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Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fructose-diphosphate aldolase [ED 4.1.2.13] was isolated from horseshoe crab ( living fossil) muscle and some molecular and enzymatic properties were examined. The enzyme was a tetramer with a molecular weight of about 160,000. The enzyme activity was inhibited by reduction with borohydride in the presence of the substrate and was inactivated by carboxypeptidase A [EC 3.4.12.2] digestion. The pH optima for fructose-diphosphate (FDP) and fructose-1-phosphate (F1P) activities were 6.5--8 and 7.5--8.2, respectively. The ratio of FDP/F1P activities was 30 and Km values were 1.7 times 10- minus 5 M and 2.5 times 10- minus 3 M, respectively, for the two substrates. The horseshoe crab aldolase was classified as class 1, type A, based on the results obtained. Extensive homology in various properties of the enzyme was observed when it was compared with enzymes from other sources, though some differences could be found in the amino acid composition and in the kinetic properties.
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PMID:Fructose-diphosphate aldolase of Horseshoe crab (Tachypleus tridentatus). 23 86

Chemical modifications of Class I aldolases from Trypanosoma brucei, rabbit muscle and Staphylococcus aureus with carboxypeptidase A, glyceraldehyde 3-phosphate and cysteine-specific reagents revealed the following differences between the three homologous enzymes. Aldolase from S. aureus was not affected by any of these reagents. Carboxypeptidase-A treatment of rabbit-muscle and T. brucei aldolase inhibited the activity of both enzymes towards fructose-1,6-bisphosphate (Fru(1,6)P2), while the activity towards fructose-1-phosphate (Fru-1-P) was affected only in the case of the trypanosomal enzyme. Moreover carboxypeptidase-A treatment reduced the turnover numbers of these two aldolases for both Fru(1,6)P2 and Fru-1-P to a similar level. Glyceraldehyde 3-phosphate, in the absence of dihydroxyacetone phosphate, also inactivated aldolases from rabbit muscle and T. brucei with second order rate constants of 1054 and 254 min-1 M-1, respectively. Using 5,5'-dithiobis-(2-nitrobenzoic acid) with rabbit-muscle aldolase, a total of 4 thiol groups could be titrated per subunit, resulting in a total inactivation. The presence of substrate completely protected the enzyme from inactivation. Methyl methanethiosulfonate also reacted with four cysteine residues, but this led to very little inactivation. This indicates that the inactivation by modification with DTNB is due to conformational changes in the enzyme. In T. brucei aldolase only one thiol group could be titrated with methyl methanesulfonate and there was no loss of activity. With 5,5'-dithiobis-(2-nitrobenzoic acid) five cysteines were titrated with an immediate and complete loss of activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chemical modification of fructose bisphosphate aldolase from Trypanosoma brucei compared to aldolase from rabbit muscle and Staphylococcus aureus. 185 80

A carboxypeptidase purified from brain catalyzes the release of COOH-terminal tyrosine without further digesting tubulin. It is distinct from previously described carboxypeptidases, and appears to have specificity for tubulin as it is not inhibited by peptides and proteins with COOH-terminal tyrosine, and because, unlike carboxypeptidase A (which by removing tyrosine from aldolase causes its inactivation), this enzyme does not decrease aldolase activity. The enzyme detyrosinolates both self-assembly-competent (cycle-purified) and -incompetent (phosphocellulose-purified) tubulin. However, under assembly conditions the rate was 2-3-fold higher for competent tubulin. Preincubation of assembly-competent tubulin with podophyllotoxin or colchicine resulted in a parallel concentration-dependent inhibition of tubulin polymerization and detyrosinolation. Similarly, when incompetent tubulin was induced to polymerize by preincubation with purified microtubule-associated protein 2 (an assembly-promoting protein) or taxol, the initial rate of its detyrosinolation increased 3-5-fold, and this increase was blocked if podophyllotoxin was also added along with microtubule-associated protein 2 or taxol during the preincubation. Oligomers induced by adding vinblastine to incompetent tubulin were also detyrosinolated more rapidly, and the stimulation was abolished by maytansine, which has been shown to disperse the vinblastine-induced oligomers. When polymerized and subunit fractions were separated after a steady state mixture had been partially digested with the carboxypeptidase, the former was found to have lost 2-3 times more COOH-terminal tyrosine. Although both polymer and monomer can be detyrosinolated by the enzyme, polymeric and oligomeric forms are the preferred substrates. Carboxypeptidase appeared to release tyrosine at the same rate from populations of short and long microtubules.
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PMID:Preferential action of a brain detyrosinolating carboxypeptidase on polymerized tubulin. 611

