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)

External invertase is the product of the SUC2 gene of Saccharomyces cerevisiae. The deduced sequence of this enzyme (Taussig, R., and Carlson, M. (1983) Nucleic Acid Res. 11, 1943-1954) reveals it to contain 14 potential N-linked glycosylation sites, or sequons, although only 9-10 appear to be glycosylated (Trimble, R. B., and Maley, F. (1977) J. Biol. Chem. 252, 4409-4412). To determine the location of the glycosylated sequons, external invertase was deglycosylated with endo-beta-acetylglucosaminidase H and its component peptides analyzed by both fast atom bombardment mass spectrometry (FABMS) and classical peptide isolation procedures. By use of the former technique most of the glucosamine-containing sequons could be located and by the latter sufficient amounts of small glucosamine-containing peptides were isolated to enable their quantitation. From the combined FABMS and glucosamine analyses, it was established that eight of the sequons in a subunit of invertase are either completely or almost completely glycosylated, while five others are glycosylated to the extent of about 50% or less. In the case of two overlapping sequons (4 and 5), which include Asn92-Asn93-Thr-Ser, only the first Asn was glycosylated. Thus, all but one of the sequons of external invertase are glycosylated to some extent, giving an appearance of only 9-10 N-linked oligosaccharides/subunit. The sequence identity of both external and internal invertase was verified by FABMS and by peptide sequence analysis. In only one site was an amino acid found to differ from that deduced from the DNA sequence of the SUC2 gene. This occurred at position 390 where a proline was found in place of alanine, which could result from a single base change in the triplet specifying the latter amino acid.
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PMID:Characterization of the glycosylation sites in yeast external invertase. I. N-linked oligosaccharide content of the individual sequons. 328 81

A pleiotropic mutation in Neurospora (exo-1), which confers derepression of alpha-amylase, glucoamylase, beta-fructofuranosidase, and trehalase, appears to also affect the composition of the cell wall. Segregants resulting from the backcross of exo-1 to the wild-type strain from which it derived are altered in the ratio of galactosamine to glucosamine in hydrolysates of isolated cell walls. Conidial cell walls exhibit a marked decrease in the amount of galactosamine in both exo-1 and exo-1(+) strains. Increased levels (approximately sevenfold) of amylase are found in conidia of exo-1, as compared with those of exo-1(+).
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PMID:Cell wall alterations associated with the hyperproduction of extracellular enzymes in Neurospora crassa. 426 2

Saccharomyces cerevisiae NCYC 366 is susceptible to cold osmotic shock. Exponentially growing cells from batch cultures grown in defined medium at 30 C, after being suspended in 0.8 m mannitol containing 10 mm ethylenedia-minetetraacetic acid and then resuspended in ice-cold 0.5 mm MgCl(2), accumulated the nonmetabolizable solutes d-glucosamine-hydrochloride and 2-aminoisobutyrate at slower rates than unshocked cells; shocked cells retained their viability. Storage of unshocked batch-grown cells in buffer at 10 C led to an increase in ability to accumulate glucosamine, and further experiments were confined to cells grown in a chemostat under conditions of glucose limitation, thereby obviating the need for storing cells before use. A study was made of the effect of the different stages in the cold osmotic shock procedure, including the osmotic stress, the chelating agent, and the cold Mg(2+)-containing diluent, on viability and solute-accumulating ability. Growth of shocked cells in defined medium resembled that of unshocked cells; however, in malt extract-yeast extract-glucose-peptone medium, the shocked cells had a longer lag phase of growth and initially grew at a slower rate. Cold osmotic shock caused the release of low-molecular-weight compounds and about 6 to 8% of the cell protein. Neither the cell envelope enzymes, invertase, acid phosphatase and l-leucine-beta-naphthylamidase, nor the cytoplasmic enzyme, alkaline phosphatase, were released when yeast cells were subjected to cold osmotic shock.
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PMID:Cold osmotic shock in Saccharomyces cerevisiae. 500 Dec 1

