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1.
1. The differential effects of adding Zn(2+) and Mg(2+) on the orthophosphatase and inorganic pyrophosphatase activities of human intestinal alkaline phosphatase were studied. 2. In the presence of excess of Zn(2+), inorganic pyrophosphatase activity is inhibited. At higher concentrations of pyrophosphate, hydrolysis of this substrate takes place, but is inhibited competitively by the Zn(2+)-pyrophosphate complex. This complex also acts as a competitive inhibitor of orthophosphate hydrolysis. 3. Excess of Mg(2+) also inhibits pyrophosphatase action by removal of substrate; at low concentrations, this ion activates pyrophosphatase, as is the case with orthophosphatase. 4. It is concluded that, when interactions between metal ions and pyrophosphate are taken into account, the effects of these ions are consistent with the view that alkaline phosphatases possess both orthophosphatase and inorganic pyrophosphatase activities.  相似文献   

2.
Crystalline inorganic pyrophosphatase isolated from baker's yeast   总被引:21,自引:0,他引:21  
Crystalline inorganic pyrophosphatase has been isolated from baker's yeast. The crystalline enzyme is a protein of the albumin type with an isoelectric point near pH 4.8. Its molecular weight is of the order of 100,000. It contains about 5 per cent tyrosine and 3.5 per cent tryptophane. It is most stable at pH 6.8. The new crystalline protein acts as a specific catalyst for the hydrolysis of inorganic pyrophosphate into orthophosphate ions. It does not catalyze the hydrolysis of the pyrophosphate radical of such organic esters as adenosine di- and triphosphate, or thiamine pyrophosphate. Crystalline pyrophosphatase requires the presence of Mg, Co, or Mn ions as activators. These ions are antagonized by calcium ions. Mg is also antagonized by Co or Mn ions. The rate of the enzymatic hydrolysis of inorganic pyrophosphate is proportional to the concentration of enzyme and is a function of pH, temperature, concentration of substrate, and concentration of activating ion. The approximate conditions for optimum rate are: 40 degrees C. and pH 7.0 at a concentration of 3 to 4 x 10(-3)M Na(4)P(2)O(7) and an equivalent concentration of magnesium salt. The enzymatic hydrolysis of Na(4)P(2)O(7) or K(4)P(2)O(7) proceeds to completion and is irreversible under the conditions at which hydrolysis is occurring. Details are given of the method of isolation of the crystalline enzyme.  相似文献   

3.
In the presence of ATP, Mg2+, and arsenate, ATP sulfurylase from yeast will catalyze the formation of inorganic pyrophosphate. Inorganic pyrophosphate was detected by determination of orthophosphate in the presence of inorganic pyrophosphatase. Two moles of Pi were found for each molecule of ATP in the reaction mixture. The activity of ATP sulfurylase with arsenate as an activating anion was from 1 to 3% of the activity observed with molybdate.  相似文献   

4.
In this work the two interconvertible forms of inorganic pyrophosphatase (EC 3.6.1.1) of Streptococcus faecalis were shown to differ in kinetics. The highly active form of the enzyme was more sensitive to the changes in the Mg2+ concentration, and thus also more sensitive to the inhibition caused by ATP, which competes with PPi for the chelation of Mg2+ ions. We have previously described a kinetic model for the less-active form of S. faecalis inorganic pyrophosphatase [Lahti & Jokinen (1985) Biochemistry 24, 3526-3530]. The kinetic model of the highly active enzyme form is proposed to be a modification of the model of the less-active form in which enzyme activation by free Mg2+ is necessary for the reaction to occur. In this model the enzyme exists in two states, referred to as R- and T-states. In the absence of ligands the enzyme is in the T-state. R-state, i.e. the catalytically active state, exists only in the presence of free Mg2+. Mg1PPi2- is the primary substrate, and free pyrophosphate is a weak inhibitor that cannot serve as a substrate for the highly active form of S. faecalis inorganic pyrophosphatase. This model closely resembles that previously presented for yeast inorganic pyrophosphatase.  相似文献   

