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ABSTRACT: Intact nuclei have been isolated from cells of a diploid strain of Saccharomyces cerevisiae. The isolated nuclei were free from cytoplasmic, mitochondrial and vacuolar marker enzymes. The protein to DNA ratio (w/w) was 11. Pyrophosphatase, tripolyphosphatase and exopolyphosphatase activities have been found in S. cerevisiae nuclei for the first time and were equal to 400, 130 and 55 mU/mg of protein, respectively.
Biokhimii͡a (Moscow, Russia) 12/1995; 60(11):1911-6.
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ABSTRACT: The properties of purified cell envelope polyphosphatase, polyphosphatase activities of vacuoles and cytosol fractions of the Saccharomyces cerevisiae yeast have been compared. The whole body of evidence presently available suggest that each of the compartments under study is equipped with its own polyphosphatase which differs from polyphosphatases of other organelles. It is proposed that the organelle specificity of yeast polyphosphatases may reflect the endosymbiotic origin of eucaryotic cells.
Biokhimii͡a (Moscow, Russia) 10/1995; 60(9):1396-402.
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ABSTRACT: The effects of some protein kinase effectors on phosphohydrolase and transport activities of yeast vacuoles have been studied. The platelet-activating factor (PAF), a plant vacuolar protein kinase C stimulator, had a protonophoric and membrane-damaging effects on yeast vacuoles and inhibited the ATP-dependent delta mu H+ formation and ATP-dependent secondary transport but stimulated the ATPase and pyrophosphatase hydrolase activities by abrogating proton control. PAF increasing the tonoplast permeability for the corresponding substrates also stimulated pyrophosphatase, polyphosphatase and alkaline phosphatase activities. Lysolipid sphingosine, a plant vacuolar protein kinase C inhibitor, poorly stimulated the ATPase activity and the ATP-dependent formation of Em in isolated yeast vacuoles, while the pyrophosphatase activity increased by 200%. Other hydrolase activities tested were insensitive to the effect of the lysolipid. Sphingosine inhibited the ATP-dependent citrate transport only insignificantly. Heparin, an effective casein kinase inhibitor, suppressed the ATPase and polyphosphatase activities in isolated yeast vacuoles. The polyphosphatase activity was inhibited both in the vacuolar sap and the tonoplast solubilized by a Zwittergent TM-314, in contrast with the ATPase activity which was inhibited by heparin only in isolated vacuoles. Heparin is suggested to inhibit polyphosphatase by directly influencing the enzyme.
Biokhimii͡a (Moscow, Russia) 08/1994; 59(7):1088-97.
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ABSTRACT: Vacuoles of the Saccharomyces cerevisiae yeast possess a polyphosphatase activity which differs from other known vacuolar phosphohydrolase activities by pH-optimum, sensitivity towards inhibitors and distribution between the tonoplast and vacuolar sap. The polyphosphatase activity is inhibited by EDTA, molybdate, ortho-vanadate and fluoride. Nearly 77% of this activity is located in the vacuolar sap, while 25%--in the tonoplast fraction. Both the soluble and membrane-bound polyphosphatase activities are maximal at pH 6.8-7.2. Bivalent metal cations stimulate this activity in the following order: Zn2+ > Mg2+ > Co2+ > Mn2+. Other ions (Fe2+, Cu2+, Ca2+) inhibit this activity at all concentrations tested. The polyphosphatase activity of both the vacuolar sap and the tonoplast increases 2.4-and 2-fold, respectively, with an increase in the degree of substrate polymerization--from n = 3 to n = 208.
Biokhimii͡a (Moscow, Russia) 07/1993; 58(7):1053-61.
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ABSTRACT: The secondary transport systems of the yeast vacuolar membrane have been investigated by the method of radioactive isotopes [( 14C]arginine); activation of H+-ATPase by cations (Cat+), when the enzyme is under H+ control and measurement of changes in the proton gradient (delta pH) and membrane potential (Em) due to the supposed substrates of the transporters. The main mechanism of cation transport across the yeast tonoplast is probably H+/Cat+ antiport. The apparent Km of antiporters for Ca2+, Mg2+, Mn2+, Zn2+ and Pi are 0.06, 0.3, 0.8, 0.055-0.17 and 1.5 mM, respectively.
FEBS Letters 12/1985; 192(2):303-6. · 3.54 Impact Factor
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ABSTRACT: Polyacrylamide gel electrophoresis (PAGE) of partially purified ATPase from vacuoles of Saccharomyces carlsbergensis under non-dissociating conditions revealed 3 bands with ATPase activity. Further PAGE in dissociating conditions showed the similarity in composition of these 3 ATPase preparations. They were assumed to contain the same vacuolar ATPase exhibiting, however, different electrophoretic mobility due to the formation of enzyme complexes with different proteins and phospholipids. The ATPase preparation with the highest electrophoretic mobility contained 6 subunits of 75, 62, 16, 14, 12 and 9 kDa. Inhibitors of vacuolar ATPase [14C]DCCD and [14C]NEM bound to a 9 kDa polypeptide, while [14C]DES associated with a polypeptide of 75 kDa. A partially purified preparation of the vacuolar ATPase was not phosphorylated by [gamma-32P]ATP under conditions when plasma membrane ATPase formed a phosphorylated intermediate. Our results show that vacuolar H+-ATPase consists of several polypeptides, does not form the phosphorylated intermediate, and evidently represents a new type of H+-ATPase of yeast.
