Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:4.1.2.13 (aldolase)
3,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1H-NMR spectroscopy was used to study cleavage and synthesis of N-acetyl- and N-glycoloyl-D-neuraminic acid by Clostridium perfringens aldolase. Whereas the alpha-anomers of Neu5Ac and Neu5Gc serve as substrate in the cleavage reaction, alpha-ManNAc and alpha-ManNGc are its primary products. The same alpha-anomers are needed by the aldolase for the synthesis of Neu5Ac and Neu5Gc. During the enzyme reaction in D2O both H-atoms at C-3 of Neu5Ac are exchanged by deuterium, H-3e reacting faster than H-3a. Rate constants and concentrations at equilibrium of reactants are temperature- and pH-dependent: The amount of Neu5Ac in equilibrium increases with decreasing temperature and increasing pH-value. Based on these results a mechanism of aldolase action is discussed.
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PMID:[Cleavage and synthesis of sialic acids with aldolase. NMR studies of stereochemistry, kinetics, and mechanisms]. 253 41

Methods for the synthesis of carbon-13 enriched substrates, intermediates and products of the pentose-phosphate pathway, viz. ribose, arabinose, xylulose and ribulose 5-phosphates, sedoheptulose mono- and bisphosphates, octulose (both the ido- and altro-epimers) mono- and bisphosphates, are described. The procedure of the classical Kiliani synthesis was adopted for the preparation of the two starting compounds, [1-13C]ribose and [1-13C]arabinose 5-phosphates. Using these initial reactants and enzymic methods involving the group-transferring enzymes, transketolase, aldolase and transaldolase, a variety of specifically 13C-labelled five-, six-, seven- and eight-carbon sugar phosphates were synthesized in high yield and purity. The isolation and authenticity of each of the 13C-labelled sugars were established by column, paper and thin layer chromatographic methods and specific enzymic assays. The purity and positional isotopic analysis of these sugar-P's were confirmed by 13C-NMR spectroscopy. These specifically 13C-enriched compounds are required for enzymatic, mechanistic and quantitative investigations of pentose-pathway reactions in animal, plant and tumour tissues in vitro and in vivo.
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PMID:Rapid methods for the high yield synthesis of carbon-13 enriched intermediates of the pentose-phosphate pathway. 322 86

A new activator of rat liver phosphofructokinase was partially purified from rat hepatocyte extracts by DEAE-Sephadex chromatography. The activator, which eluted in the sugar diphosphate region, was sensitive to acid treatment but resistant to heating in alkali. Mild acid hydrolysis resulted in the appearance of a sugar monophosphate which was identified as fructose 6-phosphate by gas chromatography/mass spectroscopy. These observations suggest that the activator is fructose 2,6-bisphosphate. This compound was synthesized by first reacting fructose 1,6-bisphosphate with dicyclohexylcarbodiimide and then treating the cyclic intermediate with alkali. The structure of the synthetic compound was definitively identified as fructose 2,6-bisphosphate by 13C NMR spectroscopy. Fructose 2,6-bisphosphate had properties identical with those of the activator purified from hepatocyte extracts. It activated both the rat liver and rabbit skeletal muscle enzyme in the 0.1 microM range and was several orders of magnitude more effective than fructose 1,6-bisphosphate. Fructose 2,6-bisphosphate was not a substrate for aldolase or fructose 1,6-bisphosphatase. It is likely that this new activator is an important physiologic factor of phosphofructokinase in vivo.
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PMID:Fructose 2,6-bisphosphate. A new activator of phosphofructokinase. 645 25

For a given biochemical transformation, such as the fermentation reaction, the redistribution coefficients, which relate the natural site-specific isotope contents in end products to those of their precursors, are a source of mechanistic information. These coefficients characterize the traceability of specific hydrogens in the products (ethanol and water) to their parent hydrogens in the starting materials (glucose and water). In conditions of complete transformation, they also enable intermolecular exchanges with the water medium to be estimated. Thus it is directly confirmed that hydrogens 1, 2, 6, and 6' of glucose are strongly connected to the methyl site I of ethanol obtained by fermentation by Saccharomyces cerevisiae. However, whereas hydrogens 6 and 6' are transferred to a great extent, transfer is only partial for hydrogen 2, and it is even less for hydrogen 1. Because the two moieties of glucose corresponding to carbons 1-2-3 and 4-5-6 are scrambled by the aldolase and triosephosphate isomerase reactions, additional exchange of hydrogens at positions 1 and 2 must have occurred before these steps. The value of the coefficient that relates site 2 of glucose to site I of ethanol in particular can be used to quantify the contribution of intermolecular exchange occurring in the course of the transfer from site 2 of glucose 6-phosphate to site 1 of fructose 6-phosphate mediated by phosphoglucoisomerase. The average hydrogen isotope effects associated with the transfer of hydrogen from the water pool to the methyl or methylene site of ethanol are estimated. In contrast to conventional experiments carried out in strongly deuterium-enriched media where metabolic switching may occur, the NMR investigation of site-specific natural isotope fractionation, which operates at tracer isotopic abundance, faithfully describes the unperturbed metabolic pathways.
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PMID:Site-specific isotope fractionation in the characterization of biochemical mechanisms. The glycolytic pathway. 760 63

