EC:3.6.3.14 - FACTA Search

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Query: EC:3.6.3.14 (ATP synthase)
7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. When mitochondrial ATPase, which has been modified on a single tyrosine residue by 4-chloro-7-nitrobenzofurazan, is incubated at pH 9.0, the 7-nitrobenzofurazan group undergoes an intramolecular transfer to a nitrogen residue. The rate of this transfer is sensitive to the binding of adenine nucleotides to the enzyme. The resulting N-nitrobenzofurazan ATPase has little or no activity. 2. The fluorescence of the N-nitrobenzofurazan group in the modified ATPase is quenched on binding of ADP. 3. Electrophoresis of the modified enzyme in sodium dodecyl sulphate on a 10% polyacrylamide gel shows that the fluorescence of the N-nitrobenzofurazan chromophore is exclusively in the beta subunit. 4. The rate of transfer of the nitrobenzofurazan group from tyrosyl oxygen to nitrogen on the enzyme is compared with the rate of transfer between model compounds. 5. The interaction of the N-nitrobenzofurazan ATPase with aurovertin is reported.
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PMID:The mitochondrial ATPase. Selective modification of a nitrogen residue in the beta subunit. 23 40

The gap between early molecular evolution and the origin of the first cell may have been bridged by a photoheterotrophic obcell, consisting of genes and ribosomes attached to the outer surface of a phospholipid vesicle containing a light-driven proton pump and a proton-driven pyrophosphate synthase. I argue that the obcell was the substratum for the origin of DNA replication; DNA segregation by the growth and division of the peptidoglycan murein; periplasmic solute-binding proteins; bioenergetics, including the F0F1 proton-driven ATP synthase; active transport of calcium; and facilitated diffusion of nutrients across membranes, and that it played the major role in the replacement of ribozymes by protein catalysts. Curved growth of the peptidoglycan and a mutation causing septum formation produced the first true cell. Evolution of porins, sodium extrusion and potassium import, conversion of the facilitated diffusion proteins to active pumps, and the evolution of intermediary metabolism, carbon and nitrogen fixation, and of substrate level phosphorylation, completed the origin of the first negibacterial eubacterium, from which all other cells evolved, and from which they have inherited most of their major catalytic properties--with the notable exceptions of reverse transcriptase, RNA splicing, and methanogenesis, all of which I believe evolved very much later.
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PMID:The origin of cells: a symbiosis between genes, catalysts, and membranes. 345 90

We have identified the most probable protein ligands at the catalytic M3 and noncatalytic M2 metal-binding sites in the spinach chloroplast F1-ATPase (CF1) and here propose possible residues in the protein sequence for these ligands in latent CF1 in the absence of nucleotide. The changes in the metal ligands at these sites upon binding of nucleotide to the N2 and N3 sites and upon activation of latent CF1 provide a possible molecular basis for inhibition of ATPase activity by free metal, for the lack of activity in the latent state, and for the gating mechanism of the ATPase H+ pump. To these ends, the Mg2+ analogue, vanadyl (VIV = O)2+, was used as a paramagnetic probe at the M2 and M3 metal-binding sites. EPR and ESEEM spectra of VO2+ were obtained, and simulations of the full EPR spectra imply the ligand sets at the different metal-binding sites. When VO2+ is added to CF1 in the absence of ATP, the most likely set of ligands at the M2 site are 1 ROH (alpha T176), 2 H2O, and 1 RCOO- (alpha D269 or alpha D270), where the suggested amino acid designations of the residues are given in parentheses according to the mitochondrial sequence. Evidence suggests a possible axial nitrogen ligand at this site (alpha K175). When the M2 site is filled by addition of VO2+ and ATP, the metal binds as a second species in which N2-bound ATP and M2-bound VO2+ form a monodentate complex with concomitant exchange of the equatorial protein ligands by 3 H2O.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of nucleotides on the protein ligands to metals at the M2 and M3 metal-binding sites of the spinach chloroplast F1-ATPase. 788 Aug 23

