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)

An in vitro translocation system has been reconstituted with subcellular fractions from the cell wall-less mutant of Neurospora crassa (fz;sg;os-1). Prepro alpha factor and invertase, secretory proteins from yeast, were faithfully translocated and glycosylated by Neurospora microsomes when presence cotranslationally in the Neurospora translation system. When presence cotranslationally in the Neurospora translation system, microsomes from canine pancreas(cRM) could also translocate and glycosylate the secretory proteins. However, salt-extracted cRM, which is depleted of canine signal recognition particle, could not. Furthermore, prepro alpha factor and a truncated form of invertase, containing the first 262-amino acid residues of the secretory invertase, were glycosylated by Neurospora microsomes posttranslationally, whereas only the truncated form of invertase was glycosylated by cRM when added posttranslationally. The full length invertase was not glycosylated posttranslationally. Posttranslational glycosylation of prepro alpha factor and of the truncated form of invertase is dependent on the hydrolysis of a nucleoside triphosphate. These data suggest that posttranslational glycosylation of prepro alpha factor occurs via a novel type of recognition mechanism which is either absent or ineffective in cRM.
J Biol Chem 1987 Dec 15
PMID:Secretory protein translocation in a neurospora crassa in vitro system. Hydrolysis of a nucleoside triphosphate is required for posttranslational translocation. 296 Jun 80

Site-specific inversion of the G segment in phage Mu DNA is promoted by two proteins, the DNA invertase Gin and the host factor FIS. Recombination occurs if the recombination sites (IR) are arranged as inverted repeats and a recombinational enhancer sequence is present in cis. Intermolecular reactions as well as deletions between direct repeats of the IRs rarely occur. Making use of a fis- mutant of Escherichia coli we have devised a scheme to isolate gin mutants that have a FIS independent phenotype. This mutant phenotype is caused by single amino acid changes at five different positions of gin. The mutant proteins display a whole set of new properties in vivo: they promote inversions, deletions and intermolecular recombination in an enhancer- and FIS-independent manner. The mutants differ in recombination activity. The most active mutant protein was analysed in vitro. The loss of site orientation specificity was accompanied with the ability to recombine even linear substrates. We discuss these results in connection with the role of the enhancer and FIS protein in the wild-type situation.
EMBO J 1988 Dec 01
PMID:Isolation and characterization of unusual gin mutants. 297 1

Representative conditional yeast secretory mutants, blocked in transport of secretory and plasma membrane proteins from the endoplasmic reticulum (sec 18), from the Golgi body (sec 7) and in transport of secretory vesicles (sec 1), accumulated exoglucanase, a constitutive yeast activity, when incubated at the restrictive temperature (37 degrees C). Different proportions of the accumulated activity were released by mutant cells under permissive conditions. The presence or absence of cycloheximide during the secretion period made no differences in the results. More than 90% of the internal activity was bound to membrane in wild type cells. However, only the soluble pool underwent changes during the accumulation or secretion periods. The bulk of secretory invertase accumulated by sec 1 was also soluble. By contrast sec 7 and sec 18 accumulated membrane-bound as well as soluble invertase forms and both were secreted in similar proportions in each mutant. More than 90% of the accumulated invertase was secreted at the permissive temperature in sec 18 cells. That percentage was significantly lower for exoglucanase (less than 65%). Concomitantly, invertase accumulated by this mutant exited from the cells with a lower half time (t1/2 = 24 min) than accumulated exoglucanase (t1/2 = 150 min). These results may be interpreted assuming that exoglucanase is exported by a passive flow of the soluble pool.
Arch Microbiol 1986 Dec
PMID:Accumulation and secretion of exoglucanase activity in yeast secretory mutants. 310 78

