EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

S mutans strain MT703 from an active carious lesion in the tooth of a child had type e specificity and showed a cross-reaction with the Lancefield group E cell wall streptococcal polysaccharide antigen. Heat-killed cells MT703 adhered to a glass surface in the presence of CGT MT703 and sucrose. Pretreatment of the cells with anti-MT703 whole cell serums inhibited adherecne. The removal of glycerol teichoic acid antibody and group E antibody from the MT703 serum did not result in a loss of inhibitory activity. Antiserum with or without adsorption significantly inhibited glucan synthesis by CGT from sucrose. Antibodies specific for the polyglycerol phosphate of teichoic acid did not inhibit adherence. Anti-group E serum and serums specific for other types of S mutans, did not show adherence inhibitory activity except for an occasional type c specific antiserum. Antibody specific for the type e antigen produced significant inhibition of the binding of CGT to the MT703 cell wall, and adherence of these cells did not occur. Antibody to CGT inhibited glucan synthesis. Treatment of the cells with dextranase, dextran antibody, or trypsin caused a significant reduction in adherence. The results suggest that the type antigen and dextran on the surface of the S mutans type e cell are functional in adherence, and that these polymers are associated with cell wall protein.
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PMID:Adherence of serotype e Streptococcus mutans and the inhibitory effect of Lancefield group E and S mutans type e antiserum. 0 82

Properties of beta-glucan synthetase from S. cerevisiae were studied. The enzyme exhibited optimal activity at pH 6.7 and 24 C. Km for UDP-glucose was 0.12 mM. Addition of Mg++ or Mn++ stimulated its activity by 60% and 21% respectively. High concentrations of EDTA and hydroxyquinoline were inhibitory. Glucan synthetase was fully active in cell-free extracts. Small concentrations of trypsin or subtilopeptidase A from Bacillus subtilis, caused only a slight increase in glucosyl transferase activity, but larger concentrations destroyed beta-glucan synthetase. Acid proteases were neither stimulatory nor destructive. Thus it seems unlikely that beta-glucan synthetase exists in a zymogen form. Glucan synthetase was unstable. It was inactivated more rapidly at 28 C than at 0 C. The presence of substrate, beta-glucan or the protease inhibitors PMSF, Antipain or Pepstatin A did not protect beta-glucan synthetase from inactivation. Glucan synthetase was not stimulated by addition of cellobiose or beta-glucans. The synthesis of beta-glucans was competitively inhibited by UDP (Ki = 0.45 mM). Glucono-delta-lactone, a known inhibitor of beta-glucosidases was a strong non-competitive inhibitor of beta-glucan synthetase.
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PMID:Properties of beta-glucan synthetase from Saccharomyces cerevisiae. 3 34

BCG cell walls contain approximately 30% free lipids like other mycobacterial cell walls. The insoluble skeleton of the cell wall is made up of two covalently linked polymers, a peptidoglycan and an arabinogalactan mycolate, with which are associated non peptidoglycan amino acids and a glucan. We present data on two structural features: 1. The "non peptidoglycan" amino acids; they form two kinds of compounds: peptide chains which can be solubilized by proteolytic enzymes and a trypsin-chymotrypsin insensitive poly-alpha-L-glutamic acid. 2. Presence of meso-DAP-meso-DAP1) interpeptide linkages in the peptidoglycan: this new type represents at least 50% of the interpeptide linkages of the cell wall of the BCG strain.
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PMID:Chemical structure of the cell wall of Mycobacterium tuberculosis var. bovis, strain BCG. 12 48

The partially purified glucosyltransferase (GTF) fraction synthesizing primarily water-insoluble glucans, GTF-A, and the homogeneous fraction synthesizing water-soluble glucans, GTF-B, were utilized to assess the binding of GTF activity to the cell surface of Streptococcus mutans GS-5. Growth of the cells in either Todd-Hewitt broth or a chemically defined medium did not appear to affect the ability of the cells to bind either enzyme fraction. Heat inactivation of the cells did not singificantly reduce the interaction of the enzymes with the cells. Cell surface glucan molecules appear to be involved in GTF binding to the cells because: (i) dextranase or alpha-1,3-glucanase treatment of the cells markedly reduced enzyme binding; (ii) the inclusion of soluble dextrans in the binding assays reduced both GTF-A and GTF-B binding to the cells; and (iii) pretreatment of the cells or the GTF-B fraction with soluble dextrans before binding significantly reduced enzyme binding to the cells. In addition, enzyme binding appears to require a cell surface protein component because Pronase, but not trypsin, treatment of cells reduced enzyme binding. Furthermore, the removal of a portion of the cell surface GTF-glucan complex with 3 N NaCl appears to provide additional binding sites for the enzymes. These results are interpreted in terms of the mechanism of the conversion of extracellular GTF to the cell-associated form.
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PMID:Interaction of glucosyltransferase with the cell surface of Streptococcus mutans. 66 17

