EC:4.1.2.13 - FACTA Search

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)

The cytosolic isozymes of fructose-1,6-bisphosphatase (FBPasec) and aldolase (ALDc) from germinating castor oil seed endosperm (COS) (Ricinus communis L.; cv Hale) were purified to homogeneity and final specific activities 49 and 2.8 (mumol product produced/min)/mg protein, respectively. Nondenaturing polyacrylamide gel electrophoresis of the final FBPasec preparation resolved a single protein-staining band which comigrated with FBPase activity. Two protein-staining bands of 41 and 39 kDa that occurred in an approximate 1:1 ratio were observed following sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the final FBPasec preparation. Rabbit anti-(FBPasec) immune serum immunoprecipitated the activities of FBPasec, but not that of the plastidic isozyme of FBPase from germinated COS. Immunoblot analysis utilizing affinity purified anti-(COS FBPasec) immunoglobulin G established that the 39-kDa subunit of FBP-asec did not arise via proteolytic cleavage of the 41-kDa subunit during tissue extraction and enzyme purification. However, FBPasec was susceptible to degradation by endogenous protease(s) during incubation of an acidic (pH 5.9) clarified COS extract at 25 degrees C. This proteolysis caused the production of a 32-kDa antigenic polypeptide and resulted in FBPase inactivation. Gel filtration indicated that purified FBPasec exists in at least 8 different oligomeric forms ranging in size from > 2 million to < 34 kDa. The majority of FBPasec, however, eluted as a 143-kDa heterotetramer. Sodium dodecyl sulfate gel electrophoresis of the final ALDc preparation yielded a single 40-kDa protein-staining polypeptide that cross-reacted with anti-(carrot ALDc) IgG. FBPasec copurified with ALDc through polyethylene glycol fractionation, Q-Sepharose, and phosphocellulose chromatographies, and the intensity of the fluorescence emission spectrum of ALDc was greatly reduced in the presence of COS FBPasec, but not rabbit muscle FBPase. These findings suggest that these two metabolically sequential enzymes might specifically interact in the cytosol of the highly gluconeogenic germinating COS. Our results also demonstrate that endogenous nonspecific acid phosphatase activity can interfere with the spectrophotometric assay for FBPase and can thus result in overestimations of FBPase activity in impure plant extracts.
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PMID:Copurification of cytosolic fructose-1,6-bisphosphatase and cytosolic aldolase from endosperm of germinating castor oil seeds. 803 44

The use of capillary electrophoresis and indirect detection to quantify reaction products of in-capillary enzyme-catalyzed microreactions is described. Migrating in a capillary under conditions of electrophoresis, plugs of enzyme and substrate are injected and allowed to react. Capillary electrophoresis is subsequently used to measure the extent of reaction. This technique is demonstrated using two model systems: the conversion of fructose-1,6-bisphosphate to dihydroxyacetone phosphate and glyceraldehyde-3-phosphate by fructose-biphosphate aldolase (ALD, EC 4.1.2.13), and the conversion of fructose-1,6-bisphosphate to fructose-6-phosphate by fructose-1,6-bisphospatase (FBPase, EC 3.1.3.11). These procedures expand the use of the capillary as a microreactor and offer a new approach to analyzing enzyme-mediated reactions.
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PMID:Use of capillary electrophoresis and indirect detection to quantitate in-capillary enzyme-catalyzed microreactions. 1089 22

Muscle aldolase bound to muscle FBPase (K(d) = 8.7 microM) decreases the latter's sensitivity towards AMP inhibition. I(0.5) of muscle FBPase was increased from 0.06 microM to 0.65 microM when determined in the presence of 10 microM of muscle aldolase. In the presence of 10 microM of liver aldolase I(0.5) of liver FBPase was increased only twofold, from 11.0 microM to 21.7 microM. The effect of muscle aldolase on liver FBPase and liver aldolase on muscle FBPase is rather negligible. Aldolase slightly affected interaction of FBPase with magnesium ions decreasing K(a) and Hill constant (n). No effect of aldolase on FBPase pH optimum was observed.
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PMID:Muscle aldolase decreases muscle FBPase sensitivity toward AMP inhibition. 1096 12

