EC:3.2.1.26 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.26 (invertase)
4,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Widely used methods in diagnostical and experimental gastroenterology like measuring the protein-and DNA-content and the activity of alkaline phosphatase and sucrase of intestinal mucosa were adapted to a microliter system and partly automatized. With "artificial" control material a system for statistical quality control was established. Lastly the results on up to three years experience with this control system were presented showing an imprecision within run below 5% and an in-imprecision between run below 8% in all methods.
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PMID:Measurement of enzyme activity and substrates in intestinal mucosa. Evaluation of a system for quality control in clinical and experimental gastroenterology. 88 67

Rats with chronic uremia following five-sixths nephrectomy showed a significant fall in the sucrase and maltase activities in the small intestinal mucosa, the lactase and cellobiase activities in contrast remained uninfluenced. The activity of the L-leucyl-L-proline and L-methionyl-L-proline dipeptidases in the small intestinal mucosa was significantly increased, while the activities of seven other dipeptidases studied were unaffected. The mucosal protein and DNA content likewise remained unchanged. Occasional slight alterations of the mucosa were the only finding at histology.
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PMID:Activities of intestinal enzymes in experimental chronic renal insufficiency. 88 89

The relationship of the surface properties of a group of anionic surfactants to their effects on intestinal water transport was studied. Dose-response inhibition of water transport in everted hamster jejunal segments was obtained with two long chain detergents (sodium dodecyl sulfate and dioctyl sodium sulfocuccinate), a fatty acid (ricinoleate), and dihydroxy bile salts (deoxycholate, chenodeoxycholate, and taurodeoxycholate), whereas no activity was seen with trihydroxy (cholate, glycocholate, and taurocholate) and tri-keto (dehydrocholate) bile salts. The relative effects on water transport were paralleled by their abilities to lyse the erythrocyte, a membrane model. These two biological effects were related to the surface properties of the agents, as determined by critical micelle concentration and surface tension reduction. We further characterized the action of deoxycholate on hamster small intestine, in vivo. Net water secretion was accompanied by increases in permeability of the mucosa to inulin, dextran, and albumin. These secretory and permeability changes were accompanied by both biochemical and histological alterations: exfoliation (DNA release), membrane effects (sucrase release), and shortened villi. Electron microscopy revealed extensive alteration of the brush border membrane with a decrease in binding of lanthanum and the development of permeability to tracer in villus tip cells. In contrast, taurocholate, which did not alter water transport, did not affect intestinal permeability or the brush border membrane. We believe that the surface properties of anionic surfactants cause changes in absorptive cell membranes which result in intestinal secretion.
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PMID:Effects of anionic surfactants on hamster small intestinal membrane structure and function: relationship to surface activity. 89 48

The mechanism of hydroxy fatty acid-induced secretion was investigated in perfused hamster small intestine in vivo. Sodium ricinoleate at an 8-mM concentration resulted in not only secretion of water and sodium, but an increase in intestinal clearance of inulin and a 16,000 mol wt dextran as well. A concentration of ricinoleate (2 mM) which did not affect water transport, however, did not alter intestinal permeability. Ricinoleate-induced intestinal secretion was also accompanied by increased mucosal cell exfoliation as measured by the appearance of DNA in the perfusate and by apparent injury to epithelial cell membranes as judged by measurement of sucrase activity and phospholipid in cell-free aliquots of luminal fluid. Light and electron microscopic studies demonstrated substantial mucosal architectural changes with 8 mM ricinoleate with villus shortening and injury to epithelial cells at the villus tips. In contrast, cholera enterotoxin caused marked secretion of sodium and water, presumably by a cyclic AMP mechanism, but did not alter inulin clearance or enhance DNA or sucrase appearance in the lumen. These studies suggest that at least a component of ricinoleate-induced intestinal secretion is related to structural alterations of the mucosa.
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PMID:The effects of sodium ricinoleate on small intestinal function and structure. 95 72

Using preparations of exogenous DNA and products of its in complete degradation, the causes leading to the compensatory changes of the share of membrane hydrolysus in the total invertase activity of the irradiated rat's intestinal epithelial were analysed experimentally. It is shown that the factor stimulating the enzyme redistribution towards the brush border zone is not the amount of mature villous cells, but the level of mitotic activity in crypts.
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PMID:[Mechanism of functional adaptation of intestinal epithelial cells]. 102 13

