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)

Five monoclonal antibodies specific for the loop region of hen egg lysozyme were prepared by immunisation with a synthetic conjugate of a proteolytic fragment of lysozyme coupled to bovine serum albumin. Their fine specificities were investigated using a panel of variant lysozymes and peptide fragments of lysozyme in a quantitative radio-immunoassay procedure. Knowledge of the structure of hen lysozyme to high resolution and the use of computer graphics enables the localisation of the epitopes recognised by the antibodies with some precision. The antibodies were shown to define three distinct, overlapping epitopes within what was previously considered to be a single antigenic site. These results are discussed in relation to current ideas of the antigenic nature of proteins and other recent studies in which anti-protein antibodies have been elicited by immunisation with small peptides.
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PMID:Three distinct epitopes within the loop region of hen egg lysozyme defined with monoclonal antibodies. 241 Feb 55

A combined Coomassie blue-silver stain method has been developed in sodium dodecyl sulfate-polyacrylamide gels for the detection of proteins using the model compounds bovine serum albumin, lysozyme, and recombinant DNA-derived human insulin. Sensitivity was enhanced 2.2 to 8.6 times by the new method relative to that of silver staining alone. The new method may also be useful in enhancing detection sensitivities of other proteins.
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PMID:Silver staining of proteins in polyacrylamide gels: increased sensitivity through a combined Coomassie blue-silver stain procedure. 242 Feb 27

We investigated the effect of the extracellular protease of Serratia marcescens on human serum constituents such as immunoglobulins, fibronectin, alpha 1-protease inhibitor, alpha 2-macroglobulin, lysozyme, and transferrin. At a very low concentration of Serratia 56-kilodalton protease (56K protease), purified human plasma fibronectin was degraded rapidly into three structural domains or small fragments. Immunoglobulin G3 (IgG3) and IgA1 were also degraded within 30 min with 1 microgram of this protease per ml, more rapidly than their other subclass of IgG or IgA. alpha 1-Protease inhibitor, which did not inhibit the 56K protease, was degraded similarly by the protease. These events were demonstrated by fluorescence polarization and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The protease was considerably inhibited by human alpha 2-macroglobulin and chicken ovomacroglobulin. However, when there was a 2 M excess of ovomacroglobulin or a 4 M excess of alpha 2-macroglobulin over the 56K protease, about 25 or 40% proteolytic activity remained, respectively. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the protease degraded the alpha 2-macroglobulin extensively during prolonged incubation, which paralleled with regeneration of the protease activity. The protease also cleaved human lysozyme, although moderately. Human serum transferrin was degraded slightly, and human serum albumin was almost resistant to the 56K protease. The enzyme seemed to have no effect on reconstituted collagen, but it degraded rat tropocollagen and yielded fragments of beta and gamma chains by cleaving the intramolecular cross-links. Most of the above proteolysis by the 56K protease appears to result in a limited type of substrate specificity. Thus, the present study demonstrates that the protease is capable of degrading defense-oriented humoral proteins and tissue constituents. Furthermore, it is toxic to fibroblasts. These findings also clarified the possible role of Serratia protease as a virulence factor in the pathogenesis of serratial infections. We recently demonstrated this notion in vivo with rabbit cornea (R. Kamata et al., Ophthalmology 92:1452-1459, 1985).
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PMID:Degradation of protease inhibitors, immunoglobulins, and other serum proteins by Serratia protease and its toxicity to fibroblast in culture. 242 50

A relatively high complexation affinity has been found for coomassie blue G-250 and the following amino acids: arginine; tyrosine; lysine; and histidine. A linear relationship was observed between log molar absorptivity and log molecular weight of 52 of 69 proteins, polypeptides, and di- and tripeptides that were allowed to react with coomassie blue G-250 in solution. The solution complexation results were used in a study of the detection of the following model proteins: bovine serum albumin, lysozyme, recombinant DNA derived human insulin, and calmodulin. Interactions between coomassie blue stained gels and silver detection reagents were determined and used as the basis for studies of enhanced sensitivity of detection of electrophoretically developed proteins. Sensitivity enhancements of up to eight-fold were observed when various sulfonic acid dye complexed proteins were detected with silver reagents versus the use of silver reagents alone. A site-directed nucleation of silver caused by the protein complexed sulfonic acid dyes is proposed as a mechanism for the observed enhancements.
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PMID:Mechanism studies of coomassie blue and silver staining of proteins. 243 Nov 34

