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)

1. Human erythrocyte hexokinase (ADP:D-hexose 6-phosphotransferase, EC 2.7.1.1) was purified 50 000--100 000-fold with a final specific activity of about 25--50 units/mg protein using gel-filtration, ion-exchange chromatography and affinity chromagraphy. 2. After isoelectrofocusing ofthe preparation one major protein band could be detected besides a minor band. THe isoelectric point of the major protein band was found to be 4.7. 3. After purification the enzyme could be stabilized in a medium containing inorganic phosphate, glucose, glycerol and mercaptoethanol. 4. The molecular weight was determined by gel-filtration and was found to be 132 000+/-8000. 5. The enzyme shows a broad pH optimum ranging from 7.0 to 8.4. 6. The kinetic behavior of the purified enzyme at 37 degrees C was somewhat different from the normal Michaelis-Menten kinetics due to its instability. The affinity constants were 0.048--0.080 mM for glucose and 0.57--1.0 mM for Mg-ATP. 7. The enzyme was specific for Mg- ATP as the nucleotide substrate. Mg-UTP, Mg-ITP,Mg-GTP and Mg-CTP were not converted to corresponding diphosphates. Several hexoses could be phosphorylated by the enzyme. Mannose could be phosphorylated at the same rate as glucose, although the affinity for the enzyme was lower (5m=0.60mM). Much lower rates and lower affinities were found with 2-deoxy-D-glucose (5m=1.0mM), D(+)-glucosamine (5m=4.5 mM) and fructose (5m=10 mM). N-acetyl-D-glucosamine , galactose andsorbose were not phosphorylated at all.
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PMID:Purification and some properties of human erythrocyte hexokinase. 95 36

Analogues of ATP and UTP bearing C-5'-S-P ester bonds were found not to be substrates but weak competitive inhibitors of Escherichia coli RNA polymerase. The K-i values of the analogues obtained in the transcription of poly[d(A-T)] or poly(dT) under various conditions are in the order of millimolar. Evidence was derived from proton magnetic resonance spectra that nucleotides with C-5'-S-P bonds do not exist in gauche-gauche conformation normally adopted by natural occurring nucleotides. This leads us to assume that the gauche-gauche conformation is an essental prerequisite for substrates of RNA polymerase. Ado-5'-S-PPP substituted for ATP as substrate of hexokinase from yeast rather effectively thus indicating that a distinct stereochemical orientation of the alpha-phosphate ester bond is not a stringent requirement for substrates of this enzyme.
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PMID:Properties of ATP and UTP analogues with P-S-C-5' bonds. 109 46

As a common characteristic of tumor cells, as well as of normal proliferating cells in the G1-phase of cell cycle, one finds constitutive high levels of all the glycolytic metabolites arising between glucose 6-phosphate and phosphoenolpyruvate. Thus, it is that the phosphometabolites fructose 1,6-bisphosphate, ribose 5-P, P-ribose-PP, NAD, GTP, CTO, UTP, UDP-glucose, glycerol 3-P, glycerol phosphocholine and glycerol phosphoethanolamine are useful in the 31P-nuclear magnetic resonance (NMR) detection of solid tumors in animals and man. This expansion of phosphometabolites is achieved during tumor formation as a result of reductions in levels of enzymes degrading phosphometabolites, owing to the decline in the glycerol 3-P hydrogen shuttle, and as a consequence of alterations in the glycolytic isoenzyme equipment. Tumor cells typically express a particular isoenzyme of pyruvate kinase called type M2 (K) at high levels. This isoenzyme is subject to a complex regulation by amino acids, by fructose 1,6-bisphosphate, and by hormonal- and oncogene-dependent phosphorylation. Pyruvate kinase type M2 is a substrate for the oncogene encoded PP60v-src-tyrosine kinase. A drastic decrease in the affinity for its substrate phosphoenolpyruvate found after transformation by the src-oncogene can be explained as a consequence of the phosphorylation of pyruvate kinase in serine and tyrosine. These phosphorylations induce the breakdown of tetrameric pyruvate kinase to the trimeric and dimeric forms. Unlike the tetrameric form, the dimeric form as a low affinity for phosphoenolpyruvate. Partial inactivation of pyruvate kinase and enolase on the one hand, and a hyperactivation of hexokinase and phosphofructokinase on the other hand, lead to an expansion of all metabolites. Only when these metabolites attain high levels, thereby assuring a sufficient supply of metabolites for RNA, DNA, lipid, and complex carbohydrate synthesis, can cell proliferation proceed. This accumulation of metabolites in the G1-phase cells has been termed a "metabolic budget system" because it senses not only the actual nutrient levels, but also the supply over a period of time. Monoclonal antibodies specific for the dimeric form of pyruvate kinase type M2 can be used for the immunohistological detection of tumor cells. The amount of the dimeric form in tumor cells closely correlates with the degree of malignancy and can be used for a nonspecific detection of tumors based on assays performed with patient's plasma.
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PMID:Double role for pyruvate kinase type M2 in the expansion of phosphometabolite pools found in tumor cells. 153 31

