EC:6.4.1.1 - FACTA Search

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Query: EC:6.4.1.1 (pyruvate carboxylase)
1,516 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pyruvate carboxylase of Pseudonomas fluorescens was purified 160-fold from cells grown on glucose at 20 degrees C. The activity of this purified enzyme was not affected by acetyl-coenzyme A or L-aspartate, but was strongly inhibited by ADP, which was competitive towards ATP. Pyruvate gave a broken double reciprocal plot, from which two apparent Km values could be determined, namely 0-08 and 0-21 mM, from the lower and the higher concentration ranges, respectively. The apparent Km for HCO3 at pH 6-9, in the presence of the manganese ATP ion (MnATP2-), was 3-1 mM. The enzyme reaction had an optimum pH value of 7-1 or 9-0 depending on the use of MnATP2- or MgATP2-, respectively, as substrate. Free Mg2+ was an activator at pH values below 9-0. The enzyme was strongly activated by monovalent cations; NH4+ and K+ were the better activators, with apparent Ka values of 0-7 and 1-6 mM, respectively. Partially purified enzymes from cells grown on glucose at 1 or 20 degrees C had the same properties, including the thermal stability. In both cases 50% of the enzyme activity was lost after pre-incubation for 10 min at 46 degrees C. The molecular weight was estimated to be about 300000 daltons by gel filtration on Sephadex G-200. The regulatory properties and molecular weight are thus similar to those determined for the pyruvate carboxylases from Pseudomonas citronellolis and Azotobacter vinelandii.
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PMID:Some properties of the pyruvate carboxylase from Pseudomonas fluorescens. 0 79

A procedure is described for the partial purification of pyruvate carboxylase (pyruvate:CO2 ligase (ADP-forming), EC 6.4.1.1) from the flight muscle of the locust (Schistocerca gregaria). Characterisation of the kinetic properties of this enzyme indicates that it is activated by acetyl-CoA, is insensitive to inhibition by di- and tricarboxylic acids and exhibits an apparent Km for HCO3-(16 mM) which differs by an order of magnitude from that observed for other pyruvate carboxylases. It is suggested that activation of this locust flight muscle pyruvate carboxylase during the rest leads to flight transition may result from increases in the concentrations of pyruvate and HCO3- under these conditions.
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PMID:Partial purification and some properties of pyruvate carboxylase from the flight muscle of the locust (Schistocerca gregaria). 62 40

The reaction pathway catalysed by pyruvate carboxylase was re-examined by using two independent experimental approaches not previously applied to this enzyme. To avoid the variable stoicheiometry associated with oxaloacetate formation, the reaction rate was measured by following release of Pi. Initial velocities, when plotted as a function of varying concentrations of either MgATP2- or HCO3-, at fixed concentrations of pyruvate, gave in double-reciprocal-form families of straight intersecting lines. Further, when the reaction velocity was determined as a function of varying MgATP2- concentrations by using pyruvate, 3-fluoropyruvate and 2-oxobutyrate as alternative carboxyl-acceptor substrates, the slopes of the double-reciprocal plots were significantly different. Both results support a sequential reaction pathway.
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PMID:A reappraisal of the reaction pathway of pyruvate carboxylase. 62 48

1. Bicarbonate increased citrate and 2-oxoglutarate accumulation when rat kidney cortex mitochondria were incubated with pyruvate or L(-)-palmitoyl carnitine in the presence of L-malate. 2. Bicarbonate stimulated the exit of citrate from mitochondria. The Km for bicarbonate was 13.5 mM and the Vmax was 0.59 nmol/min/mg of protein at 10 degrees. 3. The bicarbonate-stimulated exit of citrate from the mitochondria was prevented by inhibitors of the tricarboxylate, dicarboxylate, and phosphate transport systems. 4. The activity of pyruvate dehydrogenase was significantly increased by preincubation of rat kidney mitochondria with bicarbonate. This bicarbonate-induced activation was not observed in presence of inhibitors of citrate transport. Bicarbonate did not activate pyruvate dehydrogenase in rat heart mitochondria. Bicarbonate had no effect on pyruvate dehydrogenase activity in either broken mitochondria or whole tissue preparations. 5. The mechanism of this activation is discussed in the light of the known regulatory properties of pyruvate dehydrogenase, pyruvate carboxylase, and citrate synthase.
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PMID:Regulation of citrate transport and pyruvate dehydrogenase in rat kidney cortex mitochondria by bicarbonate. 88 71