5.
The specific activity of the Mg2+-ATPase and the (Ca2+ + Mg2+)-ATPase has been measured in a microsomal fraction from pig antral smooth muscle with the phosphate-release assay and the NADH-coupled enzyme assay, and the release of inorganic phosphate as a function of time is compared with the concomitant production of ADP. Both assays are found to overestimate the true Mg2+-ATPase activity. The adenylate kinase inhibitor P1,P5-di(adenosine-5'-)pentaphosphate (Ap5A) reduces the specific activity of the Mg2+-ATPase measured in the NADH-coupled enzyme assay to about half of its original value; however, it does not affect the specific activity of the Mg2+-ATPase in the Pi-release assay. The considerable overestimation of the Mg2+-ATPase activity in the NADH-coupled enzyme assay results from a combined action of an ATP pyrophosphatase (ATP in equilibrium AMP + PPi) and adenylate kinase activity contaminating the microsomes. The adenylate kinase activity in the microsomes catalyses the conversion of AMP formed by the ATP pyrophosphatase together with ATP into two ADP's. Also the phosphate-release assay is prone to an overestimation artefact because an inorganic pyrophosphatase will degrade the pyrophosphate and thus lead to additional Pi-production. Measurements of AMP and NAD+ production by HPLC confirmed our proposed reaction scheme. The same (Ca2+ + Mg2+)-ATPase activity is found in both assays, because the (Ca2+ + Mg2+)-ATPase activity is calculated from the difference in ATPase activity in the presence and absence of Ca2+, so that as a consequence the interfering activities are automatically subtracted.  相似文献   

6.
The regeneration of the GTP-bound from the GDP-bound form of purified human and yeast ras proteins occurs in vitro by a nucleotide-exchange reaction. For both human and yeast ras proteins the dissociation of the protein-bound GDP is the rate-limiting step in the presence of Mg ions. The rate of formation of the ras X GTP complex is stimulated by weak Mg2+-chelating agents like ATP and inorganic polyphosphates and, to a lesser extent, by ADP. This suggests a possible mechanism of regulation of ras-dependent pathway(s) by intracellular metabolic products.  相似文献   

7.
Data from the literature have demonstrated that synaptosomal preparations from various sources can hydrolyze externally added ATP. Various authors characterized this activity as an ecto-ATPase. In the present report, we demonstrate that synaptosomal preparations obtained from the cerebral cortex of rats show ATPase activity that could not be dissociated from ADPase activity, suggesting that an ATP-diphosphohydrolase is involved in ATP and ADP hydrolysis. Furthermore, the ATP and ADP hydrolysis could not be attributed to associations of enzymes that could mimic an ATP-diphosphohydrolase because none of the following activities were detected in our assay conditions inorganic pyrophosphatase, adenylate kinase, or nonspecific phosphatases. A possible association between an ATPase and an ADPase was excluded on the basis of both the kinetics and much additional data on inhibitors, ion dependence, pH, etc. The present results demonstrate that in synaptosomal preparations from cerebral cortex an ATP-diphosphohydrolase is involved, at least in part, in ATP and ADP hydrolysis.Abbreviations DCCD dicyclohexylcarboiimide - EDTA ethylenediaminetetraacetic acid - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - Pi inorganic phosphate Enzymes ATP diphosphohydrolase, Apyrase (EC 3.6.1.5) - ATPase ATP phosphohydrolase (EC 3.6.1.3) 5-nucleotidase (EC 3.1.3.5) Hexokinase (EC 2.7.1.1) Glucose-6-phosphate dehydrogenase (EC 1.1.1.49) Adenylate kinase (EC 2.7.4.3) Inorganic pyrophosphatase (EC 3.6.1.1) - ATP pyrophosphohydrolase (EC 3.6.1.8) - LDH lactate dehydrogenase (EC 1.1.1.27) - SDH succinate dehydrogenase (EC 1.3.1.6) - ACHE acethylcholinesterase (EC 3.1.1.7) - G-6-Pase glucose-6-phosphatase (EC 3.1.3.9) - NADPH cytoehrome c oxidoreductase (NCR) (EC 1.6.2.4)  相似文献   

