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)

Pyridoxal kinase displays high catalytic activity in the presence of metallothionein. The apoprotein of metallothionein as well as the peptide LYS-CYS-THR-CYS-CYS-ALA exert a strong inhibitory effect upon pyridoxal kinase by sequestering free Zn ions. Several steps intervene in the process of pyridoxal kinase activation, i.e. binding of Zn ions by ATP and interaction of Zn-ATP with the enzyme; but direct interaction between metallothionein and pyridoxal kinase (protein association) could not be detected by emission anisotropy measurements. Since the concentration of free Zn++ in mammalian tissues is lower than 10(-9)M, it is postulated that the concentration of metallothionein regulates the catalytic activity of pyridoxal kinase. The mechanism of reconstitution of the metalloenzyme yeast aldolase in the presence of metallothionein was also investigated.
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PMID:Modulation of the catalytic activity of pyridoxal kinase by metallothionein. 284 38

Pure 2-keto-4-hydroxyglutarate aldolase of Escherichia coli, a "lysine-type" trimeric enzyme which has the unique properties of forming an "abortive" Schiff-base intermediate with glyoxylate (the aldehydic product/substrate) and of showing strong beta-decarboxylase activity toward oxalacetate, binds any one of its substrates (2-keto-4-hydroxyglutarate, pyruvate, or glyoxylate) in a competitive manner. To determine whether the substrates bind at the same or different (juxta-positioned) sites and what degree of homology might exist between the active-site lysine peptide of this enzyme and that of other lysine-type (Class I) aldolases or beta-decarboxylases, the azomethine formed separately by this aldolase with either [14C]pyruvate or [14C]glyoxylate was reduced with CNBH3-. After each enzyme adduct was digested with trypsin, the 14C-labeled peptide was isolated, purified, and subjected to amino acid analysis and sequence determination. In each case, the same 14-amino acid lysine-peptide was isolated and found to have the following primary sequence: Glu-Phe-*Lys-Phe-Phe-Pro-Ala-Glu-Ala-Asn-Gly-Gly-Val-Lys (where * = the active-site lysine). Hence, glyoxylate competes for, and inhibits aldolase activity by reacting with, the one active-site lysine residue/subunit. This active-site lysine peptide has a high degree (65%) of homology with that of 2-keto-3-deoxy-6-phosphogluconate aldolase of Pseudomonas putida but is not similar to that of any Class I fructose-1,6-bisphosphate aldolase or of acetoacetate beta-decarboxylase of Clostridium acetobutylicum. Furthermore, it was found that extensive reaction of glyoxylate with the N-terminal amino group of this enzyme may well be general complicating factor in sequence studies with proteins plus glyoxylate.
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PMID:Amino acid sequence of the pyruvate and the glyoxylate active-site lysine peptide of Escherichia coli 2-keto-4-hydroxyglutarate aldolase. 309 43

The complete amino acid sequence of 2-keto-4-hydroxyglutarate aldolase from Escherichia coli has been established in the following manner. After being reduced with dithiothreitol, the purified aldolase was alkylated with iodoacetamide and subsequently digested with trypsin. The resulting 19 peptide peaks observed by high performance liquid chromatography, which compared with 21 expected tryptic cleavage products, were all isolated, purified, and individually sequenced. Overlap peptides were obtained by a combination of sequencing the N-terminal region of the intact aldolase and by cleaving the intact enzyme with cyanogen bromide followed by subdigestion of the three major cyanogen bromide peptides with either Staphylococcus aureus V8 endoproteinase, endoproteinase Lys C, or trypsin after citraconylation of lysine residues. The primary structure of the molecule was determined to be as follows. (formula; see text) 2-Keto-4-hydroxyglutarate aldolase from E. coli consists of 213 amino acids with a subunit and a trimer molecular weight of 22,286 and 66,858, respectively. No microheterogeneity is observed among the three subunits. The peptide containing the active-site arginine residue (Vlahos, C. J., Ghalambor, M. A., and Dekker, E. E. (1985) J. Biol. Chem. 260, 5480-5485) was also isolated and sequenced; this arginine residue occupies position 49. The Schiff base-forming lysine residue (Vlahos, C. J., and Dekker, E. E. (1986) J. Biol. Chem. 261, 11049-11055) is located at position 133. Whereas the active-site lysine peptide of this aldolase shows 65% homology with the same peptide of 2-keto-3-deoxy-6-phosphogluconate aldolase from Pseudomonas putida, these two proteins in toto show 49% homology.
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PMID:The complete amino acid sequence and identification of the active-site arginine peptide of Escherichia coli 2-keto-4-hydroxyglutarate aldolase. 313 64

Spatial relationships between Lys-107, which binds the C-6 phosphate group of the substrate, and fast-reacting Cys-239, located outside the active site of rabbit muscle aldolase, were studied by means of resonance energy transfer. The Lys-107 residue was covalently linked to pyridoxal phosphate (fluorescence donor) and the Cys-239 residue was modified by 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (fluorescence acceptor). The energy transfer between donor and acceptor has been demonstrated. The steady-state and the lifetime measurements indicate that in solution the distance between Lys-107 and Cys-239 in the aldolase molecule is 12.4 A assuming chi 2 = 2/3.
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PMID:Fluorescence resonance energy transfer studies on the proximity between lysine-107 and cysteine-239 in rabbit muscle aldolase. 313 37

