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 white, brown, and scarlet genes of Drosophila melanogaster encode three proteins that belong to the Traffic ATPase superfamily of transmembrane permeases and are involved in the transport of guanine and tryptophan (precursors of the red and brown eye pigments). We have determined the nucleotide sequences of two mutant white alleles (wco2 and wBwx) that cause reduced red pigmentation but have no effect on brown pigmentation. In wco2 the effect is only observed when interacting with the bw6 allele or a newly isolated allele (bwT50). These alleles of the brown gene were cloned and sequenced. In wco2 the codon for glycine 588 is changed to encode serine; in wBwx the triplet ATC encoding isoleucine 581 is deleted; asparagine 638 is changed to threonine in bw6, and glycine 578 is changed to aspartate in bwT50. No other relevant changes to the gene structures were detected. P-element-mediated germline transduction was used to construct a fly strain containing a white gene with a mutation of the nucleotide binding domain. Such flies had white eyes, indicating that the mutated white gene was unable to support either guanine or tryptophan transport. The implications of these mutations are discussed in terms of a model of the Drosophila pigment precursor transport system.
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PMID:Mutational analysis of the traffic ATPase (ABC) transporters involved in uptake of eye pigment precursors in Drosophila melanogaster. Implications for structure-function relationships. 814 19

We present the nucleotide sequence of a 5207-bp-long region of the mitochondrial genome of the dermatophyte Trichophyton rubrum. This represents about 1/5th of the total genome and extends a previous study. From the 5' end of the present sequence, the order of genes is as follows: the end of the ND4 gene, the gene coding for subunit 6 of ATPase, the gene coding for the small ribosomal RNA (SSU rRNA), the tyrosyl tRNA gene, the ND6 gene, the COXIII gene, the ATPase 8 subunit gene and a cluster of tRNAs genes corresponding respectively to the lysine, glutamine, asparagine, isoleucine and tryptophan isoacceptors. The interesting features of this region are its compact organisation, the presence of subunit 8 of the ATPase gene and the secondary structure of SSU rRNA which is close to that of Aspergillus nidulans. On the basis of the order of the genes, which is essentially similar to that of A. nidulans, we can also assume that the LSU rRNA subunit gene should be just upstream of this sequenced region.
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PMID:Organisation of the mitochondrial genome of Trichophyton rubrum. DNA sequence analysis of the ND4 gene, the ATPase subunit-6 gene, the ribosomal RNA small-subunit gene, the ND6 gene, the COXIII gene, the ATPase subunit-8 gene and six tRNA genes that correspond respectively to the tyrosine, lysine, glutamine, asparagine, isoleucine and tryptophan isoacceptors. 859 86

1. Relaxation of airway smooth muscle induced by vasoactive intestinal peptide (VIP) is mediated by adenosine 3':5' cyclic monophosphate (cyclic AMP). An interaction between the synthesis of cyclic AMP and enzymic activity of the plasmalemmal sodium pump (Na(+)-K(+)-ATPase) exists in certain isolated cell systems. This study sought to determine the contribution of Na(+)-K(+)-ATPase activity to relaxation of airway smooth muscle evoked by VIP. 2. All experiments were performed on isolated strips of guinea-pig trachea from which the epithelium had been removed. VIP was a more potent relaxant in tissues that were contracted with carbachol than those contracted with an equi-effective depolarizing concentration of K+. 3. Ouabain (0.1 microM-10 microM) induced contraction of tracheal strips. Contraction to ouabain (5 microM) was abolished following incubation of tissues with K(+)-free, or Ca(2+)-free (+ EGTA, 0.1 mM) physiological solutions. The contractile response to ouabain (5 microM) was not influenced significantly by exposure of the tissues to atropine (1 microM), phentolamine (5 microM) and diphenhydramine (1 microM) for 60 min. 4. Tissues were incubated with ouabain (5 microM; 60 min) or K(+)-free physiological solution (60 min) to inhibit Na(+)-K(+)-ATPase activity. These procedures reduced relaxation induced by VIP, peptide histidine isoleucine, forskolin, isoprenaline and sodium nitroprusside. 5. Relaxation to VIP was impaired significantly following exposure of tissues to a low Na+ solution (30 min) or amiloride (500 microM; 30 min). 6. Ouabain-sensitive uptake of 86Rb was measured in tracheal strips (devoid of epithelium and cartilage) as an index of Na(+)-K(+)-ATPase activity. VIP (1 microM; 2 min) caused a 4.7 fold stimulation of ouabain-sensitive uptake of 86Rb. This effect was impaired significantly by low Na+ solution. 7. The results suggest that (i) relaxation of tracheal smooth muscle to VIP is sensitive to procedures that inhibit activity of Na(+)-K(+)-ATPase and invoke a role for altered sodium pump function in the mechanisms that underlie cyclic AMP-dependent relaxation; and (ii) VIP stimulates ouabain-sensitive uptake of 86Rb in airway smooth muscle in a Na(+)-dependent manner.
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PMID:Stimulation of sodium pump by vasoactive intestinal peptide in guinea-pig isolated trachea: potential contribution to mechanisms underlying relaxation of smooth muscle. 876 78

