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)

In 28 dogs the distal articular cartilage of the femur was removed and the regenerating articular surface on the 70th postoperative day was studied histochemically for hexokinase, glucose-6-phosphatase, phosphohexose-isomerase, fructose-1, 6-diphosphatase, aldolase, glyceraldehyde-3-phosphate dehydrogenase, lactate dehydrogenase, lactate dehydrogenase isoenzymes, phosphoglucomutase, phosphorylase, glycogen synthetase, UDP--glucose dehydrogenase, and UDP-glucuronic acid-4-epimerase. The articular surface consisted of fibrous tissue and of cartilage islets. The latter contained cells differentiating into cartilage and young chondrocytes. The glycolytic enzymes reacted positively in the regenerative articular surface. Enzyme activities were higher in the cells (particularly the chondroblasts and young chondrocytes) of the cartilage islets than in the connective tissue. In the cells differentiations into cartilage, beside the LDH isoenzymes characteristic of glycolysis, a significant LDH1 and LDH2 activity was observed. At the same site the presence of fructose-1, 6-diphosphatase-activity could be assumed, but there was no glucose-6-phosphatase activity. Glycogen synthesis proceeded in the cells of the cartilage islets and UDP-glucuronic acid-4-epimerase activity was observed in the differentiated cells. UDP-glucose dehydrogenase activity was positive in every section of the articular surface.
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PMID:Studies on cartilage formation. XX. Histochemical investigation of some enzymes of glycogen metabolsim in regenerative articular surfaces. 18 10

Lactose biosynthesis and relevant enzymatic activity in rabbit mamma ry tissue during various stages of pregnancy and lactation are investigated by using a tissue-slice incubation method in order to understand the temporal relationships. Ovulation was induced in 27 New Zealand white rabbits and they were bred by artificial insemination. Sacrifice occurred on days 15, 24, and 29 of pregnancy, and day 2, 5, 8, 15, and 22 post partum. Nucleic acids were extracted and concentratons of DNA determined spectrophotometrically at 600 nm with diphenylamine reagent and RNA determined with orcinal reagent. The tissue incubations were made with (U-14C) glucose. (14C) lactose was then separated by paper chromatography from unchanged radioactive glucose. Enzyme analysis including determining the activities of phosphoglucomutase, UDP-glucose pyrophosphorylase, and UDP-glucose 4-epimerase. Lactose synthase was determined, as well as, hexokinase. A biphasic adaptation in the rate of lactose synthesis and in the RNA concentration was noted during lactogenesis. The 1st increase in the rate of lactose biosynthes is occurred between days 15 and 24 of pregnancy. A 2nd substantial increase was noted immediately post partum. The overall rate of lactose biosynthesis increased 12-fold from day 24 of pregnancy to day 15 of lactation post partum, and then decreased from 15 to 22 days post partum. The RNA concentration/g wet weight of tissue and the ratio of RNA/DNA closely represented the biphasic ability of the mammary-tissue slice to synthesize lactose. Increases in the activities of UDP-glucose 4-epimerase and lactose synthase were most closely correlated with increases in the rate of lactose biosynthesis. UDP-glucose pyrophosphor ylase activity was unrelated with the ability to synthesize lactose, and hexokinase and phosphoglucomutase activities were variable during pregnancy and lactation. Lactose synthase activity was present by day 15 of pregnancy, but the ability to synthesize lactose was undetected until day 24 of pregnancy.
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PMID:Metabolic adaptations during lactogenesis. Lactose synthesis in rabbit mammary tissue during pregnancy and lactation. 421 77

1. Lactogenesis was initiated in pregnant rats by ovariectomy, thereby causing progesterone withdrawal, after which the mammary tissue was analysed for contents of enzymes and metabolites concerned with the biosynthesis of lactose. 2. Lactose synthesis increased about 126-fold with little or no accompanying change in the contents of most metabolic intermediates or in the adenine nucleotide energy charge. 3. Comparison of mass-action ratios with equilibrium constants showed that phosphoglucomutase (EC 2.7.5.1), UDP-glucose pyrophosphorylase (EC 2.7.7.9) and UDP-glucose epimerase (EC 5.1.3.2.) catalysed reactions close to equilibrium. Nucleoside diphosphokinase (EC 2.7.4.6.) activity was very high and probably equilibrates the UTP-UDP and ATP-ADP couples. Lactose synthetase and hexokinase (EC 2.7.1.1) appeared to catalyse rate-limiting reactions. 4. Large increases were seen of UDP-glucose pyrophosphorylase (5-fold), lactose synthetase A protein (3.8-fold) and alpha-lactalbumin (28-fold), but not of hexokinase, phosphoglucomutase, UDP-glucose epimerase, nucleoside diphosphokinase or glucose 6-phosphate dehydrogenase (EC 1.1.1.49) activities. 5. It appeared that the increased lactose synthesis was largely accounted for by the increased lactose synthetase A protein activity and alpha-lactalbumin.
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PMID:Progesterone and the metabolic control of the lactose biosynthetic pathway during lactogenesis in the rat. 436 33

Wild-type Saccharomyces cerevisiae and a strain carrying a deletion in the glucose-6-phosphate-isomerase gene (pgi1) were grown in carbon-limited continuous cultures on a mixture of fructose and galactose. Pulses of glucose, fructose and galactose were given to these cultures to investigate whether the pgi1 strain was capable of normal glucose repression. Glucose and galactose pulses inhibited fructose consumption and thus glycolysis in the pgi1 strain by a combination of competition between glucose and fructose at the uptake and/or phosphorylation level and inhibition of fructose uptake and/or phosphorylation by glucose 6-phosphate. Fructose pulses administered to the pgi1 strain transiently decreased the glycolytic flux downstream of fructose-1,6-bisphosphate. Transcriptional induction of the PDC1 gene (encoding pyruvate decarboxylase) was observed after glucose or galactose pulses were applied to the pgi1 strain, demonstrating that metabolism of these sugars beyond glucose 6-phosphate is dispensable for PDC1 induction. Fructose also induced PDC1 transcription, indicating that intracellular sugars could act as trigger for PDC1 induction or, alternatively, that two inductors are present. In contrast to the wild-type transcriptional inhibition of the glucose-repressible genes, HXK1 and GAL10 (encoding hexokinase isoenzyme 1 and uridine diphosphoglucose-4-epimerase, respectively) did not occur upon addition of glucose or fructose to the pgi1 mutant. Transcriptional repression was observed after application of the fructose pulse when the yeast had resumed metabolism of fructose. These results demonstrate that the initial signal for catabolite repression is not generated by high sugar concentrations or high concentrations of intermediates; moreover a simple role for the hexokinases can also be excluded. The absence of an increased glycolytic flux in the pgi1 mutant after administration of the sugar pulses while the concentrations of sugar and glycolytic intermediates were high, suggests that the initial signal for glucose repression could be linked to an increased glycolytic flux. The occurrence of PDC1 induction in the pgi1 strain while GAL10/HXKI repression is absent, demonstrates that the initial signals for catabolite induction and catabolite repression are different.
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PMID:The glucose-6-phosphate-isomerase reaction is essential for normal glucose repression in Saccharomyces cerevisiae. 850 83