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)

Inhibition by its product, glucose, is a kinetic property of hexokinase type III. In this paper, we report the overexpression in Escherichia coli of human hexokinase type III. The recombinant enzyme was genetically fused with a hexahistidine peptide at the C-terminal end. This modification confers to the product the ability to bind the Ni2+ ion immobilised into agarose by nitrilotriacetic acid (NTA) groups. The purification was performed by one-step column chromatography using ammonium sulphate as stabilising agent. Recombinant hexokinase type III appears as a single band of approximately 100 kDa on a SDS-PAGE gel and shows specific activity of 16 U/mg. Its kinetic parameters are comparable to those of the native enzyme, including the fact that it can be inhibited by glucose. The comparison of these results with the properties of the overexpressed carboxyl-domain led us to suppose that the inhibition site for glucose required the presence of the N-terminal domain.
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PMID:The overexpressed hexahistidine-tagged human hexokinase type III is inhibited by D-glucose. 1245 31

The simultaneous uptake of 13 different amino acids by Scots pine ( Pinus sylvestris L.) was characterized and its regulation investigated after pre-treatments with a range of C and N metabolites. The uptake system exhibited a broad substrate specificity, acquiring all tested amino acids at similar uptake rates. Uptake of all tested amino acids by excised roots was linear over a time period of 150 min and exhibited pH-dependency, showing a peak at pH 4.0-5.0. Uptake was increased following pre-treatments with glucose and sucrose, while ammonium pre-treatments had a negative effect on amino acid acquisition. Pre-treatments with the important Krebs cycle intermediates oxaloacetate or 2-oxoglutarate did not result in altered amino acid uptake. It is speculated that the up-regulation of uptake may be due to an increased flow of glucose through a sensor mechanism, such as hexokinase. The regulation of transport by N and C suggests a function for amino acid uptake in the N nutrition of the plant, thus further highlighting the importance of organic nitrogen for plant N nutrition suggested by an increasing amount of research.
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PMID:Regulation of amino acid uptake by carbon and nitrogen in Pinus sylvestris. 1278 39

The catabolism of d-galactose in yeast depends on the enzymes of the Leloir pathway. In contrast, Aspergillus nidulans mutants in galactokinase ( galE) can still grow on d-galactose in the presence of ammonium-but not nitrate-ions as nitrogen source. A. nidulans galE mutants transiently accumulate high (400 mM) intracellular concentrations of galactitol, indicating that the alternative d-galactose degrading pathway may proceed via this intermediate. The enzyme degrading galactitol was identified as l-arabitol dehydrogenase, because an A. nidulans loss-of-function mutant in this enzyme ( araA1) did not show NAD(+)-dependent galactitol dehydrogenase activity, still accumulated galactitol but was unable to catabolize it thereafter, and a double galE/araA1 mutant was unable to grow on d-galactose or galactitol. The product of galactitol oxidation was identified as l-sorbose, which is a substrate for hexokinase, as evidenced by a loss of l-sorbose phosphorylating activity in an A. nidulans hexokinase ( frA1) mutant. l-Sorbose catabolism involves a hexokinase step, indicated by the inability of the frA1 mutant to grow on galactitol or l-sorbose, and by the fact that a galE/frA1 double mutant of A. nidulans was unable to grow on d-galactose. The results therefore provide evidence for an alternative pathway of d-galactose catabolism in A. nidulans that involves reduction of the d-galactose to galactitol and NAD(+)-dependent oxidation of galactitol by l-arabitol dehydrogenase to l-sorbose.
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PMID:The alternative D-galactose degrading pathway of Aspergillus nidulans proceeds via L-sorbose. 1462 33

