EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Adult rabbit zonular fibers maintained in their native condition were treated with collagenase, alpha-chymotrypsin and hyaluronidase, and were observed with the electron microscope. The results obtained were as follows: 1. Collagenase digested the lens capsule, but not the zonular fibers. 2. Long time collagenase action obscured the cell membrane of the lens epithelium and the basal lamina of the ciliary epithelium. 3. Washing with 0.9% NaCl increased the collagenase action on the lens capsule. 4. Alpha-chymotrypsin digested the zonular fibers and the zonular lemalla, but not the lens capsule and the basal lamina of the ciliary epithelium. 5, Hyaluronidase only slightly changed the lens capsule. 6. The vitreous fibers were digested by collagenase, but not by alpha-chymotrypsin or hyaluronidase. Thes results together with the review of recent literature indicate that the zonular fiber has a nature close to that of the microfibril of elastic fiber.
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PMID:Electron microscopic studies on zonular fibers. II. Changes of the zonular fibers after the treatment with collagenase, alpha-chymotrypsin and hyaluronidase. 16 41

Kunitz bovine trypsin inhibitor gave with alpha-chymotrypsin a stoichiometric complex stable at neutral pH. The complex has been characteristized by amino acid composition, molecular sieving and zone electrophoresis. Complete dissociation occurred at pH 4.0 as shown by gel filtration, alpha-Chymotrypsin was displaced from the complex by trypsin either in solution or by affinity chromatography on trypsin-Sepharos: alpha-chymotrypsin was recovered in the filtrate (yield about 100%) and the inhibitor was eluted from trypsin-Sepharose with 0.1 M HCl (yield: 83%). Lysine-15 of the inhibitor was shown to be involved in the interaction between alpha-chymotrypsin and the inhibitor. When the complex was maleylated, the maleylated chymotrypsin-bound inhibitor was displaced by affinity chromatography on trypsin-Sepharose. Teh recovered derivative was oxidized, subjected to tryptic hydrolysis and the products separated by peptide mapping and analyzed. The peptides were compared with those obtained with non-maleylated inhibitor and fully maleylated free inhibitor. In the fully maleylated inhibitor, the four lysyl residues of the molecule were blocked but in the maleylated chymotrypsin-bound inhibitor, Lys-15 was unmodified in contrast to Lys-26, Lys-41 and Lys-46; therefore Lys-15 is shielded by chymotrypsin in the complex. On the other hand, when inhibitor with a selectively reduced carboxamidomethylated Cys-14-Cys-38 dislufide bridge was allowed to react with chymotrypsin, cleavage occurred not only at Tyr-21, Tyr-35 and Phe-45 but also at Lys-15, cleavage not observed in the case of the fully oxidized inhibitor. This result shows that under particular conditions the bond Lys-15-Ala-16 can be the substrate for chymotrypsin and the side chain of Lys-15 can be inserted in the chymotrypsin specificity pocket. Apparently the contact area of inhibitor with chymotrypsin seems to be similar to that with trypsin [J. Chauvet and R. Acher (1967) J. Biol. Chem. 242, 4274-4275].
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PMID:The reactive sites of Kunitz bovine-trypsin inhibitor. Role of lysine-15 in the interaction with chymotrypsin. 23 47

Carbobenzoxy-L-phenylalanyl-triethylenetetraminyl-Sepharose (Z-L-Phe-T-Sepharose) was found to be an effective affinity adsorbent for bovine pancreatic alpha-chymotrypsin [EC 3.4.21.1] as well as neutral [EC 3.4.24.4] and alkaline [EC 3.4.21.14] proteases of Bacillus species. These enzymes were adsorbed in the neutral pH range. alpha-Chymotrypsin was recovered by elution with 0.1 A acetic acid while neutral subtilopeptidase was eluted with 0.5 M NaCl at pH 0. Thermolysin and subtilisin were found in eluates with 1.5 and 2.0 M guanidine-HCl at pH 7.2, respectively. The resulting enzymes appeared homogeneous on disc-electrophoresis and showed higher specific activities than those of crystalline or highly purified preparations available commercially. Modifications of the active site serines of alpha-chymotrypsin and subtilisin by treatment with diisopropylfluorophosphate (DFP) or phenylmethanesulfonyl fluoride (PMSF) resulted in loss in their binding abilities to the adsorbent. Complexes of porcine alpha2-macroglobulin with each of these four enzymes and that of Streptomyces-subtilisin inhibitor (S-SI) with subtilisin were also found in nonadsorbed fractions.
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PMID:Affinity chromatography of alpha-chymotrypsin, subtilism, and metalloendopeptidases on carbobenzoxy-L-phenylalanyl-triehtylenetetraminyl-sepharose. 23 66

