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)

A Mg2+-dependent ATPase activity has been purified from trout sperm axonemes which has properties characteristic of a dynein ATPase. A polyclonal antiserum prepared against the dynein heavy chains has been used to isolate dynein heavy chain (DYHC) cDNAs from a trout testis lambda gt11 cDNA expression library. beta-galactosidase fusion proteins produced in lambda gt11 by these trout cDNAs cross-reacted with a heterologous anti-sea urchin dynein antiserum. Northern blot analyses demonstrated that the RNA transcripts detected have sizes (7.5 - 12 kb) consistent with those expected for the dynein heavy chains. All the DYHC cDNAs encode portions of a highly unusual DNA coding sequence comprised of 21 bp direct repeats. The predicted open reading frame of this repeat is Ile/Leu-His-Val-Ile-Gln-Tyr-Ser and is characteristic of an extensive alpha-helical coiled-coil domain. The presence of an in-frame translation termination codon indicates that this domain is located at the carboxyl-terminus of the DYHC. Southern blot analyses demonstrated a low, if not single, copy number for this gene and conservation of this domain in other vertebrates. DYHC transcripts reach their highest level in testis, but are also abundant in brain tissue.
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PMID:Isolation of dynein heavy chain cDNAs from trout testis which predict an extensive carboxyl-terminal alpha-helical coiled-coil domain. 252 45

5-Iodoacetamidofluorescein (5-IAF) labels the catalytic (alpha) subunit of dog kidney Na,K-ATPase without inhibiting enzymatic activity and is thus a useful fluorescent reporter of enzyme conformation under conditions of enzyme turnover. In this study conditions for labeling a unique sulfhydryl group are described, and this residue is identified in the cDNA-derived sequence. Reaction with iodoacetate (IAA) prior to fluorescent labeling lowers the stoichiometry of 5-IAF incorporation from 2.1 to 1.2 mol/mol alpha beta protomer, and increases the conformationally dependent fluorescence changes by 40-50%, consistent with the elimination of nonspecific labeling. IAA/IAF-enzyme has the same catalytic activity as the IAF-enzyme. In contrast, treatment with iodoacetamide prior to labeling with 5-IAF abolishes all fluorescence responses, although activity is retained. IAA/IAF-enzyme was digested by extensive trypsinolysis, and the fluorescent peptides released from the membrane were purified by high performance liquid chromatography and sequenced. Several fluorescent peptides were found, containing all or part of the sequence Cys-Ile-Glu-Leu-Cys-Cys-Gly-Ser-Val-Lys, corresponding to residues 452-461 in the sheep alpha subunit. The major site of modification is the second of the vicinal cysteine residues, Cys-457. Phenylarsine oxide, a reagent specific for vicinal sulfhydryl groups, prevents fluorophore incorporation, thereby confirming the identification of the IAF site from the sequence data.
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PMID:Identification of the 5-iodoacetamidofluorescein reporter site on the Na,K-ATPase. 253 22

The human HBL-100 cell line harbours SV40 DNA integrated in tandem at a unique site. The SV40 T-antigen expressed in these cells is defective in a function essential to the replication of the viral genome. The integrated SV40 sequences were molecularly cloned in a bacteriophage, and a subclone (plasmid pSVHBI) containing a complete SV40 DNA was isolated. As compared to SV40 wild-type strain 776, sequence analysis of pSVHBI early region revealed the presence of several DNA alterations. Among these, a point mutation at position 3199, predicting a change at amino-acid 540 of arginine to isoleucine, was shown by marker rescue to be responsible for the deficiency of T-antigen. This novel mutation further delimits one of the T-antigen domains involved in SV40 DNA replication. Transfection experiments demonstrated that the transforming activity of the SV40 genome from HBL-100 cells is still preserved. Moreover, several transformed human cell clones thus obtained could be permanently established in culture.
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PMID:Molecular cloning and characterization of endogenous SV40 DNA from human HBL-100 cells. 254 30

In an attempt to approach the mechanism of action of pulsed electromagnetic fields (PEMF) on biological systems, the effects on protein synthesizing activity and on membrane transport have been examined in rat skin. PEMF characterized by specific physical parameters stimulate the incorporation of L-[U-14C]isoleucine into the proteins of rat skin as well as the alpha-amino[1-14C]isobutyric acid uptake during incubation in buffer medium with extracellular electrolyte composition. Analogous incubation experiments carried out in an intracellular medium results in an inhibitory effect of PEMF on both biological functions. Addition of 10(-3) M ouabain to the incubation medium, partially blocking the Na+/K+-ATPase pump mechanism, apart from reducing amino acid transport, results in an overall disappearance of any stimulatory effects by PEMF. PEMF applied to the skin in the presence of 10(-3) M 2,4-dinitrophenol uncoupling the oxidative phosphorylation in the mitochondria and seriously restricting protein synthesis, still provides a limited stimulatory effect on protein synthesizing activity and on membrane transport. The effects of PEMF may well be understood by an increased availability of precursor elements controlled at the cell membrane level. Indeed the observed effects may even be simulated outside electromagnetic fields by modifications in the electrolyte composition of the incubation medium.
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PMID:Effects of pulsed electromagnetic fields on rat skin metabolism. 274 91

