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:2.7.1.1 (hexokinase)
5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new method that permits rapid, sensitive, and specific enzymatic assay of proteins in polyacrylamide gels is described. The enzyme product blot described in this report involves percolation of the reaction mixture through a gel containing native enzyme which converts the labeled substrate to a labeled product with differing chemical properties. A permeable membrane with specific ligand-binding properties overlies the gel and binds the enzyme product, but not the substrate, as reaction mixture is blotted vertically. This membrane is washed free of substrate and the location of the product is identified by autoradiography. The autoradiogram is compared with the stained gel in order to recover the enzyme for amino acid sequence analysis. The enzyme product blot is demonstrated using glycerol kinase and hexokinase.
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PMID:Enzyme product blot for nondestructive assay of protein catalytic function in polyacrylamide gels. 272 76

We have developed a method for the simultaneous purification of hexokinase, glucosephosphate isomerase, phosphofructokinase, fructose-1,6-bisphosphate aldolase, triosephosphate isomerase, D-glyceraldehyde-phosphate dehydrogenase, phosphoglycerate kinase, glycerol-3-phosphate dehydrogenase and glycerol kinase from Trypanosoma brucei in yields varying over 8-55%. Crude glycosomes were prepared by differential centrifugation of cell homogenates. Subsequent hydrophobic interaction chromatography on phenyl-Sepharose resulted in six pools containing various mixtures of enzymes. These pools were processed via affinity chromatography (immobilized ATP), hydrophobic interaction chromatography (octyl-Sepharose) and ion-exchange chromatography (CM- and DEAE-cellulose) which resulted in the purification of all nine enzymes. The native enzyme and subunit molecular masses, as determined by gel filtration and gel electrophoresis under denaturing conditions, were compared with those of their homologous counterparts from other organisms. Trypanosomal hexokinase is a hexamer and differs in subunit composition from the mammalian enzymes (monomers) as well as in subunit size (51 kDa versus 96-100 kDa, respectively). Phosphofructokinase only differs in subunit size (51 kDa for T. brucei versus 80-90 kDa for mammals) but had identical subunit composition (tetrameric). The others all have the same subunit composition as their mammalian counterparts. Except for triosephosphate isomerase, all Trypanosoma enzymes have subunits which are 1-5 kDa larger in size. Together these nine enzymes contribute 3.3 +/- 1.6% to the total cellular protein of T. brucei and at least 90% to the total glycosomal protein. A comparison of calculated intraglycosomal concentrations of the enzymes with the glycosomal metabolite concentrations shows that in the case of aldolase, glyceraldehyde-phosphate dehydrogenase and phosphoglycerate kinase, the concentration of active sites is of the same order of magnitude as that of their reactants. A common feature of the glycosomal glycolytic enzymes (with the exception of glucosephosphate isomerase) is that they are highly basic proteins with pI values between 8.8 and 10.2, values which are 1-4 higher than in the case of their mammalian cytosolic counterparts and 3-6 higher than in the case of the various unicellular organisms. It is suggested that both the larger subunit size and the basic character of the T. brucei glycolytic proteins are involved in the routing of the enzymes from their site of biogenesis (the cytosol) towards their site of action (the glycosome).
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PMID:Glycolytic enzymes of Trypanosoma brucei. Simultaneous purification, intraglycosomal concentrations and physical properties. 294 90

Mitochondrial-bound glycerol kinase in rat brain was examined with reference to factors involved in the binding and significance of the binding in relation to ATP metabolism inside the mitochondria. The mitochondrial-bound glycerol kinase was solubilized with glycerol 3-phosphate or ADP, and the solubilized enzyme was rebound to mitochondria by addition of divalent cations. The rebinding was decreased by the presence of glycerol 3-phosphate, while was increased by glucose 6-phosphate. Positive correlation was found between the formation of glycerol 3-phosphate by mitochondrial-bound glycerol kinase and ATP content in mitochondria in experiments using various concentrations of succinate and ADP. On the other hand, glycerol 3-phosphate formation was inhibited by addition of inhibitors for mitochondria functions, such as oligomycin, dinitrophenol, cyanide, and atractyloside. Furthermore, formation of dihydroxyacetone phosphate from glycerol was proved, indicating the involvement of glycerol kinase in glycerol phosphate shuttle in combination with glycerol phosphate dehydrogenase. These findings are discussed in comparison with those of mitochondrial-bound hexokinase.
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PMID:Binding and function of mitochondrial glycerol kinase in comparison with those of mitochondrial hexokinase. 298 25

