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The mechanism by which fluoride and aluminum or beryllium in combination with ADP inhibit beef heart mitochondrial F1-ATPase was investigated. The kinetics of inhibition depended on the nature of the anion present in the F1-ATPase assay medium. Inhibition required the presence of Mg2+ and developed more rapidly with sulfite and sulfate than with chloride, i.e., with anions which activate F1-ATPase activity. The ADP-fluorometal complexes were bound quasi-irreversibly to F1, and each mole of the inhibitory nucleotide-fluorometal complex was tightly associated with 1 mol of Mg2+. One mole of nucleotide-fluorometal complex was able to inhibit the activity of 1 mol of catalytic site in F1. Direct measurements of bound fluoride, aluminum, beryllium, and ADP indicated that the F1-bound ADP-fluorometal complexes are of the following types: ADP1A11F4, ADP1Be1F1, ADP1Be1F2, or ADP1Be1F3. Fluoroaluminates or fluoroberyllates are isomorphous to Pi, and the inhibitory nucleotide-fluorometal complexes mimicked transient intermediates of nucleotides that appeared in the course of ATP hydrolysis. On the other hand, each mole of fully inhibited F1, retained 2 mol of inhibitory complexes. The same stoichiometry was observed when ADP was replaced by GDP, a nucleotide which, unlike ADP, binds only to the catalytic sites of F1. These results are discussed in terms of a stochastic model in which the three cooperative catalytic sites of F1 function in interactive pairs.
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PMID:Fluoroaluminum and fluoroberyllium nucleoside diphosphate complexes as probes of the enzymatic mechanism of the mitochondrial F1-ATPase. 182 93

Fibrinogen Ledyard was discovered in a 10-year-old boy with a mild bleeding history. His father had the same defect and a bleeding history after surgery. Both patients were heterozygous. The plasma fibrinogen concentration was normal immunologically (335 mg/dL) and very low functionally (52 mg/dL). Purified fibrinogen Ledyard had a prolonged polymerization, which was somewhat corrected by addition of Ca2+ ions. High performance liquid chromatography (HPLC) analyses of the fibrinopeptides released by thrombin showed 1 mol of fibrinopeptide A (FPA) and 2 mol of fibrinopeptide B (FPB) released per mole of fibrinogen Ledyard. Steady-state kinetic parameters were evaluated for release of FPA by thrombin. When the concentration of fibrinogen Ledyard was corrected to 50% of total protein, because only 50% of fibrinogen Ledyard can release FPA, the kinetic constants were similar to those of control fibrinogen (Km = 7.5 mumol/L for A alpha chain, kcat = 54 s-1). This finding indicates that the cleavage site of the A alpha chain in these abnormal molecules may not interact with the catalytic site of thrombin. The three chains of fibrinogen Ledyard were isolated on reverse-phase C4-HPLC. The sequence of the amino terminus of A alpha chain showed that Arg in position 16 was replaced by Cys in the abnormal molecules. Approximately half of fibrinogen Ledyard (52%) was clotted by reptilase, suggesting that fibrinogen Ledyard may consist of 50% normal homodimers (A alpha Arg16 . A alpha Arg16) and 50% abnormal homodimers (A alpha Cys16 . A alpha Cys16). Abnormal molecules could form disulfide bond between the A alpha Cys16 residues. Thus, the abnormal molecules have a different structure that does not bind to thrombin. Probably the abnormality of polymerization of fibrinogen Ledyard results from the interaction of the abnormal molecules with normal fibrin monomers, so that the growth of fibrin protofibrils is inhibited. This abnormal fibrinogen supports adenosine diphosphate-induced platelet aggregation in a normal manner.
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PMID:Fibrinogen Ledyard (A alpha Arg16----Cys): biochemical and physiologic characterization. 191 64

