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)

Exo-beta-N-acetylmuramidase, or beta-2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-D-glucoside acetamidodeoxyglucohydrolase, is produced by Bacillus subtilis B, growing in a succinate/peptone/salts medium, at the end of exponential growth and occurs partly in the medium and partly bound to the cells. A lysozyme digest of Micrococcus lysodeikticus cell walls, O-2-acetamido-2-deoxy-beta-D-glucopyranosyl-(1 leads to 4)-2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-D-glucose and O-[2-acetamide-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-glucopyranosyl]-(1 leads to 4)-2-acetamido-2-deoxy-D-glucose in decreasing order of efficiency, induce the enzyme but O-2-acetamido-2-deoxy-beta-D-glucopyranosyl-(1 leads to 4)-2-acetamido-2-deoxy-D-glucose does not do so. The enzyme was purified from the growth medium, after removal of the cells by continuous centrifugation, by ammonium sulphate precipitation, continuous filtration through XM-300 membranes (to remove the high-molecular-weight material which renders the enzyme sedimentable in low-ionic-strength solutions), diafiltration through PM-30 membranes and ion-exchange chromatography on DEAE-Sephadex and CM-Sephadex. Two peaks of activity were obtained. Peak A was purified 1800-fold and was homogenous on polyacrylamide disc gel electrophoresis. A second heterogeneous fraction (peak B) was also collected. Exo-beta-N-acetylmuramidase is most stable at pH 8.0 and has a molecular weight of about 90000. The results of studies on its ability to attack several synthetic and natural substrates are given. The Km and V values for 4-methylumbelliferyl-2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-glucose and O-[2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-glucopyranosyl]-(1 leads to 4)-2-acetamido-2-deoxy-D-glucose are respectively 0.19 and 0.65 mM and 1.50 and 16.29 mumol min(-1) mg(-1). From these results and those of inhibition studies it is concluded that the enzyme is specific for substrates with non-reducing N-acetylmuramic acid end groups. Possible roles for this enzyme are discussed.
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PMID:Exo-beta-N-acetylmuramidase--a novel hexosaminidase. Production by Bacillus subtilis B, purification and characterization. 0 81

A bacteriolytic enzyme, PR1-lysozyme, has been purified from the lysate of mitomycin C-induced pyocinogenic Pseudomonas aeruginosa, by acrinol treatment, Amberlite CG-50 chromatography, ammonium sulfate fractionation, Sephadex G-100 gel filtration and two cycles of SP-Sephadex C-50 chromatography. Homogeneity of the preparation was demonstrated by three electrophoretic techniques. PR1-lysozyme is a basic protein (pI, 9.4) and consists of a single polypeptide chain having a molecular weight of 24,000. The amino acid composition of the protein was analyzed, and no cystein residue was found among more than 210 amino acid residues. The optimum pH for enzymatic activity was 6.4 and the enzyme exhibited about 50 to 70 times greater specific activity than hen egg-white lysozyme when assayed with chloroform-killed P. aeruginosa as a substrate. By analyzing the products of enzymatic action on purified peptidoglycan of P. aeruginosa, the enzyme was identified as an N-acetylmuramidase, i.e., the same classification as hen-egg-white lysozyme. PR1-lysozyme did not show any activity towards intact cells of gram-positive and gram-negative bacteria tested. However, the enzyme was able to lyse chloroform-killed gram-negative and gram-positive bacteria.
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PMID:Bacteriolytic enzyme induced from pyocinogenic Pseudomonas aeruginosa. Purification and characterization of PR1-lysozyme. 2 69