Chlorella strain (UTEX 27) maintains optimal photosynthetic capacity when growing photoautotrophically in the presence of ammonium. Nitrate-grown photoautotrophic cells, however, show a drastic loss of chlorophyll content and ribulose-1,6-bisphosphate carboxylase/oxygenase activity, resulting in a greater than 10-fold decrease in photosynthetic capacity and growth rate. Nitrate-grown cells are not deficient in protein content, and under mixotrophic and heterotrophic conditions, the alga can utilize nitrate as well as it does ammonium. The alga metabolizes both glucose and acetate in the dark with a doubling time of 5 to 6 hours. However, its growth on acetate is inhibited by light. Ribulose-1,6-biphosphate carboxylase/oxygenase activity correlates well with photosynthetic capacity, and glucose 6-phosphate dehydrogenase and hexokinase activities are altered in a manner consistent with the availability of glucose in growing cells. The alga appears to assimilate ammonium under photoautotrophic conditions primarily via the glutamine synthetase pathway, and shows an induction of both NADH and NADPH dependent glutamate dehydrogenase pathways under mixotrophic and heterotrophic conditions. Multiple isoforms are present only for hexokinase and glucose 6-phosphate dehydrogenase. Etiolated nitrate-grown cells resume greening and increase their photosynthetic capacity after about 6 hours of incubation in the presence of ammonium under photoautotrophic conditions. Similarly, the loss of photosynthetic capacity in ammonium-grown photoautotrophic cells commence about 9 hours after their transfer to heterotrophic nitrate containing media.
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PMID:Regulation of Chloroplast Development by Nitrogen Source and Growth Conditions in a Chlorella protothecoides Strain. 1666 75

Rat skeletal-muscle hexokinase was partially purified by ammonium sulphate fractionation and gel filtration. The mechanism of the skeletal-muscle hexokinase was studied kinetically by initial-velocity analysis and product inhibition. Glucose 6-phosphate was a non-competitive inhibitor of glucose and ATP. ADP was a non-competitive inhibitor of glucose and a competitive inhibitor of ATP. The data on product inhibition and initial-velocity analysis of skeletal-muscle hexokinase support an ordered sequential mechanism (ordered Bi Bi) where the addition of substrates and release of products is in the order: ATP, glucose, glucose 6-phosphate and ADP.
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PMID:Kinetic studies with skeletal-muscle hexokinase. 1674 16

Glucose acts as both a carbon source and a hormone-like regulator of gene expression in eukaryotic organisms from yeast to man. Phosphorylation of glucose is executed by hexokinases, which represent a class of multifunctional enzymes that, in addition to their contribution to the uptake and initiation of metabolism of glucose, fructose and mannose, are involved in glucose signalling. The genome of the budding yeast Kluyveromyces lactis encodes a single hexokinase (KlHxk1) and a single glucokinase (KlGlk1). KlHxk1 exists in a monomer-homodimer equilibrium which is presumed to play a role in metabolic regulation. In order to evaluate the physiological significance of KlHxk1 dimerization on a molecular level, the enzyme was crystallized and subjected to X-ray structure analysis. Crystallization employing ammonium sulfate, diammonium phosphate or polyethylene glycol 6000 at pH values of 8.0-9.5 gave seven different crystal forms of KlHxk1. Crystallographic data to 1.66 A resolution were obtained using synchrotron radiation. Structure determination of KlHxk1 in various packing environments will reveal the full architecture of the homodimeric enzyme and complete our mechanistic understanding of the catalytic and regulatory functions of the enzyme.
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PMID:Crystallization and preliminary X-ray diffraction studies of hexokinase KlHxk1 from Kluyveromyces lactis. 1756 89

To determine the effects of ammonia load on glucose metabolism in ruminant small intestinal tissues, duodenal mucosal cells (DMC) were isolated from growing female sheep (n = 10; 46. 0 +/- 0. 8 kg of BW) fed diets differing in CP content: high (19. 4%) vs. low (13. 1%). Ammonia concentration in the duodenal digesta fluid was greater for sheep fed a high CP diet compared with those fed a low CP diet (16. 4 +/- 1. 0 vs. 9. 1 +/- 1. 8 mM). The isolated primary mucosal cells were incubated for 90 min with [2-(13)C] glucose (3 mM) and ammonium chloride (0, 0. 1, 1, 5, 10, 20, or 50 mM) in Krebs-Ringer HEPES buffer. It was hypothesized that DMC would increase glucose carbon utilization for the synthesis of nonessential AA when the ammonia concentration in the incubation media increased. However, utilization of glucose carbon for alanine synthesis decreased linearly (P = 0. 03) as the ammonia concentration in the incubation media increased. Furthermore, glucose disappearance and utilization of glucose carbon for aspartate synthesis were not affected (P > 0. 47) by the ammonia concentration. Contrarily, in vitro glucose disappearance was greater (P = 0. 03) for DMC isolated from sheep fed a low CP diet vs. a high CP diet [14. 6 +/- 1. 6 vs. 8. 6 +/- 1. 3 nmol.(10(6) cells)(-1).(90 min) (-1)], and hexokinase activity was greater (P = 0. 01) in the mucosa of sheep fed a low CP diet compared with a high CP diet (1. 22 +/- 0. 05 vs. 1. 04 +/- 0. 02 mUnit/mg of protein). These observations indicate that ammonia load does not affect the extent of glucose utilization by DMC, and that glucose carbon may not play a significant role for the synthesis of alanine, aspartate, or glutamate when DMC are exposed to increased concentrations of ammonia.
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PMID:Effects of ammonia load on glucose metabolism by isolated ovine duodenal mucosa. 1846 43

