EC:3.4.21.4 - FACTA Search

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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)

1. An activator of leucocyte latent collagenase has been extracted from rheumatoid synovial fluid by a preparative method consisting of six steps including precipitation by ammonium sulphate and chromatography on Sephadex G-100, QAE-Sephadex and SP-Sephadex C-50. The purification factor was nearly 1000 and the activator isolated could be shown to have a high degree of homogeneity.--2. Gel chromatography indicated a molecular weight of ca. 60 000.--3. Kinetic studies of the activation and inactivation of the activator during incubation at higher temperatures demonstrated its enzymic nature.--4. Activation of latent collagenase was partially inhibited by iPr2P-F and KCN. Soybean trypsin inhibitor, iodoacetamide, TosLysCH2Cl and TosPheCH2Cl had no effect.--5. Leucocyte latent collagenase was also activated by an excess of trypsin and p-hydroxymercuribenzenesulphonic acid, but only to the extent of about 40% of its activation capacity. Purified neutral protease from human leucocyte granules had no effect on latent collagenase.--6. Several typical substrates for proteases, peptidases, esterases and glycosidases were not attacked by the activator. The possibility that the activator is a known enzyme, such as kallikrein, urokinase or cathepsin B1, could be excluded.
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PMID:Purification and some properties of collagenase proenzyme activator from rheumatoid synovial fluid. 21 83

Phosphorylation by a cAMP-independent rat liver protein kinase of protein substrates containing the structural feature required by mammary gland casein kinase (-Ser-X-Glu/Asp) has been demonstrated. In particular, the Bowman-Birk Soybean trypsin inhibitor, which is characterized, like other legume protease inhibitors, by clusters of acidic residues near the C-terminal side of seryl residue(s), proved to be a good model substrate for the protein kinase. Its phosphorylation, involving the Ser 65 residue, is apparently hindered by the binding of trypsin, while it is stimulated by unfolding induced by reduction and subsequent carboxy-methylation.
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PMID:The use of soybean trypsin inhibitors as phosphorylatable substrates for a rat liver protein kinase. 22 5

Endothelial cells are a major source of kininase enzymes including kininase II. Kininase II is situated along the plasma membrane, not as an ecto-enzyme but as an enzyme synthesized by the endothelial cells themselves. However, it is likely that endothelial cells do more than degrade kinins. These cells are contractile and may possess kinin receptors; a possibility supported by the fact that kinins stimulate endothelial cells to form and release prostaglandin-related substances. In addition, we have found that endothelial cells in culture are reactive with antibodies to alpha 2-macroglobulin. Endothelial cells can hydrolyze [3H]Pro-Phe-Arg-anilide, a kallikrein substrate, but the reaction is not inhibited by soya bean trypsin inhibitor (SBTI) or Trasylol. Possibly kallikrein or a related trypsin-like enzyme is bound to alpha 2-macroglobulin and is not free to react with the inhibitors. Thus, endothelial cells can bind and inhibit kallikrein-like enzymes, degrade kinins and respond to kinin stimulation.
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PMID:Endothelial cells and components of the kallikrein-kinin system. 22 4

The collagenase from the larvae Hypoderma lineatum, with a molecular weight of 24 000 and isoelectric point of 4.1, was obtained in homogeneous form by ion-exchange chromatography. It is stoichiometrically inhibited by diisopropylfluorophosphate. On the other hand it is unaffected by ethylenediaminetetraacetate, p-chloromercuribenzoate, dithiothreitol, N-tosyllysine chloromethyl ketone, N-tosylphenylalanine chloromethyl ketone and ovomucoid trypsin inhibitor. The enzyme which degrades native collagen in its helical parts, has a specific activity on thermally reconstituted collagen fibrils of 150 micrograms collagen degraded x min-1 x (mg enzyme)-1 at 37 degrees C. It hydrolyses casein but has no esterolytic activity characteristic of trypsin, chymotrypsin nor elastase. It has no action on the synthetic peptide 4-phenylazobenzyloxycarbonyl-L-prolyl-L-leucyl-L-glycyl-L-prolyl-D-arginine. The amino acid composition of Hypoderma collagenase indicates a distinct similarity with the serine proteinases of the trypsin family and with another athropode serine collagenase, that of the fiddler crab Uca pugilator. This suggests that eucaryotic collagenases with digestive rather than morphogenic function represent a new category of members of the trypsin family.
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PMID:Chemical and enzymatic characterization of the collagenase from the insect Hypoderma lineatum. 23 30

Protoplasis of Bacillus licheniformis 749/C (a mutant constitutive for penicillinase production) continued to synthesize and release penicillinase in hypertonic growth medium in the presence of trypsin and chymotrypsin at 25 mug each per ml. When the protoplasts were stripped of about half of their membrane-bound penicillinase by pretreatment at pH 9.5 or with a higher level of trypsin, penicillinase activity no longer increased in the presence of the proteases. This effect was immediately eliminated after addition of soybean trypsin inhibitor. These proteases do not significantly inhibit general protein synthesis. Stripped protoplasts of strain 749/C and of uninduced strain 749 (unable to synthesize penicillinase) were incubated with 50 mug of chymotrypsin per ml, and the supernatent fluids were examined immunochemically for peptides derived from the penicillinase chain. Such fargments were found only with the protoplasts capable of synthesizing penicillinase (strain 749/C). The direct detection of the products of protease degradation of a susceptible form of penicillinase provides strong evidence that, in stripped protoplasts of B. licheniformis 749/C, penicillinase synthesis continues in the presence of trypsin or chymotrypsin and that, in these modified membranes, the protease is able to act on an early form of the enzyme that has not yet attained the protease-resistant conformation characteristic of the membrane-bound and exopenicillinases. This finding is discussed in terms of the current models of penicillinase secretion.
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PMID:Further evidence for a partially folded intermediate in penicillinase secretion by Bacillus licheniformis. 23 42

