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)

The kinetics of the photodynamic desactivation of lysozyme in presence of acridine orange as the sensitizer have been investigated in detail varying oxygen, protein, dye concentration, ionic strength and pH value. The kinetics can be approximately described as an over all pseudo-first-order rate process. Changing the solvent from water to D2O or by quenching experiments in presence of azide ions it could be shown that the desactivation of lysozyme is caused exclusively by singlet oxygen. The excited oxygen occurs via the triplet state of the dye with a rate constant considerably lower than that to be expected for a diffusionally controlled reaction. Singlet oxygen react chemically (desactivation, k=2.9 X 10(7) m(-1) sec(-1)) and physically (quenching process, k=4.1 X 10(8) m(-1) sec(-1)) with the enzyme. The kinetical analysis shows that additional chemical reaction between singlet oxygen and lysozyme would have only little influence on the kinetics of the desactivation as long as their products would be enzymatically active and their kinetical constants would be less than about 1 X 10(8) m(-1) sec(-1)).
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PMID:On the mechanism of the acridine orange sensitized photodynamic inactivation of lysozyme. I. Basic kinetics. 0 28

Mutants of Escherichia coli tolerant to the ghosts of T-even phages (T2, T4, and T6) have been isolated from a strain supersensitive to T6 phage. First, T6 supersensitive mutants were isolated from mutagenized E. coli W2252 by replica plating to T6 phage-overlaid agar. One of them, strain NM101, was mutagenized again, grown, and then plated with a high multiplicity of T4 and T6 ghosts. Surviving cells were checked for tolerance to ghosts and adsorption of phages. One such ghost-tolerant mutant, strain GT29, was tolerant to ghosts of both T4 and T6 phages and sensitive to T2 ghosts. This mutant was also sensitive to ethylenediaminetetraacetic acid and penicillin G and intermediately sensitive to acriflavine, sodium dodecyl sulfate, sodium deoxycholate, actinomycin D, and lysozyme. Another mutant, strain GT62, was tolerant not only to T4 and T6 ghosts but also to T2 ghosts. It was sensitive to sodium dodecyl sulfate, sodium deoxycholate, penicillin G, acridine orange, actinomycin D, phenethyl alcohol, and novobiocin and intermediately sensitive to acriflavine and lysozyme. Spontaneous revertants of strain GT62 were isolated with a frequency of 2.7 X 10(-9). It is suggested that ghosts attack host bacteria indirectly through the cell surface by a mechanism similar to the transmission hypothesis that was originally adopted by Nomura (1967) to explain the mechanism of the action of colicins, and that our ghost-tolerant mutants presumably have defects in the cell surface.
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PMID:Isolation and characterization of T-even ghost-tolerant mutants of Escherichia coli. 5 59

The photodynamic deactivation of lysozyme in presence of acridine orange is caused by a reaction between singlet oxygen formed via the dye triplet state and the protein. In order to identify the region where the singlet oxygen reacts with the protein we have investigated the kinetics of the deactivation in presence ofthe inhibitor of the enzymatic reaction N-acetylglucosamine (GlcNAc). The overall experimental rate constant becomes slower with increasing saccharide concentrations. As we can exclude experimentally that this kinetical effect is caused in presence of the saccharide by a physical quenching of singlet oxygen or of the dye triplet state it has to be assumed that GlcNAc protects the surrounding of its bindings place at subsite C of the enzymatic center sterically against an attack of singlet oxygen. In this region three tryptophan residues are located, which could be sensitive against singlet oxygen. Surprisingly, however, it has been found that only those species are protected, in which a second saccharide molecule is bound to the protein, probably at subsite E at the enzymatic center, where no sensitive amino acid side chains are located.
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PMID:On the mechanism of the acridine orange sensitized photodynamic inactivation of lysozyme. II. Kinetics in presence of N-acetylglucosamine. 13 86

A method has been devised to differentiate viable and nonviable bacterial spores. "Germination-like" changes are initiated in spores with performic acid and lysozyme. The germinated spores are stained with aqueous acridine orange, a fluorescent dye. Nonviable spores fluoresce lemon-green and viable spores orange-red. It is proposed that with the use of a membrane filter resistant to performic acid and lysozyme, the method may be used for spore enumeration in foods in about 4 hr compared to conventional plating methods, which usually require up to 72 hr.
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PMID:Rapid identification of viable bacterial spores using a fluorescence method. 161 99