Two different isoenzymes of fructose-P2 aldolase can be resolved by chromatography of crude spinach leaf extracts on DEAE-cellulose columns. The acidic isoenzyme comprises about 85% of the total leaf aldolase activity. The two forms differ in primary structure as judged by their distinctive amino acid compositions, tryptic peptide patterns, and immunological properties. Only the acidic isoenzyme was detected in extracts of isolated chloroplasts, suggesting that this molecule represents the chloroplast form of spinach leaf aldolase while the basic isoenzyme is of cytosolic origin. The cytosolic (basic) isoenzyme and chicken aldolase A4 are similar in the following respects. 1) They have similar specific catalytic activity (10-15 units/mg); 2) they are both highly sensitive to inactivation by very limited digestion with bovine pancreatic carboxypeptidase A; 3) they both have subunit molecular weights of 40,000; 4) they both have derivatized (blocked) NH2-terminal structures; 5) they are both resistant to thermal denaturation at 50 degrees C; and 6) they both regain catalytic activity following reversible denaturation at pH 2.3 or in 5.8 M urea. Also, the cytosolic aldolase cross-reacted immunologically with the single aldolases present in spinach seeds and in wheat germ. Further, this isoenzyme readily "hybridized" with chicken aldolase A4 in vitro. These observations demonstrate the close homology between the cytosolic aldolases derived from plant and animal origins. The chloroplast aldolase had a specific catalytic activity of about 8 units/mg and, like its cytosolic counterpart, was severely inactivated by limited digestion with carboxypeptidase A. However, this isoenzyme was distinct from the cytosolic aldolase in the following characteristics: 1) its "small" subunit size (Mr congruent to 38,000); 2) its underivatized NH2-terminal structure; 3) its high sensitivity to thermal denaturation at 50 degrees C; and 4) its inability to refold into an enzymatically active conformation following denaturation at pH 2.3 or in 5.8 M urea. The distinctive properties of the chloroplast aldolase may be expected for an enzyme which is synthesized as a higher molecular weight precursor on cytosolic polysomes and is then proteolytically processed to the "mature" form during its migration into the chloroplast organelle.
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PMID:Isolation and characterization of the cytosolic and chloroplast forms of spinach leaf fructose diphosphate aldolase. 642 Mar 97

Tyrosine contributions to the structure-function relationship in the fructose-1, 6-biphospate aldolase from C. capitata have been investigated. There are three well defined groups of tyrosine residues with different roles in the structure of the insect aldolase. C-terminal tyrosine residues are essential for the maintenance of the catalytic conformation. Releasing of these residues by carboxypeptidase A treatment results in complex conformational changes according to CD studies. Another tyrosine residue group is located at the active site, and the substrate, fructose-1, 6-biphosphate, protects it upon nitration. Chemical modification of this residue results in enzyme activity changes similar to those induced by carboxypeptidase digestion. Enzyme-substrate interaction results in a change of the microenvironment of at least three tyrosine residues per subunit with different accessibility for tetranitromethane.
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PMID:Role of tyrosine residues on structure-function of fructose-1,6-biphosphate aldolase from Ceratitis capitata. 711 91

The intralysosomal localization of the enzymes that catalyse inactivation of rat liver fructose-bisphosphate aldolase (D-fructose-1,6-bisphosphate D-glyceraldehyde-3-phosphate-lyase, EC 4.1.2.13) to a form with antigenic activity was demonstrated. The inactivating enzymes like all other lysosomal markers tested except acid phosphatase, were readily solubilized by hypotonic shock. The inactivating enzyme activity was inhibited by PMSF, TPCK, TLCK and leupeptin, but not by pepstatin. On partial purification of the inactivating activity from the lysosomal fraction by DEAE-Sephadex (A-50) and Sephadex G-100 column chromatographies, it was copurified with lysosomal carboxypeptidase A and cathepsin B (EC 3.4.22.1). Studies on its substrate specificity and sensitivity to inhibitors indicated that cathepsin B and carboxypeptidase A are responsible for almost all the aldolase-inactivating activity in the lysosomal fraction.
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PMID:Properties of fructose-1,6-bisphosphate aldolase inactivating enzymes in rat liver lysosomes. 726 Jan

Sequence homology among nonconserved residues 357-362 of the COOH-terminal region in fructose-1,6-bisphosphate aldolases correlates with isozyme classification of aldolases. Recombinant chimers of human liver and maize aldolases were constructed by exchanging residues 357-362 with those from muscle, maize, and liver isozyme and by insertion in the maize sequence at position 349 rabbit muscle and liver residues 346-349. Activity variation among the chimers relative to native controls ranged from less than 10% to greater than 300% of Vm. Exchange of residues 357-362 significantly affected both Vm and Km without modifying catalytic efficiency kcat/Km, whereas insertion of residues 346-349 modified Vm and Km and increased catalytic efficiency. Steady state carbanion oxidation rates varied inversely with activity and were differentially affected with respect to equilibrium oxidation rates. Sequence exchange of residues 357-362 appears to modulate carbanion proton exchange, whereas sequence insertion of residues 346-349 modifies substrate and aldehyde interaction with C6 phosphate binding locus. Low intrinsic susceptibility to carboxypeptidase A degradation of the COOH terminus in liver aldolase is consistent with tight association of this COOH terminus in a conformation unfavorable for promoting high catalytic activity. Efficient carbanion protonation promoted by specific sequences 357-362 represents a mechanistic feature which distinguishes catalytically active maize and muscle isozymes from less active liver isozyme. Conservation of active site residues among aldolases suggests that isozyme diversity among aldolases arose from divergent evolution of the COOH-terminal sequence.
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PMID:Differential usage of the carboxyl-terminal region among aldolase isozymes. 849 48

Fructose-bisphosphate aldolase (EC 4.1.2.13) is a key enzyme in glycolysis. We have characterized full-length coding sequences for aldolase genes from the cyst nematodes Heterodera glycines and Globodera rostochiensis, the first for any plant-parasitic nematode. Nucleotide homology is high (83% identity), and the respective sequences encode 40 kDa proteins with 89% amino acid identity. Genomic sequences contain six introns located at identical positions in both genes. Intron 4 in the H. glycines gene is >500 bp. Partial genomic sequences determined for seven other cyst nematode species reveal that the large fourth intron is characteristic of Heterodera but not Globodera aldolase genes. Total aldolase-like specific activity in homogenates from H. glycines was 2-fold lower than in either Caenorhabditis elegans or Panagrellus redivivus (P = 0.001). Activity in H. glycines samples was higher in juvenile stages than in adults (P = 0.003). Heterodera glycines aldolase has Km = 41 microM and is inhibited by treatment with carboxypeptidase A or sodium borohydride.
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PMID:Molecular Characterization of Aldolase from Heterodera glycines and Globodera rostochiensis. 1926 76