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)

The effect of methylglyoxal on protein -SH and -NH2 groups in cytosolic and membranous fractions of epithelial cells lining the gastrointestinal tract of rat was investigated, using isolated villus and crypt cells (enterocytes) and colonocytes. It was found that 11-12% cytosolic protein -SH and 14-17% membrane protein -SH groups were lost when villus and crypt cells were treated with 2 mM methylglyoxal. In colonocytes, the corresponding loss in protein -SH groups was 46 and 30% under the same treatment. Similarly, 27-37% protein -NH2 group in the cytosolic fraction and 18-19% protein -NH2 group in membranous fractions of the enterocytes were lost by 2 mM methylglyoxal treatment. In colonocytes, the loss of protein -NH2 group was 30 and 15% in cytosolic and membranous fractions, respectively, under the same treatment. Effect of methylglyoxal on activity of various brush border enzymes such as alkaline phosphatase, gamma-glutamyl transpeptidase, leucine aminopeptidase, Mg2(+)-ATPase, sucrase and lactase was also studied. Alkaline phosphatase and gamma-glutamyl transpeptidase activities were inhibited to the extent of 30 and 15% respectively. There was no significant change in the activities of other enzymes after treating the brush border vesicles with 2 mM methylglyoxal. These findings show that methylglyoxal can cause loss of protein thiol and amino groups and enzyme activity in mucosal cells of rat gastrointestinal tract and the effect is more pronounced in colonocytes, which are in constant contact with bacterial metabolites.
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PMID:Effect of methylglyoxal on protein thiol and amino groups in isolated rat enterocytes and colonocytes and activity of various brush border enzymes. 234 Nov 60

The construction of two fused genes is described. One involves the in-frame fusion of the yeast prepro-alpha-factor coding sequence, and the Escherichia coli lac Z gene. The second gene fusion utilizes a 103 bp yeast invertase NH2-terminal coding sequence at the fusion junction of the hybrid gene described above. The gene fusions, under the control of the alpha-factor promoter, expressed active beta-galactosidase in alpha haploid yeast cells. The activity could be regulated in a temperature-sensitive sir3 mutant. The incorporation of the invertase coding sequence at the MF alpha 1-lacZ fusion junction provided significantly higher levels of beta-galactosidase activity. A substantial quantity of the hybrid proteins generated from the gene fusions was primarily localized in the intracellular membranes of yeast cells, while a processed form could be secreted into the periplasm.
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PMID:Alpha-factor leader sequence-directed transport of Escherichia coli beta-galactosidase in the secretory pathway of Saccharomyces cerevisiae. 250 25

Isolated rat liver endothelial cells take up and degrade formaldehyde serum albumin (FSA), invertase and chondroitin sulfate (CS) efficiently. Degradation products start to appear in the medium after 5-30 min. Calcium was necessary for binding of invertase to the cells, but not for the two other ligands. Ammonia and monensin inhibited uptake as well as degradation of all three ligands, whereas leupeptin only inhibited the degradation of FSA and invertase. Uptake of CS was strongly inhibited in the presence of 1 microM FSA. The possibility that these two ligands bind to a common receptor is discussed.
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PMID:Receptor mediated endocytosis of formaldehyde treated albumin, yeast invertase and chondroitin sulfate in suspensions of rat liver endothelial cells. 309 18

Among the collection of temperature-sensitive secretion mutants of Saccharomyces cerevisiae, sec11 mutant cells are uniquely defective in signal peptide processing of at least two different secretory proteins. At 37 degrees C, the restrictive growth temperature, sec11 cells accumulate core-glycosylated forms of invertase and acid phosphatase, each retaining an intact signal peptide. In contrast, other sec mutant strains in which transport of core-glycosylated molecules from the endoplasmic reticulum is blocked show no defect in signal peptide cleavage. A DNA fragment that complements the sec11-7 mutation has been cloned. Genetic analysis indicates that the complementing clone contains the authentic SEC11 gene, and that a null mutation at the SEC11 locus is lethal. The DNA sequence of SEC11 predicts a basic protein (estimated pI of 9.5) of 167 amino acids including an NH2-terminal hydrophobic region that may function as a signal and/or membrane anchor domain. One potential N-glycosylation site is found in the 18.8-kD (Sec 11p) predicted protein. The mass of the SEC11 protein is very close to that found for two of the subunits of the canine and hen oviduct signal peptidases. Furthermore, the chromatographic behavior of the hen oviduct enzyme indicates an overall basic charge comparable to the predicted pI of the Sec11p.
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PMID:SEC11 is required for signal peptide processing and yeast cell growth. 328 43

