Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The reaction between human platelet membrane glucosyl transferase and collagen has recently been proposed as the mechanism for pletelet-collagen adhesion. Collagen contains glucosyl-galactose and galactose side chains linked through the galactose to hydroxylysine. Oxidation of the 6-hydroxymethyl position of the galactosyl residue to aldehydes with galactose oxidase completely abolishes platelet aggregation. This enzymatic modification of collagen can be fully reversed by reduction of the aldehydes formed by NaBH(4) with complete restoration of platelet aggregating ability. Limited digestion with bacterial collagenase abolishes the ability of collagen to aggregate platelets. Removal of the N-terminal telopeptides from collagen with trypsin does not affect platelet aggregation. Tertiary structure of soluble collagen is essential for platelet aggregation. Normal collagen is less effective than lathyritic collagen, which contains only a small number of cross-links. The decreased number of aldehyde groups in the lathyritic collagen are not responsible for the increase in aggregating ability, since reduction with NaBH(4) does not alter platelet aggregation. These results suggest that integrity and accessibility of the galactose receptor site may be crucial for the formation of a ternary collagenenzyme-platelet membrane complex which must precede platelet aggregation.
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PMID:Critical role of the carbohydrate side chains of collagen in platelet aggregation. 434 38

Four-component condensations between amine, carboxyl, isocyanide and aldehyde lead to the formation of N-substituted amides (Ugi, 1962). The present paper describes the use of such condensations for the introduction of chemically reactive groups on to the polyamide backbone of nylon. Polyisonitrile-nylon was synthesized by partial hydrolysis of nylon-6 powder, followed by resealing of the newly formed -CO(2)... NH(2) (-) pairs via a four-component condensation, by using acetaldehyde and 1,6-di-isocyanohexane. Polyisonitrile-nylon could also be converted into a diazotizable arylamino derivative, polyaminoaryl-nylon, by a four-component condensation by using a bifunctional amine, pp'-diaminodiphenylmethane, in the presence of an aldehyde and a carboxylate compound. The versatility of four-component condensations involving the isocyanide functional group of polyisonitrile-nylon allowed coupling of proteins, in an aqueous medium at neutral pH, through either their amino or carboxyl groups. Trypsin and papain were bound to polyisonitrile-nylon through their amino groups by a four-component condensation by using acetaldehyde and acetate; conversely, succinyl-(3-carboxypropionyl-)trypsin, pepsin and papain were coupled through their carboxyl groups in the presence of acetaldehyde and an amine (Tris). Diazotized polyaminoaryl-nylon could be utilized for the immobilization of papain, via the tyrosine residues of the enzyme.
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PMID:Chemically modified nylons as supports for enzyme immobilization. Polyisonitrile-nylon. 461 75

In the preceding paper (Salzer et al., 1980, J. Cell Biol. 84:753--766), evidence was presented that a neurite membrane fraction could be used to stimulate Schwann cell proliferation in culture. In this study, we present evidence that the mitogenic signal by which intact neurites or neurite membranes stimulate Schwann cell proliferation is located at the neurite surface. This conclusion is based on the following observations: (a) stimulation of Schwann cell proliferation by neurons requires direct contact between neurites and Schwann cells, separation of the two cells by a permeable collagen diaphragm 6 microns thick prevents Schwann cell proliferation; (b) treatment of intact neurites with trypsin before preparation of neurite membranes abolishes the ability of these membranes to be mitogenic for Schwann cells; and (c) the mitogenic activity of neurite homogenates is exclusively localized in the particulate rather than the soluble fraction of the homogenate. The mitogenic component on the neurite surface is heat labile, and is inactivated by aldehyde fixation. Preliminary data suggest that the mitogenic effect of neurite on Schwann cells is not mediated by 3',5'-cyclic AMP.
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PMID:Studies of Schwann cell proliferation. III. Evidence for the surface localization of the neurite mitogen. 615 59

The proteolytic activity of terrylytin produced by the culture of Asp. terricola and modified by a water-soluble copolymer of vinylpyrrolidone and acrolein remained unchanged after enzyme modification. Using micro-thin layer chromatography, it was shown that the bulk of the epsilon-amino groups of lysine residues of the protein enter the reaction with the aldehyde groups of the polymeric matrix. The sedimentation and diffusion patterns of the polymerenzyme adduct demonstrated that the molecular weight of the modified enzyme is the total of molecular weights of its constituent components. Evidence from viscosimetry and gel chromatography allowed to develop a hydrodynamic model of the macromolecular product. It was shown that the rate of the enzyme inactivation in the solution calculated from the first order reaction equation depends on the nature of the enzyme electrochemical microenvironment. Under conditions close to physiological ones the rate inactivation constant for terrylytin modified by a neutral polymeric matrix is 10 times less than that for the native enzyme. At the isoelectric point (pH 4,6) a positively charged polymeric form of terrylytin is found to be the most stable one. The pH and temperature optima for casein hydrolysis remained unchanged throughout polymeric modification. The polymeric membrane did not hamper the diffusion during approximation of the substrates (casein and insulin) to the enzyme molecule during the catalytic act, which manifested itself in a constancy of Michaelis curves. Terrylytin modification by a copolymer causes an increase of stability with respect to trypsin proteolysis and a decrease of human blood plasma affinity for the inhibitors. The apparent inhibition constants for modified enzyme forms do not depend on the nature of electrochemical microenvironment and exceed that for native terrylytin 10-fold.
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PMID:[Physico-chemical properties of terrylytin modified by a copolymer based on vinylpyrrolidone]. 615 52

