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)

We differentiate indirect and direct methods. The indirect methods include the examination of the blood (ESR, blood picture, electrolytes, especially calcium, for the exclusion of hyperparathyroidism, status of fat and liver enzymes, activity of alpha-amylase and lipase. More informative than a serum determination is the measurement of the amylase activity in the 24-hour urine. The detection of chymotrypsin in the stool can be recommended as an investigative test also for use in general practive in collaboration with a central laboratory.- The direct methods include investigation of the duodenal juice with measurement of pH, bicarbonate, of the activities of chymotrypsin, trypsin, lipase and amylase. For excluding of a disturbance of the carbohydrate metabolism in addition to blood sugar determinations, glucose tolerance and tolbutamide tests, the determination of insulin activity is indicated.
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PMID:[Chemical Investigation of Chronic Pancreatitis]. 0 30

Our data show that the ESR spectrum of 5-nitroxide stearate bound to erythrocyte membranes varies with the amount of label bound and suggest that, at high binding, a significant proportion of label molecules lie within approximately equal to 15-10--8 cm; this gives rise to spin-exchange (ambient temperature) and dipole-dipole interactions. We find that these spectral manifestations due to label clustering can be abolished by reduction of pH and the conjoint action of lysolecithin and trypsin, although both perturbations increase 5-nitroxide stearate binding. Both perturbations are known to mobilize intramembranous particles by modifying or extracting some membrane proteins. We accordingly suggest that the lipids and proteins of erythrocyte membranes exist in a relatively fixed mosaic, and that the mobility of both components is restricted by some membrane-associated protein framework.
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PMID:Evidence for constrained lipid mobility in the erythrocyte ghost. A spin label study. 16 40

Crystalline trypsin was irradiated in oxygen-free suspension media of methanol, ethanol and n-heptane with 60Co-gamma-rays at 77 K or 273 K. Measurements with ESR and activity determinations revealed no influence of ethanol and n-heptane on the formation of free radicals and inactivation of trypsin. Especially, the results are independent on the polarity of the suspension media and correspond to an irradiation of trypsin in vacuum. On the other hand, methanol leads to a decay of radiation induced radicals and to an increased inactivation. The results are discussed in comparison to analogous experiments carried out with ultra-violet light.
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PMID:Investigations on radical formation and inactivation of suspended trypsin after gamma-irradiation. 19 63

Intact erythrocytes were spin-labeled with various classes of phospholipid label. The ESR spectrum for phosphatidylcholine spin label was distinctly different from those for phosphatidylserine, phosphatidylethanolamine, phosphatidylglycerol and phosphatidic acid spin labels. The overall splitting for the former (52.5 G) was markedly larger than those for the others (approx. 47 G), suggesting a more rigid phosphatidylcholine bilayer phase and more fluid phosphatidylethanolamine and phosphatidylserine phases in the erythrocyte membrane. Evidence for asymmetric distribution of phospholipids in the membrane was obtained. Spin-labeled phosphatidylcholine incorporated into erythrocytes was reduced immediately by cystein and Fe3+, while the reduction of spin-labeled phosphatidylserine was very slow. The present results therefore suggest asymmetric fluidity in erythrocyte membrane; a more rigid outer layer and a more fluid inner layer. The heterogeneity in the lipid structure was also manifested in the temperature dependence of the fluidity. The overall splitting for phosphatidylcholine spin label showed two inflection points at 18 and 33 degrees C, while that for phosphatidylserine spin label had only one transition at 30 degrees C. When the spin-labeled erythrocytes were hemolyzed, the marked difference in the ESR spectra disappeared, indicating homogenization of the heterogenous fluidity. Mg2+ or Mg2+ + ATP prevented the hemolysis-induced spectral changed. Ca2+ did not prevent the homogenization and acted antagonistically to Mg2+. The heterogeneity preservation by Mg2+ was nullified by trypsin, pronase or N-ethylmaleimide added inside the cell. Some inner proteins may therefore be involved in maintaining the heterogeneous structure. The protecting action of Mg2+ was dependent on hemolysis temperature, starting to decrease at 18 degrees C and vanishing at 40 degrees C. The present study suggests that the heterogeneity in the fluidity of intact erythrocyte membranes arises from interactions between lipids and proteins in the membrane and also from interactions between the membrane constituents and the inner proteins. Concentration of cholesterol in the outer layer may also partly contribute to the heterogeneity.
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PMID:Heterogeneity in the fluidity of intact erythrocyte membrane and its homogenization upon hemolysis. 125 7