The generation of C2- and C3-deuterated lactic acid produced by rat parotid cells exposed to [1-13C] glucose, [2-13C]glucose, and [6-13C]glucose in the presence of D2O was assessed by 13C NMR. The results indicated that the escape from deuteration amounted to about 46% at the phosphoglucoisomerase level, 100% at the phosphomannoisomerase level, 65% in the reactions catalyzed by phosphofructoaldolase and triose phosphate isomerase, and 58% at the level of glutamate pyruvate transaminase. Such high values are considered to support a possible enzyme-to-enzyme tunneling of metabolic intermediates at selected sites in the glycolytic pathway.
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PMID:13C NMR study of C2- and C3-deuterated lactic acid production by parotid cells exposed to 13C-labeled glucose in the presence of D2O. 785 83

A class II Zn(2+)-dependent fructose-1,6-bisphosphate (FBP)- aldolase was purified from an overproducer strain of Escherichia coli and characterized by standard biochemical techniques and 13C NMR spectroscopy. The principal finding of these studies was identification, by 13C NMR spectroscopy, of an enzyme-bound reaction intermediate, the enediol(ate) form of dihydroxyacetone phosphate (DHAP). Formation of this intermediate requires the presence of Zn2+ and is pH dependent, with increasing amounts of this tautomer appearing at alkaline pH's. This pH dependence closely parallels the pH activity profile of the enzyme, suggesting an involvement of the enediol-DHAP form in the reaction pathway. In addition to these results the following observations were made on this enzyme: (a) E. coli FBP aldolase binds and utilizes only the carbonyl forms of FBP and DHAP; (b) the function of Zn2+ in this metalloaldolase appears to be polarization of the C = O bond of DHAP; (c) activity of this enzyme is unaffected by glycolytic intermediates or nucleotide phosphates such as ATP. Although these studies provide some information about the catalytic mechanism of E. coli FBP aldolase, they do not provide an explanation for the apparent regulation of this enzyme reported in previous in vivo NMR studies. While the possibility that the enzyme is allosterically regulated cannot be excluded at this time, an interesting possibility suggested by this and other studies is that in E. coli glycolytic substrates may be channeled through a multienzyme complex.
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PMID:Properties of fructose-1,6-bisphosphate aldolase from Escherichia coli: an NMR analysis. 787 90

1. The generation of C2- and C3-deuterated L-lactate was monitored by 13C NMR in human erythrocytes exposed to D-[1-13C]glucose, D-[2-13C]glucose or D-[6-13C]glucose and incubated in a medium prepared in D2O. 2. The results suggested that the deuteration of the C1 of D-fructose 6-phosphate in the phosphoglucoisomerase reaction, the deuteration of the C1 of D-glyceraldehyde-3-phosphate in the sequence of reactions catalyzed by triose phosphate isomerase and aldolase and the deuteration of the C3 of pyruvate in the reaction catalyzed by pyruvate kinase were all lower than expected from equilibration with D2O. 3. Moreover, about 40% of the molecules of pyruvate generated by glycolysis apparently underwent deuteration on their C3 during interconversion of the 2-keto acid and L-alanine in the reaction catalyzed by glutamate-pyruvate transaminase. 4. The occurrence of the latter process was also documented in cells exposed to exogenous [3-13C]pyruvate. 5. This methodological approach is proposed to provide a new tool to assess in intact cells the extent of back-and-forth interconversion of selected metabolic intermediates.
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PMID:Generation of C3- and C2-deuterated L-lactic acid by human erythrocytes exposed to D-[1-13C]glucose, D-[2-13C]glucose and D-[6-13C]glucose in the presence of D2O. 800 54

