UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 36kDa subunit of protein I (p36) is a major substrate of several tyrosine protein kinases. Here we demonstrate that protein kinase C catalyzes the incorporation of 1.7 moles of phosphate per mole of protein I. Phosphorylation is absolutely dependent on the presence of both calcium and phospholipid, and is specific for serine and threonine residues. Phosphorylation of protein I by the c-AMP dependent protein kinase, phosphorylase kinase, casein kinase I, and casein kinase II was not observed. The in vivo significance of protein kinase C dependent phosphorylation of p36 is discussed.
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PMID:Phosphorylation of p36 in vitro by protein kinase C. 308 58

Glycogen phosphorylase isolated from bovine skeletal muscles was found to be homogeneous during polyacrylamide gel electrophoresis. The enzyme phosphorylation by phosphorylase kinase is accompanied by the incorporation of one mole of labeled phosphate per protein dimer; therefore the enzyme is represented by a partly phosphorylated form. The presence of a phosphate group prevents the removal of the protein-bound pyridoxal phosphate. The partly phosphorylated bovine phosphorylase possesses a low affinity for AMP and is inactive in the presence of IMP. Bovine phosphorylase a obtained from the partly phosphorylated enzyme has a molecular mass corresponding to a dimer. Both forms of bovine phosphorylase exhibit high cooperativity towards the substrate. The mechanism of phosphorylase a activation by AMP and IMP is identical: the nucleotides increase the enzyme affinity for the substrate as well as the maximal rate of the enzymatic reaction. Study of the enzyme inhibition by caffeine revealed the cooperativity of caffeine-binding centers. The equilibrium between the active and inactive enzyme conformations in the presence of caffeine is markedly shifted towards the inactive (T) form of glycogen phosphorylase.
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PMID:[Purification and properties of glycogen phosphorylase isolated from bovine skeletal muscles]. 312 32

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

Creatine kinase from skeletal muscle (EC 2.7.3.2) was inactivated by means of imidazolides of AMP, ADP, ATP. Rates of the inactivation of the enzyme's M- and M'-subunits differ 50-100 fold and decrease in the presence of ADP and ATP. Differential spectrum of the native and modified enzymes corresponds to the spectrum of N,O-diacetyltyrosine. Kinetic curves of hydroxylamine-dependent destruction of N,O-diacetyltyrosine and of alteration of differential spectrum of the modified and native enzymes essentially coincide. The enzyme's inactivation appears to be caused mainly by the formation of a bond between nucleotide imidazolides activated carboxyl group of the active centre and OH-group of Tyr residue arranged in the close proximity. The stoichiometry of acyltyrosine formation is evaluated as 2.1 +/- 0.2 mole per mole of the functional dimer. Along with formation of ester bond between amino acid residues, a covalent attachment of 0.03-0.06 mole of [14C]nucleotides per mole of enzyme is observed. As the data of acid hydrolysis show, Im-ATP and Im-AMP block epsilon-amino group of Lys and guanidine group of Arg, respectively. Reasons of the multiple modification of creatine kinase by affinity reagents are discussed. The results obtained and literature data are summarised in the hypothetical scheme of disposition of various amino acid residues in the active centre of creatine kinase.
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PMID:[Creatine kinase from rabbit skeletal muscles: formation of O-acyltyrosine as a result of the activation of the carboxylic group of the enzyme active site by affinity reagents, nucleotide imidazolides]. 360 72

