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)

The dark and light reduction of nitrate and nitrite by cell-free preparations of the blue-green alga Anacystis nidulans has been investigated. The three following methods have been successfully applied to the preparation of active particulate fractions from the alga cells: (a) shaking with glass beads, (b) lysozyme treatment and lysis of the resulting protoplasts, and (c) sonication. The two enzymes of the nitrate-reducing system-namely, nitrate reductase and nitrite reductase-are firmly bound to the isolated pigment-containing particles, and can be easily solubilized by prolonging the vibration or sonication time. Both enzymes-whether solubilized or bound to the particles-depend on reduced ferredoxin as the immediate electron donor. In its presence, the alga particles catalyze the gradual photoreduction of nitrate to nitrite and ammonia, a process that can thus be considered as one of the most simple and relevant examples of Photosynthesis. Some of the properties of nitrate reductase have been studied. Nitrate reductase as well as nitrite reductase are adaptive enzymes repressed by ammonia.
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PMID:Ferredoxin-dependent photosynthetic reduction of nitrate and nitrite by particles of Anacystis nidulans. 0 27

The specifity of Ag+ ions for protein SH groups has been questioned frequently, even though the amperometric titration with AgNO3 is one of the most common methods for the determination of SH groups in proteins. This is due to the fact, that the formation of silver complexes in the titration of cysteine causes a consumption of AgNO3 which is too high. In order to find out if this may be true in the case of proteins, in the present work select proteins with a well known content of SH and SS groups have been titrated amperometrically in tris buffer pH 7.4 with 0.001 M AgNO3. The proteins used were hemoglobin, bovine serum albumin, ovalbumin, lysozyme, pepsin, myoglobin, and cytochrome c. The direct and the indirect titrations of (a) native, (b) denatured, and (c) NaBH4 reduced proteins showed, that the expected consumption of AgNO3 was in no case exceeded. Therefore under the conditions used AgNO3 may be considered as a specific reagent for protein SH groups. High SH values as a result of the amperometric titration of proteins with silver nitrate, which have been published occasionally, may be due to incorrect estimation of the end point of the titration. The reducibility of SS groups depends on the kind of protein. Lysozyme and pepsin were already completely reduced at 23 degrees C, whereas bovine serum albumin needed 60 degrees C. The direct titration method was useful only in some cases for the detection of all SH groups originally present in the proteins or formed by reduction with NaBH4. On the other hand the indirect titration method gave maximum values, because the slowly reacting SH groups of proteins are also allowed to react and the resulting titration curves may be evaluated correctly.
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PMID:[Determination of sulphydryl and disulphide groups in proteins by amperometric titration. III. Investigation of the specifity of Ag+ ions for protein SH groups (author's transl)]. 17 21

The relationship between neutrophil polymorphonuclear leukocyte (PMN) locomotion and the exocytosis of neutrophil cytoplasmic granules was studied by assessing these processes in cells migrating through micropore filters and by measuring the effects of degranulating stimuli on PMN chemotaxis, orientation, adhesiveness, and ability to bind the chemoattractant f-Met-Leu-[3H]Phe. Studies of cells migrating through cellulose nitrate filters indicated that concentrations of f-Met-Leu-Phe optimal for exocytosis were greater than those optimal for chemotaxis and actually inhibited cell migration. In other studies incubation of PMNs with concentrations of secretagogues causing exocytosis of 30% or greater PMN lysozyme increased cell adhesiveness and inhibited chemotaxis. PMNs that had secreted more than 30% lysozyme appeared round, did not orient in a gradient of chemoattractant, and were capable of significantly less f-Met-Leu-[3H]Phe binding than were control cells. The decreased binding of f-Met-Leu-Phe was not associated with hydrolysis of chemotactic peptide by washed cells, although peptide hydrolysis was caused by cell products secreted extracellularly after vigorous exocytosis. In contrast, when only 10--15% cellular lysozyme was released f-Met-Leu-Phe binding was enhanced significantly and there was no depression of chemotaxis. The data indicate limited exocytosis of intracellular granule contents is associated with increased availability of PMN cehmotactic factor receptors. Vigorous exocytosis is associated with inactivation of chemotactic responsiveness related to increase cell adhesiveness, decreased PMN binding of chemotactic factors, and to hydrolysis of chemoattractants by factors secreted extracellularly.
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PMID:Role of secretory events in modulating human neutrophil chemotaxis. 37 35