8.
The interaction of yeast inorganic pyrophosphatase with methylpyrophosphate was studied. In the presence of Mg2+ the rate of hydrolysis of the methylpyrophosphate-Zn2+ complex by the enzyme was shown to decrease. This was accompanied by competition of Zn2+ and Mg2+ for one site of Me2+ binding on the enzyme. The kinetics of combined hydrolysis of zinc methylpyrophosphate and zinc pyrophosphate were studied. It was found that both substrates are hydrolyzed at the same active site of the enzyme. Free methylpyrophosphate when bound to a specific phosphorylation site on the enzyme surface accelerated magnesium pyrophosphate hydrolysis. Some kinetic parameters of this hydrolysis were determined.  相似文献   

9.
Inorganic pyrophosphatase was purified from the vacuolar membrane of mung bean hypocotyl tissue by solubilization with lysophosphatidylcholine and QAE-Toyopearl chromatography. The molecular mass on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was 73,000 daltons. Among the amino-terminal first 30 amino acids are 25 nonpolar hydrophobic residues. For maximum activity, the purified pyrophosphatase required 1 mM Mg2+ and 50 mM K+. The enzyme reaction was stimulated by exogenous phospholipid in the presence of detergent. Excess pyrophosphate as well as excess magnesium inhibited the pyrophosphatase. The enzyme reaction was strongly inhibited by ATP, GTP, and CTP at 2 mM, and the inhibition was reversed by increasing the Mg2+ concentration. An antibody preparation raised in a rabbit against the purified enzyme inhibited both the reactions of pyrophosphate hydrolysis of the purified preparation and the pyrophosphate-dependent H+ translocation in the tonoplast vesicles. N,N'-Dicyclohexylcarbodiimide became bound to the purified pyrophosphatase and inhibited the reaction of pyrophosphate hydrolysis. It is concluded that the 73-kDa protein in vacuolar membrane functions as an H+-translocating inorganic pyrophosphatase.  相似文献   

10.
ATP hydrolysis, the exchange of inorganic phosphate with ATP, and ATP synthesis have been studied as a function of Mg2+ concentration in bovine heart submitochondrial particles. The rate of exchange is low at concentrations of Mg2+ below 3 mM, at higher concentrations, the exchange is several times higher. ATP hydrolysis shows a different pattern with respect to the concentration of Mg2+. The ratio of ATP hydrolyzed to ATP exchanged is above 20 at Mg2+ concentrations below 3 mM and about 5 at high Mg2+ concentrations; ADP induces a further drop of the ratio (2-3). By assays of the sensitivity of the hydrolytic reaction to organic solvents (dimethyl sulfoxide), it has been possible to determine the rate-limiting step of ATP hydrolysis. At 3 mM Mg2+, the rate-limiting step is the release of ADP in the soluble, but not in the particulate enzyme. However at higher Mg2+ concentrations, the rate-limiting step in the particulate enzyme is also ADP release. Therefore, the decrease in the ratio of ATP hydrolysis to inorganic phosphate incorporated into ATP coincides with a change in the kinetics of the enzyme, i.e. when the terminal step of ATP hydrolysis becomes rate-limiting, the inorganic phosphate-ATP exchange increases. Ca2+ induces an increase in the phosphate-ATP exchange at low Mg2+ concentrations.  相似文献   

11.
Inorganic pyrophosphatase must bind two phosphate molecules in order to catalyze pyrophosphate synthesis. In this report it is shown that Pi causes marked effect on the absorption spectrum of baker's yeast inorganic pyrophosphatase and this effect can be used to analyze Pi binding to this enzyme. A series of absorbance versus Pi concentration curves in the presence of 0.5-20 mM free Mg2+ were obtained at pH 7.2 and computer-fitted to 19 models. The dissociation constant of magnesium phosphate (8.5 +/- 0.4 mM) used in this analysis was measured with a Mg2+-sensitive electrode. The best model implies successive binding of two magnesium phosphate molecules or random-order binding of magnesium phosphate and free phosphate molecules. The first route predominates at physiological concentrations of Mg2+. The Pi-inhibition pattern of pyrophosphate hydrolysis confirmed that Pi adds to the active site and provided further evidence for the existence of an activating Pi-binding site. The possibility is raised that the pathways of pyrophosphate synthesis and hydrolysis by inorganic pyrophosphatase may differ in the sense that the binding of the fourth metal ion/subunit may facilitate the synthesis and inhibit the hydrolysis.  相似文献   