The reducing equivalents used by the human neutrophil respiratory burst oxidase are derived from NADPH generated by the hexose monophosphate shunt. The CO2 generated by the HMP shunt is spontaneously hydrated and the protons (H+) are secreted upon the dissociation of carbonic acid. The mechanism and significance of H+ secretion by the resting and stimulated neutrophil was investigated. A basal rate of H+ secretion by resting neutrophils observed in a choline buffer was augmented with the addition of sodium (Na+) (Km for Na+ was 3.22 +/- 0.32 mM). Amiloride, a Na+/H+ antiporter inhibitor, reduced H+ secretion in Na+-containing buffers with a Ki = 1.02 microM. This Na+/H+ exchange mechanism was also operative in cells stimulated with a variety of agonists, and an increased H+ flux, relative to resting cells, was observed at higher Na+ concentrations. Cytoplasts incorporating acridine orange were also used to assess Na+-H+ flux. Cytoplasts were used to avoid alteration of the fluorescent pH probe by HOCl formed in intact neutrophils. Alkalinization of the cytoplasm was dependent on extracellular Na+ in concentrations similar to that found to augment H+ secretion in intact cells. Also, amiloride competitively inhibited H+ secretion by the cytoplasts. Both superoxide (O2-) production and lysozyme release in cells stimulated with opsonized zymosan or concanavalin A was significantly inhibited in the absence of Na+, restored to normal with the addition of Na+ in low concentrations, and inhibited again in the presence of amiloride. A Na+/H+ antiporter similar to that found in other cell types is present in the human neutrophil and appears linked to activation of the respiratory burst and degranulation.
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PMID:Proton secretion by the sodium/hydrogen ion antiporter in the human neutrophil. 300 66

The resistance plasmid RP1 was transferred by conjugation to a plasmidless strain of Acinetobacter calcoaceticus. Acquisition and expression of RP1 by A. calcoaceticus HO1-N was associated with an increase in sensitivity to the antimicrobial activity of extracted contents from rat polymorphonuclear leukocyte granules. Plasmid RP1-associated antibiotic resistance and sensitivity to granule contents were cured by exposure to acridine orange. Assays with granule extract fractions separated by fast protein liquid chromatography showed myeloperoxidase, protease, and lysozyme fractions to possess little or no antimicrobial activity against the A. calcoaceticus strains. A protein fraction designated peak D, containing two low-molecular-weight cationic peptides (M. J. Loeffelholz and M. C. Modrzakowski, Anal. Biochem., in press), did possess antimicrobial activity against both HO1-N and Ho1-N(RP1) strains, with the HO1-N(RP1) strain being significantly more sensitive.
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PMID:Plasmid RP1-mediated susceptibility of Acinetobacter calcoaceticus to rat polymorphonuclear leukocyte granule contents. 378 24

Cell-wall-deficient (CWD) forms of bacteria are associated with certain cases of idiopathic septicemia. In this preliminary study of blood examined immediately after venipuncture, structures with a morphology characteristic of CWD forms were seen parasitizing the erythrocytes. These inclusions were usually circumferential, but in some cases they protruded from the red cells. The CWD forms were detected by staining with Gould's rhodamine-labeled muramidase, which reacted similarly to acridine orange but with greater specificity. A blocking test, employing unlabeled muramidase, indicated the specificity of the reaction between muramidase and the microbial substrate. Reaction of the forms with muramidase indicates their bacterial, rather than mycoplasmal, nature. Thus in vivo CWD forms have a detectable component of muramic acid, at least in certain cases. Sixty-eight individuals with a diagnosis of fever of unknown origin were tested, with 51 nondebilitated individuals serving as controls. More intraerythrocytic forms reacting with muramidase were found in the patients than in the controls. Nearly 40% of the cases had a relatively high incidence of erythrocyte parasitism. In some instances when freshly drawn blood was examined, the structures, which appear to be microbial, extended in rhizoid filaments from the erythrocytes.
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PMID:Structures suggesting cell-wall-deficient forms detected in circulating erythrocytes by fluorochrome staining. 411 24

