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)

A crude preparation of PEP carboxylase (EC 4.1.1.31) from the yellow lupin roots exhibits the pH optimum of activity within the range of 7.4-8.6 and the temperature optimum at 32 - 40 degrees C. Its Km for PEP is 0.1 mM, and Km for HCO3- is 0.7 mM. The affinity of the enzyme towards Mg2+ diminishes with the metal ion concentration. At the concentration of Mg2+ below 0.5 mM Km for Mg2+ is 0.07 mM and at the Mg2+ concentration over 1.5 mM it rises to 0.47 mM. The Hill coefficients are 0.37 and 0.88, respectively. Among several compounds affecting the PEP carboxylase activity, such as organic acids, amino acids, and sugar phosphates, at physiological pH (7.0 and 7.8), malate shows the strongest inhibition of a competitive character, its Ki being 2 mM. Also acidic amino acids strongly inhibit the enzyme activity, aspartate being more effective than glutamate. Glucose 6-phosphate and fructose 1,6-diphosphate markedly activate the enzyme. Both the inhibition by malate, aspartate and glutamate, and the activation by sugar phosphates rises considerably when pH is decreased from 7.8 to 7.0. Malonate scarcely affects the enzyme.
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PMID:Phosphoenolpyruvate carboxylase from the roots of yellow lupin (Lupinus luteus). 667 22

The biological role of exogenous carbon dioxide during substrate assimilation with a various degree of reductivity is evaluated. The investigation of metabolic pathways of carbon dioxide incorporation into the metabolic processes of methaneoxidizing bacteria shows that the HCO3- ion assimilation is catalyzed by phosphoenolpyruvate carboxylase and in certain strains also by the key enzyme of autotrophic pathway of the carbon dioxide assimilation, ribulose-1,5-diphosphate carboxylase. The theoretical calculations and experimental studies indicate that exogenous carbon dioxide is a necessary participant of the metabolic processes of methane or methanol assimilation. It is also an acceptor of the excess electrons of these compounds. It is the degree of reductivity of the substrate metabolized that determines the activity of the exogenous carbon dioxide fixation by microorganisms. The carbon dioxide fixation by heterotrophic microorganisms must be considered, therefore, as a process which is mostly due to the elementary composition of the source of carbon under conversion.
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PMID:[Theoretical evaluation of necessity of carbon dioxide assimilation by microorganisms during growth on various substrates]. 677 May 14

A rat liver protein with both phosphoenolpyruvate carboxykinase ferroactivator activity and catalase activity has been purified to near-homogeneity. The protein has a native molecular weight of 240,000 and is composed of four identical subunits containing ferriprotoporphyrin IX prosthetic groups. The visible spectrum has absorbance maxima at 403, 500, 530, and 620 nm; it is not reduced by dithionite. The spectrum, physical properties, and specific activity are almost identical with those of catalases from other sources, and the protein has been tentatively identified as rat liver catalase. The protein exhibited partial reactivity in double immunodiffusion plates to antiserum prepared against rat liver ferroactivator isolated by a previous method (Bentle, L. A., and Lardy, H. A. (1977) J. Biol. Chem. 252, 1431-1440) raising the possibility that the original ferroactivator and rat liver catalase are structurally related. Inactivation of catalase by 3-amino-1,2,4-triazole was accompanied by loss of ferroactivator activity as well. The apparent specific activity of ferroactivator, as well. The apparent specific activity of ferroactivator, whether heme-containing or not, can be increased between 2- and 100-fold by the inclusion of bovine serum albumin, HCO3-, or a combination of the two in the incubation.
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PMID:Purification and characterization of a rat liver ferroactivator with catalase activity. 680 38

Phosphoenol-3-bromopyruvate is an excellent competitive inhibitor (versus phosphoenolpyruvate) of maize phosphoenolpyruvate carboxylase (Ki = 30 microM), provided that preincubation of enzyme with inhibitor is avoided. If the enzyme is preincubated with inhibitor in the presence of Mn2+ and HCO3(-), complete inactivation occurs over the course of about 1 h. The inactivation is first order in enzyme and is saturable with respect to inhibitor, with an apparent Michaelis constant of 67.5 microM and a half-life at high inhibitor concentration of 13.4 min. The inactivation is inhibited by phospholactate and is much slower at low HCO3(-) concentration. Incubation of the enzyme with phosphoenol-3-bromopyruvate in the presence of H14CO3(-) and Mn2+ followed by treatment with NaBH4 leads to incorporation of 14C into the inactive enzyme. If treatment with NaBH4 is omitted, the enzyme is inactivated, but no 14C is incorporated into the inactive product. It appears that phosphoenol-3-bromopyruvate is a mechanism-based inactivator of phosphoenolpyruvate carboxylase, probably because of enzyme-catalyzed conversion to 3-bromooxalacetate, which alkylates the enzyme.
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PMID:Phosphoenol-3-bromopyruvate. A mechanism-based inhibitor of phosphoenolpyruvate carboxylase from maize. 717 54

