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)

The precise molecular structure of the antigenic determinant recognized by the T-cell receptor of the CD4-positive cell has not been completely resolved. A major advance in our understanding of this issue has been made by our demonstration of a direct association between an immunogenic peptide and a purified Ia molecule. The most likely and economical hypothesis is that antigen binds directly to an Ia molecule creating the antigenic determinant and that this antigen-Ia complex is recognized by the T-cell receptor. We examined in detail a determinant of hen egg-white lysozyme (HEL) contained in the tryptic fragment HEL(46-61), recognized by T cells in H-2k strains of mice. This peptide binds with a Kd of approximately 3 microM to I-Ak molecules. We have already ascertained that (1) the 10-mer HEL(52-61) is the shortest stimulatory peptide; (2) the Leu56 residue, the only residue different from mouse lysozyme, is responsible for the immunogenicity; (3) the Leu56 and Tyr53 residues are critical for recognition by the T-cell receptor and (4) HEL(46-61) generates multiple determinants when it associated with the I-Ak molecule. If antigen and Ia interact, the antigen must have two features: it must bind to an Ia molecule and also interact with the T-cell receptor. The two sites do not appear to be laterally separable in this peptide and are therefore probably composed of distinct but interspersed amino-acid residues. We have now identified the three residues of HEL(52-61) that contact the T-cell receptor and three other residues that contact the I-Ak molecule. From modelling studies we also propose that HEL(52-61) assumes an alpha-helical conformation as it is bound to I-Ak and recognized by the T-cell receptor.
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PMID:Identification of the T-cell and Ia contact residues of a T-cell antigenic epitope. 243 15

Gene regulation by steroid hormones is mediated through an interaction of the hormone receptors with DNA regulatory sequences called hormone regulatory or responsive elements (HRE). An analysis of the HRE's in the DNA of mouse mammary tumour provirus, human metallothionein IIA gene, chicken lysozyme gene, chicken and Xenopus vitellogenin genes, growth hormones genes, Moloney murine sarcoma provirus, rabbit uteroglobin gene, rat tyrosine aminotransferase gene, rat tryptophan oxygenase gene and rat acidic glycoprotein gene, yields the following consensus for positively modulated glucocorticoid responsive elements (GRE): 5'-GGTACAnnnTGTTCT-3'. This element can also mediate induction by progesterone and probably by androgens, but not by estrogens. Detailed analysis of the DNA protection pattern suggests that a dimer of the hormone receptor interacts with this palindromic 15-mer. In genes that are negatively regulated by glucocorticoids an imperfect copy of the GRE is found, and repression is probably due to competition between hormone receptor and other transcription factors or enhancer binding proteins for binding to overlapping DNA sequences. The receptors without bound hormone are able to interact specifically with DNA in vitro, but binding of hormone is needed for transcriptional activation in vivo. This could be due, at least in part, to changes in the rate parameters of the receptor-DNA interaction induced by binding of the hormone to the receptor. The possible role of precise chromatin organization in glucocorticoid induction is discussed on the basis of the nucleosome phasing found in the LTR region of mouse mammary tumour virus.
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PMID:DNA regulatory elements for steroid hormones. 266 21

An expression plasmid for hen egg-white lysozyme in Saccharomyces cerevisiae was constructed by inserting almost full-length cDNA (about 600 base pairs) encoding hen egg-white pre-lysozyme into a yeast expression vector, pAM 82. The hen lysozyme was expressed under the control of the repressible acid phosphatase promoter of pAM 82 in S. cerevisiae. About half of the expressed lysozyme was secreted in the yeast growth medium as a precise mature protein which exhibited specific activity consistent with that of authentic hen egg-white lysozyme. The replacement of Trp 62 of hen egg-white lysozyme with a tyrosine residue was performed by site-directed mutagenesis using a 19-mer oligodeoxyribonucleotide. The mutant lysozyme with Tyr 62 was found to exhibit enhanced bacteriolytic activity.
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PMID:Conversion of Trp 62 of hen egg-white lysozyme to Tyr by site-directed mutagenesis. 332 1

In a two-step process, esterification and ammonolysis, Glu-35 and Asp-52 in lysozyme were amidated to glutamine and asparagine residues. Since the side chains of glutamine and asparagine are almost equal in size to those of glutamic acid and aspartic acid, these conversions would provide appropriate derivatives to elucidate the catalytic participations of these residues. The enzymatic activities of the resulting [Gln35]lysozyme and [Asn52]lysozyme were found to be less than 4% of that of native lysozyme in a pH range of 3.4-8.0. As these derivatives were inactive, we could determine the dissociation constants (Ks values) for the binding of beta-1,4-linked n-mer, a hexasaccharide of N-acetyl-D-glucosamine, to [Gln35]lysozyme and [Asn52] lysozyme. The values of Ks at pH 5.5 and 40 degrees C were 1.6 X 10(-5) M for [Gln35]lysozyme and 2.7 X 10(-5) M for [Asn52]lysozyme. These values are similar to that for native lysozyme. The results are direct proof for the involvements of Glu35 and Asp52 in the catalytic action of lysozyme. A method for ammonolysis of ester groups in proteins in liquid ammonia is described and will be useful for amidation of carboxyl groups of proteins.
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PMID:Chemical mutations of the catalytic carboxyl groups in lysozyme to the corresponding amides. 375 81