Lactase deficiency, manifested clinically by lactose malabsorption, is often the only biochemical evidence of a residual disturbance of jejunal mucosal function after Escherichia coli enteropathy in the infant. Villous morphology is usually normal. A sustained depression of the processes of biochemical differentiation of lactase biosynthesis has been postulated to explain similar states of lactase deficiency, but a possible influence of altered epithelial cell turnover on the mucosal lactase levels has not been investigated. In ten infants with a residual lactose malabsorption, after E. coli infection, jejunal cell renewal activity and disaccharidase activities were studied by analysis of the exfoliated cells collected by lumenal perfusion. Significant increases in DNA and protein exfoliation and in the brush border activities of sucrase and lactase were observed during recovery from the malabsorptive disturbance. DNA and protein efflux increased almost linearly during a 20-day period. Lactase was initially four times more deficient than sucrase activity in the exfoliated cells. Both enzyme activities increased at almost identical rates. Therefore, it took longer for lactase activity to return to normal levels. The lactase/sucrase ratios approached normal at the end of the 20-day period. The changes in the exfoliating levels of the two enzymes, when analysed in relation to the increases in cell renewal activity, suggested a relationship between sucrase and lactase levels and cell age.
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PMID:Intestinal exfoliated cells in infant diarrhoea: changes in cell renewal and disaccharidase activities. 104 54

The effect of jejunum-bypass operation on lactase in rat small intestine was examined. Three groups of four or five rats were designated as jejunum-bypassed, sham-operated and normal rats. All animals including normal rats received by pair-feeding 5% glucose/1% NaCl for 5 days following the operation; thereafter they were fed ad libitum the laboratory chow diet. Three weeks after the jejunal bypass operation, the proximal ileum exhibited a hyperplasia as evidenced by a concomitant increase in mucosal contents of both total proteins and DNA. The specific activity of lactase in this segment was significantly lower in the operated rats than sham-operated controls, whereas the specific activity of sucrase in this segment was significantly elevated. The reduction of lactase activity was also evident in the proximal jejunal segment as well as in the distal jejunum which was deprived of luminal nutrition, suggesting that some hormonal factor(s) might be involved in the decrease of lactase activity in jejunum-bypassed animals. Electroimmunoassay revealed that the amount of immunoreactive lactase also declined in the operated rats relative to the sham-operated controls. Our results thus suggest that lactase activity in residual ileum is not only unable to compensate for the loss of digestive-absorptive surface of jejunum, but lactase activity even decreases following jejunum-bypass operation.
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PMID:Decrease of lactase activity in the small intestine of jejunum-bypassed rats. 129 41

We have developed a vector system for high-copy-number integration into the ribosomal DNA of the yeast Kluyveromyces lactis. This system is analogous to the pMIRY-system developed for Saccharomyces cerevisiae. Plasmids containing a portion of K. lactis rDNA for targeted homologous recombination, as well as the S. cerevisiae TRP1 gene with various promoter deletions, were constructed and, after transformation to K. lactis, analyzed for both copy number and stability. These plasmids were found to be present in about 60 copies per cell and were stably maintained during growth under non-selective conditions. Using this vector system, we expressed a fusion construct containing the S. cerevisiae GAL7 promoter, the SUC2 (invertase) signal sequence and the gene coding for alpha-galactosidase from the plant Cyamopsis tetragonoloba. Although the maximum copy number of these integrated plasmids was only about 15, we nevertheless obtained a high level of alpha-galactosidase production (250 mg/l) with a secretion efficiency of about 95%. When compared to extrachromosomal K. lactis vectors containing the same fusion construct, the multicopy integrants showed a much higher alpha-galactosidase production level and a considerably higher stability under non-selective conditions.
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PMID:Multiple-copy integration of the alpha-galactosidase gene from Cyamopsis tetragonoloba into the ribosomal DNA of Kluyveromyces lactis. 132 15

In certain phages and bacteria, there is a recombination system that specifically promotes the inversion of a DNA fragment. These inversion events appear to act as genetic switches allowing the alternate expression of different sets of genes which in general code for surface proteins. The mechanism of inversion in one class of inversion systems (Gin/Hin) has been studied in detail. It involves the formation of a highly specific nucleoprotein complex in which not only the two recombination sites and the DNA invertase participate but also a recombinational enhancer to which the DNA-bending protein Fis is bound.
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PMID:DNA inversions in phages and bacteria. 133 27

The structural gene for the intracellular invertase E1 of Zymomonas mobilis strain Z6C was cloned in a 2.25-kb DNA fragment on pUSH11, and expressed in Escherichia coli HB101. The enzyme produced by the E. coli carrying pUSH11 was purified about 1,122 fold to homogenicity with a yield of 4%. The molecular weight and substrate specificity of the enzyme were identical with those of the intracellular invertase E1 from Z. mobilis. The nucleotides of the cloned DNA were sequenced; they included an open reading frame of 1,536 bp, coding for a protein with a molecular weight of 58,728. The N-terminal amino acid sequence predicted was identical with the sequence of the first 20 N-terminal amino acid residues of the protein obtained by Edman degradation. Comparison of the predicted amino acid sequence of E1 protein with those of the four other known beta-D-fructofuranosidases from Escherichia coli, Bacillus subtilis, and Saccharomyces cerevisiae indicated a stronger homology in the N-terminal portion than in the C-terminal portion.
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PMID:Cloning, sequencing, and characterization of the intracellular invertase gene from Zymomonas mobilis. 136 86

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