Microorganisms capable of producing L-pyrrolidonecarboxylate peptidase [L-pyrrolidonyl peptidase, EC 3.4.11.8] were screened and a strain of Bacillus amyloliquefaciens was chosen as one of the most potent producers of the enzyme. The enzyme was purified from lysozyme-lysate of the bacterial cells by salting out with ammonium sulfate, adsorption on DEAE-cellulose, covalent chromatography on PCMB-Sepharose and by gel filtration on Sephadex G-150. By these procedures, the enzyme was purified about 800-fold with an activity recovery of 9%, and the preparation was electrophoretically homogenous. The enzyme was most active and stable at pH 7-8. The presence of 2-mercaptoethanol and EDTA was effective for stabilizing the enzyme. The molecular weight was estimated to be 72,000 by the gel filtration method and to be 24,000 by SDS-polyacrylamide gel electrophoresis, suggesting that the enzyme is a subunit oligomer, presumably trimer. The enzyme was inactivated by the addition of PCMB, sodium tetrathionate, Hg2+ and Cu2+, but the activity lost was restored by the addition of 2-mercaptoethanol and EDTA. The purified enzyme split amide and ester linkages in L-pyroglutamyl derivatives of L-alanine, beta-naphthylamine, alpha-naphthol, and 4-methylumbelliferone, but was completely inert towards various peptides and esters used as substrates for usual amino- and carboxy-peptidases, and for endopeptidases such as trypsin, subtilisin and alpha-chymotrypsin.
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PMID:Purification and characterization of L-pyrrolidonecarboxylate peptidase from Bacillus amyloiliquefaciens. 2 93

Mycobacterium ulcerans produces an exotoxin in culture which, when inoculated into guinea pig skin, causes inflammation, necrosis, edema, and other histopathological changes resembling those in infections of humans. The toxin was resistant to heat and to alkalies and was moderately acid labile. Toxic activity was destroyed by Pronase, phospholipase, lipase, amylase, and glucosidase but not by trypsin, collagenase, cellulase, lysozyme, hyaluronidase, or neuraminidase. Toxic activity was resistant to treatment with 2-mercaptoethanol, urea, guanidine hydrochloride, p-chloromercuribenzoate, ethylenediaminetetraacetate, and sodium deoxycholate but was destroyed by sodium m-periodate and sodium dodecyl sulfate. The toxin was precipitated by a wide range of ammonium sulfate concentrations. Extraction with chlorofrom-methanol or petroleum ether destroyed its activity. Isopycnic density gradient ultracentrifugation in KBr produced a high-density lipoprotein layer with a 24-fold increase in specific activity. The results indicate that this toxin is a high-molecular-weight phospholipoprotein-polysaccharide complex.
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PMID:Further characterization of Mycobacterium ulcerans toxin. 3 Jun 94

30 patients on long-term lithium therapy have been studied. The results are presented of the urinary concentrating ability after water deprivation and the intranasal administration of vasopressin, of the simultaneous determination of glomerular filtration rate (GFR) and effective renal plasma flow (ERPF), of the minimal urine pH after an oral dose of ammonium chloride, and of the urinary beta-2-microglobulin excretion. Mean urine concentration (+/- SEM) after 22 hr water deprivation (= Uosm) amounted to 854 +/- 22 mOsm/kg H2O, mean GFR was 101 +/- 4 ml/min, mean ERPF 360 +/- 18 ml/min, and mean minimal urine pH 4.95 +/- 0.06. In 8 out of 30 patients there was polyuria. In these 8 patients the values were 778 +/- 51 mOsm/kg H2O, 113 +/- 6 ml/min, 415 +/- 33 ml/min and 4.99 +/- 0.08, respectively. Serum levels of beta-2-microglobulin and lysozyme and the urinary excretion of beta-2-microglobulin were normal in all patients. No correlation was established between Uosm and the serum lithium concentration during the test (0.8 +/- 0.05 mmoles/l) nor between Uosm and the average serum lithium level during treatment (0.79 +/- 0.03). GFR was only correlated with age. It was found that administration of indomethacin during the concentration test increased Uosm in these patients. The results suggest that, given proper dosage and surveillance, long-term treatment with lithium is not likely to cause disturbances in renal function.
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PMID:A renal function study in 30 patients on long-term lithium therapy. 4 7