Pituitary cation-sensitive neutral endopeptidase splits peptide bonds on the carboxyl side of hydrophobic amino acids (chymotrypsin-like activity), basic amino acids (trypsin-like activity), and acidic amino acids (peptidyl-glutamyl-peptide bond hydrolyzing activity). All three activities copurify, are inhibited by cations, and reside in a single high-molecular weight soluble protein complex. Treatment with sodium dodecylsulfate and 2-mercaptoethanol dissociates this complex into five low-molecular weight components. Incubation of the complex at 37 degrees C in buffers of high ionic strength produces aggregation and progressive loss of all three activities. Experiments with inhibitors and activators indicate that the three activities are catalyzed by distinct components. Benzyloxycarbonyl-glycyl-glycyl-leucinal, a peptide aldehyde transition state analog of the substrate used to measure the chymotrypsin-like activity, exclusively inhibits that activity (Ki = 2.5 x 10(-4) M), while markedly activating the trypsin-like activity. The trypsin-like activity is inhibited by leupeptin (Ki = 1.2 x 10(-6) M) and by sulfhydryl blocking agents, and activated by thiols, suggesting that this activity is due to a thiol protease. The peptidylglutamyl-peptide hydrolyzing activity is activated almost 10-fold by low concentrations of sodium dodecylsulfate, inhibited by bovine serum albumin, and suppressed at high enzyme concentrations, suggesting that this component readily interacts with other proteins, including the complex itself. The results indicate that cation-sensitive neutral endopeptidase is a multicatalytic protease complex whose distinct proteolytic activities are associated with separate components of this high-molecular weight protein.
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PMID:Evidence that pituitary cation-sensitive neutral endopeptidase is a multicatalytic protease complex. 633 56

Two forms of cytochrome P-450 have been purified to electrophoretic homogeneity from hepatic microsomes of rabbits treated with imidazole. Several criteria indicate that the cytochrome of higher electrophoretic mobility is identical with ethanol-inducible isozyme 3a. "Imidazole-3a" and "ethanol-3a" exhibit the same chromatographic characteristics and have identical electrophoretic mobilities upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Furthermore, the two protein preparations have the same absorbance maxima and absorption coefficients in the oxidized, reduced, and reduced-CO states. A single immunoprecipitin band exhibiting complete identity was observed upon reaction of imidazole-3a and ethanol-3a with the immunoglobulin G fraction from sheep immunized with the latter protein. The amino acid composition and first 10 residues of the amino terminus of the two protein preparations are indistinguishable, as are the high-performance liquid chromatographic maps of the peptides obtained upon cleavage with trypsin, Staphylococcus aureus V8 protease, or Lys C endoproteinase . Furthermore, these preparations have very similar activities in the oxidation of ethanol to acetaldehyde and the p-hydroxylation of aniline. Evidence was obtained that the cytochrome of lower electrophoretic mobility isolated from imidazole-treated rabbits is probably identical with isozyme 6; the spectral characteristics, amino acid composition, and carboxyl-terminal sequence are described. As an inducer, imidazole has the advantage over ethanol of being less variable in its effects and requiring a shorter period of treatment. From the resulting liver microsomes, one can readily isolate, in addition to P-450 isozymes 3a and 6, isozymes 3c and 4 as well as epoxide hydrolase.
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PMID:Purification of liver microsomal cytochrome P-450 isozymes 3a and 6 from imidazole-treated rabbits. Evidence for the identity of isozyme 3a with the form obtained by ethanol treatment. 642 1

Circulating met-enkephalin-like immunoreactivity (MLI) rises in man after chlorpropamide and ethanol although the origin and molecular forms of circulating MLI are not well defined. We have studied the response to oral ethanol in conscious and anaesthetised dogs pretreated with chlorpropamide. In conscious dogs MLI rose from a basal level of 29 +/- 7 pg/ml to a peak of 55 +/- 14 pg/ml 10 min after ethanol (P less than 0.001). In anaesthetised animals, following ethanol, plasma MLI rose in caval (35 +/- 6 pg/ml to a peak of 70 +/- 10 pg/ml), in portal (28 +/- 6 pg/ml to 51 +/- 6 pg/ml) and in adrenal blood (897 +/- 316 pg/ml to 1483 +/- 298 pg/ml; P less than 0.001). Biogel P-4 chromatography of caval and portal basal plasma showed 87% of MLI measured coeluted with the synthetic pentapeptide, while chromatography of peak plasma showed that only 65% coeluted with the pentapeptide and the remaining 35% was of larger molecular size. Sephadex G75 chromatography of adrenal vein plasma revealed three peaks of MLI of differing molecular sizes (8 k = 69.7%; 3-5 k = 12.1% and the pentapeptide = 18.2%). Treatment of the column fractions with trypsin and carboxypeptidase B resulted in the generation of new MLI with peaks of approximate molecular sizes 31 k (10.4%), and 18 k (37.1%) in addition to 8 k (40.0%), 3-5 k (5.0%) and the pentapeptide (7.5%). Acetaldehyde involvement in MLI release was investigated. Following acetaldehyde infusion, plasma MLI rose both in caval (35 +/- 9 pg/ml to 86 +/- 8 pg/ml) and adrenal vein (417 +/- 121 pg/ml to 1768 +/- 433 pg/ml) bloods. Thus we have established an animal model which enables further study of the mechanisms of MLI release and characterisation of the molecular forms. The adrenal medulla, unlike the gut, may be an important source of circulating met-enkephalin and acetaldehyde formation an essential intrinsic component of chlorpropamide-ethanol induced met-enkephalin release.
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PMID:Chlorpropamide-ethanol induced met-enkephalin secretion in dogs: release mechanisms and biochemical characterisation. 666 30

