EC:6.4.1.1 - FACTA Search

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Query: EC:6.4.1.1 (pyruvate carboxylase)
1,516 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two children are described who suffered from episodes of metabolic acidosis and progressive mental and motor deterioration. The patients showed periodic elevation of blood lactate, pyruvate and alanine, which was accompanied by vomiting, hypotonia or convulsions. The concentrations of lactate and pyruvate in cerebrospinal fluid were found to be increased. Liver biopsies revealed a decrease in pyruvate carboxylase activity and normal pyruvate decarboxylase activity. No inhibitor of TPP-ATP phosphoryl transferase was detected in urine from the patients. These findings suggest that congenital lactic acidosis due to pyruvate carboxylase deficiency is probably a different disease entity from Leigh's encephalomyelopathy. A possible mechanism of brain damage caused by a defect in pyruvate carboxylase is postulated.
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PMID:Congenital lactic acidosis due to pyruvate carboxylase deficiency: absence of an inhibitor of TPP-ATP phosphoryl transferase. 20 66

The role of pyruvate metabolism in the triggering of aerobic, alcoholic fermentation in Saccharomyces cerevisiae has been studied. Since Candida utilis does not exhibit a Crabtree effect. this yeast was used as a reference organism. The localization, activity and kinetic properties of pyruvate carboxylase (EC 6.4.1.1), the pyruvate dehydrogenase complex and pyruvate decarboxylase (EC 4.1.1.1) in cells of glucose-limited chemostat cultures of the two yeasts were compared. In contrast to the general situation in fungi, plants and animals, pyruvate carboxylase was found to be a cytosolic enzyme in both yeasts. This implies that for anabolic processes, transport of C4-dicarboxylic acids into the mitochondria is required. Isolated mitochondria from both yeasts exhibited the same kinetics with respect to oxidation of malate. Also, the affinity of isolated mitochondria for pyruvate oxidation and the in situ activity of the pyruvate dehydrogenase complex was similar in both types of mitochondria. The activity of the cytosolic enzyme pyruvate decarboxylase in S. cerevisiae from glucose-limited chemostat cultures was 8-fold that in C. utilis. The enzyme was purified from both organisms, and its kinetic properties were determined. Pyruvate decarboxylase of both yeasts was competitively inhibited by inorganic phosphate. The enzyme of S. cerevisiae was more sensitive to this inhibitor than the enzyme of C. utilis. The in vivo role of phosphate inhibition of pyruvate decarboxylase upon transition of cells from glucose limitation to glucose excess and the associated triggering of alcoholic fermentation was investigated with 31P-NMR. In both yeasts this transition resulted in a rapid drop of the cytosolic inorganic phosphate concentration. It is concluded that the relief from phosphate inhibition does stimulate alcoholic fermentation, but it is not a prerequisite for pyruvate decarboxylase to become active in vivo. Rather, a high glycolytic flux and a high level of this enzyme are decisive for the occurrence of alcoholic fermentation after transfer of cells from glucose limitation to glucose excess.
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PMID:Localization and kinetics of pyruvate-metabolizing enzymes in relation to aerobic alcoholic fermentation in Saccharomyces cerevisiae CBS 8066 and Candida utilis CBS 621. 266 20

Congenital childhood lactic acidaemia is a poorly understood group of genetic diseases. The most common underlying inherited defect encountered in this group is deficiency of the pyruvate dehydrogenase complex. Of 23 cases we have diagnosed, 18 have a deficiency in the first component of the complex, the E1 decarboxylase, while the other five have multiple alpha-keto acid dehydrogenase deficiency due to a defect in lipoamide dehydrogenase. In addition to the lactic acidosis associated with pyruvate decarboxylase deficiency, ten of the cases showed evidence of facial dysmorphism consisting of a narrow head, wide nasal bridge and flared nostrils or gross microcephaly. Two further patients had agenesis of the corpus callosum. Isolated pyruvate carboxylase deficiency was found to present in two different forms, one with lactic acidaemia and mental retardation, the other with lactic acidaemia, hyperammonaemia citrullinaemia and hyperlysinaemia. The former presentation we have shown to be associated with the presence of a biotinylated pyruvate carboxylase protein of the correct subunit molecular weight (125 kd) which has no catalytic activity (CRM + ve). The latter we have shown to be associated with the absence of any recognizable pyruvate carboxylase protein (CRM - ve).
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PMID:Lactic acidaemia. 643 48

