UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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Mathematical model of the beta-thromboglobulin (BTG) release from alpha-granules stimulated with ADP is compared with experimental data. Secretion of BTG was analysed using platelets washed by different procedures in the presence or absence of inhibitors of platelet activation. The release of BTG was monitored in response to 5-100 microM ADP. The rate constant of the release of BTG (K = 1.83 X 10(3) M-1 min-1) and efficient amount of ADP molecules secreted by a single platelet (W = 5.2 X 10(-18) mole) were estimated. The model precisely describes the release of BTG associated with the isolation of platelets (blood collection, washing procedure) and allows to estimate the extent of activation of blood platelets in the suspension.
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PMID:Kinetics of the beta-thromboglobulin release from alpha-granules of blood platelets activated by ADP. 295 17

Myosin has two heads which can bind with F-actin and react with ATP. The skeletal muscle myosin forms each 1 mol of the myosin-phosphate-ADP complex (M-P-ADP) and the myosin-ATP complex (M-ATP). The actomyosin ATPase reaction which is coupled with muscle contraction is catalyzed only by the head which forms M-P-ADP. However, the function of M-ATP forming head in muscle contraction has not been elucidated. We studied the binding of S-1 and HMM with F-actin and the dissociation of acto-S-1 or acto-HMM by ATP or AMPPNP using the change in light-scattering and fluorescence of pyrene bound to F-actin. S-1 and HMM bound with actin at 1:1 and 1:2 molar ratio, respectively. Acto-S-1 dissociated by one mole of ATP per mole of S-1 but acto-HMM dissociated by 1 mol ATP per mol of HMM (0.5 mol/mol head). Acto-HMM dissociates by AMPPNP (or ADP) via a ternally complex. Acto-HMM bound two mole of AMPPNP, but acto-HMM dissociated by a function of (AMPPNP) but not (AMPPNP)2. These results suggested that the affinity of HMM with F-actin decreased by the binding of one mole of AMPPNP. The result presented here showed that binding of M-ATP forming head with F-actin is controlled by the ATPase reaction of the M-P-ADP forming head. It is suggested that during muscle contraction two heads react cooperatively with thin filament.
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PMID:The function of two heads of myosin in muscle contraction. 297 Feb 8

Several studies have been performed on the structure of muscle pyruvate kinase. X-ray diffraction has provided a three-dimensional picture of the active site, and chemical modification studies have revealed essential amino acid residues for substrate binding or catalysis. We have shown that 8-azido-ADP (N3 ADP) behaves as a photoaffinity label for the enzyme. This reagent upon irradiation produces inactivation of the enzyme, and the activity loss is protected by nucleotides. The partially modified enzyme shows the same Km for ADP as the native one suggesting an "all or none" inactivation effect. The incorporation of 1 mole of 14C-N3 ADP per subunit correlates with complete inactivation. A radioactive peptide was isolated from the enzyme labeled with 14C-N3 ADP. The partial sequence of this peptide showed that it corresponds to the same peptide isolated from rabbit muscle pyruvate kinase labeled with dialdehyde-ADP and with trinitrobenzenesulfonate. This peptide is identical to a region in the cat and chicken muscle enzymes, and also a high degree of homology is found in a region of the rat liver and yeast enzymes. These studies show that N3 ADP binds to the same site as dialdehyde-ADP in rabbit muscle pyruvate kinase, and this site seems to be the nucleotide binding site.
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PMID:Photoaffinity labeling of pyruvate kinase from rabbit muscle. 297 5

(Na+ + K+)-ATPase from shark rectal glands reconstituted into lipid vesicles and oriented inside out catalyses an ouabain-sensitive Na+-Na+ exchange in the absence of intravesicular K+ when ATP is added extravesicularly. Intravesicular ouabain inhibited the exchange completely. This was also the case with digitoxigenin added to the vesicles. Intravesicular oligomycin inhibited the Na+-Na+ exchange partly in a fashion which was ATP dependent. The exchange is accompanied by a net hydrolysis of ATP with an apparent Km of 2.5 microM. ADP was found to give no stimulation of the Na+-Na+ exchange, contrarily, ADP inhibited the ATP-dependent exchange of Na+ both at optimal and supraoptimal ATP concentrations. When initial influx and efflux of 22Na was measured and the hydrolysis of ATP concomitantly determined a coupling ratio of 2.8:1.3:1 was found, i.e. 2.8 moles of Na+ were taken up (cellular efflux) and 1.3 moles of Na+ extruded (cellular influx) for each mole of ATP hydrolyzed. The electrogenic Na+-Na+ exchange generated a transmembrane potential which was measured with the fluorescent probe ANS (8-anilino-1-naphthalenesulfonic acid) to be 60 mV positive inside the liposomes (extracellular).
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PMID:Na+-Na+ exchange mediated by (Na+ + K+)-ATPase reconstituted into liposomes. Evaluation of pump stoichiometry and response to ATP and ADP. 299 89