Vanadyl, (V = O)2+, is able to substitute for Mg2+ as a cofactor for ATPase activity catalyzed by the chloroplast F1-ATPase (CF1). Mg2+-dependent ATPase activity was also observed with CF1 that contained VO(2+)-ATP bound specifically to the noncatalytic N2 site. Modulation of the Mg(2+)-ATPase activity induced by VO2+ bound at this site indicates that the metal bound to the noncatalytic site affects catalytic activity. When CF1 is depleted of nucleotides from all but the N1 site, a single Mg2+ remains bound at a site designated M1. Addition of VO2+ to the depleted protein gives rise to an EPR spectrum characteristic of a CF1-bound VO2+ species. The binding curve of the VO2+ complex to latent, nucleotide-depleted CF1 was determined by the integrated intensities of the -5/2 parallel peak in the EPR spectrum as calibrated using atomic absorption spectroscopy. Under these conditions, VO2+ binds cooperatively to approximately two sites designated M2 and M3. Three-pulse ESEEM spectra of the CF1-VO2+ complex contain two intense modulations with frequencies and field-dependent behavior that show that they are from a directly coordinated 14N nucleus. Analysis of the bound VO2+ by ENDOR spectroscopy revealed the presence of a single group of protons associated with an equatorial amino or water ligand that is exchangeable with solvent. Using the additivity relation for hyperfine coupling, the most probable set of equatorial ligands to the VO2+ bound to CF1 under these conditions consists of one lysine nitrogen, two carboxyl oxygens from aspartate or glutamate, and one water.
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PMID:Characterization of ligands of a high-affinity metal-binding site in the latent chloroplast F1-ATPase by EPR spectroscopy of bound VO2+. 816 51

The mgi1-4 and mgi2-1 mutants of the petite-negative yeast Kluyveromyces lactis have mutations in the beta- and alpha-subunits of the mitochondrial F1-ATPase, respectively. The mutants are respiratory competent but can form petites with deletions in mitochondrial DNA. In this study a cryptic nuclear mutation (lipB-1) was identified which, in combination with the mgi alleles, displays a synergistic respiratory-deficient phenotype on glycerol medium. The gene defined by the mutation was cloned and shown to encode a polypeptide of 332 amino acids with an N-terminal sequence characteristic of a mitochondrial targeting signal. The deduced protein shares 27% sequence identity with the product of the Escherichia coli lipB gene, which encodes a lipoyl-protein ligase involved in the attachment of lipoyl groups to lipoate-dependent apoproteins. A K. lactis strain carrying a disrupted lipB allele is severely compromised for growth on glycerol medium. The growth defect cannot be rescued by addition of lipoic acid, but cell growth can be restored on medium containing ethanol plus succinate. In addition, it was observed that lipB mutants of K. lactis, unlike the wild-type, are unable to utilize glycine as sole nitrogen source, indicating that activity of the glycine decarboxylase complex (GDC) is also affected. Taken together, these findings suggest that LIPB is the main determinant of the lipoyl-protein ligase activity required for lipoylation of enzymes such as alpha-ketoacid dehydrogenases and GDC.
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PMID:Cloning and characterization of the lipoyl-protein ligase gene LIPB from the yeast Kluyveromyces lactis: synergistic respiratory deficiency due to mutations in LIPB and mitochondrial F1-ATPase subunits. 926 25

