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Enzyme
Compound
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Target Concepts:
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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)
After frozen storage for 7 d, the viability and CO2 productivity of a conventional baker's yeast strain D greatly decreased. The viability of a freeze-tolerant strain, DFT, used for the frozen dough method slightly decreased after the same storage period, while the CO2 productivity greatly decreased. The CO2 productivity and
DNase I
inhibitory activity of actin of the cell-free extracts prepared immediately after thawing from 7-d frozen-stored cells markedly decreased in both strains. In DFT, however, the productivity and the inhibitory activity of the cell-free extract increased when the extract was prepared after incubation of the frozen-thawed cells at 30 degrees C. The increase in the inhibitory activity first occurred and then the increase in the CO2 productivity. Gel filtration patterns of actin and glycolytic enzymes were compared between cell-free extracts of both strains. Peaks of actin and activity peaks of
hexokinase
and pyruvate kinase decreased in the strain D after frozen storage, but only slightly in the strain DFT. After frozen storage, phosphofructokinase activity peak shifted to a lower molecular weight in strain D.
...
PMID:Impairment of the glycolytic system and actin in baker's yeast during frozen storage. 882 26
Multiple transcriptional start sites have been identified for the gene encoding the rat Type I isozyme of
hexokinase
(White, J.A., Liu, W., and Wilson, J. E., Arch. Biochem. Biophys. 335, 161-172, 1996); these are clustered at positions approximately -460, -300, and -100 relative to the translational start codon (ATG, with A being +1). PC12 cells and H9c2 cells were transfected with luciferase reporter constructs containing genomic sequence between positions -3366 and -171. Marked (85%) decrease in promoter activity was associated with deletion of sequence between -742 and -516. In
DNase I
footprinting experiments, two regions, called P1 (-552 to -529) and P2 (-480 to -458) boxes, were protected by proteins present in nuclear extracts from PC12 cells. Mutation or deletion of the P2 box had no effect on promoter activity; protection in this region, which includes the most upstream cluster of transcriptional start sites, is attributed to binding of RNA polymerase II or associated factors. In contrast, mutations or deletions in the P1 box had markedly detrimental effects on promoter activity and on binding of proteins in PC12 cell nuclear extracts. Maintenance of a consensus Sp1 binding site centrally located in the P1 box was critical for both promoter activity and binding. A second Sp1 site (-570), just upstream from the P1 box, was also shown to be functionally important but no protection of this region was detected in footprinting experiments, presumably reflecting lower affinity at this site under the conditions used. Supershift experiments demonstrated the involvement of Sp1, Sp3, and Sp4 in formation of complexes with the P1 box region and implicate these transcription factors in regulating promoter activity associated with this region. Another series of reporter constructs, including sequence between -171 and -1, permitted detection of an additional promoter activity downstream from -364. While not yet extensively characterized, it is already evident that the cis elements influencing the downstream promoter activity are distinct from the Sp factors determined to be important in expression from the upstream promoter region.
...
PMID:Two Sp sites are important cis elements regulating the upstream promoter region of the gene for rat type I hexokinase. 932 94
A 1532-base pair 5'-flanking region of the gene encoding rat type III
hexokinase
has been cloned and sequenced. The total sequence includes positions -1548 to -17 (A of the translational start ATG as position +1). Using luciferase reporter constructs transfected into PC12 (rat pheochromocytoma) and L2 (rat lung) cells, basal promoter activity has been associated with sequence between -182 and -89. This includes a single transcriptional start site, an adenine at position -134 identified by primer extension. Together with previously cloned cDNA sequence, this accounts for an mRNA of approximately 3.9 kilobases, found by Northern blotting of RNA from rat lung and kidney. Sequence upstream of the transcriptional start site was devoid of canonical TATA and CAAT elements. An octamer 1 (Oct-1) binding site, located between positions -166 and -159 was shown by deletion analysis and site-directed mutation to be critical for promoter activity. Nuclear extracts from PC12 cells contained a protein (or proteins) specifically binding the octamer sequence, and supershift experiments with anti-Oct-1 indicated involvement of this ubiquitously expressed transcription factor in the complex. Sequence including the Oct-1 site and immediately adjacent regions was protected from
DNase I
digestion in footprinting experiments with nuclear extracts from PC12 cells. Reverse transcription polymerase chain reaction indicated that levels of type III
hexokinase
mRNA in rat tissues increased in the order brain < liver < lung approximately kidney; immunoblotting indicated that type III
hexokinase
protein in these tissues increased in a similar manner.