Neurotensin has many actions on digestive tract motility and secretion and stimulates pancreatic growth. We examined effects of chronic administration of neurotensin on growth of small intestine and colon. Four groups of 10 rats were injected with saline or neurotensin (33, 100, or 300 micrograms/kg) every 8 h for 5 days. The small intestine was divided into four segments of equal length, weighed, and assayed for DNA, protein, and brush-border digestive enzymes. The colon was weighed and assayed for DNA and protein. Neurotensin caused dose-related increases in growth of small intestine; at the highest dose, similar increases in weight (12-20%), DNA (23-35%), and protein content (33-39%) occurred in each segment of small intestine. Maltase, sucrase, and leucine aminopeptidase (but not lactase) contents were also significantly increased after neurotensin, but the largest effects were seen in the proximal small intestine. Neurotensin had no effect on weight, DNA, or protein content of the colon. These results suggest a role for neurotensin in regulating growth of small intestine.
Am J Physiol 1988 Dec
PMID:Neurotensin stimulates growth of small intestine in rats. 320 74

The interactive effects of lima bean trypsin inhibitor (TI), hemagglutinin (Hgg) and cyanide (CN) when fed at the same degree of activity as found in the raw lima bean (RLB) were assessed in weanling rats using hepatic glutamate dehydrogenase (GLDH), isocitrate dehydrogenase (ICDH), ornithine carbamoyltransferase (OCT) and intestinal disaccharidases activities as the response criteria. Whereas RLB significantly (P less than 0.05) increased hepatic GLDH and decreased ICDH activities respectively, dietary CN, TI and Hgg whether acting individually or jointly had no significant influence on GLDH. Only the CN-containing diets significantly (P less than 0.05) elevated ICDH activity when compared with the control. Raw lima bean significantly (P less than 0.05) depressed OCT activity while neither the individual nor collective effects of these factors were significant. Dietary CN + TI + Hgg interaction depressed maltase activity to approximately the same extent as RLB in all the intestinal regions. These factors had neither individual nor collective effects on sucrase in the small intestine. Lactase activity in the small intestine was influenced only by the RLB diet, while CN + Hgg, and CN + TI + Hgg dietary combinations induced significant (P less than 0.05) elevations in the activities of cellobiase when compared with the control. Although synergism of action is indicated in a number of instances, it is suggested that these factors may need to combine with others within the bean, perhaps synergistically, to elicit comparable anti-nutritional influences as the RLB.
Vet Hum Toxicol 1988 Dec
PMID:The interactive effects of lima bean (Phaseolus lunatus) trypsin inhibitor, hemagglutinin and cyanide on some hepatic dehydrogenases, ornithine carbamoyltransferase and intestinal disaccharidases in weanling rats. 324 17

Oral administration of Gossypol acetic acid (10 mg/kg body wt./day, daily for 15 days), an experimental antifertility agent to male rats, caused significant reduction in the uptake of glucose, alanine, leucine and calcium in the small intestinal segments. Gossypol also caused significant decrease in the intestinal brush border membrane--associated enzymes, sucrase, lactase, maltase and alkaline phosphatase. Kinetic analysis indicated that Gossypol decreased the apparent velocity of the disaccharidases while the Km was not altered. It also caused a shift in the transition temperature in these enzymes and predictably changed the energy of activation both below and above the transition temperature, although the Arrhenius expressions of the temperature dependence still showed proximity and were parallel to the control group.
Biochem Int 1988 Dec
PMID:Effects of gossypol acetic acid on the absorptive and digestive functions of rat intestine. 324 43

The mechanism of inactivation of hexokinase PII of Saccharomyces cerevisiae by D-xylose was characterized. Inactivation was dependent on the presence of MgATP and was irreversible. Inactivation involved phosphorylation of the protein. Observation of the carbon catabolite repression of selected enzymes showed that invertase and maltase synthesis were not repressed when hexokinase PII was phosphorylated.
J Gen Microbiol 1986 Dec
PMID:Mechanism of inactivation of hexokinase PII of Saccharomyces cerevisiae by D-xylose. 330 37

