EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Water-soluble and 0.6 M KCl-soluble protein fractions prepared from Tetrahymena pyriformis, when inoculated into mice, could effectively induce activated macrophages having the ability to kill Toxoplasma gondii in vitro. This effect was not induced by other proteins tested, such as bovine serum albumin, pepsin from porcine stomach mucosa and chicken egg-white lysozyme, nor by muramyl dipeptide (MDP), a potent immunoadjuvant. Five fractions obtained by DEAE-Sephadex chromatography of the water-soluble protein fraction were compared with regard to induction of toxoplasmacidal activity in macrophages. The first peak was most effective for activation of macrophages. Five fractions obtained by chromatography of the 0.6 M KCl-soluble protein fraction were also examined and it was found that the first peak had the activity. No marked difference in activity was observed between the active fractions of water-soluble and 0.6 M KCl-soluble protein fractions. For practical use, we focused on the water-soluble active fraction. The minimum effective dose of the active fraction was 100 micrograms and the fraction could activate macrophages directly in vitro. Four fractions obtained by gel filtration of the active fraction on Sephadex G-200 were compared and the first peak had the activity. The first peak contained a single protein, revealed by SDS-polyacrylamide gel electrophoresis; its apparent molecular weight was 64,000.
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PMID:Macrophage activation by Tetrahymena pyriformis. II. Active protein fractions from Tetrahymena. 308 3

P388D1 is a murine macrophage cell line which spontaneously secretes plasminogen activator (PA; activated function) and lysozyme (LYS; constitutive function). Compounds which decrease PA secretion without affecting LYS secretion have potential as "down-regulators" of macrophage function and, hence, of the immune system. Glucocorticoids (e.g., dexamethasone, IC50 less than 0.01 microM) and auranofin (IC50 = 1 microM) are positive in this model. In contrast, cyclooxygenase inhibitors (indomethacin, ibuprofen and piroxicam, all at 1 microM) boost PA secretion; lipoxygenase inhibitors (REV-5901, NDGA and piriprost, all at 10 microM) have little or no effect. Dexamethasone, but not auranofin, induces a urokinase-inhibitory activity which elutes between 0.13 and 0.19 M NaCl upon anion exchange HPLC (TSK-DEAE-5-PW). Fibrin overlay following SDS-PAGE of the HPLC peak reveals a urokinase-inhibitory band at approximately 90 Kd.
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PMID:Pharmacological modulation of plasminogen activator secretion by P388D1 cell line. 312 May 14

1. Using 4-methylumbelliferyl-tetra-N-acetyl-beta-D-chitotetraoside (MU-TACT) as substrate, it is possible to measure the activity of purified lysozyme and to demonstrate lysozyme activity in the urine of patients with acute monocytic leukemia, characterized by massive lysozymuria. 2. Notwithstanding this observation, we present evidence that in normal human plasma another acid endoglucosaminidase is hydrolyzing the substrate. 3. The following data support the hypothesis of the existence of a separate hydrolase: (a) Thermoinactivation is different for MU-TACT hydrolase and lysozyme. (b) In plasma and many other biological samples, the concentration of lysozyme is too low to be measured with the artificial substrate and there is no correlation between MU-TACT hydrolase and lysozyme. (c) Serum of lysozyme deficient rabbits has normal MU-TACT hydrolase activity. (d) On Sephadex G-200 and DEAE cellulose chromatography, lysozyme and MU-TACT hydrolase are eluted separately. (e) Immunoremoval of lysozyme from human plasma does not affect the activity towards MU-TACT. (f) The effect of N-acetylglucosamine and N-acetylmuramic acid on the activity of lysozyme and MU-TACT hydrolase is different.
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PMID:Non-identity of human plasma lysozyme and 4-methylumbelliferyl-tetra-N-acetyl-beta-D-chitotetraoside hydrolase. 318 1

