EC:3.4.21.1 - FACTA Search

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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated Plasmodium falciparum parasitized erythrocyte binding to proteolytic fragments of thrombospondin and the effects of anti-thrombospondin monoclonal antibodies on this binding. Purified human platelet thrombospondin was cleaved by trypsin, chymotrypsin or thrombin. Fragments were separated by heparin-agarose affinity chromatography, removing the amino-terminal heparin-binding region. Trypsin at 5.0 micrograms ml-1 of thrombospondin cleaved thrombospondin to reduced 140 and 120 kDa fragments plus a reduced 25-kDa heparin-binding fragment. Infected erythrocytes bound to intact thrombospondin (3420 +/- 460 infected erythrocytes mm-2) and the carboxy-terminal fragment, yielding 120-140-kDa fragments on sulfhydryl reduction, but not to the 25-kDa fragment (144 +/- 104 infected erythrocytes mm-2 (mean +/- s.d., N = 4). Similar results were obtained with chymotrypsin and thrombin cleavage. When the anti-thrombospondin monoclonal antibody MA-I was added to immobilized thrombospondin prior to infected erythrocytes, adherence was inhibited by 99%. At the same concentration, MA-I inhibited adherence to C32 melanoma cells by only 35%. MA-I binds to a calcium-dependent structure at the C-terminal globular region of thrombospondin. Monoclonal antibody MA-II inhibited adherence to thrombospondin by 46%, while MA-III had no effect. These antibodies bind to the N-terminal globular region which includes the heparin-binding site and the segment connecting the two globular regions, respectively. The site(s) for infected erythrocyte binding on thrombospondin reside in the large, 140- or 120-kDa, proteolytic cleavage fragments, and not in the N-terminal heparin-binding region.
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PMID:Falciparum malaria parasitized erythrocytes bind to a carboxy-terminal thrombospondin fragment and not the amino-terminal heparin-binding region. 219 22

In inside-out red cell membrane vesicles active calcium transport and the formation of the enzyme-phosphate complex (EP) of the calcium pump were simultaneously investigated and the effects of a limited proteolytic digestion examined. In order to visualize the proteolyzed EP forms we have induced the formation of a maximum level EP from [gamma-32P]ATP in the presence of Ca2+ + La3+ and applied a good-resolution acidic discontinuous sodium dodecyl sulfate-polyacrylamide gel electrophoresis system. Proteolysis of inside-out vesicle membranes by trypsin, Pronase, papain, or chymotrypsin produces a calmodulin-like activation of the calcium pump, abolishes its calmodulin sensitivity, and decreases the original 140-kDa EP complex to a limit polypeptide of 80 kDa. Trypsin digestion produces another major intermediary fragment of 90 kDa, which is still a low-activity calmodulin-sensitive form of the pump. The red cell calcium pump is activated by trypsin both in the absence and presence of Ca2+ during digestion although the rate of activation and the appearance of the 80-kDa polypeptide are enhanced by Ca2+. If proteolytic digestion is carried out by chymotrypsin, a calmodulin-insensitive maximum activation of the calcium pump coincides with the formation of a 125-130-kDa EP-forming polypeptide. Chymotrypsin and carboxypeptidase A have synergistic effects on the formation of this latter high-activity species. Based on these data we suggest a probable molecular arrangement for the functional parts of the red cell membrane calcium pump.
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PMID:Molecular characterization of the in situ red cell membrane calcium pump by limited proteolysis. 242 14

Effects of age and diet composition on amylase, trypsin and chymotrypsin activities in the pancreas and intestinal contents, pancreas weights and body weights were determined from birth to 56 d. A total of 120 pigs, five to seven pigs/litter from 18 litters, were slaughtered at birth, 14, 27, 29, 31, 42 and 56 d. Litters were allotted to dietary treatments (corn-soy, A; corn-soy + 20% dried whey, B; corn-soy + 5% lard, C) and offered these diets as creep feed at 14 d. All pigs were weaned at 28 d, placed in elevated nursery pens and fed their respective diets. Total activities of amylase, trypsin and chymotrypsin in the pancreas and small intestine increased (P less than .05) with age. Both trypsin and amylase activities, measured per kilogram body weight or gram pancreas weight, were low at 29 d in the intestine and increased to 56 d. Pigs on diet B had the highest level of trypsin and chymotrypsin in the intestinal contents (P less than .05). Trypsin activity in the pancreas (units/kg body weight) was lowest (P less than .05) for pigs on diet B and highest (P less than .05) for those on diet C (units/g pancreas and units/kg body weight). Amylase activity (units/kg body weight) was lower (P less than .05) in the pancreas for pigs on diet B than for those on diets A and C. Pigs on diet A had lower (P less than .01) intestinal amylase activities than those on diets B and C. Enzyme activities in the intestinal contents and pancreas were low following weaning. In the pancreas, activities decreased at 31 d.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of age and diet on the development of the pancreas and the synthesis and secretion of pancreatic enzymes in the young pig. 242 99

