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 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

Vibrio cholerae phage PL 163/10, belonging to Mukherjee's group I, gave clear plaques with surrounding halos of overall diameters varying between 1 to 4 mm when plated on a lawn of host V. cholerae OGAWA 154. It was fairly stable in the PH range 6-11. Its thermal inactivation was characterised by half lives of 39, 12, 4.5 and 1.0 minutes at 55, 60, 65 and 70 degree C respectively. The thermodynamic parameters deltaH, deltaF and deltaS were determined at these temperatures. The phange was resistant in vitro to sodium deoxycholate, trytrypsin, chloroform, robonuclease, deoxyribonuclease, Tris, Tris + EDTA, Tris + lysozyme and phosphate buffer but rapidly inactivated by sodium lauryl sulfate. Adsorption of this phage was biphasic. Intracelllular growth of the PL 163/10 phage was characterised by an eclipse period of 13 minutes, latent period of 31 minutes, rise period of 29 minutes and an average burst size of about 10 PFU/cell. This phage possessed a hexagonal head 106 plus or minus 18 x x 740 plus or minus 27 A without any tail structure.
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PMID:Properties of the cholera phage PL 163/10. 23 74

Minicells produced by Bacillus subtilis CU403 (divIVB1) are capable of mucopeptide biosynthesis as shown by the incorporation of L-alanine, D-alanine, and N-acetylglucosamine into trichloroacetic acid-precipitable material, which can be degraded to trichloroacetic acid-soluble material by lysozyme digestion. Incorporation of the precursors is sensitive to vancomycin and D-cycloserine and insensitive to chloramphenicol. Penicillin inhibits the incorporation of D- and L-alanine N-acetylglucosamine at concentrations in excess of 10 mug of penicillin per ml; however, minicells are insensitive to penicillin-induced lysis. The material synthesized in minicells from N-acetylglucosamine is not subject to turnover during a subsequent 6-h incubation period. [2-3H]glycerol is converted to a cold trichloroacetic acid-precipitable form by minicells. This synthesis is not inhibited by vancomycin, penicillin, D-cycloserine, or chloramphenicol. Fractionation of the material synthesized from glycerol into hot trichloroacetic acid-soluble material and chloroform/methanol-extractable material indicates that minicells convert glycerol into teichoic acid and lipid.
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PMID:Synthesis of cell envelope components by anucleate cells (minicells) of Bacillus subtilis. 40 71

Anionic sites on the surface of Brucella canis were visualized in the electron microscope by staining with positively charged ferric oxide hydrosols in acetic acid (AI-reagent), or propanoic acid (PI-reagent), and with a polycationic ferritin derivative. With the AI-reagent, single or small aggregates of ferric oxide particles were bound to the cell surface of Br. canis, whereas, with the lipophilic PI-reagent, the microorganisms were heavily stained with focal aggregates of iron granules. The polycationic ferritin label was uniformly distributed over the entire cell surface of Br. canis. The ferritin label was not bound on the surface of the organisms after prior treatment with trichloroacetic acid or methanolic hydrochloric acid. Treatment with aqueous acetone, chloroform/methanol, diethyl ether, sodium deoxycholate, pronase, lysozyme, hyaluronidase, and sodium periodate neither influenced the morphology of the Brucella nor diminished their ionic binding sites. Our results indicate that the anionic sites on the cell surface of Br. canis may be carboxyl and phosphate groups of lipopolysaccharides.
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PMID:[Ultrastructural investigations on anionic surface sites of Brucella canis (author's transl)]. 60 17

Very fast-sedimenting DNA was isolated from cells after infection with gene 49 defective phage T4. This DNA appeared membrane bound throughout the time after infection and could be isolated either in the membrane-bound form (M-DNA) or free of membrane (released DNA) depending on the lysis procedure. Released DNA formed complexes of marked stability with sedimentation velocities between 1,400S and 2,100S. These complexes did not seem to contain material other than DNA. This was concluded from the results of RNA, protein, and membrane labeling experiments and density analysis. In addition, these complexes were resistant against treatment with n-butanol, phenol. chloroform-methanol, sodium dodecyl sulfate, Sarkosyl, Pronase, RNase, or lysozyme. The observation that more then 90% of the purified very fast-sedimenting DNA is retrapped by magnesium-Sarkosyl crystals (M-band) suggests that the M-band technique may not be sufficient as a test for DNA-membrane attachment.
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PMID:Function of gene 49 of bacteriophage T4. I. Isolation and biochemical characterization of very fast-sedimenting DNA. 77 32