In a patient with the clinical symptoms of Leigh's disease a partial deficiency of hepatic pyruvate carboxylase and pyruvate decarboxylase was found at necropsy. Cerebral pyruvate decarboxylase activity was also diminished. All enzyme activities were measured in total homogenates. The finding of typical necrotic lesions in the brain stem was consistent with the clinical diagnosis. During life moderate lactic acidaemia and no hypoglycaemia were observed, but an abnormal organic acid excretion pattern was present. The contribution of the enzyme defects to the aetiology of the disease is discussed.
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PMID:Leigh's disease with decreased activities of pyruvate carboxylase and pyruvate decarboxylase. 679 55

In two autopsy-proven cases of subacute necrotizing encephalomyelopathy (SNE, Leigh's Disease) the activities of pyruvate carboxylase, pyruvate decarboxylase and lipoamide dehydrogenase were investigated in cultured fibroblasts. Normal activities of pyruvate carboxylase and lipoamide dehydrogenase were found in both cases. The activity of pyruvate decarboxylase was low in one of the cases (p less than 0.05), while the activity in the other was within normal limits. The concentrations of alanine, lactate and pyruvate were normal or only slightly increased. The relationship between SNE and a defect in pyruvate metabolism is under discussion, and it is concluded that the general assumption that pyruvate carboxylase deficiency is the cause of SNE is not in agreement with our results or the present literature. However, pyruvate decarboxylase deficiency may in some cases contribute to the development of SNE.
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PMID:Studies on pyruvate carboxylase, pyruvate decarboxylase and lipoamide dehydrogenase in subacute necrotizing encephalomyelopathy. 689 46

An 11-month-old boy with muscle hypotonia and neurologic deteriorations had lactic acidosis, pyruvic acidemia and alaninemia due to deficiency of the pyruvate dehydrogenase complex in his platelets and of pyruvate decarboxylase in his muscle. When placed on a low carbohydrate-high fat diet for 6 months, his blood levels of lactate and pyruvate became nearly normal, but his cerebrospinal fluid levels of lactate and pyruvate remained high. Despite this dietary therapy, neurologic deterioration progressed slowly. He died of pneumonia after artificial respiration for 3 wk. At autopsy, extensive symmetric lesions were found in the brain including proliferation of capillaries and gliosis in the brain stem and diffuse demyelination in the white matter. These lesions were consistent with those observed in Leigh's disease. The activities of the pyruvate dehydrogenase complex and pyruvate decarboxylase in various tissues obtained at autopsy were less than 10% of control values; however, the activities of pyruvate carboxylase and alpha-ketoglutarate decarboxylase were within the normal limits. This patient with Leigh's disease had an isolated deficiency of pyruvate decarboxylase in various tissues.
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PMID:Enzymologic studies and therapy of Leigh's disease associated with pyruvate decarboxylase deficiency. 709 58

In yeasts, pyruvate is located at a major junction of assimilatory and dissimilatory reactions as well as at the branch-point between respiratory dissimilation of sugars and alcoholic fermentation. This review deals with the enzymology, physiological function and regulation of three key reactions occurring at the pyruvate branch-point in the yeast Saccharomyces cerevisiae: (i) the direct oxidative decarboxylation of pyruvate to acetyl-CoA, catalysed by the pyruvate dehydrogenase complex, (ii) decarboxylation of pyruvate to acetaldehyde, catalysed by pyruvate decarboxylase, and (iii) the anaplerotic carboxylation of pyruvate to oxaloacetate, catalysed by pyruvate carboxylase. Special attention is devoted to physiological studies on S. cerevisiae strains in which structural genes encoding these key enzymes have been inactivated by gene disruption.
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PMID:Pyruvate metabolism in Saccharomyces cerevisiae. 912 65