The expression of a cytosolic glutamine synthetase (GS1; EC 6.3.1.2) gene was examined in cotyledons of Scots pine seedlings. Light strongly stimulated GS1 mRNA accumulation during development. Similarly, steady-state levels of GS1 transcripts increased in dark-grown seedlings transferred to light and decreased in dark-adapted seedlings. Light/dark adaptation affected rbcS and lhcb2 mRNA levels and chlorophyll contents in the same manner. Light-grown seedlings in the presence of the herbicide norflurazon showed a drastic decrease in mRNA for GS and photosynthetic proteins, whereas the effect of the herbicide on mitochondrial beta-ATP synthase mRNA was limited. These results indicate that factors associated with developing chloroplasts could be required for maximal GS1 gene expression during seedling development. The level of GS polypeptide, determined by immunoblot, was up-regulated during seedling development in the light or dark. However, the levels of the polypeptide detected were unaltered by the light/dark adaptation treatments. The analysis of GS1 mRNA association with polysomes indicated that the discrepancies between GS protein and mRNA levels are not a result of a differential translational rate of the transcript in darkness relative to light. Two GS isoproteins with different isoelectric point were resolved by two-dimensional PAGE in light- and dark-germinated plants. The relative abundance of one of them was markedly affected by light and correlated with the observed changes in GS mRNA, suggesting that the other form is not a product derived from the detected transcript. In situ hybridization of cotyledon sections showed the presence of GS1 mRNAs in mesophyll and phloem cells confirming gene expression in photosynthetic tissues. High levels of transcript were detected also in meristematic cells of apical primordia. These data suggest a dual role for the GS1 gene associated with chloroplast development/activity and glutamine biosynthesis for nitrogen mobilization during early growth of Scots pine.
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PMID:Expression analysis of a cytosolic glutamine synthetase gene in cotyledons of Scots pine seedlings: developmental, light regulation and spatial distribution of specific transcripts. 1048 Mar 86

The electron paramagnetic resonance (EPR), electron spin echo envelope modulation (ESEEM) and hyperfine sublevel correlation (HYSCORE) spectra of Mg2+-depleted chloroplast F1-ATPase substituted with stoichiometric VO2+ are reported. The ESEEM and HYSCORE spectra of the complex are dominated by the hyperfine and quadrupole interactions between the VO2+ paramagnet and two different nitrogen ligands with isotropic hyperfine couplings /A1/ = 4.11 MHz and /A2/ = 6.46 MHz and nuclear quadrupole couplings e2qQ1 approximately 3.89-4.49 MHz and e2qQ2 approximately 1.91-2.20 MHz, respectively. Aminoacid functional groups compatible with these magnetic couplings include a histidine imidazole, the epsilon-NH2 of a lysine residue, and the guanidinium group of an arginine. Consistent with this interpretation, very characteristic correlations are detected in the HYSCORE spectra between the 14N deltaM1 = 2 transitions in the negative quadrant, and also between some of the deltaM1 = 1 transitions in the positive quadrant. The interaction of the substrate and product ADP and ATP nucleotides with the enzyme has been studied in protein complexes where Mg2+ is substituted for Mn2+. Stoichiometric complexes of Mn x ADP and Mn x ATP with the whole enzyme show distinct and specific hyperfine couplings with the 31P atoms of the bonding phosphates in the HYSCORE (ADP, A(31Pbeta) = 5.20 MHz: ATP, A(31Pbeta) = 4.60 MHz and A(31Pgamma) = 5.90 MHz) demonstrating the role of the enzyme active site in positioning the di- or triphosphate chain of the nucleotide for efficient catalysis. When the complexes are formed with the isolated alpha or beta subunits of the enzyme, the HYSCORE spectra are substantially modified, suggesting that in these cases the nucleotide binding site is only partially structured.
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PMID:The role of the Mg2+ cation in ATPsynthase studied by electron paramagnetic resonance using VO2+ and Mn2+ paramagnetic probes. 1072 46