Digestion of bovine colostral whey with trypsin or chymotrypsin caused a progressive loss of the complement-mediated bactericidal activity of naturally-occurring colostral antibodies of E. coli 0111. Bactericidal activity was associated primarily with IgG1 immunoglobulin and to a lesser extent with IgM. Chymotrypsin preferentially attacked IgM, destroying its antibacterial activity and producing an apparent decrease in its mol wt. Trypsin preferentially attacked IgG1, but loss of antibacterial activity was in this case not accompanied by a decrease in molecular weight. Using colostral whey with antiperoxidase activity it was shown that the kinetics of loss of specific antibody activity were similar to those of loss of bactericidal activity. It is therefore suggested that trypsin may cause a loss of specific antibody activity of colostral IgG1 without cleaving the immunoglobulin molecule.
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PMID:The effect of trypsin and chymotrypsin on the bactericidal activity and specific antibody activity of bovine colostrum. 32 42

Limited proteolysis of bovine colostral IgG1 by trypsin caused loss of specific antibody activity but column chromatography showed that relatively little cleavage into fragements had occurred. Polyacrlamide-agarose SDS electrophoresis of the 2-mercaptoethanol-treated digest revealed, however, that extensive cleavage of light chains had occurred even though most of the material before reduction had a mol. wt close to that of undigested IgG1. Although a Fab-type fragment was detected in the digest by immunoelectrophoresis it appeared to be only a minor component. Chymotrypsin had little effect upon either the structure or antibody activity of IgG1. These findings may explain the effect of trypsin and chymotrypsin on the bactericidal activity of colostral antibodies.
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PMID:The effect of limited proteolysis by trypsin and chymotrypsin on bovine colostral IgG1. 32 43

The exposure of proteins at the surface of isolated chromatophores (i.e., the cytoplasmic face of intracytoplasmic membranes) of Rhodospirillum rubrum was studied by proteolysis as well as by enzymatic iodination with 125I. Analyses were performed after polyacrylamide gel electrophoresis of chromatophore proteins solubilized with sodium dodecyl sulfate. Reversible light induced proton uptake by partially digested chromatophores was used as a criterion for the integrity of the permeability barrier and thus, as evidence for proteolysis only of proteins outside of this barrier. Trypsin or alpha-chymotrypsin completely cleaved four proteins which were identified as the heavy subunit of succinate dehydrogenase (Mr = 64 000), the alpha- and beta-subunits of coupling factor ATPase (Mr = 55 000 and 51 000), and the heavy (H) subunit of photochemical reaction centers (Mr = 31 000). alpha-Chymotrypsin, in addition, attacked the protein (Mr = 9000) of light harvesting bacteriochlorophyll preparations. By enzymatic iodination, the same proteins were labeled as were digested with trypsin or alpha-chymotrypsin except for the protein of Mr = 9000. In addition, significant label was incorporated into three more proteins, one of which (Mr = 41 000) could be identified as a major protein of the cell wall. The complete cleavage with trypsin of four proteins exposed at the surface indicated that isolated chromatophores were homogeneously oriented regardless of the method employed for cell breakage, i.e., passage through a French pressure cell at different forces or osmotic shock of sphaeroplasts.
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PMID:Proteins exposed at the surface of chromatophores of Rhodospirillum rubrum: the orientation of isolated chromatophores. 41 10

1. A trypsin inhibitor from the tick Boophilus microplus was purified by ion-exchange chromatography and gel filtration. 2. It is pure by the criteria of constant specific activity on gel filtration and by electrophoresis on polyacrylamide gels containing sodium dodecyl sulphate. 3. The protein undergoes reversible polymerization, dissociating at low pH. 4. The apparent molecular weight measured by electrophoresis on polyacrylamide gels containing sodium dodecyl sulphate is 18,500. 5. Inhibition of trypsin occurs by formation of a 1 :1 molar complex. 6. Chymotrypsin is also inhibited, though the dissociation constant of the complex formed is larger than with trypsin. The protein possesses independent sites for the inhibition of chymotrypsin and trypsin. 7. The inhibitor preparation gives an immediate hypersensitivity reaction on intradermal injection into cattle that have been exposed to the tick. The allergenic activity is due to the inhibitor protein itself and not to contaminating material, since the two activities were not separated during purification or in two subsequent affinity-chromatography procedures. 8. The hypersensitivity reaction is a true immunological response, since it is found in almost all cattle that have been exposed to the tick, but not in unexposed animals. In addition, passive cutaneous anaphylaxis can be demonstrated with serum from exposed, but not from unexposed, animals.
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PMID:Characterization of a proteolytic-enzyme inhibitor with allergenic activity. Multiple functions of a parasite-derived protein. 42 80

