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)

Timed assays in which GTP and GDP were separated and quantitated by HPLC were developed and used to study the metal activation of the mitochondrial and cytosolic isozymes of phosphoenolpyruvate carboxykinase purified from rabbit liver. These assays allowed both directions of catalysis to be studied under similar conditions and in the absence of coupling enzymes. The mitochondrial enzyme is rapidly inactivated by preincubation with Fe2+, as had been shown previously for the cytosolic isozyme. The greatest activation by Fe2+ was obtained by adding micromolar Fe2+ immediately after enzyme to form the complete assay mixture that also contained millimolar Mg2+. In the direction of synthesis of OAA from Pep, the K0.5 values for Mn2+ and Fe2+ were in the 3-7 microM range when a nonchelating buffer, Hepes, was used. The buffer used strongly affected activation by Fe2+ at pH 7.4; activation was eliminated in the case of phosphate and K0.5 increased several-fold over that obtained with Hepes when imidazole was used. In non-chelating buffer, the pH optimum was near 7.4 for both isozymes and for both directions of catalysis. However, the near optimal pH range extended below 7.4 for the direction of oxaloacetate synthesis while the range was above 7.4 for Pep synthesis. In the direction of oxaloacetate synthesis: (1) Both isozymes required the presence of micromolar Mn2+ or Fe2+ in addition to millimolar Mg2+ in order to shown significant activity. (2) Fe2+ was as effective an activator as Mn2+ at pH 7 and below. In the direction of Pep synthesis: (1) Micromolar Mn2+ was a much better activator than Fe2+ at the higher pH values needed for optimal activity in this direction. (2) With increasing pH, decreasing activation was obtained with Fe2+ while the activity supported by Mg2+ alone increased. The results demonstrate the potential for regulation of either isozyme of Pep carboxykinase by the availability of iron or manganese.
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PMID:Factors affecting the manganese and iron activation of the phosphoenolpyruvate carboxykinase isozymes from rabbit. 147 44

Mammalian phosphoenolpyruvate carboxykinase (PEPCK) specifically requires a guanosine or inosine nucleotide as a substrate; however, the structural basis for this nucleotide specificity is not yet known. Because affinity labels derived from guanosine have not yielded a stable, modified peptide in quantities sufficient for sequence analysis, we have investigated the utility of direct photochemical cross-linking of GTP to PEPCK in order to identify the nucleotide binding site. UV irradiation at a distance of 2 cm by a Mineralight lamp (330 microW/cm2) results in the attachment of [alpha-32P]GTP to PEPCK via a stable, covalent linkage in a reaction that is dependent upon GTP concentration and duration of irradiation. After 10 min of irradiation, more than 0.2 mol of [alpha-32P] GTP is incorporated per mole of PEPCK; under these conditions the GTP concentration required for half-maximal labeling is 69 microM. The substrates phosphoenolpyruvate, ITP, and GDP provide protection against photolabeling, as do Mn2+ and Mg2+. One major and one minor radioactive peptide derived from proteolytic digests of photolabeled PEPCK have been isolated and identified. The major modified peptide has been provisionally assigned to an acidic region near the C-terminus, and the minor peptide has been identified as Ser462-Lys471.
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PMID:Photochemical cross-linking of guanosine 5'-triphosphate to phosphoenolpyruvate carboxykinase (GTP). 151 68

Biochemical and metabolic data have led to the conclusion that the enzyme phosphoenolpyruvate carboxykinase (PEPCK; EC 4.1.1.32) contributes to a critical point of divergence in energy conservation pathways between mammals and nematodes. To facilitate the determination of the molecular basis for host vs parasite differences in PEPCK, we have cloned a cDNA encoding this enzyme from a parasitic nematode of ruminants, Haemonchus contortus. H. contortus PEPCK was cloned by functional complementation of a PEPCK-, malic enzyme- strain of Escherichia coli (E1786) using an egg stage H. contortus cDNA library in lambda ZAPII. Selection was for growth on malate as the sole carbon source (malate+ phenotype). We isolated a plasmid, pPEPCK, which reproducibly confers a malate+ phenotype in E1786. The sequence of the 2.0-kb EcoRI insert of pPEPCK predicts a 612-amino acid protein which shows about 74% similarity to Drosophila melanogaster and chicken PEPCK. Extracts of E1786[pPEPCK], but not E1786, contain IDP- or GDP-dependent PEPCK enzyme activity. Sequence analysis revealed that the open reading frame (ORF) in pPEPCK lacked a 5' initiation codon and was probably expressed as an in-frame fusion protein with beta-galactosidase. A strategy combining library screening with PCR analysis of positive clones led to the identification of a clone encoding 6 additional NH2-terminal amino acids, including a Met, which, by comparison with known PEPCK amino acid sequences, is likely to be the translation initiation site.
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PMID:Cloning of a cDNA encoding phosphoenolpyruvate carboxykinase from Haemonchus contortus. 174 Oct 16

