EC:3.2.1.26 - FACTA Search

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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)

F-actin and associated myosins are thought to take part in a wide range of cellular processes, like motility and contraction, polarized growth, and secretion. The reagent 2,3-butanedione monoxime (BDM) is a well characterized inhibitor of the contraction of vertebrate muscle that reversibly affects myosin function and influences the intracellular concentration of Ca2+. Here we describe the influence of BDM on growth and division of the fission yeast Schizosaccharomyces pombe. At concentrations from 1-30 mM, BDM gradually inhibited formation and growth of S. pombe colonies on agar plates, with a lethal effect at > or = 15 mM. In strains of S. pombe that were blocked by elevated temperature from entry into mitosis, drug treatment reversibly decreased microtubule-independent tip growth and septation, with an IC50 value around 12 mM; nuclear division, on the other hand, was essentially unaffected by up to 15 mM BDM. At 30 mM BDM the secretion of invertase, which required both F-actin and microtubules, was decreased to the same extent as that seen when cytochalasin D was used to disrupt F-actin. However, the actin cytoskeleton was insensitive to up to 10 mM BDM, while the actin patches lost their polar distribution at 20-30 mM BDM. Cells treated with 5-20 mM BDM for 3 hours and then high pressure frozen did not show an accumulation of secretory vesicles. However, 10 mM BDM treatment disorganized the fungal cell wall, resulting in some unusually thick parts lying next to regions were the wall was almost absent. These defects could be rescued by incubating the cells in inhibitors of glucanases. Osmolytic stabilization with sorbitol rescued the effect of 15 mM BDM on colony survival, indicating that the secretion of wall components and/or wall-modifying enzymes may be the principal reason for cell death caused by BDM. Our results are consistent with the hypothesis that BDM influences actin-dependent processes in fission yeast and that actomyosin-dependent motility contributes to the secretory process of tip growth.
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PMID:Effects of the myosin inhibitor 2,3-butanedione monoxime on the physiology of fission yeast. 993 Jun 53

SMKT, a killer toxin produced by the halotolerant yeast Pichia farinosa KK1, consists of alpha and beta subunits with folding remarkably similar to that of the fungal killer toxin KP4, a Ca2+ channel inhibitor. The budding yeast Saccharomyces cerevisiae is sensitive to SMKT. To understand the killing mechanism of SMKT, we isolated SMKT-resistant mutants of S. cerevisiae and characterized them. Five spf mutants (sensitivity to the P. farinosa killer toxin) fell into a single genetic complementation group, designated spf1. The SPF1 gene was cloned by complementation of the mutant phenotype. The SPF1 gene encodes a putative P-type ATPase of 1215 amino acid residues that contains 12 membrane-spanning regions. Gene disruption revealed that the SPF1 gene is not essential for viability but is required for the sensitivity to SMKT. The spf1 disruptant showed some phenotypes characteristic of glycosylation-defective mutants and secreted underglycosylated invertase. Fluorescence-activated cell-sorting analysis and indirect immunofluorescence microscopy showed that SMKT interacts with the cell surface of the resistant cells but not with that of sensitive cells, suggesting a novel resistance mechanism for this toxin. The glycosylation-defective phenotype and possible killer-resistant mechanisms are discussed in comparison with the Golgi Ca2+ pump Pmr1p.
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PMID:P-type ATPase spf1 mutants show a novel resistance mechanism for the killer toxin SMKT. 1036 Dec 84

Putative "protein nitratases," which catalyze denitration of peroxynitrite (PN)-treated, proteins, were detected in the crude extract of dog prostate. Nitratase activity was monitored by the decreased intensity of nitrotyrosine immunoreactive-bands in Western blot and increased nitrate level in dialysate of incubation mixture, which contained prostate crude extract, protease inhibitors and a PN-treated substrate, such as treated histone (III-S), BSA, invertase, or polylysine. Nitratases were activated by preincubation with m-calpain/Ca2+. Furthermore, after denitration, the activity of PN/DTT-treated invertase decreased to the similar activity level of DTT-treated invertase. At least two different types of nitratases may occur: type I, reductant-dependent, and type II, reductant-independent.
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PMID:Denitration of peroxynitrite-treated proteins by "protein nitratases" from dog prostate. 1041 Feb 52