We tested the hypothesis that nutritional state affects seawater acclimation by transferring either fed or food-deprived (2 weeks) male tilapia (Oreochromis mossambicus) from fresh water to full-strength sea water. Food-deprivation resulted in a significant increase in plasma concentrations of Na+, Cl-, cortisol, glucose, total amino acid, glutamate, serine and alanine, and in hepatic pyruvate kinase (PK) and lactate dehydrogenase (LDH) activities, whereas the prolactin-188 to prolactin-177 ratio (tPRL188:tPRL177) and plasma prolactin-188 (tPRL188), lactate, arginine and hepatic glycogen content and hepatic alanine aminotransferase (AlaAT) and 3-hydroxyacyl-Coenzyme A dehydrogenase (HOAD) activities were lower than in the fed group. Seawater transfer significantly increased the tPRL188:tPRL177 ratio and plasma concentrations of Na+, Cl-, K+, growth hormone (GH), glucose, aspartate, tyrosine, alanine, methionine, phenylalanine, leucine, isoleucine and valine levels as well as gill Na+/K+-ATPase activity and hepatic PK and LDH activities, whereas plasma tPRL177, tPRL188, glycine and lysine concentrations were significantly lower than in fish retained in fresh water. There was a significant interaction between nutritional state and salinity that affected the tPRL188:tPRL177 ratio and plasma concentrations of Cl-, GH, glucose, aspartate, tyrosine, serine, alanine, glycine, arginine and hepatic PK, LDH, AlaAT, aspartate aminotransferase, glutamate dehydrogenase and HOAD activities. These results, taken together, indicate that food-deprived fish did not regulate their plasma Cl- levels, despite an enhancement of plasma hormonal and metabolic responses in sea water. Our study also suggests the possibility that plasma prolactin and essential amino acids may be playing an important role in the seawater acclimation process in tilapia.
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PMID:Food-deprivation affects seawater acclimation in tilapia: hormonal and metabolic changes 932 Mar 94

The highly conserved lysine residue Lys758 in the fifth stalk segment of the sarcoplasmic reticulum Ca2+-ATPase was substituted with either isoleucine or arginine by site-directed mutagenesis. The substitution with arginine was without significant effects on Ca2+-ATPase function, whereas multiple changes of functional characteristics were observed with the Lys758 --> Ile mutant. These included insensitivity of ATPase activity to the calcium ionophore A23187, an alkaline shift of the pH dependence of ATPase activity, reduced maximum molecular turnover rate and steady-state phosphorylation level, reduced apparent affinities for Ca2+ and inorganic phosphate, as well as increased sensitivity to inhibition by vanadate. Analysis of the partial reaction steps of the enzyme cycle traced these changes to two steps. The rate of dephosphorylation of the ADP-insensitive phosphoenzyme intermediate (E2P) was increased, irrespective of variations of pH, K+, Ca2+, and dimethyl sulfoxide concentration. In addition, the rate of conversion of the dephosphoenzyme with low Ca2+ affinity (E2) to the Ca2+-bound form activated for phosphorylation (E1Ca2) was reduced in the mutant, and the ATP-induced rate enhancement of this step required higher ATP concentrations in the mutant compared with the wild type.
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PMID:Mutation Lys758 --> Ile of the sarcoplasmic reticulum Ca2+-ATPase enhances dephosphorylation of E2P and inhibits the E2 to E1Ca2 transition. 937 9

The SecYEG complex constitutes a protein conducting channel across the bacterial cytoplasmic membrane. It binds the peripheral ATPase SecA to form the translocase. When isoleucine 278 in transmembrane segment 7 of the SecY subunit was replaced by a unique cysteine, SecYEG supported an increased preprotein translocation and SecA translocation ATPase activity, and allowed translocation of a preprotein with a defective signal sequence. SecY(I278C)EG binds SecA with a higher affinity than normal SecYEG, in particular in the presence of ATP. The increased translocation activity of SecY(I278C)EG was confirmed in a purified system consisting of SecYEG proteoliposomes, while immunoprecipitation in detergent solution reveal that translocase-preprotein complexes are more stable with SecY(I278C) than with normal SecY. These data imply an important role for SecY transmembrane segment 7 in SecA binding. As improved SecA binding to SecY was also observed with the prlA4 suppressor mutation, it may be a general mechanism underlying signal sequence suppression.
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PMID:A single amino acid substitution in SecY stabilizes the interaction with SecA. 1044 51

An isoleucine/valine polymorphism was observed at codon 1464 of the ATP7A gene, which is thought to encode a copper transporting adenosine triphosphatase (ATPase). The frequency of Val1464 was estimated to be 5.7% in the Japanese population. This polymorphism may be useful in genetic studies of Menkes disease.
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PMID:An Ile/Val polymorphism at codon 1464 of the ATP7A gene. 1057 Sep 20

