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)

Early products of 14CO2 assimilation by a new microorganism Stibiobacter senarmontii are phosphoglyceric acid, phosphorous esters of sugars and aspartic acid, as was shown by chromatography and radioautography. Extracts of the cells displayed the activity of ribulosediphosphate carboxylase and phosphoenolpyruvate carboxylase (1 mU and 0.24 mU per 1 mg of protein in the extract, respectively). Therefore, the microorganism is capable of autotrophic nutrition involving mechanisms of the reductive pentosephosphate cycle. The latter seems to operate even in conditions of deficiency of the energy substrate which is caused by low solubility of antimony trioxide.
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PMID:[Assimilation of carbon dioxide by Stibiobacter senarmontii]. 100 56

Enzymatic synthesis of 11C-(4)-L-aspartic acid was undertaken using commercially available wheat germ phosphoenolpyruvate carboxylase. Whole-body distribution of the radioactive compound in rats showed higher accumulation in the salivary gland, glandular stomach and the pancreas, as well as in the lungs. Within 60 minutes after intravenous injection of 11C-(4)-L-aspartic acid, about 60% is removed as 11CO2 by expiration, indicating that the carbon atom at the fourth position of the radioactive compound is easily subjected to decarboxylation.
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PMID:Whole-body distribution of 11C-(4)-L-aspartic acid in rats. 649 91

Sterile, pyrogen-free L-[4-11C]aspartic acid was prepared from 11CO2 using phosphoenolpyruvate carboxylase and glutamic/oxaloacetic acid transaminase immobilized on Sepharose supports to determine if it is a useful indicator for in vivo, noninvasive determination of myocardial metabolism. An intracoronary bolus injection of L-[4-11C]aspartic acid into dog myocardium showed a triexponential clearance curve with maximal production of 11CO2 100 s after injection. Inactivation of myocardial transaminase activity modified the tracer clearance and inhibited the production of 11CO2. Positron-computed tomography imaging showed that the 11C activities retained in rhesus monkey myocardium are higher than those observed in dog heart after intravenous injection of L-[4-11C]aspartic acid. These findings demonstrated the rapid incorporation of the carbon skeleton of L-aspartic acid into the tricarboxylic acid cycle after enzymatic transamination in myocardium and suggested that L-[4-11C]aspartic acid could be of value for in vivo, noninvasive assessment of local myocardial metabolism.
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PMID:L-[4-11C]aspartic acid: enzymatic synthesis, myocardial uptake, and metabolism. 708 29

In Escherichia coli, aspartate aminotransferase (encoded by aspC) and aromatic amino acid aminotransferase (encoded by tyrB) share overlapping substrate specificity in the syntheses of aromatic amino acids. Through the transamination reactions catalyzed by AspC or TyrB, L-phenylalanine (L-Phe) can be produced from phenylpyruvate with aspartic acid as the amino donor. To modulate and enhance the production levels of proteins, both aspC and tyrB were subcloned into a runaway-replication vector. As a result, the specific activities of AspC and TyrB obtained showed 65-fold and 50-fold increases, respectively, compared with the wild-type level. Employing resting cells of AspC- and TyrB-overproducing E. coli K-12 strains for L-Phe productions resulted in molar conversion yields of 70% and 55%, respectively. With an additional introduction of phosphoenolpyruvate carboxykinase (encoded by pck) into the transamination reactions, the conversion yields were improved to 93% from 70% and to 75% from 55% in a relatively short time. These results account for more than an 8-fold increase in productivity, as compared to the previous report (Calton et al., 1985). In addition, a four-run reuse of the recombinant cells for L-Phe production gave a total yield of 91 g/L with a 93% conversion.
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PMID:Enhanced conversion rate of L-phenylalanine by coupling reactions of aminotransferases and phosphoenolpyruvate carboxykinase in Escherichia coli K-12. 1035 62

