EC:3.6.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The uncE114 mutation (Gln42----Glu) in subunit c of the Escherichia coli H+ ATP synthetase causes uncoupling of proton translocation from ATP hydrolysis (Mosher, M. E., White, L. K., Hermolin, J., and Fillingame, R. H. (1985) J. Biol. Chem. 260, 4807-4814). In the background of strain ER, the mutation led to dissociation of F1 from the membrane. Ten revertants to the uncE114 mutation were isolated, and the uncE gene was cloned and sequenced. Six of the revertants were intragenic and had substitutions of glycine, alanine, or valine for the mutant glutamate residue at position 42. The intragenic, revertant uncE genes were incorporated into an otherwise wild type chromosome of strain ER. Membrane vesicles prepared from each of the revertants showed a restoration of F1 binding to F0. The Val42 revertant differed from the other two revertants in that the ATPase activity of F1 was inhibited when membrane bound. This was shown by the stimulation of ATPase activity when F1 was released from the membrane. The Gly42 and Ala42 revertants demonstrated membrane ATPase activity that was resistant to dicyclohexylcarbodiimide treatment. Resistance was shown to be due to the increased dissociation of F1 from the membrane under ATPase assay conditions. The Ala42 revertant showed a significant reduction in ATP-dependent quenching of quinacrine fluorescence that was attributed to less efficient coupling of ATP hydrolysis to H+ translocation, whereas the other revertants showed responses very near to that of wild type. Minor changes in the F1-F0 interaction in all three revertants were indicated by an increase in H+ leakiness, as judged by reduced NADH-dependent quenching of quinacrine fluorescence. The minor defects in the revertants support the idea that residue 42 is involved in the binding and coupling of F1 to F0 but also show that the conserved glutamine (or asparagine) is not absolutely necessary in this function.
...
PMID:Conserved polar loop region of Escherichia coli subunit c of the F1F0 H+-ATPase. Glutamine 42 is not absolutely essential, but substitutions alter binding and coupling of F1 to F0. 252 84

Kinetic studies of the phosphoenzyme intermediates of site-specific mutants were used to examine the role of Gly233 in the reaction mechanism of the sarcoplasmic reticulum Ca2(+)-ATPase. When this glycine residue, which is highly conserved among cation-transporting ATPases, was replaced by valine, arginine, or glutamic acid, a complete loss of the ability to pump Ca2+ was observed. The mutant enzymes were able to form an ADP-sensitive phosphoenzyme intermediate (E1P) by reaction with ATP in the presence of Ca2+, but this intermediate decayed to the ADP-insensitive form (E2P) very slowly, relative to the wild-type enzyme. The mutant phosphoenzyme intermediate remained ADP-sensitive, even when phosphorylation from ATP was performed under conditions which permitted accumulation of the ADP-insensitive phosphoenzyme intermediate in the wild type. The mutants were also defective in their ability to form the ADP-insensitive phosphoenzyme intermediate by phosphorylation from inorganic phosphate. In addition, they displayed a higher affinity for Ca2+ and a lower cooperativity in Ca2+ binding than did the wild-type enzyme, as measured through the phosphorylation reaction with ATP. These findings can be rationalized either in terms of a parallel shift of E1 to E2 and E1P to E2P conformational equilibria toward the E1 and E1P forms, respectively, or in terms of destabilization of the phosphoryl-protein interaction in the E2P form. The roles of 7 other residues located in the vicinity of Gly233 were also examined by mutation. Although the side chains of these residues are potential Ca2+ ligands, their replacement did not affect the Ca2+ affinity of the enzyme, suggesting the lack of a role of this region of the peptide in formation of Ca2(+)-binding sites.
...
PMID:Functional consequences of mutations in the beta-strand sector of the Ca2(+)-ATPase of sarcoplasmic reticulum. 253 42

Yeast strain 990 carries a mutation mapping to the oli1 locus of the mitochondrial genome, the gene encoding ATPase subunit 9. DNA sequence analysis indicated a substitution of valine for alanine at residue 22 of the protein. The strain failed to grow on nonfermentable carbon sources such as glycerol at low temperature (20 degrees C). At 28 degrees C the strain grew on nonfermentable carbon sources and was resistant to the antibiotic oligomycin. ATPase activity in mitochondria isolated from 990 was reduced relative to the wild-type strain from which it was derived, but the residual activity was oligomycin resistant. Subunit 9 (the DCCD-binding proteolipid) from the mutant strain exhibited reduced mobility in SDS-polyacrylamide gels relative to the wild-type proteolipid. Ten revertant strains of 990 were analyzed. All restored the ability to grow on glycerol at 20 degrees C. Mitotic segregation data showed that eight of the ten revertants were attributable to mitochondrial genetic events and two were caused by nuclear events since they appeared to be recessive nuclear suppressors. These nuclear mutations retained partial resistance to oligomycin and did not alter the electrophoretic behavior of subunit 9 or any other ATPase subunit. When mitochondrial DNA from each of the revertant strains was hybridized with an oligonucleotide probe covering the oli1 mutation, seven of the mitochondrial revertants were found to be true revertants and one a second mutation at the site of the original 990 mutation. The oli1 gene from this strain contained a substitution of glycine for valine at residue 22. The proteolipid isolated from this strain had increased electrophoretic mobility relative to the wild-type proteolipid.
...
PMID:Nuclear and mitochondrial revertants of a mitochondrial mutant with a defect in the ATP synthetase complex. 288 22