Hexon capsomers of human adenovirus type 1 (h1) labeled by iodine 125 were digested in a native state (trimers) by trypsin, chymotrypsin or papain, and the resulting hydrolysates were analyzed by SDS-PAGE. In each case, a discrete and temporally stable pattern of relatively large fragments was revealed. The degree of hexon polypeptide hydrolysis was maximal for papain, intermediate for chymotrypsin and minimal for trypsin, the largest fragments in the digest being 32, 40 and 80 kD, respectively. At room temperature, all the electrophoretically discernible hexon proteolytical fragments were held together in structures resembling intact hexon trimers and could be regarded as "hexon cores", of which papain hexon cores were the most stable during SDS-PAGE. Radioimmunoprecipitation analysis revealed a complete absence of native hexon antigenicity in thermodenaturated fragments of hexon protease digests, while native trypsin, chymotrypsin and papain hexon cores could be precipitated by hexon-specific antibodies. The immunoprecipitated material contained all of the hexon fragments found in appropriate hexon cores and retained the structure of the original cores. Trypsin, chymotrypsin and papain hexon cores were shown to possess at least part of native Ad h1 hexon antigenic determinants of each of the following specificities: species-specific (epsilon), cross-reactive with hexon of human adenoviruses (h3 and h6), simian adenovirus (sim 16), bovine adenoviruses (bos 3 and bos 7) and avian adenovirus (Aviadenovirus gal 1 or CELO). Thus, the full spectrum of known hexon antigenic determinants (species-specific to intergenus-crossreactive) is at least portly stable against protease attack of native hexon capsomers.
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PMID:[Stability of the structure and antigenic determinants of adenovirus type 1 native hexon to proteases]. 242 9

The influence of formaldehyde fixation, dehydration and polymethacrylate embedding on the results of immunofluorescence staining of immunoglobulin and enzymehistochemical demonstration of hydrolases, especially acid phosphatase and alpha-naphthylacetate esterase in human tonsils and bone marrow were studied. The best results were achieved by using 2% formaldehyde and 5% sucrose in 0.02 M phosphate buffer (ph 7.4) for fixation and ethyleneglycol monobutylether for dehydration. The procedures were carried out at 4 degrees C. For tissue embedding we used the commercially available polymethacrylate Kalloplast R. The polymerisation was carried out at -20 degrees C for 18 hours. This method permits a good preservation of morphological details and the survival of antigenic determinants and enzyme activity. Trypsin, pepsin and alpha-chymotrypsin were used to "unmask" the antigenic determinants in methacrylate sections. Trypsin and alpha-chymotrypsin revealed comparable results, but because of better practicability we used alpha-chymotrypsin. Using the described fixation, dehydration and embedding procedures it was possible to demonstrate both intracellular immunoglobulins (gamma, alpha and mu heavy chains; kappa and lambda light chains) and surface-bound immunoglobulins (mu and delta heavy chains; kappa and lambda light chains). Comparable results were achieved in human bone marrow biopsies. The results of histochemical demonstration of both enzymes were better in bone marrow sections than in that of the tonsils. We think, that the presented method is suitable in the diagnosis of myelo- and lymphoproliferative disorders on both the bone marrow and lymphatic tissue.
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PMID:[The effect of fixation, dehydration and polymethacrylate imbedding on the results of immuno- and enzymehistochemical studies on lymphatic tissue and bone marrow]. 245 13

Human inter-alpha-trypsin inhibitor (I alpha I) is a plasma proteinase inhibitor active against cathepsin G, leucocyte elastase, trypsin and chymotrypsin. It owes its broad inhibitory specificity to tandem Kunitz-type inhibitory domains within an N-terminal region. Sequence studies suggest that the reactive-centre residues critical for inhibition are methionine and arginine. Reaction of I alpha I with the arginine-modifying reagent butane-2,3-dione afforded partial loss of inhibitory activity against both cathepsin G and elastase but complete loss of activity against trypsin and chymotrypsin. Reaction of I alpha I with the methionine-modifying reagent cis-dichlorodiammineplatinum(II) resulted in partial loss of activity against cathepsin G and elastase but did not affect inhibition of either trypsin or chymotrypsin. Employment of both reagents eliminated inhibition of cathepsin G and elastase. These findings suggest that both cathepsin G and elastase are inhibited at either of the reactive centres of I alpha I. Trypsin and chymotrypsin, however, appear to be inhibited exclusively at the arginine reactive centre.
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PMID:Modification of the tandem reactive centres of human inter-alpha-trypsin inhibitor with butanedione and cis-dichlorodiammineplatinum(II). 246 86

