EC:4.1.1.32 - FACTA Search

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Query: EC:4.1.1.32 (phosphoenolpyruvate carboxykinase)
4,204 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphoenolpyruvate carboxykinase has been partially purified from pineapple (Ananas comosus [L.]) leaves. Specific activities obtained show it to be a major activity in this tissue. Above 15 C, the respective activation energies for decarboxylation and carboxylation are 13 and 12 kcal/mol. Below 15 C, there are discontinuities in Arrhenius plots with an associated large increase in activation energy. The adenine nucleotides are preferred to other nucleotides as substrates. The apparent Km values in the carboxylation direction are: ADP 0.13 mm, HCO(3) (-) 3.4 mm, and phosphoenolpyruvate 5 mm. In the decarboxylation direction, the apparent Km values are: ATP 0.02 mm, ADP 0.05 mm, and oxaloacetate 0.4 mm. The decarboxylation activity had an almost equal velocity with either ADP or ATP. The pH optima are between 6.8 and 7. Inhibition of the carboxylation reaction by ATP, pyruvate, and carbonic anhydrase was demonstrated. Decarboxylase specific activities are over twice carboxylation activities. The data support a model in which phosphoenolpyruvate carboxykinase is of physiological significance only during the light period and then only as a decarboxylase.
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PMID:Characterization of Phosphoenolpyruvate Carboxykinase from Pineapple Leaves Ananas comosus (L.) Merr. 1665 5

A method for determining the subcellular metabolite levels in spinach protoplasts is described. The protoplasts are disrupted by centrifugation through a nylon net, releasing intact chloroplasts which pass through a layer of silicone oil into perchloric acid while the remaining cytoplasmic components remain over the oil and are simultaneously quenched as acid is centrifuged into them. Cross-contamination is measured and corrected for using ribulose 1,5-bisphosphate as a chloroplastic marker and phosphoenolpyruvate carboxylase as a cytoplasmic marker. A method for separation of intact protoplasts from the medium by silicone oil centrifugation is described, which allows a correction to be made for the effect of free chloroplasts and broken protoplasts. Methods for inhibiting chloroplast photosynthesis, without inhibiting protoplasts, are presented. It is demonstrated that ribulose 1,5-bisphosphate, ATP, ADP, AMP, inorganic phosphate, hexose phosphate, triose phosphate, fructose 1,6-bisphosphate, and 3-phosphoglycerate can be reliably recovered in the subcellular fractions isolated from protoplasts, and measured by enzymic substrate analysis.
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PMID:Enzymic determination of metabolites in the subcellular compartments of spinach protoplasts. 1666 85

Autoradiography of total soluble maize (Zea mays) leaf proteins incubated with (32)P-labeled adenylates and separated by denaturing electrophoresis revealed that many polypeptides were phosphorylated in vitro by endogenous protein kinase(s). The most intense band was at 94 to 100 kilodaltons and was observed when using either [gamma-(32)P]ATP or [beta-(32)P]ADP as the phosphate donor. This band was comprised of the subunits of both pyruvate, Pi dikinase (PPDK) and phosphoenolpyruvate carboxylase (PEPCase). PPDK activity was previously shown to be dark/light-regulated via a novel ADP-dependent phosphorylation/Pi-dependent dephosphorylation of a threonyl residue. The identity of the acid-stable 94 to 100 kilodalton band phosphorylated by ATP was established unequivocally as PEPCase by two-dimensional gel electrophoresis and immunoblotting. The phosphorylated amino acid was a serine residue, as determined by two-dimensional thin-layer electrophoresis. While the in vitro phosphorylation of PEPCase from illuminated maize leaves by an endogenous protein kinase resulted in a partial inactivation ( approximately 25%) of the enzyme when assayed at pH 7 and subsaturating levels of PEP, effector modulation by l-malate and glucose-6-phosphate was relatively unaffected. Changes in the aggregation state of maize PEPCase (homotetrameric native structure) were studied by nondenaturing electrophoresis and immunoblotting. Enzyme from leaves of illuminated plants dissociated upon dilution, whereas the protein from darkened tissue did not dissociate, thus indicating a physical difference between the enzyme from light- versus dark-adapted maize plants.
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PMID:In vitro phosphorylation of maize leaf phosphoenolpyruvate carboxylase. 1666 42