Two glycopeptide hydrolases, an endo-beta-N-acetylglucosaminidase and peptide:N-glycanase (amidase), have been isolated from defatted jack bean meal by standard procedures involving differential solubility and column chromatography. The purified products appear to be free of contaminating proteases and exoglycosidases, and their substrate specificity has been explored with regard to both glycan and peptide structure of the substrates. The endoglycosidase appears to be specific for high mannose glycans; no hydrolysis of either hybrid or complex glycans has been observed. It shows limited activity with two intact glycoproteins, ribonuclease B and yeast invertase, and gives optimal rate with glycopeptides. Free glycan-Asn derivatives are poor substrates in comparison with glycopeptides or glycan-Asn derivatives where the alpha-amino group has been dansylated. The amidase will liberate both high mannose, hybrid, and asialo-complex glycans from both proteins and peptides, but many glycans in intact proteins or in long peptides are resistant to the amidase and become active as substrates only after further proteolytic cleavage. The best substrates appear to be those with the glycosylated asparagine no more than 4-5 residues in from either the NH2- or COOH-terminal end of the peptide. Sialylated glycans do not appear to be released by the amidase.
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PMID:Purification and characterization of two glycopeptide hydrolases from jack beans. 333 94

The mitochondrial matrix enzyme manganese superoxide dismutase (SOD) of Saccharomyces cerevisiae is encoded in the nucleus. It is synthesized as a precursor with an NH2-terminal extension of 26 amino acids which is cleaved off during import into the mitochondrion. Fusions between the NH2-terminal 34 amino acids of SOD and the cytosolic proteins invertase of yeast and mouse dihydrofolate reductase (DHFR) were tested for in vitro binding and import into mitochondria. Efficient translocation over the mitochondrial membranes takes place in the case of the SOD-DHFR fusion. The SOD-invertase fusion protein does not get translocated and binds to the organelle with only low efficiency. Yeast transformants harbouring the SOD-invertase fusion gene accumulate approximately 95% of the hybrid protein in the cytosol. The remaining material is found in the interior of the mitochondrion, loosely attached to the inner membrane. We conclude that the pre-sequence of SOD is able to deliver a passenger protein to the mitochondrion. The efficiency of protein delivery and translocation across the membrane is, however, influenced by the passenger protein.
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PMID:Targeting efficiency of a mitochondrial pre-sequence is dependent on the passenger protein. 354 82

The yeast SUC2 gene codes for the secreted enzyme invertase. A series of 16 different-sized gene fusions have been constructed between this yeast gene and the Escherichia coli lacZ gene, which codes for the cytoplasmic enzyme beta-galactosidase. Various amounts of SUC2 NH2-terminal coding sequence have been fused in frame to a constant COOH-terminal coding segment of the lacZ gene, resulting in the synthesis of hybrid invertase-beta-galactosidase proteins in Saccharomyces cerevisiae. The hybrid proteins exhibit beta-galactosidase activity, and they are recognized specifically by antisera directed against either invertase or beta-galactosidase. Expression of beta-galactosidase activity is regulated in a manner similar to that observed for invertase activity expressed from a wild-type SUC2 gene: repressed in high-glucose medium and derepressed in low-glucose medium. Unlike wild-type invertase, however, the invertase-beta-galactosidase hybrid proteins are not secreted. Rather, they appear to remain trapped at a very early stage of secretory protein transit: insertion into the endoplasmic reticulum (ER). The hybrid proteins appear only to have undergone core glycosylation, an ER process, and do not receive the additional glycosyl modifications that take place in the Golgi complex. Even those hybrid proteins containing only a short segment of invertase sequences at the NH2 terminus are glycosylated, suggesting that no extensive folding of the invertase polypeptide is required before initiation of transmembrane transfer. beta-Galactosidase activity expressed by the SUC2-lacZ gene fusions cofractionates on Percoll density gradients with ER marker enzymes and not with other organelles. In addition, the hybrid proteins are not accessible to cell-surface labeling by 125I. Accumulation of the invertase-beta-galactosidase hybrid proteins within the ER does not appear to confer a growth-defective phenotype to yeast cells. In this location, however, the hybrid proteins and the beta-galactosidase activity they exhibit could provide a useful biochemical tag for yeast ER membranes.
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PMID:Invertase beta-galactosidase hybrid proteins fail to be transported from the endoplasmic reticulum in Saccharomyces cerevisiae. 644 5