To establish a way to control or to decrease the daily increasing concentration of atmospheric CO(2), metabolically engineering Cyanobacteria was taken for the improvement of its efficiency of photosynthetic CO(2) fixation. As a preliminary stage of this study, three genes coding for three important Calvin cycle enzymes, i.e. triosephosphate isomerase (TPI), fructose-1, 6-bisphosphate aldolase(FBP aldolase),and fructose-1, 6-bisphosphatase(FBPase), respectively, have been cloned into one plasmid, pTrcFAT, which is controlled by promoter trc. Successful co-transcriptional expression of these three genes resulted inhigh yields of these enzymes under the induction of 0.25 mmol/L IPTG. Bioassay showed that the expressed enzymes from one liter of culture could directly catalyze DHAP conversion into 700 &mgr;mol of fructose-6-phosphate (F-6-P) per one minute. Furthermore, in order to introduce the three genes co-expression system into Cyanobacteria, a shuttle plasmid between E.coli and Cyanobacteria was constructed using plasmid pTrcFAT and a shuttle vector pDC-8, forming ashuttle plasmid pDCFAT-2 containing a dimer of the three genes co-expression operator. Successful co-expression in E.coli of pDCFAT-2 with higher full activity has been obtained. This shuttle was used to transform of Cyanobacteria Synechococcus sp. PCC 7942, and a few positive colonies were obtained.
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PMID:Co-expression of Triosephosphate Isomerase, Fructose-1, 6-bisphosphate Aldolase and Fructose-1, 6-bisphosphatase in E.coli. 1205 3

Real-time interaction analysis, using the BIAcore biosensor, of rabbit muscle FBPase-aldolase complex revealed apparent binding constant [K(Aapp)] values of about 4.4x10(8) M(-1). The stability of the complex was down-regulated by the glycolytic intermediates dihydroxyacetone phosphate and fructose 6-phosphate, and by the regulator of glycolysis and glyconeogenesis--fructose 2,6-bisphosphate. FBPase in a complex with aldolase was entirely insensitive to inhibition by physiological concentrations of AMP (I(0.5) was 1.35 mM) and the cooperativity of the inhibition was not observed. The existence of an FBPase-aldolase complex that is insensitive to AMP inhibition explains the possibility of glycogen synthesis from carbohydrate precursors in vertebrates' myocytes.
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PMID:Muscle FBPase in a complex with muscle aldolase is insensitive to AMP inhibition. 1286 Mar 78

Previously we have reported that in vitro muscle aldolase binds to muscle FBPase [Biochem. Biophys. Res. Commun. 275 (2000) 611-616] which results in the changes of regulatory properties of the latter enzyme. In the present paper, the evidence that aldolase binds to FBPase in living cell is presented. The colocalization experiment, in which aldolase was diffused into skinned fibres that had been pre-incubated with FBPase, has shown that aldolase in the presence of FBPase binds predominantly to the Z-line. The existence of a triple aldolase-FBPase-alpha-actinin complex was confirmed through a real-time interaction analysis using the BIAcore biosensor. The colocalization of FBPase and aldolase on alpha-actinin of the Z-line indicates the existence of glyconeogenic metabolon in vertebrates' myocytes.
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PMID:Colocalization of muscle FBPase and muscle aldolase on both sides of the Z-line. 1459 12