The effects of adenine nucleotides on phosphoenolypyruvate carboxylase were investigated using purified enzyme from the CAM plant, Crassula argentea. At 1 millimolar total concentration and with limiting phosphoenolpyruvate, AMP had a stimulatory effect, lowering the K(m) for phosphoenolpyruvate, ADP caused less stimulation, and ATP decreased the activity by increasing the K(m) for phosphoenolpyruvate. Activation by AMP was not additive to the stimulation by glucose 6-phosphate. Furthermore, AMP increased the K(a) for glucose 6-phosphate. Inhibition by ATP was competitive with phosphoenolpyruvate. In support of the kinetic data, fluorescence binding studies indicated that ATP had a stronger effect than AMP on phosphoenolpyruvate binding, while AMP was more efficient in reducing glucose 6-phosphate binding. As free Mg(2+) was held constant and saturating, these effects cannot be ascribed to Mg(2+) chelation. Accordingly, the enzyme response to the adenylate energy charge was basically of the "R" type (involving enzymes of ATP regenerating sequences) according to D. E. Atkinson's (1968 Biochemistry 7: 4030-4034) concept of energy charge regulation. The effect of energy charge was abolished by 1 millimolar glucose 6-phosphate. Levels of glucose 6-phosphate and of other putative regulatory compounds of phosphoenolpyruvate carboxylase were determined in total leaf extracts during a day-night cycle. The level of glucose 6-phosphate rose at night and dropped sharply during the day. Such a decrease in glucose 6-phosphate concentration could permit an increased control of phosphoenolpyruvate carboxylase by energy charge during the day.
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PMID:The Effect of Adenine Nucleotides on Purified Phosphoenolpyruvate Carboxylase from the CAM Plant Crassula argentea. 1666 57

The net photosynthetic rate and the activities of ribulose 1,5 bisphosphate carboxylase (RubisCo), phosphoenolpyruvate carboxylase, sucrose-P-synthase, and ADP glucose-pyrophosphorylase, key enzymes of the leaf carbohydrate metabolism were compared in eight maize (Zea mays L.) genotypes presenting large differences in growth rate. The sucrose-P-synthase activity varied in the ratio 1 to 3 from the less active to the more active genotype and this variation was highly correlated with those in growth rate. ADP glucose pyrophosphorylase activity was not significantly different from one genotype to another whatever the basis for expression, leaf area, or soluble protein. The photosynthetic rate varied with similar amplitude (1:1) to the RubisCo activity or RubisCo quantity but the correlation with growth rate was highly significant for photosynthesis and nonsignificant for RubisCo or phosphoenolpyruvate carboxylase. So, in our series of genotypes the sucrose synthesis capacities as expressed by sucrose phosphate synthase activity seem to have a good predicting value for mean growth rate at a young stage.
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PMID:Genetic Variability in Carbon Fixation, Sucrose-P-Synthase and ADP Glucose Pyrophosphorylase in Maize Plants of Differing Growth Rate. 1666 58