Strains of Escherichia coli can inhibit the in vitro growth of Neisseria gonorrhoeae. One E. coli strain released a potent agar-diffusible gonococcal growth inhibitor which was extracted and assayed in an agar well assay system. The culture conditions necessary to produce the inhibitor were determined. The inhibitor was bacteriostatic, in most cases, for N. gonorrhoeae. Based on ultrafiltration and column chromatography, the inhibitor appeared to have a molecular weight in the range of 1200 to 2000. Evidence that the molecule contained charged sites was obtained by membrane binding and column chromatography. The inhibitor was stable to extremes of heat, cold and pH. It was not volatile or susceptible to proteolytic enzymes, lysozyme, lipase, DNAase, RNAase or certain chelating agents. Its activity was completely blocked by ferric ammonium citrate. This inhibitor is dissimilar to previously reported gonococcal inhibitors of bacterial origin.
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PMID:Properties of a gonococcal inhibitor produced by Escherichia coli. 4 57

Stable and metabolically active protoplasts were prepared from the unicellular cyanophyte, Anacystis nidulans, by enzymatic digestion of the cell wall with 0.1% lysozyme. The yield of protoplasts from intact algal cells was approx. 50%. Incorporation of L-[U-14C]leucine into cold trichloroacetic acid-insoluble material from protoplasts preparations was linear for 1.5 h and continued for an additional 2.5 h. Incorporation of radiolabeled leucine into hot trichloroacetic acid-insoluble material from protoplast preparations demonstrated protein synthesis in protoplasts in vitro. Phycocyanin is the principal phycobiliprotein and allophycocyanin is a minor phycobiliprotein in A. nidulans cells. The light-absorbing chromophore of both of these phycobiliproteins is the linear tetrapyrrole (bile pigment), phycocyanobilin. Radiolabeled phycocyanin and allophycocyanin were isolated from protoplast preparations which had been incubated with L-[U-14]leucine or delta-amino[4-14C] levulinic acid (a precursor of phycocyanobilin). The radio-labeled phycobiliproteins were purified by ammonium sulfate fractionation and ion-exchange chromatography on brushite columns. The specific radioactivity of phycocyanin and allophycocyanin in brushite column eluates (protoplasts incubated with radiolabeled leucine) was 106 000 and 82 000 dpm/mg, respectively. The specific radioactivity of phycocyanin and allophycocyanin in brushite column eluates (protoplasts incubated with radiolabeled delta-aminolevulinic acid) was 33 000 and 38 000 dpm/mg, respectively. Phycobiliproteins from protoplasts incubated with radiolabeled leucine were examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. 25% of the incorporated radioactivity in protoplast lysates and approx. 60% of the incorporated radioactivity in protoplast lysates and approx. 60% of the incorporated ratioactivity in phycocyanin and allophycocyanin (in brushite column eluates) comigrated with the subunits of these phycobiliproteins on sodium dodecyl sulfate-polyacrylamide gels. Chromic acid degradation of phycobiliproteins from protoplast preparations incubated with delta-amino[4-14C] levulinic acid yielded radiolabeled imides which were derived from the phycocyanobilin chromophore. Imides from radiolabeled phycobiliproteins isolated from protoplast preparations incubated with L-[U-14C]leucine did not contain radioactivity. These results show that both the apoprotein and tetrapyrrolic moieties of phycocyanin and allophycocyanin were synthesized in A. nidulans protoplasts in vitro.
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PMID:Phycobiliprotein synthesis in protoplasts of the unicellular cyanophyte, Anacystis nidulans. 9 57

Clostridium perfringens spores were injured by ultrahigh-temperature treatment at 105 C for 5 min. Injury was manifested as an increased sensitivity to polymyxin and neomycin. Since many of the survivors could not germinate normally the ultrahigh-temperature-treated spores were sensitized to and germinated by lysozyme. Polymyxin reportedly acts upon the cell membrane. Neomycin may inhibit protein synthesis and has surface-active properties. Injured spores were increasingly sensitive to known surface-active agents, sodium lauryl sulfate, sodium deoxycholate, and Roccal, a quaternary ammonium compound. Injured spores sensitive to polymyxin and neomycin also were osmotically fragile and died during outgrowth in a liquid medium unless the medium was supplemented with 20% sucrose, 10% dextran, or 10% polyvinylpyrrolidone. The results suggested that a spore structure destined to become cell membrane or cell wall was the site of injury. Repair of injury during outgrowth in the presence of protein, deoxyribonucleic acid, ribonucleic acid and cell wall synthesis inhibitors was consistent with this hypothesis.
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PMID:Spore membrane(s) as the site of damage within heated Clostridium perfringens spores. 17 8

