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)

Electron microscopy and cytochemical and immunocytochemical procedures were used to study the ultrastructural distribution of sucrase enzymes in two strains of Streptococcus mutans. In a strongly adherent and virulent parent strain, GS-5, most of the invertase and fructosyltransferase activities were demonstrated extracellularly or bound to the cell surfaces. Intracellularly, enzymatic sites were detected near the plasma membrane on the periphery of the nucleoid and central mesosome. In GS-511, a mutant of diminished virulence and adherence, most of the enzymatic activity was not located on the cell surfaces, but was found away from the cell walls and associated with extracellular polysaccharides. Intracellularly, GS-511 manifested the same distribution of invertase and fructosyltransferase as did GS-5; however, the close association of these enzymes with the plasma membrane was not shown in GS-511. In both strains, extracellular areas near regions associated with cross wall formation appeared to show localized concentrations of these sucrases. Antibodies against partially purified glucosyltransferase (GTF) enzymes from GS-5 were used to localize GTF by immunocytochemical techniques. Indirect ferritin localization procedures showed that the extracellular and cell-bound GTF enzymes were distributed in similar locations as the fructosyltransferase and invertase enzymes. By absorption of the antiserum with whole GS-511 cells, the location of extracellular GTF and surface antigens unique to GS-5 was demonstrated. The dramatically reduced levels of cell-bound sucrase activity in GS-511 indicates the significant role of these enzymes in adherence and cariogenicity.
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PMID:Ultrastructural localization of sucrases in Streptococcus mutans GS-5 and an extracellular polysaccharide mutant: a comparative cytochemical and immunocytochemical study. 33 Apr 13

Leuconostoc mesenteroides NRRL B-512(F) was grown in continuous culture under conditions of energy-limited growth. The extracellular enzyme dextransucrase (sucrose: 1,6-alpha-D-glucan 6-alpha-glucosyltransferase EC 2.4.1.5), was not detected in glucose- or maltose-limited cultures. Under conditions of sucrose-limited growth, the enzyme activity of the cell-free culture supernatant increased with increasing dilution rate only after the critical concentration of enzyme inducer (sucrose) in the chemostat had been achieved. The appearance of fructose in the effluent of the sucrose-limited chemostat at higher dilution rates indicated that sucrose was being diverted to dextran biosynthesis. The competition between bacteria and extracellular enzyme for the common substrate sucrose represents an inefficiency in the system of enzyme production. Dextransucrase was isolated from the cell-free culture supernatant by ammonium sulfate precipitation and DEAE-cellulose chromatography. The enzyme preparation exhibited both dextran biosynthetic activity and an invertase-like activity. The biosynthetic efficiency was increased by decreasing the temperature from 30 to 10 degrees C. The enzyme was irreversibly denatured by prolonged incubation in the absence of Ca2+.
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PMID:Dextran biosynthesis and dextransucrase production by continuous culture of Leuconostoc mesenteroides. 45 5

The influence of culture media on various properties of Streptococcus mutans was investigated. Strains of S. mutans (serotypes c, d, f, and g) were grown in a complex medium (Todd-Hewitt broth [THB]) or a synthetic medium (SYN). The SYN cells, in contrast to THB cells, did not bind extracellular glucosyltransferase and did not produce in vitro adherence. Both types of cells possessed constitutive levels of glucosyltransferase. B13 cells grown in SYN plus invertase-treated glucose possessed the same level of constitutive enzyme as THB cells. In contrast to THB cells, the SYN cells of seven serotype strains did not agglutinate upon the addition of high-molecular-weight dextran/glucan. Significant quantities of lower-molecular-weight (2 x 10(4) or 7 x 10(4)) dextran and B13 glucan were bound by SYN cells. SYN cells agglutinated weakly in anti-glucan serum (titers, 0 to 16), whereas THB cells possessed titers of 32 to 256. Evidence for the existence of a second binding site in agglutination which does not possess a glucan-like polymer has been obtained. B13 cells grown in invertase-treated THB agglutinated to the same degree as normal THB cells. The nature of this site is unknown. SYN cells possess the type-specific polysaccharide antigen. B13 cells did not bind from THB a glycoprotein which reacts with antisera to the A, B, or T blood group antigens or which allows agglutination upon the addition of dextran. The results demonstrate that S. mutans grown in a chemically defined medium possesse markedly different biochemical and biological activities than cells grown in a complex organic medium.
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PMID:Properties of Streptococcus mutans grown in a synthetic medium: binding of glucosyltransferase and in vitro adherence, and binding of dextran/glucan and glycoprotein and agglutination. 45 52