A deuterium kinetic isotope effect of 2.1 was observed when [2H3]pyruvate was used as the substrate for pyruvate carboxylase. The effect is on Vmax/Km alone and disappears at infinite substrate concentration. This is interpreted to mean that the slowest step in the overall catalysis is in the half-reaction involving the carboxylation of enzymebiotin by ATP and HCO3-. A tritium intramolecular isotope effect of 4.8 and an intermolecular effect of 1.2 were also observed. The former was interpreted as the isotope effect on the "effective kcat", while the latter the one on V max/Km. With these data, the rate constant for binding of pyruvate was estimated to be 4.5 X 10(6) M-1 min-1, and the deuterium kinetic isotope effect on the catalytic step to be 3.1. Relative values for various rate constants were also obtained. Fluoropyruvate was also shown to be a substrate, reacting six times slower. A deuterium kinetic isotope effect of 1.5 was observed, which remained even at infinite substrate concentration. This is interpreted to mean that the slowest step in the overall catalysis is now the carboxylation of fluoropyruvate.
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PMID:Studies on the intramolecular and intermolecular kinetic isotope effects in pyruvate carboxylase catalysis. 95 86

Initial velocity and isotope exchange studies confirmed that the over-all reaction, like that catalyzed by pyruvate carboxylase purified from rat liver and chicken liver, was a nonclassical Ping Pong Bi Bi Uni Uni sequence with ATP and HCO3-binding randomly in the Bi Bi partial reaction. Three possible mechanisms for the coupling of ATP hydrolysis and CO2 fixation are considered: (i) Mechanism i, a concerted mechanism without the formation of a kinetically significant or detectable intermediate; (ii) Mechanism ii, activation of the enzyme by ATP to form an activated phosphoenzyme complex which can react with HCO3- by formation of a phosphorylated intermediate. On the basis of other evidence, an activated intermediate containing the ADP moiety was considered improbable. Evidence is presented which indicates that an isotopic exchange between ATP and ADP in the absence of added orthophosphate is not a property of the sheep kidney enzyme. This observation removed the need to postulate either that this exchange is an abortive reaction, or that there is a compulsory formation of a phosphoenzyme intermediate. Two analogues of ADP, alpha,beta-methylene adenosine diphosphate, and adenosine 5'-phosphosulfate, have been used to provide further evidence against Mechanism ii. Both compounds were competitive inhibitors with respect to MgATP2- (Ki values respectively, 0.58 mM and 3.0 mM, compared with 0.17 mM for ADP), but neither could be phosphorylated by the enzyme. Neither analogue could replace ADP in the HCO3-: oxalacetate isotopic exchange reaction, indicating that phosphorylation of ADP is necessary for this exchange to occur, and that Mechanism ii is not applicable. Since Mechanism iii involves formation of a carbonly phosphate intermediate, analogues of this compound, namely, carbamyl phosphate and phosphonacetic acid were used to examine this pathway. The fact that the enzyme catalyzed the synthesis of ATP from ADP and carbamyl phosphate, and that phosphonacetic acid was a noncompetitive inhibitor with respect to MgATP2- (Ki = 0.5 mM) provides strong evidence that a carbonyl phosphate derivative is involved in the reaction mechanism. However, we have not found from initial velocity studies evidence for the formation of this intermediate, and it may therefore have only a transient existence in an essentially concerted reaction.
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PMID:Sheep kidney pyruvate carboxylase. Studies on the coupling of adenosine triphosphate hydrolysis and CO2 fixation. 114 Dec 3

