EC:4.1.1.49 - FACTA Search

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Query: EC:4.1.1.49 (phosphoenolpyruvate carboxykinase)
4,654 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The exchange inert coordination complexes, Cr(H2O)4GDP, Cr(H2O)4GTP, Cr(NH3)4GDP, Cr(NH3)4GTP, Co(NH3)4GDP, and Co(NH3)4GTP have been synthesized and characterized. The lambda and delta coordination isomers of Cr(H2O)4GDP, Cr(NH3)4GDP, and the four Cr(H2O)4GTP isomers have been separated by reverse phase HPLC and characterized by their CD spectra. While the isomers of Co(NH3)4GTP have not been successfully separated, 31P NMR spectroscopy reveals the presence of the lambda and delta forms. The complexes, Cr(H2O)4GDP, Co(NH3)4GDP, Cr(H2O)4GTP, and Co(NH3)4GTP, are linear competitive inhibitors of avian phosphoenolpyruvate carboxykinase. The Ki values of 30 microM, 540 microM, 40 microM, and 12 microM, respectively, were determined for these complexes using Mn-IDP as the nucleotide substrate in the phosphoenolpyruvate carboxylation direction or Mn-ITP as nucleotide substrate for the oxalacetate decarboxylation reaction. The lambda and delta isomers of Cr(H2O)4 GDP show little specificity (a twofold maximum difference in Ki) for the enzyme. The isomeric forms of Cr(H2O)4 GTP demonstrate no observed stereoselectivity of interaction with the enzyme. All of the complexes tested, except for Cr(NH3)4GDP and Co(NH3)4GDP, which have larger Ki values, are good substrate analogs for P-enolpyruvate carboxykinase. When the substrate is Mn-GTP, fixed at 0.2 mM at pH 6.0, enzyme activity is stimulated two- to two and a half-fold by Cr(H2O)4GTP. A Dixon plot reveals that the stimulatory effect is saturated at 0.4 mM Cr(H2O)4GTP. The interaction of the enzyme with Cr(H2O)4GTP appears to produce a "memory" effect which is manifest with guanosine nucleotide substrates, but which is not observed with the alternative substrate Mn-ITP.
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PMID:The preparation and characterization of Cr(III) and Co(III) complexes of GDP and GTP and their interactions with avian phosphoenolpyruvate carboxykinase. 334 64

Phosphoenolpyruvate carboxykinase of chicken liver cytosol was purified to homogeneity by procedures including affinity chromatography with GTP as a ligand. The purified enzyme showed a molecular weight of 68,000 on gel electrophoresis in the presence of dodecyl sulfate. Comparative studies on this enzyme and its isozyme purified from chicken liver mitochondria were performed. As regards amino acid composition, the cytosolic enzyme was quite different from the mitochondrial enzyme, but was rather similar to rat liver cytosolic phosphoenolpyruvate carboxykinase. Specific activities of the cytosolic enzyme were 30-100% higher than those of the mitochondrial enzyme for oxaloacetate-CO2 exchange, oxaloacetate decarboxylation, and phosphoenolpyruvate carboxylation reactions, though the relative rates of the activities were similar, decreasing in the order given. Apparent Michaelis constants for oxaloacetate in the oxaloacetate decarboxylation reaction were 11.6 and 17.9 microM for the cytosolic and the mitochondrial enzyme, respectively, but the values for GTP, GDP, phosphoenolpyruvate, and CO2 in the oxaloacetate decarboxylation and phosphoenolpyruvate carboxylation reactions were 1.3-2.2 times higher for the cytosolic enzyme than for the mitochondrial enzyme. Thus, the fundamental catalytic properties of the chicken liver phosphoenolpyruvate carboxykinase isozymes were rather similar, despite the marked difference in amino acid compositions.
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PMID:Purification and characterization of cytosol-specific phosphoenolpyruvate carboxykinase from chicken liver. 378 66

The interactions of nucleotides with phosphoenolpyruvate carboxykinase were studied by using the stereospecific thiophosphate analogues of GDP and GTP. The metal ion dependent stereoselectivity of these analogues was determined by using steady-state kinetics. The RP and SP isomers of guanosine 5'-O-(1-thiodiphosphate) (GDP alpha S) were substrates with low turnover, and a small preference for the RP isomer was observed. Neither the enzyme-metal nor the nucleotide-metal complex elicited any substantial change in the selectivity. Guanosine 5'-O-(2-thiodiphosphate) (GDP beta S) exhibited no substrate activity for the enzyme, regardless of the cations. This nucleotide was a competitive inhibitor against GDP, however. Both RP and SP diastereomers of guanosine 5'-O-(1-thiotriphosphate) (GTP alpha S) were good substrates for phosphoenolpyruvate carboxykinase; in several cases, depending upon the cation, kcat and/or Vm/Km for the RP isomer is greater than for the substrate GTP. The enzyme-metal complex but not the nucleotide-metal complex affects the relative Km and the Vmax values. In contrast, guanosine 5'-O-(2-thiotriphosphate) (GTP beta S) (SP) is a much better substrate (greater than 50 times) than is GTP beta S (RP). The metal ions have little effect on the selectivity. These results suggest a specific interaction of the beta-phosphate of the nucleotide with the protein. The analogue guanosine 5'-O-(3-thiotriphosphate) (GPT gamma S) serves as a substrate to yield GDP and thiophosphoenolpyruvate. The latter was detected by 31P NMR and was shown to slowly hydrolyze to form phosphoenolpyruvate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Guanosine thiophosphate derivatives as substrate analogues for phosphoenolpyruvate carboxykinase. 391 4