FEBS Letters 09/1985; 187(2):349-53. · 3.54 Impact Factor
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ABSTRACT: Vacuoles of yeast grown in peptone medium possessed high ATPase activity (up to 1 mumol X mg protein-1 X min-1). Membrane-bound and solubilized ATPase activities were insensitive to vanadate and azide, but were inhibited by NO-3 . K+ and cyclic AMP stimulated both membrane-bound and solubilized ATPase activities. Dio-9 activated the membrane form of vacuolar ATPase 1.5-2-fold and did not affect the solubilized enzyme. Solubilized and partially purified vacuolar ATPase was reconstituted with soy-bean phospholipids by a freeze-thaw procedure. ATPase activities in native vacuoles and proteoliposomes were stimulated effectively by Dio-9, the protonophore FCCP and ionophores valinomycin and nigericin. ATP-dependent H+ transport into proteoliposomes was also shown by quenching of ACMA fluorescence. Vacuolar and partially purified ATPase preparations possessed also GTPase activity. Unlike ATPase, however, GTPase was not incorporated as a proton pump into liposomes.
FEBS Letters 10/1984; 174(2):233-7. · 3.54 Impact Factor
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FEBS Letters 06/1983; 155(1):102-6. · 3.54 Impact Factor
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ABSTRACT: In the presence of 100 mM glucose antimycin A inhibits the respiration of the yeast S. carlsbergensis by 94%, but does not affect the K+ efflux, Mn2+ influx or the synthesis of high molecular weight polyphosphate (HPP). Therefore phosphorylation at the respiratory chain level is not involved in HPP synthesis or Mn2+ accumulation. Zn2+ similar to Mn2+ induces K+ efflux and HPP synthesis, while Co2+ and Ni2+ fail to produce these effects. The extracellular K+ (1-5 mM KCl) completely inhibits the HPP synthesis and reduces Mn2+ uptake by 40%. NaCl (60 mM) inhibits the HPP synthesis by 28%. Nigericin, candicidin and FCCP plus valinomycin completely prevent the HPP synthesis. The prolonged accumulation of Zn2+ and Mn2+ is accompanied by HPP conversion into low molecular weight polyphosphate (LPP). The HPP synthesis in response to the K+ efflux may be regarded as a specific regulatory mechanism, which increases the energy efficiency of yeast metabolism.
Biochemistry international 05/1983; 6(4):463-72.
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ABSTRACT: The process of prolonged Mn2+ uptake by the yeast Saccharomyces carlsbergensis in the presence of 100 mM glucose and in the absence of phosphate can be divided into two steps. The first step (0-20 min) of Mn2+ uptake (4.3 mumol/g of wet cells) is characterized by an intense K+ efflux (23.8 mumol/g), synthesis of high molecular weight polyphosphate (HPP) (8.1 mumol/g) and decrease of ATP content (0.06 mumol/g). Simultaneously about 0.6 mumol of glucose is taken up and the level of low molecular weight polyphosphate (LPP) remains practically unchanged. The second step (20-120 min) of Mn2+ uptake (15.6 mumol/g) is characterized by a drop in HPP (16.6 mumol/g) and the synthesis of LPP (19.0 mumol/g). The ATP content decreases by 0.87 mumol/g as compared to the control, while that of K+ increases (5.7 mumol/g). During the first step of Mn2+ uptake the energy of the K+ concentration gradient may be used both for Mn2+ influx (2K+: 1Mn2+) and synthesis of HPP (1P:1.9K+). During the second step the Mn2+ accumulation is apparently driven by HPP conversion into LPP (1:1) and by ATPases serving the Mn2+/H+ exchange.
Biochemistry international 05/1983; 6(4):481-8.
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ABSTRACT: The uneven distribution of Mg2+, K+, and phosphate in Saccharomyces carlsbergensis was demonstrated by the differential extraction of ions. Their concentrations were 5, 60, and 1 mM in the cytoplasm and 73, 470, and 110 mM in vacuoles, respectively. The intracellular gradients of these ions were 1:15, 1:8, and 1:110, respectively, across the tonoplast. The determination of free Mg2+ (1.35 mM in the cytosol and 20 mM in vacuoles) showed that the ion accumulation in vacuoles could not be explained by the higher degree of ion complexing in these organelles.