The fate of s.c. implants of fibrous, trypsin-purified human dermal collagen and collagen cross-linked with formaldehyde and glutaraldehyde has been studied in rats. Dermal collagen, and untreated skin implants, underwent resorption associated with a pronounced round-cell reaction. While collagen implants cross-linked with solutions of 0.04% and 0.08% formaldehyde became reduced in size, those cross-linked with 1% formaldehyde and 0.01%, 0.02% and 0.04% glutaraldehyde, although undergoing some collagen remodelling, retained their original size over the 25-week period of study. At 5 weeks the aldehyde cross-linked implants showed their greatest cellularity, reaching a lower, more stable cell population by 18 weeks. More round cells were seen at 5 weeks, particularly after formaldehyde cross-linking, than a later times when few were present. The results indicate that aldehyde-stabilized preparations of heterograft dermal collagen could have applications in the repair of tissue defects in man.
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PMID:Effect of aldehyde cross-linking on human dermal collagen implants in the rat. 677 96

A Sepharose derivative containing a peptide aldehyde, glycylglycyl-L-argininal, the structure of which resembles that of leupeptin was prepared. It was a strong affinity adsorbent for trypsin (EC 3.4.21.4). Bovine trypsin showed higher affinity for this adsorbent at the optimum pH of catalysis (8.2) than at lower pH (5.0). This observation was in good agreement with the pH dependence of the interaction of leupeptin and trypsin (Kuramochi, H., Nakata, H. and Ishii, S. (1979) J. Biochem. 86, 1403-1410). Streptomyces griseus trypsin was also adsorbed while trypsinogen, alpha-chymotrypsin and TLCK-trypsin were not adsorbed. Though anhydrotrypsin, in which Ser-183 is converted to dehydroalanine, was not adsorbed, carbamoylmethylated (His-46) trypsin was adsorbed. Ser-183 proved to be essential for the binding. This adsorbent can also be used as a good tool to study the mechanism of action of leupeptin.
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PMID:A sepharose derivative coupled with a leupeptin-like peptide aldehyde, glycylglycyl-L-argininal, and its use as an affinity adsorbent for trypsin. 679 74

Time-resolved anisotropy was utilized to detect nanosecond segmental motions of the band 3 intramembrane domain. Band 3 at lysine 430 was fluorescently labeled in ghost membranes by fluorescein or eosin maleimide treatment of intact human erythrocytes followed by hypotonic lysis. Single lifetimes for fluorescein (3.8-4.1 ns) and eosin (3.2-3.4 ns) were observed. Phase-modulation measurement of anisotropy decay indicated a segmental motion model, r(t) = exp(-t/tau 1c)[r infinity + (ro-r infinity) exp(-t/tau 2c)], defined by rotational correlation times corresponding to band 3 segmental motion (tau 1c, 30-70 ns) and rapid fluorescein motion in its binding pocket (tau 2c, 200-400 ps), and a residual anisotropy (r infinity, 0.23-0.28) describing hindered fluorescein motion. In PBS at pH 7.4, tau 1c, tau 2c, and r infinity were 44 ns, 307 ps, and 0.24, respectively, predicting a steady-state anisotropy of 0.24, in agreement with the measured value of 0.23. Factors that might influence band 3 structure/dynamics were examined. Whereas pH (range 5-10) had little effect on r(t), [NaCl] addition (0-150 mM) remarkably decreased tau 1c from 68 to 44 ns. The decrease in tau 1c correlated with solution ionic strength, and did not depend on osmolality (studied by mannitol addition), or specific anion interactions (comparing Cl, Br, F, SO4, citrate). The ionic strength effect was not observed in fluorescein-labeled carbonic anhydrase and trypsin-cleaved band 3, suggesting a specific effect on intact band 3. Anisotropy decay was relatively insensitive to external lectin or internal 2,3-DPG binding, but was sensitive to temperature, membrane fluidity, urea denaturation, fluid-phase viscosity, and aldehyde fixation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Anisotropy decay measurement of segmental dynamics of the anion binding domain in erythrocyte band 3. 754 17


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