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)

In trypsin-treated spinach chloroplasts there is no linear electron flow from water to potassium ferricyanide. The chlorophyll aII reaction, however, is still active but insensitive to 3-(3, 4-dichlorophenyl)-1, 1-dimethylurea. From this we conclude that ferricyanide and trypsin together stimulate a mini-cycle in photosystem II.
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PMID:The chlorophyll aII reaction in trypsin-treated spinach chloroplasts in the presence of potassium ferricyanide. 13 43

An isolation procedure is worked out and properties are studied of CF1 ATPase from chloroplasts with changed submolecular structure. The enzyme, isolated by chlorophorm treatment, produced Ca-dependent ATPase activity in water solution. As compared with the enzyme isolated by well known Lien and Racker method, the enzyme preparation obtained is slightly activated by heating, is not activated by trypsin and has a lesser ability to recover ATP synthesis in EDTA-treated chloroplasts. Purification on DEAE-Sephadex produced the enzyme preparation free of delta-subunit. Chlorophorm treatment is suggested to change submolecular protein structure, in particular, loosening of the link of delta-subunit with other enzyme subunits. The data obtained suggest that delta-subunit participates in the binding of CF1 ATPase with chloroplast membrane.
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PMID:[Isolation and properties of CF1 ATPase chloroplasts with changed submolecular structure]. 14 26

1. A method is described for the isolation of rat parotid acinar cells by controlled digestion of the gland with trypsin followed by collagenase. As judged by Trypan Blue exclusion, electron microscopy, water, electrolyte and ATP concentrations and release of amylase and lactate dehydrogenase, the cells are morphologically and functionally intact. 2. A method was developed for perifusion of acinar cells by embedding them in Sephadex G-10. Release of amylase was stimulated by adrenaline (0.1-10muM), isoproternol (1 or 10 MUM), phenylephrine (1 muM), carbamoylcholine (0.1 or 1 muM), dibutyryl cycle AMP (2 MM), 3-isobutyl-1-methylxanthine (1mM) and ionophore A23187. The effects of phenylephrine, carbamoylcholine and ionophore A23187 required extracellular Ca2+, whereas the effects of adrenaline and isoproterenol did not. 3. The incorporation of 45Ca into parotid cells showed a rapidly equilibrating pool (1-2 min) corresponding to 15% of total Ca2+ and a slowly equilibrating pool (greater than 3h) of probably a similar dimension. Cholinergic and alpha-adrenergic effectors and ionophore A23187 and 2,4-dinitrophenol increased the rate of incorporation of 45Ca into a slowly equilibrating pool, whereas beta-adrenergic effectors and dibutyryl cyclic AMP were inactive. 4. The efflux of 45Ca from cells into Ca2+-free medium was inhibited by phenylephrine and carbamoylcholine and accelerated by isoproterenol, adrenaline (beta-adrenergic effect), dibutyryl cyclic AMP and ionophore A23187. 5. A method was developed for the measurement of exchangeable 45Ca in mitochondria in parotid pieces. Incorporation of 45Ca into mitochondria was decreased by isoproterenol, dibutyryl cyclic AMP or 2,4-dinitrophenol, increased by adrenaline, and not changed significantly by phenylephrine or carbamoylcholine. Release of 45Ca from mitochondria in parotid pieced incubated in a Ca2+-free medium was increased by isoproterenol, adrenaline, dibutyryl cyclic AMP or 2,4-dinitrophenol and unaffected by phenylephrine or carbamoylcholine. 6. These findings are compatible with a role for Ca2+ as a mediator of amylase-secretory responses in rat parotid acinar cells, but no definite conclusions about its role can be drawn in the absence of knowledge of the molecular mechanisms involved, their location, and free Ca2+ concentration in appropriate cell compartment(s).
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PMID:Calcium metabolism and amylase release in rat parotid acinar cells. 18 53

The rate of hexose transport was compared in normal and virus-transformed cells on a monolayer and in suspension. It was shown that: 1) Both trypsin-removed cells and those suspended for an additional day in methyl cellulose had decreased rates of transport and lower available water space when compared with cells on a monolayer. Thus, cell shape affects the overall rate of hexose transport, especially at higher sugar concentrations. 2) Even in suspension, the initial transport rates remained higher in transformed cells with reference to normal cells. Scanning electron micrographs of normal and transformed chick cells revealed morphological differences only in the flat state. This indicates that the increased rate of hexose transport after transformation is not due to a difference in the shape of these cells on a monolayer.
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PMID:Cell shape and hexose transport in normal and virus-transformed cells in culture. 19 15

