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)

Four different enzymes, class I fructose-1,6-biphosphate aldolase from rabbit muscle, class II fructose-1,6-bisphosphate aldolase from yeast, transaldolase, and transketolase, are inactivated progressively in the presence of their specific substrates and hexacyanoferrate(III). The inactivation is strictly linked to the oxidation of the carbanionic enzyme-substrate intermediates of these enzymes reported previously [Healy, M. J. and Christen, P. (1973) Biochemistry, 12, 35]. However, the loss of activity is not due to the products of this oxidation, i.e. to hexacyanoferrate(II), or to the oxidation product of the substrate such as hydroxypyruvaldehyde phosphate in the case of aldolase [Healy, M. J. and Christen, P. (1972) J. Am. Chem. Soc. 94, 7911]. The inactivation is not reversed on removal of low-molecular-weight compounds by gel filtration or extensive dialysis indicating a covalent modification of the enzyme. The rate of inactivation obeys saturation kinetics with respect to substrate concentration. Hence, the modifying agent is a transiently reactive intermediate formed during the oxidation of the carbanionic enzyme-substrate intermediate by hexacyanoferrate(III).
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PMID:Specific irreversible inhibition of enzymes concomitant to the oxidation of carbanionic enzyme-substrate intermediates by hexacyanoferrate (III). 77 Jan 67

Activity of aldolase and threosophosphate dehydrogenase, transketolase and phosphogluconate dehydrogenase in Act. noursei, strain 153 and its inactive mutant 149 was studied comparatively. The enzyme activity of the inactive mutant was investigated in the absence of the antibiotic production and under conditions of reduced biosynthesis of nystatin in this strain after addition of the fermentation broth filtrate of the inactive mutant 369 to the medium. The activity of the enzymes of the hexosomonophosphate metabolic pathway in the active strain 153 of Act. noursei was 2-4 times higher than that of the inactive mutant 149. The activity of the enzymes of the hexosomonophosphate metabolic pathways increased and reached the level of the enzyme of the active mutant. The high level of the enzyme activity of the hexosomonophosphate glycolysis pathway is probably one of the necessary conditions for nystatin production.
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PMID:[Study of the carbohydrate metabolic enzyme activity of Act. noursei]. 102 Sep 34

D-glycero-L-galacto-Octulose and L-glycero-L-galacto-octulose accumulated when leaves of Kenland red clover (Trifolium pratense) were allowed to imbibe solution of D-gulose or D-xylose and L-mannose or L-arabinose, respectively. The octuloses were isolated and identified by paper chromatography and by oxidative degradations to the corresponding lower sugars. Assignments of the D and L configuration were made on the basis of optical rotation. It is suggested that formation of the octuloses from the hexoses and pentoses is mediated through transketolase and aldolase or transaldolase catalysis, respectively.
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PMID:Biosynthesis of D- and L-glycero-L-galacto-octulose from pentoses and hexoses. 111 59

Activity of transketolase, an enzyme of the pentose cycle and fructosodiphosphataldolase, an enzyme of glycolisis was studied in the dynamics of development of the nystatin-producing organism and its inactive mutant under various conditions of their cultivation with a purpose of finding relation between the antibiotic production and general metabolism of Act. noursei. The transketolase activity of the organism was 2-4 times higher than that of the inactive mutant. Addition of 8000 Units/ml of nystatin to the medium markedly suppressed (50-100 per cent) the aldolase activity, however it had no effect on the transkelotase activity. Possibly the antibiotic accumulated in the mycelium played the role of a regulator of the activity of the enzymes, directing the metabolites along the hexosomonophosphate pathway of carbohydrate dissimilation.
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PMID:[Study of the fructosediphosphate aldolase and transketolase activity in the nystatin producer, Actinomyces noursei]. 118 May 30

The activity of the glycolysis enzymes, i.e. aldolase and pyruvate decarboxylase and the enzymes of the pentose cycle, i.e. transketolase were investigated in the process of cultivation of an active strain and inactive mutant of Act. rimosus under conditions favourable for oxytetracycline biosynthesis on starch medium and under unfavourable conditions on glucose medium. It was shown that the aldolase and transketolase activity in the inactive mutant was higher on the starch medium as compared to the active strain, while the activity of pyruvate dekarboxylase was lower. The above difference between the both strains was preserved on the glucose medium and the activity of aldolase and transketolase in both strains increased, while the activity of pyruvate dekarboxylase remained at the same level.
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PMID:[Study of certain carbohydrate metabolism enzymes in an active oxytetracycline producer strain and in an inactive mutant in relation to antibiotic biosynthesis]. 127 61

Transketolase (EC 2.2.1.1) is the enzyme that, together with aldolase, forms a reversible link between the glycolytic and pentose phosphate pathways. We have cloned and sequenced the transketolase gene from yeast (Saccharomyces cerevisiae). This is the first transketolase gene of the pentose phosphate shunt to be sequenced from any source. The molecular mass of the proposed translated protein is 73,976 daltons, in good agreement with the observed molecular mass of about 75,000 daltons. The 5'-nontranslated region of the gene is similar to other yeast genes. There is no evidence of 5'-splice junctions or branch points in the sequence. The 3'-nontranslated region contains the polyadenylation signal (AATAAA), 80 base pairs downstream from the termination codon. A high degree of homology is found between yeast transketolase and dihydroxyacetone synthase (formaldehyde transketolase) from the yeast Hansenula polymorpha. The overall sequence identity between these two proteins is 37%, with four regions of much greater similarity. The regions from amino acid residues 98-131, 157-182, 410-433, and 474-489 have sequence identities of 74%, 66%, 83%, and 82%, respectively. One of these regions (157-182) includes a possible thiamin pyrophosphate (TPP) binding domain, and another (410-433) may contain the catalytic domain.
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PMID:DNA sequence of the yeast transketolase gene. 173 42