A 500-U ml-1 portion of egg white lysozyme was able to kill 99% of 5 X 10(5) resting vegetative cells of Clostridium tyrobutyricum within 24 h of incubation at 25 degrees C. Spores were completely resistant to lysozyme. Proliferating vegetative cells were severely inhibited, although lysozyme-resistant cells developed in growing cultures in the presence of lysozyme. Whereas early stages of spore germination (loss of optical refractility and heat resistance) were not inhibited by lysozyme, the overall outgrowth of spore cells into vegetative cells was delayed by 1 day in the presence of 500 U of lysosyme ml-1. This delay was independent of the lysozyme sensitivity or resistance of the mother culture of the used spores. It is suggested that this inhibition by lysozyme of the outgrowth of spore cells into vegetative cells of the lactate-fermenting C. tyrobutyricum is the basis for the observation that lysozyme can substitute for nitrate in preventing the "late gas" defect of Edam- and Gouda-type cheeses.
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PMID:Action of egg white lysozyme on Clostridium tyrobutyricum. 51 83

A 6 A resolution electron density map has been calculated for a bacterial lysozyme produced by Streptomyces erythraeus. This lysozyme differs from the vertebrate lysozyme in its size, amino acid composition, and specificity. The structure was determined by the method of isomorphous replacement. Three heavy atom derivatives were obtained by soaking crystals of the lysozyme in HgCl2, K2PtCl4, and UO2(NO3)26H2O. The resulting electron density map clearly shows the molecular boundary. The molecule is ellipsoidal in shape with average dimensions 50 A X 35 A X 35 A. High resolution analysis and sequence analysis of the molecule are in progress.
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PMID:Structure of Streptomyces erythraeus lysozyme at 6 A resolution. 52 38

The interaction of metal cations with single chain globular proteins produces volume increases, the magnitude of which is determined primarily by the ion and to a lesser extent by the protein. The cations are listed in ascending order of volume change: K(I) less than Mg(II) less than Sr(II) less than Ca(II) less than Co(II) less than Ni(II) less than Cd(II) less than Zn(II) less than Cu(II) less than Pb(II). This sequence held for all cation-protein systems investigated except for Cd(II) which produced a slightly larger volume effect than Zn(II) with lysozyme. The volume changes attributed to protein-cation interaction are positive and range from 8 ml/10(5) g of protein for the reaction on 0.05 M KNO3 with bovine plasma albumin to 2320 ml/10(5) g of protein produced by the 0.20 M Pb(NO3)2-myoglobin system. A similar classification scheme was not possible for the proteins. For example, volume increases of 45, 50, 80 and 95 ml/10(5) g of protein were produced when 0.05 M Mg(II) reacted with bovine serum albumin, ovalbumin, sperm whale myoglobin and lysozyme, respectively. However, when 0.2 M Pb(II) was the reactant the values were 1930, 846, 2320, and 1120 ml/10(5) g of protein. Volume effects produced by Cr(III), Al(III) and Fe(III) were determined, but the calculated results are considered dubious because the volume changes are a complicated function of protein-cation and protein-proton interaction.
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PMID:Protein-metal ion interaction: volume effects produced by the interaction of proteins with metal ions. 105 36

For more than a decade we have exposed rabbits to different metals, usually in soluble form, and investigated the effects on the lungs. The metal concentrations have been around 1 mg/m3,i.e., not more than a factor of 10 above occupational threshold limit values. The exposure periods have been 1-8 months (6 hr/day, 5 days/week). We have studied especially the morphology and function of alveolar macrophages (AM), the morphology of alveolar type I and type II epithelial cells, and analyzed lung phospholipids. Several metals produce specific, complex effects. For example, metallic and soluble nickel (NiCl2) increase both number and size of the type II cells, increase the production of surfactant, and affect morphology and function of AM. Cobalt (CoCl2) induces a different effect on type II cells from nickel, causing the formation of nodules in these cells. Trivalent chromium [Cr(NO3)3] does not affect either type II cells or the amount of surfactant significantly, but markedly affects AM. The administered metals affect AM both directly and indirectly. For example, nickel induces an increased production of surfactant, resulting in overfed AM with an increased metabolic activity. However, nickel also induces a direct decrease in the release of lysozyme activity by AM. Our results emphasize the complexity of the effects on the lungs of inhaled agents, which can act both directly and indirectly on AM.
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PMID:Reaction of alveolar macrophages to inhaled metal aerosols. 139 56

