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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The mechanism underlying the raised leucocyte sodium content in fulminant hepatic failure was studied by measurement of sodium fluxes, (Na+ + K+)-dependent adenosine triphosphatase activity, and leucocyte ATP content. 2. The rate constant for sodium efflux in the leucocytes was significantly reduced, and attributable to reduced activity of the enzyme (Na+ + K+)-ATPase. Leucocyte ATP content was not significantly different from that of control cells. 3. Incubation of cells from patients in the sera of normal subjects resulted in a reversal of these changes. Inhibition of the leucocyte sodium efflux rate constants and (Na+ +K+)-ATPase of normal cells was achieved by incubation in sera from patients. 4. We suggest that the raised sodium content of leucocytes in fulminant hepatic failure is attributable to a defective sodium pumping mechanism, possibly due to a circulating toxin.
Clin Sci Mol Med 1978 Oct
PMID:A study in vitro of the sodium pump in fulminant hepatic failure. 21 31

A generalized scheme of the reaction pathways during activation of the Na,K-ATPase by sodium and potassium ions and a relevant molecular model of the Na-pump are proposed. The model suggests light and heavy enzyme subunits possessing cavities with ion exchange sites. The cavities are of limited size and can contain only 3 sodium or 2 potassium ions. Free energy of ATP hydrolysis is expended on the formation of a special transient nonequilibrium enzyme conformation. In this conformation ion exchange between the subunit cavities becames possible. Na-pump operates as an enthropy machine: the ion movement across the membrane is provided by thermal oscillations of the subunits.
Mol Biol (Mosk)
PMID:[Mechanism of coupling of ion transport and ATP hydrolysis in the Na-pump]. 22 May 23

Carbamylcholine and acetylcholine through a muscarinic type of receptor, KCl, ionophore A-23187 and NaF increased cyclic GMP accumulation in dog-thyroid slices. These effects were abolished in calcium-depleted slices, which findings confirm that Ca2+ is required for cyclic GMP accumulation. All these agents depressed the accumulation of cyclic AMP in TSH-stimulated slices. KCl and NaF depressed cyclic AMP accumulation in TSH-treated slices even when they had been depleted of Ca2+. This suggests a cyclic GMP- and Ca2+-independent mechanism. The absence of inhibition of the effects of the ionophore, NaF and KCl in the presence of atropine suggests that these drugs do not act by inducing the release of acetylcholine in the slices. The effects of carbamylcholine and ionophore A-23187 on cyclic GMP accumulation and protein iodination were reversible; the inhibitions of TSH-induced cyclic AMP accumulation and secretion were non-competitive and were not accompanied by a depression of ATP levels. All these effects were greatly decreased in the absence of extracellular Ca2+. These data suggest that carbamylcholine and ionophore A-23187 act mainly by increasing the influx of extracellular Ca2+ in thyroid cells. However, the persistence of some carbamylcholine effect in the absence of Ca2+ in the medium suggests that this agent may also trigger the release of Ca2+ from an intrafollicular pool. The kinetics of action of carbamylcholine are compatible with a role of cyclic GMP in the inhibition of cyclic AMP accumulation. However, with the ionophore, the depression of cyclic AMP accumulation was much longer than the rise of cyclic GMP, which suggests a mechanism independent of cyclic GMP.
Mol Cell Endocrinol 1979 Apr
PMID:Effects of carbamylcholine and ionophore A-23187 on cyclic 3',5'-AMP and cyclic 3',5'-GMP accumulation in dog-thyroid slices. 22 40

ATP and UTP support microtubule assembly through the action of brain nucleoside-5'-diphosphate kinase on GDP. Penningroth and Kirschner (1977) J. Mol. Biol. 115, 643-673) have proposed that microtubule assembly may occur by either of two mechanisms: indirectly, through nucleoside-5'-diphosphate kinase-catalyzed phosphorylation of uncomplexed GDP and directly by nucleoside-5'-diphosphate kinase-mediated transphosphorylation of tubulin-bound GDP at low tubulin concentrations. We find the rates of GDP and GTP release (0.68 and 0.32 min-1, respectively) are sufficiently fast relative to assembly to permit GDP release, phosphorylation, and GTP binding as the sole mechanism of nucleoside-5'-diphosphate kinase action in microtubule assembly. Computer simulation studies accord with the conclusion that GDP release is rapid relative to microtubule assembly. The specific activity of the nucleoside-5'-diphosphate kinase is 1.7 nmol/min/mg of microtubular protein under the conditions studied. Pulse-chase experiments with tubulin . [14C]GDP complex and the rapidity of GDP phosphorylation by the kinase are in agreement with this scheme. Finally, it was observed that the extent and rate of microtubule assembly depends upon the [ATP]/[ADP] ratio.
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PMID:Nucleotide release from tubulin and nucleoside-5'-diphosphate kinase action in microtubule assembly. 22 18

