EC:4.1.2.13 - FACTA Search

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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)

Aldolase contains one tight binding site and one weak binding site per subunit for ATP [Kasprzak, A. and Kochman, M. (1980) Eur. J. Biochem. 104, 443-450]. The reaction of the ATP analog 5'-[p-(fluorosulfonyl)benzoyl]-1,N6-ethenoadenosine with rabbit aldolase A results in linear inactivation of enzyme with respect to covalent linkage of fluorescent label. The enzyme is completely protected against modification in the presence of saturating covalent binding (k2 = 0.033 min-1) is preceded by a fast reversible binding step (Ki = 6.8 mM). Chemical modification of aldolase leads to formation of stable N epsilon (4-carboxybenzenesulfonyl-lysine (Cbs-Lys) and O-(4-carboxybenzenesulfonyl-tyrosine (Cbs-Tyr) derivatives. Almost all Cbs-Lys was found in the N-terminal CNBr peptide (CN-1), whereas Cbs-Tyr was present both in the N-terminal (CN-1) and C-terminal (CN-2) peptide. From carboxypeptidase digestion and tryptic peptide analysis, Cbs-Lys was localized in position 107, a small part of Cbs-Tyr was detected in position 84, and the majority of Cbs-Tyr was found in the C-terminal position Tyr-363. We conclude that the covalent binding of the ATP analog occurs at the mononucleotide tight-binding site of aldolase and is associated with modification of Lys-107 and Tyr-363. This conclusion is based on the measurements of enzymatic activity loss as a function of ATP analog incorporation as well as on previous data. It is postulated that Lys-107, which is the C-6 phosphate binding site for fructose-1,6-P2, is in close proximity to the functionally important Tyr-363. The rather small extent of modification of Tyr-84 (0.15 mol/subunit), is due either to nonspecific protein modification or labeling of the weak mononucleotide binding site.
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PMID:Affinity labeling of rabbit muscle fructose-1,6-bisphosphate aldolase with 5'-[p-(fluorosulfonyl)benzoyl]-1,N6-ethenoadenosine. 396 60

Analogues of dihydroxyacetone phosphate and of 3-phosphoglycerate were made in which the phosphate group, -O-PO(3)H(2), is replaced by the phosphonomethyl group, -CH(2)-PO(3)H(2). The analogue of dihydroxyacetone phosphate is a substrate for aldolase and glycerol 1-phosphate dehydrogenase (Stribling, 1974), but not for triose phosphate isomerase. The analogue of 3-phosphoglycerate oxidizes NADH under the combined action of 3-phosphoglycerate kinase and glyceraldehyde 3-phosphate dehydrogenase if ATP is added. Thus four out of the five glycolytic enzymes tested handle the phosphonomethyl compounds like the natural phosphates.
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PMID:Phosphonomethyl analogues of phosphate ester glycolytic intermediates. 437 3

1. The activities of six enzymes (hexokinase, phosphoglucose isomerase, phosphofructokinase, aldolase, glucose 6-phosphate dehydrogenase and amylase) in extracts of pea cotyledons were determined. The activities during the first 10 days after germination showed individual and characteristic changes that indicate a specific control of both synthesis and destruction of enzymes. 2. Tissue contents of glucose, inorganic phosphate, glucose 6-phosphate, fructose 6-phosphate, ATP, ADP, AMP, NAD and NADP were also determined, and a correlation is reported between the substrate concentrations at day 1 and the subsequent enzymic activity. 3. The initial NAD(+)/NADH ratio value of 1 changed to about 3 by day 4; the NADP content was lower and changes in the oxidation state were less striking. The ratio of ATP to ADP and AMP remained virtually constant.
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PMID:Correlated changes of some enzyme activities and cofactor and substrate contents of pea cotyledon tissue during germination. 438 39