Phosphoenolpyruvate phosphatase from Brassica nigra leaf petiole suspension cells has been purified 1700-fold to apparent homogeneity and a final specific activity of 380 micromole pyruvate produced per minute per milligram protein. Purification steps included: ammonium sulfate fractionation, S-Sepharose, chelating Sepharose, concanavalin A Sepharose, and Superose 12 chromatography. The native protein was monomeric with a molecular mass of 56 kilodaltons as estimated by analytical gel filtration. The enzyme displayed a broad pH optimum of about pH 5.6 and was relatively heat stable. Western blots of microgram quantities of the final preparation showed no cross-reactivity when probed with rabbit polyclonal antibodies prepared against either castor bean endosperm cytosolic pyruvate kinase, or sorghum leaf phosphoenolpyruvate carboxylase. The final preparation exhibited a broad substrate selectivity, showing high activity toward p-nitrophenyl phosphate, adenosine diphosphate, adenosine triphosphate, gluconate 6-phosphate, and phosphoenolpyruvate, and moderate activity toward several other organic phosphates. Phosphoenolpyruvate phosphatase possessed at least a fivefold and sixfold greater affinity and specificity constant, respectively, for phosphoenolpyruvate (apparent Michaelis constant = 50 micromolar) than for any other nonartificial substrate. The enzyme was activated 1.7-fold by 4 millimolar magnesium, but was strongly inhibited by molybdate, fluoride, zinc, copper, iron, and lead ions, as well as by orthophosphate, ascorbate, glutamate, aspartate, and various organic phosphate compounds. It is postulated that phosphoenolpyruvate phosphatase functions to bypass the adenosine diphosphate dependent pyruvate kinase reaction during extended periods of orthophosphate starvation.
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PMID:Purification and Characterization of a Phosphoenolpyruvate Phosphatase from Brassica nigra Suspension Cells. 1666 36

When Brassica nigra leaf petiole suspension cells were subjected to 7 days of inorganic phosphate (Pi) starvation the extractable activity of: (a) pyrophosphate:fructose 6-phosphate 1-phosphotransferase, nonphosphorylating NADP-glyceraldehyde 3-phosphate dehydrogenase, phosphoenolpyruvate phosphatase, and phosphoenolpyruvate carboxylase increased at least fivefold, (b) phosphorylating NAD-glyceraldehyde 3-phosphate dehydrogenase decreased about sixfold, and (c) ATP:fructose 6-phosphate 1-phosphotransferase, 3-phosphoglycerate kinase, pyruvate kinase, or NAD malic enzyme was not altered. Pi deprivation also resulted in significant reductions in extractable levels of Pi, ATP, ADP, fructose 2,6-bisphosphate, and soluble protein, but caused a sixfold elevation in free amino acid concentrations. No change in inorganic pyrophosphate concentration was observed following Pi starvation. It is hypothesized that pyrophosphate:fructose 6-phosphate 1-phosphotransferase, nonphosphorylating NADP-glyceraldehyde 3-phosphate dehydrogenase, and phosphoenolpyruvate phosphatase bypass nucleotide phosphate or Pi-dependent glycolytic reactions during sustained periods of Pi depletion.
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PMID:Phosphate Starvation Inducible ;Bypasses' of Adenylate and Phosphate Dependent Glycolytic Enzymes in Brassica nigra Suspension Cells. 1666 22

The effects of phosphorus nutrition on several physiological and biochemical parameters of the green alga, Selenastrum minutum, have been examined. Algal cells were cultured in chemostats under conditions of either Pi limitation or nutrient sufficiency. Pi limitation resulted in: (a) a 5-fold lower rate of respiration, (b) a 3-fold decline in rates of photosynthetic carbon dioxide fixation and oxygen evolution, (c) a 3-fold higher rate of dark carbon dioxide fixation, (d) significant increases in activities of phosphoenolpyruvate (PEP) carboxylase and PEP phosphatase (128% and 158% of nutrient sufficient activities, respectively), (e) significant reductions in activities of nonphosphorylating NADP-glyceraldehyde-3-phosphate dehydrogenase and NAD malic enzyme, and (f) no change in levels of ATP:fructose-6-phosphate 1-phosphotransferase, phosphorylating NAD-glyceraldehyde-3-phosphate dehydrogenase, 3-phosphoglycerate kinase, and pyruvate kinase. The intracellular concentrations of Pi, ATP, AMP, soluble protein, and chlorophyll were also significantly reduced in response to Pi limitation. As well, the level of ADP was about 11-fold lower in the Pi-limited cells as compared to the nutrient sufficient controls. It was predicted that because of this low level of ADP, pyruvate kinase catalyzed conversion of PEP to pyruvate may be restricted in Pi-limited cells. During Pi limitation, PEP carboxylase and PEP phosphatase may function to "bypass" the ADP dependent pyruvate kinase, as well as to recycle Pi for its reassimilation into cellular metabolism.
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PMID:Effects of Phosphorus Limitation on Respiratory Metabolism in the Green Alga Selenastrum minutum. 1666 95