Our objective was to understand the influence of dietary gluconeogenic amino acids on hepatic glucose metabolism in rainbow trout (Oncorhynchus mykiss). We analyzed the effects of partial substitution of dietary protein by a single gluconeogenic dispensable amino acid (DAA: alanine, aspartic acid or glutamic acid), on the regulation of hepatic glycolytic and gluconeogenic enzymes. We fed juvenile rainbow trout with isonitrogenous and isoenergetic diets in which part of nitrogen from fishmeal was replaced by nitrogen from one of the three DAA. Fish were fed over 9 weeks and samples withdrawn 6 h after feeding or 5 days after food deprivation. Our data did not show a clear effect of an excess of DAA on activities of glycolytic enzymes (glucokinase and pyruvate kinase) compared to the control diet. In contrast, feeding caused a significant repression of gluconeogenic enzyme activities (glucose-6-phosphatase, fructose-1,6-bisphosphatase and mitochondrial phosphoenolpyruvate carboxykinase) only in fish fed the three DAA substituted diets. However, these differences were insufficient to affect postprandial glycemia significantly. In conclusion, an excess of dietary DAA tested does not seem to modify glycemia or to have a negative impact on dietary carbohydrate utilization in rainbow trout.
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PMID:Effect of partial substitution of dietary protein by a single gluconeogenic dispensable amino acid on hepatic glucose metabolism in rainbow trout (Oncorhynchus mykiss). 1254 63

Transgenic Medicago truncatula plants were produced harboring chimeric gene constructs of the glutamine synthetase (GS) cDNA clones (MtGS1a or MtGS1b) fused in sense or antisense orientation to the nodule-specific leghemoglobin promoter Mtlb1. A series of transgenic plants were obtained showing a 2- to 4-fold alteration in nodule GS activity when compared with control plants. Western and northern analyses revealed that the increased or decreased levels of GS activity correlate with the amount of cytosolic GS polypeptides and transcripts present in the nodule extracts. An analysis of the isoenzyme composition showed that the increased or decreased levels of GS activity were attributable to major changes in the homo-octameric isoenzyme GS1a. Nodules of plants transformed with antisense GS constructs showed an increase in the levels of both asparagine synthetase (AS) polypeptides and transcripts when compared with untransformed control plants, whereas the sense GS transformants showed decreased AS transcript levels but polypeptide levels similar to control plants. The polypeptide abundance of other nitrogen metabolic enzymes NADH-glutamic acid synthase and aspartic acid amino-transferase as well as those of major carbon metabolic enzymes phosphoenolpyruvate carboxylase, carbonic anhydrase, and sucrose synthase were not affected by the GS-gene manipulations. Increased levels of AS polypeptides and transcripts were also transiently observed in nodules by inhibiting GS activity with phosphinothricin. Taken together, the results presented here suggest that GS activity negatively regulates the level of AS in root nodules of M. truncatula. The potential role of AS in assimilating ammonium when GS becomes limiting is discussed.
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PMID:Nodule-specific modulation of glutamine synthetase in transgenic Medicago truncatula leads to inverse alterations in asparagine synthetase expression. 1297 Apr 90

An efficient procedure for the production of l-[4-13C]aspartic acid (4-13C-Asp) was investigated. In this procedure, phosphoenolpyruvate carboxylase originating from the methanol-assimilating microbe, Methylobacterium extorquens JCM 2805, was used for the production of labeled oxaloacetic acid from phosphoenolpyruvate (PEP) and NaH13CO3; the oxaloacetic acid was then converted to 4-13C-Asp with glutamic-oxaloacetic transaminase. In this reaction, with starting concentrations of 10 mM PEP, 10 mM NaH13CO3 and 15 mM L-glutamic acid (Glu), the yield was 70%. 4-13C-Asp and Glu in the final reaction mixture were separated by displacement chromatography. The yield of this process was 84%. The overall yield was 59%. The incorporation of 13C at the C-4 position of 4-13C-Asp was confirmed by NMR spectroscopy.
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PMID:Enzymatic synthesis of L-[4-13C]aspartic acid. 1623 66

The delta (PDB) (13)C values have been determined for the cellular constituents and metabolic intermediates of autotrophically grown Chromatium vinosum. The isotopic composition of the HCO(3) (-) in the medium and the carbon isotopic composition of the bacterial cells change with the growth of the culture. The delta (PDB) (13)C value of the HCO(3) (-) in the media changes from an initial value of -6.6 per thousand to +8.1 per thousand after 10 days of bacterial growth and the delta (PDB) (13)C value of the bacterial cells change from -37.5 per thousand to -29.2 per thousand in the same period. The amount of carbon isotope fractionation during the synthesis of hexoses by the photoassimilation of CO(2) has a range of -15.5 per thousand at time zero to -22.0 per thousand after 10 days. This range of fractionation compares to the range of carbon isotope fractionation for the synthesis of sugars from CO(2) by ribulose 1,5-diphosphate carboxylase and the Calvin cycle.The amount of carbon isotope fractionation during the synthesis of aspartic acid from CO(2) is -24.9 per thousand at time zero and -15.0 per thousand after 10 days of bacterial growth. This amount of fractionation is in the range of carbon isotope fractionation for the synthesis of C(4) amino acids by a double carboxylation through ribulose 1,5-diphosphate and phosphoenolpyruvate carboxylase.
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PMID:Isotope Fractionation in Photosynthetic Bacteria during Carbon Dioxide Assimilation. 1665 5