The main pathway for the fermentation of maltose or cellobiose by the hyperthermophile Pyrococcus furiosus was investigated by in vivo NMR and by enzyme measurements. Addition of [1-13C]glucose to cell suspensions resulted in the formation of C2-labeled acetate and C3-labeled alanine. No label was recovered in CO2 or HCO3-. In the presence of [3-13C]glucose, the label ended up in the C1 atom of alanine and in HCO3- and CO2. These labeling patterns indicate that glucose is converted along an Embden-Meyerhof pathway, and they disagree with the previously proposed nonphosphorylated Entner-Doudoroff pathway (pyroglycolysis). The NMR data were supported by enzyme measurements. Hexokinase (8.7 units/mg), phosphoglucose isomerase (6.8 units/mg), phosphofructokinase (0.81 unit/mg), and aldolase (0.26 unit/mg) were present in cell-free extracts (specific activities at 90 degrees C). Remarkably, the two kinases required ADP as the phosphoryl group donor instead of ATP. No activity was found with pyrophosphate. These are the first descriptions of ADP-dependent (AMP-forming) kinases to date. Since P. furiosus is a phylogenetically ancient organism, these enzymes may represent an ancestral kind of metabolism.
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PMID:Evidence for the operation of a novel Embden-Meyerhof pathway that involves ADP-dependent kinases during sugar fermentation by Pyrococcus furiosus. 802 Dec 61

Tumoral pancreatic islet cells of the RIN5mF line were incubated for 120 min in media prepared in 2H2O and containing D-[1-13C]glucose, D-[2-13C]glucose, and D-[6-13C]glucose. The generation of C2- and C3-deuterated lactic acid was assessed by 13C NMR. The interpretation of experimental results suggests that a) the efficiency of deuteration on the C1 of D-fructose 6-phosphate does not exceed about 47% and 4% in the phosphoglucoisomerase and phosphomannoisomerase reactions, respectively; b) approximately 38% of the molecules of D-glyceraldehyde 3-phosphate generated from D-glucose escape deuteration in the sequence of reactions catalyzed by triose phosphate isomerase and aldolase; and c) about 41% of the molecules of pyruvate generated by glycolysis are immediately converted to lactate, the remaining 59% of pyruvate molecules undergoing first a single or double back-and-forth interconversion with L-alanine. It is proposed that this methodological approach, based on high resolution 13C NMR spectroscopy, may provide novel information on the regulation of back-and-forth interconversion of glycolytic intermediates in intact cells as modulated, for instance, by enzyme-to-enzyme tunneling.
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PMID:13C NMR study of the generation of C2- and C3-deuterated lactic acid by tumoral pancreatic islet cells exposed to D-[1-13C]-, D-[2-13C]- and D-[6-13C]-glucose in 2H2O. 805 96

1. The distributions and rates of transfer of carbon isotopes from a selection of specifically labelled ketosugar-phosphate substrates by exchange reactions catalyzed by the pentose and photosynthetic carbon-reduction-pathway group-transferring enzymes transketolase, transaldolase and aldolase have been measured using 13C-NMR spectroscopy. 2. The rates of these exchange reactions were 5, 4 and 1.5 mumol min-1 mg-1 for transketolase exchange, transaldolase exchange and aldolase exchange, respectively. 3. A comparison of the exchange capacities contributed by the activities of these enzymes in three in vitro liver preparations with the maximum non-oxidative pentose pathway flux rates of the preparations shows that transketolase and aldolase exchanges exceeded flux by 9-19 times in liver cytosol and acetone powder enzyme preparations and by 5 times in hepatocytes. Transaldolase was less effective in the comparison of exchange versus flux rates: transaldolase exchange exceeded flux by 1.6 and 5 in catalysis by liver cytosol and acetone powder preparations, respectively, but was only 0.6 times the flux in hepatocytes. 4. Values of group enzyme exchange and pathway flux rates in the above three preparations are important because of the feature role of liver and of these particular preparations in the establishment, elucidation and measurement of a proposed reaction scheme for the fat-cell-type pentose pathway in biochemistry. 5. It is the claim of this paper that the excess of exchange rate activity (particularly transketolase exchange) over pathway flux will overturn attempts to unravel, using isotopically labelled sugar substrates, the identity, reaction sequence and quantitative contribution of the pentose pathway to glucose metabolism. 6. The transketolase exchange reactions relative to the pentose pathway flux rates in normal, regenerating and foetal liver, Morris hepatomas, mammary carcinoma, melanoma, colonic epithelium, spinach chloroplasts and epididymal fat tissue show that transketolase exchange may exceed flux in these tissues by factors ranging over 5-600 times. 7. The confusion of pentose pathway theory by the effects of transketolase exchange action is illustrated by the 13C-NMR spectrum of the hexose 6-phosphate products of ribose 5-phosphate dissimilation, formed after 30 min of liver enzyme action, and shows 13C-labelling in carbons 1 and 3 of glucose 6-phosphate with ratios which range over 2.1-6.4 rather than the mandatory value of 2 which is imposed by the theoretical mechanism of the pathway.
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PMID:Exchange reactions catalyzed by group-transferring enzymes oppose the quantitation and the unravelling of the identify of the pentose pathway. 847 19


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