The apoprotein (apoB) of low density lipoprotein (LDL) is reported to be a large polypeptide, and it is proposed that there are two similar-sized subunit proteins in LDL (Smith, Dawson, and Tanford. 1972. J. Biol. Chem. 247: 3376-3381.). When apoB is isolated under conditions that minimize artifactual proteolysis, only a single, large molecular weight protein appears on polyacrylamide gel electrophoresis in SDS. To investigate the organization of apoB as it exists within native LDL, limited proteolysis with trypsin has been used as a structural probe. Tryptic digestion for 1 hr at pH 7.6 with enzyme-to-protein ratios of 1:100 and 1:5 results in the liberation of approximately 10% and 30% of apoB as smaller, water-soluble peptides. These peptides may be separated from the partially digested but still intact tryptic core (T-core) of the lipoprotein by chromatography on Sephadex G-75. Repeatedly, the 1:5 T-core of native LDL is found to contain a family of polypeptides of 14,000-100,000 molecular weight. Although they have lost significant quantities of apoprotein, these T-cores sustain an appearance of homogeneity, as studied by analytical ultracentrifugation. Their measured molecular weights do not differ appreciably from those of the native LDL, and the carbohydrate content of the 1:5 tryptic T-core of LDL is similar to that of the native LDL. In normolipemic individuals, LDL generally exists in a monodisperse state, but, in different individuals, monodisperse LDL may range in molecular weight from 2.4 to 3.9 x 10(6). Limited tryptic digestions were used to probe the organization of apoB in these different molecular weight LDL. As assayed by SDS-acrylamide gel electrophoresis of the larger polypeptides and fingerprinting of the smaller released peptides, those regions of LDL exposed to trypsin digestion are identical in monodisperse LDL of 2.5 and 3.4 x 10(6) molecular weight. Thus, the different quantities of lipid bound in these various LDL must interact with apoB so that the same regions of the apoprotein are exposed to the action of trypsin in these different molecular weight lipoproteins.
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PMID:Proteolytic digestion in the elucidation of the structure of low density lipoprotein. 20 2

Calf pulp was treated with full-strength formocresol, diluted formocresol, or saline for 4 hours. After washing and homogenization, the water extractable supernates were analyzed for total amino acid, carbohydrate, and hydroxyproline content. Additional samples were tested against trypsin, pepsin, collagenase, and hyaluronidase. Other tissue samples treated with 1/5, 1/10, and 1/25 dilutions of formocresol were subjected to trypsin and collagenase. The control tissue gave 50 per cent more extractable material, which contained over 300 per cent more total amino acids and hydroxyproline but only slightly more carbohydrate than the treated tissue. Formocresol treatment produced an 80 to 90 per cent reduction in reactivity to trypsin, pepsin, and collagenase but little change from hyaluronidase action. The increase in reactivity of the tissue to enzyme hydrolysis paralleled the increase in dilution of formocresol. These results indicate a profound effect on the protein fraction of pulp exposed to full-strength formocresol.
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PMID:Biochemical effects of formocresol on bovine pulp tissue. 20 81

The effects of ethanol, ethylene glycol, dioxane, and other organic co-solvents upon the hydrogen exchange rates of randomly coiled oxidized RNase, native RNase, and native trypsin have been measured. The exchange rate of oxidized RNase, the model compound for the proton transfer step in hydrogen exchange, is decreased by all of the co-solvents studied at temperatures in the range 3-20 degrees. This has been ascribed to the combined effects of the disruption of peptide bond solvation due to a reduction in the concentration of water, and of changes in [OH-] ion concentration due to changes in the acid dissociation constant of water, Kw. The solvent dependence for both native RNase and native trypsin is similar in all of the solvents studied. At a low temperature (3-20 degrees), the exchange rates go through a minimum as the solvent concentration is increased. At higher temperatures (20-35 degrees) the exchange rates are increased at all concentrations of the co-solvent. The apparent rate minimum at lower temperatures is due to two opposing effects. Co-solvents decrease the rate of exchange that occurs directly from the folded molecule. At higher concentrations and higer temperature. The decrease in rates for exchange directly from folded protein is primarily due to the effects on the proton transfer step, and not to binding or the solvent effects on protein structure. The solvents used in this study have no apparent effect on conformational processes contributing to the hydrogen exchange process in folded proteins.
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PMID:The solvent dependence of hydrogen exchange kinetics of folded proteins. 23 29