Rat intestinal surface-membrane glycoproteins were labelled by intraperitoneal injection of [1-(14)C]glucosamine 4h before the animals were killed. At this time, density-gradient centrifugation of disrupted brush borders indicated that glycoprotein radioactivity was distributed identically with sucrase, a plasma-membrane marker. Labelled brush borders were digested by papain for brief time-intervals known to release surface-enzyme particles without disruption of the unit membrane. Digestion for 5min released 90% of the surface sucrase, and almost one-half of the brush-border glycoprotein and label. On Sepharose 4B column chromatography most of the glycoprotein and label emerged as a single peak. This peak contained the most actively labelled glycoprotein in the brush border and was closely associated with maltase, sucrase, beta-naphthylamidase and alkaline phosphatase. The peak was partially resolved on polyacrylamide-gel electrophoresis into three bands. Each band contained a distinctive enzyme or enzyme pair, and was labelled by [1-(14)C]glucosamine. No periodic acid-Schiff-negative protein was observed in the peak material. Glycoproteins susceptible to brief digestion with papain are therefore closely linked to released surface-enzyme particles. Intestinal surface glycoproteins are heterogeneous with respect to molecular weight, electrophoretic mobility and function.
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PMID:Release of intestinal surface-membrane glycoproteins associated with enzyme activity by brief digestion with papain. 511 92

Trevithick, John R. (University of Wisconsin Medical School, Madison), Robert L. Metzenberg and Donald F. Costello. Genetic alteration of pore size and other properties of the Neurospora cell wall. J. Bacteriol. 92:1016-1020. 1966.-Several properties of the cell walls of wild type and the osmotic mutant of Neurospora crassa have been examined. The peameability of the isolated cell walls to polyethylene glycol and dextran polymers of different molecular weights was investigated by the volume of distribution technique. The exclusion thresholds were evaluated by a statistical treatment. The molecular weights corresponding to these thresholds for wild type and osmotic were approximately 4,750 and 18,500, respectively; these values are significantly different. The cell walls of osmotic appeared to be thinner, more easily broken, and more easily compressed to ribbonlike shapes, whereas those of wild type were tubular and strong. Chemical analysis showed that osmotic walls had roughly a 30-fold higher galactosamine-glucosamine ratio than did wild type. It is proposed that the osmotic mutant has a cell wall with abnormally large pores, and that this may account for the increased rate of egress of invertase and the decreased fractionation of light from heavy invertase in this strain.
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PMID:Genetic alteration of pore size and other properties of the Neurospora cell wall. 592 38

Mucin secretion was examined in three functional models relevant to human disease, using rat small intestinal rings or in situ loops, [3H]glucosamine precursor labelling, gel chromatography and a specific radioimmunoassay for mucin. As a model for acute bacterial secretory diarrhoea, tissues were exposed to cholera toxin for up to 4 h. Both stored and newly synthesized radioactive glycoproteins were secreted in amounts twofold to threefold above control levels. Immunoreactive mucin secretion increased fivefold to eightfold. Other agents known to raise cAMP levels did not stimulate mucin secretion, suggesting that cholera may release mucin by a non-cAMP-dependent mechanism. Sepharose 2B chromatography indicated that secreted mucin was smaller in size than intracellular mucin and had compositional differences suggestive of 'immaturity' or protein contamination. In chronically (seven days) reserpinized rats, used as a model of glycoprotein abnormalities relevant to cystic fibrosis, mucin secretion increased twofold to threefold, but the most prominent abnormality was a marked increase in [3H]glucosamine incorporation into all tissue glycoproteins. On purification, the intracellular mucin of reserpine-treated rats had the same composition as mucin from control rats, but the former was smaller in size and had a higher specific radioactivity. Mucin hypersecretion in reserpinized rats may therefore be secondary to a primary and chronic hyperstimulation of mucin biosynthesis. A model of intestinal 'anaphylaxis' or immune-mediated diarrhoea was created in Hooded Lister rats by immunizing with egg albumin (10 micrograms) and challenging with the same antigen in intestinal loops 14 days later. After 4 h, total protein, DNA and brush border sucrase were increased in the lumen. Enhancement of mucin secretion did not occur, however, and therefore does not seem to be a particular feature of the pathophysiology of this model.
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PMID:Acute and chronic models for hypersecretion of intestinal mucin. 656 39