Thrombin-induced platelet microbicidal protein (PMP) is considered to play an important role in preventing an important role in preventing streptococcal endocarditis. However, the structural features and functions of PMPs have not been well characterized, and their antibacterial spectra against other common endocarditis pathogens, such as the staphylococci, are not known. Thrombin stimulation of washed rabbit platelets (10(8)/ml) yielded a PMP-rich preparation with a specific activity of approximately 25 U/mg of protein as determined by Bacillus subtilis bioassay. Twenty-eight clinical and laboratory Staphylococcus aureus isolates, exposed to a standardized PMP preparation (100 U/ml for 2 h at 37 degrees C), exhibited a Poisson-distributed heterogeneity to the bactericidal action of PMP, with approximately one-third designated as PMP resistant. Gel filtration chromatography (Sephadex G-50) identified the bioactive moiety within PMP preparations to be in the major protein elution peak; sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) presumptively identified PMP as a low-molecular-weight (MW) (8,500) protein present only in such bioactive protein peaks. Both the bioactivity of PMP preparations and the low-MW protein band were removable by specific anionic membranes (e.g., cellulose-acetate/nitrate), as well as by a variety of anionic resins, further corroborating the suspected cationic charge of PMP. In addition, both PMP bioactivity and the low-MW protein band were recoverable by 1.5 M NaCl elution of the anionic membrane filters post-PMP adsorptive removal. Adsorption of bioactive PMP preparations by highly PMP-susceptible B. subtilis (10(8) CFU/ml, 30 min) resulted in a near-complete loss of residual bioactivity; in contrast, adsorption of bioactive PMP preparations with less PMP-susceptible S. aureus strains failed to reduce bioactivity. Significant lysozyme contamination of PMP-rich preparations was ruled out by determination of differences between bioactive PMP preparations and exogenous lysozyme as regards (i) relative heat stabilities; (ii) differential bactericidal activity versus B. subtilis and Micrococcus luteus; and (iii) SDS-PAGE protein profiles. These data show that the bioactive PMP protein moiety is of low MW, is heat stable, is probably cationic (similar to leukocyte-derived defensins), and possesses potent bactericidal activity against a significant percentage of S. aureus isolates.
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PMID:Partial characterization and staphylocidal activity of thrombin-induced platelet microbicidal protein. 154 35

The partial molar volumes of various compounds that model protein constituent groups, such as tripeptides (Gly-X-Gly, where X = Gly, Ala, Val, Leu, Ile, Pro, Met, His, Ser), homopeptides (Glyn, n = 3,4,5), and simple organic analogues of amino acid side chains (methanol, acetamide, propanamide, acetic acid, propanoic acid, n-butanamine, n-butanamine nitrate, n-propylguanidine nitrate, 4-methylphenol), have been determined in aqueous solution with a vibrational densimeter in the temperature range of 5-85 degrees C. The partial molar volumes of amino acid side chains and the peptide unit were estimated from the data obtained. Assuming additivity of component groups, the partial molar volumes of polypeptide chains of several proteins over a broad temperature range were calculated. The partial molar volume functions of four proteins (myoglobin, cytochrome C, ribonuclease A, lysozyme) were compared with those determined experimentally for the unfolded and native forms of these proteins. It has been shown that the average deviation of the calculated functions from the experimental ones does not exceed 3% over the temperature range studied.
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PMID:Partial molar volumes of polypeptides and their constituent groups in aqueous solution over a broad temperature range. 208 Dec 62

Significant quantities of Ag(I), Cu(II), and Cr(III) were bound to isolated Bacillus subtilis 168 walls, Escherichia coli K-12 envelopes, kaolinite and smectite clays, and the corresponding organic material-clay aggregates (1:1, wt/wt). These sorbed metals were leached with HNO3, Ca(NO3)2, EDTA, fulvic acid, and lysozyme at several concentrations over 48 h at room temperature. The remobilization of the sorbed metals depended on the physical properties of the organic and clay surfaces and on the character and concentration of the leaching agents. In general, the order of remobilization of metals was Cr much less than Ag less than Cu. Cr was very stable in the wall, clay, and composite systems; pH 3.0, 500 microM EDTA, 120-ppm [mg liter-1] fulvic acid, and 160-ppm Ca remobilized less than 32% (wt/wt) of sorbed Cr. Ag (45 to 87%) and Cu (up to 100%) were readily removed by these agents. Although each leaching agent was effective at mobilizing certain metals, elevated Ca or acidic pH produced the greatest overall mobility. The organic chelators were less effective. Lysozyme digestion of Bacillus walls remobilized Cu from walls and Cu-wall-kaolinite composites, but Ag, Cr, and smectite partially inhibited enzyme activity, and the metals remained insoluble. The extent of metal remobilization was not always dependent on increasing concentrations of leaching agents; for example, Ag mobility decreased with some clays and some composites treated with high fulvic acid, EDTA, and lysozyme concentrations. Sometimes the organic material-clay composites reacted in a manner distinctly different from that of their individual counterparts; e.g., 25% less Cu was remobilized from wall- and envelope-smectite composites than from walls, envelopes, or smectite individually in 500 microM EDTA. Alternatively, treatment with 160-ppm Ca removed 1.5 to 10 times more Ag from envelope-kaolinite composites than from the individual components. The particle size of the deposited metal may account for some of the stability changes; those metals that formed large, compact aggregates (Cr and Ag) as seen by transmission electron microscopy were less likely to be remobilized. In summary, it is apparent that remobilization of toxic heavy metals in sediments, soils, and the vadose zone is a complicated issue. Predictions based on single inorganic or organic component systems are too simplistic.
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PMID:Remobilization of toxic heavy metals adsorbed to bacterial wall-clay composites. 212 2

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