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)

When lysozyme is reacted with 4-chloro-7-nitrobenz-2-oxa-1,3-diazole (NBD-CL), A 1:1 covalent product is produced, in which the NBD group arylates the phenolic hydroxyl group of Tyr-23 (Aboderin, A. A., and Boedefeld, E. (1976) Biochim. Biophys. Acta 420, 177). Changing the pH from neutral to alkaline conditions results in a large spectral shift of the absorption band associated with the NBD chromophore (Aboderin, A. A., Boedefeld, E., and Luisi, P. L. (1973) Biochim. Biophys. Acta 328, 30). In the present work it is shown that this spectral change is due to the formation of a sigma complex in which a hydroxyl ion is added to the aromatic nucleus of the nitrobenzoxadiazole system. Circular dichroic studies suggest that the NBD group is held in a conformationally rigid state in the protein. The kinetics of the spectral change accompanying the formation of the sigma complex has been investigated with a rapid mixing stopped flow spectrophotometer both in the modified enzyme and in the low molecular weight model compounds N-acetyl-(O-NBD)-L-tyrosinamide and glycyl-(O-NBD)-L-tyrosine. In the pH range from 10.1 to 12.7, the time course of the reaction is first order in the case of the modified enzyme (k = 4.8 s-1) and bimolecular and much slower (under pseudo-first order conditions) in the low molecular weight compounds. It is suggested that in the enzyme the reaction proceeds much faster because of the hydrophobic environment around the reacting groups. It is further suggested that the unimolecularity in the enzyme is due to a rate-determining isomerization step, probably connected with a local rearrangement of the protein conformation following the ionization of Tyr-20.
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PMID:Alkaline structural transition of 4-nitrobenz-2-oxa-1,3-diazolyl-Lysozyme. Kinetic and spectroscopic investigations. 1 90

Three cationic proteins from the granules of human neutrophil granulocytes were obtained in a high degree of purity be means of affinity chromatography on 4-phenylbutylamine-Sepharose. Together with lysozyme, the three cationic proteins exhibit the highest electrophoretic mobility toward the cathode in acrylamide gels at moderately acid pH, among the granule constituents that are solubilized in 0.1 M phosphate buffer, pH 7.0, containing 1 M NaCl. The three cationic proteins represent a group of "neutral proteases" distinct from elastase and collagenase. They hydrolyze casein, azocasein and the chymotrypsin substrate N-acetyl-L-tyrosine ethyl ester. Optimal activity is found at pH 7.4-7;5. The enzymes are inhibited by the specific chymotrypsin inhibitor N-tosyl-L-phenylalanylchloromethane and by the naturally occurring inhibitors alpha-antichymotrypsin, alpha-1-antitrypsin, as well as by the trypsin inhibitors from soy beans and limabeans.
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PMID:Cationic proteins from human neutrophil granulocytes. Evidence for their chymotrypsin-like properties. 23 18

1. The reactivities of phenylglyoxal (PGO), glyoxal (GO), and/or methylglyoxal (MGO) with several proteins, including ribonuclease A [EC 3.1.4.22] and its derivatives, alpha-chymotrypsin [EC 3.4.21.1], trypsin [EC 3.4.21.4], lysozyme [EC 3.2.1.17], pepsin [EC 3.4.23.1], rennin [EC 3.4.23.4], thermolysin, and insulin and its B chain, have been examined. From analyses of the reaction products, PGO was shown to be the most specific for arginine residues. GO and MGO also reacted rapidly with arginine residues, but they also reacted with lysine residues to a significant extent. A side reaction with N-terminal alpha-amino groups was observed with each of these reagents. 2. Two arginine residues out of four in ribonuclease A, two out of three in alpha-chymotrypsin, one out of two in trypsin, one out of two in pepsin, and one out of five in rennin appeared to react with PGO fairly rapidly, indicating a difference in the relative accessibility of these residues by the reagent. Extensive modification of the arginine residues by PGO occurred with RCM-derivatives of ribonuclease A and insulin B chain. The N-terminal isoleucine residues of alpha-chymotrypsin and trypsin appeared to be unreactive with PGO because of salt bridge formation with an aspartyl residue. The activity of alpha-chymotrypsin toward N-benzoyl-L-tyrosine ethyl ester and the lytic activity of lysozyme were lost rapidly on treatment with PGO, as in the case of ribonuclease A. Pepsin and rennin were only partially inactivated by reaction with PGO.
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PMID:Further studies on the reactions of phenylglyoxal and related reagents with proteins. 32 41