Guinea pig liver mitochondrial phosphoenolpyruvate carboxykinase catalyzes the conversion of (Rp)-guanosine 5'-(3-thio[3-18O]triphosphate) and oxalacetate to (Sp)-[18O] thiophosphoenolpyruvate , GDP, and CO2 by a mechanism that involves overall inversion in the configuration of the chiral [18O]thiophosphate group. This result is most consistent with a single displacement mechanism in which the [18O]thiophosphoryl group is transferred from (Rp)-guanosine 5'-(3-thio[3-18O]triphosphate) bound at the active site directly to enolpyruvate generated at the active site by the decarboxylation of oxalacetate. In particular, this result does not indicate the involvement of a covalent thiophosphoryl-enzyme on the reaction pathway.
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PMID:Stereochemical course of thiophosphoryl group transfer catalyzed by mitochondrial phosphoenolpyruvate carboxykinase. 637 62

Phosphoenolpyruvate (PEP) carboxykinase was identified to be the only C3-carboxylating enzyme in Alcaligenes eutrophus. The enzyme requires GDP or inosine diphosphate (GTP or inosine triphosphate) for activity. Pyruvate- and other PEP-dependent CO2-fixing enzyme activities were not detected, regardless of whether the cells were grown autotrophically or heterotrophically. It is suggested that two pathways are present in the organism for the formation of PEP from C4 dicarboxylic acids. Besides decarboxylation of oxaloacetate by PEP carboxykinase, the consecutive action of NADP+-malic enzyme and PEP synthetase can also accomplish this synthesis. An oxaloacetate decarboxylase activity observed in the cell extracts may also contribute to the latter route. The properties of a mutant deficient in PEP synthetase supported the biochemical data. This mutant was unable to grow on pyruvate or lactate and grew slower than the wild type on direct or indirect metabolites of the tricarboxylic acid cycle such as succinate, glutamate, or acetate. Growth on fructose and autotrophic growth were not affected by the enzyme defect. The findings suggest that, depending on the growth substrate utilized, PEP carboxykinase can serve a dual physiological function in A. eutrophus, an anaplerotic function in oxaloacetate synthesis from PEP, or a gluconeogenic function in PEP synthesis from oxaloacetate.
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PMID:Unusual C3 and C4 metabolism in the chemoautotroph Alcaligenes eutrophus. 642 20

The interactions of nucleotide substrates with the enzyme phosphoenolpyruvate carboxykinase and its Mn2+ complex were investigated by several methods. Direct binding shows the formation of stoichiometric complexes. The presence of Mn2+ increases the affinity of the enzyme for nucleotide. A higher affinity for GTP (Kd less than 2 microM) than for GDP (Kd = 15 microM) was determined. Solvent proton relaxation rate studies indicate no substantial difference in titration curves for free nucleotide or for Mg-nucleotide to the enzyme-Mn complex. The effect of Mn2+ on the 31P relaxation rates of IDP and of ITP in the binary Mn-nucleotide complex indicates the formation of direct coordination complexes. The distances of the alpha- and beta-31P of IDP to Mn2+ are identical (3.5 A). The Mn2+ distance to the beta- and gamma-31P of ITP is also identical (3.7 A) and is 0.2 A further from the alpha-phosphorus. In the presence of P-enolpyruvate carboxykinase, the effect of Mn2+ on the 31P relaxation rates was measured at 40.5 MHz and at 121.5 MHz. The dipolar correlation time was calculated to be 0.6-5.4 ns, depending upon assumptions made. The Mn2+ to phosphorus distances indicate the nucleotide substrates form a second sphere complex to the bound Mn2+. From 1/T2 measurements, electron delocalization from Mn2+ to the phosphorus atoms is indicated; this effect occurs although direct coordination does not take place. The exchange rate of GTP from the enzyme-Mn complex (koff = 4 X 10(4) s-1) is rapid compared to kcat with a lower energy of activation (9.2 kcal/mol) than for catalytic turnover.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorus-31 nuclear relaxation rate studies of the nucleotides on phosphoenolpyruvate carboxykinase. 652 66