Video microscopy of isolated axoplasm from the squid giant axon permits correlated quantitative analyses of membrane-bounded organelle transport both in the intact axoplasm and along individual microtubules. As a result, the effects of experimental manipulations on both anterograde and retrograde movements of membrane-bounded organelles can be evaluated under nearly physiological conditions. Since anterograde and retrograde fast axonal transport are similar but distinct cellular processes, a systematic biochemical analysis is important for a further understanding of the molecular mechanisms for each. In this series of experiments, we employed isolated axoplasm of the squid to define the nucleoside triphosphate specificity for bidirectional organelle motility in the axon. Perfusion of axoplasm with 2-20 mM ATP preserved optimal vesicle velocities in both the anterograde and retrograde directions. Organelle velocities decreased to less than 50% of optimal values when the axoplasm was perfused with 10-20 mM UTP, GTP, ITP, or CTP with simultaneous depletion of endogenous ATP with hexokinase. Under the same conditions, TTP and ATP-gamma-S were unable to support significant levels of transport. None of the NTPs tested had a differential effect on anterograde vs. retrograde movement of vesicles. Surprisingly, several inconsistencies were revealed when a comparison was made between these results and nucleoside triphosphate specificities that have been reported for putative organelle motors by using in vitro assays. These data may be used in conjunction with data from well-defined in vitro assays to develop models for the molecular mechanisms of axonal transport.
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PMID:Nucleotide specificity for the bidirectional transport of membrane-bounded organelles in isolated axoplasm. 169 15

ATP is known to be easily determined fluorometrically after it is utilized to produce the corresponding amount of NADPH by combined reactions of hexokinase and glucose-6-phosphate dehydrogenase. We studied further whether nucleoside triphosphates other than ATP can be also determined in a similar manner if they were incubated for a longer period with an increased amount of hexokinase. It was shown that CTP, GTP, ITP, and UTP can be utilized to produce the corresponding amount of NADPH after an incubation of at least 60 min and that 0 to 50 nmols of these nucleotides were able to be determined fluorometrically.
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PMID:Determination of nucleoside triphosphates by use of combined reactions of hexokinase and glucose-6-phosphate dehydrogenase. 181 Feb 51

The Type I isozyme of rat hexokinase (ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1) is comprised of N- and C-terminal domains, associated with regulatory and catalytic functions, respectively. Extensive sequence similarity between the domains is consistent with evolution of the enzyme by gene duplication and fusion. Cleavage at tryptic sites located in the C-terminal domain is markedly sensitive to ligands present during digestion, while analogous sites in the N-terminal domain are either resistant to trypsin or unaffected by the presence of ligands. These results imply a lack of structural equivalence between the N- and C-terminal domains, with the overall structure of the N-terminal domain being "tighter" and with a major component of ligand-induced conformational changes being focused in the C-terminal domain. Based on a previously proposed structure for brain hexokinase, protection by substrate hexoses is attributed to substrate-induced closing of a cleft in the C-terminal domain. Similar protection at C-terminal cleavage sites results from binding of inhibitory hexose-6-phosphates to the N-terminal domain. In addition, hexose-6-phosphates evoke cleavage at a site, T5, located in a region that has been associated with binding of ATP to the C-terminal domain. Thus, alterations in this region, coupled with reduced accessibility resulting from cleft closure, may account for the mutually exclusive binding of inhibitory hexose-6-phosphates and substrate ATP. In the absence of Mg2+, all nucleoside triphosphates examined (ATP, UTP, CTP, and GTP) protected against digestion by trypsin. In contrast, ATP-Mg2+ stabilized the C-terminal domain but destabilized the N-terminal domain, while the chelated forms of the other nucleoside triphosphates were similar to the unchelated forms in their effect on proteolysis; the unique response to ATP-Mg2+ reflects the specificity for ATP as a substrate.
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PMID:Effect of ligand binding on the tryptic digestion pattern of rat brain hexokinase: relationship of ligand-induced conformational changes to catalytic and regulatory functions. 192 35