The possibility of reducing ammonium concentration in the blood of mice with hyperammonemia with ammocytes (erythrocytes loaded with glutamate synthase) and the metabolic characteristics of these cells were studied. Injection of ammocytes into the blood stream of animals with hyperammonemia led to reduction of the blood ammonium concentration within the first 30-120 min and this activity of ammocytes was retained for at least 2 days. Endogenous phosphofructokinase, glucose-6-phosphate dehydrogenase, hexokinase, lactate dehydrogenase, pyruvate kinase, and Na(+),K(+)-ATPase in ammocytes remained at the levels of catalytic activities characteristic of intact erythrocytes. Hence, ammocytes are functionally active cells and can be used as a protective system in pathological hyperammonemia, while the method can be regarded as a new technology for medicine and veterinary.
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PMID:Studies on ammocytes: development, metabolic characteristics, and detoxication of ammonium. 1951 68

An ATP: D-glucose and D-mannose 6-phosphotransferase activity was found in Mycobacterium tuberculosis HERa. The activity was separated from other ATP- and polyphosphate D-glucose phosphotransferases in a procedure involving precipitation with ammonium sulfate, treatment with calcium phosphate gel, DEAE-cellulose and DEAE-Sephadex A50 chromatography. The optimum pH of the phosphorylation reaction was from 9 to 10.5. The hexokinase phosphorylated D-glucose with a Km of 20 mM under conditions of MgATP saturation. The Km for MgATP was 0.2 mM. The enzyme showed a higher activity on D-mannose at a saturation level being about 100-fold lower than that of D-glucose; it did not utilize either D-fructose or D-glucosamine. Inorganic poly(P) could not replace ATP as the phosphate donor. M. tuberculosis H37Ra was unable to grow on D-mannose which may suggest that the enzyme studied is involved in endogenous metabolism of this sugar.
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PMID:A mannoglucokinese of Mycobacterium tuberculosis H37Ra. 1985 10

1. A method is described for the isolation of hexokinase from baker's yeast. The method is based mainly on fractionation with alcohol and results See PDF for Structure in a 30-fold increase in specific activity. The final product could be crystallized from ammonium sulfate without change in specific activity. 2. The enzyme catalyzes a transfer of phosphate from adenosinetriphosphate to glucose, fructose, or mannose, the relative rates with these three sugars being 1:1.4:0.3. 3. With glucose as substrate, the turnover number for the crystalline enzyme is 13,000 moles of substrate per 10(5) gm. of protein per minute at 30 degrees and pH 7.5. The temperature coefficient (Q(10 degrees )) between 0 and 30 degrees is 1.9. 4. Magnesium ions are necessary for the activity, the dissociation constant for the Mg(++) -protein complex being 2.6 x 10(-3). Fluoride in concentrations as high as 0.125 M has no inhibitory effect on the enzyme when the Mg(++) and orthophosphate concentrations are 6.5 x 10(-3)M and 1 x 10(-3)M, respectively. 5. The crystalline enzyme shows a loss in activity when highly diluted. This loss in activity can be prevented by diluting in the presence of small amounts of other proteins. Of the various protective proteins tested, insulin was the most effective, providing complete protection in a concentration of 6 micrograms per cc.; with serum albumin, a concentration of 60 micrograms per cc. was necessary. Thiol compounds (cysteine, glutathione) exerted no protective action. 6. The inactivation of the crystalline enzyme on incubation with trypsin can be prevented to a marked degree by the presence of glucose. The instability of crude preparations of yeast hexokinase may be attributed to the presence of proteolytic enzymes, since glucose or fructose has a remarkable protective effect on such preparations.
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PMID:ISOLATION OF HEXOKINASE FROM BAKER'S YEAST. 1987 67

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