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)

The digestive juice of Achatina balteata, a giant snail of the West African Coast catalyses the hydrolysis of several natural and synthetic compounds. Enzymatic activities on lactose, o- and p-nitrophenyl-beta-D-galactoside, p-nitrophenyl-beta-D-glucoside, p-nitrophenyl-beta-D (and alpha-L-) fucoside, o-nitrophenyl-beta-D-xyloside, p-nitrophenyl-N-acetyl-beta-D-glucosaminide and phenolphthalein-glucuronide have been shown to be present. The effect of pH and substrate concentration on these activities were studied. The galactosidase, glucosidase and fucosidase activities were studied with respect to temperature, heat inactivation, pH stability and incubation with trypsin. Kinetic experiments suggest the presence of several galactosidase activities. This hypothesis is confirmed by specific staining after polyacrylamide gel electrophoresis. These activities showed a broad specificity towards galactosides and glucosides. The digestive juice showed no action on acetyl-L-tyrosine and benzoyl-L-arginine ethyl esters. However a small protease activity was observed on hemoglobine. No lipase activity was found. Sulfatase content was low compared to that of Helix pomatia.
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PMID:[Characterization of some hydrolase activities in digestive juice of Achatina balteata]. 0 61

Exposure of vesicular stomatitis (VS) virions to neuraminidase resulted in loss of their ability to agglutinate goose erythrocytes and to attach to L cells concomitant with hydrolysis of sialic acid. These viral adsorptive functions were also destroyed by tryspsinization. Sialyl transferase resialylation in vitro of neuraminidase-treated VS virions restored their hamagglutinating and adsorptive functions almost to original levels. Erythrocyte and L cell receptors for attachment of VS virions were blocked by fully sialylated fetuin and by VS viral sialoglycopeptides. Smaller VS viral glycopeptides generated by extensive trypsinization were less effective inhibitors of hemagglutination than were larger glycopeptides; neuraminic acid and neuraminosyl lactose had no capacity to inhibit hamagglutination or adsorption of virus to L cells. These data suggest that cellular receptors for viral adsorption recognize sialoglycopeptides of a certain size. Neuraminidase desialylation did not significantly alter the isoelectric point of VS virions. Cells exposed to DEAE-dextran, trypsin, or neuraminidase showed significantly increased capacity to attach fully sialylated but not desialylated VS virions. Neuraminidase desialylation of L cells, Chinese hamster ovary cells, and Madin-Darby bovine kidney cells resulted in enhanced susceptibility to plaque formation by VS virus.
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PMID:Cellular adsorption function of the sialoglycoprotein of vesicular stomatitis virus and its neuraminic acid. 16 24

Specific cell membrane receptors for interferon have been postulated based on a variety of different observations, such as the following: trypsin treatment of monkey-mouse hybrid cells preferentially destroys sensitivity to primate interferon (9); syngeneic mice immunized with human-mouse hybrid cells develop surface-directed antibodies, which only block antiviral action of human interferon (24); interferon covalently bound to Sepharose beads retains its antiviral activity despite the fact that diameters of the beads are several times those of the cells (1,10,19); cells challenged with polyl:C to produce interferon do not develop resistance to viral infection in the presence of interferon antiserum (30). Interferon has a strong and specific affinity for the carbohydrate side chain of cell membrane gangliosides. Preincubation of Sepharose-bound interferon with gangliosides inhibits antiviral activity in the following order of potency: GM2 greater than or equal to GTl greater than GMl greater than or equal to GDla (3). Derivatives of GM2 lacking either terminal N-acetyl-galactosamine or terminal N-acetyl-neuraminic acid are not (or very little) inhibitory; in addition, binding to gangliosides is reversed by N-acetyl-neuraminyl-lactose, the trisaccharide common to all gangliosides. These data clearly demonstrate interferon's specificity for the carbohydrate moiety of the ganglioside molecule (6). Phaeseolus vulgaris lectin, which blocks antiviral action of interferon (4), also prevents binding of interferon to ganglioside-Sepharose affinity columns (2). Many substances of known affinity for gangliosides likewise inhibit action of interferon. These include cholera (15) and tetanus toxins (2), thyrotropin (5,23) and human chorionic gonadotropin (5). Although a more general effect on the state of the membrane or on cellular metabolism by these substances cannot be ruled out, competition for interferon binding sites appears to be the most plausible explanation. Increased sensitivity of certain transformed cells to interferon upon uptake of exogenous gangliosides not only supports the concept that these glycolipids are involved in binding of interferon to the membrane, but furthermore points to the importance of interferon-ganglioside interaction for triggering of the antiviral response (29).
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PMID:Membrane receptors for interferon. 35 55

