Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A soluble hemagglutinin/protease produced by Vibrio cholerae, which has previously been shown to hydrolyze fibronectin and ovomucin and to cleave lactoferrin and the A subunit of the heat-labile enterotoxin of Escherichia coli, appears to be a zinc metalloendopeptidase. Both its hemagglutinative and protease functions are inhibited by chelating agents, including Zincov, a hydroxamic acid derivative specifically designed to inhibit zinc metalloproteases. Thermolysin, a known zinc-containing protease, also causes hemagglutination of responder chicken erythrocytes. This activity is inhibited by Zincov, which does not affect the hemagglutination activity of trypsin and pronase. The hemagglutinin/protease is active on furylacryloyl-Gly-Leu-NH2, a synthetic substrate for thermolysin and other similar proteases. The hemagglutination activity of V. cholerae-infected or cholera toxin-treated infant rabbit intestinal fluid is not inhibited by Zincov, which suggests that this activity is not due to the hemagglutinin/protease, as formerly proposed.
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PMID:Vibrio cholerae soluble hemagglutinin/protease is a metalloenzyme. 641 20

The complete amino acid sequences of two lysine-specific zinc metalloendopeptidases (EC 3.4.24), Grifola frondosa metalloendopeptidase (GFMEP) and Pleurotus ostreatus metalloendopeptidase (POMEP), from the fruiting bodies of these two edible mushrooms have been established based on the sequence information of the peptides generated from the reduced and alkylated GFMEP and POMEP by proteolytic digestions using GFMEP, trypsin, and other proteinases as well as by several chemical cleavages. From the sequences, it was found that GFMEP and POMEP were polypeptides composed of 167 and 168 amino acid residues, from which their molecular weights were calculated to be 18,040.5 and 17,921.3 in accord with the observed (M+H)+ values of 18,028 and 17,927, respectively, as determined by matrix-assisted laser desorption ionization-time of flight mass spectrometry. Two disulfide bonds in GFMEP were found to link Cys5 to Cys75 and Cys77 to Cys97. An unusual post-translational modification of GFMEP was corroborated to be a partial attachment of a single mannose to Thr42. Comparison of the sequences revealed that overall identity between the enzymes was 61.3%. Although a highly homologous sequence was not found in sequence data bases except for a consensus zinc-binding sequence, HEXXH, both metalloendopeptidases somewhat resembled a family of metalloproteinases categorized as deuterolysin. These proteases together with GFMEP and POMEP do not have conserved third and/or fourth liganding amino acid residues seen in metzincin or thermolysin superfamily proteins and belong to a novel zinc metalloendopeptidase superfamily.
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PMID:Amino acid sequences of metalloendopeptidases specific for acyl-lysine bonds from Grifola frondosa and Pleurotus ostreatus fruiting bodies. 937 78

Proteomic analysis typically has been performed using proteins digested with trypsin because of the excellent fragmentation patterns they produce in collision induced dissociation (CID). For analyses in which high protein coverage is desirable, such as global monitoring of post-translational modifications, additional sequences can be seen using parallel digestion with a second enzyme. We have benchmarked a relatively obscure basidomycete-derived zinc metalloendopeptidase, Lys-N, that selectively cleaves the amide bond N-terminal of lysine residues. We have found that Lys-N digestion yields peptides with easily assigned CID spectra. Using a mixture of purified proteins as well as a complex yeast lysate, we have shown that Lys-N efficiently digests all proteins at the predicted sites of cleavage. Shotgun proteomics analyses of Lys-N digests of both the standard mixture and yeast lysate yielded peptide and protein identification numbers that were generally comparable to trypsin digestion, whereas the combination data from Lys-N and trypsin digestion substantially enhanced protein coverage. During CID fragmentation, the additional amino terminal basicity enhanced b-ion intensity which was reflected in long b-ion tags that were particularly pronounced during CID in a quadrupole. Finally, immonium ion peaks produced from Lys-N digested peptides originate from the carboxy terminus in contrast to tryptic peptides where immonium ions originate from the amino terminus.
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PMID:Proteomic analyses using Grifola frondosa metalloendoprotease Lys-N. 1919 97