A form of human alpha 2-macroglobulin (alpha 2M) has been prepared that has properties intermediate to those of native alpha 2-macroglobulin and 2:1 protease-alpha 2 M ternary complex by using Sepharose-linked chymotrypsin. The intermediate form has mobility on native polyacrylamide gels between the fast and slow forms of alpha 2M and migrates as a diffuse band. Two bait regions and two thiol esters per alpha 2M tetramer are cleaved, although no chymotrypsin is detectable in the modified alpha 2-macroglobulin species. The remaining bait regions and thiol esters can be cleaved by further reaction with other proteases. Intermediate-form alpha 2M can trap 1.18 mol of chymotrypsin, 0.85 mol of trypsin, and 0.65 mol of thrombin. Although both thrombin and methylamine react with intermediate-form alpha 2M at rates not distinguishable within experimental error from those of their reactions with native alpha 2M, chymotrypsin-Sepharose reacts much more slowly with the intermediate form than with native alpha 2 M, indicating a nonequivalence of the two reactive sites on alpha 2M. This nonequivalence may be present initially or be induced by reaction at the first site. Comparison of ESR results obtained from spin-labeling methylamine-treated or protease-reacted alpha 2M with those from spin-labeling of the free SH groups in intermediate-form alpha 2M shows that trapped protease influences the mobility of the attached nitroxide either through direct contact or by producing a different conformation from that present in methylamine-treated or intermediate-form alpha 2M.
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PMID:Preparation and initial characterization of an intermediate, half-cleaved form of human alpha 2-macroglobulin. 247 74

Unilamellar liposomes prepared from sn-3-(dimyristoyl)phosphatidylcholine (DMPC) in the presence and absence of acetylcholinesterase were examined by ESR for lipid/protein interactions. Using 5-, 12-, and 16-doxyl stearic acid probes incorporated into the phospholipid bilayers, no measurable differences in the gel to liquid-crystalline phase transition temperature of DMPC (as determined by ESR spectroscopy) were observed when the enzyme was present. These results have established that no significant incorporation of acetylcholinesterase into the hydrophobic region of the phospholipid bilayer is detectable at the protein: lipid ratios used in these experiments. Confirmation of these results was also obtained by differential scanning calorimetry. Interaction of the enzyme with the outermost region of the bilayer was established by trypsin digestion which indicated that as much as 25% of liposome-associated enzyme was removable and was, therefore, exposed to the outer surface. The results of this study have established that acetylcholinesterase associated with unilamellar DMPC liposomes was primarily entrapped within the aqueous compartment of the vesicles and was not present in the phospholipid bilayer.
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PMID:The topography of acetylcholinesterase in dimyristoylphosphatidylcholine liposomes. 254 25

In studying the proteolytic activity and ESR spectra of gamma-irradiated samples of trypsin immobilized at an inoculated copolymer of polypropylene with polyacrylic acid it was established that the carrier of a modified polypropylene increases the radioresistance of trypsin immobilized on it.
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PMID:[The action of gamma irradiation on trypsin immobilized on a modified polypropylene textile material]. 254 28

