UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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1. Plasma membrane preparations have been isolated from spheroplasts of Saccharomyces cerevisiae, strain R XII, via lysis and subsequent differential centrifugation. These preparations are almost devoid of mitochondrial contamination. 2. The plasma membrane ATPase is fairly stable when refrigerated, but loses activity at 8 degrees C and above. Below pH 5.6 the ATPase is irreversibly inactivated. The enzyme also splits GTP and ITP, although to a lesser extent. 3. Mg2+-ions are essential as part of the reactive substrate, MgATP, and furthermore they activate the ATPase. Optimal conditions depend on substrate concentration. When the concentration of free Mg2+ ions exceeds about 0.1 mM, competitive inhibition occurs. 4. In the range of pH 5.6-9.2 two functional groups dissociate. One, with pKb = 8.1 +/- 0.1 participated in substrate binding and another one with pKb' = 8.1 +/- 0.1 is involved in substrate splitting. 5. The experiments with group-specific inhibitors suggest that an alpha-amino group and a sulfhydryl residue are involved in substrate binding and conversion. Furthermore, imidazole, tryptophan and carboxyl residues may be important for the catalytic process.
Mol Cell Biochem 1978 Nov 30
PMID:Kinetic characterization of plasma membrane ATPase from Saccharomyces cerevisiae. 3 25

cAMP independent glycogen synthase kinase and phosvitin kinase activity was purified from the 180 000 x g supernatant of human polymorphonuclear leukocytes by ammonium sulphate precipitation and phosphocellulose chromatography. The cAMP independent glycogen synthase kinase eluted from the phosphocellulose at 0.54 M NaCl (peak A) separate from the major phosvitin kinase eluting at 0.68 M NaCl (peak B). The kinase activity of both peaks tended to form aggregates, but in the presence of 0.6 M NaCl, the peak B enzyme had Mr 250 000, 7.2S and the peak A enzyme Mr 38 000, 3.8S. The ratio between synthase kinase and phosvitin kinase activity in peak A was 1:3.2 and in peak B 1:31.4. In addition the kinase activities differed with respect to sensitivity to temperature, ionic strength and CaCl2. It is suggested that the peak A enzyme represents the cAMP independent glycogen synthase kinase of leukocytes, whereas the peak B enzyme is a phosvitin kinase, which is insignificantly contaminated with some synthase kinase (peak A) and contains a separate, second synthase kinase. Synthase kinase had Kmapp 4.2 microM for muscle glycogen synthease I and Kmapp 45 microM for ATP. GTP was a poor substrate. The activity was not influenced by cyclic nucleotides, Ca2+, or glucose-6-P. Synthase I from muscle and leukocytes was phosphorylated to a ratio of independence of less than 0.05.
Mol Cell Biochem 1979 Jul 15
PMID:Purification and properties of cAMP independent glycogen synthase kinase and phosvitin kinase from human leukocytes. 4 Jan 8

The interaction of human chorionic gonadotropin (hCG) with rat adipose tissue was investigated by both metabolic and binding studies. Highly purified preparations of hCG did not affect the adenylate cyclase activity nor the lipolysis of rat adipocytes in the presence or in the absence of GTP. However, it was demonstrated that (a) the hCGs used were biologically active since they stimulated cAMP and testosterone production by rat Leydig cells, and (b) there are receptor sites on the rat ovary that bind [125I]hCG and recognize rat luteinizing hormone (LH). The lack of response cannot then be attributed to a loss of activity of the hormone preparation tested nor to a failure of the rat tissues to recognize an hormone of human origin, but rather to an absence of hCG--LH receptors on the fat cell membrane surface. It is suggested that results previously reported in other laboratories could be explained by the presence of contaminating amounts of lipolytic hormones in their preparations.
Mol Cell Endocrinol 1977 Jan
PMID:The interaction of hCG with rat adipose tissue: apparent lack of hCG--LH receptors. 18 2