Oxidized dialdehyde analogs of ADP or ATP (oADP and oATP) were shown to inhibit irreversibly adenine nucleotide translocator (T) and creatine kinase (CK) in heart mitochondria. Inactivation of T and CK was parallel with carboxyatractyloside - sensitive and (ADP + phosphocreatine) - sensitive incorporation of o[3H]ADP into mitochondria, respectively. o[3H]ADP incorporation sensitive to CAT or ADP+phosphocreatine was used to determine T and CK contents in mitochondria. T content in cardiac mitochondria from rat, rabbit, dog, and chicken was calculated to be 2.6 - 2.9 moles/mole cyt.aa3. The same value of T/cyt.aa3 ratio was found in liver mitochondria with lower cytochrome aa3 content. In all types of cardiac mitochondria CK content was found to be 2.4 - 2.6 moles/mole cyt.aa3. The data show that T and CK are present in molar ratio 1:1 in all types of cardiac mitochondria.
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PMID:Affinity modification of creatine kinase and ATP-ADP translocase in heart mitochondria: determination of their molar stoichiometry. 300 38

Nicotinamide mononucleotide (NMN) adenylyltransferase has been purified to homogeneity from baker's yeast crude extract. The purification procedure is relatively simple and consists of high-salt extraction of enzyme activity and precipitation with poly(ethylenimine), followed by ion-exchange and dye ligand chromatography separations. The final enzyme preparation is homogeneous as judged by a single Coomassie blue stainable band when run on nondenaturating and denaturating polyacrylamide gels. The native enzyme shows a molecular weight of about 200 000, calculated by gel filtration and sucrose gradient centrifugation. The protein possesses quaternary structure and is composed of four apparently identical Mr 50 000 subunits. The absorption spectrum shows a maximum at 280 nm and a minimum at 253 nm. The isoelectric point is 6.2. Amino acid composition analysis shows the presence of 28 half-cystine residues. The same result has been obtained by titrating the enzyme in denaturating conditions with Ellman's reagent after incubation with sodium borohydride. NMN adenylyltransferase is a glycoprotein containing 2% sugar, 2 mol of alkali-labile phosphate per mole of enzyme, and 1 mol of adenine moiety per mole of enzyme. Therefore, the possibility that the enzyme is ADP-ribosylated exists. The Km values for ATP, NMN, and nicotinate mononucleotide are 0.11 mM, 0.19 nM, and 5 mM, respectively. Kinetic analysis reveals a behavior that is consistent with an ordered sequential Bi-Bi mechanism. The pH optimum is in the range 7.2-8.4.
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PMID:Nicotinamide mononucleotide adenylyltransferase. Molecular and enzymatic properties of the homogeneous enzyme from baker's yeast. 301 96

The interaction of mitochondrial creatine kinase and ATP-ADP translocase with 2.3-dialdehyde derivatives of ADP and ATP (oADP and oATP) has been studied. It was shown that these compounds are irreversible and specific inhibitors of creatine kinase (KioADP = 0.6mM, KioATP = 1.12 mM) and ATP-ADP translocase (KioADP = 0.065mM, KioATP = 0.14 mM). The substrates protect both enzymes from inactivation by these compounds. The maximal pseudo-first order rate constants for the 2,3-dialdehyde nucleotide derivative interaction with creatine kinase are 0.2 min-1 for oADP (pH 6.5) and 0.11 min-1 for oATP (pH 7.0). A decrease in the creatine kinase activity correlates with the incorporation of the reagent into the protein. The completely inactivated, isolated and purified enzyme contains 1 mol of oADP per mole of active sites. A procedure for simultaneous determination of the creatine kinase and translocase content in mitochondria and mitoplasts has been developed, which is based on the application of [3H]oADP in combination with specific treatment of mitochondria (or mitoplasts) with carboxyatractyloside 2,4-dinitrofluorobenzene and a mixture of creatine kinase substrates (MgADP + phosphocreatine). It has been found that for heart mitochondria from different animals the content of creatine kinase and translocase is 2.1-2.6 and 2.4-2.9 mol per mol of cytochrome c oxidase, respectively. Thus, the stoiochiometric ratio of creatine kinase and ATP-ADP translocase is close to 1.0 for all mitochondrial preparations under study (i.e. rat, dog, rabbit and chicken).
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PMID:[Affinity modification of creatine kinase and ATP-ADP translocase in heart mitochondria: determination of their stoichiometric ratio]. 302 Dec 43

