Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.17 (lysozyme)
 21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal and metaplastic gastrointestinal mucosa obtained at surgical resection were studied by light microscopy, using the unlabelled antibody enzyme method for immunohistochemical staining of lysozyme, pancreatic endoproteases, and pancreatic secretory trypsin inhibitor (PSTI). Paneth cells in the mucosa of normal small intestine, gastric mucosa with intestinal metaplasia, and colonic metaplastic mucosa were found to contain anionic trypsin, cationic trypsin, lysozyme, and PSTI immunoreactivity, but not chymotrypsin and elastase immunoreactivity. Normal gastric and colonic mucosa and some goblet cells in the small intestine showed positive PSTI immunoreactivity but no endoprotease immunoreactivity. The presence of immunoreactive trypsin and immunoreactive PSTI in the Paneth cells, which are of secretory type, probably indicates an important extrapancreatic source of these proteins rather than a storage of endocytosed material.
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PMID:Pancreatic endoproteases and pancreatic secretory trypsin inhibitor immunoreactivity in human Paneth cells. 352 12

Using hen lysozyme in which the epsilon-carbons of two methionine residues are enriched with 13C nuclei, we found that there is a subtle difference in the chemical shift of the epsilon-carbon resonances between Met 12 and Met 105 in thermally denatured lysozyme without any reduction of disulfide bonds at pD 3.8, and also in reduced S-alkylated lysozyme at pD 3.8 and 35 degrees C. The difference in the chemical shift was abolished on digestion with TPCK-trypsin and the chemical shifts of both resonances converged to that of Met 12, whose chemical shift is identical to that in the randomly coiled state. Therefore, it is suggested that the chemical shift in the epsilon-carbon resonance of Met 105 is different from that in the randomly coiled state due to an interaction involving Met 105. In order to locate the interaction involving Met 105, fragmentation of the reduced S-alkylated lysozyme into the peptides was carried out by means of chemical cleavage or specific endoprotease digestion. As a result, the local interaction of Met 105 or the residues around Met 105 with eleven residues at the C-terminus of lysozyme is suggested to occur.
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PMID:Detection of a local interaction of hen lysozyme under highly denaturing conditions using chemically 13C-enriched methionine resonance. 953 8

Two-dimensional electrophoresis (2-DE) combined with mass spectrometry has significantly improved the possibilities of large-scale identification of proteins. However, 2-DE is limited by its inability to speed up the in-gel digestion process. We have developed a new approach to speed up the protein identification process utilizing microwave technology. Proteins excised from gels are subjected to in-gel digestion with endoprotease trypsin by microwave irradiation, which rapidly produces peptide fragments. The peptide fragments were further analyzed by matrix-assisted laser desorption/ionization technique for protein identification. The efficacy of this technique for protein mapping was demonstrated by the mass spectral analyses of the peptide fragmentation of several proteins, including lysozyme, albumin, conalbumin, and ribonuclease A. The method reduced the required time for in-gel digestion of proteins from 16 hours to as little as five minutes. This new application of microwave technology to protein identification will be an important advancement in biotechnology and proteome research.
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PMID:A new application of microwave technology to proteomics. 1569 69