In vitro studies revealed that the hatching of oncospheres of Moniezia expansa requires the mechanical breakage of the eggshell and subshell membrane and enzymic digestion of the pyriform apparatus. Removal of the outer two egg membranes elicits the activation of most oncospheres. Between pH 5.0-7.8, there is no significant difference in numbers of oncospheres activated by eggshell removal and the addition of sodium bicarbonate has no effect. Solutions of more extreme pH values (2.0 and 10.0) are harmful and render oncospheres immobile. The subshell membrane forms a barrier to the passage of water in an osmotic gradient and to several molecular and ionic substances. Between the eggshell and subshell membrane is a layer of droplets which have a strong affinity for Sudan stains and which are partially removed by lipase. The eggshell is resistant to a variety of proteolytic enzymes, amylases and lipase. The pyriform apparatus is digested by chymotrypsin and pepsin, though not by trypsin. Both eggshell and pyriform apparatus are dissolved by solutions of sodium sulphide and sodium hypochlorite, indicating that their structures are stabilized by disulphide bonds and other covalent linkages.
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PMID:In vitro hatching of the tapeworm Moniezia expansa (Cestoda: Anoplocephalidae) and some properties of the egg membranes. 23 60

1. A simple, highly sensitive, specific fluorometric method for the determination of chymotrypsin is described. 2. The new substrate utilized in this assay, N-glutaryl-glycyl-glycyl-l-phenylalanine beta-naphthylamide (GGPNA), is readily soluble in water, stable and highly specific for chymotrypsin. It is not degraded by a large excess of carboxypeptidase B, elastase, thrombin or plasmin and is virtually resistant to trypsin. 3. GGPNA is extremely sensitive to the action of chymotrypsin and permits detection of enzyme concentrations as low as 1 ng/ml. Linearity between enzyme concentration and fluorescence produced is maintained up to at least 3000 ng/ml. 4. alpha2-Macroglobulin-bound chymotrypsin hydrolyzes GGPNA at a rate about 2/3 of that exhibited by the free enzyme. 5. Bile pigments in amounts normally found in duodenal juice or traces of blood do not interfere with the assay. 6. GG PNA which releases beta-naphthylamine upon hydrolysis is suitable also for colorimetric and histological determination of chymotrypsin.
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PMID:A new, highly sensitive and specific assay for chymotrypsin. 23 87

Trinitrobenzenesulfonate (TNBS), fluorodinitrobenzene (FDNB) and suberimidate have been reacted with intact human erythrocytes. TNBS does not penetrate the cell membrane significantly at 23 degrees C in bicarbonate-NaCl buffer, pH 8.6, as estimated by the labeling of the N-terminal valine of hemoglobin. Hence, under these conditions it can be used as a vectorial probe. However, at 37 degrees C, especially in phosphate buffer, at pH 8.6, TNBS does penetrate the cell membrane. FDNB and suberimidate both penetrate the erythrocyte membrane. The time course reaction of TNBS with intact erythrocytes over a 24-hr period at 23 degrees C is complex and shows transition zones for both membrane phosphatidylethanolamine (PE) and membrane proteins. No significant cell lysis occurs up to 10 hr. The fraction of total PE or phosphatidylserine (PS) which reacts with TNBS by this time period can be considered to be located on the outer surface of the cell membrane. Under these conditions it can be located on the outer surface of the cell membrane. Under these conditions it can be shown that 10 to 20% of the total PE and no PS is located on the outer surface of the membrane and hence these amino phospholipids are asymmetrically arranged. The pH gradient between the inside and outside of the cell in our system is 0.4 pH units. Nigericin has no effect on the extent of labeling of PE or PS by TNBS. Isotonic sucrose gives a slight enhancement of the labeling of PE by TNBS. Hence, the inability of PE and PS to react with the TNBS is considered not due to the inside of the cell having a lower pH. The extent of reaction of TNBS with PE is not influenced by changing the osmolarity of the medium or by treatment of cells with pronase, trypsin, phospholipase A or phospholipase D. However, bovine serum albumin (BSA) does protect some of the PE molecules from reacting with TNBS. Cels treated with suberimidate were suspended in either isotonic NaCl or in distilled water. In both cases the suberimidate-treated cells became refractory to hypotonic lysis. Pretreatment of cells with TNBS did not prevent them from interacting with suberimidate and becoming refractory to lysis. However, pretreatment of cells with the penetrating probe FDNB abolished the suberimidate effect. Electron-microscopic analysis of the cells showed a continuous membrane in the case of cells suspended in isotonic saline. The cells suspended in water did not lyse but their membranes had many large holes, sufficient to let the hemoglobin leak out. Since the hemoglobin did not leak out we know that the hemoglobin is cross-linked into a large supramolecular aggregate.
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PMID:The reaction of chemical probes with the erythrocyte membrane. 23 54

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