The influence of the two antibiotics tetracycline hydrochloride (T) and penicillin G sodium (P) on PGI2 synthesis by the male rat thoracic aorta and day-20 pregnant rat myometrium was investigated in vitro using a rat platelet antiaggregatory bioassay method. Pretreatment of the tissues for 30 min at 37 degrees C with T (21-168 microM) or P (28-224 microM) significantly inhibited PGI2 synthesis in absence or presence of exogenous arachidonic acid (AA) (16.6 microM), (P less than 0.01, n = 5-6). Furthermore, pretreatment of rats with the two drugs (T 11 and P 175 mu mole kg-1 for 30 min) significantly antagonised AA (4 n mole kg-1)-induced hypotension in urethane-anaesthetised rats. They also (T 0.5-4 and P 1-6 microM) antagonised AA-induced aggregation in rabbit citrated platelet-rich plasma. T failed to affect ADP-induced aggregation to any significant level whereas P (3-6 microM) reduced ADP-induced aggregation. The drugs seemed to interfere with the action of the PG endoperoxide synthase (or PG cyclooxygenase) enzyme resulting in decreased formation of PGG2 and PGH2. Such an effect may have resulted from the induced formation of toxic [OH-] radicals and/or inhibition of O2 uptake by the tissues under the influence of the drugs. The demonstrated inherent property of these two antibiotics to inhibit the synthesis of the potent vasodilator, platelet antiaggregatory, anticonvulsant and inhibitor of gastric acid secretion--PGI2, may partly contribute towards better understanding of the biochemical mechanisms that underlie some of the previously known but poorly understood actions of these antibiotics. Furthermore, since good evidence exists for the involvement of excessive uterine prostaglandin synthesis in dysmenorrhoea and premature deliveries, it is suggested that the potential benefits of T or P in these two disorders be investigated.
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PMID:Influence of chemotherapeutic agents on prostacyclin synthesis. II. Effects of tetracycline and penicillin G on prostacyclin synthesis by the rat thoracic aorta and myometrial tissues. 194 60

We have previously reported for the first time the purification to homogeneity of the enzyme NMN adenylyltransferase (EC 2.7.7.1) from yeast and its major molecular and catalytic properties. The homogeneous enzyme was found to be a glycoprotein containing 2% carbohydrate and 1 mol of adenine residue and 2 mol of phosphate covalently bound per mole of protein. Such a stoichiometry, apparently consistent with that of ADP-ribose, prompted us to further investigate the possibility that NMN adenylyltransferase could be subjected to poly(ADP-ribosylation) in vitro in a reconstituted system. Poly(ADP-ribose) polymerase was purified to homogeneity from bull testis by means of a rapid procedure involving two batchwise steps on DNA-agarose and Reactive Blue 2 cross-linked agarose and a column affinity chromatography step on 3-aminobenzamide-Sepharose; the optimal conditions for the poly(ADP-ribosylation) of exogenous substrates were determined. When pure NMN adenylyltransferase was incubated in the presence of the homogeneous poly(ADP-ribose) polymerase, a marked inhibition of the polymerase was observed, both in the presence and in the absence of histones, while the activity of NMN adenylyltransferase was not affected. The inhibition could not be prevented by increasing the concentrations of either DNA or NAD. Mg2+ did not affect the activity or the inhibition. The significance of such a phenomenon is at present unknown, but it may be of biological relevance in view of the close topological and metabolic relationship between the two enzymes.
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PMID:Evidence for an inhibitory effect exerted by yeast NMN adenylyltransferase on poly(ADP-ribose) polymerase activity. 215 22