12.
An enzyme hydrolyzing flavin-adenine dinucleotide (FAD) to flavin mononucleotide and AMP was identified and purified from rat liver lysosomal (Tritosomal) membranes. The purified enzyme showed a single band on silver-stained denaturing gels with an apparent Mr 70,000. Periodate-Schiff staining after denaturing gel electrophoresis of whole membrane preparations revealed that this enzyme is one of the major glycoproteins in lysosomal membranes. FAD appeared to be the preferred substrate for the purified enzyme; equivalent concentrations of NAD or CoA were hydrolyzed at about one-half of the FAD rate. Negligible activity (less than or equal to 16%) was noted with ATP, TTP, ADP, AMP, FMN, pyrophosphate, or p-nitrophenylphosphate. The enzyme was inhibited by EDTA or dithiothreitol. It was stimulated by Zn, and was not affected by Ca or Mg ions, nor by p-chloromercuribenzoate. The pH optimum for FAD hydrolysis was 8.5-9 with an apparent Km of 0.125 mM. Antibodies prepared against the purified enzyme partially (50%) inhibited FAD phosphohydrolase activity in lysosomal membrane preparations but had no effect on the soluble lysosomal acid pyrophosphatase known to hydrolyze FAD. This enzyme could not be detected immunochemically in preparations of microsomes, Golgi, plasma membranes, mitochondrial membranes, or the soluble lysosomal fraction, suggesting that the enzyme is different from either soluble lysosomal acid pyrophosphatase or other FAD hydrolyzing activities in the liver cell.  相似文献   

13.
The interaction of magnesium ions with inorganic pyrophosphatase from baker's yeast was studied by means of heat denaturation. The heat inactivation of this enzyme is a biphasic process. The velocities in the initial range and in the subsequent slower part of inactivation are diminished with rising Mg2+ concentration in the inactivation assay. A model is proposed which describes this behavior. It is assumed that two enzyme conformations exist in equilibrium whose conversion rates correspond to the inactivation rate in its order of magnitude. The equilibrium is shifted by Mg2+. The two enzyme species differ in their Mg2+ binding behavior as evidenced by differences in the half-saturation constants and the cooperativity of the binding. The same conclusions are drawn from the fluorimetric measurement of denaturation of inorganic pyrophosphatase. Besides, an additional Mg2+ binding site is demonstrable, the saturation of which obviously leads to stabilisation of part of the enzyme structure without protecting it against loss of enzymatic activity. With the same method the labilizing effect of Zn2+ on the structure of the inorganic pyrophosphatase from baker's yeast was studied.  相似文献   

14.
Salivary apyrase of Rhodnius prolixus. Kinetics and purification.   总被引:2,自引:0,他引:2       下载免费PDF全文
The salivary apyrase activity of the blood-sucking bug Rhodnius prolixus was found to reside in a true apyrase (ATP diphosphohydrolase, EC 3.6.1.5) enzyme. The crude saliva was devoid of 5'-nucleotidase, inorganic pyrophosphatase, phosphatase and adenylate kinase activities. ATP hydrolysis proceeded directly to AMP and Pi without significant accumulation of ADP. Km values for ATP and ADP hydrolysis were 229 and 291 microM respectively. Ki values for ATP and ADP inhibition of ADP and ATP hydrolysis were not different from the Km values, and these experiments indicated competitive inhibition. Activities were purified 126-fold by combined gel filtration and ion-exchange chromatography procedures with a yield of 63%. The purified enzyme displayed specific activities of 580 and 335 mumol of Pi released/min per mg of protein for ATP and ADP hydrolysis respectively. The action of the purified enzyme on several phosphate esters indicates that Rhodnius apyrase is a non-specific nucleosidetriphosphate diphosphohydrolase.  相似文献   

