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)

Lysozyme mRNA was translated in a reticulocyte lysate with mixtures of radioactive amino acids. The in vitro product isolated by immunoprecipitation was shown by gel electrophoresis, peptide mapping, and sequence analysis to be larger than lysozyme synthesized in vivo. An NH2-terminal extension was completely sequenced by automated Edman degradation; the phenylthiohydantoins from each cycle were separated by high pressure liquid chromatography and quantitated by scintillation spectroscopy. The NH2-terminal sequence of pre-lysozyme is: (formula: see text) where lysine is the NH2 terminus of lysozyme. Sixteen of the eighteen residues in this sequence are hydrophobic and in this regard it resembles the partial sequences recently elucidated for other secretory proteins. The NH2-terminal methionine is donated by initiator Met-tRNAfMet; thus, this sequence represents the primary translation product. This 18-amino acid sequence is cleaved from lysozyme in vivo before the lysozyme molecules are completely synthesized.
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PMID:Precursor of egg white lysozyme. Amino acid sequence of an NH2-terminal extension. 89 12

In previous reports from this laboratory it was shown that an antigenic reactive site resides around the sequences 6-13 and 126-128 linked by the disulfide 6-127. The present work provides a strong support for the location of the reactive site by an independent approach. It also determines accurately the boundaries of the reactive site. 1. The two methionine residues in lysozyme were carboxyethylated by reaction with beta-propiolactone. The electrophoretically homogeneous derivative had no other modified amino acids and showed no conformational changes, relative to native lysozyme, as determined by ORD and CD measurements. However, it exhibited a slight increase in disulfide reducibility relative to native lysozyme and its lytic activity was about half that of native lysozyme, probably as a result of the slight conformational change. On the other hand, the antigenic reactivity of the derivative was equal to that of native lysozyme with several goat and rabbit antisera to lysozyem. It was therefore concluded that methionines 12 and 105 were not parts of antigenic reactive sites in native lysozyme. 2. Eleven peptides, corresponding to various sequences on the two sides of the disulfide 6-127 (i.e. two groups of peptides) were synthesized, purified and characterized. One group (A) of peptides comprised sequences 3-14, 5-14, 6-14, 5-13, 5-12 and an analog of sequence 5-14 in which methionine 12 is replaced by glycine. The second group (B) of peptides comprised sequences 125-129, 125-128, 126-128, 127-128, and 125-127. From groups A and B, nine disulfide-containing peptides (see Fig. 2) were synthesized, purified, characterized and their immunochemical interactions with antisera to native lysozyme studied. Towards each of the antisera studied here, Phe-3, Gly-4, Arg-5, Arg-125 and Leu-129 were not essential parts of the reactive site. On the other hand, Arg-14, Lys-13, Gly-126 and with some antisera Arg-128 were each critical for the reactivity of the site. Peptides from group A alone or group B alone did not inhibit the reaction of lysozyme with its antisera, confirming our previous findings that the integrity of the disulfide bond is essential for bringing the two distant (in sequence) parts of the site together. Finally, replacement of Met-12 by glycine did not influence the immunochemical reactivity of the site, confirming the above conclusion that neither of the two methionine residues takes part in interaction of lysozyme with its antibodies. An accurate delineation of the antigenic reactive site is, therefore derived here and its shape in the three-dimensional structure of native lysozyme is described.
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PMID:Enzymic and immunochemical properties of lysozyme. XIII. Accurate delineation of the reactive site around the disulfide 6-127 by immunochemical study of beta-propiolactone lysozyme derivative and of synthetic disulfide peptides. 94 82

The enzymic hydrolysis of some proteins (insulin-B-chain-S-sulfonate, S-aminoethylated lysozyme, bovine serum albumin) by immobilized peptidolytic enzymes is reported. Sepharose-bound pronase, trypsin and a protease from Thermoactinomyces sp. (MP), the latter both cross linked by glutaric dialdehyde and an exopeptidase mixture containing Sepharose-bound leucine aminopeptidase, carboxypeptidase A and a crude preparation of prolidase were used. After enzymic hydrolysis nearly all amino acids, except proline, were recovered in a 100% yield compared to the value of an acid reference hydrolysate. Tryptophan and methionine, which are partially destroyed by acid hydrolysis in the presence of oxygen could be recovered completely.
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PMID:[Protein hydrolysis by immobilized enzymes]. 98 21

