UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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Michaelis-Menten kinetics are observed in studies of highly purified bovine adrenal glucose-6-phosphate dehydrogenase at pH8.0 in 0.1 M bicine. The Km for NADP+ is 3.8 muM and for glucose-6-phosphate, 61 muM. At pH 6.9 Km for NADP+ increases to 6.5 muM. The enzyme is inhibited by NADPH both at pH 6.8 and at 8.0 with a Kip of 2.36 muM at pH 8.0. Inhibition is competitive with respect to both substrates implying that addition of substrates is random ordered. The data are also interpreted in terms of "reducing charge", the mole fraction of coenzyme in the reduced form. This appears to be the major mechanism for regulation of the pentose shunt. D-glucose, oxidized by the enzyme at a very slow rate, is also a competitive inhibitor for the natural substrate with a Ki of 0.29 M. Phosphate is a competitive inhibitor for glucose-6-phosphate oxidation but both phosphate and sulfate accelerate glucose oxidation suggesting a common binding site for the two anions and the phosphate of the natural substrate. While binding of ACTH to our enzyme preparations has been observed, we have not been able, in spite of repeated attempts, to demonstrate augmentation of the activity of the enzyme by the addition of ACTH.
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PMID:Kinetics and control of bovine adrenal glucose-6-phosphate dehydrogenase. 0 67

The glucose transport system in Leishmania tropica promastigotes was characterized by the use of labeled 2-deoxy-D-glucose (2-DOG), a nonmetabolizable glucose analog. The uptake system has a Q10 of 2 and a heat of activation of 10.2 kcal/mole. The glucose transport system is subject to competitive inhibition by 2-DOG, glucosamine, N-acetyl glucosamine, mannose, galactose, and fructose which suggests that substitutions in the hexose chain at carbons 2 and 4 do not affect carrier specificity. In contrast, changes at carbon 1 (alpha-methyl-D-glucoside, 1,5-anhydroglucitol) and carbon 3 (3-0-methyl glucose) lead to loss of carrier affinity since these sugars do not compete for the glucose carrier. Sugars that compete with the glucose carrier have one common feature--they all exist in the pyranose form in solution. The carrier for D-glucose does not interact with L-glucose or any of the pentose sugars tested. Uptake of 2-DOG is inhibited by glycerol. This inhibition, however, is noncompetitive; it is evident; therefore, that glucose and glycerol do not compete for the same carrier. Glycerol does not repress the glucose carrier since cells grown in presence of glycerol transport the sugar normally.
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PMID:Specificity of the glucose transport system in Leishmania tropica promastigotes. 97 53

Rat liver transketolase (TK) has been purified, in a single step, by immunoaffinity chromatography on specific TK antibodies covalently linked to Sepharose 4B. The procedure described also involves the raising and isolation of rabbit TK antibodies to the conventionally purified enzyme [F. Paoletti (1983) Arch. Biochem. Biophys. 222, 489-496]. Affinity chromatography allows a 100-fold purification of TK from the cell cytosol and a recovery of about 70% of the original activity. The TK isolated has a specific activity of 2.7-3.2 at 25 degrees C and migrates as a single band on polyacrylamide gel electrophoresis at pH 9.1. Multiple forms of the enzyme, with distinct pI values in the range 7-8, have been detected in purified preparations by means of analytical isoelectric focusing and staining for TK. No addition of either Mg2+ or thiamine pyrophosphate is required for the activity of the enzyme which, in the native form, exhibits a molecular weight of about 139,000. Two moles of thiamine pyrophosphate can be resolved for each mole of enzyme. Affinity TK preparations are virtually free of glyceraldehyde-3-phosphate dehydrogenase, pentose-phosphate epimerase, and isomerase, although slight contamination by phosphohexose isomerase may occur.
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PMID:Immunoaffinity purification of rat liver transketolase: evidence for multiple forms of the enzyme. 394 99