The yeast Saccharomyces cerevisiae X2180 strain with the mnn1 mnn2 mnn9 mutations, all of which affect mannoprotein glycosylation, synthesizes N-linked oligosaccharides having the following structure: (Formula: see text) whereas the mnn1 mnn2 mutant extends the alpha 1----6-linked backbone of some of the core oligosaccharides by adding 20-30 mannose units. Membrane fractions from the mnn1 mnn2 and mnn1 mnn2 mnn9 mutants are equally effective in catalyzing transfer from GDP-[3H]mannose to add mannose in both alpha 1----2 and alpha 1----6 linkages to an oligosaccharide having the following structure: (Formula: see text) but neither membrane preparation can utilize the homologous mnn1 mnn2 mnn9 oligosaccharide as an acceptor. Thus, addition of the alpha 1----2-linked mannose side chain to the terminal alpha 1----6-linked mannose in oligosaccharides of the mnn9 mutant inhibits the elongation reaction and may serve as an important structural control of mannoprotein glycosylation. The mnn9 mutation also increases the transit time for invertase secretion, meaning that this mutation could affect the processing machinery in the Golgi apparatus.
Proc Natl Acad Sci U S A 1987 Dec
PMID:Regulation of the protein glycosylation pathway in yeast: structural control of N-linked oligosaccharide elongation. 332 Oct 55

Adaptive growth and precocious expression of sucrase activity occur in the small intestine of artificially reared (AR) rat pups fed a hormone-free diet. The physiological mechanisms underlying adaptive intestinal growth were studied. Day 12 rat pups that received jejunal isografts subcutaneously on day 0 were subjected to artificial feeding and were killed on day 16. Crypt cellularity and DNA labeling index in isografts from AR, but not from mother-fed, rats increased significantly to levels found in in situ host jejunum of AR rats, indicating that humoral regulatory mechanisms are responsible for intestinal cell proliferation in AR pups. Radioimmunoassays of serum corticosterone, thyroxine, insulin, and gastrin and of gastric gastrin contents revealed that only serum corticosterone concentrations were significantly elevated, suggesting that corticosterone plays a critical role for intestinal growth. To examine this possibility directly, day 12 rats were adrenalectomized (ADX) and AR by continuous infusion of diets containing 0, 10, or 50 micrograms/ml corticosterone. Serum corticosterone concentrations paralleled the infused doses of corticosterone. Jejunal DNA labeling index increased in all ADX AR rats at day 13 in a dose-dependent manner. Increased jejunal DNA labeling index was maintained on day 14 in intact AR rats and ADX AR rats fed 10 micrograms/ml corticosterone but not in ADX AR rats receiving 0 or 50 micrograms/ml. We conclude that endogenous corticosterone is one of the systemic factors responsible for the adaptive increase in intestinal growth of AR rats.
Am J Physiol 1987 Dec
PMID:Hormonal regulation of adaptive intestinal growth in artificially reared rat pups. 332 40

Various gene fusions between the arginine permease and invertase have been constructed in order to obtain information about whether parts of the CAN1 gene product can induce secretion of biologically active invertase missing its own signal sequence. A construction containing 30 N-terminal amino acid residues of the CAN1 gene product fused to invertase was not secreted. When the CAN1 portion was elongated to 477 or 560 amino acid residues, secretion of the fusion proteins was observed. A fusion lacking 59 amino acids at the amino-terminal end of the arginine permease was also secreted. These results indicate that the amino-terminal end of the arginine permease is neither sufficient nor essential for membrane insertion; instead this enzyme should contain an internal targeting sequence facilitating secretion. Some general implications on the biosynthesis and topology of membrane proteins are also discussed as well as the homology with histidine permease.
Mol Gen Genet 1987 Dec
PMID:CAN1-SUC2 gene fusion studies in Saccharomyces cerevisiae. 332 76


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