Although protein-derived nominal Ags have, in many instances, been precisely determined, the epitopes recognized by hapten-specific CD4+ T cells responsible for contact sensitization have not been defined. To better understand the nature of the precise epitopes generated after hapten interaction with Langerhans cells (LC), we assessed the ability of TNP-modified I-Ak- and I-Au-binding peptides to activate hapten-specific CD4+ T cells obtained respectively from TNCB-primed C3H (H-2k) and PL/j (H-2u) mice. Using LC as APC, I-Ak-restricted TNP-specific CD4+ T cells proliferated in the presence of the synthetic peptide hen egg lysozyme 52-61 derivatized with TNP at position 56, and less so when TNP was coupled at positions 53 or 59. Similarly, I-Au-restricted TNP-specific CD4+ T cells from PL/j mice were triggered by the synthetic I-Au-binding 13 mer poly(A)-Y5-R6 TNP-modified at position 4, and to a limited extent with TNP coupled in positions 7 or 10. Our results indicate that hapten-modified MHC class II binding nonautologous peptides are recognized by hapten-specific CD4+ T cells and that precise positioning of hapten molecules on peptides binding MHC class II molecules is required for optimal CD4+ T cell recognition. These findings provide insight into the manner in which haptens are recognized by T cells involved in contact sensitivity and should facilitate the study and design of specific therapies for the manipulation of hapten-specific CD4+ T cell responses.
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PMID:Characterization of epitopes recognized by hapten-specific CD4+ T cells. 752 97

Leuconostoc (Lc.) carnosum Ta11a, isolated from vacuum-packaged processed meats, produced a bacteriocin designated leucocin B-Ta11a. The crude bacteriocin was heat stable and sensitive to proteolytic enzymes, but not to catalase, lysozyme, or chloroform. It was active against Listeria monocytogenes and several lactic acid bacteria. Leucocin B-Ta11a was optimally produced at 25 degrees C in MRS broth at an initial pH of 6.0 or 6.5. An 8.9-MDa plasmid in Leuconostoc carnosum Ta11a hybridized to a 36-mer oligonucleotide probe (JF-1) that was homologous to leucocin A-UAL187. A 4.9-kb Sau3A fragment from a partial digest of the 8.9-MDa plasmid was cloned into pUC118. The 8.1-kb recombinant plasmid (pJF8.1) was used for sequencing and revealed the presence of two open reading frames (ORFs). ORF1 codes for a protein of 61 amino acids comprising a 37-amino-acid bacteriocin that was determined to be the leucocin B-Ta11a structural gene by virtue of its homology to leucocin A-UAL 187 (Hastings et al. 1991. J. Bacteriol 173:7491-7500). The 24-amino-acid N-terminal extension, however, differs from that of leucocin A-UAL187 by seven residues. The predicted protein of the ORF2 has 113 amino acids and is identical with the amino acid sequence of the cognate ORF of the leucocin A-UAL 187 operon.
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PMID:Characterization of leucocin B-Ta11a: a bacteriocin from Leuconostoc carnosum Ta11a isolated from meat. 776 96

We have previously described a model of tolerance to self peptides in a mouse transgenic (Tg) line producing secreted hen egg-white lysozyme (HEL). The HEL cDNA was placed under the control of a ubiquitous promoter expressed early in embryogenesis, so that HEL should be present in Tg mice throughout the development of the immune system. Since individual HEL Tg mice express different amounts of serum HEL, we were previously able to show that H-2d mice with HEL blood level > 10 ng/ml are tolerant to HEL and to the immunodominant (ID) peptide 108-116. However, autoreactive T lymphocytes recognizing the HEL subdominant (SD) peptides 74-96 and 1-18 still persist and the SD-specific response disappear at higher blood HEL concentrations. In the present work, we have studied HEL Tg H-2d mice with HEL serum levels < 10 ng/ml (HEL-low Tg animals). We find that 50% of Tg animals with HEL blood concentration < 2 ng/ml are responsive to HEL in T cell proliferation assays, although these responses are lower than those seen in non-Tg control mice. The HEL-specific T lymphocytes react only with 15-mer overlapping peptides encompassing the single H-2d ID region of HEL (residues 102-122); whereas the 9-mer minimal ID peptide 108-116, which strongly triggers non-Tg T cells, is unable to stimulate auto-reactive T cells in vitro from HEL-low Tg mice. Altogether, our results suggest that T lymphocytes specific for the minimal ID peptide are deleted or inactivated, while T cell clones of lower affinity and reacting with epitopes on longer peptides persist. Thus, the high affinity ID peptide-specific T cell clones can be negatively selected even in the presence of low amounts of HEL.
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PMID:Dose-dependent T cell tolerance to an immunodominant self peptide. 805 33

