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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)
A single intraperitoneal injection of sodium oxalate was used to induce intrarenal tubular precipitation of calcium oxalate in rats. This experimental model was used to screen the efficacy of hydrochlorothiazide, orthophosphate, methylene blue, trypan blue, retinal folic acid, neuraminidase, and
lysozyme
in retarding intratubular calcium oxalate precipitation.
Orthophosphate
caused a 53 per cent reduction in calcium oxalate precipitation relative to the control animals.
...
PMID:A survey of the effect of some drugs, chemicals, and enzymes on calcium oxalate precipitation in the rat kidney. 64 1
Streptomyces antibioticus ETHZ 7451 formed spores in cultures grown in a liquid medium from either a spore or a mycelium inoculum. The spores formed were similar to those formed on surface-grown cultures, except for reduced heat resistance. Both types of spores were sensitive to
lysozyme
, which is unusual for Streptomyces spores. Glucose and other carbon sources, which promoted different growth rates, did not affect sporulation efficiency. Nitrogen sources, such as casamino acids, that allowed high growth rates suppressed the sporulation. A remarkable repression was also observed in media with some nitrogen sources that promoted noticeably lower growth rates. In permissive media, with nitrogen sources that permitted relatively high growth rates, sporulation was conditioned to the consumption of ammonium in the medium, but not to that of other nitrogen sources, such as asparagine.
Phosphate
did not show a repressive effect on sporulation in the assayed conditions.
...
PMID:Sporulation of Streptomyces antibioticus ETHZ 7451 in submerged culture. 145 69
The glycation (nonenzymatic glycosylation) of several proteins was studied in various buffers in order to assess the effects of buffering ions on the kinetics and specificity of glycation of protein. Incubation of RNase with glucose in phosphate buffer resulted in inactivation of the enzyme because of preferential modification of lysine residues in or near the active site. In contrast, in the cationic buffers, 3-(N-morpholino)propane-sulfonic acid and 3-(N-tris(hydroxymethyl)methyl-amino)-2-hydroxypropanesulfonic acid, the kinetics of glycation of RNase were decreased 2- to 3-fold, there was a decrease in glycation of active site versus peripheral lysines, and the enzyme was resistant to inactivation by glucose. The extent of Schiff base formation on RNAse was comparable in the three buffers, suggesting that phosphate, bound in the active site of RNase, catalyzed the Amadori rearrangement at active site lysines, leading to the enhanced rate of inactivation of the enzyme.
Phosphate
catalysis of glycation was concentration-dependent and could be mimicked by arsenate.
Phosphate
also stimulated the rate of glycation of other proteins, such as
lysozyme
, cytochrome c, albumin, and hemoglobin. As with RNase, phosphate affected the specificity of glycation of hemoglobin, resulting in increased glycation of amino-terminal valine versus intrachain lysine residues. 2,3-Diphosphoglycerate exerted similar effects on the glycation of hemoglobin, suggesting that inorganic and organic phosphates may play an important role in determining the kinetics and specificity of glycation of hemoglobin in the red cell. Overall, these studies establish that buffering ions or ligands can exert significant effects on the kinetics and specificity of glycation of proteins.
...
PMID:Effect of phosphate on the kinetics and specificity of glycation of protein. 358 12
The cell wall of Bacillus subtilis is capable of binding different kinds of metal ions. The wall-ion complex appears to be dependent on both phosphoryl from teichoic acid and carboxylate from peptidoglycan. In the present study, cationized ferritin (CF) was used as a probe for charge distribution on the wall of B. subtilis 168. Detergent-extracted cell walls bound CF only on the outer wall face. Completed cell poles bound CF, but septa did not. When the walls were permitted to autolyze briefly, binding of CF occurred on both faces. In contrast, limited hydrolysis of the walls by egg white
lysozyme
resulted in the penetration of CF into the wall matrix. When walls were made teichoic acid-free, CF-binding asymmetry was preserved, suggesting that carboxyl groups were oriented toward the surface. Walls with carboxylates chemically neutralized also retained charge asymmetry.
Phosphate
-free and carboxyl-modified walls bound CF only poorly or not at all. These results indicate that negative charges contributed by both phosphate and carboxyl are responsible for the binding of CF and that the observed asymmetry in the distribution of the label is due to the orientation of teichoic acid and muramyl peptides toward the outside of the cell wall, above the plane of the glycan strands.
...
PMID:Asymmetric distribution of charge on the cell wall of Bacillus subtilis. 392 97
Fast freezing and slow thawing of Salmonella anatum cells suspended in water resulted in injury of more than 90% of the cells that survived the treatment. The injured cells failed to form colonies on the selective medium (xyloselysine-peptone-agar with 0.2% sodium deoxycholate) but did form colonies on a nonselective (xylose-lysine-peptone-agar) plating medium. In Tryptic soy plus 0.3% yeast extract broth or minimal broth, most of the injured cells repaired within 1 to 2 hr at 25 C. Tryptic soy plus yeast extract broth supported repair to a greater extent than minimal broth.