A truncated human c-Ha-ras gene product, ras(1-171) protein, was prepared and chemically modified with maleimide spin-label (MSL). By trypsin digestion of the MSL-labeled ras(1-171) protein, MSL-labeled peptide fragments were isolated and sequenced. The cysteine residue in position 118 of the protein, but not the other cysteine residues, Cys-51 or Cys-80, was found to be specifically labeled by MSL. The ESR spectrum of the MSL-labeled ras(1-171) protein indicates that the MSL group attached to Cys-118 is strongly immobilized. Proton NMR spectra at 400-MHz were measured for this MSL-labeled ras(1-171) protein and also for a control sample of a labeled ras(1-171) protein whose MSL was reduced by sodium ascorbate. In the difference spectra for these two proteins, resonances of protons in the vicinity of the MSL group attached to Cys-118 of the ras(1-171) protein were observed. Thus, the MSL group was found to be in the vicinity of the protein-bound GDP. A phenylalanine residue and two histidine residues, which were characterized by 2D HOHAHA and DQF-COSY spectra, were also found to be in the vicinity of MSL. NOE and pH titration analyses indicate that this phenylalanine residue is close to the bound GDP and one of the two histidine residues. By carboxypeptidase digestion, the two histidine residues near MSL were identified as His-27 and His-94.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Spin-labeling proton NMR study on aromatic amino acid residues in the guanine nucleotide binding site of human c-Ha-ras(1-171) protein. 255 24

We have used a spin label analog of cholesterol bearing a nitroxide on the alkyl chain (26-nor-25-doxylcholestanol) to study cholesterol-protein interactions in the human erythrocyte membrane. As judged from the ESR spectrum, the spin label is readily incorporated into the membrane when added from a concentrated ethanolic solution to a cell or ghost suspension. With intact erythrocytes or white ghosts in isotonic buffer, the ESR spectrum is a superposition of a mobile component and a strongly immobilized component (outer hyperfine splitting 61-63 G). The latter corresponds to approx. 45% of the signal, a percentage which is barely affected by varying the temperature between 5 and 37 degrees C. Removal of the cytoskeletal proteins spectrin and actin by low ionic strength treatment or of all extrinsic proteins by alkali treatment of ghosts reduces the immobilized fraction to approx. 25%. The effect of controlled proteolysis of intrinsic proteins was also tested. Pre-treatment of cells with chymotrypsin or pre-treatment of unsealed ghosts with trypsin has no effect on the ESR spectrum obtained with alkali-treated membranes. On the other hand, after chymotrypsin treatment of unsealed ghost, which reduces the band 3 protein to a 17.5 kDa membrane fragment, the strongly immobilized component is no longer observable. These data show that the cholesterol analog 26-nor-25-doxylcholestanol interacts strongly with one or several proteins of the erythrocyte membrane. That the intrinsic protein band 3 is involved is suggested by the disappearance of the immobilized fraction occurring upon chymotrypsin digestion of this protein. Our results are thus consistent with the proposal of a selective cholesterol-band 3 interaction in the erythrocyte membrane (Schubert, D. and Boss, K. (1982) FEBS Lett. 150, 4-8). Our data also suggest that this interaction is influenced by cytoskeletal proteins, an effect which can be explained considering the known linking of band 3 to the erythrocyte cytoskeleton via ankyrin. Experiments have also been carried out with 3-doxylandrostanol, a more commonly used cholesterol spin-label analog. With this spin label, at all temperatures investigated, we found it impossible to demonstrate unambiguously the existence of two spectral components. It is suggested that 26-nor-25-doxylcholestanol is a better reporter of cholesterol behavior in membranes.
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PMID:Strong interactions between a spin-labeled cholesterol analog and erythrocyte proteins in the human erythrocyte membrane. 298 1

The changes of trypsin structures during grinding have been studied. Destruction of covalent bonds inside the polypeptide chain and of disulfide bonds was discovered by ESR method. Grinding at room temperature is accompanied by hydrolysis of peptide bonds which is demonstrated by the formation of a great number of new N-terminal amino acids, determined by reaction with dansyl chloride. A change in trypsin tertiary structure resulting from grinding was shown by circular dichroism method. The analysis of the results obtained allows to conclude that the main cause of inactivation in the course of enzyme grinding are the conformational changes due to rupture and redistribution of weak bonds.
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PMID:[Possible mechanisms of mechanical enzyme inactivation]. 608 26

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