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

In a previous report we have shown that insulin increases the phosphorylation of an endogenous protein of mol. wt. 16 000 daltons in sarcolemma membranes. In the present work we have demonstrated that phosphorylations of exogenous histones by the sarcolemma membranes are also increased by insulin. These results indicate that insulin activates a cyclic-AMP-independent protein kinase in sarcolemma membranes. The stimulatory effect of insulin on protein phosphorylations is increased by GTP and its analogue GMP-P(NH)P. The insulin effect was increased 3--4-fold by micromolar concentrations of GTP. The effect by the analogue GMP-P(NH)P was somewhat less. In the absence of insulin guanosine nucleotides had no effect on phosphorylation of the proteins. The results suggest that GTP is a modulator in the activation of a sarcolemma membrane protein kinase by insulin.
Mol Cell Endocrinol 1979 Oct
PMID:The effect of insulin and guanosine nucleotides on protein phosphorylations by sarcolemma membranes from skeletal muscle. 22 62

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

Columns containing ribosomes translating poly(U) covalently bound with cellulose (solid-phase translating system) were used to study translocation in ribosomes. It is shown that the passing of elongation factor G (EF-G) with the non-cleavable analog of GTP (GMP-PCP) through a column containing pre-translocated ribosomes results in the increase of competence for puromycin (i. e. to the transition of pre-translocated peptidyl-tRNA into the post-translocated state) just as in the case of the passing of EF-G with GTP. On the other hand, it is shown that the passing of EF-G with GMP-PCP through a column with pre-translocated ribosomes makes them capable of binding the next aminoacyl-tRNA (i. e. leads to the vacation of the ribosomal A-site). Thus, by means of the two independent tests it is shown that EF-G-promoted translocation in the ribosome can proceed without GTP hydrolysis. On the basis of the data obtained, a controlled step-wise elongation of polypeptide with the participation of EF-G without GTP cleavage has been carried out in the solid-phase column system of translation.
Mol Biol (Mosk)
PMID:[Translocation in ribosomes induced by elongation factor G without cleavage of GTP. Study using a solid phase translation system in columns]. 25 70

Mutants in the spo T gene have been isolated as stringent second site revertants of the relC mutation. These show varying degrees of the characteristics associated with the spoT1 gene, viz relative amount and absolute levels of both pppGpp and ppGpp and the decay rate of the latter. The entry of 3H-guanosine into GTP and ppGpr pools in spoT+ and spoT1 cells either growing exponentially or during amino acid starvation was determined, and the rate of ppGpp synthesis and its decay constant calculated. During exponential growth the ppGpp pool is 2-fold higher, its decay constant 10-fold lower, and its synthesis rate 5-fold lower in spoT- than in spoT+ cells; during amino acid starvation the ppGpp pool is 2-fold higher, its decay constant 20-fold lower, and its synthesis rate 10-fold lower in spoT than in spoT+ cells. In one of the "intermediate" spoT mutants the rate of entry of 3H-guanosine into GTP, ppGpp and pppGpp was measured during amino acid starvation. The data form the basis of a model for the interconversion of the guanosine nucleotides in which the flow is: GDP leads to GTP leads to pppGpp leads to ppGpp leads to Y. Calculations of the rates of synthesis and conversion of pppGpp and ppGpp under various conditions in various spoT+ and spoT- strains indicate that the ppGpp concentration indirectly controls the rate of pppGpp synthesis.
Mol Gen Genet 1977 Jan 07
PMID:Interaction of alleles of the relA, relC and spoT genes in Escherichia coli: analysis of the interconversion of GTP, ppGpp and pppGpp. 31 45

Kinetics of accumulation and degradation of ppGpp and pppGpp were analysed in spoT+ and spoT strains of Escherichia coli. The experimental data in this paper indicate that on degradation ppGpp is not converted to pppGpp but instead is converted to GDP which is in turn phosphorylated to GTP. In addition the data are consistent with the idea the pppGpp is a direct precursor of ppGpp. We propose that ppGpp is metabolised according to the following pathway: GTP-pppGpp--ppGpp--GDP--GTP, which we call the ppGpp cycle. Coupled with the observations in spot strains we assume that ppGpp blocks its own synthesis by inhibiting the synthesis of pppGpp but not the interconversion of the two nucleotides.
Mol Gen Genet 1977 Feb 15
PMID:ppGpp cycle in Escherichia coli. 32 33

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