A quantitative assay of neutrophil degranulation was developed using flow cytometry. Dog neutrophils were purified to greater than 95% purity and viability by isopyknic density centrifugation in an isosmotic medium. These cells concentrated the fluorochrome acridine orange (AO) in their azurophilic granules, but not in specific granules. Also contained in the azurophilic granules are elastase, myeloperoxidase, and approximately 50% of the lysozyme activity. The fluorochrome was released concomitantly with elastase activity, as shown by flow cytometry, fluorescence microscopy, and biochemical assay in response to the ionophore A23187. By flow cytometry, unstimulated cells are distributed in a single broad peak of high fluorescence intensity. With increasing concentrations of A23187 (0.48-4.80 microM), a greater proportion of the cells shifted to a single peak of low fluorescence intensity. Few cells with intermediate fluorescence were observed. These analyses revealed that the neutrophils degranulated in a quantal, all-or-none response.
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PMID:A flow cytometric assay of neutrophil degranulation. 640 83

Human lysozyme in physiologic concentrations (17-50 micrograms/ml) had apparently no effects on growth rate and viability of exponentially growing Fusobacterium nucleatum Fev1 cells, but cells in the stationary phase were affected. When grown in the presence of active lysozyme about 70% of the cells in late exponential phase (24-h culture) were able to form colonies, compared to about 100% in the control culture. About 24 h later the colony forming abilities were about 5% and 20%, respectively. Addition of lysozyme to suspensions of cells taken from any growth phase did not lead to any significant decrease in turbidity, that is, no more than 10% decrease at 650 nm. Control cells treated with acridine orange fluoresced with a uniform bright orange color, while the lysozyme treated stationary phase cells fluoresced more faintly. Intracellular granules were more preponderant in the latter cells. When incubated with the hydrophobic probe 8-anilinonaphthalene-1-sulfonic acid (ANS), lysozyme exposed cells gave approximately 20% higher fluorescence intensity than the control cells. Changes in the ultrastructure of the lysozyme treated cells were best studied in the transmission electron microscope using ultrathin sectioned preparations. The peptidoglycan layer became disorganized and apparently dissolved and the ordered structure of the cell wall had disappeared in zones. The cells, however, still retained their form, and only a few per cent had lost their cellular content. This explains why the turbidity of the solution did not change significantly.
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PMID:Antibacterial properties of human lysozyme toward Fusobacterium nucleatum Fev1. 658 18

Twenty-one independent thymidylate synthase deficient (td) mutants were isolated after proflavin mutagenesis of T4D0 phage. A strikingly high proportion of these mutations (17 of 21; 80%) mapped in a small 122 nucleotide (nt) region which spans the 5' splice site of this intron-containing gene. This region comprises only 14% of the total td exon sequence. RNA sequence analysis of these mutants identified a series of frameshift insertion/deletion mutations and indicated a hotspot for proflavin-induced mutations in the 3' end of exon I of the td gene. The mutant sequences at the hotspot site fully support a previously proposed mutagenic mechanism for proflavin-induced mutations in which frameshifts are produced as a consequence of exonuclease or DNA polymerase activity at the 3' ends of nicks in the DNA produced by perturbation of the T4-encoded type II topoisomerase activity by the acridine. Sixteen of the seventeen DNA mutations in the hotspot region can be explained by the model as a consequence of enzymatic processing of nicks at two phosphodiester bonds staggered by 4 base pairs (bp) and located on opposite strands of the DNA. Thus, these mutants exhibit precisely the symmetry expected of topoisomerase-mediated mutagenesis. The DNA sequences of the td hotspot mutants, when considered with the sequences of proflavin-induced mutants in the T4 rIIB and lysozyme genes, confirm the view that proflavin-induced mutations in diverse bacteriophage T4 DNA sequences are all produced by the topoisomerase-dependent mechanisms and do not support the view that classical misalignments in DNA repeats are hotspots for proflavin-induced mutagenesis in T4.
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PMID:A proflavin-induced frameshift hotspot in the thymidylate synthase gene of bacteriophage T4. 768 30


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