Phospholamban is a pentameric transmembrane phosphoprotein that regulates the activity of the Ca(2+)-transporting ATPase (SERCA2a) in cardiac sarcoplasmic reticulum. To better understand the structure and function of phospholamban and its mode of regulation of the ATPase, phospholamban and SERCA2a were coexpressed at high levels in Sf21 insect cells using the baculovirus expression system. SERCA2a was expressed as a functionally active Ca2+ pump, accounting for > or = 20% of the total protein in Sf21 cell microsomes. Wild-type phospholamban, as well as phospholamban with different point mutations in the transmembrane region, inhibited both Ca2+ transport and ATP hydrolysis by the recombinant Ca2+ pump. The inhibition of SERCA2a activity was reversed by an anti-phospholamban monoclonal antibody. The phospholamban molecules studied decreased the apparent Ca2+ affinity of the Ca2+ pump, but had no effect on enzyme velocity measured at saturating Ca2+ concentration. Monomeric phospholamban produced by mutations in the leucine/isoleucine zipper domain decreased the apparent Ca2+ affinity the most, giving stronger inhibition of the Ca2+ pump than even wild-type phospholamban. Thus, the baculovirus cell expression system is ideally suited for examining functional interactions between phospholamban and SERCA2a. The results obtained suggest that the phospholamban monomer may be the active species inhibiting the Ca2+ pump in the cardiac sarcoplasmic reticulum membrane.
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PMID:High-level coexpression of the canine cardiac calcium pump and phospholamban in Sf21 insect cells. 1060 39

In order to test molecular models of cardiac calcium transport regulation, we have used spectroscopy to probe the structures, dynamics, and interactions of the Ca pump (Ca-ATPase) and phospholamban (PLB) in cardiac sarcoplasmic reticulum (SR) and in reconstituted membranes. Electron paramagnetic resonance (EPR) and phosphorescence of probes bound to the Ca pump show that the activity of the pump is quite sensitive to its oligomeric interactions. In cardiac SR, PLB aggregates and inhibits the pump, and both effects are reversed by PLB phosphorylation. Previous analyses of PLB's oligomeric state were only in detergent solutions, so we used EPR and fluorescence to determine the oligomeric structure of PLB in its native state in lipid bilayers. Wild-type PLB is primarily oligomeric in the membrane, while the mutant L37A-PLB is monomeric. For both proteins, phosphorylation shifts the dynamic monomer-oligomer equilibrium toward oligomers, and induces a similar structural change, as indicated by tyrosine fluorescence; yet L37A-PLB is more effective than wild-type PLB in inhibiting and aggregating the pump. Fluorescence energy transfer shows that the Ca pump increases the fraction of monomeric PLB, indicating that the pump preferentially binds monomeric PLB. These results support a reciprocal aggregation model for Ca pump regulation, in which the Ca pump is aggregated and inhibited by association with PLB monomers, and phosphorylation of PLB reverses these effects while decreasing the concentration of PLB monomers. To investigate the structure of the PLB pentamer in more detail, we measured the reactivities of cysteine residues in the transmembrane domain of PLB, and recorded EPR spectra of spin labels attached to these sites. These results support an atomic structural model, based on molecular dynamics simulations and mutagenesis studies, in which the PLB pentamer is stabilized by a leucine-isoleucine zipper within the transmembrane domain.
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PMID:Direct spectroscopic detection of molecular dynamics and interactions of the calcium pump and phospholamban. 1060 46

By means of a functional expression system and site-directed mutagenesis, we analyzed the role of the putative K(+)-binding site, Glu-345, located in the fourth transmembrane segment of the gastric H(+),K(+)-ATPase alpha-subunit. In the present study, we used several mutants, with alanine, isoleucine, leucine, glutamine, valine, lysine, and aspartic acid instead of Glu-345, and analyzed the H(+),K(+)-ATPase partial reactions of the mutants to determine the precise role of this residue. All the mutants except E345Q exhibited no H(+),K(+)-ATPase activity. The E345Q mutant showed 3-times higher affinity for ATP. This mutation shifted the optimum pH toward a more alkaline one. The E345A, E345I, E345L, E345V as well as E345Q mutants were phosphorylated with ATP as in the case of the wild-type H(+),K(+)-ATPase, whereas the E345K mutant was not phosphorylated. The E345Q mutant was dephosphorylated in the presence of K(+), but its affinity for K(+) was significantly lower than that of the wild type. The E345A, E345I, E345L, and E345V mutants did not exhibit sensitivity to K(+) in the dephosphorylation step below 3 mM K(+). Therefore, Glu-345 is important for the conformational change induced by K(+), especially in the dephosphorylation step in which K(+) reacts with the enzyme from the luminal side with high affinity and accelerates the release of inorganic phosphate. The glutamic acid in the fourth transmembrane segment is conserved, and was found to be involved in the cation-induced conformational change in H(+),K(+)-ATPase as well as Na(+),K(+)-ATPase and Ca(2+)-ATPase, however, the precise roles of the side chain in the function were different.
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PMID:Mutational analysis of the putative K(+)-binding site on the fourth transmembrane segment of the gastric H(+),K(+)-ATPase. 1083 67

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