Saccharomyces cerevisiae phosphoenolpyruvate carboxykinase [ATP:oxaloacetate carboxy-lyase (transphosphorylating), EC 4.1.1.49] is completely inactivated by the 2',3'-dialdehyde derivative of ATP (oATP) in the presence of Mn2+. The dependence of the pseudo-first-order rate constant on reagent concentration indicates the formation of a reversible complex with the enzyme (Kd = 60 +/- 17 microM) prior to covalent modification. The maximum inactivation rate constant at pH 7.5 and 30 degrees C is 0.200 +/- 0.045 min-1. ATP or ADP plus phosphoenolpyruvate effectively protect the enzyme against inactivation. oATP is a competitive inhibitor toward ADP, suggesting that oATP interacts with the enzyme at the substrate binding site. The partially inactivated enzyme shows an unaltered Km but a decreased V as compared with native phosphoenolpyruvate carboxykinase. Analysis of the inactivation rate at different H+ concentrations allowed estimation of a pKa of 8.1 for the reactive amino acid residue in the enzyme. Complete inactivation of the carboxykinase can be correlated with the incorporation of about one mole of [8-14C]oATP per mole of enzyme subunit. The results indicate that oATP can be used as an affinity label for yeast phosphoenolpyruvate carboxykinase.
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PMID:Affinity labeling of Saccharomyces cerevisiae phosphoenolpyruvate carboxykinase with the 2',3'-dialdehyde derivative of ATP. 305 40

Mechanical work, ATP, ADP, PC, free creatine and lactate concentrations were determined on IAA poisoned frog sartorii tetanically stimulated in humidified N2 at 10 degrees C in isotonic conditions (0.25 or 0.45 Po). Tetanus duration was 0.35 s, number of tetani was varied from 0 (rest) to 25 (exhaustion). The mechanical work performed per mole ATP + PC split (W*P) amounted on the average to 16.7 kJ/mol. It was observed, however, that W*P increased from about 13 to about 24 kJ/mol with decreasing ATP concentration from about 2 (resting value) to about 1 mumol/g and that this decrease in ATP was associated with a decrease of the shortening (and relaxation) speed of the muscle to about 30% of the values observed on the first tetanus. It is concluded that the thermodynamic efficiency of muscle contraction, calculated from the ratio of WP* (measured) to the thermodynamic affinity (free energy change) of ATP hydrolysis (estimated) increases from about 0.3 to about 0.5 with decreasing ATP concentration and shortening speed.
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PMID:Efficiency of work performance and contraction velocity in isotonic tetani of frog sartorius. 319 67

Phosphorus 31 magnetic resonance spectroscopy (31P MRS) was used to study noninvasively the intracellular free Mg2+ concentration and cellular bioenergetic state of rat brain in vivo before and after fluid percussion-induced traumatic brain injury of graded severity. Brain injury was induced at four levels: low (1.0 +/- 0.5 atm); moderate (2.1 +/- 0.4 atm); high (3.9 +/- 0.9 atm); and severe (5.9 +/- 0.7 atm). Prior to injury, mean intracellular values for all groups (n = 24; mean +/- SE) were as follows: pH = 7.11 +/- 0.03; free [Mg2+] = 0.99 +/- 0.07 mM; cytosolic [ADP] = 25.2 +/- 0.8 nmol/g wet weight; cytosolic [AMP] = 0.29 +/- 0.02 nmol/g wet weight; cytosolic phosphorylation potential = 118.5 +/- 3.1 X 10(3) M-1; free energy of ATP hydrolysis = 62.11 +/- 0.04 kJ/mole; and energy charge = 0.99 +/- 0.01. Following every level of injury, there were decreases in intracellular free Mg2+ concentration, and alterations in the intracellular pH. These posttraumatic changes in Mg2+ and pH induced shifts in the equilibrium constants of the creatine kinase, adenylate kinase, and ATPase reactions, resulting in alterations in [ADP], [AMP], cytosolic phosphorylation potential, and free energy of hydrolysis, but not in the energy charge. The alterations in cytosolic phosphorylation potential following trauma were linearly correlated with the changes in intracellular free Mg2+ concentration. None of the individual bioenergetic parameters could be correlated with the severity of injury over the entire injury range; however, an association between cytosolic phosphorylation potential and reversibility of injury was apparent. These results suggest that reductions in cellular bioenergetic state following traumatic brain injury occur through a posttraumatic decrease in the cells' capacity for oxidative phosphorylation, which itself may be directly related to the intracellular free Mg2+ concentration.
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PMID:Changes in cellular bioenergetic state following graded traumatic brain injury in rats: determination by phosphorus 31 magnetic resonance spectroscopy. 324 10

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