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 biochemical parameters of liver and liver microsomes were studied in albino rats following administration of cobra and viper venoms at dose of 2 mg/kg body weight. The total protein content in cobra venom treated (CVT) animals and DNA and RNA contents of liver and liver microsomes were almost unaltered in both the venom treated animals while total protein content was significantly reduced in viper venom treated (VVT) animals. Alkaline and acid phosphatases activities of whole liver showed significant increase in both the venom treated animals whereas the rise in cholinesterase activity in CVT animals was not significant. Lactic acid content was significantly higher in CVT animals compared to either VVT animals or controls. The glycolytic enzymes viz., aldolase, phosphohexose isomerase and lactate dehydrogenase measured in hepatic microsomal fraction were significantly reduced while alanine and aspartate aminotransferases and gamma-glutamyl transpeptidase activities of liver microsomes were significantly elevated in both the venom treated animals compared to controls.
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PMID:Biochemical studies of liver & liver microsomes in envenomated rats. 227 76

Emery-Dreifuss muscular dystrophy (EDMD) is a rare X-linked muscular dystrophy. Creatine kinase (CK) activity usually is increased in serum of affected males, but results for aldolase and lactate dehydrogenase (LD) in serum have been inconsistent, as have those for CK in carrier females. There have been few studies of CK-MB or LD isoenzyme-1 (LD-1) in EDMD. We measured CK, CK-MB, LD, LD-1, and aldolase activity in sera of 84 members of two large families with EDMD. DNA analysis had been carried out on all subjects. Although CK, LD, and aldolase activities were significantly increased in affected males, CK activity was the most consistently increased and was the least subject to artifactual increases. Mean CK-MB in serum was mildly increased, but LD-1 was within the normal reference interval, suggesting that CK-MB is increased in skeletal muscle in EDMD, as has been found in other forms of dystrophy. CK decreased with age in affected males. We saw no significant increases of muscle enzymes or isoenzymes in 33 EDMD carriers studied, of whom 19 were obligate carriers and 14 had been identified by DNA analysis.
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PMID:Muscle enzymes and isoenzymes in Emery-Dreifuss muscular dystrophy. 231 Dec 8

Hereditary fructose intolerance (HFI) is an inborn error of metabolism, inherited as an autosomal recessive disorder and caused by a decrease in the activity of fructose-1-phosphate aldolase (aldolase B) in affected individuals. Investigation of the molecular basis of HFI is reported here by the identification of two molecular lesions in the aldolase B gene of the HFI individual. Using polymerase chain reaction to specifically amplify exons at this locus and T7 polymerase for the sequence determination of these double-stranded fragments, we show the mutational heterogeneity of the proband. One allele, previously indicated by restriction analysis, was confirmed as A149P (Ala 149 to Pro in exon 5). The other allele was identified as a 4-bp deletion found in exon 4, a deletion which causes a frameshift at codon 118, resulting in a truncated protein of 132 amino acids. Segregation of these mutant alleles in the proband's family was shown by using allele-specific oligodeoxynucleotides to probe blots of amplified DNA. The techniques employed here represent a rapid and efficient method for detection of other mutations in families with this disease. In addition, the ability to detect mutant alleles by allele-specific hybridization offers a new method for definitive diagnosis, a method which avoids a fructose loading or liver-biopsy examination.
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PMID:Molecular evidence for compound heterozygosity in hereditary fructose intolerance. 233 10

The effect of Datura alba (seed) extract on the brain and urinary metabolites of rats was studied. Treatment with Datura brought about a decrease in the activity of brain lipid peroxidase and catalase while an increase in the activity of fructose diphosphate aldolase and glucose 6-phosphate dehydrogenase was observed. An increase in the DNA and RNA contents of brain was noted after the treatment with Datura. The study also showed a marked decrease in the excretion of 5-hydroxyindole acetic acid and vanillyl mandelic acid in the urine of rats given Datura extract.
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PMID:Effect of Datura (seed) on rat brain and urinary metabolites. 243 Feb 65

The effect of chronic treatment with datura (seed) extract was studied to investigate its effect on the energy metabolism and peroxidative activities in the brain of rats. Datura treatment was found to cause an increase in the activity of brain lipid peroxidase and catalase, while it caused a decrease in the activity of fructose diphosphate aldolase and glucose 6-phosphate dehydrogenase enzyme. A marked reduction was noted in the protein, DNA and RNA contents of datura administered rats.
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PMID:Chronic effect of datura (seed) extract on the brain of albino rats. 244 42