Carbon isotope effects for the carbon atom arising from bicarbonate have been measured for the phosphoenolpyruvate carboxylase from maize. At pH 7.5, 25 degrees C, the isotope effect is K12/k13 = 1.0029 +/- 0.0005 in the presence of Mg2+. The isotope effect decreases with increasing pH, reaching a value of 0.9973 at pH 10.0. All these isotope effects are relative to HCO3(-) taken as the starting state. If CO2 is considered the starting state, the isotope effects are all inverse. These values suggest that the carboxylation of phosphoenolpyruvate occurs by way of a stepwise mechanism involving an enzyme-bound carboxyphosphate intermediate, with formation of the intermediate being the primary rate-determining step. Steady-state kinetics reveal that Vmax is independent of pH over the range pH 7.5-10.0 Vmax/Km (phosphoenolpyruvate) is bell shaped in the same interval. Two pKa values near 7 are observed; the first is attributed to ionization of the phosphate group of phosphoenolpyruvate and the second to an unidentified group on the enzyme. Activity of the enzyme also depends on protonation of a group on the enzyme with a pKa near 10. Several metal ions were tested as activators of phosphoenolpyruvate carboxylase. Under saturating conditions, Mg2+ and Mn2+ show equal activity but different carbon isotope effects. Co2+ has about half the activity of Mg2+ and shows an inverse carbon isotope effect.
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PMID:Kinetic and isotope effect studies of maize phosphoenolpyruvate carboxylase. 731 83

Rat kidney expresses two forms of glutaminase (GA) mRNA which probably result from the use of alternative polyadenylation signals. The two mRNAs are increased coordinately in response to metabolic acidosis via a mechanism that apparently does not involve transcriptional or translational regulation. A 956-bp fragment that contains the 3'-nontranslated sequence of the smaller GA cDNA was cloned into an expression vector (p beta G) that encodes a chimeric beta-globin growth hormone mRNA. Both the parent and the derived construct (p beta G-GA) were transfected into LLC-PK1-F+ cells. Stable transfectants express sixfold lower levels of beta G-GA mRNA than that of the parent beta G mRNA. However, only the beta G-GA mRNA is increased 2.5-fold by growth in acidic medium (pH 6.9, 10 mM HCO3-). The apparent half-life of the beta G mRNA (> 24 h) is unaffected by the pH of the growth media. In contrast, the apparent half-life of the beta G-GA mRNA is increased from 4.5 h to approximately 24 h when cells are transferred to acidic medium for 8 h. The observed pH response is not reproduced when the beta G-GA construct is stably transfected into COS-7 cells or when a beta-globin-phosphoenolpyruvate carboxykinase chimeric gene is expressed in LLC-PK1-F+ cells. Thus the 3'-nontranslated region of the GA mRNA contains a pH-responsive stability element.
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PMID:The 3'-nontranslated region of rat renal glutaminase mRNA contains a pH-responsive stability element. 876 Feb 53

The onset of metabolic acidosis causes an increased transcription of the renal phosphoenolpyruvate carboxykinase (PCK) gene. When transgenic mice carrying a bovine growth hormone (bGH) gene driven by the -460 to +73 segment of the PCK promoter were made chronically acidotic, the bGH mRNA was increased twofold after 4 days. Confluent and well-differentiated cultures of LLC-PK1-F+ cells exhibit a 2.5-fold increase in PCK mRNA when transferred to acidic media (pH 6.9, 10 mM HCO3-) for 16 h. Confluent cultures transfected with PCK-490 CAT exhibit an increase (3.5-fold) in chloramphenicol acetyltransferase (CAT) activity when shifted to acidic medium for 48 h. Mutation or deletion of the P2 element causes a four- to fivefold decrease in basal CAT activity but does not affect the pH response. In contrast, mutations of the P3(II) element or the CRE-1 cAMP-response element have little effect on basal activity but cause a 50% decrease in the pH response. Other deletions or mutations have little effect on either activity. Thus changes in the activity or levels of the protein(s) in the renal proximal tubule that binds to the P3(II) and CRE-1 elements may mediate increased transcription of the PCK gene during metabolic acidosis.
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PMID:Promoter elements that mediate the pH response of PCK mRNA in LLC-PK1-F+ cells. 877 Jan 65