UDP-GlcN was synthesized from GlcN and UTP by a two step hollow fiber enzyme reactor method. In step 1, GlcN was converted to GlcN 6-P and then to GlcN 1-P by hexokinase and phosphoglucomutase, respectively, and UTP was used as the phosphate donor. In step 2, GlcN 1-P was converted to UDP-GlcN by UDP glucose pyrophosphorylase. All the enzymes required for the synthesis of UDP-GlcN were enclosed in hollow fiber bundles which allow for the free diffusion of substrates and products across the membranes to and from the enzymes, allow for the reutilization of the enzymes, and simplify the isolation of the product, UDP-GlcN. We show that both UTP and GlcN 6-P are inhibitors of the yeast UDPG pyrophosphorylase and therefore their concentrations must be regulated to obtain maximum yields of UDP-GlcN. The UDP-GlcN produced can be N-acetylated with [14C]acetic anhydride to produce UDP-[14C]GlcNAc. This method can also be used to synthesize [32P]UDP-GlcN and [32P]UDP-GlcNAc from [alpha-32P]UTP and GlcN 1-P.
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PMID:Enzymatic synthesis of UDP-GlcN by a two step hollow fiber enzyme reactor system. 214 85

Extracellular ATP at 10 microM increased the concentration of cytoplasmic free Ca2+ ( [Ca2+]i) 3-fold in human neutrophils. The [Ca2+]i was measured by fura-2 fluorescence. The effect was rapid but transient: [Ca2+]i reached a maximum within 10 s and then returned to its resting value after 2-3 min. The rise in [Ca2+]i elicited by ATP was unaffected by the removal of extracellular Ca2+, indicating that the primary source of Ca2+ is from intracellular stores. In contrast to ATP, neither ADP nor AMP, at concentrations as high as 100 microM, caused any detectable changes in [Ca2+]i. Among other nucleotide triphosphates tested, UTP was as effective as ATP in causing a transient rise in [Ca2+]i, and prevented a subsequent response to ATP. Similarly, ATP prevented a subsequent response to UTP but the second response could be obtained when the initially added ATP was removed by the addition of hexokinase. Phorbol myristate acetate, the activator of Ca2+, phospholipid-dependent protein kinase, completely inhibited the ATP-induced increases in [Ca2+]i without affecting the basal [Ca2+]i level. The results suggest that extracellular ATP stimulates human neutrophils by causing the release of calcium from intracellular storage pools by mechanisms which can be inhibited by phorbol myristate acetate.
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PMID:ATP-induced calcium mobilization in human neutrophils. 249 55

A routine assay for CTP in cell and tissue extracts using crude firefly lantern preparations is described. ATP, GTP, and UTP are removed by incubation of the samples with a mixture of 3-phosphoglycerate kinase, hexokinase, glucose-6-phosphate dehydrogenase, and UDP-glucose pyrophosphorylase in the presence of ADP. The method is sensitive (greater than 30 nM CTP), inexpensive, and reproducible. No chromatographic purification of the biological samples or of the firefly extract is necessary. Corrections must be made for some loss of CTP during the enzymatic incubation and for the background luminescence of ADP. The applicability of the assay is tested with extracts from the cyanobacterium Anacystis nidulans.
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PMID:A firefly luciferase assay for determination of cytidine 5'-triphosphate in biological samples. 392 76

Addition of 0.4-25 microM extracellular ATP results in transient, dose-dependent increases in cytosolic free calcium measured in Ehrlich ascites tumor cells. In cells incubated with 1 mM extracellular Ca2+, ATP induces a triphasic Ca2+ transient: an initial rapid increase (2-3 s), a second, slower phase of increase (60-90 s), and, finally, a gradual return to near resting [Ca2+]i (4-5 min). Several findings demonstrate that the initial, rapid phase of Ca2+ transient results from a mobilization of Ca2+ from a non-mitochondrial intracellular store, while the second, slow phase of increase is produced by enhanced influx of Ca2+ across the plasma membrane. Successive additions of extracellular ATP can elicit repetitive Ca2+ transients if the initially added ATP is removed either through the action of native ecto-ATPase activity or exogenous hexokinase. Other adenine nucleotides, including non-hydrolyzable ATP analogs, neither alter cytosolic [Ca2+] nor antagonize the ATP-induced effects. Conversely, other nucleotide triphosphates (ITP, UTP, and GTP) induce Ca2+ transients which are identical to those produced by ATP. A variety of experimental results indicate that these actions of ATP and other nucleotide triphosphates are not due to a generalized increase in plasma membrane permeability. The results suggest that, in these transformed cells, ATP may act in a manner similar to other Ca2+ mobilizing hormones and growth factors.
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PMID:Intracellular Ca2+ mobilization activated by extracellular ATP in Ehrlich ascites tumor cells. 403 Jul 63

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