EC:3.4.24.11 - FACTA Search

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Query: EC:3.4.24.11 (CD10)
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Hydrolysis of Staphylococcus aureus 209 P cell wall peptidoglycan was accompanied by the liberation of 1.3 mol of C-terminal and 1.2 mol of N-terminal glycine per mole of Glu as well as of 0.5 mol of N-terminal and 0.3 mol of C-terminal alanine. Gel chromatography on Sephadex G-25, ion-exchange chromatography on QAE-Sephadex A-50 and paper electrophoresis of S. aureus peptidoglycan hydrolysates gave seven homogeneous fractions; these fractions were structurally defined. Lysoamidase hydrolyzed bonds Mur-Ala, Gly-Gly and Mur-GlcN in the peptidoglycan molecule. Hydrolysis of glycan chains was accompanied by the formation of large fragments, (GlcN-Mur)9 and (GlcN-Mur)28. The lytic effect of lysoamidase on S. aureus peptidoglycan is coupled with bacteriolytic enzymes of lysoamidase: acetmuramyl amidase, glycyl--glycine endopeptidase and acetyl--muramidase.
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PMID:[Hydrolysis of a Staphylococcus aureus cell wall peptidoglycan by 209 P lysoamidase]. 208 20

The peptidoglycan of Staphylococcus aureus contains relatively short glycan chains and is highly cross-linked via its peptide chains. The material from wild-type (strain H) and mutants H28, H4B and MR-1 was freed from the teichoic-acid-linked component and then hydrolysed by Chalaropsis muramidase to yield disaccharide-repeating units of the glycan with attached peptides either non-cross-linked (monomer) or joined to similar units by one (dimer), two (trimer) or more (oligomer) peptide cross links. The resulting fragments were separated by high-resolution HPLC so that distinguishable components as large as nonamer could be identified. Extrapolation showed that, in S. aureus H, H28 and MR-1, oligomers at least as large as eicosamer formed part of the smooth distribution of oligomer fragments, whereas in strain H4B (PBP4-) the maximum size was around dodecamer. The oligomer distribution profile was related to the polymerization theories of Flory, which allow a distinction to be made between a monomer addition model, whereby each oligomer can only be synthesized by the addition of a single monomer unit to its next lower homologue, and a random addition model, in which an oligomer can be formed by linkage of any combination of its constituent smaller units. In S. aureus close approximation to the random addition model for oligomer synthesis and hence for peptidoglycan cross-linking was observed, both in PBP4+ and PBP4- mutants. The implications for secondary cross-linking in S. aureus cell wall formation are inescapable, although the possibility of an endopeptidase/transpeptidase providing later modification of the peptidoglycan is not completely ruled out.
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PMID:Peptidoglycan cross-linking in Staphylococcus aureus. An apparent random polymerisation process. 238 86

Radioactive labelling of the amino sugars in gonococcal peptidoglycan was followed by treatment with Chalaropsis muramidase and TLC separation of the products. Even after very brief periods of labelling (0.5 min) the peptidoglycan was already cross-linked to some 80% of the final value and little change occurred within 2 min. The remaining cross-linking was achieved only over a period of about one generation time. Streptomycete endopeptidase was used to show the extent to which new chains were cross-linked to old. Even at the earliest times many cross-linked units contained new material in both moieties and by 3 min there was little distinction in relative labelling, indicating that in Neisseria gonorrhoeae most newly synthesized glycan chains are cross-linked to other new chains rather than to pre-existing peptidoglycan. A model is proposed in which newly polymerized monomer units are predestined either towards dimer formation with other new chains, which are then rapidly O-acetylated and not further cross-linked, or towards the formation of trimers and higher oligomers, the latter being a slower process. Although significant O-acetylation of peptidoglycan was detectable even at the earliest times, efforts to detect O-acetylated lipid intermediates were unsuccessful. The chief lipid intermediate found was apparently the disaccharide-peptide unit linked to undecaprenol.
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PMID:O-acetylation of peptidoglycan in Neisseria gonorrhoeae. Investigation of lipid-linked intermediates and glycan chains newly incorporated into the cell wall. 309 11

