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)

Some physical, catalytic, and regulatory properties of ketopantoate hydroxymethyltransferase (5,10-methylenetetrahydrofolate: alpha-ketoisovalerate hydroxymethyltranferase) from Escherichia coli are described. This enzyme catalyzes the reversible synthesis of ketopantoate (Reaction 1), an essential precursor of pantothenic acid. (1) HC(CH3)2COCOO- + 5,10-methylene tetrahydrofolate f in equilibrium r HOCH2C(CH3)2COCOO- + tetrahydrofolate It has a molecular weight by sedimentation equilibrium of 255,000, a sedimentation coefficient (S20,w) of 11 S, a partial specific volume of 0.74 ml/g, an isoelectric point of 4.4, and an absorbance, (see article), of 0.85. Polyacrylamide gel electrophoresis in sodium dodecyl sulfate and amino acid analyses give a subunit molecular weight of 27,000 and 25,700, respectively; both procedures indicate the presence of 10 identical subunits. The NH2-terminal sequence is Met-Tyr---. The enzyme is stable and active over a broad pH range, with an optimum from 7.0 to 7.6. It requires Mg2+ for activity; Mn2+, Co2+, Zn2+ are progressively less active. The enzyme is not inactivated by borohydride reduction in the presence of excess substrates, i.e. it is a Class II aldolase. Reaction 1f is partially inhibited by concentrations of formaldehyde (0.8 mM) and tetrahydrofolate (0.38 mM) below or near the Km values, apparent Km values are 0.18, 1.1 and 5.9 mM for tetrahydrofolate, alpha-ketoisovalerate, and formaldehyde, respectively. For Reaction 1r, apparent Km values are 0.16 and 0.18 mM, respectively, for ketopantoate and tetrahydrofolate, and the saturation curves for both substrates show positive cooperativity. Forward and reverse reactions occur at similar maximum velocities (Vmax approximately equal to 8 mumol of ketopantoate formed or decomposed per min per mg of enzyme at 37 degrees). Only 1-tetrahydrofolate is active in Reaction 1; d-tetrahydrofolate, folate, and methotrexate were neither active nor inhibitory. However, 1-tetrahydrofolate was effectively replaced with conjugates containing 1 to 6 additional glutamate residues; of these, tetrahydropterolpenta-, tetra-, and triglutamate were effective at lower concentrations than tetrahydrofolate itself; they were also the predominant conjugates of tetrahydrofolate present in E. coli. Alpha-Ketobutyrate, alpha-ketovalerate, and alpha-keto-beta-methylvalerate replaced alpha-ketoisovalerate as substrates; pyruvate was inactive as a substrate, but like isovalerate, 3-methyl-2-butanone and D- or L-valine, inhibited Reaction 1. the transferase has regulatory properties expected of an enzyme catalyzing the first committed step in a biosynthetic pathway. Pantoate (greater than or equal to 500 muM) and coenzyme A (above 1 mM) all inhibit; the Vmax is decreased, Km is increased, and the cooperativity for substrate (ketopantoate) is enhanced. Catalytic activity of the transferase is thus regulated by the products of the reaction path of which it is one component; transferase synthesis is not repressed by growth in the presence of pantothenate.
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PMID:Ketopantoate hydroxymethyltransferase. II. Physical, catalytic, and regulatory properties. 0 63

Pregnant cows in the dry period were given methionine at the rate of 0.5 cent of the dry matter of the ration 20 days before parturition. It was shown that such animals manifest no ketosis and other disturbances in the liver. High-producing, lactating cows that were offered DL-methionine orally at 0.6 per cent in the first 90 day of the lactation period did not likewise develop ketosis and other liver troubles, while animals that were deprived from this amino acid were affected up to 10 per cent. The blood levels of sugar, ketone bodies, total lipids and protein, bilirubin, SGOT, SGPT, LDH, and aldolase were influenced positively by the administration of methionine to high-producing cows. The total amount of amino acids in the blood of lactating cows rose, methionine reaching 80 per cent above the ordinary level when diets containing synthetic methionine were fed to the animals.
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PMID:[Use of peroral DL-methionine in the prevention and treatment of ketosis in highly productive cows]. 74 31

The gene coding for the key glycolytic enzyme fructose-1,6-diphosphate aldolase of the human malaria parasite Plasmodium falciparum lacks a functional AUG initiation codon for translation. Protein sequences of natural or in vitro translated aldolase include the candidate start methionine residue at internal positions. No additional AUG start codon is found in genomic DNA, cDNA or mRNA sequences. Instead, a UAG chain termination codon is recognized as the start signal of protein synthesis in vivo and in vitro.
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PMID:Initiation of translation at a UAG stop codon in the aldolase gene of Plasmodium falciparum. 218 34