1. Chymotrypsin treatment of chloroplast membranes inactivates Photosystem II. The inactivation is higher when the activity is measured under low intensity actinic light, suggesting that primary photochemistry is preferentially inactivated. 2. Membrane stacking induced by Mg2+ protects Photosystem II against chymotrypsin inactivation. When the membranes are irreversible unstacked by brief treatment with trypsin, Mg2+ protection against chymotrypsin inactivation of Photosystem II is abolished. 3. The kinetics of inactivation by chymotrypsin of Photosystem II indicates that membrane stacking slows down, but does not prevent, the access of chymotrypsin to Photosystem II, which is mostly located within the partition zones. 4. It is concluded that a partition gap exists between stacked membranes of about 45 A, the size of the chymotrypsin molecule. 5. The kinetics of inhibition of the chloroplast flavoprotein, ferredoxin-NADP reductase, bt its specific antibody is not affected by membrane stacking. This indicates that this enzyme is located outside the partition zones.
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PMID:Partition zone penetration by chymotrypsin, and the localization of the chloroplast flavoprotein and photosystem II. 44 96

1. Sonication of bovine liver microsomes completely solubilized the membrane-bound lysophospholipase II (EC 3.1.1.5). Co-chromatography with purified 125I-labelled lysophospholipase indicated that the enzyme was solubilized from microsomes in a lipid-free state. 2. In the presence of residual microsomal membranes, the solubilized lysophospholipase could only be partly degraded by trypsin (EC 3.4.21.4). Therefore, trypsin could not be used to study the transmembrane disposition of lysophospholipase in intact microsomes. 3. Chymotrypsin (EC 3.4.21.1) destroyed the solubilized lysophospholipase activity, even in the presence of residual microsomal membranes. 4. Lysophospholipase in intact microsomal vesicles was resistant to chymotrypsin digestion. 5. When microsomal vesicles were made leaky with lysophosphatidylcholine, chymotrypsin destroyed more than 95% of the lysophospholipase activity. 6. It is concluded from these experiments that at least the active center of lysophospholipase is located at the luminal side of the bovine liver microsomal membrane.
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PMID:Studies on the transverse localization of lysophospholipase in bovine liver microsomes using proteolytic enzymes. 45 32

Swine fever is conceived as a disorder of the enzyme systems, that are controled by serine proteases. The virus is replicated in the cells of the lymphomycoid complex, whereby the production of a chymotrypsin is induced. In swine fever the lymphatic glands and the lymph flow are increased. Fifteen normal pigs had chymotrypsin contents in the lymph of the body lymphnodes of 0,4 U/l, nine pigs suffering hog cholera 1,5 U/l. In the intestinal lymphnodes the chymotrypsin concentration was normally 2,9 U/l and in swine fever 3,5 U/l. Chymotrypsin which is present may induce the production of further chymotrypsin. Fourteen pigs suffering from swine fever showed increased peritoneal fluids (50 to 120 ml), whereby chymotrypsin was found in 5 cases. The lymphflow was assumed to be five times higher, when compared to control animals. This entails a seven-fold increase of chymotrypsin which enters the blood stream. In some cases the virus titers are higher in the lymph specimen and peritoneal fluids than in the serum. Increase of chymotrypsin concentration reduces the resistance of the virus in the lymph. Obviously the virus is spread in the body migrating with the lymph flow. However, the increasing chymotrypsin concentration seems to inactivate the virus and lymph retains its defense character. Detection of the fluorescent antigen is correlated with the evidence of the proteolytic precipitating antigen. After infection with the virus of swine vesicular disease increase of chymotrypsin is also evidenced in the lymph but to a lower degree. Therefore in swine fever the lymphnodes cause chymotrypsin formation to an extent which may explain the pathophysiological disorders in those physiological systems, that are controled by serine proteases.
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PMID:[Studies on the increase of weights of lymphatic glands, of lymph and peritoneal fluid and their contents of chymotrypsin and virus in pigs suffering hog cholera (author's transl)]. 50 45

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