The gene encoding glucosyltransferase responsible for water-insoluble glucan synthesis (GTF-I) of Streptococcus sobrinus (formerly Streptococcus mutans 6715) was cloned, expressed, and sequenced. A gene bank from S. sobrinus 6715 DNA was constructed in vector pUC18 and screened with anti-GTF-I antibody to detect clones producing GTF-I peptide. Five immunopositive clones were isolated, all of which produced peptides that bound alpha-1,6 glucan. GTF-I activity was found in only two large peptides: one stretching over the full length of the GTF-I peptide and composed of about 1,600 amino acid residues (AB1 clone) and the other lacking about 80 N-terminal residues and about 260 C-terminal residues (AB2 clone). A deletion study of the AB2 clone indicated that specific glucan binding, which is essential for water-insoluble glucan synthesis, was lost prior to sucrase activity with an increase in deletion from the 3' end of the GTF-I gene. These results suggest that the GTF-I peptide consists of three segments: that for sucrose splitting (approximately 1,100 residues), that for glucan binding (approximately 240 residues), and that of unknown function (approximately 260 residues), in order from the N terminus. The primary structure of the GTF-I peptide, deduced by DNA sequencing of the AB1 clone, was found to be very similar to that of the homologous protein from another strain of S. sobrinus.
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PMID:Peptide sequences for sucrose splitting and glucan binding within Streptococcus sobrinus glucosyltransferase (water-insoluble glucan synthetase). 170 6

Sequential deletion of the carboxyl-terminal amino acids (including the six direct repeating units) of the glucosyltransferase-I (GTF-I) enzyme of Streptococcus mutans revealed differential effects on sucrase and GTF activities. Removal of all but one repeating unit resulted in a truncated enzyme with significant sucrase activity but no detectable GTF activity. These results are compatible with the presence of two functional domains in the enzyme.
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PMID:Carboxyl-terminal deletion analysis of the Streptococcus mutans glucosyltransferase-I enzyme. 215 Jun 58

A genetic library consisting of over 5000 clones with an average insert size of 6.9 kilobasepairs (kbp) of Streptococcus mutans GS-5 has been constructed in a bivalent plasmid vector pMK3, which is capable of replicating in Escherichia coli and Bacillus subtilis. The recombinant plasmid pSUCRI, containing a 6.0 kbp fragment of S. mutans GS-5 DNA, was the focus of this study. Using Southern hybridization, in vitro and in vivo gene expression techniques, and biochemical analysis, this clone was shown to encode the 55 kiloDalton (kDal) GS-5 gtfA gene product, as well as a 38 and a 66 kDal polypeptide. In addition to the gtfA gene, pSUCRI encodes a dextranase activity with specificity for alpha(1----6)-linked glucans, and with no detectable activity on mutan. The dextranase enzyme had an apparent molecular weight of 66 kDal as demonstrated by SDS-PAGE analysis of the proteins produced by a dextranase-negative deletion derivative. The pH optimum of the enzyme was approximately 6.0, and there was no detectable activity below pH 5.0. By subcloning various combinations of DNA fragments from pSUCRI, it was demonstrated that the dextranase gene (designated dexB) can be separated from the gtfA gene and still be efficiently expressed in both E. coli and B. subtilis. The dexB gene contained its own promoter and ribosome-binding site. The genetic linkage of the gtfA and dexB genes in the S. mutans GS-5 chromosome was confirmed by Southern hybridization and by the independent isolation of four distinct clones containing the gtfA gene and common flanking sequences. In addition to a glucosyltransferase and dextranase, an invertase-like activity is also encoded on pSUCRI, indicating that there is a cluster of genes on the S. mutans GS-5 chromosome which is devoted to the dissimilation of sucrose and concomitant synthesis or modification of glucans into a water-insoluble form, perhaps constituting an operon for glucan modification which can be coordinately regulated in response to environmental alterations.
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PMID:Tight genetic linkage of a glucosyltransferase and dextranase of Streptococcus mutans GS-5. 294 34

