EC:2.7.1.1 - FACTA Search

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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 system was created to model the influence of microcompartments on linked enzymatic reactions. Creatine kinase and hexokinase were covalently attached to Sepharose beads. The gel could be perfused in a specially constructed chamber inside a 360-MHz NMR spectrometer at different flow rates with solutions containing various concentrations of substrates. 31P NMR studies were carried out on the linked enzymatic reaction, creatine phosphate + glucose----creatine + glucose 6-phosphate in two enzyme gels differing in only one aspect, the average distance between hexokinase and creatine kinase. At a distance on the order of 0.1 mm between the enzymes, the average bulk concentrations of substrates and products in the perfusate determined the overall function of the linked system. At an average distance of the order of 10 nm, flux through the linked pair was much higher and much less dependent on the concentration of the intermediate substrate/product ADP/ATP. Even at adenine nucleotide concentrations far below the Km of hexokinase, substantial amounts of glucose 6-phosphate were produced when the enzymes were near but not when they were distant. From saturation transfer measurements and turnover calculations, the lifetime of ATP in the system is estimated to be 0.14-0.5 s when the enzymes are near. This compares to 6 s for distant enzymes. From this it appears that the pair of linked enzymes comprise a functional compartment supported by propinquity in which hexokinase has preferential access to ATP produced by creatine kinase, and creatine kinase to ADP from the hexokinase reaction.
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PMID:A synthetic functional metabolic compartment. The role of propinquity in a linked pair of immobilized enzymes. 331 15

A 34 year old man presented with an 8 year history of mild muscle pain and stiffness on exertion especially in the cold. Clinical examination was normal. Apart from a mild persistent leucocytosis, his routine investigations were normal including creatine kinase activity, electromyography and nerve conduction studies. An ischaemic exercise test produced a slow and incomplete rise in lactate. Histological examination showed non-specific myopathic changes in some quadriceps femoris muscle fibres. Investigation of muscle metabolism by spectrofluorometric analysis of muscle enzyme activity and by muscle fibre incubation studies revealed a severe defect in glucose phosphorylation, associated with an electrophoretically abnormal hexokinase. Further metabolic studies suggest that the block in glucose metabolism is by-passed via an enhanced phosphorylation of fructose by the abnormal hexokinase.
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PMID:A new metabolic muscle disease due to abnormal hexokinase activity. 334 90

By means of reconstituted systems consisting in rat heart mitochondria and pyruvate kinase it was shown, that the mitochondrial ATP-production is remarkable increased if ADP is produced by enzymes localized in the mitochondrial intermembrane space as creatine kinase or adenylate kinase. This result and different amount of inhibition by atractyloside or carboxyatractyloside of hexokinase- and creatine kinase stimulated respiration further support the concept of dynamic compartmentation of adenine nucleotides in the mitochondrial intermembrane space.
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PMID:Cause and consequences of dynamic compartmentation of adenine nucleotides in the mitochondrial intermembrane space in respect to exchange of energy rich phosphates between cytosol and mitochondria. 343 11

Covalent coupling of protein by crosslinking reagents have been used to study the interaction of mitochondrial creatine kinase (CKm) and hexokinase (HK) with the mitochondrial membranes. The effects of crosslinkers were studied either by following the inhibition of solubilization of enzymatic activities or by modification of the electrophoretic patterns of proteins solubilized from mitochondria after treatment with different crosslinkers. Dimethylsuberimidate (DMS) efficiently reduced the amount of HK activity solubilized by various agents but it did not modify solubilization of CKm from mitochondria. The effect of DMS on HK solubilization did not result from non specific crosslinking since it did not impede the solubilization of adenylate kinase. Bissuccinimidyl another class of crosslinker has been tested. Ethyleneglycol bis (succinimidyl succinate)(EGS) efficiently reduced HK solubilization, but in addition it induced osmotic stabilization of mitochondria and thus impeded release of soluble or solubilized proteins from the intermembrane space. Furthermore this agent drastically inhibited CKm activity and thus, in a second set of experiments the effect of crosslinkers have been studied by the disappearance of protein bands in the electrophoretic pattern of soluble fractions obtained from mitochondria, the outer membranes of which have been ruptured to allow free release of soluble proteins. Results of these experiments showed that succinimidyl reagents and Cu++-Phenanthroline substantially reduced the amount of CKm released from mitochondria and confirmed that bisimidates were ineffective in inhibiting CKm solubilization. In addition crosslinking reagents have been used to study subunits interactions in purified CKm. Our results showed, in contrast with control experiments with a non oligomeric protein (ovalbumin) which did not give rise to polymers, that in the same conditions electrophoresis of crosslinked CKm resolved a set of species with molecular weights roughly equal to integral multiples of the protomer. These results proved that the polymeric form of CKm was an octamer.
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PMID:Interaction of creatine kinase and hexokinase with the mitochondrial membranes, and self-association of creatine kinase: crosslinking studies. 344 Dec 51