Journal of Bacteriology 12/1980; 144(2):661-5. · 3.83 Impact Factor
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ABSTRACT: Saccharomyces carlsbergensis cells accumulated Mn2+ (or Mg2+) ions in the presence of glucose, fructose, or mannose, but not of deoxyglucose, 3-O-methylglucose, and sorbose. Accumulation of one equivalent of Mn/2+ was coupled with the efflux of two equivalents of K+ from the cells. Mg/2+ did not exit during Mn2+ uptake. Preliminary treatment of cells with various proton conductors or glucose led to the loss of K+ and to the proportional inhibition of Mn2+ uptake. Polyene antibiotic candicidin together with glucose elicited rapid efflux of K+ and completely inhibited Mn2+ accumulation. Exogenous K+ (more than 1 mM), 100 microM N,N'-dicyclohexylcarbodiimide, and 30 mM sodium arsenate inhibited both K+ efflux and Mn2+ influx. K+ efflux from S. carlsbergensis cells affected the vacuolar pool of K+ both during the accumulation of Mn2+ or Mg2+ and during glucose uptake.
Journal of Bacteriology 12/1980; 144(2):666-71. · 3.83 Impact Factor
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ABSTRACT: Manganese transport into yeast cells is energy-dependent. It is dependent on endogenous sources of energy and is inhibited by olygomycin (12.5-25 microgramg/ml), 2,4-dinitrophenol (1 mM), 2-deoxyglucose (1-50 mM) and sodium azide (1-10 mM), but is stimulated by cyanide and glucose. The stimulating effect of glucose is eliminated by N-ethylmaleimide and iodoacetate, which apparently inhibit the transport of glucose itself. About 75% of the manganese accumulated in the presence of glucose is found in yeast protoplasts and nearly 25% in the cell walls. A major portion of the accumulated manganese is found in vacuoles. The concentration of osmotically free manganese in the cytosol did not exceed 2 mM, but the concentration in vacuoles was up to 14 mM. The tonoplast is assumed to have a transport system for divalent cations, thereby regulating their concentration in the cytosol.
European Journal of Biochemistry 06/1977; 75(2):373-7. · 3.58 Impact Factor
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ABSTRACT: The content of total, bound and osmotically free magnesium was estimated in various fungi and in the yeast Saccharomyces cerevisiae. Total magnesium increases at lower growth rates of Endomyces magnusii and Penicillium chrysogenum 140A as well as during the logarithmic stage of growth of Penicillium chrysogenum Q-176. The binding of magnesium requires orthophosphate, decreasing during lack of external phosphate when the intracellular concentration of free magnesium rises. The fungi were found to contain a novel form of bound magnesium, a polymeric magnesium orthophosphate (PO Mg), which appears to take part in the control of free magnesium level in Penicillium chrysogenum Q-176. The level of free magnesium is proportional to the growth rate of Endomyces magnusii and Penicillium chrysogenum Q-176 and 140A. Total, as well as free, magnesium changes less than three-fold as external Mg concentration is changed 13,000-fold. The magnesium is taken up against concentration gradients of 1 : 25 to 1 : 1300, the metal being distributed non-uniformly in the cells of Saccharomyces cerevisiae.
Folia Microbiologica 02/1975; 20(6):460-6. · 0.68 Impact Factor
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ABSTRACT: Cytochemical analysis and the fluorescence spectra of yeast cells indicate the existence of a vacuolar pool of magnesium and manganese in Saccharomyces cerevisiae. It was suggested that the tonoplast of yeast cells contains a system of transport of Mg++ and cations of divalent metals, which participates in the regulation of the level of these ions in the cytosol.
Biology bulletin of the Academy of Sciences of the USSR 5(5):638-40.
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Zhurnal evoliutsionnoĭ biokhimii i fiziologii 33(1):74-82.
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ABSTRACT: Inactivation of the PPN1 gene, encoding one of the enzymes involved in polyphosphate metabolism in the yeast Saccharomyces cerevisiae, was found to decrease exopolyphosphatase activity in the cytosol and vacuoles. This effect was more pronounced in the stationary growth phase than in the phase of active growth. The gene inactivation resulted in elimination of a approximately 440-kDa exopolyphosphatase in the vacuoles but did not influence a previously unknown vacuolar exopolyphosphatase with a molecular mass of >1000 kDa, which differed from the former enzyme in the requirement for bivalent cations and sensitivity to heparin. Inactivation of the PPN1 gene did not influence the level of polyphosphates in the cytosol but increased it more than twofold in the vacuoles. In this case, the polyphosphate chain length in the cytosol increased from 10-15 to 130 phosphate residues both in the stationary and active growth phases. In the vacuoles, the polyphosphate length increased only in the stationary growth phase. A conclusion can be made that the PPN1 gene product has different effects on polyphosphate metabolism in the cytosol and the vacuoles.
Mikrobiologiia 75(3):305-11.
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ABSTRACT: The review presents the recent data demonstrating the important role high-molecular inorganic polyphosphates in regulatory processes in a yeast cell. It has been shown that polyphosphates are localized in different cell compartments, where they are metabolized by a special set of enzymes. The review presents the evidence in favor of the concept of multiple functions of these biopolymers in a cell, as well as the data on the pleiotropic effects of mutations in the genes encoding the enzymes of polyphosphate metabolism.
Molekuliarnaia biologiia 39(4):567-80.
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Izvestiia Akademii nauk SSSR. Seriia biologicheskaia