We describe the results of a study designed to identify cDNAs encoding Ca2+-transporting ATPases and other cation-transporting ATPases of the aspartylphosphate class. Rat brain, kidney, and stomach cDNA libraries were screened with an oligonucleotide hybridization probe corresponding to a 23-amino acid sequence from part of the ATP-binding site of the sarcoplasmic reticulum Ca-ATPase. This procedure resulted in the isolation of cDNAs encoding (i) the plasma membrane Ca-ATPase, (ii) an apparent Ca-ATPase that exhibits high amino acid similarity to the sarcoplasmic reticulum Ca2+ pumps, (iii) a transport ATPase of unknown ion specificity and (iv) two Ca-ATPase isoforms encoded by the gene for the slow-twitch muscle sarcoplasmic reticulum Ca-ATPase. Several isoforms of the Na,K-ATPase and gastric H,K-ATPase that had been characterized previously were also identified. The complete nucleotide sequences have been determined for the two classes of cDNA derived from alternatively spliced transcripts of the slow-twitch muscle sarcoplasmic reticulum Ca-ATPase gene. One of these cDNAs, isolated from the stomach library, encodes a Ca-ATPase that is identical to the skeletal muscle enzyme. The second class of cDNA, found in brain, kidney, and stomach libraries, is identical to that of the slow-twitch isoform throughout much of its length but encodes an alternative C terminus and has a different 3'-untranslated sequence. Whereas the muscle isoform consists of 997 amino acids and terminates with the sequence Ala-Ile-Leu-Glu, the second isoform is 1043 amino acids in length due to the replacement of these last 4 amino acids with a 50-amino acid sequence that contains a potential transmembrane domain followed by a consensus sequence for an N-linked glycosylation site.
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PMID:A novel Ca2+ pump expressed in brain, kidney, and stomach is encoded by an alternative transcript of the slow-twitch muscle sarcoplasmic reticulum Ca-ATPase gene. Identification of cDNAs encoding Ca2+ and other cation-transporting ATPases using an oligonucleotide probe derived from the ATP-binding site. 284 97

The ATPase activity of soluble chloroplast coupling factor (CF1) was irreversibly inactivated by phenylglyoxal, an arginine reagent. Under the conditions of inactivation, 2.48 mol of [14C]phenylglyoxal were incorporated per 400,000 g of enzyme when the ATPase was inactivated 50% by the reagent. Isolation of the component polypeptide subunits of the [14C]phenylglyoxal-modified enzyme revealed that the distribution of moles of labeled reagent/mol of subunit was the following: alpha, 0.37; beta, 0.40; gamma, 0.08; delta, none; epsilon, 0.03. CNBr treatment of the isolated alpha and beta subunits and fractionation of the peptides by gel electrophoresis revealed that the radioactivity bound to the alpha subunit was nonspecifically associated with several peptides, while a single peptide derived from the beta subunit contained the majority of the radioactivity associated with this subunit. After treating the isolated beta subunit with trypsin and Staphylococcus aureus protease, a major radioactive peptide was isolated with a sequence Arg-Ile-Thr-Ser-Ile-Lys. This sequence, when compared with the primary structure of the CF1 beta subunit as translated from the gene (Zurawski, G., Bottomley, W., and Whitfeld, P. R. (1982) Proc. Natl. Acad. Sci. U. S. A. 79, 6260-6264) indicated that the arginine marked with the asterisk, the predominant residue modified by phenylglyoxal when the ATPase activity of CF1 is inactivated by the reagent, is Arg 312.
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PMID:Identification of an essential arginine residue in the beta subunit of the chloroplast ATPase. 285 85