The peptidoglycans from several Gram-negative and Gram-positive periodontal pathogens were isolated, purified, and characterized both morphologically and chemically. In addition, the effects of the mureolytic enzymes, lysozyme, M-1 N-acetyl-muramidase, and the AM-3 endopeptidase, on the peptidoglycans were examined. These enzymes were found to be highly effective in the degradation of the purified peptidoglycans; however, a Bacteroides capillus peptidoglycan-protein complex exhibited a greater resistance to these enzymes. Morphologically, the peptidoglycans consisted of large saccular sheets which, when viewed by scanning electron microscopy, contained numerous holes and tears. Chemically, the peptidoglycans consisted of muramic acid, glucosamine, alanine, glutamic acid, and meso-diaminopimelic acid (DAP). One Bacteroides species, Bacteroides gingivalis strain W, contained glycine and LL-DAP, suggestive of an indirectly cross-linked A3 gamma peptidoglycan.
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PMID:Isolation and characterization of the peptidoglycans from selected gram-positive and gram-negative periodontal pathogens. 398 14

Pep 5 and nisin are cationic bactericidal peptides which were shown to induce autolysis in Staphylococcus cohnii 22. In contrast to nisin, Pep 5 induced lysis could be stimulated in the presence of glucose. Addition of lipoteichoic acids (LTA) (D-alanine:phosphorus = 0.475:1) inhibited all effects of Pep 5 on susceptible cells in a molar ratio LTA:Pep 5 of 10:1. Treatment of S. cohnii 22 with Pep 5 or nisin for 20 min and subsequent washing with 2.5 M NaCl released autolysin activity. Crude preparations of the hydrolyzing enzymes produced free amino groups as well as polysaccharide fragments from the murein backbone, suggesting the presence of a muramidase or glucosamidase, and endopeptidase or amidase. Both enzyme activities were inhibited by lipoteichoic acid; they could be fully reactivated by addition of Pep 5 in sufficient concentrations. The velocity of hydrolysis was not influenced by nisin, whereas it was doubled in presence of Pep 5. The results are discussed in view of a possible mechanism of induction of lysis by Pep 5 and nisin.
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PMID:Induction of autolysis of staphylococci by the basic peptide antibiotics Pep 5 and nisin and their influence on the activity of autolytic enzymes. 400 48

Cells of Bacillus thuringiensis containing refractile spores autolyzed readily when suspended in buffer. The autolysate contained enzymes which lysed vegetative cell walls of the organism. Three enzymes were isolated from the autolysate, and each was purified approximately 30-fold. One enzyme, most active near pH 4.0, was found to be an N-acetylmuramidase. The other two enzymes exhibited pH optima at 8.5. One was stimulated by cobalt ions and the other was not. The cobalt-stimulated enzyme was shown to be an N-acetylmuramyl-l-alanine amidase. The cobalt insensitive enzyme exhibited both N-acetylmuramyl-l-alanine amidase and endopeptidase activity. The amidase activity may reflect incomplete separation of the cobalt-stimulated enzyme. The endopeptidase cleaved the peptide bond between l-alanine d-glutamic acid. A cell wall lytic endopeptidase with this specificity has not been previously reported. All three enzymes were extremely limited in the range of bacterial cell walls which they attacked. Except for cell walls of Micrococcus lysodeikticus, which were lysed by the muramidase, only cell walls of members of the genus Bacillus were attacked.
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PMID:Isolation and characterization of three autolytic enzymes associated with sporulation of Bacillus thuringiensis var. thuringiensis. 573