Reaction of rat liver phosphoenolpyruvate carboxykinase (GTP: oxaloacetate carboxy-lyase (transphosphorylating), EC 4.1.1.32) with the alkylating fluorescent probe N-(iodoacetylaminoethyl)-5-naphthylamine-1-sulfonic acid (1,5-I-AEDANS), results in complete loss of enzymatic activity. One mole of the fluorescent reagent is incorporated per mole of the inactivated enzyme. When the modification is carried out in the presence of GDPMn, the enzyme retains 97% of its activity with almost no incorporation of label. The specificity of the reaction is further supported by the detection of a unique fluorescent peptide from the trypsin-treated modified enzyme. Fluorescence emission of enzyme-bound AEDANS shows a broad band centered at 470 nm and presents a monoexponential decay with a lifetime of 19 ns. These data indicate that the probe-binding site is considerably less polar than water and similar in polarity to ethanol. Anisotropy determinations give evidence for restricted rotational freedom for AEDANS bound to the rat carboxykinase, while acrylamide quenching studies reveal limited accessibility to the probe site. The results are consistent with specific labeling of rat liver phosphoenolpyruvate carboxykinase at or near the GDP site. The characteristics of the nucleotide-binding sites of rat liver and yeast (ATP) phosphoenolpyruvate carboxykinase are compared.
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PMID:Fluorescent labeling of the nucleotide site in cytosolic rat liver phosphoenolpyruvate carboxykinase. 189 68

Isotope-trapping studies of the enzyme.MgGTP complex were carried out with rat liver cytosolic and chicken liver mitochondrial phosphoenolpyruvate carboxykinases. For the rat liver enzyme, MgGTP was partially trapped from both E.MgGTP and E.MgGTP.OAA complexes, consistent with a steady-state random mechanism. For the chicken liver enzyme, MgGTP was 100% trapped from the E.MgGTP.OAA complex, consistent with a steady-state ordered mechanism. The rate constants for the interaction of MgGTP with the free enzymes are approximately 10(7) M-1 S-1, somewhat lower than the diffusion limit for association. The dissociation rate for the enzyme.MgGTP complexes is 26-92 s-1, reflecting a tightly bound complex with high commitment to catalysis in the presence of oxaloacetate. Positional isotope-exchange studies were also carried out with phosphoenolpyruvate carboxykinases from rat and chicken. No exchange if the beta gamma-18O in [beta gamma-18O, gamma-18O3]GTP to form [beta-18O, gamma-18O3]GTP was detected in the absence of oxaloacetate. In the presence of oxaloacetate, no positional isotope exchange of [beta gamma-18O, gamma-18O3]GTP was detected during initial rate conditions. The results indicate that at least one of the products dissociates rapidly from the E.MgGDP.PEP.CO2 complex relative to the net rate of MgGTP formation from the E.MgGDP.PEP.CO2 complex. A rapid equilibrium between the central complexes in which the beta-phosphoryl of GDP is restricted with respect to torsional rotation cannot be excluded but is unlikely on the basis of the relative rates of catalysis and torsional rotation. The addition of Mn2+, an activator of phosphoenolpyruvate carboxykinase, did not influence the positional isotope-exchange results.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isotope trapping and positional isotope exchange with rat and chicken liver phosphoenolpyruvate carboxykinases. 202 5

