1 mM monovanadate or decavanadate. The site of the photocleavage is influenced by the Ca2+ concentration of the medium. When the [Ca2+] is maintained below 10 nM by EGTA, the vanadate-catalyzed photocleavage yields fragments of approximately equal to 87 and approximately equal to 22 kDa, while in the presence of 2-20 mM Ca, polypeptides of 71 and 38 kDa are obtained as the principal cleavage products. These observations indicate that the site of the vanadate-catalyzed photocleavage is altered by changes in the conformation of Ca2(+)-ATPase. Selective tryptic proteolysis, at Arg-505-Ala-506, combined with covalent labeling of Lys-515 by fluorescein 5'-isothiocyanate and with the use of anti-ATPase antibodies of defined specificity, permitted the tentative allocation of the sites of photocleavage to the A fragment near the T2 cleavage site in the absence of Ca2+, and to the B fragment between Lys-515 and Asp-659 in the presence of 2-20 mM Ca2+. The loss of ATPase activity during illumination is accelerated by calcium in the presence of vanadate. The vanadate-catalyzed photocleavage in the presence of Ca2+ is consistent with the existence of an ATPase-Ca2(+)-vanadate complex (Markus et al. (1989) Biochemistry 28, 793-799).
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PMID:Vanadate-catalyzed, conformationally specific photocleavage of the Ca2(+)-ATPase of sarcoplasmic reticulum. 213 45

The role of UvrB in determining the nucleotide dependence of Escherichia coli excision repair has been investigated. The mutation of lysine 45 in the ATPase motif of UvrB to alanine leads to an acute defect in ATP hydrolysis and failure to support incision of UV-damaged DNA. This ATP hydrolysis activity is not required for interaction of UvrB with UvrA in solution, or for formation of a damage-independent nucleoprotein complex in the presence of UvrA and nucleotide. This UvrB mutant fails, however, to support damage-specific nucleoprotein complex formation, and does not participate in a UvrA-UvrB-dependent helicase-like activity. We conclude from these results that mutation at lysine 45 in the ATPase motif of UvrB specifically inhibits a key step in nucleotide excision repair involving the UvrB ATPase-dependent translocation of nucleoprotein complexes from undamaged to damaged DNA sites.
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PMID:The role of Escherichia coli UvrB in nucleotide excision repair. 213 58

The ATP synthases of eubacteria and eukaryotes possess a conserved tyrosine (beta 331) that is labeled by ATP analogs and is believed to be at the catalytic site. In this report, this tyrosine was replaced by Phe, Ser, Cys, Gly, and Ala in an attempt to determine its role in catalysis. Each of the beta 331 mutant strains assembled an ATP synthase. Membranes from the beta 331-Ser, -Cys, -Ala, or -Gly strains showed strongly attenuated ATP hydrolysis and ATP-driven proton-pumping activities. The beta 331-Phe membranes showed nearly normal ATPase and functional proton pumping. A new purification procedure yielding highly active unc+ F1 (ATPase rates greater than 1000 s-1) allowed rapid isolation of soluble F1-ATPases. Kinetic analyses of purified enzymes confirmed that the structural and functional properties of beta 331-Tyr can be substituted by Phe but not effectively by Ser, Cys, Ala, or Gly. Since all of the beta 331 mutant enzymes catalyzed measurable ATP hydrolysis, it is clear that beta 331-Tyr is not directly involved in the bond making-breaking steps of catalysis. The ability of the beta 331-Phe enzyme to rapidly bind and hydrolyze ATP, and the results with other beta 331 mutant enzymes, suggests that a residue with an aromatic character is required at this position.
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PMID:Site-directed mutagenesis of the conserved beta subunit tyrosine 331 of Escherichia coli ATP synthase yields catalytically active enzymes. 214 32


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