EC:3.4.21.1 - FACTA Search

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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The specificity of cathepsin G, a neutral proteinase from human spleen, was examined by use of low-molecular-weight substrates. The enzyme was found to hydrolyse several synthetic substrates also hydrolysed by chymotrypsin, but with different kinetic constants. 2. Maximal activity against benzoyl-DL-phenylalanine 2-naphthol ester and azo-casein was in the range pH 7.5-8.0. 3. The sensitivity of cathepsin G to the action of potential inhibitors was determined, and compared with those of bovine chymotrypsin and subtilisin. Cathepsin G showed the characteristics of a serine proteinase, but was less affected by the chloromethyl ketone of tosylphenylalanine than was chymotrypsin. 4. A rabbit anti-(human cathepsin G) serum was raised, and precipitin lines formed in agarose gel were stained for activity of the enzyme. 5. Cathepsin G was shown to be immunologically identical with the chymotrypsin-like enzyme of the azurophil granules of the neutrophil granulocytes.
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PMID:Human cathepsin G. Catalytic and immunological properties. 0 45

The radiation yeilds of unfolding (Gconf) determined by the method of tryptophan fluorescence coincide with the radiation yields of proteolytic inactivation (Gin) for chymotrypsin-like (CT-like) enzymes on irradiation in air, both in solution and in the dry state with futher dissolution at pH7. It can be supposed that the unfolding is the main process determining the proteolytic gamma-inactivation of CT-like enzymes. It was also shown that the transition of chymotrypsin and trypsin gamma-irradiated at acid pH to neutral pH is an additional action, leading to unfolding of part of the molecules.
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PMID:Gamma-irradiated chymotrypsin-like proteins. II. Connection between inactivation and structural changes. 1 28

The physical, chemical, and immunologic properties of a protease from rat skeletal muscle, proposed to function in the degradation of certain intracellular enzymes, are identical to those of a chymotrypsin-like serine protease isolated from peritoneal mast cells. The results of polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and 8 M urea indicate that the two rat proteases have identical mobilities corresponding to a molecular weight of 26,000. The relative amino acid compositions of the proteases are nearly identical. Immunodiffusion tests for crossreaction between the muscle protease and antisera directed toward mast cell protease indicate that the former is immunologically identical to mast cell protease. The first 35 amino-terminal residues of the two enzymes are identical and indicate homology of these proteins to other mammalian serine proteases. The sequence analysis of the protease from muscle was extended for an additional 16 positions, and comparison of this amino-terminal sequence with that of a similar enzyme from small intestine showed approximately 75% sequence identity. In contrast, only 40% of the residues in this region of bovine chymotrypsin A were found at corresponding loci in rat muscle protease. It is concluded that the protease from muscle or mast cells is closely related to the enzyme from small intestine which recently was localized in the "atypical" mast cells of gut mucosa [Woodbury, R. G., Gruzenski, G. M. & Lagunoff, D. (1978) Proc. Natl. Acad. Sci. USA 75, 2785-2789].
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PMID:A major serine protease in rat skeletal muscle: evidence for its mast cell origin. 10 93

Proteolytic activity was observed in extracts from the digestive tract of Mugil auratus and Mugil capito; its maximum occurs at about pH 2 and 9. Activity in the acid range is mainly found in stomach extracts and the enzyme may be considered as similar to pepsin and cathepsins. In the alkaline range, the main activity is recorded in the region of the pyloric caeca. Activities of the trypsin, chymotrypsin, A and B carboxypeptidases and elastase type are found. The effects of pH and temperature on some activities are studied: optimal pH are about 2.6 and 3,4 with pepsin-like activity, between 8,1 and 8,5 with trypsin-like activity and between 7,8 and 8,5 with chymotrypsin-like activity; incubation optimal temperature (pH 2,2) is found between 35 degrees and 40 degrees.
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PMID:[Evidence and properties of digestive proteases in young mugilidae during the first year of life]. 15 49

The purfied antibacterial cationic proteins 1 to 7 (component 1 being the most cationic) of human neutrophil granulocytes have been assayed for enzyme activities. Components 1 to 4 and component 7 exhibited activities on tyrosine esters indicating a chymotrypsin-like activity with a neutral pH optimum. The inhibition of the esterase activity by diisopropyl fluorophosphate and phenylmethyl sulfonylfuoride also indicated the similarity to chymotrypsin, with a serine residue in the active center. In addition, the cationic proteins attacked complex substrates like casein and fibrinogen, suggesting a true proteolytic activity. Since the esterase activity of these proteins is heat-labile but the antibacterial activity against Staphylococcus aureus is heat-stable, it is concluded that the chymotrypsin-like activity is not essential for the microbicidal activity. There is evidence to suggest that the cationic proteins of human granulocytes are present in the cytoplasmic granules and exhibit antibacterial activity after release to the phagocytic vacuole and that, after extrusion from the cell, the proteins might be involved in the mediation of the inflammatory process due to enzyme and cationic activities.
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PMID:Cationic proteins of human granulocytes. IV. Esterase activity. 23 38