Rabbit, pigeon and rat liver mitochondria convert exogenous phosphoenolpyruvate and acetylcarnitine to citrate at rates of 14, 74 and 8 nmol/15 min/mg protein. Citrate formation is dependent on exogenous HCO3-, is increased consistently by exogenous nucleotides (GDP, IDP, GTP, ADP, ATP) and inhibited strongly by 3-mercaptopicolinate and 1,2,3-benzenetricarboxylate. Citrate is not made from pyruvate alone or combined with acetylcarnitine. Pigeon and rat liver mitochondria make large amounts of citrate from exogenous succinate, suggesting the presence of an endogenous source of acetyl units or means of converting oxalacetate to acetyl units. Citrate synthesis from succinate by pigeon and rabbit mitochondria is increased significantly by exogenous acetylcarnitine. Pigeon and rat liver contain 80 and 15 times, respectively, more ATP:citrate lyase activity than does rabbit liver. Data suggest that mitochondrial phosphoenolpyruvate carboxykinase in vivo could convert glycolysis-derived phosphoenolpyruvate to oxalacetate that, with acetyl CoA, could form citrate for export to support cytosolic lipogenesis as an activator of acetyl CoA carboxylase, a carbon source via ATP:citrate lyase and NADPH via NADP:malate dehydrogenase or NADP:isocitrate dehydrogenase.
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PMID:Synthesis of citrate from phosphoenolpyruvate and acetylcarnitine by mitochondria from rabbit, pigeon and rat liver: implications for lipogenesis. 884 May 17

Enterocytes from fasted rabbits make glucose from exogenous fructose and dihydroxyacetone at rates of 180 and 91 nmol/min/10(8) cells but do not make glucose from glycerol, aspartate, malate, lactate, alpha-ketoglutarate, glutamate or glutamine. Total activities of phosphoenolpyruvate carboxykinase, fructose 1,6-bisphosphatase and glucose 6-phosphatase in isolated enterocytes are 0.44, 0.60 and 1.90 mumol/min/10(8) cells, and > or = 95% of carboxykinase activity is intramitochondrial. Enterocytes contain marginal glycerol kinase (0.05 mumol/ min/10(8) cells) and essentially no pyruvate carboxylase activities. Enterocyte mitochondria synthesize citrate from exogenous phosphoenolpyruvate and acetylcarnitine at a rate of 2.40 nmol/min/mg protein. Citrate formation is highly dependent on exogenous HCO3 and inhibited strongly by 3-mercaptopicolinate and 1,2,3-benzenetricarboxylate. Citrate synthesis is stimulated consistently by GDP and significantly so by GTP. Citrate production is unaffected by ADP or ATP. Enterocytes from fasted-refed rabbits contain activities of 0.05, 0.12, 0.39 and 0.56 mumol/min/mg cytosolic protein of ATP:citrate lyase, NADP:malate dehydrogenase, glucose 6-phosphate dehydrogenase and NADP:isocitrate dehydrogenase. Activities of NADP:malate dehydrogenase, glucose 6-phosphate dehydrogenase and NADP:isocitrate dehydrogenase are significantly higher in enterocytes from fasted-refed rabbits than those from fasted rabbits. Mitochondrial phosphoenolpyruvate carboxykinase in enterocytes in vivo could convert glycolysis-derived phosphoenolpyruvate to oxaloacetate that, with acetyl CoA, could form citrate for export to support cytosolic lipogenesis as an activator of acetyl CoA carboxylase, a source of carbon via ATP:citrate lyase and of NADPH via NADP:malate dehydrogenase or NADP:isocitrate dehydrogenase.
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PMID:Synthesis of citrate from phosphoenolpyruvate and acetylcarnitine by mitochondria from rabbit enterocytes: implications for lipogenesis. 946 72

Lys606, one of the two highly conserved lysine residues in maize C4-form phosphoenolpyruvate carboxylase (PEPC), was converted to Asn, Glu or Arg by site-directed mutagenesis. Resulted mutant enzymes expressed using pET system [Dong, L.-Y. et al. (1997) Biosci. Biotech, Biochem. 61:545] were purified by one step procedure through nickel-chelate affinity chromatography to a purity of about 95%. The replacement of Lys606 by Arg had little effect on the kinetic and allosteric properties of the resulting mutant enzyme. In contrast, the maximum velocities (Vmax) were decreased to 22% and 2% of that of wild-type PEPC upon the substitution of Lys606 by Asn and Glu, respectively. The value of S0.5(HCO3-) was increased 21-25 fold by the replacements, whereas the S0.5(Mg2+) and S0.5(PEP) values were increased only 5-8 fold. The extents of activation of mutant enzymes by glucose 6-phosphate and glycine were 2 to 3-fold higher than those of wild-type enzyme. The mutant enzymes showed less sensitivity to malate inhibition, compared with the wild-type enzyme. The results suggested that the Lys606 is not obligatory for the enzyme activity, but may be involved in the bicarbonate-binding and contribute somehow to the allosteric regulatory properties.
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PMID:Effects of site-directed mutagenesis of conserved Lys606 residue on catalytic and regulatory functions of maize C4-form phosphoenolpyruvate carboxylase. 952 66

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