The concomitant appearance of enterokinase (EK) and trypsin activities in the human intestinal mucosa is indicative of the importance of EK as an activator of trypsinogen and therefore as the key enzyme in protein digestion. Enterokinase can be detected in fetal mucosa from the 26th week of gestation on, paralleling appearance of tryptic activity in meconium. The developmental pattern of EK activity increases with age. Between 26 to 30 weeks of gestation, the EK activity is only 6% and full term babies (40 weeks) 20% of that found in older children. In contrast, lactase studies during development show a lactase activity of only 30% in human fetuses between 26 to 34 weeks of gestation as compared to full term babies. During the same gestational period, sucrase and maltase activities reach 70% of the full term. In addition, the distributional pattern of EK differs from the disaccharidases, showing the highest activity in duodenum and the lowest in ileum, whereas disaccharidases are highest in jejunum with lower activity in duodenum and ileum. Differences in topographical distribution and time of appearance of EK and disaccharidases may be attributed to differences in orgin as well as subcellular localization of these enzymes. It is conceivable that the premature infant, between 26 to 30 weeks of gestation, is better equipped to deal with hydrolysis of alpha-glucosides than of lactose.
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PMID:Developmental pattern of small intestinal enterokinase and disaccharidase activities in the human fetus. 55 25

Soluble extracts of embryonic chick pectoral muscle contain lectin activity. This activity is assayed by agglutination of trypsin-treated, glutaraldehyde-fixed rabbit erythrocytes, and is blocked by specific saccharides such as thiodigalactoside and lactose. Lectin activity of the muscle extracts increased at least 1 order of magnitude between 8 and 16 days of chick embryo development, as the pectoral muscle differentiated. Preliminary purification was achieved by affinity chromatography on Sepharose 4B deprivatized with either asialo-bovine glycoprotein, or p-aminophenyl beta-D-thiogalactopyranoside as the ligand.
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PMID:Lectin activity in embryonic chick muscle: developmental regulation and preliminary purification. 92 47

Galactosyltransferase, which functions as the catalytic component of lactose synthase and in the glycosylation of glycoproteins, has been previously reported to have an absolute dependence on Mn2+ for activity, with a Kd for Mn2+ (10(-3) M) 2 to 3 orders of magnitude greater than the physiological range of Mn2+ concentrations (v 10(-6) M). Reinvestigation of the metal ion dependence of this enzyme has shown that Zn2+, Cd2+, Fe2+, Co2+, and Pr3+ also produce activation, although with lower activities at saturation than that attained with Mn2+. Velocity against metal ion concentration curves for all metals, including Mn2+, are sigmoid, suggesting the presence of two or more activating metal binding sites on the enzyme. The presence of two sites is confirmed by studies using both Mn2+ and Ca2+. While galactosyltransferase is inactive in the presence of Ca2+ alone, at low concentrations of Mn2+ (10(-5) M), enzyme activity is stimulated by Ca2+. A more detailed investigation by steady state kinetics has revealed that there is a tight binding site for Mn2+ (site I: Kd of 2 X 10(-6) M) from which Ca2+ is excluded, and a site at which Ca2+ can replace Mn2+ (site II: Kd for Ca2+ of 1.76 X 10(-3) M), to which metal binding has a specific synergistic effect on UDP-galactose binding, possibly as a result of the formation of an enzyme-Ca2+-UDP-galactose bridge complex. The site I Mn2+, site II Ca2+-activated enzyme has a maximum velocity similar to that of the Mn2+-activated enzyme, and is the enzyme form that must act in lactose synthesis in vivo. A trypsin-degraded form of galactose transferase (galactosyltransferase-T) (Powell, J.T., and Brew, K. (1974) Eur. J. Biochem. 48, 217-228) appears to lack site I and is activated by Ca2+ in the absence of Mn2+.
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PMID:Metal ion activation of galactosyltransferase. 93 1

1. Mitochondria were isolated from developing endosperm of Ricinus communis and were fractionated into outer membrane and inner membrane. The relative purity of the two membrane fractions was determined by marker enzymes. The fractions were also examined by negative-stain electron microscopy. 2. Membrane fractions were sequentially extracted in the following way. (a) Suspension in 0.5M-potassium phosphate, pH7.1; (b)suspension in 0.1M-EDTA (disodium salt)/0.05M-potassium phosphate, pH7.1; (c) sonication in 0.05M-potassium phosphate, pH7.1;(d)sonication in aq. Triton X-100 (0.1%). The membranes were pelleted by centrifugation at 100 000g for 15 min, between each step. Agglutination activity in the extracts was investigated by using trypsin-treated rabbit erythrocytes. 3. The addition of lactose to inner mitochondrial membrane resulted in the solubilization of part of the lectin activity, indicating that the protein was attached to the membrane via its carbohydrate-binding site. Pretreatment of the membranes with lactose before tha usual extraction procedure showed that lactose could extract lectins that normally required more harsh treatment of the membrane for solubilization. 4. Lectins extracted from inner membranes were purified by affinity chromatography on agarose gel. Polyacrylamide-gel electrophoresis of purified samples in sodium dodecyl sulphate indicated that at least part of the lectin present in inner mitochondrial membrane was identical with the R. communis agglutinin of mol.wt. 120 000.
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PMID:Lectins as membrane components of mitochondria from Ricinus communis. 100 61