A chymotrypsin-like esterase was purified from beef lung. This lysosomal enzyme, not previously characterized, seemed to be composed of two or more forms with molecular weights of about 52 000. It hydrolysed N-benzoyl-DL-phenylalanine beta-naphthol ester at acid and neutral pH; it polymerized L-phenylalanine methyl ester(Phe-OMe) at neutral pH; and it transferred the Phe-residue from Phe-OMe to hydroxylamine at neutral pH. Phenylmethanesulfonyl fluoride, an inhibitor of hydrolytic enzymes with serine in their catalytic site, inhibited this enzyme, but pepstatin, the cathepsin D (EC 3.4.4.23) inhibitor, did not. Sulfhydryl reagents were not required for activity. Macrophages, especially pulmonary alveolar macrophages, were a rich source of this esterase, so it is likely that the enzyme purified from lung came from its macrophages. The esterase hydrolysed and transferred monoamino acid esters, especially those of the aromatic type. Cathepsin C, the dipeptidyl peptide hydrolase (EC 3.4.14.1), acted only on dipeptide esters and amides. Pancreatic chymotrypsin acted on both monoamino acid and dipeptide esters. The chymotrypsin-like esterase did not hydrolyse hemoglobin, casein, or plasma albumin. Thus its proteolytic activity, if present, must be limited to specific substrates, as yet unknown.
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PMID:Macrophage esterase: identification, purification and properties of a chymotrypsin-like esterase from lung that hydrolyses and transfers nonpolar amino acid esters. 24 Apr 26

The chymotrypsin-like proteins (chymotrypsin-CT,chymotrypsinogen-CTG, trypsin-T and modified chymotrypsins-at Met 192-MCT and at Tyr 146, 171-TCT), gamma-irradiated in the presence of air, were investigated. Irradiation leads to the unfolding of the native structure of CT-like proteins both in solution and in the dry state, which was shown by the tryptophan fluorescence, viscosimetry and microcalorimetry. The radiation yield of unfolded molecules Gconf was estimated and compared with (1) the rate constants for the reactions of OH-radicals with the proteins as determined by the p-nitrosodimethylaniline, (2) general stability of protein globule using the difference of the energies of the unfolded and globular conformations and (3) the radiation yield of tryptophan destruction in proteins-G-trp. There was a correlation between the values of Gconf and G-trp. The ratio G-trp/Gconf, which defines the number of destroyed tryptophan residues for one unfolded protein molecule, was constant within the limits of error. For CT, MCT, TCT and CTG, this ratio was on the average 3-2, and for T it was 2-2 residues. These facts point to the role of tryptophan destruction in the unfolding of the native structure of CT-like proteins on irradiation.
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PMID:Gamma-irradiated chymotrypsin-like proteins. I. Structural changes. 30 Jul 18

Human granulocyte elastase (EC 3.4.21.11) differs from hog pancreatic elastase in its specificity for synthetic substrates. Although hydrolyzing peptide bonds adjacent to the carboxyl group of alanine, the granulocyte enzyme prefers valine at the cleaved bond, in contrast to the pancreatic enzyme which prefers alanine. Peptide bonds involving the carboxyl group of isoleucine can be hydrolyzed by the granulocyte enzyme but are not hydrolyzed to any significant extent extent by pancreatic elastase. This difference in specificty could explain the lower sensitivity of the granulocyte enzyme to inhibitors containing alanine analogs, such as the peptide chloromethyl ketones and elastatinal. The human granulocyte chymotrypsin-like enzyme differs from pancreatic chymotrypsin by being able to cleave substrates containing leucine in addition to those containing the aromatic amino acids.
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PMID:Sbustrate specificity of the elastase and the chymotrypsin-like enzyme of the human granulocyte. 40 49

Phenylalanine chloromethyl ketone covalently attached to porous glass beads was synthesized to serve as a solid-phase active site directed inhibitor of chymotrypsin-like proteolytic enzymes. The solid-phase reagent inhibited 20 nmol of bovine chymotrypsin per gram of glass and covalently bound 30 nmol of protein per gram of glass. Sepharose-bound lysine chloromethyl ketones were synthesized to serve as inhibitors of trypsin-like enzymes. Sepharose-MethionylLysyl chloromethyl ketone inactivated and bound about 6.8 nmol of enzyme per ml of settled gel. In a preliminary experiment, a cyanogen bromide cleavage of the methionine residues showed that it should be possible to release all peptides but the peptide containing the active-site histidine. The immobilized trypsin was also reduced, carboxymethylated and digested with chymotrypsin. The potential of the solid-phase approach is in the isolation of a specific serine proteinase and in the sequence determination of residues surrounding the active-site histidine.
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PMID:Solid-phase active site inhibitors of proteinases. 42 26

Several human granulocyte proteinases sensitive to the thermo- and acid-resistant proteinase inhibitor from rabbit serum (TASPI) were revealed, using TASPI-Sepharose 4B. It was found that TASPI inhibits the following human granulocyte proteinases: granules-localized kininogenase and chymotrypsin-like kininase (serine proteinases), elastase-like proteinase and benzoyl arginine ethyl ester esterase, as well as chymotrypsin-like kininase from the post-granule supernatant. These enzymes were compared to known granulocyte proteinases. Some carboxylic kininogenase sensitive to TASPI was identified in the granulocyte membrane debris fraction. The capability to inhibit neutral kininogenase suggests that TASPI is a first natural proteinase inhibitor, which can differentiate granulocyte and blood plasma kininogenases. Using trypsin-Sepharose 4B in the granulocyte post-granule supernatant, the acid-resistant trypsin and chymotrypsin inhibitor was identified. The data obtained are indicative of an antiinflammatory function of TASPI in mammals.
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PMID:[Inhibition of human granulocyte proteinases by a heat and acid-stable proteinase inhibitor from rabbit serum]. 43 77

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