Tryptophan pyrrolooxygenase from wheat germ was separated into three molecular forms by microgranular DEAE-cellulose using a stepwise or a linear gradient elution procedure. In the first case molecular forms A and B were eluted with 10 mM Tris/HCl buffer (pH 7.4) and molecular form C was eluted with 50 mM KCl in the same buffer. The same separation could also be achieved with a linear KCl gradient (0-100 mM) in 10 mM Tris/HCl buffer (pH 7.4). The three molecular forms of tryptophan pyrrolooxygenase oxidized L-, D-, DL-Trp as well as many Trp derivatives with formation of N-formylkynurenyl derivatives. They also efficiently oxidized Trp-Phe, Trp-Tyr, Trp-Ala, Ala-Trp, Trp-Gly, Gly-Trp, Trp-Leu, Leu-Trp, Pro-Trp and Val-Trp, although the dipeptides were oxidized at different rates by the three molecular forms. A number of tryptophyl-containing tetra-, penta-, octa-, nona- and decapeptides were also oxidized. The oligopeptides which were known to have a helical conformation were better substrates than the smaller oligopeptides which were devoid of the conformational factor. The three molecular forms of tryptophan pyrrolooxygenase oxidized the tryptophyl residues of lysozyme, pepsin, chymotrypsin, trypsin and bovine serum albumin. It was found that molecular form A oxidized the more exposed (or hydrophilic) Trp residues of the proteins, while molecular form C also oxidized the Trp residues of a more hydrophobic nature. The three molecular forms were inhibited by chelating agents (alpha, alpha'-dipyridyl, EDTA and omicron-phenanthroline), although they differed in their sensitivities to these agents. Their optimum temperatures and inactivation rates at 65 degrees C was also different.
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PMID:Separation of tryptophan pyrrolooxygenase into three molecular forms. A study of their substrate specificities using tryptophyl-containing peptides and proteins. 369 18

Hyaluronate from rooster comb was isolated by ion-exchange chromatography on DEAE-cellulose from tissue extracts and papain digests. The preparations were labelled with [14C]acetic anhydride and subjected to CsCl-density-gradient centrifugation in 4 M-guanidinium chloride in the presence and absence of 4% ZwittergentTM 3-12. A radioactive protein fraction was separated from the hyaluronate when the zwitterionic detergent was also present. The protein could also be separated from the glycosaminoglycan by chromatography on Sepharose CL-6B eluted with the same solvent mixture. The protein fraction contained three protein bands of Mr 15,000-17,000 as assessed by polyacrylamide-gel electrophoresis in 0.1% SDS, and seemed to lack lysozyme activity. No evidence of other protein or amino acid(s) covalently linked with the hyaluronate was obtained. The hyaluronate-protein complex may be re-formed upon mixing the components, the extent of its formation depending on the conditions used. The results show that, as in chondrosarcoma [Mason, d'Arville, Kimura & Hascall (1982) Biochem. J. 207, 445-457] and teratocarcinoma cells [Prehm (1983) Biochem. J. 211, 191-198] the rooster comb hyaluronate also is not linked covalently to a core protein.
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PMID:Rooster comb hyaluronate-protein, a non-covalently linked complex. 374 74

Macrophage procoagulant-inducing factor (MPIF) is a product of mouse Lyt-1+2- cells that induces macrophage procoagulant activity (MPCA) on mouse peritoneal exudate cells or on the macrophage-like tumor cell line WEHI-265. Supernatants from Sepharose-bound concanavalin A-stimulated cells were fractionated by using DEAE-Sephacel, heparin-Sepharose, and isoelectric focusing. This procedure resolved three different MPIF: MPIF alpha (pI 8.5), MPIF beta (pI 8.8 to 9.2), and MPIF gamma (pI 5 to 5.5). MPIF alpha and beta were small molecules (approximately 14 kD and 20 to 25 kD) as determined by gel filtration on Sephadex G200 and Biogel P100. MPIF beta was sharply resolved as a peak eluting after lysozyme by gel filtration on HPLC columns I-150 and I-125, although SDS-PAGE of the HPLC-enriched material resolved two well-defined bands of 70 and 120 kD and some poorly defined material of 14 kD. Silver staining failed to detect components of MPIF alpha after SDS-PAGE. MPIF gamma activity was associated with material that separated over a broad range (20 to 60 kD and 60 to 200 kD), possibly due to aggregation with other components of the supernatants. Crude supernatants were stable to heating at 56 degrees C for 30 min and pH 2 treatment, although more highly enriched fractions were unstable to these treatments. Heating at 90 degrees C for 5 min totally destroyed MPIF activity. The properties of the two basic MPIF differ from other lymphokines known to affect macrophage function, e.g., colony-stimulating factor, migration-inhibition factor, interferon-gamma, and interleukin 1.
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PMID:Characterization and purification of mouse macrophage procoagulant-inducing factor. 376 May 75