Cathepsin H purified from porcine spleens was studied for its specificity against various peptide and denatured protein substrates. The enzyme degraded all peptide substrates exclusively by an aminopeptidase activity. The enzyme preferentially released NH2-terminal amino acid residues with large hydrophobic (Phe, Trp, Leu, and Tyr) or basic (Arg and Lys) side chains. Amino acids containing small or polar side chains were not released. Peptides with a proline in the NH2-terminal or penultimate positions were not hydrolyzed either. Large polypeptides such as reduced and carboxymethylated soybean trypsin inhibitor and aldolase were not degraded. These results indicate that cathepsin H is an exopeptidase but not an endopeptidase. We propose that the biological role of this enzyme is the degradation of tissue proteins in lysosomes by its aminopeptidase activity.
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PMID:Porcine spleen cathepsin H hydrolyzes oligopeptides solely by aminopeptidase activity. 339 49

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

N-Acetylneuraminic acid aldolase from Clostridium perfringens was irreversibly inactivated by 1mm-bromopyruvate with a half-life of 4.2min at pH7.2 and 37 degrees C. The rate of inactivation was diminished in the presence of pyruvate but not with N-acetyl-d-mannosamine, indicating that the inhibitor acted at, or close to, the pyruvate-binding site. The apparent K(i) for bromopyruvate, calculated from the variation of half-life with inhibitor concentration, was 0.46mm, compared with a competitive K(i) 3.0mm for pyruvate. Incubation of the enzyme with radioactive bromopyruvate gave a radioactive, enzymically inactive, protein in which the bromopyruvate had alkylated cysteine residues. Incubation of the enzyme with radioactive pyruvate, followed by reduction with sodium borohydride, led to inactivation of the enzyme and binding of the pyruvate to the protein by reduction of a Schiff's base initially formed with the in-amino group of a lysine residue; only one-twentieth as many pyruvyl residues were bound by this method, showing that bromopyruvate is not specific for the active site. After protection of the enzyme active site with pyruvate, treatment with unlabelled bromopyruvate and dialysis, the enzyme retained 72% activity. When this treated enzyme was separately incubated with radioactive bromopyruvate, or radioactive pyruvate followed by sodium borohydride, the ratio of radioactive pyruvyl residues bound by the two methods was 2.3:1. After reduction and hydrolysis of the bromopyruvate-treated enzyme, the only detectable radioactive amino acid derivative was chromatographically and electrophoretically identical with S-(3-lactic acid)-cysteine. The enzyme was fully active in the presence of EDTA and was not stimulated by bivalent metal ions. It was strongly inhibited by silver and mercuric ions. The apparent molecular weight, determined by Sephadex chromatography, was 250000. A mechanism of action is proposed for the enzyme. Bromopyruvate reacts rapidly at pH6.0 with thiol-containing amino acids. Cysteine appears to react anomalously.
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PMID:Studies on N-acetylneuraminic acid aldolase. 433 37

The enzyme, 2-keto-3-deoxy-6-phosphogluconate (KDPG) aldolase, catalyzes several reactions, the natural ones being (i) the exchange of hydrogen atoms of the methyl groups of pyruvate with protons of the solvent (C-H synthesis) and (ii) the reversible condensation of pyruvate with D-glyceraldehyde-3-phosphate (C-C synthesis). Previous work has provided chemical evidence for the occurrence of a protein-bound carboxylate group adjacent to the Schiff's base-forming lysine in the active site geometry. This carboxylate could provide the basic group postulated to participate in proton activation catalyzed by aldolases. With the use of three-dimensional models, it is shown that simple rotation about a carbon-carbon bond of the side chain will allow the base to assume the two positions necessary for proton activation in either the C-H synthesis or the C-C synthesis catalyzed by KDPG aldolase. This single base hypothesis provides a model wherein all reagents can approach a single face of the active site and is consistent with the stereochemistry thought to occur in the aldolase reaction.
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PMID:Aldolase catalysis: single base-mediated proton activation. 471 7

Elucidation of the amino acid sequence of fructose-1,6-bis-phosphate aldolase from rabbit muscle has made it possible to assign the positions of the functional groups known to play specific roles in the catalytic activity, and also to locate the buried, exposed, and active site cysteine residues. The results indicate that the middle portion of the polypeptide chain, including Cys-134, Cys-149, Cys-177, and Cys-l99, is buried in the native structure, with regions containing Cys-72, Lys-107, Lys-227, Cys-336, His-359, and the COOH-terminal residue (Tyr-361) folded into the active center of the enzyme, at or near the surface of the enzyme molecule.
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PMID:Amino acid sequence of rabbit muscle aldolase and the structure of the active center. 481 52

The method of competitive labelling with [(3)H]acetic anhydride as the labelling reagent was used to determine the properties of the active-centre lysine residue of rabbit muscle aldolase. This residue is much less reactive than a normal exposed lysine residue towards this reagent, and its reactive properties did not parallel the pH-activity profile for aldolase. At higher pH values it became reactive, but this was shown to be due to disruption of the enzyme structure. The binding of the competitive inhibitor phosphate did not alter the reactive properties. It is concluded that the active-centre lysine has an apparent pK(a) greater than 11.5 and probably is made nucleophilic during the catalytic process, perhaps by proton abstraction.
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PMID:Reactivity of the active-centre lysine residue of rabbit muscle aldolase. 485 92


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