A rapid method for the direct extraction of DNA from soil and sediments was developed. The indigenous microorganisms in the soil and sediments were lysed by using lysozyme and a freeze-thaw procedure. The lysate was extracted with sodium dodecyl sulfate and phenol-chloroform. In addition to a high recovery efficiency (greater than 90%), the yields of DNA were high (38 and 12 micrograms/g [wet weight] from sediments and soil, respectively). This method generated minimal shearing of the extracted DNA. The crude DNA could be further purified with an Elutip-d column if necessary. An additional advantage of this method is that only 1 g of sample is required, which allows for the analysis of small samples and the processing of many samples in a relatively short (7 h) period.
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PMID:Rapid method for direct extraction of DNA from soil and sediments. 164 49

We have developed a novel plasmid isolation procedure and have adapted it for use on an automated nucleic acid extraction instrument. The protocol is based on the finding that phenol extraction of a 1 M guanidinium thiocyanate solution at pH 4.5 efficiently removes genomic DNA from the aqueous phase, while supercoiled plasmid DNA is retained in the aqueous phase. S1 nuclease digestion of the removed genomic DNA shows that it has been denatured, which presumably confers solubility in the organic phase. The complete automated protocol for plasmid isolation involves pretreatment of bacterial cells successively with lysozyme, RNase A, and proteinase K. Following these digestions, the solution is extracted twice with a phenol/chloroform/water mixture and once with chloroform. Purified plasmid is then collected by isopropanol precipitation. The purified plasmid is essentially free of genomic DNA, RNA, and protein and is a suitable substrate for DNA sequencing and other applications requiring highly pure supercoiled plasmid.
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PMID:Plasmid purification by phenol extraction from guanidinium thiocyanate solution: development of an automated protocol. 171 49

Plasmid pBR322 and its derivative containing strong promoter phi 10 of bacteriophage T7 RNA polymerase were used as vectors. A fragment of bacteriophage T7 DNA which was digested with two restriction endonucleases (AvaII and HaeIII) was cloned in the BamHI site of plasmid pBR322 and its derivative pAR951, respectively. The inserted DNA is a segment of 632 base pairs containing the complete coding sequence of both T7 gene 3.5 and weak promoter phi 3.8 for bacteriophage T7 RNA polymerase. The function of T7 gene 3.5 is known to code for bacteriophage T7 lysozyme. Transformants that carry the recombinant plasmid were tested for intracellular lysozyme by adding CHCl3. Both cloned strains produce active T7 lysozyme. The gene product, T7 3.5 protein, was analyzed by 10 -20% gradient polyacrylamide- SDS electrophoresis. The result showed that the expression of inserted T7 gene 3.5 in pBR322 derivative is stronger than that in pBR322.
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PMID:Cloning of the bacteriophage T7 lysozyme gene. 210 4

A rapid procedure for the large-scale isolation of plasmid DNA is described. The method utilizes cetyltrimethylammonium bromide to precipitate the plasmid following extraction of DNA by lysozyme digestion and boiling. The plasmid is then purified by passing through the spin column pZ523. The purity and yield of the plasmid obtained with this method is similar to that isolated by cesium chloride-ethidium bromide gradient centrifugation. The method does not involve any phenol-chloroform extractions and takes five to six hours for completion after growth of the bacterial cells. The plasmid obtained is amenable to digestion with various restriction endonucleases, can be used for cloning with high efficiency and is also suitable as template for dideoxy sequencing.
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PMID:Large-scale isolation of plasmid DNA using cetyltrimethylammonium bromide. 216 86

Modification of the alkaline lysis at elevated temperature technique is proposed isolation of plasmid DNA from lactobacilli. Modification consists of colorimetric control of culture phase during the biomass growth, pH control at the probes treatment with lysozyme and alkaline solution of natrium dodecylsulfate by adding the indicator bromcrezolpurple into the medium for biomass growth. The high concentration of lysozyme is used (10 mkg.ml-1). Lactobacilli are lysed at 2 min incubations of the probes with the lytic solution in the boiling water bath. The treatment of the probes by proteinase K, by the mixture of chloroform:phenol:isoamyl spirit (25:24:1 vol/vol/vol) and by diethylpirocarbonate increased considerably the quality of the obtained DNA preparations. The modified technique is suitable for isolation of the plasmid DNA from lactobacilli of different species, enterococci, streptococci and other lactic bacteria. The connection of antibiotic resistance marker and the plasmid profile of lactobacilli under different conditions with the presence of the plasmid DNA- protein complex is discussed.
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PMID:[Optimization of the method of isolation of microamounts of plasmid DNA from lactobacilli]. 236

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