The effect of inert coordination complexes of chromium (III) with various nucleotides on the catalytic activity of rat liver pyruvate carboxylase was determined. The chromium nucleotides are effective initial inhibitors of pyruvate carboxylase and the inhibition becomes more severe with time. The initial rate decreases for several minutes, reaching a new slower rate that is then maintained until considerable net reaction occurs. Incubation of the enzyme with chromium nucleotides in the presence of Mg2+ and HCO3- causes maximal inhibition of the reaction and linear initial rates are then observed. This effect is similar to that found with yeast hexokinase (Dannenberg, K.D., and Cleland, W.W. (1975) Biochemistry 14, 28-39). The specificity of the carboxylase toward the nucleotide complexes suggests that the alpha and beta nucleotide phosphates are as important as the gamma phosphate in binding to the enzyme. A stable pyruvate carboxylase chromium nucleotide complex was not observed. These results are quite different from those found with yeast hexokinase where a stable complex between CrATP, sugar, and enzyme is found and hexokinase appears to be specific toward the beta, gamma phosphates of its nucleotide substrates.
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PMID:Rat liver pyruvate carboxylase. Inhibition by chromium nucleotide complexes. 124 76

Preparations of pyruvate carboxylase catalyse the cleavage of MgATP in the absence of pyruvate and acetyl-CoA. The rate of this cleavage is higher in the presence of HCO3- than in its absence. Incubation of the enzyme preparations with an excess of the pyruvate carboxylase inhibitor, avidin, completely abolishes the pyruvate carboxylating activity of the enzyme preparations but only abolishes the HCO3(-)-dependent MgATP cleaving activity, with no effect on the HCO3(-)-independent ATPase activity. The HCO3(-)-dependent MgATP cleavage is also sensitive to inhibition by a pyruvate carboxylase inhibitor, oxamate, and the dependence of the reaction on the free Mg2+ concentration is similar to that of the pyruvate-carboxylation reaction, whereas the HCO3(-)-independent MgATP cleavage is not dependent on the concentration of free Mg2+ in the range tested. This indicates that MgATP cleavage by pyruvate carboxylase is entirely dependent on the presence of HCO3- and that there may be a low level of ATPase contamination in the enzyme preparations. In addition, inhibition of the HCO3(-)-dependent MgATP cleavage by both avidin and oxamate indicate that although biotin does not directly participate in the reaction, its presence is required in that part of the active site of the enzyme. The rate of HCO3(-)-dependent MgATP cleavage is about 0.07% of that of the full pyruvate carboxylation reaction under similar conditions with saturating substrates. The reaction mechanism is sequential with respect to MgATP and HCO3- addition and Mg2+ adds at equilibrium before MgATP. Acetyl-CoA stimulates the HCO3(-)-dependent MgATP cleavage at low MgATP concentrations, with the stimulation being greater at low Mg2+ concentrations. At high levels of MgATP in the presence of acetyl-CoA, substrate inhibition is evident and is more pronounced at increasing concentrations of Mg2+. This inhibition appears to be, at least in part, caused by inhibition of decarboxylation of the enzyme-carboxybiotin complex by the binding to this complex of Mg2+ and MgATP, which probably act to reduce the rate of movement of carboxybiotin from the site of the MgATP cleavage reaction to that of the pyruvate carboxylation reaction where it is unstable and decarboxylates.
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PMID:Bicarbonate-dependent ATP cleavage catalysed by pyruvate carboxylase in the absence of pyruvate. 144 29