Putative 'protein nitratases,' which catalyze denitration of peroxynitrite (PN)-treated proteins, were detected in the homogenate/crude extract of rat brains and hearts. Nitratase activity was monitored by the decreased intensity of nitrotyrosine immunoreactive-bands in Western blot and increased nitrate level in dialysate of incubation mixture, which contained homogenate/crude extract, protease inhibitors and a PN-treated substrate, such as treated histone (III-S), BSA or invertase. Enhanced activity of nitratases was noted by preincubating crude extract with Ca2+. In addition, at least two types of nitratases may occur: type I, reductant-dependent, and type II, reductant- independent. Furthermore, upon denitration, the activity of PN-treated invertase increased to the same activity level of the untreated invertase. The overall reaction catalyzed by nitratases for denitration of nitrotyrosine residues in protein could be as follows: Protein-Tyr-NO2 + H2O --> Protein-Tyr-H + H+ + NO3-. The nitration/denitration of protein-tyrosine may be crucial in regulating signal transduction.
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PMID:Denitration of peroxynitrite-treated proteins by 'protein nitratases' from rat brain and heart. 1063 Jun 17

Detached ears of sorghum (Sorghum vulgare) were cultured in complete liquid medium containing Ca2+(0, 3, 10 and 30 mM) and effect of this ion on the conversion of sucrose to starch with respect to the activities of amylases, sucrose synthase, sucrose phosphate synthase and soluble invertases were studied in developing grains. Presence of 3 mM Ca2+ in culture medium enhanced both accumulation of starch and activity of alpha-amylase in grain but without having any influence on the activity of beta-amylase. However, with 10 and 30 mM Ca2+, the accumulation of starch and activities of both amylases decreased and with advancement in culturing period, starch accumulation was further decreased. Irrespective of its concentration, Ca2+ enhanced the activities of sucrose synthase (synthesis), sucrose-phosphate synthase, soluble acid invertase and soluble-neutral invertase. Increase in the concentration of Ca2+ in culture medium was concomitant with an elevation in relative proportion of sucrose in the grain reflecting a net balance in per cent increase with Ca2+ in the activities of sucrose-synthesizing enzymes over sucrose-hydrolysing ones. Based on the results, it is suggested that assimilation of Ca2+ by grain is essential for maintaining high activity of alpha-amylase to generate starch primers required for the conversion of sucrose to starch during grain filling in sorghum.
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PMID:Calcium-mediated conversion of sucrose to starch in relation to the activities of amylases and sucrose-metabolizing enzymes in sorghum grains raised through liquid culture. 1098 25

Carcinogenic and other toxic manifestations of areca/betel nut extracts on the buccal cavity and upper digestive tract are well documented. The present study deals with in vivo and in situ effects of aqueous and alcoholic extracts of areca nut on rat intestinal epithelial cell membrane. In vivo daily oral administration by gastric intubation for 1p w produced significant declines in brush border membrane alkaline phosphatase, Ca2+-Mg2+-ATPase, and the digestive enzyme sucrase. The decline in activities were more prominent after 4-w exposures. Instant short term in situ exposure to aqueous extract produced higher enzyme activities, indicating the initial activation of active sites by areca nut extract constituent(s). Significant declines in brush border membrane constituents (total hexose, sialic acid and cholesterol) were also evident following continuous exposures to areca nut extracts. These findings suggest that prolonged chewing of areca nut causes significant alterations in intestinal epithelial cell lining functions and could lead to malabsorption of nutrients.
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PMID:Effect of betel/areca nut (Areca catechu) extracts on intestinal epithelial cell lining. 1100 13