The weanling process is characterized by the transition from a liquid diet poor in iron (rat milk) to a solid diet high in iron (chow pellets). To examine the effects of iron content of the weanling diet on terminal maturation of rat small intestine, suckling pups, nursed by iron-sufficient mothers, were weaned by day 16 onto a solid basal diet that was either deficient [low-iron diet (LID): 0.5 mg iron/100 g solid] or high [high-iron diet (HID) controls: 30 mg iron/100 g solid] in iron. The animals were studied during or at the end of the 4th postnatal wk. By day 17 rats weaned onto the LID exhibited an initial rise in jejunal sucrase activity as did their controls, but the activity plateau of the enzyme was reduced to a level 60% of the controls. On day 28 iron-deprived rats were anemic and showed significant decreases (P less than 0.01 compared with HID rats) in the activity of jejunal sucrase (-57%), neutral lactase (-83%), and maltase (-46%), whereas villus height, crypt depth, mucosal mass parameters, ileal acid beta-galactosidase activity, mucosal protein, and DNA synthesis rates were equivalent in LID and HID groups. The concentration of the secretory component, a glycoprotein synthesized by the intestinal crypt cell, was markedly depressed (P less than 0.01 vs. controls) in the jejunum (-54%) and ileum (-79%) of iron-deprived rats. When D-[1-14C]glucosamine was injected intraperitoneally, incorporation of the label into jejunal and ileal brush-border proteins was two to three times lower for iron-deficient rats than for controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of dietary iron in maturation of rat small intestine at weaning. 674 22

Bioskin is a natural product produced by a mixed culture of Acetobacter xylinum, Saccharomyces cerevisiae and S. pombe cultured on media containing sucrose. It is of fibrillar nature able to retain some proteins, such as cytochrome c, by adsorption, and mainly composed of glucosamine and N-acetyl-D-glucosamine. This makes it possible that, at an adequate pH value, proteins charged as polyanionic molecules, such as catalase, can be retained by ionic adsorption using the positively charged amino groups of the matrix. In addition, bioskin can also be used as an affinity matrix to retain glycoproteins able to perform specific affinity reactions with the amino sugars of the matrix, such as invertase, fetuin or ovalbumin. Its possible use as a chromatographic support is discussed.
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PMID:Bioskin as an affinity matrix for the separation of glycoproteins. 1140 92

A scheme has been developed for isolation and purification of the enzyme with alpha-N-acetylgalactosaminidase and alpha-galactosidase activities which included fractionation by ammonium sulphate and chromatography on TSK-gels Toyopearl HW-60 and Fractogel DEAE-650-s and Sepharose 6B. The enzyme was purified 600 times with the yield of 28%. The enzyme preparation did not contain fucosidase, invertase and proteolytic activities. Molecular mass of the enzyme from the data of gel-filtration on Sepharose 6B was 430 kDa, according to the data of electrophoresis in DS-PAAG--70 kDa. It is shown that acidic and hydrophobic aminoacids prevail in the enzyme molecule, the carbohydrate component containing galactose, mannose, glucosamine and two nonidentified hexosamines is also present there. The enzyme preparation is stable during 48 hours at 20 degrees C; its pH-optimum is at pH 3.5-4.1. Michaelis constants concerning n-nitrophenyl-alpha-N-acetylgalactopyranoside and n-nitrophenyl-alpha-D-galactopyranoside were 1.18 and 1.25 mM, respectively.
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PMID:[Purification and physico-chemical properties of glycosidase of Aspergillus niger 185sh]. 1507 44

The invertase present in the culture fluid of races 1, 2, and 3 of Phytophthora megasperma Drechs. var. sojae A. A. Hildebrand (Pms) were purified until they gave but a single band, whether stained for protein or carbohydrate, after isoelectric focusing in flat bed gels. The sugar compositions of multiple preparations of the purified invertases from each race of this fungal pathogen were determined by quantitative gas chromatography of their alditol acetates. The invertases are composed of about 25% carbohydrate. Mannose and glucosamine make up more than 97% of the carbohydrate portions of the invertases of all three Pms races analyzed, but the ratio of mannose to glucosamine is clearly not the same in each race. The glycosyl linkage compositions of the glucosamine-containing mannans of multiple preparations of the Pms invertases were determined by GC-MS analysis of the partially methylated alditol acetate derivatives. The results of these analyses demonstrate clear quantitative differences between the glycosyl components of the different Pms races. The existence of race-specific carbohydrate structures in the differentially virulent Pms races suggests that these carbohydrates may be involved in determining the specificity of hostpathogen interactions.
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PMID:Host-Pathogen Interactions: XIII. Extracellular Invertases Secreted by Three Races of a Plant Pathogen Are Glycoproteins Which Possess Different Carbohydrate Structures. 1666 2

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