15.
Openreading frame mj0608 of the Methanococcus jannaschii genome, recognized by its sequence similarity to that of the gene coding for class C inorganic pyrophosphatase in Bacillus subtilis, was cloned and over-expressed in Escherichia coli. The protein was purified and characterized by SDS-PAGE, M(r), and N-terminal sequence. Under suitable conditions it catalyzed the specific hydrolysis of PPi at about 600 micromol x min(-1) x mg(-1) at 25 degrees C, and at 8000 micromol x min(-1) x mg(-1) at 85 degrees C. Therefore this protein is a specific inorganic pyrophosphatase. The activities of Mg(2+), Mn(2+), Co(2+), and Zn(2+) ions as cofactors for hydrolysis of PPi were compared at pH 7.5 and 9.0. Unlike the class C pyrophosphatase of B. subtilis, this enzyme required no prior activation by low concentrations of Mn(2+) or Co(2+) ions. However, prior exposure to these ions afforded striking protection against inhibition by sodium fluoride, to which the enzyme was otherwise very sensitive.  相似文献   

16.
The present experiments have shown that the activity of organic pyrophosphatase from microsomes of wheat seedlings is strongly inhibited by alpha, beta-methylene and gamma-thio-ATP derivatives, which inhibit the hydrolysis of both ATP and ADP. It has been found that the main products of ATP hydrolysis are not ADP but AMP and orthophosphate. The rate of hydrolysis of ATP is not increased by addition of ADP to the incubation medium. The ratio of the reaction products, Pi and AMP, amounts to 1.7-1.8 with ATP as substrate and is close to 1.0 with ADP.  相似文献   

17.
The synthesis of the gamma-32P-labeled diastereomers of adenosine 5'-O-(1-thiotriphosphate) (ATP alpha S) and the Sp isomer of adenosine 5'-O-(2-thiotriphosphate) (ATP beta S) by a modification of the Glynn and Chappell method (Glynn, I. M., and Chappell, J. T., (1964) Biochem. J. 90, 147-149) is described. These analogs were tested as substrates for acetate kinase in the presence of several divalent metal ions. Both isomers of ATP alpha S are substrates in the presence of Mg2+, Mn2+, Co2+, Zn2+, and Cd2+, the Sp isomer being preferred by a factor of between 4.8 (Mg2+) and 52.5 (Cd2+). Only the Rp isomer of ATP beta S is a substrate in the presence of Mg2+, and the Sp isomer becomes a better substrate in the presence of Mn2+, Co2+, and Zn2+; both isomers are equally good substrates in the presence of Cd2+. The change in specificity upon replacing Mg2+ by Cd2+ is greater than 1800 at beta-phosphorus and 10 at alpha phosphorus. These results provide a basis for proposing that the lambda screw sense configuration of the beta, gamma-bidentate MgATP complex is the substrate for acetate kinase. In the reverse reaction, both Sp and Rp isomers of ADP alpha S are substrates in the presence of all metal ions tested, the Sp isomer preferred by a factor between 12.3 (Mg2+) and 45.5 (Cd2+). In the presence of Mg2+, Mn2+, and Co2+, only the Rp isomer of ATP beta S is synthesized from prochiral ADP beta S, while a mixture of Rp and Sp isomers is synthesized in the presence of Zn2+ and Cd2+. These results are analogous to those for the forward reaction and suggest that the Mg.ADP complex which binds as a substrate in the reverse reaction, and is released as a product in the forward reaction, is the beta-monodentate. The classification of acetate kinase as an enzyme having a type I mechanism (Dunaway-Mariano, D. and Cleland, W. W. (1980) Biochemistry 19, 1506-1515) for kinases, is discussed.  相似文献   

18.
Trans cisternal elements of the Golgi apparatus from rat liver, identified by thiamin pyrophosphatase cytochemistry, were isolated by preparative free-flow electrophoresis and were found to undergo acidification as measured by a spectral shift in the absorbance of acridine orange. Acidification was supported not only by adenosine triphosphate (ATP) but nearly to the same degree by inorganic pyrophosphate (PPi). The proton gradients generated by either ATP or PPi were collapsed by addition of a neutral H+/K+ exchanger, nigericin, or the protonophore, carbonyl cyanide m-chlorophenylhydrazone, both at 1.5 microM. Both ATP hydrolysis and ATP-driven proton translocation as well as pyrophosphate hydrolysis and pyrophosphate-driven acidification were stimulated by chloride ions. However, ATP-dependent activities were optimum at pH 6.6, whereas pyrophosphate-dependent activities were optimum at pH 7.6. The Mg2+ optima also were different, being 0.5 mM with ATP and 5 mM with pyrophosphate. With both ATPase and especially pyrophosphatase activity, both by cytochemistry and analysis of free-flow electrophoresis fractions, hydrolysis was more evenly distributed across the Golgi apparatus stack than was either ATP- or PPi-induced inward transport of protons. Proton transport colocalized more closely with thiamin pyrophosphatase activity than did either pyrophosphatase or ATPase activity. ATP- and pyrophosphatase-dependent acidification were maximal in different electrophoretic fractions consistent with the operation of two distinct proton translocation activities, one driven by ATP and one driven by pyrophosphate.  相似文献   