The dimeric enzyme sucrase-isomaltase (a complex of sucrose alpha-glucohydrolase, EC 3.2.1.48 and oligo-1,6-glucosidase (dextrin 6 alpha-D-glucanohydrolase), EC 3.2.1.10) of the rat small intestinal microvillus membrane is synthesized as a single chain enzymatically active precursor protein. This precursor (called pro-sucrase-isomaltase) was purified from fetal intestinal transplants in which sucrase-isomaltase was found almost exclusively in the uncleaved precursor form. A two-step procedure was developed using monoclonal antibody affinity chromatography on protein A Sepharose CL-4B followed by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The NH2-terminal sequence of purified pro-sucrase-isomaltase was identical with that of the isolated isomaltase subunit which possesses the membrane anchor for the mature enzyme complex but differed from the NH2-terminal sequence of the sucrase subunit. This identity shows that the isomaltase domain comprising the membrane anchor is synthesized prior to the bulk of the protein destined to be localized on the luminal side of the microvillus membrane. A model is proposed for the mode of membrane assembly and the subsequent cleavage of pro-sucrase-isomaltase into its mature subunits.
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PMID:Biosynthesis of sucrase-isomaltase. Purification and NH2-terminal amino acid sequence of the rat sucrase-isomaltase precursor (pro-sucrase-isomaltase) from fetal intestinal transplants. 680 34

A chemoenzymatic synthesis of homogeneous neoglycoproteins and glycopeptides was explored using oligosaccharyltransferase isolated from yeast. Neither the microsomal form nor the solubilized form of the enzyme catalyzed the transfer of the core Glc3Man9(GlcNAc)2 oligosaccharide to chemically modified ribonuclease A or alpha-lactalbumin. Similarly, no transfer was observed to the 32-amino acid peptide hormone, calcitonin, by either the membrane-bound or soluble form of oligosaccharyltransferase. However, a 17-amino acid fragment of yeast invertase with the unusual sequence containing two overlapping glycosylation sequons proved to be a good substrate, slightly less effective than the well studied tripeptide, Bz-Asn-Leu-Thr-NH2. Product analysis using gel permeation chromatography showed that the expected glycopeptides were formed and endo H-catalyzed cleavage of the oligosaccharide portion from the glycopeptides demonstrated that the glycopeptides contained the same carbohydrate moiety.
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PMID:A comparison of proteins and peptides as substrates for microsomal and solubilized oligosaccharyltransferase. 775 12

beta-Fructofuranosidase activities of eight strains of Bifidobacteria, intestinal bacteria, were assayed and Bifidobacterium infantis was selected for purification of the enzyme. beta-Fructofuranosidase activity was recovered in the supernatant fraction after disruption of B. infantis cells with sonication and was purified to homogeneity by ammonium sulfate fractionation, and DEAE-cellulose, butyl-Toyopearl and Sephacryl S-300 column chromatographies. The enzyme (molecular weight (M.W.) 232000) was composed of three identical subunits (M.W. 75000) whose NH2-terminal amino acids were threonine. The enzyme was stable at pH 6-8, having the optimum activity at pH 6.0-6.2. The enzyme activity was stable under 40 degrees C and the optimal temperature was 55 degrees C. This enzyme catalyzed the hydrolysis of sucrose, 1-kestose, nystose, inulin and raffinose at the relative velocities of 100, 297, 365, 140 and 3.8, respectively, but did not catalyze the hydrolysis of maltose or cellobiose. These results indicated that this fructooligosaccharide hydrolyzing enzyme is a novel type of beta-fructofuranosidase.
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PMID:Purification and characterization of beta-fructofuranosidase from Bifidobacterium infantis. 792 Apr 15

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