The gtfA gene of Streptococcus mutans GS-5, which encodes a 55-kDa glucosyltransferase has been isolated from a genetic library in an Escherichia coli-Bacillus subtilis shuttle vector, pMK3. The construction containing the gene enables E. coli JM83 and a sucrase-deficient mutant of B. subtilis to grow on sucrose as the sole carbohydrate source. The gene is expressed under its own control in both organisms. The level of biochemical activity detectable in B. subtilis carrying the clone is approx. 50% of that found in E. coli harboring the same construction. In Bacillus, the gene is expressed through exponential and stationary phases of growth with a decrease in activity as the culture enters stationary phase, corresponding to increases in intracellular protease levels. The enzyme produced in E. coli or B. subtilis harboring the cloned gene is identical to the enzyme produced by S. mutans GS-5 as determined by migration in native polyacrylamide gels.
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PMID:Cloning and expression of a Streptococcus mutans glucosyltransferase gene in Bacillus subtilis. 295 Dec 98

Invertase (beta-d-fructofuranoside fructohydrolase, EC 3.2.1.26) and dextransucrase (alpha-1, 6-glucan: d-fructose 2-glucosyltransferase, EC 2.4.1.5) were purified from the culture fluids of Streptococcus mutans by chromatography on Sepharose 6B and diethylaminoethyl-cellulose followed by treatment with hydroxyapatite. Each of the enzyme preparations gave a single band when analyzed by either polyacrylamide gel electrophoresis or immunodiffusion. The antigenic determinant of invertase was different from that of dextransucrase on immunodiffusion. The pH optima were 5.25 for invertase and 5.75 for dextransucrase, and the K(m) values were 20 mM for invertase and 2.0 mM for dextransucrase. The molecular weights determined by sodium dodecyl sulfate gel electrophoresis were 160,000 for invertase and 170,000 for dextransucrase. The data obtained suggest that the dextransucrase had dextran-synthesizing activity and invertase-like activity.
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PMID:Purification and properties of dextransucrase and invertase from Streptococcus mutans. 413 13

The appearance and continuing growth of extracellular material on Streptococcus mutans HS6 cells in sucrose-containing Merthiolated buffer was observed in a scanning electron microscope and was found to be related to the glucan synthesis on the cell and to adherence of the cell to a smooth surface. Cells grown in broth completely deprived of sucrose by invertase (HS6-IV) had a characteristic, slightly rugged surface structure. On incubation of HS6-IV in the sucrose-containing buffer, a few small globular particles appeared on the surface and grew to an irregular shape (globular to fibrilar) after several hours. The increase in the total glucan content of the cells paralleled the growth of the globular material, to which ferritin-conjugated anti-dextran globulin was found to bind. On the cell surface of cells harvested from conventional broth, both small globular and irregular structures, which possibly formed from sucrose in the broth, existed originally and continued to grow during incubation, along with the material newly appearing on the surface. The accumulation of glucan on the cells resulted in their adherence to a glass surface. The inhibition of growth of the extracellular material on the cells by trypsin, dextranase or anti-glucosyltransferase corresponded to the decrease in glucan synthesis and the loss of adhering ability. These results indicated that the material growing on the cell surface was glucan synthesized by glucosyltransferases.
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PMID:Synthesis of glucan on the cell surface of Streptococcus mutans: chemical and scanning electron microscopic studies. 621 5

Acarbose is known to inhibit glucoamylase, maltase and sucrase. Our aim was to test whether it would also inhibit glucosyltransferase (GTF), to determine the type of inhibition and to compare the inhibitor potency of acarbose with that of nojirimycin and deoxynojirimycin, two other glucosidase inhibitors. Enzyme inhibition was measured either by chemical assay or by incorporation of radioactivity into product. Acarbose effectively inhibited the synthesis of polysaccharide by GTF from strains of Streptococcus mutans and Streptococcus sanguis, but not by fructosyltransferase from Streptococcus salivarius. Acarbose and 1-deoxynojirimycin were more potent inhibitors of GTF than maltose, nojirimycin or various amino sugars. The mechanism of action of these compounds is consistent with competitive inhibition.
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PMID:Inhibition by acarbose, nojirimycin and 1-deoxynojirimycin of glucosyltransferase produced by oral streptococci. 622 60

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