1) S. mutans strains of serotypes a, d and g were strongly agglutinated with soluble glucans and dextran T2000. Homologous glucan did not in all cases produce agglutination. 2) The quantity of low molecular weight dextrans bound (T20 and T70) does not correspond to the agglutination induced by glucan or T2000. 3) The agglutination and binding of high molecular weight glucan by B13 cells was sensitive to heat, trypsin, dextranase, EDTA, SDS and urea, whereas no inhibition of binding of T20 and T70 was seen. 4) Pretreatment of B13 cells with anti-d, or anti-glucan sera, or Con A, RCA I, or RCA II completely inhibited agglutination by T2000 and caused a significant reduction of the binding of glucan. No reduction in the binding of T20 and T70 occurred. 5) An agglutination-negative mutant was agglutinated by sucrose but not by T2000 or high molecular weight glucan. It bound normal levels of T20 and T70. 6) The results indicate that B13 cells possess multiple glucan binding sites and that the site responsible for agglutination consists of both polysaccharide and protein. 7) Inhibition studies on agglutination and adherence using B13 cells indicate that the two processes involve different mechanisms.
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PMID:Dextran/glucan binding by Streptococcus mutans: the role of molecular size and binding site in agglutination. 74 9

Saccharomyces cerevisiae mating type a cells enlarged and elongated when exposed to alpha-factor, a sex pheromone produced by mating-type alpha cells. This morphogensis required exogenous-D-glucose, nitrogen, and phosphate, and cells in exponential phase responded better than stationary-phase cells. Morphogenesis was blocked by cycloheximide and by inhibitors of cell wall biosynthesis such as 2-deoxy-D-glucose, 2-deoxy-2-fluoro-D-glucose, and 2-deoxy-2-fluoro-D-mannose, but not by polyoxin D. One to two hours after addition of pheromone, a cells became more susceptible to lysis by glucanases, a change that was dependendent on the dose of alpha-factor and was blocked by drugs that block morphogenesis. On the other hand, treatment with alpha-factor did not increase susceptibility to attack by trypsin, subtilisin, or exo-alpha-mannanase. Radioactive label, incorporated into cell wall polysaccharides during treatment with alpha-factor, was not secreted into the medium during morphogenesis. Analysis of the labeled wall polymers showed that alpha-factor-treated cells contain more glucan and less mannan than control cells, and that the mannan of treated cells contains an increased proportion of shorter side chains and unsubstituted backbone mannose units. Thin-section electron microscopy of treated cells revealed that the cell wall possesses a diffuse outer layer in the extension and is thinner at the tip.
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PMID:Morphogenic effects of alpha-factor on Saccharomyces cerevisiae a cells. 77 42

Living Trypanosoma musculi bloodstream trypomastigotes were agglutinated specifically with concanavalin A (ConA), wheat germ agglutinin (WGA), soybean agglutinin (SBA), and fucose-binding protein (FBP). The agglutination with these lectins of living cells from which the coat was removed by trypsinization was the same as with intact trypanosomes. Glutaraldehyde or formalin fixation did not affect the results with regard to agglutination with WGA, SBA, and FBP, but lower agglutination with ConA was observed upon fixation. By using a dense iron-dextran marker many fewer ConA marker particles were localized at the fine structural level in the intact than in trypsin-treated trypanosomes. On the basis of the results obtained by agglutination and electron microscopy, it is likely that fixation cross-links intact surface-coat components associated with the ConA binding sites. It is evident from the studies in which lectins were employed that ligands containing alpha-D-mannose, N-acetylglucosamine, N-acetylgalactosamine, and alpha-L-fucose are randomly distributed in the outer surface of the pellicular and flagellar membranes of T. musculi trypomastigotes. Results obtained with alpha-amylase- and dextranase-treated trypanosomes suggested that lectin-binding sugar ligands in the cell surface were not directly associated with alpha-1,4 or repetitive alpha-1,6 glucan-bonded polysaccharide moieties. Similar conclusions can be drawn on the basis of neuraminidase treatment with regard to N-acetylated neuraminic acids. After thorough washing, intact, but not trypsin-treated trypomastigotes were agglutinated specifically with antisera against whole mouse serum and against mouse IgG. Evidently, adsorbed constituents of mouse serum are regular components of the T. musculi surface coat. After incubation in dilute whole mouse serum or in mouse IgG solutions, also the trypsinized cells were agglutinated by the 2 antisera. No such results were obtained with trypsinized cells incubated in serum-free buffers. It was concluded that mouse serum proteins were readily readsorbed on, and firmly bound to the trypsinized cells' surfaces. Specific agglutinations were obtained with trypsinized cells after incubation in dilute rat, rabbit, bovine, and human sera and in solutions of rat and rabbit IgG in reactions with the corresponding antisera. It seems, therefore, that the host serum proteins are adsorbed nonspecifically to the cell surface of trypsinized T. musculi bloodstream forms. When examined by electron microscopy, the intact trypomastigotes were covered by an ununiform, slightly granular, fibrillar extracellular coat, applied to the entire outer lamina of the pellicular and flagellar membranes. No indication of such a coat was noted in the trypsinized organisms. Flocculent surface coat-like matrix could, however, be discerned in cells which, after trypsinization, were incubated in various sera.
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PMID:The cell surface of Trypanosoma musculi bloodstream forms. II. Lectin and immunologic studies. 93 83