Previous studies had indicated that the form II or B cluster of CO2 fixation structural genes is part of a large operon in Rhodobacter sphaeroides (Gibson, J. L., Chen, J.-H., Tower, P. A., and Tabita, F. R. (1990) Biochemistry 29, 8085-8093). In this investigation, we have sequenced the DNA between the prkB and rbpL genes and provide evidence for three distinct open reading frames which encode additional structural genes of the Calvin reductive pentose phosphate pathway; these genes encode the enzymes transketolase, glyceraldehyde phosphate dehydrogenase, and aldolase. Noteworthy is transketolase, which may be expressed to high levels in Escherichia coli. This study thus represents the initial description of the primary structure of bacterial transketolase, a key enzyme of the reductive and the oxidative pentose phosphate pathways. Each of the genes are separated by short stretches of intergenic sequence, consistent with earlier evidence which suggested that these genes are cotranscribed and part of a large operon controlled by sequences upstream from fbpB.
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PMID:Identification, expression, and deduced primary structure of transketolase and other enzymes encoded within the form II CO2 fixation operon of Rhodobacter sphaeroides. 193 98

The enzymology of methanol utilization in thermotolerant methylotrophic Bacillus strains was investigated. In all strains an immunologically related NAD-dependent methanol dehydrogenase was involved in the initial oxidation of methanol. In cells of Bacillus sp. C1 grown under methanol-limiting conditions this enzyme constituted a high percentage of total soluble protein. The methanol dehydrogenase from this organism was purified to homogeneity and characterized. In cell-free extracts the enzyme displayed biphasic kinetics towards methanol, with apparent Km values of 3.8 and 166 mM. Carbon assimilation was by way of the fructose-1,6-bisphosphate aldolase cleavage and transketolase/transaldolase rearrangement variant of the RuMP cycle of formaldehyde fixation. The key enzymes of the RuMP cycle, hexulose-6-phosphate synthase (HPS) and hexulose-6-phosphate isomerase (HPI), were present at very high levels of activity. Failure of whole cells to oxidize formate, and the absence of formaldehyde- and formate dehydrogenases indicated the operation of a non-linear oxidation sequence for formaldehyde via HPS. A comparison of the levels of methanol dehydrogenase and HPS in cells of Bacillus sp. C1 grown on methanol and glucose suggested that the synthesis of these enzymes is not under coordinate control.
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PMID:Methanol metabolism in thermotolerant methylotrophic Bacillus strains involving a novel catabolic NAD-dependent methanol dehydrogenase as a key enzyme. 267 21

Intensity of glycolysis and the pentose phosphate cycle in staphylococci sensitive and resistant to novobiocin was studied. The resistant variants did not practically store lactate and the activity of glycolytic enzymes i.e. hexokinase and aldolase was lowered by 15-20 and 53-59 per cent, respectively. Monoiodoacetate, a glycolysis inhibitor suppressed the glucose oxidation rate by 53.3-66.9 per cent in the sensitive variants and by 16-21.8 per cent in the resistant variants. At the same time it was characteristic of the resistant variants to increase the activity of the pentose phosphate cycle enzymes; glucose-6-phosphate dehydrogenase by 25-38.1 per cent transketolase by 21.5-27.3 per cent and transaldolase by 30-57.1 per cent. No differences in the transhydrogenase reaction kinetics of both the novobiocin sensitive and the novobiocin resistant variants were observed.
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PMID:[Features of glycolysis and pentose phosphate pathway in novobiocin sensitive and novobiocin resistant staphylococci]. 273 Feb 11

Methods for the synthesis of carbon-13 enriched substrates, intermediates and products of the pentose-phosphate pathway, viz. ribose, arabinose, xylulose and ribulose 5-phosphates, sedoheptulose mono- and bisphosphates, octulose (both the ido- and altro-epimers) mono- and bisphosphates, are described. The procedure of the classical Kiliani synthesis was adopted for the preparation of the two starting compounds, [1-13C]ribose and [1-13C]arabinose 5-phosphates. Using these initial reactants and enzymic methods involving the group-transferring enzymes, transketolase, aldolase and transaldolase, a variety of specifically 13C-labelled five-, six-, seven- and eight-carbon sugar phosphates were synthesized in high yield and purity. The isolation and authenticity of each of the 13C-labelled sugars were established by column, paper and thin layer chromatographic methods and specific enzymic assays. The purity and positional isotopic analysis of these sugar-P's were confirmed by 13C-NMR spectroscopy. These specifically 13C-enriched compounds are required for enzymatic, mechanistic and quantitative investigations of pentose-pathway reactions in animal, plant and tumour tissues in vitro and in vivo.
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PMID:Rapid methods for the high yield synthesis of carbon-13 enriched intermediates of the pentose-phosphate pathway. 322 86


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