Molecular properties and transcriptional control of phosphoenolpyruvate carboxykinase (PCK; EC 4.1.1.32) in Ruminococcus albus were examined. The putative 537-amino acid PCK polypeptide has a predicted mass of 59.4 kDa and an isoelectric point of 4.82. RT-PCR and Northern blot analyses of pck mRNA suggest that the transcript is monocistronic and that pck transcription is not affected by changes in sugar sources present in growth medium. PCK enzymatic activity requires either Mg(2+) or Mn(2+) and an optimal pH of 7.0. R. albus PCK phosphorylated ADP more readily than GDP. Apparent K ( m ) values of PCK for PEP and ADP were considerably lower than those for OAA and ATP, suggesting that the reaction from PEP to OAA is favored in R. albus. The enzyme properties of PCK in R. albus appear to be more similar to Selenomonas ruminantium PCK than to Ruminococcus flavefacience, although R. albus and R. flavefacience belong to the same genus. The specific activity of PCK, representing the amount of enzyme per cell, in R. albus was much lower than that in S. ruminantium. The amount of succinate produced in R. albus from one unit of cellobiose was also much lower than the sum of succinate and propionate produced in S. ruminantium. Based on these results, we propose enhancement of PCK activity by stimulating PCK transcription as a method to decrease R. albus H(2) production without suppressing growth.
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PMID:Molecular and biochemical characterization of phosphoenolpyruvate carboxykinase in the ruminal bacterium Ruminococcus albus. 1919 51

(1) The reduction of pyruvate to lactate has been studied in isolated liver cells in order to elucidate the mechanims involved in the transfer of reducing equivalents from mitochondria to cytosol. (2) Manipulation of the cytosolic oxaloacetate concentration did not support the malate-oxaloacetate cycle as being responsible for the transfer of reducing equivalents out of the mitochondria: (a) With pyruvate plus oleate present 2 mM Amytal caused a 10-fold decrease in the oxaloacetate concentration, but had only a small inhibitory effect on lactate production. Oleate was essential in order to prevent disintegration of the cells in the presence of Amytal. (b) Quinolinate, an inhibitor of phosphoenolpyruvate carboxylase (GTP: oxaloacetate carboxylyase, transphosphorylating, EC 4.1.1.32), caused a several-fold increase in the oxaloacetate concentration but inhibited lactate production from pyruvate; this was accompanied by an increased reduction of mitochondrial pyridine nucleotides. (3) p-Chlorophenyl pyruvate, an inhibitor of pyruvate carboxylase (pyruvate: carbondioxide ligase, ADP, EC 6.4.1.1), also inhibited lactate production from pyruvate. (4) It is postulated that with pyruvate as substrate, recycling of carbon via pyruvate carboxylase, phosphoenolpyruvate carboxylase and pyruvate kinase (ATP: pyruvate phosphotransferase, EC 2.7.1.40) is an important, energy-requiring, mechanism for the transfer of the proportion of NADH not directly associated with gluconeogenesis.
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PMID:Transfer of reducing equivalents across the mitochondrial membrane. I. Hydrogen transfer mechanisms involved in the reduction of pyruvate to lactate in isolated liver cells. 1939 87

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