beta-glucans are pharmacologic agents that rapidly enhance host resistance to a variety of biologic insults through mechanisms involving macrophage activation. To determine whether stimulation of the beta-glucan receptors on human monocytes resulted in cytokine production, monolayers of monocytes were incubated with purified yeast glucan particles and measured for tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) mRNA and protein. By Northern blot analysis, TNF-alpha mRNA was detected within 30 min of incubation with glucan particles, peaked at 2 h, and remained elevated for at least 8 h. Glucan induction of IL-1 beta mRNA followed a similar time-course of initiation and accumulation. By enzyme-linked immunosorbent assays (ELISAs), significant levels of TNF-alpha and IL-1 beta were present in supernatants of glucan-treated cells within 1 h and plateau levels of both cytokines were approached within 4 h. At particle-to-cell ratios of from 0.4 to 18, glucan particles induced dose-dependent increases in TNF-alpha and IL-1 beta mRNA and corresponding increases in TNF-alpha and IL-1 beta proteins. Exposure of monocytes to glucan particles for 0-30 min and washing before continued incubation for 4 h in particle-free buffer induced production and secretion of TNF-alpha and IL-1 beta in a time-dependent fashion compatible with phagocytosis. The pretreatment of monocyte monolayers with trypsin reduced glucan-induced production of TNF-alpha and IL-1 beta in a dose-dependent manner with 5 micrograms/ml of trypsin effecting reductions of greater than 50%. Thus, glucan particles induce human monocyte production of TNF-alpha and IL-1 beta by a mechanism that is dependent on trypsin-sensitive beta-glucan receptors.
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PMID:Stimulation of human monocyte beta-glucan receptors by glucan particles induces production of TNF-alpha and IL-1 beta. 133 74

Limited proteolysis of beta-1,3-glucanase A1 by three different proteases, trypsin, chymotrypsin, and papain, gave three major active fragments. The sizes of the three major fragments generated by each protease treatment were identical to those of beta-1,3-glucanase A2, A3, and A4 detected in both the culture supernatant of Bacillus circulans WL-12 and the periplasmic space of Escherichia coli carrying a cloned glcA gene. These results indicate a four-domain structure for the enzyme. At the N terminus of the glucanase, duplicated segments of approximately 100 amino acids were observed. N-terminal amino acid sequence analysis revealed that the active fragments with sizes corresponding to those of A2 and A3 lack the first segment (domain) and both duplicated segments (domains), respectively. The fragment corresponding to A4 lacks both duplicated segments and the following ca. 120-amino-acid region. By losing the first, second, and third (corresponding to the segment of 120 amino acids) domains, beta-1,3-glucanase progressively lost the ability to bind to pachyman, beta-1,3-glucan. An active fragment which did not have the three N-terminal domains did not show significant binding to pachyman. Thus, all three N-terminal domains contribute to binding to beta-1,3-glucan, and the presence of three domains confers the highest binding activity on the glucanase. The loss of these binding domains remarkably decreased pachyman-hydrolyzing activity, indicating that the binding activity is essential for the efficient hydrolysis of insoluble beta-1,3-glucan.
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PMID:Three N-terminal domains of beta-1,3-glucanase A1 are involved in binding to insoluble beta-1,3-glucan. 172 8

Mild trypsin proteolysis of Streptococcus sobrinus sucrose:3-alpha-D-glucosyltransferase (GTF-I) reduced most of the enzyme to small products but left a few large fragments undigested. The digest had no glucosyl transfer activity, but several digestion products had an affinity for glucan equivalent to that of the native enzyme. The glucan-binding fragments ranged in size from 17 to 60 kilodaltons (kDa), with a particularly prominent 42-kDa fragment. The largest of these (60 kDa) appears to be the full extent of the domain since it increases in abundance when the enzyme is protected with glucan during proteolysis. The presence of smaller fragments with glucan-binding function and intact tertiary structure indicates that the full domain must be built on glucan-binding subdomains. Among the range of glucan-binding fragments, only the 42-kDa segment could be satisfactorily purified. It was subjected to N-terminal sequence analysis and, because of some ambiguity, was also subjected to chymotrypsin digestion and sequence of several chymotryptic peptides. The sequence data established that the 42-kDa domain fragment is initiated approximately two-thirds into the 170-kDa enzyme in a region previously identified as a segment of the gene that includes the glucan-binding domain (J. J. Ferretti, M. L. Gilpin, and R. R. B. Russell, J. Bacteriol. 169:4271-4278, 1987). The site is approximately 60 kDa from the C terminus and covers a region characterized by extensive amino acid sequence repeats. The data are discussed in the context of the size range of the glucan-binding fragments and subdomain architecture of the full glucan-binding domain.
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PMID:Size and subdomain architecture of the glucan-binding domain of sucrose:3-alpha-D-glucosyltransferase from Streptococcus sobrinus. 214 38

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