19.
The substrate specificity of isoleucyl-tRNA synthetase from Escherichia coli MRE 600 with regard to ATP analogs has been compared with the results obtained with isoleucyl-tRNA synthetase from yeast. The enzyme from E. coli is less specific, the two enzymes exhibit different topographies of their active centres. The order of substrate addition to isoleucyl-tRNA synthetase from E. coli MRE 600 has been investigated by bisubstrate kinetics, product inhibition and inhibition by substrate analogs. The inhibition studies were done in the aminoacylation and in the pyrophosphate exchange reaction, the aminoacylation was investigated in the absence and presence of inorganic pyrophosphatase. As found for isoleucyl-tRNA synthetase from yeast, the results of the pyrophosphate exchange studies indicate the possibility of formation of E . Ile-AMP . ATP complexes by random addition of one ATP and one isoleucine molecule, followed by adenylate formation, release of pyrophosphate and subsequent addition of a second molecule of ATP. For the aminoacylation in the absence of pyrophosphatase, a rapid-equilibrium random ter addition of the substrates is found whereas the enzyme from yeast exhibits a steady-state ordered ter-ter mechanism; in the presence of pyrophosphatase the mechanism is bi-uni uni-bi ping-pong similarly as observed for the yeast enzyme. A comparison of inhibition patterns obtained with N(6)-benzyladenosine 5'-triphosphate under different assay conditions (spermine or magnesium ions, addition of pyrophosphatase) indicates that even more than two pathways of the aminoacylation may exist. The catalytic cycles of the two mechanisms derived from the observed orders of substrate addition and product release include the same enzyme substrate complex (E . tRNA . Ile-AMP) for the aminoacyl transfer reaction. The kcat values, however, are considerably different: kcat of the sequential pathway is about 40% lower than kcat of the ping-pong mechanism.  相似文献   

20.
J K Batra  C M Lin  E Hamel 《Biochemistry》1987,26(18):5925-5931
Pursuing the observation of Carlier and Pantaloni [Carlier, M.-F., & Pantaloni, D. (1982) Biochemistry 21, 1215-1224] that adenosine 5'-(beta, gamma-imidotriphosphate) (pNHppA) strongly inhibited tubulin-independent phosphatases in microtubule protein preparations, we observed with a number of commercial preparations of pNHppA that a major proportion of the terminal phosphate of [gamma-32P]GTP added to microtubule protein preparations was rapidly converted into ATP. Initially postulating degradation of pNHppA to AMP followed by stepwise conversion of AMP to ATP, we isolated two nucleoside monophosphate kinase activities from microtubule protein capable of generating ATP from AMP + GTP. The amounts of these enzymes in microtubule protein preparations, however, are probably too low to account for rapid ATP formation. Instead, ATP formation most likely is caused by nucleoside diphosphate kinase acting on ADP contaminating commercial pNHppA preparations. Such ADP contamination was demonstrated by high-performance liquid chromatography, with the amount of ATP formed with different pNHppA preparations proportional to the amount of ADP contamination. Repurification of commercial pNHppA until it was free of contaminating ADP also resulted in the elimination of ATP formation. The repurified pNHppA potently inhibited GTP hydrolysis in microtubule protein preparations. In addition, especially when supplemented with equimolar Mg2+, the repurified pNHppA strongly inhibited GTP hydrolysis and microtubule assembly in reaction mixtures containing purified tubulin and heat-treated microtubule-associated proteins (which contain negligible amounts of tubulin-independent phosphatase activity). We conclude that studies of microtubule-dependent GTP hydrolysis which make use of pNHppA must be interpreted with extreme caution.  相似文献   

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