The nucleotide analogue 5'-p-fluorosulfonylbenzoyladenosine (FSBA) reacts irreversibly with rat liver cytosolic 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase kinase, causing a rapid loss of the AMP activation capacity and a slower inactivation of the catalytic activity. The rate constant for loss of AMP activation is about 10 times higher (kappa 1 = 0.112 min-1) than the rate constant of inactivation (kappa 2 = 0.0106 min-1). There is a good correspondence between the time-dependent inactivation of reductase kinase and the time-dependent incorporation of 5'-p-sulfonylbenzoyl[14C]adenosine ([14C]SBA). An average of 1.65 mol of reagent/mol of enzyme subunit is bound when reductase kinase is completely inactivated. The time-dependent incorporation is consistent with the postulate that covalent reaction of 1 mol of SBA/mol of subunit causes complete loss of AMP activation, whereas reaction of another mole of SBA/mol of subunit would lead to total inactivation. Protection against inactivation by the reagent is provided by the addition of Mg2+, AMP, Mg-ATP, or Mg-AMP to the incubation mixtures. In contrast, addition of ATP, 2'-AMP, or 3'-AMP has no effect on the rate constants. Mg-ATP protects preferentially the catalytic site against inactivation, whereas Mg-AMP at low concentration protects preferentially the allosteric site. Mg-ADP affords less protection than Mg-AMP to the allosteric site when both nucleotides are present at a concentration of 50 microM with 7.5 mM Mg2+. Experiments done with [14C]FSBA in the presence of some protectants have shown that a close correlation exists between the pattern of protection observed and the binding of [14C]SBA. The postulate is that there exists a catalytic site and an allosteric site in the reductase kinase subunit and that Mg-AMP is the main allosteric activator of the enzyme.
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PMID:Affinity labeling of the catalytic and AMP allosteric sites of 3-hydroxy-3-methylglutaryl-coenzyme A reductase kinase by 5'-p-fluorosulfonylbenzoyladenosine. 365 27

When whole urinary bladders of the toad were incubated with adenosine 3',5'-monophosphate-(3)H (cyclic AMP-(3)H) > 95% of the radioactivity could be extracted from the tissue with trichloroacetic acid (TCA). The TCA-soluble radioactivity was separable by cation-exchange (Dowex-50) chromatography into residual cyclic AMP-(3)H, 5'-AMP-(3)H, adenosine diphosphate (ADP)-(3)H and inosine-(3)H. Thus, neither substantial tight binding of cyclic AMP to TCA-precipitable cell constituents nor any novel metabolite of cyclic AMP were found. On exposure of cyclic AMP-(3)H to a crude homogenate of the epithelial cells scraped from the mucosal face of the bladder, the principal metabolite was inosine-(3)H, whereas 5'-AMP-(3)H was either absent or present in undetectible amounts. However, when the homogenate included added 5'-AMP (2 x 10(-2) mole/liter), substantial quantities of 5'-AMP-(3)H were recovered. Metabolism of cyclic AMP-(3)H by homogenates of the epithelial cell scrapings from the bladder was strongly stimulated by alkalinization over the range in pH of 6-9. Theophylline inhibited metabolism of cyclic AMP only to a limit of 50%, the inhibition being limited to the OH(-)-stimulated component. These results suggest the possibility that a second pathway for metabolism of cyclic AMP may exist. If such is the case, its relationship, if any, to the ultimate biological effects of cyclic AMP within cells will be studied.
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PMID:Metabolism of adenosine 3',5'-monophosphate by epithelial cells of the toad bladder. 430 52

The relation of cyclic 3',5'-adenosine monophosphate to platelet function has been studied by investigating the influence of this compound and of its N(6)-2'-0-dibutyryl derivative on platelet aggregation and other aspects of platelet behavior after demonstration of adenyl cyclase activity in disrupted platelets. Dibutyryl cyclic AMP inhibited platelet aggregation induced by ADP, epinephrine, collagen, and thrombin. Cyclic AMP was also inhibitory but was less effective. The platelet "release reaction" was also inhibited; specifically, there was inhibition of the induction of platelet factor 3 activity and of the release of labeled 5-hydroxytryptamine. Platelet swelling produced by ADP was not inhibited. The action of dibutyryl cyclic AMP did not result from contamination with 5'-AMP, nor was it attributable to production of 5'-AMP by plasma enzymes. Dibutyryl cyclic AMP was degraded to 2'-O-monobutyryl cyclic AMP and to cyclic AMP in plasma, but plasma exhibited no cyclic nucleotide phosphodiesterase activity, and the production of 5'-AMP did not occur. The in vitro effects of dibutyryl cyclic AMP were associated with uptake of the compound by platelets. Adenyl cyclase activity of platelet homogenates was demonstrated with production of 9.27 x 10(-11) (+/-2.62 x 10(-11)) mole cyclic AMP per min per 10(10) platelets. The activity was increased by NaF and by prostaglandin PGE(1) and was decreased by epinephrine. The effect of epinephrine was blocked by phentolamine but not by propanolol. Adenyl cyclase activity was also inhibited by collagen, 5-hydroxytryptamine, and thrombin. ADP, dibutyryl cyclic AMP, and cyclic AMP did not alter adenyl cyclase activity. These observations are consistent with the hypothesis that platelet aggregation is favored by a decrease in platelet cyclic AMP and inhibited by an increase in cyclic AMP.
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PMID:Cyclic 3',5'-adenosine monophosphate in human blood platelets. II. Effect of N6-2'-o-dibutyryl cyclic 3',5'-adenosine monophosphate on platelet function. 432 65