Phosphate
or citrate at concentrations found in minimal broth supported repair of some cells. MgSO(4), when present with inorganic phosphate or citrate or both, increased the extent of repair. The repair process in the presence of phosphate was not prevented by actinomycin D, chloramphenicol, and D-cycloserine, but was prevented by cyanide and 2,4-dinitrophenol (only at pH 6). This suggested that the repair process might involve energy metabolism in the form of adenosine triphosphate. The freeze-injured cells were highly sensitive to
lysozyme
, whereas unfrozen fresh cells were not. In the presence of phosphate or minimal broth this sensitivity was greatly reduced. This suggested that, at least in some of the cells, the injury involved the lipopolysaccharide of the cell wall and adenosine triphosphate synthesis was required for repair.
...
PMID:Characterization of the repair of injury induced by freezing Salmonella anatum. 455 47
In rheumatoid arthritis, it is well known that lysosomal enzymes such as
lysozyme
and acid phosphatase have a function of destroying bone and synovial tissue of joints. In order to analyze the localization and the difference of distribution of
lysozyme
and acid phosphatase on the synovial tissue of rheumatoid arthritis (RA) and non-RA joints, immunohistochemical and histochemical methods were employed. Lysozyme was detected with formalin-fixed, paraffin-embedded materials in 82 cases of synovial tissue (RA 50 cases, non-RA 32 cases) using the unlabelled peroxidase anti-peroxidase (PAP) method following Taylor, et al. Acid phosphatase was detected with the naphthol AS method using frozen sections. In addition, in some cases of RA, alpha 1-antitrypsin and alpha 1-antichymotrypsin were also examined in synovium by the PAP method. For quantitative analysis of
lysozyme
in synovial fluid, lyso-plate were used on 98 cases (RA 58 cases, non-RA 40 cases). Further, acid phosphatase was quantitated with phenyl
phosphoric acid
. The results show, histologically, that
lysozyme
was more predominantly and more specifically located in the synovial cells, especially in the synovial lining cells of RA joints than non-RA joints. Lysozyme was distributed in the cytoplasm of synovial cells in a fine granular or small globoid pattern. On the other hand, no
lysozyme
was detected on the infiltrated lymphocytes and plasma cells. Infiltration of leukocytes was relatively slight. Acid phosphatase was intensively located in the same portion of RA synovium as that of
lysozyme
. Electron microscopically, synovial surface cells showed an increase in number, and they contained dominant, well-developed, rough endoplasmic reticulum and electron dense bodies. Fibrillar matrix were present in the cytoplasm and in the extracellular space in an amorphous pattern. Enzyme activity of
lysozyme
in 58 RA synovial fluid was 113 +/- 101 (mean +/- standard deviation) micrograms/ml and that in 40 non-RA (11 osteoarthritis, 20 autopsy cases, and others) was 35 +/- 31 micrograms/ml. Acid phosphatase activity of 47 RA was 11.97 +/- 10.45 I.U. (International Unit) and that of 38 non-RA was 5.16 +/- 3.77 I.U. A significant difference of lysosomal enzyme activity was thus found in the synovial fluid between RA and non-RA. Clinical laboratory data, namely, ESR (erythrocyte sedimentation rate) and CRP (C-reactive protein) as an activity of rheumatic disease were evaluated. Correlation rate between ESR and
lysozyme
in RA synovial fluid was 0.279 (the value of P less than 0.05) and between ESR and acid phosphatase was 0.259 (P less than 0.05). Thus no significant correlation was found among them.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:[Study of lysosomal enzymes in human synovial membrane and fluid from rheumatoid and non-rheumatoid patients]. 637 74
The alkaline phosphatase of Plectonema boryanum shows a considerable increase in activity following placement of the cells in a phosphate free medium. Five days of phosphate starvation result in a 14-fold increase of alkaline phosphatase activity. Growth in the presence of inhibitors of transcription and translation indicate that the synthesis of the enzyme is de novo.
Orthophosphate
causes an immediate inhibition of enzyme activity. Enzyme was extracted from P. boryanum with
lysozyme
or polymyxin B treatment in order to make comparative studies of cell bound and cell free enzyme. Of several enzyme specific inhibitors tested, mercuric chloride was the most effective. Temperature studies showed that the cell bound enzyme was most active at 40 degrees C while the cell free enzyme was most active at 70 degrees C. The pH optimum was 9 for the cell free enzyme, and 8.8 for the cell bound. The enzyme was tested to determine if it could hydrolyse a number of different organic compounds. It hydrolysed p-nitrophenol phosphate 100%, fructose-6-phosphate 45%, beta-glycerol phosphate 25% and other compounds to a lesser degree. Of seventeen other Cyanobacteria tested for alkaline phosphatase, all were positive, and of these eleven were inducible for the enzyme. Ten of the isolates released some of the enzyme into the culture medium. Michaelis constants for the enzyme were also determined.