We evaluated whether any monosaccharides inhibit glycolysis in erythrocytes and discovered that D-mannose does. In the presence of D-mannose, glucose can be accurately measured by either the hexokinase procedure or the glucose oxidase procedure. In comparison studies with other glucose preservatives, we found that after 2 h at room temperature glucose decreased by 21 (SD 13) mg/L in D-mannose-treated blood, 93 (SD 10) mg/L in sodium fluoride-treated blood, 28 (SD 21) mg/L in ice-cooled blood, and 144 (SD 28) mg/L in control blood (no preservative treatment). Because D-mannose acted in the early phase of glycolysis, it was a more effective preservative than sodium fluoride; moreover, its use did not preclude measurement of sodium and potassium in the blood samples. D-Mannose did not interfere with other routine chemical tests except for the assay of creatine kinase involving coupled enzymes hexokinase/glucose-6-phosphate dehydrogenase. Creatine kinase could be correctly assayed in the presence of D-mannose by using glucokinase instead of hexokinase. D-Mannose can be used with or without anticoagulant and is compatible with most types of multi-channel automated analyzers.
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PMID:D-mannose as a preservative of glucose in blood samples. 200 64

The enzyme level profiles of some regulatory enzymes and the isozyme patterns of some marker enzymes in bovine adult specialized, adult ordinary and fetal ordinary heart muscles were examined in order to biochemically characterize specialized heart muscle. The activities of hexokinase, phosphofructokinase and glucose-6-phosphate dehydrogenase in adult specialized heart muscle were significantly higher than those in adult ordinary heart muscle, but were similar to those in fetal ordinary heart muscle. The carnitine content and carnitine acetyltransferase activity in adult specialized heart muscle were lower than those in adult ordinary heart muscle. The isozyme patterns of creatine kinase, fructose-bisphosphate aldolase and pyruvate kinase in adult specialized heart muscle resembled those in fetal ordinary heart muscle. These results indicate that adult specialized heart muscle has the biochemical characteristics of fetal ordinary heart muscle.
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PMID:Biochemical characterization of the conduction system of the bovine heart. 359 6

Individual muscle fibers from patients with Duchenne muscular dystrophy at an early stage in their disease, and from apparently normal boys of similar age, were analyzed for 13 enzymes of energy metabolism. This approach avoided the serious problems with muscle homogenate assays from increases in nonparenchymal components and permitted assessment of disease changes in different fiber types. Some enzymes of glycogenolysis (phosphorylase, phosphoglucomutase, and pyruvate kinase) were decreased in dystrophic fibers of all types. Phosphofructokinase was decreased in presumptive type II fibers. Lactate dehydrogenase was increased in type I fibers and essentially unchanged in type II. Phosphoglucoisomerase was near normal. Two enzymes of glucose metabolism not involved in glycogenolysis, hexokinase and glycogen synthase, were near normal, but a third, fructose bisphosphatase, was sharply reduced. Two enzymes of oxidative metabolism, citrate synthase, and beta-hydroxyacyl CoA dehydrogenase, were unchanged or increased. Two enzymes of high energy phosphate transfer, creatine kinase and adenylokinase, were only marginally affected. The net result is to leave the type II fibers, which normally exert the greatest force, with a severe deficit in the glycogenolytic enzyme machinery to maintain that force.
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PMID:Effect of Duchenne muscular dystrophy on enzymes of energy metabolism in individual muscle fibers. 360 Feb 88

