EC:3.2.1.17 - FACTA Search

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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A Bacteroidaceae cross-reacting antigen (BCA) was isolated from several strains belonging to species in the genera Fusobacterium and Bacteroides. We showed that each of the 28 strains examined synthesized either BCA or the O-specific lipopolysaccharide (LPS). The structural difference between the two antigens was demonstrated by passive hemagglutination. BCA coated erythrocytes spontaneously and reacted with equal intensity to all bacterial antisera of BCA+ strains, whereas LPS was species specific and also coated erythrocytes after the antigen was treated with NaOH. BCA is an acid polysaccharide as proven by immunoelectrophoresis and by its capacity to form a salt linkage with lysozyme. Chemical analysis demonstrated the presence of galactosamine, glucosamine, galactose, glucose, mannose, and N-acetyl. BCA was nontoxic and did not contain lipid A in its molecule. The small particle size of BCA determined its hapten character. When attached to acid-treated Salmonella minnesota Re cells, it acted as an immunogen. By immunizing rabbits with this hapten-bacterial cell suspension, we obtained a highly potent antiserum that agglutinated all BCA+ strains.
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PMID:Isolation and characterization of a cross-reacting antigen in strains of Bacteroidaceae. 709 55

Streptococcus mutans BHT was grown in Todd-Hewitt dialysate medium containing N-acetyl[(14)C]glucosamine for 6 to 11 generations. After treatment with cold and hot trichloroacetic acid and trypsin, 52 to 65% of the radioactivity remained present in insoluble peptidoglycan-containing residues. Hen egg white lysozyme or mutanolysin treatment of the peptidoglycan residues resulted in the release of 80 and 97%, respectively, of the (14)C label to the supernatant fraction. Hydrochloric acid hydrolysates of such supernatants showed that essentially all of the radioactivity present in insoluble peptidoglycan fractions was present in compounds that comigrated on paper chromatography with glucosamine ( approximately 60%) or muramic acid ( approximately 30%). Treatment of whole cells with low and high concentrations of lysozyme alone resulted in losses of 45 and 70% of the insoluble peptidoglycan, respectively, yet release of deoxyribonucleic acid from cells was not detected. Sequential addition of appropriate concentrations of selected inorganic salts after lysozyme treatment did result in the liberation of deoxyribonucleic acid. Deoxyribonucleic acid release was correlated with a further release of peptidoglycan from the insoluble fraction. However, the total amount of peptidoglycan lost effected by the low concentration of lysozyme and NaSCN (lysis) was significantly less than the amount of peptidoglycan hydrolyzed by high concentrations of lysozyme alone (no lysis), suggesting that the overall amount of peptidoglycan lost did not correlate well with cellular lysis. The total amount of insoluble peptidoglycan lost at the highest salt concentrations tested was found to be greater than could be accounted for by lysozyme-sensitive linkages of the peptidoglycan, possibly implicating autolysins. The results obtained suggested that hydrolysis of peptidoglycan bonds in topologically localized, but strategically important, sites was a more significant factor in the sequence that results in loss of cellular integrity (lysis).
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PMID:Peptidoglycan loss during hen egg white lysozyme-inorganic salt lysis of Streptococcus mutans. 721 16

The mononuclear phagocyte is well established as an in vitro cytotoxic effector cell for certain human tumors. The mechanism(s) for this action remains unclear. Increased levels of lysozyme, a cationic enzyme synthesized in large amounts by mononuclear phagocytes, are associated with increased resistance to transplantable animal tumors. In this study, we provide evidence that human lysozyme, isolated from the urine of leukemic patients, has marked potentiating effects on human monocyte-tumor-cell cytocidal activity. In addition, lysozyme-exposed monocytes incorporate increased quantities of leucine, suggesting that monocytes are capable of amplifying their own metabolic activation by secreting an endogenous constituent. Tri-N-acetyl-glucosamine, a competitive inhibitor for the active site of lysozyme, inhibits cytocidal activity. Conversely, protamine, an extraneous albeit similarly positively charged molecule, increases monocyte-mediated tumor cytotoxicity; this protamine effect is negated by heparin. We conclude that lysozyme, at least partially by its positive charge, is capable of enhancing in vitro monocyte tumor cell cytotoxicity; its in vivo secretion may potentiate monocyte-tumor-cell interaction.
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PMID:Lysozyme enhances monocyte-mediated tumoricidal activity: a potential amplifying mechanism of tumor killing. 729 7

