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)

1. Tubulin purified from porcine brain in the presence of GTP contained 0.16 mole of GDP and 0.73 mole of GTP per 60,000 g of protein. 2. Microtubules reconstituted from the purified tubulin contained 0.43 mole of GDP and 0.41 mole of GTP per 60,000 g of protein. Guanine nucleotide bound to the exchangeable site of tubulin was converted to GDP during microtubule assembly, while GTP at the non-exchangeable site remained intact. 3. Guanine nucleotide which had been bound to the exchangeable site of tubulin before microtubule assembly was also exchangeable during disassembly.
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PMID:Dephosphorylation of tubulin-bound guanosine triphosphate during microtubule assembly. 122 3

Thiourea dioxide was used in chemical modification studies to identify functionally important amino acids in Escherichia coli CTP synthetase. Incubation at pH 8.0 in the absence of substrates led to rapid, time dependent, and irreversible inactivation of the enzyme. The second-order rate constant for inactivation was 0.18 M-1 s-1. Inactivation also occurred in the absence of oxygen and in the presence of catalase, thereby ruling out mixed-function oxidation/reduction as the mode of amino acid modification. Saturating concentrations of the substrates ATP and UTP, and the allosteric activator GTP prevented inactivation by thiourea dioxide, whereas saturating concentrations of glutamine (a substrate) did not. The concentration dependence of nucleotide protection revealed cooperative behavior with respect to individual nucleotides and with respect to various combinations of nucleotides. Mixtures of nucleotides afforded greater protection against inactivation than single nucleotides alone, and a combination of the substrates ATP and UTP provided the most protection. The Hill coefficient for nucleotide protection was approximately 2 for ATP, UTP, and GTP. In the presence of 1:1 ratios of ATP:UTP, ATP:GTP, and UTP:GTP, the Hill coefficient was approximately 4 in each case. Fluorescence and circular dichroism measurements indicated that modification by thiourea dioxide causes detectable changes in the structure of the protein. Modification with [14C]thiourea dioxide demonstrated that complete inactivation correlates with incorporation of 3 mol of [14C]thiourea dioxide per mole of CTP synthetase monomer. The specificity of thiourea dioxide for lysine residues indicates that one or more lysines are most likely involved in CTP synthetase activity. The data further indicate that nucleotide binding prevents access to these functionally important residues.
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PMID:Inactivation and covalent modification of CTP synthetase by thiourea dioxide. 130 49

Mammalian phosphoenolpyruvate carboxykinase (PEPCK) specifically requires a guanosine or inosine nucleotide as a substrate; however, the structural basis for this nucleotide specificity is not yet known. Because affinity labels derived from guanosine have not yielded a stable, modified peptide in quantities sufficient for sequence analysis, we have investigated the utility of direct photochemical cross-linking of GTP to PEPCK in order to identify the nucleotide binding site. UV irradiation at a distance of 2 cm by a Mineralight lamp (330 microW/cm2) results in the attachment of [alpha-32P]GTP to PEPCK via a stable, covalent linkage in a reaction that is dependent upon GTP concentration and duration of irradiation. After 10 min of irradiation, more than 0.2 mol of [alpha-32P] GTP is incorporated per mole of PEPCK; under these conditions the GTP concentration required for half-maximal labeling is 69 microM. The substrates phosphoenolpyruvate, ITP, and GDP provide protection against photolabeling, as do Mn2+ and Mg2+. One major and one minor radioactive peptide derived from proteolytic digests of photolabeled PEPCK have been isolated and identified. The major modified peptide has been provisionally assigned to an acidic region near the C-terminus, and the minor peptide has been identified as Ser462-Lys471.
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PMID:Photochemical cross-linking of guanosine 5'-triphosphate to phosphoenolpyruvate carboxykinase (GTP). 151 68

Reaction of rat liver phosphoenolpyruvate carboxykinase (GTP: oxaloacetate carboxy-lyase (transphosphorylating), EC 4.1.1.32) with the alkylating fluorescent probe N-(iodoacetylaminoethyl)-5-naphthylamine-1-sulfonic acid (1,5-I-AEDANS), results in complete loss of enzymatic activity. One mole of the fluorescent reagent is incorporated per mole of the inactivated enzyme. When the modification is carried out in the presence of GDPMn, the enzyme retains 97% of its activity with almost no incorporation of label. The specificity of the reaction is further supported by the detection of a unique fluorescent peptide from the trypsin-treated modified enzyme. Fluorescence emission of enzyme-bound AEDANS shows a broad band centered at 470 nm and presents a monoexponential decay with a lifetime of 19 ns. These data indicate that the probe-binding site is considerably less polar than water and similar in polarity to ethanol. Anisotropy determinations give evidence for restricted rotational freedom for AEDANS bound to the rat carboxykinase, while acrylamide quenching studies reveal limited accessibility to the probe site. The results are consistent with specific labeling of rat liver phosphoenolpyruvate carboxykinase at or near the GDP site. The characteristics of the nucleotide-binding sites of rat liver and yeast (ATP) phosphoenolpyruvate carboxykinase are compared.
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PMID:Fluorescent labeling of the nucleotide site in cytosolic rat liver phosphoenolpyruvate carboxykinase. 189 68