1. The changes in the metabolite content in freeze-clamped livers of fed rats occurring on perfusion with 10mm-d-fructose have been examined. 2. The most striking effects of fructose were an accumulation of fructose 1-phosphate, as already known, up to 8.7mumol/g of liver within 10min, a loss of total adenine nucleotides (up to 35% after 40min) with a decrease in the ATP content to 23% within 10min, a sevenfold rise in the concentration of IMP to 1.1mumol/g and an eightfold rise of alpha-glycerophosphate to 1.1mumol/g. 3. There was a transient decrease in P(i) from 4.2 to 1.7mumol/g. Within 40min the P(i) content recovered to the normal value, probably because of an uptake of P(i) from the perfusion medium. 4. The degradation of the adenine nucleotides beyond the stage of AMP can be accounted for by the decrease of ATP and P(i). As ATP inhibits 5-nucleotidase, and as P(i) inhibits AMP deaminase any AMP arising in the tissue is liable to undergo dephosphorylation or deamination under the conditions occurring after fructose loading. 5. The content of lactate increased to 4.3mumol/g at 80min; pyruvate also increased and the [lactate]/[pyruvate] ratio remained within physiological limits. 6. The concentration of free fructose within the liver remained much below that in the perfusion medium, indicating that the rate of penetration of fructose into the tissue was lower than the rate of utilization. 7. The fission of fructose 1-phosphate by liver aldolase is inhibited by several phosphorylated intermediates, especially by IMP. This inhibition is competitive with a K(i) of 0.1mm. 8. The maximal rates of the enzymes synthesizing and splitting fructose 1-phosphate are about equal. The accumulation of fructose 1-phosphate on fructose loading is due to the inhibition of the fission of fructose 1-phosphate by the IMP arising from the degradation of the adenine nucleotides.
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PMID:The cause of hepatic accumulation of fructose 1-phosphate on fructose loading. 550 Mar 10

The effect of phosphorylation of bovine erythrocyte membrane on association of Fructose 1,6-diphosphate (FDP) aldolase has been investigated. The phosphorylation of the membrane seemed to favour the increased association of the enzyme. With the native and NaCl-depleted membrane, it was observed that the extent of phosphorylation could be correlated with the enzyme association. The experiments with the intact erythrocytes isolated from bovine and rabbit blood employing similar conditions, confirmed these findings. The observations with the membrane and whole cells have been substantiated using [gamma-32P]ATP and [32P] inorganic phosphate. The treatment of the enzyme favouring phosphorylation, did not show association of the enzyme with the membrane. The chemical modification of the membrane, influencing the association of the enzyme could be a possible mechanism for fine regulatory control of the activity.
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PMID:Mechanism of aldolase binding to erythrocyte membrane: Part I. Effect of membrane phosphorylation on aldolase association. 608 3

The activities of phosphofructokinase, aldolase and pyruvate kinase were diminished in extracts from skeletal muscle of streptozotocin diabetic rats, whereas the activities of glucose phosphate isomerase and phosphoglucomutase were not changed. Treatment of diabetic rats with insulin restored the activity of phosphofructokinase to normal. A kinetic study of the partially purified enzyme from normal and diabetic rats showed identical Michaelis constants for ATP and equal sensitivity to inhibition by excess of this substrate. Extracts of quick frozen muscle from diabetic rats had higher levels of citrate (an inhibitor of phosphofructokinase) and lower levels of D-fructose-1,6-bisphosphate and D-glucose-1,6-bisphosphate (activators of this enzyme). The levels of D-fructose-6-phosphate, D-glucose-6-phosphate, ATP, ADP and AMP were the same for the two groups. Our data suggest that the in vivo decrease of phosphofructokinase activity in skeletal muscle of diabetic rats is due to a decrease in the level of the enzymatically active protein as well as to an unfavorable change in the level of several of its allosteric modulators.
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PMID:Decreased phosphofructokinase activity in skeletal muscle of diabetic rats. 623 37

In investigating the influence of vibrational energy on the metabolism of the erythrocyte, it was hypothesized that under conditions of normal PaO2 and SaO2 in arterial blood, vibration induced vasoconstriction would decrease local blood flow and induce hypokinetic hypoxia. This decreased blood flow and therefore decreased delivery of oxygen to the tissue would markedly lower tissue PO2 (hypokinetic hypoxia), which would influence the energetics and metabolism of the erythrocyte. The metabolism of the red blood cell (RBC) was evaluated by measuring the enzymatic activities of PFK (2.7.1.11), PGI (5.3.1.9), PK (2.7.1.40), and aldolase (4.1.3.13) from the anaerobic glycolytic cycle and D-G-6-P (1.1.1.49) from the pentose cycle. Also measured were the levels of ATP and 2,3 DPG and the in-vitro production of lactic acid. In the group of workers showing early changes (vibration angioneurosis) associated with the vibration syndrome, changes in RBC metabolism were demonstrated. Statistically significant were increases of PFK, PK and the production of lactic acid, indicating the activation of anaerobic glycolysis. Furthermore statistically significant were the increased 2,3 DPG and decreased ATP levels.
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PMID:Effect of vibration on red cell metabolism. 623 27