To investigate a possible chromosomal clustering of glycolytic enzyme genes, the complete nucleotide sequence of the 8029 bp insert of Escherichia coli DNA in the ColE1 plasmid pLC33-5 of the Clarke and Carbon collection (Clark and Carbon, 1976) was determined. Genes (pgk, fda) encoding the phosphoglycerate kinase and Class II fructose 1,6-bisphosphate aldolase, respectively, of E. coli were identified. The phosphoglycerate kinase was found to be highly homologous in primary structure to the same enzyme from eukaryotic organisms. A further large open reading frame, designated gapB, was also identified, which on the basis of sequence homology, appears to encode another glycolytic enzyme, glyceraldehyde 3-phosphate dehydrogenase. This putative gene differs significantly from that (designated gapA) already identified as coding for this enzyme in E. coli and which maps elsewhere on the chromosome. The products, if any, of several other open reading frames remain to be identified.
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PMID:Identification, molecular cloning and sequence analysis of a gene cluster encoding the class II fructose 1,6-bisphosphate aldolase, 3-phosphoglycerate kinase and a putative second glyceraldehyde 3-phosphate dehydrogenase of Escherichia coli. 254 7

L-1,2-Propanediol is an irretrievable end product of L-fucose fermentation by Escherichia coli. Selection for increased aerobic growth rate on propanediol results in the escalation of basal synthesis of the NAD+-linked oxidoreductase encoded by fucO, a member of the fuc regulon for the utilization of L-fucose. In general, when fucO becomes constitutively expressed, two other simultaneous changes occur: the fucA gene encoding fuculose-1-phosphate aldolase becomes constitutively expressed and the fucPIK operon encoding fucose permease, fucose isomerase, and fuculose kinase becomes noninducible. In the present study, we show that fucO and fucA form an operon which is divergently transcribed from the adjacent fucPIK operon. In propanediol-positive and fucose-negative mutants the cis-controlling region shared by the operons fucAO and fucPIK is lengthened by 1.2 kilobases. DNA hybridization identified the insertion element to be IS5. This element, always oriented in the same direction with the left end (the BglII end) proximal to fucA, apparently causes constitutive expression of fucAO and noninducibility of fucPIK. The DNA of the fucAO operon and a part of the adjacent fucP was sequenced.
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PMID:Constitutive activation of the fucAO operon and silencing of the divergently transcribed fucPIK operon by an IS5 element in Escherichia coli mutants selected for growth on L-1,2-propanediol. 255 71

The structure of the chromosomal gene encoding rat aldolase isozyme B has been elucidated by sequence analysis of cloned genomic DNA. This gene comprises about 14 X 10(3) base-pairs of DNA, and is separated into nine exons by eight intervening sequences. A presumed transcription-initiation site was assigned by S1 nuclease protection mapping, and T-A-T-A and C-C-A-A-T boxes were found to be 25 and 126 base-pairs, respectively, upstream from this initiation site. There are three characteristic sequences of 100 to 200 base-pairs within the region of 870 base-pairs flanking the 5' side of the gene. These sequences are flanked on either side by direct repeats and terminate with an A-rich stretch of nucleotides. One of them has block homology with a region in an "ID sequence", which is reported to be an element for tissue-specific gene regulation and differentiation. The other two are analogous at the sequence organizational level with a sort of dispersed repeat, the "Alu family". These features suggest that these regions are involved in gene regulation and, also, imply evolutionary events such as duplication or insertion. Comparison of this gene sequence with the rabbit aldolase A complementary DNA sequence revealed some bias in the frequency of nucleotide replacement among the exons, suggesting selective evolutionary conservation of particular exons encoding functional domains. Comparison with the human aldolase B complementary DNA sequence revealed no such tendency; the homology between the two sequences was very high (about 89%), and nucleotide replacements were randomly distributed throughout the protein-coding region.
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PMID:Structure and genomic organization of the rat aldolase B gene. 258 98

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

Since the discovery of glucose-6-phosphate dehydrogenase (G6PD) deficiency and pyruvate kinase deficiency, erythroenzymopathies associated with hereditary hemolytic anemia have been extensively investigated. Kinetic and electrophoretic studies have shown that most erythroenzymopathies are caused by the production of a mutant enzyme. Single amino acid substitutions have been determined in G6PD and phosphoglycerate kinase variants by studies of the enzyme. Except for these two enzymes, it has been difficult to purify and to characterize the patient's enzyme because of the low protein contents in red blood cells. Recent advance in recombinant DNA technology has made possible the isolation of normal genomic DNA or cDNA for several enzymes. These results permit us to study the molecular basis of erythroenzymopathies at the nucleotide level. Single base substitutions have been identified in aldolase, triosephosphate isomerase, G6PD and adenylate kinase variants by the cloning and nucleotide sequence of the patients' genes. To date, all of the enzyme-deficient variants which have been investigated are caused by point mutations. An exception is a hemolytic anemia secondary to increased adenosine deaminase (ADA) activity. Red cell ADA activity increases on the order of a hundred-fold in affected individuals. The basic abnormality appears to result from overproduction of structurally normal enzyme due to abnormal translational efficiency.
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PMID:[Pathophysiology and laboratory tests of hemolytic anemia: with special reference to erythroenzymopathies]. 269 73

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