Fructose-1,6-bisphosphatase (FBPase; EC 3.1.3.11) is strongly inhibited by AMP in vitro and, therefore, at physiological concentrations of substrate and AMP, FBPase should be completely inhibited. Desensitization of rabbit muscle FBPase against AMP inhibition was previously observed in the presence of rabbit muscle aldolase. In this study, we analysed the kinetics of an FBPase catalyzed reaction and interaction between chicken muscle FBPase and chicken muscle aldolase. The initial rate of FBPase reaction vs. substrate concentration shows a maximum activity at a concentration of 20 microM Fru-1,6P2 and then decreases. Assuming rapid equilibrium kinetics, the enzyme-catalyzed reaction was described by the substrate inhibition model, with Ks approximately 5 microM and Ksi approximately 39 microM and factor beta approximately 0.2, describing change in the rate constant (k) of product formation from the ES and ESSi complexes. Based on ultracentrifugation studies, aldolase and FBPase form a hetero-complex with approximately 1:1 stoichiometry with a dissociation constant (Kd) of 3.8 microM. The FBPase-aldolase interaction was confirmed via fluorescence investigation. The aldolase-FBPase interaction results in aldolase fluorescence quenching and its maximum emission spectrum shifting from 344 to 356 nm. The Kd of the FBPase-aldolase complex, determined on the basis of fluorescence changes, is 0.4 microM at 25 degrees C with almost 1:1 stoichiometry. This interaction increases the I(0.5) for the AMP inhibition of FBPase threefold, and slightly affects FBPase affinity to magnesium ions, increasing the Ka and Hill coefficient (n). No effect of aldolase on the FBPase pH optimum was observed. Thus, the decrease in FBPase sensitivity to AMP inhibition enables FBPase to function in vivo thanks to aldolase.
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PMID:The interaction of FBPase with aldolase: a kinetic and fluorescence investigation on chicken muscle enzymes. 1469 18

In skeletal muscles, FBPase-aldolase complex is located on alpha-actinin of the Z-line. In the present paper, we show evidence that stability of the complex is regulated by calcium ions. Real time interaction analysis, confocal microscopy and the protein exchange method have revealed that elevated calcium concentration decreases association constant of FBPase-aldolase and FBPase-alpha-actinin complex, causes fast dissociation of FBPase from the Z-line and slow accumulation of aldolase within the I-band and M-line. Therefore, the release of Ca2+ during muscle contraction might result, simultaneously, in the inhibition of glyconeogenesis and in the acceleration of glycolysis.
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PMID:The effect of calcium ions on subcellular localization of aldolase-FBPase complex in skeletal muscle. 1575 49

The sequence of reactions in the Calvin cycle, and the biochemical characteristics of the enzymes involved, have been known for some time. However, the extent to which any individual enzyme controls the rate of carbon fixation has been a long standing question. Over the last 10 years, antisense transgenic plants have been used as tools to address this and have revealed some unexpected findings about the Calvin cycle. It was shown that under a range of environmental conditions, the level of Rubisco protein had little impact on the control of carbon fixation. In addition, three of the four thioredoxin regulated enzymes, FBPase, PRKase and GAPDH, had negligible control of the cycle. Unexpectedly, non-regulated enzymes catalysing reversible reactions, aldolase and transketolase, both exerted significant control over carbon flux. Furthermore, under a range of growth conditions SBPase was shown to have a significant level of control over the Calvin cycle. These data led to the hypothesis that increasing the amounts of these enzymes may lead to an increase in photosynthetic carbon assimilation. Remarkably, photosynthetic capacity and growth were increased in tobacco plants expressing a bifunctional SBPase/FBPase enzyme. Future work is discussed which will further our understanding of this complex and important pathway, particularly in relation to the mechanisms that regulate and co-ordinate enzyme activity.
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PMID:The Calvin cycle revisited. 1624 89

Subcellular localization of muscle FBPase-a regulatory enzyme of glyconeogenesis-was investigated in carp using immunohistochemistry and protein exchange method. Results of the experiments revealed that, in striated muscles, FBPase associates with alpha-actinin of the Z-line and co-localizes with aldolase. Additionally, in cardiac and smooth muscle cells FBPase is present inside the nuclei. In the light of findings on mammalian muscle FBPase, the data presented here indicates that interaction of the enzyme with specific cellular partners and nuclear presence of FBPase is a general phenomenon in contemporary vertebrates.
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PMID:Subcellular localization of muscle FBPase in carp (Cyprinus carpio) tissues. 1658 Aug 59

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