The purpose of this study was to investigate the effects of repeated high-intensity intermittent training programs interspaced by detraining on human skeletal muscle and performances. First, nineteen subjects were submitted to a 15-week cycle ergometer training program which involved both continuous and high-intensity interval work patterns. Among these 19 subjects, six participated in a second 15-week training program after 7 weeks of detraining. Subjects were tested before and after each training program for maximal aerobic power and maximal short-term ergocycle performances of 10 and 90s. Muscle biopsy from the vastus lateralis before and after both training programs served for the determination of creatine kinase (CK), hexokinase, phosphofructokinase (PFK), lactate dehydrogenase (LDH), malate dehydrogenase, 3-hydroxyacyl-CoA dehydrogenase (HADH) and oxoglutarate dehydrogenase (OGDH) activities. The first training program induced significant increases in all performances and enzyme activities but not in CK. Seven weeks of detraining provoked significant decreases in maximal aerobic power and maximal 90s ergocycle performance. While the interruption of training had no effect on glycolytic enzyme markers (PFK and LDH), oxidative enzyme activities (HADH and OGDH) declined. These results suggest that a fairly long interruption in training has negligeable effects on glycolytic enzymes while a persistent training stimulus is required to maintain high oxidative enzyme levels in human skeletal muscle. The degree of adaptation observed after the second training program confirms that the magnitude of the adaptive response to exercise-training is limited.
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PMID:Effects of two high-intensity intermittent training programs interspaced by detraining on human skeletal muscle and performance. 365 91

Study on the mechanism of hexokinase isozyme II adsorption on mitochondrial membranes in the presence of 10 mM MgCl2 demonstrated that 0.16% of the total proteins of the soluble fraction and the total hexokinase pool are capable of reversible binding to the membrane. The plot for the dependence of the degree of enzyme adsorption on Mg2+ concentration is hyperbolic. Under these conditions, hexokinase competes favourably for the binding sites with lactate dehydrogenase and creatine kinase. Analysis of the adsorption capacity of natural and artificial phospholipid membranes showed that hexokinase isozyme II is adsorbed in much the same way on inner and outer mitochondrial membranes as well as on a mixture of membranes obtained from various sources and on lecithin liposomes. The adsorption properties of hexokinase isozyme II and of its functional analog--isozyme I--point to marked differences in the mechanism of their interaction with the membrane. In contrast with isozyme I, isozyme II of hexokinase undergoes kinetic alterations. Besides, it was found that mild autolysis of isozyme II is accompanied by a loss of the enzyme ability to bind to mitochondrial membranes. The data obtained suggest that the specificity of hexokinase isozyme II adsorption depends on the structural peculiarities of the protein but not on those of the mitochondrial membrane.
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PMID:[Specificity of interaction of hexokinase isozyme II with mitochondrial membranes]. 369 16

The role of heredity in the response of maximal anaerobic capacities and skeletal muscle histochemical and biochemical characteristics to a 15-week cycle ergometer training program involving both continuous and interval work patterns was investigated in 14 pairs of monozygotic twins. The training program consisted mainly of series of ergocycle supramaximal exercises lasting from 15 s to 90 s and performed 4 and 5 times a week. The subjects were submitted to 10 s and 90 s all-out ergocycle tests to estimate maximal anaerobic alactacid (AAC) and lactacid (ALC) capacities, respectively. Muscle fiber types and creatine kinase (CK), hexokinase (HK), phosphofructokinase (PFK), lactate dehydrogenase (LDH), malate dehydrogenase (MDH), 3-hydroxyacyl CoA dehydrogenase (HADH), and oxoglutarate dehydrogenase (OGDH) activities were determined in a biopsy from the vastus lateralis. Training increased AAC, ALC, fiber type I proportion, MDH, HADH, and OGDH (P less than 0.05) and decreased fiber type IIb proportion and the PFK/OGDH ratio. No significant change was observed for CK, HK, PFK, and LDH. Large interindividual differences in the response to training were observed for all variables. However, intraclass correlations indicated that the extent of the response of ALC and CK, HK, LDH, MDH, and OGDH activities and of the PFK/OGDH activity ratio to training were significantly similar within pairs of twins. Although the role of heredity appeared absent for the changes in fiber type proportions and in anaerobic alactacid capacity, the present results suggest that the response of anaerobic lactacid capacity and most enzyme activities to high-intensity intermittent training is significantly determined by the genotype.
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PMID:Inheritance of human skeletal muscle and anaerobic capacity adaptation to high-intensity intermittent training. 373 13

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