Glycosomes, purified from trypomastigote forms of Trypanosoma brucei, contained all the enzymes necessary to convert glucose to alpha-glycerophosphate and 3-phosphoglycerate. The multienzyme reaction which produces 2 alpha-glycerophosphate, 2 ADP, and 2 NAD+ from 1 glucose, 2 ATP, and 2 NADH was studied spectrophotometrically. Intact glycosomes, suspended with 5.6 mM alpha-glycerophosphate and 2 mM ADP, produced ATP inside the glycosomes for glucose phosphorylation at a rate of 0.7 mumol/min/mg protein, so confirming the feasibility of producing ATP from alpha-glycerophosphate and ADP catalyzed by glycosomal glycerol kinase, and coupling this ATP production to the ATP-requiring stages of glycolysis. No evidence was found for direct channeling of the ATP generated by glycerol kinase and either hexokinase or phosphofructose kinase in glycosomal enzyme complexes cross-linked by dimethyl suberimidate treatment of intact glycosomes prior to solubilization of their membrane. Compartmentation of glycolytic intermediates, enzymes, and ATP inside isolated glycosomes was demonstrated by their inaccessibility to exogenous enzymes. We conclude that the compartmentation of the glycosome and the efficient production of ATP in the glycosome from whole cell concentrations of sn-glycerol 3-phosphate and ADP account for the observed whole cell production of equimolar glycerol from glucose with net ATP synthesis by T. brucei under anaerobic conditions.
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PMID:The role of compartmentation and glycerol kinase in the synthesis of ATP within the glycosome of Trypanosoma brucei. 299 27

A study of the reverse reaction of rat brain hexokinase (ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1) has been performed using a photometric method based on a mutarotase-glucose oxidase-peroxidase-chromogen system to trap and visualize glucose, plus a glycerol kinase-glycerol system to trap ATP. Glucose 6-phosphate or 2-deoxyglucose 6-phosphate were used as phosphoryl donors at different concentrations of ADP. Variation of glucose 6-phosphate concentrations resulted in a biphasic curve from which apparent Km and Ki values of ca. 0.2 mM were calculated. In contrast, variation of 2-deoxyglucose 6-phosphate concentrations resulted in Michaelian kinetics with an apparent Km of 2 mM. The Km value for MgADP was 16 mM irrespective of the nature and concentration of the hexose 6-phosphate substrate. These results are fully consistent with an allosteric site for glucose 6-phosphate as an explanation for the inhibition of animal hexokinases by glucose 6-P and further indicate that the maximal rate is the parameter affected. From these observations and previous knowledge, the possible occurrence in animal hexokinases of a regulatory site for ATP to account for the competition between glucose 6-phosphate and ATP in the forward reaction is postulated.
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PMID:Allosteric inhibition of brain hexokinase by glucose 6-phosphate in the reverse reaction. 400 67

The enzyme activities involved in fructose metabolism were measured in samples of human liver. On the basis of U/g of wet-weight the following results were found: ketohexokinase, 1.23; aldolase (substrate, fructose-1-phosphate), 2.08; aldolase (substrate, fructose-1,6-diphosphate), 3.46; triokinase, 2.07; aldehyde dehydrogenase (substrate, D-glyceraldehyde), 1.04; D-glycerate kinase, 0.13; alcohol dehydrogenase (nicotinamide adenine dinucleotide [NAD]) substrate, D-glyceraldehyde), 3.1; alcohol dehydrogenase (nicotinamide adenine dinucleotide phosphate [NADP]) (substrate, D-glyceraldehyde), 3.6; and glycerol kinase, 0.62. Sorbitol dehydrogenases (25.0 U/g), hexosediphosphatase (4.06 U/g), hexokinase (0.23 U/g), and glucokinase (0.08 U/g) were also measured. Comparing these results with those of the rat liver it becomes clear that the activities of alcohol dehydrogenases (NAD and NADP) in rat liver are higher than those in human liver, and that the values of ketohexokinase, sorbitol dehydrogenases, and hexosediphosphatase in human liver are lower than those values found in rat liver. Human liver contains only traces of glycerate kinase. The rate of fructose uptake from the blood, as described by other investigators, can be based on the activity of ketohexokinase reported in the present paper. In human liver, ketohexokinase is present in a four-fold activity of glucokinase and hexokinase. This result may explain the well-known fact that fructose is metabolized faster than glucose.
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PMID:Enzymes of fructose metabolism in human liver. 438 49