1. The cyst wall of Colpoda steinii has been isolated and its chemical nature examined. It had a nitrogen content 13.9+/-0.2% (s.d.) and an ash 8.6+/-1.6% (s.d.). After lipid and hot-acid extraction there was a variable residual phosphorus of 0.19-0.64%. The protein nature, indicated by infrared and ultraviolet absorption, was confirmed when 100mug. of hydrolysed wall gave a ninhydrin colour equivalent to that given by 0.88-1.01mumoles of glycine. Hexosamine, hexose, pentose, lipid and dipicolinic acid were absent. 2. Paper chromatography of hydrolysates, besides showing the presence of the usual protein amino acids and three unidentified ninhydrin-reacting spots, indicated the presence of large amounts of glutamic acid. Estimated by chromatography, the amount present was 52.9+/-0.6 (s.d.) g./100g. of ash-free wall; manometric estimation of l-glutamic acid with l-glutamate 1-carboxy-lyase gave 46.5+/-0.9 (s.d.) g./100g. 3. Free carboxyl groups were estimated by titration as 0.159+/-0.011 (s.d.) mole/100g. and those present as amide as 0.154+/-0.004 (s.d.) mole/100g., and the total was compared with the dicarboxylic acid content 0.360+/-0.010 (s.d.) mole/100g. 4. After treatment with 98% formic acid 25-30% of the wall material could be extracted by 0.05m-sodium carbonate solution (extract 1); after treatment of the residue with performic acid a further 62-63% based on the original weight could be extracted by 0.05m-sodium carbonate (extract 2). 5. The average values found for the glutamic acid contents were 21.7g./100g. for extract 1 and 58.0g./100g. for extract 2. The cysteic acid content of whole oxidized wall was about 5.8g./100g. and of extract 2 also about 5.8g./100g. The glutamic acid and cysteic acid contents of the final residue were also investigated. 6. The significance of these extraction experiments in relation to the wall structure is discussed.
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PMID:The cyst wall of Colpoda steinii. A substance rich in glutamic acid residues. 495 13

1. The fractional permeation of heart cell water by L-arabinose and D-xylose after a standard period of perfusion is less the higher the extracellular pentose concentration.2. At any given pentose concentration the kinetics of permeation are consistent with passive diffusion through the cytoplasm or with transport across the cell membrane by a saturable carrier.3. The concentration dependence of permeation is inconsistent with passive diffusion.4. The kinetics of L-arabinose permeation are consistent with a carrier having V(max) = 2.2 m-mole/l. extracellular water per min and a half-saturation concentration [K] of 0.5 x 10(-4)M. The corresponding figures for D-xylose are V(max) = 1.4, [K] = 1.6 x 10(-4)M.
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PMID:Kinetics of pentose permeation in the perfused rat heart. 550 Dec 62

An immunochemical procedure involving the reaction of liver aldolase antibody and rat liver enzyme preparation shows that conversion of ribose 5-P to hexose 6-P by reactions of the non-oxidative pentose pathway fails to occur in the absence of aldolase activity. Radioautography of pentose pathway products formed by liver enzyme catalysis of [U-14C] arabinose 5-P and unlabelled ribose 5-P illustrates the incorporation of 14C into ketopentose, sedoheptulose, fructose and glucose phosphates. There is approximate congruity of the mole specific radioactivity of the pentose and hexose phosphates. These findings are consistent with the proposal that L-pentose pathway reactions constitute the non-oxidative segment of the pathway in liver.
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PMID:Evidence that aldolase and D-arabinose 5-phosphate are components of pentose pathway reactions in liver in vitro. 654 Oct 43

The maltooligosaccharides--triose, tetrose, pentose and hexose have been obtained by fractionation of partially hydrolyzed cyclohexamylose. The values of free energies for the binding of the first six sites of glucose residue binding in the enzyme active center were calculated according to the Hiromi model and were found to be equal to -0.6, -4.5, -1.68, -0.66, -0.25 and +-0.06 kcal/mole, respectively. The Hiromi model was extrapolated to p-nitrophenyl-alpha-D-glucoside, p-nitrophenyl-alpha-D-maltoside and methyl-alpha-D-glucoside. The energies for nitrophenol binding for the second, third and fourth centers and of the methyl group binding for the second and third centers were determined. The value of universal catalytic constant kcat is equal to 47.9 s-1 at 37 degrees.
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PMID:[Active center of glycoamylase from Aspergillus awamori]. 680 48