A genomic clone was isolated which codes for the fructose bisphosphate aldolase of Plasmodium falciparum. The aldolase gene is interrupted by one intron which divides the coding region into two exons. The first one codes for one amino acid only, the initiation methionine, while the second one encodes the residual 368 amino acids of the protein. The gene, which is represented only once in the genome, is transcribed at high rates as a 2.4-kb mRNA in the P. falciparum blood stage. The aldolase gene encodes a protein of 40,105 Da, which is 61-68% homologous to known eukaryotic aldolases. The protein was expressed in Escherichia coli cells in an unfused and enzymatically active form. Antisera raised against amino acids 9-96 recognize a 41-kDa protein band previously shown to protect monkeys against a P. falciparum infection. These antisera cross-react with aldolases of different species, which confirms the strong conservation of this enzyme during evolution. The aldolase could be localized in the cytoplasm of the parasite as an active and soluble form. An inactive form was found to be associated with the membrane fraction. Digestion data with phospholipase C suggest a membrane association of this polypeptide via a glycosylphosphatidylinositol anchor.
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PMID:Plasmodium falciparum aldolase: gene structure and localization. 219 85

Nucleotide sequence analysis of the Escherichia coli chromosomal DNA inserted in the plasmid pLC33-5 of the Clarke and Carbon library [Clarke & Carbon (1976) Cell 9, 91-99] revealed the existence of the gene, fda, encoding the Class II (metal-dependent) fructose 1,6-bisphosphate aldolase of E. coli. The primary structure of the polypeptide chain inferred from the DNA sequence of the fda gene comprises 359 amino acids, including the initiating methionine residue, from which an Mr of 39,146 could be calculated. This value is in good agreement with that of 40,000 estimated from sodium dodecyl sulphate-polyacrylamide gel electrophoresis of the purified dimeric enzyme. The amino acid sequence of the Class II aldolase from E. coli showed no homology with the known amino acid sequences of Class I (imine-forming) fructose 1,6-bisphosphate aldolases from a wide variety of sources. On the other hand, there was obvious homology with the N-terminal sequence of 40 residues already established for the Class II fructose 1,6-bisphosphate aldolase of Saccharomyces cerevisiae. These Class II aldolases, one from a prokaryote and one from a eukaryote, evidently are structurally and evolutionarily related. A 1029 bp-fragment of DNA incorporating the fda gene was excised from plasmid pLC33-5 by digestion with restriction endonuclease HaeIII and subcloned into the expression plasmid pKK223-3, where the gene came under the control of the tac promoter. When grown in the presence of the inducer isopropyl-beta-D-thiogalactopyranoside, E. coli JM101 cells transformed with this recombinant expression plasmid generated the Class II fructose 1,6-bisphosphate aldolase as approx. 70% of their soluble protein. This unusually high expression of an E. coli gene should greatly facilitate purification of the enzyme for any future structural or mechanistic studies.
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PMID:Cloning, sequence analysis and over-expression of the gene for the class II fructose 1,6-bisphosphate aldolase of Escherichia coli. 264 77

The effects of recombinant human interleukin-1 beta (rhIL-1 beta) on various serum constituents were studied following subcutaneous injection (12.5 or 125 micrograms/kg) in female Wistar rats. Protein electrophoresis and the determination of the serum concentrations of carboxypeptidase N (CPN), aspartate aminotransferase, alanine aminotransferase, alkaline phosphatase, aldolase, total proteins, iron, urea, creatinine, and several amino acids were performed 12, 24, and 72 hr after injection. With both doses of rhIL-1 beta, iron, albumin, CPN, and lysine were significantly decreased whereas alpha 2-globulin, urea, and creatinine were significantly increased 12 hr after administration. Iron and CPN were still low after 24 hr but returned to normal levels after 72 hr. With the higher dose of rhIL-1 beta, only alanine and phenylalanine levels were increased after 12 and 72 hr, taurine after 12 hr, and methionine after 24 hr. There were no biochemical or histological signs of hepatotoxicity. The findings indicate that rhIL-1 beta produces a reversible alteration of various biochemical plasma constituents without any apparent signs of cytotoxicity. Moreover, the decrease in CPN observed may influence the degradation of inflammatory peptides.
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PMID:Recombinant human interleukin-1 beta decreases serum carboxypeptidase N and modifies serum amino acid concentrations in rats. 278 29