Bacillus cereus peptidoglycan with N-unsubstituted glucosamine residues was insensitive to treatment with bacteriophage T4 lysozyme. After N-acetylation with acetic anhydride, T4 lysozyme cleared solutions of the peptidoglycan and reducing sugars were liberated. The digestion products were mainly of high molecular weight, since the peptidoglycan is peptide cross-linked to a great extent. N-Propylation did not convert the partially N-unsubstituted peptidoglycan to a sensitive form. It is concluded that the acetamido groups are required for binding and/or catalysis by T4 lysozyme.
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PMID:The specificity requirements of bacteriophage T4 lysozyme. Involvement of N-acetamido groups. 730 3

Cadaverine was found to exist as a component of cell wall peptidoglycan of Selenomonas ruminantium, a strictly anaerobic bacterium. [14C]cadaverine added to the growth medium was incorporated into the cells, and about 70% of the total radioactivity incorporated was found in the peptidoglycan fraction. When the [14C]cadaverine-labeled peptidoglycan preparation was acid hydrolyzed, all of the 14C counts were recovered as cadaverine. The [14C]cadaverine-labeled peptidoglycan preparation was digested with lysozyme into three small fragments which were radioactive and were positive in ninhydrin reaction. One major spot, a compound of the fragments, was composed of alanine, glutamic acid, diaminopimelic acid, cadaverine, muramic acid, and glucosamine. One of the two amino groups of cadaverine was covalently linked to the peptidoglycan, and the other was free. The chemical composition of the peptidoglycan preparation of this strain was determined to be as follows: L-alanine-D-alanine-D-glutamic acid-meso-diaminopimelic acid-cadaverine-muramic acid-glucosamine (1.0:1.0:1.0:1.0:1.1:0.9:1.0).
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PMID:Cadaverine is covalently linked to peptidoglycan in Selenomonas ruminantium. 746 41

An Acetobacter xylinum adapted to a medium containing N-acetylglucosamine (GlcNAc) has been used to prepare a novel polysaccharide containing residual GlcNAc in cellulose. The maximum amount of incorporation was found to be 4 mol% in cellulose, when a mixed medium containing 1.4% glucose (Glc) and 0.6% GlcNAc was used for the culture of A. xylinum. The resulting polysaccharide was lysozyme-susceptible. The aminosugar residue incorporated into bacterial cellulose was found to be only GlcNAc, even if galactosamine (GalN) and glucosamine (GlcN) were applied, whereas there was little effect by mannosamine (ManN). As the major component of the resulting polysaccharide was Glc residues, even if the only carbon source in the culture medium was GlcNAc, it was suggested that there must be several enzyme systems to convert GlcNAc into Glc in the bacteria. Several ammonium salts were also found to be effective for the incorporation of GlcNAc residues when the incubation system was converted to rotatory and aerobic incubation from static incubation. The amount of residual GlcNAc was remarkably increased by the addition of lysozyme-susceptible phosphoryl-chitin (P-chitin) and increased slightly with addition of P-chitin that was less lysozyme-susceptible. However, little effect was found on addition of highly substituted P-chitin.
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PMID:Biosynthesis of a novel polysaccharide by Acetobacter xylinum. 772 42