...
PMID:Physiological aspects of alkaline phosphatase in selected cyanobacteria. 679 13
The non-enzymatic reactions between glucose or fructose with
lysozyme
, performed under pseudo-physiological conditions, have been studied by means of matrix-assisted laser desorption/ionization mass spectrometry.
Phosphate
buffer at concentrations of 0.05, 0.2 and 0.5 M has been employed. The formation of glycated proteins as well as of cross-linking products has been always observed. In the case of glucose, high phosphate buffer concentrations affect the glycation kinetics and promote the formation of cross-linking products. With fructose, such influence is moderate, the reaction kinetics being mainly influenced by the higher reactivity of the sugar.
...
PMID:The in vitro glycation of lysozyme and the influence of buffer concentration investigated by mass spectrometry. 888 21
Peptides and proteins were separated by capillary electrophoresis (CE) in fused-silica capillaries coated with an irreversibly adsorbed monolayer of derivatized polystyrene nanoparticles. Whereas phosphate buffer, pH 3.10, enabled the highly efficient separation of basic proteins with plate counts up to 1,400,000 m-1, volatile buffer components such as formic acid or acetic acid titrated with ammonia to the desired pH had to be used for the direct coupling of CE with electrospray ionization mass spectrometry (ESI-MS). Compared to 40 mM
phosphoric acid
-sodium hydroxide, pH 3.10, a background electrolyte containing 125 mM formic acid-ammonia, pH 4.00, was shown to yield equivalent separation efficiency. Investigation of the influence of buffered electrolytes on the ESI-MS signal of
lysozyme
at pH 2.70-4.00 showed that the charge state distribution shifted to lower charge states at higher pH with a concomitant five-fold decrease in signal intensity of the most abundant signal. The presence of trifluoroacetic acid in the background electrolyte greatly increased the level of baseline noise and completely inhibited the observation of any mass signals related to proteins. Full scan spectra could be acquired from 50-500 fmol amounts of proteins during coupled CE-ESI-MS utilizing 100-125 mM formic acid-ammonia, pH 3.10. However, compared to UV detection, considerable band broadening is observed with ESI-MS detection which is mainly attributed to column overloading, band spreading in the interface, and scanning data acquisition. Finally, the major whey proteins beta-lactoglobulin A, beta-lactoglobulin B, and alpha-lactalbumin were identified in a whey drink by comparison of molecular masses determined by CE-ESI-MS to molecular masses calculated from the amino acid sequence.
...
PMID:Evaluation of volatile eluents and electrolytes for high-performance liquid chromatography-electrospray ionization mass spectrometry and capillary electrophoresis-electrospray ionization mass spectrometry of proteins. II. Capillary electrophoresis. 1044 42
A new nonionic reverse micellar system is developed by blending two nonionic surfactants, Triton X-45 and Span 80. At total surfactant concentrations lower than 60 mmol/L and molar fractions of Triton X-45 less than 0.6, thermodynamically stable reverse micelles of water content (W(0)) up to 30 are formed. Di(2-ethylhexyl)
phosphoric acid
(HDEHP; 1-2 mmol/L) is introduced into the system for chelating transition metal ions that have binding affinity for histidine-rich proteins. HDEHP exists in a dimeric form in organic solvents and a dimer associated with one transition metal ion, including copper, zinc, and nickel. The copper-chelate reverse micelles (Cu-RM) are characterized for their W(0), hydrodynamic radius (R(h)), and aggregation number (N(ag)). Similar with reverse micelles of bis-2-ethylhexyl sodium sulfosuccinate (AOT), R(h) of the Cu-RM is also linearly related to W(0). However, N(ag) is determined to be 30-90 at W(0) of 5-30, only quarter to half of the AOT reverse micelles. Then, selective metal-chelate extraction of histidine-rich protein (myoglobin) by the Cu-RM is successfully performed with pure and mixed protein systems (myoglobin and
lysozyme
). The solubilized protein can be recovered by stripping with imidazole or ethylinediaminetetraacetic acid (EDTA) solution. Because various transition metal ions can be chelated to the reverse micelles, it is convinced that the system would be useful for application in protein purification as well as simultaneous isolation and refolding of recombinant histidine-tagged proteins expressed as inclusion bodies.
...
PMID:A metal-chelate affinity reverse micellar system for protein extraction. 1983 Aug 21
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