The expression of the positively charged human protein secretory leukocyte protease inhibitor (SLPI) in Escherichia coli causes severe cellular toxicity. After induction of SLPI synthesis in a high-level-expression strain, SGE61, the growth of the strain is arrested and total protein and RNA synthesis rates decline by 60 to 70%. The mechanism of SLPI-mediated inhibition of macromolecular synthesis was examined in cell-free transcription-translation systems. SLPI proved to be a potent inhibitor of translation in vitro. When SLPI was added to translation reactions at SLPI/mRNA ratios attained during maximal SLPI accumulation in SGE61, translation of a test mRNA was inhibited by 75%. The mechanism of translation inhibition was deduced from in vitro experiments showing that SLPI bound to mRNA and interfered with the interaction of RNA-metabolizing enzymes, such as RNase. In addition, SLPI bound to DNA in vitro, but transcription was not inhibited as strongly in cell-free reactions as it was in SGE61. Similar nucleic acid-binding and translation inhibition properties were displayed in vitro by another basic protein, chicken egg white lysozyme, but were not displayed by the relatively acidic protein bovine serum albumin. On the basis of these results, we concluded that SLPI binds to nucleic acids via charge interactions and inhibits translation by competing with ribosomes for binding to mRNA. Since SLPI-mRNA and SLPI-DNA binding occurred at SLPI/mRNA and SLPI/DNA ratios existing in SGE61, nucleic acid binding may contribute to the toxicity of SLPI to E. coli. These results indicate that, in general, high-level expression of basic recombinant proteins in E. coli may be problematic.
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PMID:Secretory leukocyte protease inhibitor binding to mRNA and DNA as a possible cause of toxicity to Escherichia coli. 246

A unique type of Ag-specific hypersensitivity was induced by challenging the Ag-sensitized mice at the ear. It was elicited within 1 h after the Ag challenge, and thus was distinct from either the delayed-type hypersensitivity (DTH) which developed in 24 h or the immune complex-mediated hypersensitivity which evolved in 4 to 6 h. This hypersensitivity was referred to as early-type hypersensitivity (ETH). The time required for these types of hypersensitivity to develop after immunization was also different; DTH required 4 to 6 days, ETH 9 to 11 days, whereas plasma protein-induced immune complex-mediated hypersensitivity needed 18 to 21 days. The ETH could be induced by a smaller amount of Ag than DTH, and unlike DTH could be transferred by either immune sera or T cell-derived culture factor which was small m.w. Although the ETH developed later than DTH after sensitization, it lasted longer once developed and the pattern of response was inversely related to DTH. Furthermore, the denatured hepatitis B surface Ag induced DTH but not ETH, in contrast to native hepatitis B surface Ag that induced both, suggesting that the epitopes recognized by TETH cells were distinct from those recognized by TDTH cells. The ETH could be induced by most Ag tested including poly(Glu60Ala10Tyr10, L-lactic dehydrogenase, insulin, chicken egg white lysozyme, polymerized human serum albumin, horse gamma-globulin, transferrin, fibrinogen, and plasminogen, but not by purified protein derivative. Because poly(Glu60Ala10Tyr10, L-lactic dehydrogenase, egg white lysozyme and insulin were under the Ir gene control and the inducibility of ETH was Ag dependent and was closely correlated with that of DTH, the expression of ETH also must be regulated by Ir gene. The histopathologic changes in ETH consisted of capillary congestion and edema. The vasopermeability was increased and there was the leakage of plasma proteins into the tissue. Based on these data, we concluded that the ETH reported in this study was a novel type of Ag-specific hypersensitivity.
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PMID:An antigen-specific hypersensitivity which does not fit into traditional classification of hypersensitivity. 247 37