A human neutrophil protease, initially termed neutral peptide-generating protease, has been shown to cleave angiotensin II directly from angiotensinogen and has been identified as leukocyte cathepsin G. When purified neutrophils were disrupted by nitrogen cavitation and fractionated by differential centrifugation, 44 and 24% of the angiotensin II-generating activity was in the lysosomal and undisrupted cell fractions, respectively. Cytochalasin B-treated human neutrophils stimulated with N-formyl-L-methionyl-L-leucyl-L-phenylalanine released beta-glucuronidase, lysozyme, and angiotensin II-generating protease in a dose-dependent fashion, consistent with localization of this protease to the neutrophil granule. Individually purified angiotensin II-generating protease and cathepsin G had similar proteolytic and esterolytic activity for angiotensinogen and N-benzoyl-L-tyrosine ethyl ester on a weight basis, exhibited identical mobilities by SDS-gradient polyacrylamide gel electrophoresis and pH 4.3 disc-gel electrophoresis, and gave precipitin lines of antigenic identity on Ouchterlony analysis with goat antibody to the angiotensin II-generating protease. Thus, the angiotensin II-generating protease of human neutrophils has been identified as cathepsin G on the basis of subcellular localization, substrate specificity, physicochemical characteristics, and antigenic identity.
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PMID:Identification of a human neutrophil angiotension II-generating protease as cathepsin G. 617 48

The structural components of antigen molecules that interact with class II major histocompability complex (MHC) molecules on antigen-presenting cells (APCs) (agretopes) and with antigen receptors of T-lymphocytes (epitopes) in class II restricted T-cell responses have not been precisely defined. This issue was addressed here using murine T-cell clones specific for the simple immunogen L-tyrosine-p-azobenzenearsonate (ABA-tyr) and a series of analogs of the homologous antigen. Two experimental approaches were used. First, APCs were pulsed with analogs and used to stimulate T-cell proliferation. The patterns of stimulation segregated the clones into two specificity groups and indicated that the epitope recognized by the T-cell included the arsonate group and elements in the side chain of tyrosine. Furthermore, the clones manifest different sensitivities to antigen. Second, non-stimulatory analogs were used to block the presentation of ABA-tyr in an effort to define the agretope. Compounds containing the azophenyl group blocked presentation of ABA-tyr in a dose-dependent fashion, whereas p-arsanilic acid and L-tyrosine were ineffective. The blocking was specific inasmuch as the compounds had no effect on the antigen-induced proliferative responses of giant keyhole limpet hemocyanin (KLH) or hen egg white lysozyme (HEL)-reactive T-cell clones. The blocking pattern indicated that the feature required for productive association with the APC centered on the planar structure of the azo-linked aromatic rings, with little or no contribution from either the arsonate moiety or the tyrosyl side chain. We propose that this structure forms an agretope for this family of compounds.
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PMID:The anatomy of an antigen molecule: functional subregions of L-tyrosine-p-azobenzenearsonate. 620 67

Incorporation of 3-amino-1-methyl-5H-pyrido[4,3-b]indole (Trp-P-2), the principal mutagen in a tryptophan pyrolysate, into bovine serum albumin was catalyzed by myeloperoxidase. Hydrogen peroxide was essential for the incorporation reaction and albumin was required for optimal incorporation of Trp-P-2 into protein. Other various proteins, such as histone, lysozyme, cytochrome c, and gamma-globulin could also incorporate Trp-P-2, but poly(L-Arg), poly(L-Lys), and poly(L-Glu) could not. The incorporation of Trp-P-2 into albumin was inhibited by L-tyrosine and L-tryptophan, but not by other amino acids. Trp-P-2 incorporated into albumin was not released from the protein by treatment with 0.3 N HCl, or 0.3 N NaOH for 2 h at 35 degrees C, or with 1% sodium dodecylsulfate for 2.5 min at 100 degrees C. On electrophoresis on polyacrylamide containing sodium dodecylsulfate or urea and on chromatography on Sepharose CL-6B in 6 M guanidine/HCl, Trp-P-2 incorporated into albumin or lysozyme migrated with these proteins. These findings indicate that Trp-P-2 is covalently bound to these acceptor proteins.
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PMID:Myeloperoxidase-catalyzed binding of 3-amino-1-methyl-5H-pyrido[4,3-b]indole, a tryptophan pyrolysis product, to protein. 625 79