Transketolase was isolated from wet tissue of rat liver and purified by ammonium sulfate and CM-cellulose fractionation and by adsorption chromatography on hydroxylapatite. The native enzyme is made up of two subunits with molecular weight of 70 000, is electrophoretically homogeneous and has a specific activity of 2.8 u. per mg of protein (30 degrees). The enzymatic and fluorimetric assays revealed the presence of two moles of thiamine diphosphate per mole of protein. The Arrhenius plots for the rate of the transketolase reaction with a pentose phosphate mixture as substrate are continuous at 10-32 degrees; the activation energy is 89.9 cJ/mole, temperature index is 3.3. The curve for the reaction rate versus substrate concentration is S-shaped; the apparent Km value for xylulose 5-phosphate is 2.2 x 10(-5) M. The ions with a tetraedric structure (arsenate, phosphate, sulfate) act as competitive inhibitors of the transketolase-catalyzed reaction.
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PMID:[Purification and properties of rat liver transketolase]. 731 24

Goddard, J. L. (University of Oklahoma School of Medicine, Oklahoma City), and J. R. Sokatch. 2-Ketogluconate fermentation by Streptococcus faecalis. J. Bacteriol. 87:844-851. 1964.-Streptococcus faecalis 10Cl did not grow with 2-ketogluconate alone as an energy source, but did grow when gluconate was added. More growth was obtained than could be accounted for by the gluconate alone. The requirement for gluconate in the stimulation of growth on 2-ketogluconate was found to be stoichiometric, not catalytic. Glucose did not replace gluconate in this phenomenon, apparently owing to the repression of the 2-ketogluconate pathway by glucose. Resting cells grown on a combination of gluconate and 2-ketogluconate did ferment 2-ketogluconate without added gluconate. Fermentation balance studies with resting cells detected the following products in moles (per mole of 2-ketogluconate): carbon dioxide, 0.98; lactic acid, 0.19; formic acid, 1.42; acetic acid, 0.70; and ethanol, 0.42. 2-Ketogluconate-1-C(14) and -2-C(14) were prepared and fermented. The data were interpreted to show that 90% of the substrate was decarboxylated to carbon dioxide and pentose phosphate. Pentose phosphate was then fermented to pyruvate through the sedoheptulose diphosphate variation of the pentose phosphate pathway found in this organism. The other 10% of the substrate was converted to pyruvate by way of the Entner-Doudoroff pathway. Calculations of the energy available by the above combination of pathways indicated that about 2.3 moles of adenosine triphosphate per mole of 2-ketogluconate could be obtained if the energy available in acetate formation is conserved through the acetokinase reaction.
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PMID:2-KETOGLUCONATE FERMENTATION BY STREPTOCOCCUS FAECALIS. 1413 23

Radiolabeled d-[1-(3)H]glucose was fed by imbibition under sterile conditions to bean (Phaseolus vulgaris L.) seeds. After 72 and 96 hours of feeding, the (3)H was located in uronic acid and pentose residues as well as hexose residues of cell wall polysaccharides in growing hypocotyl and root. Free myo-inositol present in cotyledons, hypocotyl, and root also contained (3)H, showing that de novo synthesis of myo-inositol from [1-(3)H]glucose did occur during the first 72 hours of germination. More than 90% of the labeled, free myo-inositol was present in the cotyledons. The (3)H percentage in trifluoroacetic acid-soluble arabinose residues of cell wall polysaccharides from 72-hour-old bean hypocotyls was only half of their mole percentage. On the other hand, (3)H percentages in hexose residues were higher than their mole percentages. The results suggest that myo-inositol is synthesized from reserve sugars during the very early stages of germination, and that the newly synthesized myo-inositol, as well as that stored in cotyledons, can be used for the construction of new hypocotyl and root cell wall polysaccharides after conversion into uronic acids and pentoses via the myo-inositol oxidation pathway.
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PMID:myo-Inositol Synthesis from [1-H]Glucose in Phaseolus vulgaris L. during Early Stages of Germination. 1666 44

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