The binding and conformational properties of the divalent cation site required for H+,K(+)-ATPase catalysis have been explored by using Ca2+ as a substitute for Mg2+. 45Ca2+ binding was measured with either a filtration assay or by passage over Dowex cation exchange columns on ice. In the absence of ATP, Ca2+ was bound in a saturating fashion with a stoichiometry of 0.9 mol of Ca2+ per active site and an apparent Kd for free Ca2+ of 332 +/- 39 microM. At ATP concentrations sufficient for maximal phosphorylation (10 microM), 1.2 mol of Ca2+ was bound per active site with an apparent Kd for free Ca2+ of 110 +/- 22 microM. At ATP concentrations greater than or equal to 100 microM, 2.2 mol of Ca2+ were bound per active site, suggesting that an additional mole of Ca2+ bound in association with low affinity nucleotide binding. At concentrations sufficient for maximal phosphorylation by ATP (less than or equal to 10 microM), APD, ADP + Pi, beta,gamma-methylene-ATP, CTP, and GTP were unable to substitute for ATP. Active site ligands such as acetyl phosphate, phosphate, and p-nitrophenyl phosphate were also ineffective at increasing the Ca2+ affinity. However, vanadate, a transition state analog of the phosphoenzyme, gave a binding capacity of 1.0 mol/active site and the apparent Kd for free Ca2+ was less than or equal to 18 microM. Mg2+ displaced bound Ca2+ in the absence and presence of ATP but Ca2+ was bound about 10-20 times more tightly than Mg2+. The free Mg2+ affinity, like Ca2+, increased in the presence of ATP. Monovalent cations had no effect on Ca2+ binding in the absence of ATP but dit reduce Ca2+ binding in the presence of ATP (K+ = Rb+ = NH4 + greater than Na+ greater than Li+ greater than Cs+ greater than TMA+, where TMA is tetramethylammonium chloride) by reducing phosphorylation. These results indicate that the Ca2+ and Mg2+ bound more tightly to the phosphoenzyme conformation. Eosin fluorescence changes showed that both Ca2+ and Mg2+ stabilized E1 conformations (i.e. cytosolic conformations of the monovalent cation site(s)) (Ca.E1 and Mg.E1). Addition of the substrate acetyl phosphate to either Ca.E1 or Mg.E1 produced identical eosin fluorescence showing that Ca2+ and Mg2+ gave similar E2 (extracytosolic) conformations at the eosin (nucleotide) site. In the presence of acetyl phosphate and K+, the conformations with Ca2+ or Mg2+ were also similar. Comparison of the kinetics of the phosphoenzyme and Ca2+ binding showed that Ca2+ bound prior to phosphorylation and dissociated after dephosphorylation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Calcium binding to the H+,K(+)-ATPase. Evidence for a divalent cation site that is occupied during the catalytic cycle. 216 18

Human term placenta contains an ATP diphosphohydrolase activity which hydrolyses ATP to ADP and inorganic phosphate and ADP to AMP and a second mole of inorganic phosphate. The activity has a pH optimum between 8.0 and 8.5. Magnesium or calcium ions are required for maximum activity. Other nucleoside phosphates, p-nitrophenyl phosphate or sodium pyrophosphate, are not hydrolysed. The activity is not due to ATPases, or to myokinase, as determined by the use of inhibitors. NaF and NaN3 were found to inhibit strongly the activity thus identifying it as an ATP diphosphohydrolase. A sensitive enzymatic assay for measurement of AMP, one of the products of the reaction, was established, based on the strong inhibition of muscle fructose 1,6-biphosphatase by AMP. The range of the assay was 0.05-0.8 microM AMP. ATP diphosphohydrolase was found to have a rate of AMP production from ADP twice the rate from ATP. Under the same conditions, the assay for Pi release, on the other hand, gave velocities similar to each other for the two substrates. The activity appears to be identical to the ADP-hydrolysing activity in placenta reported by others.
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PMID:Identification of ATP diphosphohydrolase activity in human term placenta using a novel assay for AMP. 217 97