The delta(13)C value of a tropical marine grass Thalassia testudinum is -9.04 per thousand. This value is similar to the delta(13)C value of terrestrial tropical grasses. The delta(13)C values of the organic acid fraction, the amino acid fraction, the sugar fraction, malic acid, and glucose are: -11.2 per thousand, -13.1 per thousand, -10.1 per thousand, -11.1 per thousand, and -11.5 per thousand, respectively. The delta(13)C values of malic acid and glucose of Thalassia are similar to the delta(13)C values of these intermediates in sorghum leaves and attest to the presence of the photosynthetic C(4)-dicarboxylic acid pathway in this marine grass. The inorganic HCO(3) (-) for the growth of the grass fluctuates between -6.7 to -2.7 per thousand during the day. If CO(2) fixation in Thalassia is catalyzed by phosphoenolpyruvate carboxylase (which would result in a -3 per thousand fractionation between HCO(3) (-) and malic acid), the predicted delta(13)C value for Thalassia would be -9.7 to -5.7 per thousand. This range is close to the observed range of -12.6 to -7.8 per thousand for Thalassia and agree with the operation of the C(4)-dicarboxylic acid pathway in this plant. The early products of the fixation of HCO(3) (-) in the leaf sections are malic acid and aspartic acid which are similar to the early products of CO(2) fixation in C(4) terrestrial plants.Electron microscopy of the leaves of Thalassia reveal thick walled epidermal cells exceedingly rich in mitochondria and C(3)-type chloroplasts. The mesophyll cells have many different shapes and surround air lacunae which contain O(2) and CO(2). The mesophyll cells are highly vacuolated and the parietal cytoplasm contains an occasional chloroplast. This chloroplast contains grana but the lamellar system is not as developed as the system in epidermal chloroplasts. Extensive phloem tissue is present but the xylem elements are reduced in this aquatic grass. The vascular tissue is not surrounded by bundle sheath cells.This work does not establish the exact relation between structure and function in Thalassia, but it does show the C(4)-type photosynthetic carbon metabolism in this grass involves epidermal and mesophyll cells and internally produced O(2) and CO(2) in the air lacunae.
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PMID:Photosynthetic carbon metabolism of a marine grass. 1665 89

Labeling studies using detached lupin (Lupinus angustifolius) nodules showed that over times of less than 3 minutes, label from [3,4-(14)C]glucose was incorporated into amino acids, predominantly aspartic acid, to a much greater extent than into organic acids. Only a slight preferential incorporation was observed with [1-(14)C]- and [6-(14)C]glucose, while with [U-(14)C]-glucose more label was incorporated into organic acids than into amino acids at all labeling times. These results are consistent with a scheme whereby the "carbon skeletons" for amino acid synthesis are provided by the phosphoenolpyruvate carboxylase reaction.A comparison of (14)CO(2) release from nodules supplied with [1-(14)C]- and [6-(14)C]glucose indicated that the oxidative pentose phosphate pathway accounted for less than 6% of glucose metabolism. Several enzymes of the oxidative pentose phosphate and glycolytic pathways were assayed in vitro using the 12,000g supernatant fraction from nodule homogenates. In all cases, the specific activities were adequate to account for the calculated in vivo fluxes.Three out of four diverse treatments that inhibited nodule nitrogen fixation also inhibited nodule CO(2) fixation, and in the case of the fourth treatment, replacement of N(2) with He, it was shown that the normal entry of label from exogenous (14)CO(2) into the nodule amino acid pool was strongly inhibited.
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PMID:Carbon Dioxide Fixation by Lupin Root Nodules: II. Studies with C-labeled Glucose, the Pathway of Glucose Catabolism, and the Effects of Some Treatments That Inhibit Nitrogen Fixation. 1666 Jul 46

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