We describe an abrupt increase (at 32 degrees ) in the energy of activation for the reaction of hepatic adenylyl cyclase in the presence of glucagon or epinephrine. This increase is not seen in the presence of fluoride, prostaglandin E(1), or 1-propanol, or in the absence of cyclase stimulators. The change in energy of activation found with hormones is abolished by 1-propanol. This change does not represent differences in hormone or substrate binding at different temperatures, but seems to reflect interactions among elements of the cyclase stimulation sequence. Similar changes in energy of activation were not observed for alkaline phosphatase, cyclic AMP-phosphodiesterase, 5'-nucleotidase, or ouabain-sensitive ATPase. Since the mole fraction of cholesterol in liver membranes is sufficiently high to preclude a phase change in bulk membrane lipids, our observation suggests either that cyclase is restricted to cholesterol-poor membrane regions or that the change in its energy of activation is largely restricted to protein components of the cyclase apparatus. The data are compatible with fundamental differences in the stimulation process(es) for the hormones (glucagon and epinephrine) as compared with those for fluoride and prostaglandin E(1).
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PMID:A temperature-sensitive change in the energy of activation of hormone-stimulated hepatic adenylyl cyclase. 435 55

1. Changes in the concentrations of ATP, ADP, AMP, IMP, creatine and phosphorylcreatine (PC) have been measured in frog sartorius muscles after different periods of isometric stimulation at 20 degrees C. The heat production was measured in parallel experiments with a thermopile of the Hill-Downing type.2. Muscles were either in O(2) and unpoisoned or in N(2) and poisoned with iodoacetic acid to prevent aerobic and glycolytic recovery processes.3. Poisoning did not appear to alter the heat production of these muscles and had little effect on the tension for up to 8 sec tetanus.4. The break-down of high-energy phosphates ( approximately P) during contraction was faster in the poisoned muscles. Normal muscles were thus able to resynthesize high energy phosphates during the contraction. The resynthesis began at its maximum rate; part of it was probably due to glycolytic activity.5. During the first 2 sec of contraction (poisoned muscles), the only net reaction was an hydrolysis of PC, with an apparent enthalpy change of -8.3 kcal/mole. During longer contractions, the PC hydrolysis was accompanied by a net ATP hydrolysis and appearance of AMP and IMP.6. For the first 2 sec of contraction in the poisoned muscles, the observed heat agreed with that expected from the observed chemical changes multiplied by their molar enthalpy changes. After 2 sec, the observed heat was greater than that expected. At 12 sec this excess was about 74 mcal/g. Possible explanations for this discrepancy are discussed.
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PMID:Energy balance in frog sartorius muscle during an isometric tetanus at 20 degrees C. 475 78

1. RNA was isolated from virus-like particles found in Penicillium chrysogenum and resolved into two fractions by gel filtration through agarose columns. 2. Fraction 1 was excluded and had the following properties: 50.9% G+C [AMP 0.246, UMP 0.246, CMP 0.252, GMP 0.255 (mole fraction)]; mol.wt. about 1.2x10(6) daltons; s(20,w) 12.3S and ;melting' temperature about 100 degrees C (solvent 0.15m-sodium chloride-0.015m-sodium citrate pH7.2); optical rotation [alpha](max.) 6000 degrees at 278nm; circular dichroism (epsilon(L)-epsilon(R))(max.)=8.181mol(-1) cm(-1) at 260nm. 3. Properties of fraction 2 include 37.8% G+C [AMP 0.313, UMP 0.312, CMP 0.186, GMP 0.189 (mole fraction)]; mol.wt. about 140000 daltons; s(20,w) 7.3S, T(m) about 85 degrees C (solvent 0.15m-sodium chloride-0.015m-sodium citrate, pH7.2); optical rotation [alpha](max.) 6000 degrees at 278nm; circular dichroism (epsilon(L)-epsilon(R))(max.)=8.241mol(-1) cm(-1) at 260nm. 4. The properties of both fractions were consistent with a double-helical conformation.
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PMID:Double-helical character of ribonucleic acid from virus-like particles found in Penicillium chrysogenum. 549 67

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