The efficiency factor, the number of moles of ATP generated per mole of glucose fermented, was determined in anaerobic, non-carbon-limited N2-fixing cultures of Bacillus polymyxa, Bacillus macerans, Bacillus azotofixans, and Clostridium butyricum through identification and quantitation of the fermentation products by 13C nuclear magnetic resonance spectroscopy and measurement of acetate kinase activities. All three Bacillus species had acetate kinase activities and produced acetate and ethanol as the major fermentation products. The maximum amounts of ATP generated per mole of glucose fermented were 2.70, 2.64, and 2.88 mol in B. polymyxa, B. macerans, and B. azotofixans, respectively, compared with 3.25 mol in C. butyricum. Thus, in the N2-fixing Bacillus species, the efficiency factors are lower than that in C. butyricum. Steady-state ATP/ADP concentration ratios were measured in non-carbon-limited N2-fixing cultures of B. polymyxa and B. azotofixans through separation and quantitation of the adenylates in cell extracts by ion-pair reversed-phase high-performance liquid chromatography. The observed ATP/ADP ratios were 4.5 and 3.8, and estimated energy charges were 0.81 to 0.86 and 0.81 to 0.83, respectively, for B. polymyxa and B. azotofixans. The results suggest that under these growth conditions, the rate of ATP regeneration is adequate to meet the energy requirement for N2 fixation in the Bacillus species, in contrast to N2-fixing Clostridium pasteurianum and Klebsiella pneumoniae, for which substantially lower steady-state ATP/ADP ratios and energy charges have been reported. Implications of the results are discussed in relation to possible differences between Bacillus and Clostridium species in energy requirements for N2 fixation and concomitant ammonia assimilation.
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PMID:Efficiency factors and ATP/ADP ratios in nitrogen-fixing Bacillus polymyxa and Bacillus azotofixans. 231 6

The characteristics and specificity of inactivation of the chloroplast F1-ATPase (CF1) with 7-chloro-4-nitrobenzofurazan (Nbf-Cl) have been investigated. Inactivation of the octylglucoside-dependent Mg2+-ATPase activity of latent CF1 by Nbf-Cl can be correlated with the formation of about 1.2 mol of Nbf-O-Tyr per mole of enzyme. Following inactivation of CF1 with [14C]Nbf-Cl, polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate revealed that the majority of the radioactive reagent incorporated is present in the beta subunit. Treatment of the enzyme with [14C]Nbf-Cl following dithiothreitol heat activation, led to similar labeling of the beta subunit and substantial incorporation of 14C into the gamma subunit. On complete inactivation, about 4 mol of Nbf-S-Cys is formed per mole of dithiothreitol-heat-activated CF1. Incorporation of 14C into the gamma subunit is prevented by prior treatment of the latent CF1 or of the dithiothreitol-heat-activated CF1 with iodoacetamide. Following incubation of the dithiothreitol-heat-activated CF1 with iodoacetamide, complete inactivation of the octylglucoside-dependent Mg2+-ATPase activity by Nbf-Cl can be correlated with the formation of about 1.2 mol of Nbf-O-Tyr per mole of enzyme. After stabilization of the [14C]Nbf-O-Tyr derivative by treatment with sodium dithionite, a labeled peptide was purified. Automatic Edman degradation of this peptide revealed the sequence V-X-V-P-A-D-(D). The majority of the radioactivity was cleaved in the second cycle, the position occupied in CF1 by Tyr-beta-328, which is homologous to Tyr-beta-311, the residue reactive with Nbf-Cl in the beef heart mitochondrial F1-ATPase. When CF1, modified at Tyr-beta-328 with Nbf-Cl, is incubated at pH 9.0, the Nbf-O-Tyr adduct is hydrolyzed, leading to concomitant recovery of the ATPase activity. In double labeling experiments, two-dimensional isoelectric focusing in the presence of urea followed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicates that 2-azido-ADP, covalently bound at the tight ADP binding site, and the tyrosine modified by [14C]Nbf-Cl are located in different beta subunits.
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PMID:Selectivity of modification when latent and activated forms of the chloroplast F1-ATPase are inactivated by 7-chloro-4-nitrobenzofurazan. 252 17