The transport of L-alanine and L-leucine into membrane vesicles isolated from mature canine ventricular myocardium was studied. Transport was assessed in purified sarcolemma and in vesicles differentially enriched either for sarcolemma or sarcoplasmic reticulum to further localize these transport systems. An imposed inward gradient of a NaNO3 stimulated uptake of L-alanine but not L-leucine by these vesicles. Amino acid uptake by these vesicles occurred into an osmotically active space. The stimulatory effect of Na+ on alanine transport was most striking in the purified sarcolemma vesicles, where Na+-stimulated alanine flux was 45 +/- 14 pmol X mg-1 X min-1. Furthermore, Na+-dependent alanine transport activity appeared to copurify with Na+-K+-ATPase activity, which served as a marker for sarcolemma membrane when these activities were compared in the three different membrane preparations. Leucine transport by sarcolemma was not altered by an imposed Na+ gradient. However, leucine uptake was a saturable function of extravesicular leucine and was inhibited by valine. In contrast, in sarcoplasmic reticulum membrane vesicles leucine uptake increased proportionately with increasing media leucine and was unaffected by valine. Our results demonstrate the feasibility of directly studying the transport of naturally occurring amino acids in membrane vesicles from mammalian heart, and the presence of Na+-dependent alanine transport system and a Na+-independent leucine transporter in the sarcolemma but not in sarcoplasmic reticulum of canine ventricular myocardium.
...
PMID:Myocardial amino acid transport by canine sarcolemma vesicles. 303 46

We have previously reported the isolation and partial sequence analysis of a rice mitochondrial DNA fragment (6.9 kb) which contains a transferred copy of a chloroplast gene cluster coding for the large subunit of ribulose-1,5-bisphosphate carboxylase (rbcL), beta and epsilon subunits of ATPase (atpB and atpE), methionine tRNA (trnM) and valine tRNA (trnV). We have now completely sequenced this 6.9 kb fragment and found it to also contain a sequence homologous to the chloroplast gene coding for the ribosomal protein L2 (rpl2), beginning at a site 430 bp downstream from the termination codon of rbcL. In the chloroplast genome, two copies of rpl2 are located at distances of 20 kb and 40 kb, respectively, from rbcL. We have sequenced these two copies of rice chloroplast rpl2 and found their sequences to be identical. In addition, a 151 bp sequence located upstream of the chloroplast rpl2 coding region is also found in the 3' noncoding region of chloroplast rbcL and other as yet undefined locations in the rice chloroplast genome. Hybridization analysis revealed that this 151 bp repeat sequence identified in rice is also present in several copies in 11 other plant species we have examined. Findings from these studies suggest that the translocation of rpl2 to the rbcL gene cluster found in the rice mitochondrial genome might have occurred through homologous recombination between the 151 bp repeat sequence present in both rpl2 and rbcL.
...
PMID:Rice mitochondrial genome contains a rearranged chloroplast gene cluster. 318 3

T and B lymphocytes from human tonsils were separated on a nylon wool column. T. cells are enriched in the nonadherent, B cells in the adherent fraction. Several enzymes and other markers were tested in separated and non separated lymphocyte populations. Certain enzymes and other properties can be used as T or B lymphocyte markers because of their preferential occurrence and because of the advantages of their estimation (simple, quick methods, objective evaluation). The following characteristics were considered as markers on the basis of our results: (I) acid phosphatase, Na+-K+-activated ATPase, BAEE-peptidase and chromium labeling in T lymphocytes; (II) 5'-nucleotidase, FITC-IgG binding, N-acetyl-D-glucosaminidase, thymidine and valine incorporation in B lymphocytes.
...
PMID:Characteristic biochemical differences in human T and B lymphocytes separated on nylon wool. 387 65