The extent of lysozyme resistance and O-acetylation of purified peptidoglycan (PG) from 20 strains of Neisseria gonorrhoeae was examined to determine how widespread these properties are among various subsets of gonococcal isolates. To determine digestibility by lysozyme, we treated [3H]- or [14C]glucosamine-labeled PG with hen egg white lysozyme (HEW-LZ) and determined the size distribution of HEW-LZ soluble PG at the completion of the reaction by molecular-sieve high-performance liquid chromatography, using a Varian TSK SW2000 column, a method that proved considerably more efficient than traditional chromatography for fractionating low-molecular-weight PG fragments solely on the basis of size. The extent of HEW-LZ resistance was expressed as the percentage of PG that was larger in size than disaccharide peptide tetramers (including insoluble PG removed by centrifugation). The percent O-acetylation was determined by converting insoluble PG totally to uncross-linked monomers by the combined action of Chalaropsis B muramidase followed by Escherichia coli endopeptidase and then quantitating radioactivity in O-acetylated and non-O-acetylated monomers after paper chromatography. The PG of the vast majority (19 of 20) of gonococcal strains examined was extensively HEW-LZ resistant (range, 40 to 60% larger than tetramers) and extensively O-acetylated (range, 34 to 52%). Only the PG of strain RD5 (highest rate of PG turnover among gonococci so far examined and the prototype of gonococci having O-acetyl-deficient PG) had greatly reduced O-acetylation (15%) and exhibited virtually no HEW-LZ resistance (2% larger than tetramers). Extensive HEW-LZ resistance and O-acetylation were apparently not associated specifically with (i) a given type of colonial variant (piliated versus nonpiliated or opaque versus transparent), (ii) a given type of clinical isolate (local versus disseminated), (iii) the extent of laboratory passage, or (iv) (with the possible exception of penicillin-resistant strain FA102) the presence of one or more genetic loci governing antibiotic resistance among members of an isogenic set of gonococci. From this survey, we conclude that lysozyme resistance and extensive O-acetylation of PG are widespread among gonococci and, thus, that most strains are potential sources of hydrolase-resistant PG that conceivably could persist as macromolecular fragments in vivo.
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PMID:Strain distribution in extents of lysozyme resistance and O-acetylation of gonococcal peptidoglycan determined by high-performance liquid chromatography. 641 14

A system of intracellular autolytic enzymes of the bacterium Xanthomonas campestris IBPM B-124 was found to include enzymes with muramidase and glucosaminidase activities, while a system of extracellular bacteriolytic enzymes of the same bacterium includes muramidase, muramoylalanine amidase, and endopeptidase. Using a purification technique including fractional precipitation with ammonium sulfate, gel-filtration on Toyopearl HW-55F, and FPLC ion-exchange chromatography on Mono Q, a preparation of intracellular glucosaminidase was purified 435-fold with 16% yield (SDS-PAGE data indicated the presence of minor protein contaminants). Some physicochemical properties of the purified enzyme were determined: molecular mass 26 kD, Km = 5.6 x 10(-4) M with p-nitrophenyl-2-acetamido-2-deoxy-beta-D-glucopyranoside as the substrate, and pH optimum 8.0-8.5. The enzyme is active over a wide range of Tris-HCl buffer concentrations (0.01-0.5 M) and has temperature optimum at 37-40 degrees C. The glucosaminidase activity is sensitive to p-chloromercuribenzoate (PCMB), phenylmethylsulfonyl fluoride (PMSF), and the disodium salt of ethylenediamine tetraacetic acid (EDTA). The properties of this glucosaminidase markedly differ from those of all extracellular bacteriolytic enzymes of Xanthomonas campestris. These findings indicate that the system of autolytic enzymes of this bacterium functions independently and is not connected with the system of extracellular bacteriolytic enzymes.
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PMID:Intracellular glucosaminidase of the bacterium Xanthomonas campestris IBPM B-124: purification and properties. 1104 95

Interactions of a negatively charged exopolysaccharide of Xanthomonas campestris IBPM 124 with its extracellular enzymes (muramidase, endopeptidase, and neutral phosphatase) and also with egg lysozyme, lysostaphin, muramidase of Streptomyces globisporus, and a bacteriolytic enzyme complex of Streptomyces albus were studied. All these enzymes were positively charged under the conditions of their maximal activity. It was shown that interaction of the acidic exopolysaccharide from X. campestris with these enzymes changed their kinetic parameters. The change was either positive (increase in reaction rate) or negative (decrease in reaction rate) and depended on the enzyme and type of substrate cleaved. Due to such interactions, the acidic exopolysaccharide secreted by X. campestris into the environment not only retained and transported positively charged exoenzymes into the near-cellular space, but also regulated their activity.
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PMID:Influence of acidic exopolysaccharide of Xanthomonas campestris IBPM 124 on the kinetic parameters of extracellular bacteriolytic enzymes. 1142 16

Synthetic peptides corresponding to portions of group B streptococcal peptidoglycan were used to show that the endopeptidase activity of bacteriophage B30 lysin cleaves between D-Ala in the stem peptide and L-Ala in the cross bridge and that the minimal peptide sequence cleaved is DL-gamma-Glu-Lys-D-Ala-Ala-Ala. The only glycosidase activity present is that of N-acetyl-beta-D-muramidase.
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PMID:Endopeptidase and glycosidase activities of the bacteriophage B30 lysin. 1702 Dec 37

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