At 37 degrees C, pH 7.4, carbonic anhydrase activity (kenz) of disrupted rat renal proximal tubules and cortical mitochondria was 2.5 +/- 0.8 (n = 3) and 0.15 +/- 0.40 (n = 3) ml.mg-1.s-1, respectively. Turnover number for renal mitochondrial carbonic anhydrase (CA V) was 24,000 s-1. CA V activity of intact mitochondria was completely inhibited by 0.15 microM ethoxzolamide (EZ). Intact proximal tubules, prepared from 48-h starved male rats, were incubated at 37 degrees C in 10 mM pyruvate in Krebs-Henseleit bicarbonate saline buffer, 5% CO2-95% O2. The rate of glucose synthesis over 60 min was reduced 50% by including 0.6 microM EZ in the incubation solution. The concentration of NaHCO3 was doubled to 50 mM (with a corresponding decrease in NaCl) and the solution gassed with 10% CO2-90% O2; 2.4 microM EZ no longer decreased glucose synthesis. It was concluded that inhibition of glucose synthesis by EZ was directly a result of inhibiting the carbonic anhydrases. The rate of glucose production was subsequently determined with tubules incubating in a HCO3(-)-free N-2-hydroxyethylpiperazine-N'-2-ethane-sulfonic acid (HEPES) buffer; this rate was decreased 50% by 0.6 microM EZ. These data support the hypotheses that CA V provides HCO3- for pyruvate carboxylase and that CO2 can be provided by tubular metabolism. Intact tubules were incubated in from 5 to 20 mM pyruvate in either 25 or 50 mM HCO3-; in either buffer, the rate of glucose synthesis was similar, increasing with increasing pyruvate concentration. At no pyruvate concentration was there a change in the rate of glucose production when tubules were incubated in 50 mM HCO3- buffer with 1.6 microM EZ. These data also support the hypothesis that CA V provides the HCO3- substrate for pyruvate carboxylation when there is a high rate of intracellular CO2 production and external CO2 is low. It is further concluded that the cytosolic carbonic anhydrase (CA II) and the membrane-bound carbonic anhydrase (CA IV) are not involved in glucose synthesis from pyruvate.
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PMID:Mitochondrial carbonic anhydrase is involved in rat renal glucose synthesis. 251 97

The carbonic anhydrase inhibitor acetazolamide reduces citrulline synthesis by intact guinea pig liver mitochondria and also inhibits mitochondrial carbonic anhydrase (CA V) and the more lipophilic carbonic anhydrase inhibitor ethoxzolamide reduces urea synthesis by intact guinea pig hepatocytes in parallel with its inhibition of total hepatocytic carbonic anhydrase activity. Intact hepatocytes from 48-h starved male guinea pig livers were incubated at 37 degrees C in Krebs-Henseleit with 95% O2/5% CO2 at pH 7.1 with 5 mM pyruvate, 5 mM lactate, 3 mM ornithine, 10 mM NH4Cl, 1 mM oleate; with these inclusions both urea and glucose synthesis start with HCO3- -requiring enzymes, carbamyl phosphate synthetase I and pyruvate carboxylase, respectively. Urea and glucose synthesis were inhibited in parallel by increasing concentrations of ethoxzolamide, estimated Ki for each approximately 0.1 mM. In other experiments hepatocytes were incubated at 37 degrees C in Krebs-Henseleit with 95% O2/5% CO2 at pH 7.1 with 10 mM glutamine, 1 mM oleate; with these inclusions glucose synthesis no longer starts with a HCO3- -requiring enzyme. Urea synthesis was inhibited by ethoxzolamide with an estimated Ki of 0.1 mM, but glucose synthesis was unaffected. Intact mitochondria were prepared from 48-h starved male guinea pig livers. Pyruvate carboxylase activity of intact mitochondria was determined in isotonic KCl-Hepes buffer, pH 7.4, 25 degrees C, with 7.5 mM pyruvate, 3 mM ATP, and 10 mM NaHCO3. Inclusion of ethoxzolamide resulted in reduction in the rate of pyruvate carboxylation in intact mitochondria, but not in disrupted mitochondria. It is concluded that carbonic anhydrase is functionally important for gluconeogenesis in the male guinea pig liver when there is a requirement for bicarbonate as substrate.
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PMID:Inhibition of CA V decreases glucose synthesis from pyruvate. 309 76

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