The cDNA clones for rat aldolase C mRNA having the nearly complete length were isolated from a rat brain cDNA library and sequenced. The nucleotide sequence of pRAC2-1, a cDNA clone having the largest cDNA insert, indicates that the cDNA is composed of a 105-base-pair 5'-noncoding sequence, a 1089-base-pair coding-sequence and a 382-base-pair 3'-noncoding sequence. The amino acid sequence of aldolase C deduced from a possible open reading frame was composed of 362 residues having a relative molecular mass of 39,164 excluding the initiating methionine, one amino acid shorter than aldolases A and B. The length of aldolase c mRNA was 1750 residues, somewhat longer than that of the aldolase A and B transcripts. The aldolase C mRNA was distributed mainly in the brain, some in ascites hepatoma and fetal liver. Comparison of the amino acid sequences of rat aldolase C with those for rat aldolase A and B [Joh et al. (1985) Gene 39, 17-24; Tsutsumi et al. (1984) J. Biol. Chem. 259, 14572-14575], which have been determined previously, shows the existence of highly conserved stretches of amino acid among the three isozymic forms throughout their sequences. The extent of the homology between aldolases A and C is 81%, while those between aldolases A and B, and B and C are 70%, respectively. The analysis of amino acid substitution among aldolases A, B and C from several species suggests that the isozyme genes diverged much earlier than animal species appeared and that the aldolase C gene has evolved from the aldolase A gene after aldolase A and B genes diverged.
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PMID:The structure of brain-specific rat aldolase C mRNA and the evolution of aldolase isozyme genes. 283 Oct 50

Changes of aldolase A and B protein levels and their mRNA levels due to starvation for 48 h in mucosae of the jejunum, ileum, and colon were determined by Western and Northern blot analyses. In fed rats, B protein and B mRNA were predominant in the jejunum. In the ileum, both A protein and A mRNA, as much as B protein and B mRNA, were present in significant amounts. In the colon, A protein and A mRNA were predominant. The enzyme activity levels in those segments of fed rat intestine were in parallel to total enzyme protein levels (A + B) and also to total mRNA levels (A + B), thus suggesting that aldolase isozyme expression in fed rat intestine is determined mainly at the level of transcription. Starvation for 48 h caused about 30% reduction of both B protein level and B mRNA level in jejunum. In the ileum, both A and B mRNA levels were lowered 30-40% from those of fed rats, while A and B protein levels were reduced slightly (A, 0%; B, 12%). In the colon, starvation caused about 50% increase of A mRNA level and about 10% reduction of A protein level. By measuring the synthetic rate of the enzyme proteins from in vivo [35S]methionine incorporation, the accumulation of A mRNA in this tissue was suggested to be due to the significant fall of the translation rate of A mRNA. The translational and post-translational controls of aldolase isozyme expressions in rat intestines are discussed.
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PMID:Dietary regulation of aldolase isozyme expression in rat intestinal mucosa. 357 91

1. Aldolase was selected as a suitable marker for following the androgenic regulation of mRNA synthesis in the prostate gland. 2. Antibodies raised in rabbits against crystalline prostate aldolase were used to monitor the synthesis of this androgen-induced enzyme after hormonal stimulation of castrated animals, by using procedures in vivo and in vitro for the translation of prostate poly(A)-rich mRNA. 3. After androgenic stimulation in vivo the poly(A)-rich mRNA was isolated from the prostate gland and other tissues of castrated rats, and added to a protein-synthesizing system in vitro derived from Krebs II ascites-tumour cells. By using this approach it was found that androgens regulate the synthesis of aldolase mRNA in a highly tissue-specific manner. Stimulation of aldolase mRNA synthesis reached a maximum after 8h of androgenic treatment and then declined. 4. The androgenic control of aldolase mRNA synthesis was also investigated in vivo. After treatment of castrated animals with various steroids in vivo [(35)S]methionine was injected directly into the prostate gland, and labelled aldolase was selectively precipitated from isolated polyribosomes with anti-aldolase serum. The regulation of aldolase mRNA synthesis in the prostate gland was stringently steroid-specific and could only be evoked by androgens. After a single injection of testosterone, aldolase synthesis reached a maximum after 16h of hormonal stimulation and then declined. 5. Although androgens exert significant control over transcriptional processes in the prostate gland, and appear to regulate the synthesis of aldolase mRNA de novo, the possibility exists for additional means of control at the translational level of aldolase synthesis. The results are discussed in the context of the overall mechanism of action of androgens.
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PMID:Specific changes in the messenger ribonucleic acid content of the rat ventral prostate gland after androgenic stimulation. Evidence from the synthesis of aldolase messenger ribonucleic acid. 446 90

The content of glycogen and glucose, as well as aldolase, phosphofructokinase, phosphoglucomutase, glucose-6-phosphatase and fructose-1,6-diphosphatase activities in liver tissue and the same activities in skeletal muscle of sheep were determined under the influence of prolonged addition of carboxyline separately and in combination with methionine, diammonium phosphate and potassium iodine to their diet. It is established that under the influence of carboxyline the glycogen content as well as aldolase and fructose-1,6-diphosphatase activities rise significantly in the liver of the tested animals. In the skeletal muscle only aldolase activity increases.
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PMID:[Carbohydrate metabolism in sheep when adding carboxyline to their diet]. 624 96

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