Removal of sialic acid from the von Willebrand factor (vWF) subunit exposes additional cleavage sites in the amino-terminal region that are associated with loss of large multimers. The extent of large multimer loss was evaluated by examining the sites of subunit cleavage of native and carbohydrate-modified vWF after treatment with trypsin, chymotrypsin, or plasmin. In the presence of proteinase inhibitors, purified vWF was treated with neuraminidase alone to remove 90% to 95% of the sialic acid or with neuraminidase and beta-galactosidase to remove the sialic acid and 45% to 50% of the D-galactose, with little or no loss of large multimers observed. Digestion of native vWF with trypsin produced the greatest loss of large multimers, while chymotrypsin produced less and plasmin produced the least. Large multimer loss was more extensive with each enzyme after carbohydrate modification of vWF. The extent and approximate location of subunit cleavage was determined by immunoblotting and monoclonal antibody epitope mapping. Trypsin, chymotrypsin, and plasmin were shown to produce both amino- and carboxyl-terminal fragments. The number, location, and relative quantities of carboxyl-terminal fragments produced were unchanged after carbohydrate modification. However, digestion of the amino-terminal region was considerably more extensive after carbohydrate modification as judged by a marked decrease or absence of the larger fragments seen when native vWF was digested, and by the appearance of new smaller molecular mass species. Therefore, the greater loss of large multimers that occurs after carbohydrate modification is likely to be the result of cleavages in the amino-terminal region of the molecule. By protecting the vWF subunit against amino-terminal cleavage, sialic acid inhibits the loss of large multimers.
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PMID:Sialic acid prevents loss of large von Willebrand factor multimers by protecting against amino-terminal proteolytic cleavage. 246 Jan 62

Potassium and sodium leakage currents decrease when pH of the surroundings is lowering. Dicyclohexylcarbodiimide, a specific reagent of the COOH-groups does not change leakage currents. Trypsin, chymotrypsin, papain and pronase increase the sodium leakage current, not altering the potassium one. Blocking agents of the SH-groups: Hg2+ and Cd2+ decrease potassium leakage current, without changing the sodium one. Results of the proteolysis testify to that the diffusion of sodium into the cells in response is accomplished through the protein components of the membrane. The action of the blocking agents of SH-groups points out that the diffusion of potassium from the cells is realized also via the protein components of the membrane.
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PMID:[Effect of protein-modifying factors on sodium and potassium leakage currents of the secretory cell membranes]. 254 99

A fluorescent peptide substrate to explore the protease specificity for the amino acid regions C- and N-terminal to the cleavage site has been designed. Intramolecular quenching of indole fluorescence by an N-terminal dansyl group separated by six amino acid residues forms the basis of this assay. For a particular enzyme, specificity can be designed into the peptide sequence by means of the number of residues that separate the two chromophores. In the present instance, the heptapeptide Dns-Gly-Lys-Tyr-Ala-Pro-Trp-Val is used to assay angiotensin converting enzyme (ACE), Astacus protease, carboxypeptidase A, alpha-chymotrypsin, and trypsin, all of which cleave the peptide in accord with their known specificity: Trypsin and Astacus protease hydrolyze only the Lys-Tyr and Tyr-Ala bonds, respectively. alpha-Chymotrypsin primarily cleaves the Tyr-Ala bond while ACE makes three successive dipeptidyl cleavages from the C-terminus. Carboxypeptidase rapidly hydrolyzes first the Trp-Val and then the Pro-Trp bond. For all of the enzymes, catalytic activity (kcat/Km) is in the range from 10(5) to 10(6) M-1 s-1. Hydrolysis causes a fluorescence increase in the 310 to 410 nm region of 8.6- to 13.6-fold depending on the enzyme that is assayed. Assays can be designed based on the increase in tryptophan fluorescence or by individual product analyses using thin-layer or high-performance liquid chromatography. The specificity and sensitivity of such internally quenched fluorescent oligopeptides would seem to be ideal for the assay of specific endoproteases.
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PMID:A fluorescent oligopeptide energy transfer assay with broad applications for neutral proteases. 255 28

In this paper two different aspects of androgen action are reviewed. Polyacrylamide gel electrophoresis of androgen receptors, photoaffinity labeled with R1881 showed that receptors isolated from both human prostate cells and calf uterine cytosol cells are proteins with a molecular mass of approx 110 kD. Purification to homogeneity of this form of the receptor from calf uterus also yielded a 110 kD protein. A molecular model for the DNA-binding form of the receptor is presented in which one polypeptide comprises three active domains: one for ligand binding, one for interaction with nuclear acceptor sites, and a third domain which modulates nuclear interaction. Mild digestion with chymotrypsin or a protease from rat prostates removes the modulating domain and leaves the ligand binding and nuclear interaction domain intact. Trypsin treatment yields a fragment of lower molecular mass containing the ligand binding domain with some affinity for RNA, but not DNA. In vitro studies with a human prostate tumor cell line (LNCaP), suggest that androgens not only directly effect cell growth, but also act indirectly. Both epidermal growth factor (EGF) and androgens stimulate cell growth. In addition androgens stimulate synthesis of receptors for EGF. Thus androgens effect tumor cell growth by autocrine or paracrine mechanisms by making the cells more sensitive for growth factor mediated stimuli.
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PMID:Mechanism of androgen action: recent observations on the domain structure of androgen receptors and the induction of EGF-receptors by androgens in prostate tumor cells. 264 38

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