Tobacco (Nicotiana tabacum L.) plants were subjected to a prolonged period of sulfur-deprivation to characterize molecular and metabolic mechanisms that permit control of primary N-metabolism under these conditions. Prior to the appearance of chlorotic lesions, sulfur-deprived tobacco leaves showed a strong decrease in the sulfate content and changes in foliar enzyme activities, mRNA accumulation and amino-acid pools. The basic amino acids glutamine, asparagine and arginine accumulated in the leaves of sulfur-deprived plants, while the foliar concentrations of aspartate, glutamate, serine or alanine remained fairly unchanged. Maximal extractable nitrate reductase (NR; EC 1.6.6.1) activity decreased strongly in response to sulfur-deprivation. The decrease in maximal extractable NR activity was accompanied by a decline in NR transcripts while the mRNAs of the plastidic glutamine synthetase (EC 6.1.3.2) or the beta-subunit of the mitochondrial ATP synthase were much less affected. Nitrate first accumulated in leaves of tobacco during sulfur-deprivation but then declined. An appreciable amount of nitrate was, however, present in severely sulfur-depleted leaves. The repression of NR gene expression is, therefore, not related to the decrease in the leaf nitrate level. However, glutamine- and/or asparagine-mediated repression of NR gene transcription is a possible mechanism of control in situations when glutamine and asparagine accumulate in leaves and provides a feasible explanation for the reduction in NR activity during sulfur-deprivation. The removal of reduced nitrogen from primary metabolism by redirection and storage as arginine, asparagine or glutamine combined with the down-regulation of nitrate reduction via glutamine- and/or asparagine-mediated repression of NR gene transcription may contribute to maintaining a normal N/S balance during sulfur-deprivation and indicate that the co-ordination of N- and S-metabolism is retained under these conditions.
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PMID:Negative regulation of nitrate reductase gene expression by glutamine or asparagine accumulating in leaves of sulfur-deprived tobacco. 1103 May 59

Cryopreserved chloroplasts and thylakoids have recently been proven to be suitable for protein import and integration assays. The possibility of recovering intact plant mitochondria after storage would also facilitate a wide range of investigations that are currently underway on the molecular biology of these organelles, e.g. mitochondrial transcription, RNA editing, in organello protein synthesis, and protein or transfer RNA import. Therefore, we addressed the question whether cryopreservation of isolated plant mitochondria was also possible. Tobacco (Nicotiana tabacum) or broad bean (Vicia faba) mitochondria were quick frozen and stored in liquid nitrogen in the presence of various concentrations of ethylene glycol as a cryoprotectant. After thawing, up to 90% of the mitochondria stored in 5 to 10% ethylene glycol appeared to retain an intact outer membrane and normal oxidative phosphorylation activity. Their ultrastructural aspect, observed by electron microscopy, was similar to that of freshly prepared mitochondria. Furthermore, efficient in organello protein synthesis was carried out with mitochondria stored in the presence of 7.5% ethylene glycol. Finally, the precursor of the [beta] subunit of the mitochondrial F1-ATPase from Nicotiana plumbaginifolia was successfully translocated into V. faba cryopreserved mitochondria and processed. These data demonstrate that plant mitochondria cryopreserved under the conditions described here remain functional and can be used for a variety of physiological and biochemical studies.
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PMID:Cryopreservation of Plant Mitochondria as a Tool for Protein Import or in Organello Protein Synthesis Studies. 1223 14

Ammonium assimilation in plants occurs via the glutamine synthetase (GS, EC 6.3.1.2)/glutamine 2-oxoglutarate aminotransferase (GOGAT, EC 1.4.1.13 + 1.4.1.14 + 1.4.7.1) pathway. Rates of in vivo ammonium assimilation were measured in the marine diatom Phaeodactylum tricornutum by a recently developed technique that uses the protonophore carbonyl cyanide m-chlorophenylhydrazone to release unassimilated ammonium from the cells. In nitrogen-replete cells of P. tricornutum, there was a poor relationship between uptake and in vivo assimilation of ammonium, with the rate of uptake decreasing and the rate of assimilation increasing with time in the presence of ammonium. Ammonium uptake and assimilation were markedly light dependent, with assimilation inhibited by 77% in darkness. Oligomycin (5 micro g ml-1), an inhibitor of the mitochondrial ATPase, had no effect on the rate of photosynthesis, the maximum endogenous ammonium pool or GS activity in Phaeodactylum, but inhibited respiration by 24-27%. In the light, oligomycin inhibited ammonium assimilation by 55-70% and growth rate by 52%. One possible explanation for these results, namely that mitochondrial ATP is required to sustain activity of the cytosolic isoform of GS, is discussed.
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PMID:Mitochondrial oxidative phosphorylation is required for ammonium assimilation in light in a marine diatom. 1267 46

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