We present here a radiochemical enzymatic endpoint assay for the guanine nucleotides GTP and GDP that is suitable for use with cell extracts. The major coupling enzyme used is phosphoenolpyruvate carboxykinase purified from chicken liver. The ancillary coupling enzyme, aspartate aminotransferase, was used to generate a low steady-state concentration of oxalacetate. GTP was determined by the overall conversion of [U-14C]aspartate into [14C]phosphoenolpyruvate. This reaction was also scaled-up as a preparative method for [U-14C]phosphoenolpyruvate. This was used with the same coupling enzymes in reverse to measure GDP by the formation of [14C]aspartate. The assay method was applied to isolated rat hepatocytes. The total GTP and GDP concentrations found were within the range reported by others for rat liver. The advantages of this assay are its sensitivity, specificity, and applicability to large numbers of samples.
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PMID:A radiochemical enzymatic endpoint assay for GTP and GDP. 204 20

The mixed anhydride of oxalic and phosphoric acids, oxalyl phosphate, has been prepared by reaction of oxalyl chloride and inorganic phosphate in aqueous solution. The product was purified by anion exchange chromatography and characterized by 31P and 13C NMR. This acyl phosphate has a half-life of 51 h at pH 5.0 and 4 degrees C. Oxalyl phosphate, an analogue of phosphoenolpyruvate, is a slow substrate for pyruvate kinase, undergoing an enzyme-dependent phosphotransfer reaction to produce ATP from ADP. Oxalyl phosphate substitutes for phosphoenolpyruvate in the reaction catalyzed by pyruvate, phosphate dikinase. The acyl phosphate reacts with the free enzyme to give the phosphorylated form of the enzyme. Removal of the potent product inhibitor, oxalate, from the reaction mixtures by gel filtration chromatography permitted further reaction of the phosphorylated enzyme with pyrophosphate and AMP to give ATP and Pi in a single turnover assay. Oxalyl phosphate also served as a phospho group donor in a partial reaction catalyzed by phosphoenolpyruvate carboxykinase wherein GDP is phosphorylated at the expense of oxalyl phosphate.
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PMID:Synthesis of oxalyl phosphate and processing of the acyl phosphate by phosphoenolpyruvate-dependent enzymes. 216 54

(1) Rabbit liver mitochondria can convert exogenous phosphoenolpyruvate to malate. (2) Malate production is dependent on phosphoenolpyruvate and HCO3- and is stimulated by CN- or malonate alone and especially in combination. (3) Malate production is inhibited 70% by 3-mercaptopicolinate, a specific inhibitor of phosphoenolpyruvate carboxykinase, and 50-60% by 1,2,3-benzenetricarboxylate, an inhibitor of the tricarboxylate transporter. (4) Rat liver mitochondria incubated with phosphoenolpyruvate under identical conditions do not produce malate. (5) Malate production from phosphoenolpyruvate is stimulated by exogenous GDP or IDP but not by ADP. (6) Data support the conclusion that malate is being produced from oxalacetate generated by reversal of mitochondrial phosphoenolpyruvate carboxykinase. A possible role for this enzyme in hepatic lipogenesis is suggested.
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PMID:Synthesis of malate from phosphoenolpyruvate by rabbit liver mitochondria: implications for lipogenesis. 283 92

Phosphoenolpyruvate carboxykinase from the cytosol of rat liver has 13 cysteines, at least one of which is known to be very reactive and essential for catalytic activity (Carlson, G. M., Colombo, G., and Lardy, H. A. (1978) Biochemistry 17, 5329-5338). In order to identify the essential cysteine, this enzyme was modified with the fluorescent sulfhydryl reagent N-(7-dimethylamino-4-methyl-3-coumarinyl)maleimide. Incubation of phosphoenolpyruvate carboxykinase with a 10% molar excess of this maleimide at 0 degrees C results in the rapid and nearly complete loss of catalytic activity. Under these conditions, 1 mol of the maleimide is incorporated per mol inactivated enzyme. The substrate GDP provides almost complete protection against inactivation and modification, while phosphoenolpyruvate protects against the rate, but not the extent, of modification. The pH dependence of the rate of enzyme inactivation suggests that the modified residue has a pK alpha of approximately 7.0. Purification and sequencing of the labeled peptide identifies the hyperreactive essential cysteine as Cys-288. This cysteine lies between two putative phosphoryl-binding domains and within a hydrophobic sequence.
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PMID:Cysteine 288: an essential hyperreactive thiol of cytosolic phosphoenolpyruvate carboxykinase (GTP). 290 19

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

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