Rabbits homozygous at the Ab kappa chain allotypic locus (Ab4/Ab4 and Ab9/Ab9) were immunized with negatively and positively charged antigens. The negatively charged antigens were bovine serum serum albumin (BSA; pI = 4.9), ovalbumin (OV; pI = 4.9) and two synthetic polypeptides: copolymer L-glutamic acid L-tyrosine (abbreviated TG; pI = 4.8) and multichain poly (L-tyrosine: L-glutamic acid) poly D-alanine: poly L-lysine (poly L-lysine backbone) abbreviated (TG) --AL; pI = 4.8). The positively charged antigen was hen egg lysozyme (LYS; pI = 10.2). Homozygous Ab9 rabbits responding to negatively charged antigens made less antibody than did Ab4 homozygotes. In contrast, both groups of animals responded equally well to positively charged lysozyme. The relative electric charges of the antibodies were assessed by Sephadex A-50 chromatography. The charge distribution was found to depend on the charge of the eliciting antigen. The positively charged antibodies of Ab9/Ab9 rabbits were not nearly as positively charged as those raised in Ab4/Ab4 rabbits. The difference in average electric charges and in the range of these charges between Ig Ab4 and Ig Ab9 explain quantitative differences in antibody formation in response to negatively charged antigens and may be a contributing factor to the "pecking order", i.e. unequal phenotypic expression of light chain genes in Ab4/Ab9 heterozygotes.
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PMID:Allotype and charge-related differences in the immune response. 680 91

New antibiotics, macbecins I and II, have been found in the culture fluid of an actinomycete, which has the following properties: delayed fragmentation of vegetative mycelia, formation of coremia on solid media, the occurrence of meso-diaminopimelic acid in the cell wall, lysozyme resistance, and guanine-cytosine content of 71 +/- 1 mol%. The organism has been designated Nocardia sp. No. C-14919 (N-2001). A marked enhancement of the production of macbecins I and II was observed in cultures containing L-tyrosine. The antibiotics are moderately active against several Gram-positive bacteria and fungi. The antibiotics also inhibit the growth of Tetrahymena pyriformis W at 2 microgram/ml but show no activity against the regeneration of cilia in partially deciliated Tetrahymena at 10 microgram/ml.
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PMID:Macbecins I and II, new antitumor antibiotics. I. Producing organism, fermentation and antimicrobial activities. 738 Jul 29

The single histidine residue (His-15) in hen egg white lysozyme (EC 3.2.1.17) was chemically modified by diethyl pyrocarbonate (DEPC) to form exclusively the mono-N-carbethoxyimidazole adduct (second order rate constant of 252 +/- 16 M-1 min-1). Irreversible biscarbethoxylation of the His-15 imidazole ring by DEPC was observed when lysozyme was pretreated with 2-mercaptoethanol (2-ME), 2-ME plus 8 M urea, or 2-ME plus 1% (w/v) sodium dodecyl sulfate (SDS). Circular dichroism difference spectra were measured for the mono-N-carbethoxyimidazole derivatives of lysozyme, N alpha-acetyl-L-histidine, angiotensin-II, and O-carbethoxy-N alpha-acetyl-L-tyrosine. The circular dichroism difference spectrum for mono-N-carbethoxy lysozyme had one main band (delta [theta]244 nm = +17,000 degree. cm2.dmol-1) in the 240-260 nm region. Denaturing mono-N-carbethoxy lysozyme with 2-ME and 8 M urea (55 degrees C) or 1% SDS (100 degrees C) essentially abolished its circular dichroism difference spectrum in the 240-260 nm region without any decarbethoxylation. In this same region the circular dichroism difference spectra of DEPC-modified N alpha-acetyl-L-histidine and DEPC-modified angiotensin-II had two much weaker bands (delta [theta]233 nm = +1000 degree.cm2.dmol-1 and delta[theta]252nm = -600 degree.cm2.dmol-1 for N alpha-acetyl-L-histidine). This study reports the first characterization of circular dichroism associated with mono-N-carbethoxyhistidine in an enzyme (lysozyme), a peptide (angiotensin-II), and a model compound (N alpha-acetyl-L-histidine).
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PMID:Circular dichroism studies of diethyl pyrocarbonate-modified histidine in hen egg white lysozyme. 849 71

N-(N-L-Threonyl-L-alpha-aspartyl)-L-tyrosine (CAS 115053-54-8, SPA-S-646) was originally derived from lysozyme. It has previously been found to have analgesic properties following oral and intravenous administration to laboratory rodents. In the rhesus monkey, intramuscular administration of SPA-S-646 caused a dose-related analgesia. This effect was not seen following oral administration, but when given via the rectum, analgesia was again observed. In the dog, a single dose of 50 mg/kg was active by the intramuscular route but not the oral route. It is thought that unlike the rat, the digestive systems of the rhesus monkey and the dog degrade the tripeptide into inactive constituents.
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PMID:Analgesic activity of the lysozyme peptide N-(N-L-threonyl-L-alpha-aspartyl)-L-tyrosine in the monkey and the dog. 857 26

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