A system has been developed with clones of mouse myeloid leukemic cells in culture to study the induction of synthesis and secretion of lysozyme in relation to other steps in myeloid cell differentiation. Lysozyme was initially absent in all the clones studied. The different clones can be divided into three types according to their ability to be induced to undergo normal cell differentiation by the protein inducer MGI (macrophage and granulocyte inducer). One type of clone that can be induced by MGI to form Fc and C3 receptors and differentiate to mature macrophages and granulocytes (MGI+D+) was also induced by MGI to synthesize and secrete lysozyme. Lysozyme was induced after Fc and C3 receptors, and labeling with 35S-methionine has shown that the induced lysozyme was newly synthesized. MGI+D+ clones were also induced to synthesize and secrete lysozyme by dexamethasone, prednisolone, cytosine arabinoside, or thymidine and in one of four clones by dimethylsulfoxide but not by sodium butyrate. Inhibition of cell multiplication by itself was not sufficient to induce lysozyme synthesis. A second type of clone which can be induced by MGI to form Fc and C3 receptors but not mature cells (MGI+D-) was more weakly inducible by MGI for lysozyme and was not inducible by any of the other compounds. A third type of clone (MGI-D) MGI for receptors or mature cells. One of four MGI-D- clones was induced to synthesize but not secrete lysozyme by dexamethasone together with sodium butyrate, but there was no lysozyme induction by MGI or any of the other compounds separately. The different clones maintained their different properties for at least 6 months in culture. The results indicate that clones with different hereditary blocks in the ability to be induced to differentiate by specific compounds can be used to dissect the process of myeloid cell differentiation, that the sequence of differentiation is induction of Fc and C3 receptors leads to lysozyme leads to mature cells, and that there are separate controls for these developmental steps.
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PMID:Control of lysozyme induction in the differentiation of myeloid leukemic cells. 101 12

A mutant of Escherichia coli is described whose cells show a spherical or irregular morphology, associated with leakage of beta-galactosidase and other intracellular proteins. The expression of the morphologic abnormality is most marked when the mutant is grown in rich media and is suppressed by D-alamine, D-serine, D-glutamate, or glycine supplementation. D-Alanine is the most effective amino acid supplement, half maximally supressing this anomalous property at a concentration of 75 mug/ml, as measured by the reduction in beta-galactosidase released from the cells. The mutant is more sensitive to penicillin G, D-methionine, and D-valine and it is relatively resistant to lysozyme. These phenotypic abnormalities are likewise corrected by the above supplementations. The relative rates of peptidoglycan synthesis in mutant and parent, grown under restrictive conditions, were measured both in vivo and in vitro by rates of incorporation of L-[14-D]alanine and uridine-5'-diphosphate-N-acetyl-D-[1-15C-A1-glucosamine, respectively. There is not metabolic block in the biosynthesis of uridine-5'-diphosphate-N-acetyl-muramyl-pentapeptide as shown by enzymic analysis and the lack of accumulation of uridine-5'-diphosphate-N-acetylmuramyl-peptide precursors. These preliminary studies suggest that the mutant possesses a defect in the biosynthesis of peptidoglycan although the exact lesion has not yet been established.
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PMID:D-Alanine-requiring cell wall mutant of Escherichia coli. 109 98

The DNA-dependent syntheses of different enzymes of the bacteriophages T3 and T7 were studied in an Escherichia coli system in vitro with respect to the optimal Mg2+ concentration and its interdependence with substituting (e.g. spermidine) and complexing agents (e.g. phosphoenolpyruvate). The following results were obtained. 1. The optimal conditions for the syntheses of the different enzymes were not identical. The optima for RNA polymerase synthesis were 8 mM Mg2+, 10 mM P-pyruvate and 3 mM spermidine; for S-adenosyl-L-methionine cleaving enzyme synthesis, 6 mM Mg2+, 6 mM P-pyruvate and 3 mM spermidine; and for lysozyme synthesis, 13-18 mM Mg2+, 28 mM P-pyruvate and 3-0 mM spermidine. 2. The optimal conditions for the synthesis of analog enzymes (RNA polymerases and lysozymes) from the two templates were identical with experimental error. 3. Mg2+ and spermidine substituted for each other in relation to the number of their charges. 4. The apparent complexing of one Mg2+ molecule required the addition of 3-5 P pyruvate molecules. 5. Under the optimal conditions the enzyme-synthesizing activity was higher by more than a factor of 10 compared to previously described systems.
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PMID:The interdependence of magnesium with spermidine and phosphoenolpyruvate in an enzyme-synthesizing system in vitro. 126 43