The regeneration of streptomycete protoplasts is a major step following genetic manipulations such as fusion and DNA-mediated transformation. Reports of studies on the regeneration of protoplasts from Streptomyces clavuligerus are limited and for this reason the experiments described in this paper were carried out. An investigation of protoplast formation and cytology was made to gain further insight into the loss of protoplast viability in osmotically stabilized support media. Protoplasts with the highest regeneration frequency were isolated from mycelium, grown in a two-stage culture system (without glycine), using lysozyme dissolved in a sucrose osmoticum containing 1% bovine serum albumin. The latter promoted improved protoplast viability. A systematic survey was made of the components of regeneration medium R5, previously used for S. clavuligerus, and other potentially advantageous components and conditions, in an attempt to raise the regeneration frequency of the protoplasts. An improved regeneration medium (R6) and protocol which supported higher and more consistent levels of regeneration of S. clavuligerus protoplasts resulted from these experiments. These improved procedures for protoplast isolation and regeneration proved to be suitable for other streptomycete species.
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PMID:Protoplast isolation and regeneration in Streptomyces clavuligerus. 248 47

Octadecyl-bonded silica, commonly used for reverse-phase high-pressure liquid chromatography, was modified using surfactants bearing ionizable groups and the modified packing used in ion-exchange chromatography of proteins. The surfactants 2-(n-hexadecylheptaethoxy)acetic acid, 1-(n-hexadecyloctaethoxy)ethylene-diamine, and N-(n-hexadecyloctaethoxy)pyridinium were adsorbed onto test columns packed with octadecyl-bonded silica particles. The proteins lysozyme, bovine serum albumin, trypsin, horse serum cholinesterase, and bovine liver carboxylesterase were used to study the ion-exchange characteristics of the modified packings. The retention order of the proteins on the surfactant-modified stationary phases were as predicted by the isoelectric point of each protein. In addition, the interaction of enzymes with the packings did not result in significant loss of enzymatic activity. Surfactant removal was possible with the use of organic solvents and this allowed the octadecyl-bonded surface to be used again in the reverse-phase mode. During the course of the experiments, no degradation in the packing's performance was observed due to loss of adsorbed surfactant, even after over 85,000 column volumes of sodium chloride and Tris-HCl buffers were circulated through the column.
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PMID:Reversible conversion of octadecyl-bonded silica to ion-exchange surfaces for protein separations. 254 Jun 75

When intact HeLa cells were incubated at 45 degrees C, there was progressive inactivation of proline endopeptidase. Rapid loss of the enzyme did not occur in extracts maintained at 45 degrees C. Since Western blots of sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels showed no decrease in the immunoreactive 70-kDa proline endopeptidase band, its in vivo disappearance apparently results from irreversible denaturation or modification. Loss of proline endopeptidase activity was paralleled by reduced degradation of injected ubiquitin and bovine serum albumin. In contrast, proteolysis of injected lysozyme or pancreatic trypsin inhibitor was barely affected. Electrophoretic analysis of ubiquitin or bovine serum albumin retrieved from heated HeLa cells showed that the injected proteins were intact. Thus, the presence of proline endopeptidase appears to be required for initial cleavage of these two substrates, but it has not been shown that the enzyme is directly responsible. Selective stabilization of a subset of the injected proteins does, however, demonstrate the existence of distinct proteolytic pathways in HeLa cytosol.
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PMID:Proteolysis in heat-stressed HeLa cells. Stabilization of ubiquitin correlates with the loss of proline endopeptidase. 254 10

Microcapsules (diameter range: 5 to 100 microns) prepared through interfacial cross-linking of proteins with terephthaloylchloride exhibited a cytotoxic effect on L 1210 cell cultures. IC50 was: 0.86 mg/ml +/- 0.24 for microcapsules prepared from human serum albumin (AT microcapsules) and 0.63 mg/ml +/- 0.05 for those obtained from egg white lysozyme (LT microcapsules). With K 562 cells IC50 were 0.42 +/- 0.11 mg/ml (AT microcapsules), 0.06 mg/ml (LT microcapsules). An increase in the cytotoxicity was observed when reducing the size of the microcapsules and when increasing the reaction pH or the terephthaloylchloride concentration, or the relative concentration of microcapsules vs cells. On the contrary, the cytotoxic effect decreased, when prolonging the cross-linking time. The activity was not affected when the microcapsules were washed with toluene or with an alkaline solute. The cytotoxic effect, which appears for relatively high doses, apparently involves a contact between the microcapsules and the cells and seems to be related with the degree of cross-linking of the constitutive protein.
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PMID:[The effect of cross-linked protein microcapsules on cell cultures]. 260 10

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