Phospholipids were found to be a constant component of rat glomerular basement-membrane preparations. The concentration fell during preparation of basement membrane by sonication of whole glomeruli, but then remained constant despite continued sonication. The proportions of the individual phospholipids were different from those of whole renal tissue or of isolated glomeruli. The basement-membrane preparations had no (Na(+)+K(+))-activated adenosine triphosphatase activity, an enzyme that is bound to plasma membranes. The concentration of lipid P was decreased on exposure in vivo or in vitro to antiserum against basement membrane; 7 days after injection of antiserum there was a change in the phospholipid composition, with a relative increase in phosphatidylcholine and a decrease in sphingomyelin content. The metabolic turnover rate of the lipid P remaining in the membrane was normal, as determined by (32)P incorporation. The loss of phospholipid was associated with decreases in the relative concentrations of hydroxyproline, hydroxylysine and glycine, and relative increases in proline, lysine, serine, threonine and valine. Administration of aminonucleoside and daunomycin produced proteinuria but did not cause a decrease in lipid P. Anticollagen and anti-lymphocyte sera that attached to the basement membrane but failed to produce proteinuria, also failed to affect the phospholipid content.
...
PMID:Phospholipid of the rat glomerular basement membrane in experimental nephrosis. 426 92

A mouse L-cell line, designated 111-OB3, is described which is resistant to two drugs, chloramphenicol and oligomycin. The cells contain two types of mitochondrial DNA molecules, in roughly equal proportions, which differ in that one is cleaved by endonuclease EcoRI at a novel site within the coding sequence for subunit 6 of the mitochondrial ATPase (ATPase-6). Sequence analysis reveals that the cleavage site was created by a single transversion which predicts a replacement of valine in the wild-type ATPase-6 by glutamic acid. The replacement occurs in a hydrophobic amino acid sequence which is highly conserved in mouse, human, and bovine proteins. The position of the replacement is similar to a substitution observed in one class of yeast mutants resistant to oligomycin. Both of the mitochondrial DNA molecules in 111-OB3 also have a single nucleotide change in the gene encoding the large (16S) rRNA. These observations are consistent with the hypothesis that oligomycin resistance in mammalian cells can be cytoplasmically determined and can result from alterations in ATPase-6. The appearance of the mutation before selection in oligomycin suggests a model for the origin of mitochondrial mutations in mammalian cells.
...
PMID:Sequence analysis of mitochondrial DNA in a mouse cell line resistant to chloramphenicol and oligomycin. 622 6

It is possible to select transmembrane potential (delta psi)-altered mutants in Streptococcus pneumoniae on the basis of their resistance to the antifolate methotrexate. Comparison of such a mutant strain ( amiA9 ) with its parent was used to evaluate the role of delta psi in the uptake of certain amino acids. The delta psi-dependent uptake of isoleucine, leucine, valine, and asparagine showed a reduced maximum velocity of uptake, and decrease in the transport constant of the energy-dependent, delta psi-independent uptake of lysine, methionine, and glutamine was observed. No reduction of the intracellular pool of ATP or of lactate excretion could be detected in the mutant strain. Moreover, studies on membrane preparations suggest that the phenotype expressed by the amiA mutation is not a consequence of alteration of its ATPase activity or susceptibility to N,N'-dicyclohexylcarbodiimide. Therefore, it is unlikely that the amiA mutation affects the H+ F1F0 ATPase which is involved in the establishment of the proton motive force in anaerobic bacteria. We propose that another function contributes to delta psi in S. pneumoniae. The amiA gene may be the structural gene of that function.
...
PMID:Characterization of a Streptococcus pneumoniae mutant with altered electric transmembrane potential. 623 66

The structures and functions of the two alpha-actinin isoforms [R. Kobayashi et al. (1983) Eur. J. Biochem. 133, 607-611] isolated from rabbit longissimus dorsi and psoas muscles were compared. One-dimensional and two-dimensional electrophoretic analyses showed that the two alpha-actinins were different from each other in their subunit chain weights and isoelectric points. The Stokes' radius of the longissimus dorsi and psoas alpha-actinins was 7.4 nm and 7.0 nm, respectively. The amino acid analyses showed that, although the two alpha-actinins are similar in their amino acid compositions, longissimus dorsi alpha-actinin contains more aspartic acid and isoleucine than psoas alpha-actinin but fewer glycine and valine residues. Analysis of the soluble tryptic peptides by two-dimensional mapping revealed that the two alpha-actinins had major differences. These data suggested that the two isoforms are the products of at least two different genes. Despite these differences, both alpha-actinins share a number of common properties. Both alpha-actinins contain a 55-kDa peptide resistant to trypsin. The two proteins show no differences in actomyosin turbidity assays. ATPase assays and F-actin binding assays of alpha-actinin activity. Immunological examination indicates that the two alpha-actinins share antigenic determinants in common.
...
PMID:Different muscle-specific forms of rabbit skeletal muscle alpha-actinin. 623 79

<< Previous 1 2 3 4 5 6 7 8 9 Next >>