The structure of goose egg-white lysozyme (GEWL) has been refined to an R-value of 15.9% at 1.6 A resolution. Details of the structure determination, the refinement and the structure itself are presented. The structure of a complex of the enzyme with the trisaccharide of N-acetyl glucosamine has also been determined and refined at 1.6 A resolution. The trisaccharide occupies sites analogous to the B, C and D subsites of chicken (HEWL) and phage T4 (T4L) lysozymes. All three lysozymes (GEWL, HEWL and T4L) display the same characteristic set of bridging hydrogen bonds between backbone atoms of the protein and the 2-acetamido group of the saccharide in subsite C. Glu73 of GEWL is seen to correspond closely to Glu35 of HEWL (and to Glu11 of T4L) and supports the established view that this group is critically involved in the catalytic mechanism. There is, however, no obvious residue in goose lysozyme that is a counterpart of Asp52 of chicken lysozyme (or of Asp20 in T4L), suggesting that a second acidic residue is not essential for the catalytic activity of goose lysozyme, and may not be required for the activity of other lysozymes.
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PMID:The refined structures of goose lysozyme and its complex with a bound trisaccharide show that the "goose-type" lysozymes lack a catalytic aspartate residue. 782 20

Human bronchial surface epithelial cells were maintained in secondary culture on a collagen gel substrate in a defined, serum-free medium. These conditions have previously been reported to promote mucous cell differentiation. After 3 wk in culture, approximately 40% of the cells were stained by an antibody directed against human respiratory mucin. Analysis of media from cells cultured in the presence of the radioactive precursors [3H]glucosamine and [35S]sulfate revealed that the cells secreted high molecular weight glycoproteins with properties of typical respiratory mucins. In addition, hyaluronic acid and proteoglycans containing chondroitin sulfate and/or heparan sulfate glycosaminoglycans were identified in cell conditioned media. Finally, Western blot analyses showed that the cells secreted lysozyme and mucous proteinase inhibitor, proteins that are generally considered to be markers for submucosal gland serous cells. These results show that human bronchial cells from the surface epithelium in secondary culture secreted a range of glycoconjugates and proteins that were typical secretory products of both mucous and serous cells.
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PMID:Mucous and serous secretions of human bronchial epithelial cells in secondary culture. 786 12

Mutations around His15 which lie far away from the active site, stimulated glycol chitin activity of lysozyme at physiological temperature. Del-Arg14His15 lysozyme, a mutant lysozyme whose Arg14 and His15 were deleted together, and has the highest activity among these mutant lysozymes, had a similar binding ability to a trimer of N-acetyl-glucosamine, a substrate analogue, relative to native lysozyme. This suggests that the increased activity was due to an increased kcat in the catalysis reaction. The H-D exchange rate of the N-1 proton in the Trp63 which is located in the active site cleft, was enhanced in the Del-Arg14His15 lysozyme, while 2-D proton NMR analysis revealed no conformational change around Trp63. We conclude that some sort of fluctuation at the active site might be required for the manifestation of activity. This theory is supported by the finding that the Del-Arg14His15 lysozyme showed a shift in temperature dependency of activity to lower temperatures compared with that of native lysozyme.
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PMID:Lysozyme requires fluctuation of the active site for the manifestation of activity. 793 4

The capsular polysaccharide released from the bacterial surface by cell wall turnover during growth exhibited less size heterogeneity and a higher average molecular mass than the polysaccharide extracted from the cell by treatment with lysostaphin or low pH. Treatment of turnover polysaccharide, radiolabelled by growth of the bacteria in the presence of N-acetyl-[3H]-glucosamine, with muramidase B from Chalaropsis released a low molecular weight product chromatographically identical to the peptidoglycan degradation products released from the peptidoglycan-teichoic acid complex by the same treatment. It is concluded that some or all of the capsular polysaccharide released into the culture fluid during growth is derived from peptidoglycan-linked capsular material, solubilised by cell wall turnover.
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PMID:The capsular turnover product of Staphylococcus aureus strain Smith. 801 80

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