Six mutant uncD alleles, affecting essential residues of the beta-subunit of Escherichia coli proton-ATPase, have been identified by intragenic complementation mapping, cloning, and DNA sequencing. Five of the mutations impair catalysis but do not cause structural perturbation of F1-ATPase. The amino acid substitutions found were as follows: uncD412, Gly-142----Ser; uncD430 and uncD431, both Arg-246----Cys; uncD478, Ser-174----Phe; and uncD484, Met-209----Ile. Kinetic characteristics of each corresponding mutant F1-ATPase are described or reviewed. In each case, the major determinant of impaired catalysis appears to be an attenuation of positive catalytic site cooperativity. Additionally, each mutation affects intrinsic properties of the catalytic site, including affinity for ATP, the ratio between unisite-bound substrate and products, and the rate of release of product inorganic phosphate under unisite ATP hydrolysis conditions. These effects are discussed in terms of a structural model of the catalytic nucleotide-binding domain of beta-subunit proposed recently (Duncan, T.M., Parsonage, D., and Senior, A.E. (1986) FEBS Lett. 208, 1-6). Each of the mutations lies within that domain. The uncD409 allele abolishes normal assembly of F1-ATPase. The amino acid substitution is Gly-214----Arg, which is suggested to affect a beta-turn connecting a beta-strand and an alpha-helix in the predicted nucleotide-binding domain of the beta-subunit.
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PMID:The defective proton-ATPase of uncD mutants of Escherichia coli. Identification by DNA sequencing of residues in the beta-subunit which are essential for catalysis or normal assembly. 288 84

Oligonucleotide-directed mutagenesis was used to generate six mutant strains of Escherichia coli which had the following specific amino acid substitutions in the beta-subunit of F1-ATPase: (i) Lys-155----Gln; (ii) Lys-155----Glu; (iii) Gly-149----Ile; (iv) Gly-154----Ile; (v) Tyr-297----Phe;(vi) Tyr-354----Phe. The effects of each mutation on growth of cells on succinate plates or limiting (3 mM) glucose and on cell membrane ATPase activity and ATP-driven pH gradient formation were studied. The results showed Lys-155 to be essential for catalysis, as has been predicted previously from sequence homology and structural considerations; however, the results appear to contradict the hypothesis that Lys-155 interacts with one of the substrate phosphate groups because the Lys-155----Glu mutation was less detrimental than Lys-155----Gln. Gly-149 and Gly-154 have been predicted to be involved in essential conformational changes in F1-ATPase by virtue of their position in a putative glycine-rich flexible loop structure. The mutation of Gly-154----Ile caused strong impairment of catalysis, but the Gly-149----Ile mutation produced only moderate impairment. The two tyrosine residues chosen for mutation were residues which have previously received much attention due to their being the sites of reaction of the inactivating chemical modification reagents 4-chloro-7-nitrobenzofurazan (Tyr-297) and p-fluorosulfonylbenzoyl-5'-adenosine (Tyr-354). We found that mutation of Tyr-297----Phe caused only minor impairment of catalysis, and mutation of Tyr-354----Phe produced no impairment. Therefore, a direct role for either of these tyrosine residues in catalysis is unlikely.
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PMID:Directed mutagenesis of the beta-subunit of F1-ATPase from Escherichia coli. 288 16

Three mutations in the uncB gene encoding the a-subunit of the F0 portion of the F0F1-ATPase of Escherichia coli were produced by site-directed mutagenesis. These mutations directed the substitution of Glu-219 by Gln, or of Lys-203 by Ile, or of Glu-196 by Ala. Strains carrying either the Lys-203 or Glu-196 substitutions showed growth characteristics indistinguishable from the coupled control strain. Properties of membrane preparations from these strains were also similar to those from the coupled control strain. The substitution of Glu-219 by Gln resulted in a strain which was unable to utilise succinate as sole carbon source and had a growth-yield characteristic of an uncoupled strain. Membrane preparations of the Glu-219 mutant were proton impermeable and the F1-ATPase activity was inhibited by about 50% when membrane-bound. The results are discussed with reference to a previously proposed intramembranous proton pore involving subunits a and c.
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PMID:The proton pore in the Escherichia coli F0F1-ATPase: substitution of glutamate by glutamine at position 219 of the alpha-subunit prevents F0-mediated proton permeability. 289 67

Residues beta Glu-181 and beta Glu-192 of E. coli F1-ATPase (the DCCD-reactive residues) were mutated to Gln. Purified beta Gln-181 F1 showed 7-fold impairment of 'unisite' Pi formation from ATP and a large decrease in affinity for ATP. Thus the beta-181 carboxyl group in normal F1 significantly contributes to catalytic site properties. Also, positive catalytic site cooperativity was attenuated from 5 X 10(4)- to 548-fold in beta Gln-181 F1. In contrast, purified beta Gln-192 F1 showed only 6-fold reduction in 'multisite' ATPase activity. Residues beta Gly-149 and beta Gly-154 were mutated to Ile singly and in combination. These mutations, affecting residues which are strongly conserved in nucleotide-binding proteins, were chosen to hinder conformational motion in a putative 'flexible loop' in beta-subunit. Impairment of purified F1-ATPase ranged from 5 to 61%, with the double mutant F1 less impaired than either single mutant. F1 preparations containing beta Ile-154 showed 2-fold activation after release from membranes, suggesting association with F0 restrained turnover on F1 in these mutants.
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PMID:E. coli F1-ATPase: site-directed mutagenesis of the beta-subunit. 289 2

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