Adenosinetriphosphopyridoxal (AP3PL) specifically modifies Lys684 of Ca2(+)-ATPase of sarcoplasmic reticulum (SR-ATPase) in the presence of Ca2+, leading to its inactivation (Yamamoto, H. et al. (1988) J. Biochem. 103, 452-457). We have now investigated the effects of AP3PL on SR-ATPase in the absence of Ca2+. Similarly to its action in the presence of Ca2+, AP3PL inhibited the Ca2(+)-transporting activity in a dose-dependent manner in the absence of Ca2+ as well. ATP and ADP protected SR-ATPase against inactivation by this reagent. One mole of AP3PL was bound per mol of SR-ATPase with concomitant loss of the Ca2(+)-transporting activity. Binding of AP3PL to SR-ATPase was prevented by ATP. AP3PL-labeled SR membranes were digested with thermolysin and labeled thermolytic peptides were purified through C18 reversed-phase HPLC. Two major AP3PL-labeled peptides were obtained in approximately 1:1 ratio; one was an octapeptide corresponding to 679-ValGluProSerHisLys*SerLys-686, and the other, a nonapeptide corresponding to 487-PheSerArgAspSerLys*ArgMetSer-495 (Lys* indicates a labeled Lys residue) of SR-ATPase. Lys684 in the former turned out to be the same as the highly specific target of AP3PL in the presence of Ca2+ which was identified previously. The target site specificity of AP3PL thus changed significantly but not entirely on binding of Ca2+ to SR-ATPase. This indicates that the spatial arrangement around the gamma-phosphoryl group of the bound ATP is affected by Ca2+ ions bound at the transport site. It is also likely that Lys492 and Lys684 are situated close together in the ATP binding site of SR-ATPase.
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PMID:Ca2(+)-dependent conformational change of the ATP-binding site of Ca2(+)-transporting ATPase of sarcoplasmic reticulum as revealed by an alteration of the target-site specificity of adenosine triphosphopyridoxal. 253 25

Two peptide fragments, derived from the head and tail of rabbit muscle myokinase, were found to possess remarkable and specific ligand-binding properties (Hamada et al., 1979). By initiating systematic syntheses and measurements of equilibrium substrate-binding properties of these two sets of peptides, or portions thereof, which encompass the binding sites for (a) the magnesium complexes of the nucleotide substrates (MgATP2- and MgADP-) and (b) the uncomplexed nucleotide substrates (ADP3- and AMP2-) of rabbit muscle myokinase, some of the requirements for binding of the substrates to ATP-AMP transphosphorylase are being deduced and chemically outlined. One requirement for tight nucleotide binding appears to be a minimum peptide length of 15-25 residues. In addition, Lys-172 and/or Lys-194 may be involved in the binding of epsilon AMP. The syntheses are described as a set of peptides corresponding to residues 31-45, 20-45, 5-45, and 1-45, and a set of peptides corresponding to residues 178-192, 178-194, and 172-194 of rabbit muscle adenylate kinase. The ligand-binding properties of the first set of synthetic peptides to the fluorescent ligands: epsilon MgATP/epsilon ATP and epsilon MgADP/epsilon ADP are quantitatively presented in terms of their intrinsic dissociation constants (K'd) and values of N (maximal number of moles bound per mole of peptide); and compared with the peptide fragment MT-I (1-44) obtained from rabbit muscle myokinase (Kuby et al., 1984) and with the native enzyme (Hamada et al., 1979). In addition, the values of N and K'd are given for the second set of synthetic peptides to the fluorescent ligands epsilon AMP and epsilon ADP as well as for the peptide fragments MT-XII(172-194) and CB-VI(126-194) (Kuby et al., 1984) and, in turn, compared with the native enzyme. A few miscellaneous dissociation constants which had been derived kinetically are also given for comparison (e.g., the Ki for epsilon AMP and the value of KMg epsilon ATP obtained for the native enzyme) (Hamada and Kuby, 1978), and the K'd measured for Cr3+ ATP [corrected] and the synthetic peptide I1-45 (Fry et al., 1985b).
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PMID:Studies on adenosine triphosphate transphosphorylases. XVIII. Synthesis and preparation of peptides and peptide fragments of rabbit muscle ATP-AMP transphosphorylase (adenylate kinase) and their nucleotide-binding properties. 255 49

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