Histone kinase activity was purified from human polymorphonuclear leukocytes by ammonium sulphate precipitation of a 180 000 x g supernatant, followed by DEAE-cellulose chromatography and gelfiltration. On DEAE-cellulose cAMP dependent kinase activity eluted in two peaks, I and III, at 1.2 mmho and 6.5 mmho, respectively. Catalytic subunit (C) from both peaks had Mr 33 000, 3.0S. Regulatory subunit (R) from peak I and III both had Mr 33 000 upon gelfiltration, but sedimented at 2.8--3.0S and 3.0--3.2S, respectively. R2 and R4 subunits were identified. The R-C dimer from peak I and III sedimented at 4.8S and (4.8)--5.1S, respectively. The holoenzyme from peak I had Mr 165 000, 6.7S, which suggest a R2C2 structure, while that of peak III sedimented at 6.7S, but eluted at Mr 330 000 (2R2C2) by gelfiltration. The Kmapp for peak I and III enzymes were, respectively: histone IIA 0.5 mg/ml (both forms), ATP 18 microM and 23 microM, and cAMP 5 X 10(-8) M and 6.3 x 10(-8) M. Both enzymes had pH optimum 6.7--6.9 and were equally sensitive to Ca2+, temperature and protein kinase inhibitor. The substrate specificity was histone VS greater than histone IIA = histone VIS greater than casein greater than phosvitin. Peak I enzyme, but not peak III enzyme, was dissociated by histone and high ionic strength and reassociation of R and C subunits were facilitated by ATP-Mg. It is concluded that peak I and III enzymes represent type I and II cAMP dependent protein kinases, respectively. Type I comprises 20--30% of cAMP dependent protein kinase activity and is absent from the 180 000 x g supernatant of gently disrupted cells. Purified catalytic subunit had Kmapp (ATP) 20 microM with rabbit muscle glycogen synthease I as substrates. Synthase I from rabbit muscle and human leukocytes were phosphorylated by catalytic subunit to synthase D (ratio of independence less than 0.07). cAMP independent histone kinase activity eluted in one peak (Peak II) at3 mmho. The enzymatic activity sedimented at 3.4S and eluted from gelfiltration with Mr 78 000. Kmapp for ATP was 78 microM and for histone IIA 0.5 mg/ml. The enzyme was sensitive to temperature, but less sensitive than cAMP dependent protein kinase to Ca2+, and insensitive to protein kinase inhibitor. The substrate specificity was histone IIA greater than histone VS = histone VIS, while casein and phosvitin were poor substrates. Glycogen synthase I was not phosphorylated. The cAMP independent histone kinase activity comprised 15% of the total histone kinase activity in a crude homogenate of leukocytes. Its physiological substrate is unknown.
Mol Cell Biochem 1979 Jul 15
PMID:Purification and properies of cAMP dependent and independent histone kinases from human leukocytes. 22 66

The phosphorylation of proteins in the synaptic plasma membrane is a rather slow reaction taking several minutes to saturate all the phosphate acceptor sites. (The time for half the protein bound phosphate groups to turnover is about 1 min). A divalent cation is needed as a cofactor for the reaction. At high (0.5 mM) ATP concentrations Mg2+ is more effective than Mn2+ but at low (10 microM) ATP concentrations the reverse is the case. Zn2+ and Ca2+ support very little phosphorylation.
Mol Cell Biochem 1979 Oct 15
PMID:The time course of the phosphorylation of proteins in the synaptic plasma membrane and the effect of certain cations. 22 75