...
PMID:Characterization of the rat type III hexokinase gene promoter. A functional octamer 1 motif is critical for basal promoter activity. 1053 80
One of the most common signatures of highly malignant tumors is their capacity to metabolize more glucose to lactic acid than their tissues of origin. Hepatomas exhibiting this phenotype are dependent on the high expression of type II
hexokinase
, which supplies such tumors with abundant amounts of glucose 6-phosphate, a significant carbon and energy source especially under hypoxic conditions. Here we report that the distal region of the hepatoma type II
hexokinase
promoter displays consensus motifs for hypoxia-inducible factor (HIF-1) that overlap E-box sequences known to be related in other gene promoters to glucose response. Moreover, we show that subjecting transfected hepatoma cells to hypoxic conditions activates the type II
hexokinase
promoter almost 3-fold, a value that approaches 7-fold in the presence of glucose. Consistent with these findings is the induction under hypoxic conditions of the HIF-1 protein. Reporter gene analyses with a series of nested deletion mutants of the hepatoma type II
hexokinase
promoter show that a significant fraction of the total activation observed under hypoxic conditions localizes to the distal region where the overlapping HIF-1/E-box sequences are located. Finally,
DNase I
footprint analysis with a segment of the promoter containing these elements reveals the binding of several nuclear proteins. In summary, these novel studies identify and characterize a marked glucose-modulated activation response of the type II
hexokinase
gene to hypoxic conditions within highly glycolytic hepatoma cells, a property that may help assure that such cells exhibit a growth and survival advantage over their parental cells of origin.
...
PMID:Glucose catabolism in cancer cells: identification and characterization of a marked activation response of the type II hexokinase gene to hypoxic conditions. 1155 73
Mannose for mammalian glycan biosynthesis can be imported directly from the medium, derived from glucose or salvaged from endogenous or external glycans. All pathways must generate mannose 6-phosphate, the activated form of mannose. Imported or salvaged mannose is directly phosphorylated by
hexokinase
, whereas fructose 6-phosphate from glucose is converted to mannose 6-phosphate by phosphomannose isomerase (PMI). Normally, PMI provides the majority of mannose for glycan synthesis. To assess the contribution of PMI-independent pathways, we used PMI-null fibroblasts to study N-glycosylation of
DNase I
, a highly sensitive indicator protein. In PMI-null cells, imported mannose and salvaged mannose make a significant contribution to N-glycosylation. When these cells were grown in mannose-free medium along with the mannosidase inhibitor, swainsonine, to block the salvage pathways, N-glycosylation of
DNase I
was almost completely eliminated. Adding approximately 13 microm mannose to the medium completely restored normal glycosylation. Treatment with bafilomycin A(1), an inhibitor of lysosomal acidification, also markedly reduced N-glycosylation of
DNase I
, but in this case only 8 microm mannose was required to restore full glycosylation, indicating that a nonlysosomal source of mannose made a significant contribution. Glycosylation levels were greatly also reduced in glycoconjugate-free medium, when endosomal membrane trafficking was blocked by expression of a mutant SKD1. From these data, we conclude that PMI-null cells can salvage mannose from both endogenous and external glycoconjugates via lysosomal and nonlysosomal degradation pathways.
...
PMID:The relative contribution of mannose salvage pathways to glycosylation in PMI-deficient mouse embryonic fibroblast cells. 1821 64