Clostridium perfringens cells were cultivated on a large scale using an automatic system. 2) N-Acetylneuraminate lyase, which is a cytosolic enzyme, was liberated from the bacteria by cell lysis using lysozyme in hypotonic solution. The enzyme was purified 770-fold by precepitation with ammonium sulfate, filtration on Sephadex A-50 and final preparative electrophoresis in a 7.5% polyacrylamide gel. Yield: 12 mg from 1 kg wet cell paste; specific activity: 167 nkat/mg protein. 3) The enzyme preparation appeared homogeneous in analytical disc electrophoresis, in gel electrophroesis in 0.1% sodium dodecylsulfate or 8m urea and in immunoelectrophoresis. Contaminating enzyme activities were not detected. 4) The isoelectric point of pH 4.7 was found for the enzyme. At 278 nm a molar extinction coefficient of 6.4 x 10(4)M-1 Xcm-1 was determined. The enzyme exhibited a Km value for N-acetylneuraminic acid of 2.8mM at its pH optimum of pH 7.2. The pH dependence of the Km value gives evidence that an ionizing guoup in the active center of the enzyme with a pKe value of 6.4 may be involved in the catalytic reaction. Pyruvate inhibited the cleavage reaction of N-acetylneuraminic acid competitively; Ki = 2.9mM. 5) An average molecular weight of 99200 was determined for the native enzyme using different methods. After denaturation in sokium dodecylsulfate or urea, a mean molecular weight of only 50000 could be demonstrated, indicating the existence of two enzyme subunits. The lyase molecule was shown by electron microscopy, using a negative staining technique, to consist of two hemispherical parts. 6) Two active sites per native enzyme molecule, probably corresponding to one active site per subunit, were found by incubation of the enzyme with radioactive pyruvate followed by borohydride reduction. The results obtained from chemical modification of the lyase with 5-diazonium-1H-tetrazole and iodocaetamide under various conditionsare interpreted as evidence for the presence of two reactive histidine residues in the enzyme molecule. It is probable that one residue per subunit forms the nucleophilic group participating in enzyme catalysis. A model suggesting the mechanism of reversible cleavage of N-acylneuraminic acids by the lyase is presented.
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PMID:Purification and characterization of N-acetylneuraminate lyase from Clostridium perfringens. 18 37

1. An enzyme that catalyzes hydrolysis of acetamido groups of chitin derivatives was found in the supernatant fraction of Mucor rouxii. 2. Partially O-hydroxyethylated chitin (glycol chitin) was used as a substrate in the purification and characterization of this enzyme. A 140-fold purification was obtained by means of ammonium sulfate fractionation followed by chromatography on carboxymethylcellulose and DEAE-cellulose. 3. The enzyme releases about 30% of the acetyl groups of glycol chitin, giving a product with a decreased sensitivity to lysozyme. The enzyme also deacetylates chitin and N-acetylchitooligoses, whereas it is inactive toward bacterial cell wall peptidoglycan, N-acetylated heparin, a polymer of N-acetylgalactosamine, di-N-acetylchitobiose and monomeric N-acetylglucosamine derivatives. 4. This enzyme shows a pH optimum of 5.5. The Km value for glycol chitin is 0.87 g/l or 2.6 mM with respect to monosaccharide residues. 5. The occurrence of this enzyme accounts for the formation of chitosan in fungi.
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PMID:A pathway of chitosan formation in Mucor rouxii. Enzymatic deacetylation of chitin. 24 Jun 96


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