Phosphoenolpyruvate carboxykinase (EC 4.1.1.32) was detected in a particulate fraction of Trypanosoma brucei brucei procyclic culture form. It requires ADP rather than GDP for activity in the direction of carboxylation and is located in the glycosomes. Since phosphoenolpyruvate can serve to furnish ATP for glycolysis and can promote 3-phosphoglycerate or 1,3-bisphosphoglycerate formation without simultaneous alpha-glycerophosphate production, we suggest that the glycosomal phosphoenolpyruvate carboxykinase-malate dehydrogenase tandem contributes to ATP regeneration and NADH re-oxidation in the glycosome, and regulates alpha-glycerophosphate production.
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PMID:Occurrence and role of phosphoenolpyruvate carboxykinase in procyclic Trypanosoma brucei brucei glycosomes. 687 81

Phosphoenolpyruvate carboxykinase from bullfrog liver mitochondria has been purified to electrophoretical and immunological homogeneity by an improved method using hydrophobic chromatography on Sepharose-hexane-GMP and affinity chromatography on phosphocellulose. The molecular weight was determined to be 70,000 by SDS-gel electrophoresis, 65,000 by Sephadex G-100 gel filtration and 72,000 by glycerol gradient centrifugation. The isoelectric point was determined to be 6.2, differing from that of the cytosol enzyme. The rabbit IgG fraction against the mitochondrial PEP carboxykinase precipitated not only the mitochondrial but also the cytosol enzyme. The dissociation constant of the nucleotide-enzyme complex was determined to be 3 microM for GTP, 8.5 microM for GDP, and 171 microM for GMP. The affinity of GTP for the enzyme was reduced in the presence of phosphoenolpyruvate or Mn2+, whereas that of GDP was not changed. GMP inhibited the enzyme competitively with GDP for the phosphoenolpyruvate carboxylation and competitively with GTP for the exchange reaction between [14C]HCO3- and oxaloacetate. The purified enzyme was found to have a cysteine residue which reacted with iodoacetamide to form inactive enzyme. Guanine nucleotides or IDP and Mn2+ at a lower concentration prevented the inactivation by iodoacetamide of the enzyme in a competitive manner. Binding of guanine nucleotide to the enzyme and the relation of the sulfhydryl group to the nucleotide binding are discussed.
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PMID:Purification and molecular characteristics of mitochondrial phosphoenolpyruvate carboxykinase from bullfrog (Rana catesbeiana) liver. 697 Jan 95

Acyclovir diphosphate (acyclo-GDP) is a metabolite of the antiviral drug acyclovir [9-(2-hydroxyethoxymethyl)guanine]. Seven enzymes capable of catalyzing the phosphorylation of GDP and dGDP (nucleoside diphosphate kinase, pyruvate kinase, creatine kinase, phosphoglycerate kinase, succinyl-CoA synthetase, phosphoenolpyruvate carboxykinase and adenylosuccinate synthetase) also catalyzed the phosphorylation of acyclo-GDP. In general, acyclo-GDP had a lower V'max and a higher K'm than either GDP or dGDP. None of these enzymes showed significantly higher rates of phosphorylation with GDP or acyclo-GDP in herpes simplex virus-infected Vero cells as compared to uninfected Vero cells. The contribution of each enzyme to the phosphorylation of acyclo-GDP in vivo was estimated from the kinetic data from the partially purified enzymes, the level of each enzyme in Vero cells, and the physiological concentrations of both substrates and inhibitors. The relative order of estimated rates of acyclo-GDP phosphorylation in Vero cells was phosphoglycerate kinase much greater than pyruvate kinase greater than phosphoenolpyruvate carboxykinase greater than nucleoside diphosphate kinase greater than succinyl-CoA synthetase greater than creatine kinase greater than adenylosuccinate synthetase. The calculated potential for acyclo-GDP phosphorylation by these enzymes was adequate to account for the amounts of acyclo-GTP formed in cell culture.
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PMID:Phosphorylation of acyclovir diphosphate by cellular enzymes. 715 65

A method is described for the purification of the enzyme phosphoenolpyruvate carboxykinase (PEPCK) from the cestode Hymenolepis diminuta. When purified to electrophoretic homogeneity, the enzyme had a molecular weight of 70,600 and an isoelectric point of 7.5. Kinetic studies indicated that the pH 5.6 was optimal for the carboxylation reaction and that Mn++ was the preferred divalent cation; there was no activity of the enzyme in the presence of Mg++. Apparent Km values for the carboxylation reaction were determined; those for GDP (20.6 muM) and PEP (38.9 muM) were lower than the values previously reported. GTP, GMP, ITP, IMP, fumarate, succinate and alpha-ketoglutarate were found to be competitive inhibitors and their Ki values determined.
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PMID:Purification and properties of phosphoenolpyruvate carboxykinase from Hymenolepis diminuta (Cestoda). 732 56

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