The possible involvement of Ca2+ as a second messenger in snapdragon (Antirrhinum majus L.) shoot gravitropism, as well as the role of ethylene in this bending response, were analyzed in terms of stem curvature and gravity-induced asymmetric ethylene production rates, ethylene-related metabolites, and invertase activity across the stem. Application of Ca2+ chelators (ethylenediaminetetraacetic acid, trans-1,2-cyclohexane dinitro-N,N,N',N'-tetraacetic acid, 1,2-bis(2-aminophenoxy)ethane-N,N,N',N',-tetraacetic acid) or a Ca2+ antagonist (LaCl3) to the spikes caused a significant loss of their gravitropic response following horizontal placement. Conversely, the Ca2+ ionophore A23187 or the agonist Bay K-8644 increased gravibending. Longitudinally halved stem sections had significantly higher amounts of ethylene, 1-aminocyclopropane-1-carboxylic acid, and 1-(malonylamino) cyclopropane-1-carboxylic acid compared with vertical controls, with the extra production arising exclusively from the lower half of the stem. trans-1,2-cyclohexane dinitro-N,N,N',N'-tetraacetic acid pretreatment completely abolished the gravity-induced ethylene gradient across the stem, thereby leading to a significant reduction of the curvature. Similarly, reduction of the ethylene produced in the gravistimulated with CoCl2 or inhibition of its action by silver thiosulfate or 2,5-norbornadiene significantly inhibited the subsequent gravibending. Silver thiosulfate and CoCl2 also abolished the gravity-induced gradient of invertase activity across the stem, which is associated with the asymmetric stem elongation. These results suggest that cytosolic Ca2+ may regulate auxin action in snapdragon spikes, manifested as increased ethylene production, which is, in turn, intimately correlated with stem bending. Therefore, both hormones seem to play significant roles in induction and progress of the gravibending of snapdragon spikes.
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PMID:Regulation of the gravitropic response and ethylene biosynthesis in gravistimulated snapdragon spikes by calcium chelators and ethylene inhibitors. 1153 26

In rats fed 18% protein diet, administration of endosulfan (2mg/kg body weight daily for 7 days) significantly decreased the brush border sialic acid and increased the hexoses contents. The intestinal uptake of glucose was increased while that of glycine and calcium was reduced. Brush border enzymes and lipids were not affected. However, in protein malnourished rats (fed 8% protein) exposed to endosulfan, brush border sucrase and peptidase activities were enhanced, while alkaline phosphatase activity was decreased compared to untreated malnourished animals. Membrane sialic acid content was low while fucose and cholesterol levels were augmented in endosulfan fed malnourished animals. The uptake of glucose and glycine was elevated under these conditions. These results Suggest that the nutritional status of the animals has an important bearing on thc susceptibility of intestinal tissue to endosulfan toxicity in rats.
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PMID:Effects of endosulfan on intestinal functions in protein-malnourished rats. 1188 9

A complex biocatalyst system with a bioreactor equipped with a microfiltration (MF) module was employed to produce high-content fructooligosaccharides (FOS) in a continuous process initiated by a batch process. The system used mycelia of Aspergillus japonicus CCRC 93007 or Aureobasidium pullulans ATCC 9348 with beta-fructofuranosidase activity and Gluconobacter oxydans ATCC 23771 with glucose dehydrogenase activity. Calcium carbonate slurry was used to control pH to 5.5, and gluconic acid in the reaction mixture was precipitated as calcium gluconate. Sucrose solution with an optimum concentration of 30% (w/v) was employed as feed for the complex cell system, and high-content FOS was discharged continuously from a MF module. The complex cell system was run at 30 degrees C with an aeration rate of 5 vvm and produced more than 80% FOS with the remainder being 5-7% glucose and 8-10% sucrose on a dry weight basis, plus a small amount of calcium gluconate. The system worked for a 7-day continuous production process with a dilution rate of 0.04 h(-1), and the volumetric productivity for total FOS was more than 160 g L(-1) h(-1).
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PMID:Continuous production of high-content fructooligosaccharides by a complex cell system. 1246 63

Entrapped cells and entrapped cells grown inside of a calcium alginate matrix as well as free cells have been investigated using Saccharomyces cerevisiae mutant strains with regard to their pattern of growth and invertase activity. The repression of invertase by glucose and glucose-consumption ability were considered in the selection process of the mutants. Efficient sucrose bioconversion due to high invertase activity was obtained when entrapped mutant strain Q6R2 cells were grown within calcium alginate gel beads using sucrose plus glucose as the carbon source. Under these conditions, 1 mg (dry weight) of entrapped cells is able to produce 20 micromol of inverted sugar in 3 min (the maximum activity obtained was 20 units x mg(-1)). The experiments were carried out for 6 months without appreciable loss of either bead integrity or invertase activity. The biocatalyst was also stored at 4 degrees C for 6 months without appreciable loss of the invertase activity. This work shows that entrapped yeast cells with a weak ability to consume sugar may be used to produce inverted sugar.
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PMID:A strategic study using mutant-strain entrapment in calcium alginate for the production of Saccharomyces cerevisiae cells with high invertase activity. 1260

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