Extracts of electric organ tissue of Electrophorus electricus contain a saccharide-binding protein, named electrolectin, which agglutinates trypsin-treated rabbit erythrocytes and is specifically inhibited by disaccharides containing nonreducing terminal beta-D-galactosyl residues. Electrolectin seems at least partially membrane-bound but is also found in soluble fractions of homoge-nates from which it can be purfied by affinity chromatography on cross-linked and desulfated agarose (ECD-Sepharose) as a protein of molecular weight 33,000. About 400 mg of electrolectin are present per kg of tissue. It has an affinity for lactose of 1.0 mM-1 and 5.5mM-1 as estimated, respectively, by hapten inhibition and fluorescence spectroscopy. Studies on the distribution of beta-D-galactoside-binding activity in animal tissues reveal particularly high levels in sheletal muscle tissue and in cultures of embryonic skeletal muscle and neuroblastoma cells.
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PMID:A beta-D-galactoside binding protein from electric organ tissue of Electrophorus electricus. 105 13

In a recent series of experiments, we observed that epidermal Langerhans cells (LC) of healthy, non-atopic individuals have the capacity of specifically binding monomeric serum or myeloma IgE. IgE-binding to LC could neither be prevented by pre-incubation of the cryostat sections with monoclonal antibodies (MoAb) against either Fc epsilon RII/CD23 or Fc gamma RII/CD32 nor by the addition of excess amounts of lactose, but could be entirely abrogated by pre-incubation with the anti-Fc epsilon RI MoAb 15-1. A direct testing of the anti-Fc epsilon RI MoAb 15-1 and 19-1 on cryostat sections in an indirect immuno-double-labeling technique showed that, in contrast to eight different anti-Fc epsilon RII/CD23 MoAb, these MoAb react with the majority of CD1a-bearing epidermal cells. At an ultrastructural level, 15-1 immunogold-labeling in the epidermis was confined to the surface of cells exhibiting Birbeck granules. In further experiments, we were able to amplify by polymerase chain reaction (PCR) technology transcripts for the alpha, beta, and gamma chains of Fc epsilon RI from LC-enriched epidermal cells and dermal cells, but not from LC-depleted epidermal cells. Transcripts for the mast cell enzyme tryptase were exclusively found in dermal cell-derived RNA preparations, thus excluding a contamination of the LC-enriched epidermal cell preparations by dermal mast cells. Collectively, these data show that epidermal LC, but not other epidermal cells, express Fc epsilon RI molecules.
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PMID:Fc epsilon RI mediates IgE binding to human epidermal Langerhans cells. 143 Dec 5

The soluble beta-galactoside-specific bovine lectin of subunit 14 kDa has been expressed in vitro by transcription and then translation in a rabbit reticulocyte lysate. The protein thus expressed shows the predicted binding to lactose coupled to Sepharose. Several mutants of the 134 amino acid protein have been expressed and insight gained into (a) the polypeptide length required to form the carbohydrate recognition domain and (b) the functional importance of some of the highly conserved amino acids. The following amino acids have been deleted: 1-9, 1-23, 88-122, 88-134, 107-134, or 124-134. In addition, a frame-shift mutant has been made in which the 23 amino acids at the C-terminal end were completely changed. Among these seven mutants only mutant 1-9 shows carbohydrate binding but with congruent to 30% of the activity of the wild-type protein (as assessed by the percentage of the protein bound to lactose-Sepharose). On the other hand, carbohydrate binding is relatively well preserved (75-90%) in mutant proteins where the C-terminal octapeptide sequence of the bovine lectin has been changed to sequences that resemble those in the chick 14-kDa lectin. When the single tryptophan at position 68 is changed by point mutagenesis to phenylalanine or to a leucine residue, a weak binding activity (congruent to 20%) is retained only with the former. When either of the cysteines 2 or 60 is changed to serine, binding activity is reduced to congruent to 60%, and when both are changed, to congruent to 20% of that for the wild-type protein. The susceptibility of the lectin to oxidative inactivation is unaffected when these 2 cysteines and cysteine 130 are changed to serine individually or in tandem (cysteines 2 and 60). In a second approach we show that the natural protein isolated from bovine heart is protected from proteolysis by trypsin and V8-protease in the presence of saccharide ligand. Although further work is required to identify residues which come into contact with the carbohydrate ligand, these results indicate that almost the complete polypeptide chain is necessary for the integrity of the carbohydrate recognition domain.
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PMID:Soluble 14-kDa beta-galactoside-specific bovine lectin. Evidence from mutagenesis and proteolysis that almost the complete polypeptide chain is necessary for integrity of the carbohydrate recognition domain. 190 Aug 35

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