Incubation of tryptophanyl-tRNA synthetase from bovine pancrease with [gamma-32P]ATP of [gamma-32P]GTP and casein kinase II from rabbit liver leads to the incorporation of labeled phosphate into serine residues of synthetase polypeptide. The maximal level of 32P incorporation into synthetase polypeptide (Mr = 60 kDa) 0.15 moles of 32P per 1 mole of polypeptide was observed. Electrophoretic analysis according to O'Farrell showed that kinase phosphorylates exclusively the most acidic polypeptides (pI 4.9) of the synthetase preparation. Pretreatment of synthetase with animal acidic and alkaline phosphatases had no influence on the level of 32P incorporation in synthetase during subsequent incubation in the presence of casein kinase II.
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PMID:[Phosphorylation of tryptophanyl-tRNA-synthetase by casein kinase type II]. 209 10

The question of whether nonhydrolyzable nucleotide analogues and other nucleoside triphosphates support tubulin assembly was addressed. Tubulin which contained residual GTP at the exchangeable site polymerized in the absence of added GTP in the presence of DMSO or glycerol. After maximum absorbance was reached, disassembly occurred at a slow rate. When 0.5 mM GMPPCP, GMPPNP, or ATP was included in the assembly reaction, disassembly did not occur, and about 0.1 mol of these nucleotides per mole of tubulin was incorporated into the protein. When 5 mM nucleotide was used or alkaline phosphatase was included in the case of the nonhydrolyzable analogues, a greater amount of assembly occurred and about 0.7-0.8 mol of analogue was incorporated. The products of the assembly reaction were cold-labile microtubules and protofilament ribbons. After cold-depolymerization of the microtubules and ribbons, a second cycle of assembly produced some microtubules, but cold-stable amorphous polymers were the major product. In addition, when GTP at the exchangeable site was first removed by a cycle of assembly, followed by depolymerization, assembly in the presence of GMPPCP, GMPPNP, or ATP produced a mixture of microtubules and cold-stable polymers, both of which contained bound analogue. Incorporation of GMPPCP, GMPPNP, or ATP into polymerized tubulin always occurred at the expense of GDP at the exchangeable site, the content of which decreased correspondingly. Incubation of tubulin with 5 mM GMPPCP, GMPPNP, or ATP under nonassembly conditions also displaced GDP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:GTP analogues interact with the tubulin exchangeable site during assembly and upon binding. 210 23

Muscarinic acetylcholine receptors purified from porcine cerebrum were phosphorylated by protein kinase C purified from the same tissue. More than 1 mol of phosphate was incorporated per mole of receptor, with both serine and threonine residues being phosphorylated. Neither the degree nor the rate of the phosphorylation was affected by the presence or absence of acetylcholine. GTP-sensitive high-affinity binding with acetylcholine was observed for muscarinic receptors reconstituted with GTP-binding proteins (Gi or Go), irrespective of whether muscarinic receptors or the GTP-binding proteins had been phosphorylated by protein kinase C or not. This indicates that the interaction between purified muscarinic receptors and purified GTP-binding proteins in vitro is not affected by their phosphorylation.
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PMID:Phosphorylation by protein kinase C of the muscarinic acetylcholine receptor. 210 45

Purified porcine atrial muscarinic acetylcholine receptors were reconstituted into lipid vesicles with three different G proteins (Gi, Go and Gn)1 purified from porcine cerebrum. All the G proteins interacted with the receptor as evidenced by GTP-sensitive high affinity binding with acetylcholine, and stimulation by acetylcholine of GTP gamma S binding and GTPase activities. The curves of displacement by acetylcholine of [3H]QNB binding were explained by assuming two sites with the same affinity for [3H]QNB but different affinities for acetylcholine. The proportion of the high affinity site increased from 3 to 7% up to 82 to 83% of total binding sites with increasing G protein concentration, and essentially the same results were obtained with the three G proteins. The GTPase activities of Gi, Go and Gn in the reconstituted vesicles were 2.7-, 1.7- and 1.6-times higher, respectively, in the presence of 1 mM acetylcholine than those in the presence of 10 microM atropine. An obvious enhancement by acetylcholine of the GTP gamma S binding was observed in the presence of 10 to 100 microM GDP, while the enhancement was minimal, if at all, in the absence of GDP. When the molar ratios of reconstituted Gi, Go and Gn to muscarinic receptors were 54, 84 and 107, respectively, the acetylcholine-induced increase in the [35S]GTP gamma S binding was as much as 12, 35 and 27 mol with Gi, Go and Gn, respectively, per mole of the receptor molecule, indicating that the muscarinic receptors interact with G proteins catalytically.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of atrial muscarinic receptors with three kinds of GTP-binding proteins. 211 1

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

Casein kinase II and ornithine decarboxylase were purified from a virally-transformed macrophage-like cell line, RAW264. The addition of casein kinase II to a reaction mixture containing [tau-32P]GTP, Mg++, and ornithine decarboxylase led to the phosphorylation of a 55,000 dalton protein band in the purified preparation of ornithine decarboxylase. Stoichiometric estimates indicated that casein kinase II incorporated 0.15 mole of phosphate per mole of ornithine decarboxylase, which was increased to 0.3 mole/per mole in the presence of spermine. The apparent Km and Vmax values for the casein kinase II-mediated phosphorylation of ornithine decarboxylase were 0.36 microM and 62.5 nmol/min./mg kinase. The addition of spermine to the reaction did not alter the Km but increased the Vmax to 100 nmol/min./mg kinase. The phosphorylation of ornithine decarboxylase by casein kinase II affected neither the rate of maximal ornithine decarboxylase activity nor the affinity of the enzyme for ornithine.
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PMID:Phosphorylation of ornithine decarboxylase by casein kinase II from RAW264 cells. 222 53

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