We have examined the interactions of various peptides with the mouse class II major histocompatibility complex molecule I-Ak. The peptides were derived from the model protein hen egg white lysozyme (HEL). The immunodominant peptide of HEL is a 10-mer, residues 52-61. Our previous work established that this sequence contains the key residues for binding and presentation to T cells. Now we show that the binding of this 10-mer sequence resulted in complexes of I-Ak and peptide that, in SDS/PAGE (without boiling the protein), rapidly dissociated from the component alpha and beta chains. The binding interactions were studied in vitro, by incubating purified I-Ak and radiolabeled peptide, or ex vivo, by using antigen-presenting cells incubated with peptides. Peptides with additional residues at either the amino or carboxyl terminus behaved dramatically differently. Complexes of I-Ak with the longer peptides were stable to SDS/PAGE. Very few amino acid additions result in the change from unstable to stable complexes. The important issue here is that when cultured with HEL, antigen-presenting cells selected the HEL peptides containing the 52-61 sequences that favored stability [Nelson, C. A., Roof, R. W., McCourt, D. W. & Unanue, E. R. (1992) Proc. Natl., Acad. Sci. USA 89, 7380-7383]. Also, from other studies, such sequences correlate with a high immunogenicity of the peptide. We conclude that there are structural features of peptides that change the stability of the class II molecule and that are independent of the "core" peptide seen by the T cells.
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PMID:Identification of two distinct properties of class II major histocompatibility complex-associated peptides. 843 83

Lysozyme is expressed in serous, but not mucous, cells of the tracheobronchial glands and thereby constitutes a marker of the serous cell lineage in these glands. To identify DNA regulatory elements and transcription factors mediating the commitment of progenitor cells to the serous cell lineage, we have characterized the regulatory activity and DNA-protein interactions of the 5'-flanking region of the bovine lysozyme gene lys 5a. Results obtained from these studies indicate that although approximately 94 bp of 5'flanking DNA are necessary for high level expression in transient transfection assays, an evolutionarily conserved promoter within 66 bp of the transcription start site is sufficient to confer serous cell-specific expression. Farther upstream, within 6.1 kb of the 5' flanking region, are 4 silencers. Analysis of the serous cell-specific lysozyme promoter by electrophoretic mobility shift assay (EMSA) revealed the presence of binding sites for 3 serous cell nuclear proteins, designated LSF1, LSF2 and LSF3. Binding of LSF2 and LSF3 was localized to a 20-mer subdomain (-50/-30) of the cell-specific promoter using binding competition assays. More accurate identification of the protein binding site(s) was achieved through the use of mutagenesis, which implicated the motif 5' AAGGAAT 3' (-46/-40) in both protein binding and serous cell-specific transcriptional activity. This motif has previously been identified as a binding site for ets protein transcription factors, suggesting that serous cell-specific regulation of lys 5a transcription is partly controlled by the binding of ets-like protein(s) to the motif 5'AGGAAGT3'.
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PMID:Transcriptional regulation of the lysozyme gene in airway gland serous cells. 876 40

Dialysis kinetics measurements have been made to study the effect of ionic strength on the dimerization of lysozyme in acidic solutions that lead to the growth of tetragonal lysozyme crystals. Using glutaraldehyde cross-linked dimers of lysozyme, we have determined that both monomers and dimers can escape from 25,000 molecular weight cutoff dialysis membranes with velocity constants of 5.1 x 10(-7) and 1.0 x 10(-7) s(-1) for the monomer and dimer species, respectively. The flux from 25K MWCO membranes has been measured for lysozyme in pH 4.0 buffered solutions of 1, 3, 4, 5, and 7% NaCl over a wide range of protein concentrations. Assuming that dimerization is the first step in crystallization, a simple monomer to dimer equilibrium was used to model the flux rates. Dimerization constants calculated at low protein concentrations were 265, 750, 1212, and 7879 M(-1) for 3, 4, 5, and 7% NaCl, respectively. These values indicate that dimerization increases with the ionic strength of the solution suggesting that aggregation is moderated by electrostatic interactions. At high protein concentrations and high supersaturation, the dimerization model does not describe the data well. However, the Li model that uses a pathway of monomer <-> dimer <-> tetramer <-> octamer <-> 16-mer fits the measured flux data remarkably well suggesting the presence of higher order aggregates in crystallizing solutions.
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PMID:Monomer concentrations and dimerization constants in crystallizing lysozyme solutions by dialysis kinetics. 888 87

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