The effects of iron deficiency and iron resupply on the metabolism of leaf organic acids have been investigated in hydroponically grown sugar beet. Organic acid concentrations and activities in leaf extracts of several enzymes related to organic acid metabolism were measured. Enzymes assayed included phosphoenol pyruvate carboxylase (PEPC; EC 4.1.1.31), different Krebs cycle enzymes: malate dehydrogenase (MDH; EC 1.1.1.37), aconitase (EC 4.2.1.3), fumarase (EC 4.2.1.2), citrate synthase (CS; EC 4.1.3.7) and isocitrate dehydrogenase (ICDH; EC 1.1.1.42), glucose-6-phosphate dehydrogenase (G6PDH; EC 1.1.1.49) and two enzymes related to anaerobic metabolism (lactate dehydrogenase [LDH]; EC 1.1.1.27, and pyruvate decarboxylase [PDC]; EC 4.1.1.1). Iron concentration in leaves was severely decreased by iron deficiency. Iron resupply caused an increase in iron concentrations, reaching levels similar to the controls in 96 h. Iron deficiency induced a 2.3-fold (from 16 to 37 mmol m-2) increase in leaf total organic acid concentration. Organic anion concentrations were still 4-fold higher than the controls 24 h after resupply and decreased to values similar to those found in the controls after 96 h. All measured enzymes had increased activities in extracts of iron-deficient leaves when compared to the controls and generally decreased to control values 24 h after iron addition. These data provide evidence that organic acid accumulation in iron-deficient leaves is likely not due to an enhancement in leaf carbon fixation. Instead, this accumulation could be associated with organic acid export from the roots to the leaves via xylem.
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PMID:Changes induced by Fe deficiency and Fe resupply in the organic acid metabolism of sugar beet (Beta vulgaris) leaves. 1131 12

The technique of metabolic flux analysis was implemented to elucidate the flux balancing of Saccharomyces cerevisiae cultivated in a multistage continuous stirred tank reactor fermentation environment. The results showed that the majority of the substrate (97.70 +/- 0.49%) was funneled into the glycolytic pathway, while the remainder was subdivided between the pentose phosphate pathway and pathways for polysaccharide synthesis. At the pyruvate node, 87.30 +/- 1.38% of the flux was channeled through the reaction governed by pyruvate decarboxylase. Fluxes through the pyruvate dehydrogenase bypass were maintained at a constant level (82.65 +/- 1.47%) irrespective of the configuration of the fermentation setup. Activity through the TCA "cycle" was replenished by the reaction catalyzed by pyruvate carboxylase and by the transport of cytosolic oxaloacetate across the mitochondrial membrane. The CO(2) evolution rate varied as fermentation progressed; however, the yield coefficient of CO(2) remained at a constant value. Although a constant yield of ethanol (0.42 g of ethanol/g of glucose) was obtained, operations of the TCA cycle were gradually switched from partially reductive to partially oxidative pathways from the first fermenter to the fourth fermenter.
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PMID:Metabolic flux variation of Saccharomyces cerevisiae cultivated in a multistage continuous stirred tank reactor fermentation environment. 1173 40

Malic acid is a potential biomass-derivable "building block" for chemical synthesis. Since wild-type Saccharomyces cerevisiae strains produce only low levels of malate, metabolic engineering is required to achieve efficient malate production with this yeast. A promising pathway for malate production from glucose proceeds via carboxylation of pyruvate, followed by reduction of oxaloacetate to malate. This redox- and ATP-neutral, CO(2)-fixing pathway has a theoretical maximum yield of 2 mol malate (mol glucose)(-1). A previously engineered glucose-tolerant, C(2)-independent pyruvate decarboxylase-negative S. cerevisiae strain was used as the platform to evaluate the impact of individual and combined introduction of three genetic modifications: (i) overexpression of the native pyruvate carboxylase encoded by PYC2, (ii) high-level expression of an allele of the MDH3 gene, of which the encoded malate dehydrogenase was retargeted to the cytosol by deletion of the C-terminal peroxisomal targeting sequence, and (iii) functional expression of the Schizosaccharomyces pombe malate transporter gene SpMAE1. While single or double modifications improved malate production, the highest malate yields and titers were obtained with the simultaneous introduction of all three modifications. In glucose-grown batch cultures, the resulting engineered strain produced malate at titers of up to 59 g liter(-1) at a malate yield of 0.42 mol (mol glucose)(-1). Metabolic flux analysis showed that metabolite labeling patterns observed upon nuclear magnetic resonance analyses of cultures grown on (13)C-labeled glucose were consistent with the envisaged nonoxidative, fermentative pathway for malate production. The engineered strains still produced substantial amounts of pyruvate, indicating that the pathway efficiency can be further improved.
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PMID:Malic acid production by Saccharomyces cerevisiae: engineering of pyruvate carboxylation, oxaloacetate reduction, and malate export. 1834 40

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