The present work describes procedures in which seven major muscle enzymes and serum albumin can be simultaneously isolated from chicken skeletal muscles. The seven enzymes isolated were: phosphorylase, enolase, creatine-P kinase, aldolase, glyceraldehyde-3-P dehydrogenase, phosphoglycerate mutase, and triose-P isomerase. The proteins isolated by these methods were judged to be greater than 97% pure on the basis of electrophoretic analysis in sodium dodecyl sulfate polyacrylamide gels. The procedure is applicable for isolation of the enzymes from large (greater than 100 g) or small (less than 0.5 g) amounts of muscle tissue and the entire procedure can be completed within two days. Particularly useful features of the procedures are: (1) preferential solubilization of the enzymes from myofibrils by extraction of muscle specimens in solutions of different ionic strength; (2) specific precipitation of phosphorylase, creatine-P kinase, and glyceraldehyde 3-Phosphate dehydrogenase from solutions of specified pH and degrees of ammonium sulfate saturation; and (3) an alternate method for isolation of glyceraldehyde-3-P dehydrogenase by specific elution of the enzyme from phosphocellulose columns with ATP. Because of the ease, rapidity, and reproducibility of the procedures, these methods may be useful for the routine isolation of the muscle enzymes in studies on biochemical regulation, as well as for obtaining large quantitites of the enzymes for structural analysis.
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PMID:A simple procedure for the isolation of seven abundant muscle enzymes. 626 Dec 32

By introducing fructose into the glycolysis, it is possible to stimulate ATP formation. As is the case in animal experiments, in human lenses, too, the first step in the phosphorylation to fructose-1-phosphate via the enzyme ketohexokinase. The present investigation deals with the question whether enzymes present in the lens are responsible for the further steps in fructose degradation. Particularly the aldolase isoenzyme C splits fructose-1-phosphate into glyceraldehyde and dihydroxyacetone phosphate in the same way as in glucose catabolism. Dihydroxyacetone phosphate can further be directly degraded and thus utilized to ATP formation. From glyceraldehyde, glycerol (aldose reductase) or glycerate (aldehyde dehydrogenase) can be formed. The presence of triosekinase, which phosphorylates glyceraldehyde directly to glyceraldehyde-3-phosphate, could only be determined in the lens tissue of young animals. The presence of glycerokinase (glycerol leads to glycerophosphate) could not be verified. Thus, in the lens tissue 1 ATP molecule net per fructose molecule can be formed. In older age, the glucose breakdown is limited by hexokinase and phosphofructokinase, so that the glucose, after transformation via the sorbitol pathway to fructose, can also be utilized for the energy metabolism.
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PMID:Investigations of the enzymes involved in the fructose breakdown in the cattle lens. 628 47

Using a newly developed isotopic tracer technique for the measurement of 32P-labelled intermediates in glycolysis and nucleotide metabolism in platelets, we studied the variations in 32P-labelled intermediates during activation of the glycolytic flux by cyanide and platelet-activating agents. The major variations occurred in [32P]Fru-1,6-P2, dihydroxy acetone phosphate, ATP and Pi. There was a quantitative covariance between the increase in lactate production and the rise in [32P]Fru-1,6-P2 induced by different platelet-activating agents. In contrast, cyanide induced weaker activation of the flux and greater accumulation of [32P]Fru-1,6-P2. Variations in 32P-labelled intermediates were apparent 5 s after flux activation, but the major changes in [32P]Fru-1,6-P2 occurred much later and fell in periods in which a constant lactate formation was maintained. The cyanide-induced changes in 32P-labelled intermediates depended on the extracellular level of glucose, showing a predominant ATP----Pi conversion in glucose-depleted medium that shifted to an ATP----Fru-1,6-P2 conversion at excess glucose. At about 50 microM glucose, flux activation occurred without major changes in [32P]Fru-1,6-P2, dihydroxy acetone phosphate and Pi, with only a small fall in [32P]ATP. The data provide evidence for a role of the aldolase reaction in flux control and demonstrate rapid changes in Fru-1,6-P2 and ATP during flux activation with an additional role for Fru-1,6-P2 as an energy buffer during post-activation periods.
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PMID:Alterations in 32P-labelled intermediates during flux activation of human platelet glycolysis. 643 51

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