Glycerol kinase of Trypanosoma brucei has been shown to be capable of catalysing sn-glycerol-3-phosphate dependent ADP phosphorylation for ATP generation. The rate of this reaction (Vr) is sufficient to account for the observed rate of glycerol production from anaerobic glucose metabolism by intact cells and to account for net ATP synthesis. Glycerol kinase has been purified by preparing a post-nuclear, particulate fraction and solubilizing the enzyme with 0.5% (w/v) Triton X-100. This treatment results in a 3.5-fold increase in total activity, demonstrating the latent nature of particulate glycerol kinase, and an overall 10-fold increase in specific activity in the soluble fraction. The ratio of the velocities of the forward (Vf) reverse (Vr) reactions of this enzyme is altered from 21 to 170 upon solubilization. The Michaelis constants for the solubilized enzyme are KmADP = 0.12 +/- 0.04 mM, KmG-3-P = 5.12 +/- 1.47 mM, Kmglycerol = 0.12 +/- 0.05 and KmATP = 0.19 +/- 0.04 mM. Endogenous hexokinase acts as an ATP trap favouring ATP synthesis sn-glycerol-3-phosphate and ADP. This can be demonstrated in reconstituted systems using trypanosome glycerol kinase and varying hexokinase activities. Mass action inhibition of ATP synthesis by glycerol is more marked with lower hexokinase activities. High glycerol kinase activity (> 0.5 mumol/min/mg protein) has been found in the T. brucei complex of trypanosomes that produce glycerol anaerobically whereas only low activities (less than or equal to 0.03 mumol/min/mg protein) are present in Trypanosoma cruzi, Trypanosoma lewisi and Crithidia fasciculata, organisms that do not produce glycerol. Trypanosoma congolense has a glycerol kinase activity of 0.17 mumol/min/mg protein and shows poorer ATP synthesis from anaerobic glucose metabolism than organisms of the T. brucei complex.
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PMID:Studies on glycerol kinase and its role in ATP synthesis in Trypanosoma brucei. 625 71

Hexokinase-binding protein and mitochondrial porin were isolated from rat liver mitochondria by different procedures. It was found that the hexokinase-binding protein made lipid vesicles permeable to ADP and formed asymmetric pores in lipid bilayer membranes identical to those obtained from the mitochondrial porin. On the other hand, the mitochondrial porin confers the ability to bind hexokinase. In addition, evidence is presented that both hexokinase-binding protein and mitochondrial porin bind glycerol kinase.
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PMID:Evidence for identity between the hexokinase-binding protein and the mitochondrial porin in the outer membrane of rat liver mitochondria. 628 67

Twelve individuals have been described with glycerol kinase deficiency. Five of these individuals are adults who were noted incidentally to have pseudohypertriglyceridemia. Six of these individuals are children who manifest a clinical complex which includes adrenal hypoplasia/insufficiency and developmental delay. Another child has intermittent coma, a normal IQ, and no evidence of adrenal insufficiency. Genetic and biochemical hypotheses are proposed to explain this clinical variability. Glycerol kinase binds specifically and reversibly to the porin, the pore-forming protein of the outer mitochondrial membrane, which also binds hexokinase. Mutations affecting any component of this kinase-binding system will alter the properties of this system. Glycerol kinase deficiency, as an inborn error of this compartmented metabolic system, offers an investigational opportunity for studying this microenvironment.
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PMID:Human glycerol kinase deficiency: an inborn error of compartmental metabolism. 631 39

Glycerol kinase was found to associate with the hexokinase binding protein. The binding of glycerol kinase has a high specificity as illustrated by the fact that the magnitude of binding was reduced by glycerophosphate and antibodies against the hexokinase binding protein. A possible function of glycerol kinase binding to the mitochondria with respect to metabolic regulation is proposed for the following reasons: (i) Glycerol kinase seems to bind to the same binding protein as hexokinase. (ii) Both kinases were observed to be reversibly bound to the mitochondria in different metabolic situations, i.e., 10% of total cellular activity from both kinases is bound in starved rats whereas no activity of glycerol kinase and 30% of hexokinase become bound in fed rats. (iii) The kinetic properties of the associated glycerol kinase change in an analogous manner to those known for structure-bound hexokinase. (iv) With the binding of glycerol kinase to the mitochondria, it is possible to propose a metabolic pathway for glycerol oxidation to dihydroxyacetone phosphate by a combined action involving the enzyme, glycerol phosphate oxidase, and oxidative phosphorylation.
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PMID:The binding of glycerol kinase to the outer membrane of rat liver mitochondria: its importance in metabolic regulation. 631 40


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