Elastolytic enzyme was purified and crystallized from culture fluid of Flavobacterium immotum No. 9-35. The purified enzyme was homogeneous on polyacrylamide gel electrophoresis. The molecular weight was determined by Sephadex G-100 gel filtration to be 13,000. The isoelectric point was between pH 8.3 and 8.9. The optimum pH of the enzyme was 7.2 for elastolytic activity. The purified enzyme showed not only elastolytic activity, but also non-specific proteolytic activity against various other proteins. Milk-clotting activity was also observed. The enzyme did not act on keratin, collagen, or fourteen amino acid esters, including N-benzoyl-L-alanine methyl ester, N-benzoyl-L-arginine ethyl ester, and N-acetyl-L-tyrosine ethyl ester, which were typical substrates of pancreatic elastase [EC 3.4.21.11], trypsin [EC 3.4.21.4], and chymotrypsin [EC 3.4.21.1], respectively. However, the enzyme selectively hydrolyzed elastin when both elastin and albumin were present in the reaction mixture. The enzyme was inhibited by o-phenanthroline and various heavy metals such as cadmium, lead, zinc, and mercury. Various inhibitors, such as diisopropyl phosphofluoridate, tosyl-L-lysine chloromethyl ketone, tosyl-L-phenylalanine chloromethyl ketone, trypsin inhibitor, iodoacetamide, etc., had no effect on the elastolytic activity.
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PMID:Purification and properties of elastolytic enzyme from Flavobacterium immotum. 23 95

Deuterium exchange at the C(2)-H position of the two histidine residues of native soybean trypsin inhibitor (Kunitz) in 2-H2O was followed by 1-H nuclear magnetic resonance (NMR) spectroscopy. The two histidine residues of soybean trypsin inhibitor exchange at significantly different rates at pH* 5.00, 40 degrees. Half-times observed were: peak H1, t1/2=61 plus or minus 2 days; peak H2, T1/2=24 plus or minus 2 days. Differentially deuterated soybean trypsin inhibitor was cleaved by cyanogen bromide into two fragments each containing one histidine residue. The deuterium content of the histidine residue of each separated fragment was analyzed by 1H NMR spectroscopy. Hisidine-71 in fragment 1-114 showed approximately twice the deuterium content of His-157 in fragment 115-181. These results lead to the assignment of 1H NMR peak H1 to His-157 and peak H2 to His-71. These assignments were extended to the histidine peaks of trypsin-modified soybean trypsin inhibitor by converting the differentially deuterated virgin soybean trypsin inhibitor to the modified form. The correlation of histidine peaks in virgin amd modified soybean trypsin inhibitors was the same as proposed earlier on the basis of pK arguments. The results demonstrate that His-71 is the residue whose pK value is raised from 5.27 to 5.91 on trypsin modification of soybean trypsin inhibitor [Markley, J. L., (1973), Biochemistry 12, 2245].
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PMID:Assignment of the histidine proton magnetic resonance peaks of soybean trypsin inhibitor (Kunitz) by a differertial deuterium exchange technique. 23 87

The hydrogen exchange kinetics of the complex of trypsin-soybean trypsin inhibitor (Kunitz) have been compared to the calculated sum of the exchange kinetics for the inhibitor and trypsin measured separately. The exchange rates observed for the complex are substantially less than the sum of the exchange rates in the two individual proteins. These results cannot be accounted for by changes in intermolecular or intramolecular hydrogen bonding. The decrease in exchange rates in the complex are ascribed to changes in solvent accessibility in the component proteins.
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PMID:Hydrogen exchange kinetics changes upon formation of the soybean trypsin inhibitor-trypsin complex. 23 90

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

The proteases of the larvae of the webbing clothes moth, Tineola bisselliella, were investigated because of this organism's phylogenetic rank as a member of the lower invertebrates, its unique position as one of the relatively few organisms that can digest keratin and its importance as a serious fabric pest. Both the number and nature of different proteolytic enzymes present were investigated and the various activities partially fractionated by ammonium sulphate precipitation and chromatography on DEAE-cellulose and Sephadex G200 columns. A complex mixture of peptidases and proteinases has been found in extracts of whole larvae and has been shown to be associated with the larval digestive tract. The proteinases include metal-chelator-sensitive proteinases (metalloproteinases) and serine proteinases but no SH-proteinases or acid proteinases. The serine proteinases include both trypsin-like and chymotrypsin-like activities. Four major and three minor anionic trypsin-like enzymes and a single major cationic trypsin-like enzyme have been detected. Only a single anionic chymotrypsin-like enzyme appears to be present. The trypsin-like enzymes are unaffected by the naturally occurring proteinase inhibitors, chicken ovomucoid, soybean trypsin inhibitor and lima bean trypsin inhibitor, while the chymotrypsin-like enzyme is inhibited by soybean trypsin inhibitor only. The enzymes resemble the serine proteinases from microorganisms in their pH stability. The peptidases include both aminopeptidase and carboxypeptidase activities and both are present in multiple forms. Sixteen aminopeptidase bands have been detected and all are present in individual larvae. They are not inhibited completely by reagents specific for any of the common active sites, and have different specificity requirements. Two carboxypeptidases have been detected on acrylamide gels and have been completely separated on DEAE-cellulose. No evidence could be found for the existence of any of these proteases as inactive precursors.
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PMID:Resolution of proteases in the keratinolytic larvae of the webbing clothes moth. 24 Mar 46

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