24 di-, tri-, and tetrapeptides have been synthesized as a start of a systematic study of the structural requirements for chemotactic activity and lysosomal enzyme-releasing ability in rabbit neutrophils. All but two of them are N-formyl methionyl peptides. Using the method of Zigmond and Hirsch (10), two representative peptides, F-Met-Leu-Phe and F-Met-Met-Met, were shown to stimulate directed, as well as, random locomotion; thus, they were truly chemotactic. The various peptides showed a wide spread in activity. F-Met-Leu-Phe, the most active peptide studied, had an ED50 for induced migration of 7 X 10(-11) M and for lysozyme and beta-glucuronidase release of 2.4 X 10(-10) M and 2.6 X 10(-10) M, respectively; the least active, Met-Leu-Glu was 26 million times less active in these respects. The relation of activity to structure is exceedingly specific, very small changes in structure making large changes in activity. Moreover, this specificity exhibits a definite regularity and pattern; the activity of a given peptide depends not only on its constituent amino acids but on the position of the amino acid in the peptide chain. Most striking in this last regards is the high activity conferred by phenylalanine when it is in the carboxyl terminal position of a tripeptide, whereas, as the second amino acid from the NH2 terminal end whether in a tripeptide or a dipeptide, it contributes no more to the activity than other amino acids with hydrophobic side chains such as leucine or methionine. The high activity and the specificity and nature of the structural requirements strongly suggest that the primary interaction of peptide and neutrophil leading to either chemotaxis or lysosomal enzyme release is a binding of the peptide with a stereospecific receptor on the neutrophil surface. Whether all chemotactic factors act through the same receptor is not known. An essentially exact correlation exists between the concentrations of the various synthetic peptides required to induce migration and their ability to induce release of lysozyme or beta-glucuronidase. This implies that these two neutrophil functions are triggered by teh same primary interaction; possibly, the binding of the peptides to the same putative receptor. A higher concentration of a given peptide is required to stimulate lysosomal enzyme release than a corresponding migratory response. A slightly but significantly higher concentration of peptide is required to induce beta-glucuronidase secretion than lysozyme release.
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PMID:The structure-activity relations of synthetic peptides as chemotactic factors and inducers of lysosomal secretion for neutrophils. 126 85

The addition of cationic proteins such as lysozyme, ribonuclease and cytochrome C enhanced the beta-lactam-induced bacteriolysis of staphylococci measured as release of wall label or by optical density. The treatment of staphylococci with penicillin plus cytochrome C resulted in a reduced viability of bacteria compared with those treated with penicillin alone. The wall autolysis and the penicillin-induced bacteriolysis of staphylococci were enhanced by the lysosomal enzyme cathepsin C. The penicillin-induced bacteriolysis was also enhanced by the D-amino acids D-alanine and D-methionine, while the comparable L-amino acids did not reveal any activity. On the other hand, some polyanionic substances were able to suppress the penicillin-induced bacteriolysis. Radiochemical and electron microscopic studies revealed the participation of bacterial wall autolysins in the first steps of degradation processes of staphylococcal walls within murine bone marrow-derived macrophages.
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PMID:The modulation of the bacteriolytic effect of beta-lactam antibiotics by non-antibiotics. 129 43

As a part of a research programme aimed at studying structure activity relationships in the field of chemotactic peptides, modified analogs of the chemoattractant N-formyl-L-methionyl-L-leucyl-L-phenylalanine (FMLP) were examined for their capacity to activate several functions of human neutrophils. 4-Aminotetrahydrothiopyran-4carboxylic acid (Thp) and 2-aminoindane-2-carboxylic acid (Ain) were chosen as achiral, conformationally restricted amino acids suitable for mimicking the external Met and Phe residues of FMLP-OMe. The replacement of both produces a high locomotion activity, greater than the parent peptide; in contrast, the two Thp-containing analogs induce neither superoxide production nor lysozyme release. From these results we can hypothesize two different signal transduction systems: one which provides for movement, the other for superoxide generation and granule enzyme release.
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PMID:New chemotactic peptide analogs with high biological activity for human neutrophils. 132 22

The poliovirus nonstructural proteins 2B, 2C, 2C3A, 2C3AB, 3A, and 3AB have been cloned and efficiently expressed in Escherichia coli cells. Each individual protein, or combinations of some of them, were cloned using polymerase chain reaction techniques and correspond to the genuine poliovirus protein plus an additional methionine. The system used to express them uses pET vectors containing the promoter of gene 10 of phage T7. Expression of protein 2C in BL21 (DE3) pLysS cells, which express the T7 lysozyme, is not toxic, and the bacteria synthesize this protein for several hours after induction. In contrast, the expression of proteins 2B, 3A, or 3AB is not tolerated by BL21 (DE3) pLysS cells which could make them only for a limited period of time. Protein 3AB was particularly toxic and induced a rapid lysis of the recombinant clone after its induction with isopropyl-1-thio-beta-D-galactopyranoside alone or with both isopropyl-1-thio-beta-D-galactopyranoside and rifampicin. Further analyses showed that 3AB induced profound modifications in membrane permeability to o-nitrophenyl-beta-D-galactopyranoside, labeled uridine, and nonpermeant translation inhibitors. Cloning and expression of proteins 2B, 3A, and 3AB in BL21 (DE3) cells that do not contain the T7 lysozyme lead to a more sustained expression of these proteins without detectable cell lysis. Changes in permeability to low molecular weight compounds such as radioactive uridine, o-nitrophenyl-beta-D-galactopyranoside, and hygromycin B readily appeared upon induction of 2B, 3A, and 3AB. Our results indicate that the poliovirus nonstructural polypeptides 2B and 3A (or 3AB) are lytic for the bacteria. In fact, both proteins 2B and 3A contain hydrophobic domains in a potential amphipathic helix; this is one characteristic shared with a number of membrane-active peptides.
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PMID:Expression of poliovirus nonstructural proteins in Escherichia coli cells. Modification of membrane permeability induced by 2B and 3A. 132 9

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