A large number of hormones and neurotransmitters activate adenylyl cyclase [ATP, pyrophosphate lyase (cyclizing; EC 4.6.1.1.)] catalyzing the formation of cAMP and PPi from ATP in the presence of Mg2+. The cAMP formed is in turn responsible for eliciting the physiological responses of these hormones and neurotransmitters. In addition to hormones and neurotransmitters, fluoride ion, cholera toxin and guanyl nucleotides (GTP and GTP analogs such as GTP gamma S and GMP-P(NH)P) also stimulate adenylyl cyclase activity (Perkins, 1974; Birnbaumer, 1977; Gill, 1977). It has become evident that hormonally-responsive adenylyl cyclase is a multi-component system consisting of at least 3 physically distinct units. The first is the hormone receptor containing a specific site for a given hormone. The second is the catalytic moiety (C component) of adenylyl cyclase bearing the site responsible for catalysis of the cyclizing reaction. The third is the guanyl nucleotide regulatory subunit (G component) which binds guanyl nucleotide. Recently, a GTPase activity has been found to be associated with the G component of adenylyl cyclase (Cassel and Selinger, 1976; Cassel et al., 1977a, b; Lambert et al., 1979). In this review we will present information on the regulation of hormonally-responsive adenylyl cyclases. This is not intended to be a comprehensive review of the literature. Rather, it represents our views on the current status of the regulation of cAMP formation.
Mol Cell Endocrinol 1979 Dec
PMID:Guanyl nucleotide regulation of hormonally-responsive adenylyl cyclases. 23 Jan 2

Some properties of an enzyme designated as a two component ribonucleotidyl transferase from E. coli are presented. The enzyme in the presence of magnesium ions catalyzes the synthesis of polyribonucleotide chains using all four nucleoside triphosphates as substrates. The enzyme consists of two components; component A in the presence of Mg2+ catalyzes the synthesis of homo- and heteropolymers using ATP, CTP and UTP but not GTP as substrates. Component B itself does not catalyze any synthesis at all, but its addition to component A affects this component in two ways: quantitatively- the activity of component A considerably increases, and qualitatively- both components together are capable of catalyzing the synthesis of polyribonucleotides consisting of all four ribonucleotides.
Mol Biol Rep 1975 Jul
PMID:A tw0-component ribonucleotidyl transferase from E. coli. 24 Jan 21

Each subunit of the dimeric tryptophanyl-tRNA-synthetase from beef pancreas is subjected to limited hydrolysis by elastase in two stages, according to scheme: 60 00 +/- 2000 leads to 51 000 +/- 2000 leads to 40 000 +/- 1500 daltons. In the course of the second step tryptophanyl-tRNA-synthetase looses its enzymatic activity. In the presence of substrates the pattern of fragments does not change. Formation of tryptophanyladenylate enzyme complex decreases the rate of proteolysis. Using the ability of synthetase to form one mole of stable aminoacyladenylate per mole of synthetase, the "one-site" enzyme was obtained by action of elastase on aminoacyladenylate-enzyme complex. This "one-site" enzyme consists of two subunits, one of which has a molecular weight of 51 000 daltons and is active and the other has a molecular weight of 40 000 daltons and is inactive. The "one-site" enzyme had Km values for all substrates for both aminoacylation and ATP--[32P]PP exchange reactions which are similar to values of Km for the native enzyme.
Mol Biol (Mosk)
PMID:[Tryptophanyl-tRNA-synthetase: limited proteolysis by elastase and isolation of "one-site" enzyme]. 26 32

A previous paper (Mahler, M. 1978 J. Gen. Physiol. 71:559--580) describes the time-course of the suprabasal rate of oxygen consumption (delta QO2) in the sartorius muscle of R. pipiens after isometric tetani of 0.1--1.0 s at 20 degrees C. To test whether these were the responses to impulse changes in the rate of ATP hydrolysis, we compared the total suprabasal oxygen consumption during recovery (delta[O2]) with the amount of ATP hydrolyzed during a contraction, measured indirectly as the decrease in creatine phosphate (delta[CP]O). If suprabasal ATP hydrolysis during recovery is negligible in comparison with that during contraction, delta[CP]0/delta[O2] should approximate the P:O2 ratio for oxidative metabolism, which has an expected value of 6.1--6.5. We found: formula; see text. We conclude that in this muscle at 20 degrees C: (a) after a tetanus of 0.2--1.0 s, delta QO2(t) can be considered the response to an impulse increase in the rate of ATP hydrolysis; (b) the reversal during recovery of unidentified exothermic reactions occurring during the contraction (Woledge, R. C. 1971. Prog. Biophys. Mol. Biol. 22:39--74) can be coupled to an ATP hydrolysis that is at most a small fraction of delta[CP]0; (c) the pooled mean for delta[CP]0/delta[O2], 6.58 +/- 0.55, sets an experimental lower bound for the P:O2 ratio in vivo.
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PMID:The relationship between initial creatine phosphate breakdown and recovery oxygen consumption for a single isometric tetanus of the frog sartorius muscle at 20 degrees C. 31 12


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