Bacillus subtilis sporulating cells at stage III were fractionated into mother cell and forespore fractions by means of a lysozyme-detergent method. Three forms of DNA-dependent RNA polymerase enzymes, termed M sigma, F sigma, and F delta, in addition to core enzyme (alpha 2, beta', and beta) have been purified from the cell fractions. Enzymes M sigma and F sigma are present in the mother cell and forespore, respectively, and contain sigma factor of 55,000 daltons in addition to the core subunits. On the other hand, enzyme F delta is present specifically in the forespore and contains delta 1 factor of 28,000 daltons instead of the sigma factor. The amount of RNA polymerase in the forespore is about twice that in the mother cell. The enzymes M sigma and F sigma also differed in their elution profiled from DEAE-cellulose columns and in their heat stabilities indicating that the two sigma-containing holoenzyme forms may be different in their structural properties. The enzyme F delta transcribed B. subtilis DNA about 1.6 times more actively than enzyme F sigma, and the enzymes M sigma and F sigma transcribed the DNA about 2.2 times more actively than did core enzyme.
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PMID:Purification and properties of RNA polymerases from mother cells and forespores of sporulating cells of Bacillus subtilis. 679 62

Attempts at isolating individual human milk proteins showed that cross interactions made it difficult to obtain of homogeneous components. A new method was devised, based on complete precipitation of milk proteins with saturated ammonium sulphate and progressive solubilization of the precipitate on a column of Sephadex G10 with a linear gradient of ammonium sulphate (from saturation to water). Three fractions were obtained. The first contained lactoferrin, serum albumin, lysozyme and traces of alpha-lactalbumin. Lysozyme could be obtained free from contaminants by chromatography on Ultrogel AcA 54. Lactoferrin and serum albumin coeluting as a single peak, were separated by a further chromatography on DEAE-cellulose. From the other two fractions recovered on Sephadex G10, it should be possible to prepare immunoglobulins, alpha-lactalbumin and the bulk of caseins. The homogeneity of the preparations of lysozyme, lactoferrin and serum albumin was assessed by SDS polyacrylamide gel electrophoresis, acrylamide agarose electrophoresis and immunoelectrophoresis.
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PMID:[A new method for human milk protein separation]. 682 Nov 60

The antibacterial properties of lysozyme for Streptococcus mutans BHT may be a function of its binding to cell components other than to peptidoglycan. Inhibitors of muramidase activity, including histamine and N-acetyl-D-glucosamine, only partially blocked the bacteriostatic effects on this strain. Greater than 20 mM histamine alone inhibited growth suggesting a bacteriostatic potential. An autoclaved saline extract was then prepared from stationary phase cultures in a chemically-defined medium. As little as 31.25 micrograms of the extract significantly blocked the effect of 50 micrograms lysozyme and complete enzyme inhibition was achieved with 62.5 micrograms. The extract was fractionated and location of potential binding components determined by a precipitin method consisting of diffusing the samples into 1.2 per cent agarose containing lysozyme. Binding components eluted in the first peak of a Sephacryl S-300 column, bound to DEAE-cellulose, but desorbed with gradient elution (0.1-1.0 M tris-HCl buffer, pH 8.0). The eluted material was then applied to an affinity column containing purified lysozyme coupled to epoxy-activated Sepharose 6B. Non-absorbed anionic material precipitated only with protamine. Lysozyme-binding fractions eluted in a sharp peak with 1.0 M tris-HCl buffer (pH 8.0), did not bind wheat-germ agglutinin, contained less than 50 micrograms protein, 95 micrograms sugar, 66.7 micrograms phosphorus, less than 0.25 mequiv lipid and no detectable nucleic acids. The peak material reacted with antiserum directed against polyglycerol phosphate, indicating that it contained acylated or, possibly, deacylated lipoteichoic acid. The findings suggest that the antibacterial properties of lysozyme for Strep. mutans BHT may, in part, be modified (or possibly regulated) by binding to molecules such as lipoteichoic acid.
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PMID:Lysozyme binding by a polyglycerol phosphate polymer of the oral bacterium Streptococcus mutans BHT. 695 52

Muramidase which actively lyses the cell walls of group A hemolytic streptococci has been isolated from the culture fluid of Actinomyces levoris by precipitation on ammonium sulfate, gel filtration on Sephadex G-25, ion exchange chromatography on DEAE cellulose and double electrofocusing. The enzyme thus obtained has shown its maximum activity at 40-50 degrees C. At 60 degrees C muramidase was completely inactivated. The enzyme has a wide range of optimum pH values: 5.0-9.5. The highest percentage of lysis of streptococcal cell walls has been observed in plycine-NaOH and potassium phosphate buffers at pH 8.0. Muramidase completely lysed Streptococcus pyogenes cells of different serological groups except enterococci (group D) and staphylococci. This sign allows to differentiate group D streptococcus from streptococci of other groups.
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PMID:[Isolation and evaluation of properties of muramidase causing the lysis of group A streptococci]. 718 Feb 63

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