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 proteolytic digestion of GPIIIa on intact platelets by chymotrypsin, thrombin, plasmin, trypsin, and staphylococcal V8 protease was monitored in immunoblot studies employing three different antibodies to GPIIIa, one of which was made against a 13-residue synthetic peptide containing the amino terminus of GPIIIa. Chymotrypsin, plasmin, and trypsin gave similar patterns, from which it could be inferred that the major products after extensive digestion were two-chain molecules composed of amino-terminal fragments of Mr approximately 17,000-18,000 disulfide bonded to carboxyl-terminal remnants of Mr approximately 58,000-70,000. These patterns suggest that GPIIIa contains a large disulfide-bonded loop of at least 325 amino acids that is susceptible to proteolytic cleavage, and that the 4 cysteine residues between residues 177 and 273 bond with each other. Such a structure can also account for the presence of the PIA1 epitope, which has recently been localized to a polymorphism at position 33 on these late digestion products. Thrombin did not proteolyze GPIIIa even at 2.5 units/ml. Still to be resolved is whether the minor immunoreactive GPIIIa bands found on normal platelets are related to in vivo or in vitro proteolysis and whether GPIIIa proteolysis plays a role in chymotrypsin-induced exposure of the GPIIb/IIIa receptor.
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PMID:Evidence that platelet glycoprotein IIIa has a large disulfide-bonded loop that is susceptible to proteolytic cleavage. 252 61

The functional domains of the in situ red cell membrane calcium pump were mapped by a double labeling technique. In inside-out vesicles (IOVs) the calcium pump was phosphorylated by [gamma-32P]ATP, the proteins blotted onto nitrocellulose and tagged by monoclonal antibodies raised against the purified pump protein. After proteolytic treatment of the IOVs by trypsin, chymotrypsin, or calpain-I, the fragmentation pattern of the enzyme was followed on the double-labeled immunoblots. The changes in the kinetics of the pump were examined by parallel measurements of the active calcium uptake in IOVs. By analysis of the results of tryptic digestion, it was possible to show that the antibodies recognized three different domains of the pump: 1) a Mr = 10,000-15,000 fragment (not seen directly) which includes the calmodulin-binding domain, 2) a nonphosphorylated Mr = 35,000 tryptic fragment, and 3) a phosphorylated fragment of Mr = 76,000-81,000. Chymotrypsin or calpain-I digestion of the membranes produced one major, Mr = 125,000 fragment, which had lost antibody-binding region 1. Production of this fragment coincided with the loss of calmodulin dependence and with a calmodulin-like activation of IOV calcium uptake (high Vmax, cooperativity in calcium activation). The Mr = 125,000 fragment was further activated by acidic lipids producing high Vmax and low K 1/2 (Ca2+) with no cooperativity. Based on these data a kinetic model and a functional map of the plasma membrane calcium pump is suggested.
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PMID:Functional domains of the in situ red cell membrane calcium pump revealed by proteolysis and monoclonal antibodies. Possible sites for regulation by calpain and acidic lipids. 253 49

Tubulin can stimulate specifically the aryl phosphatase activity of the low-Mr polycation-stimulated (PCSL) phosphatase, measured as p-nitrophenyl phosphatase activity, or using reduced carboxamidomethylated and maleylated (RCM) lysozyme, phosphorylated on tyrosyl residues, as a substrate. This stimulation is independent of the degree of polymerization of tubulin (A50 = 60 nM) and is due to an increase in Vmax. It is mechanistically different from the ATP-induced activation and resistant to heat and trypsin treatment. Chymotrypsin destroys the stimulatory effect of tubulin. The polycation-stimulated phosphorylase phosphatase activity is inhibited by tubulin, probably by a polycation/polyanion interaction. The microtubule-associated protein, MAP2, is inhibitory to the p-nitrophenyl phosphatase activity and tubulin can eliminate this inhibitory effect. MAP2 also inhibits the polycation-stimulated phosphorylase phosphatase activity.
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PMID:Tubulin and MAP2 regulate the PCSL phosphatase activity. A possible new role for microtubular proteins. 254 1

The effect of chymotrypsin on aldosterone biosynthesis by dispersed rabbit adrenal capsular cells was examined. Bovine alpha-chymotrypsin at concentrations of 10(-7) to 10(-5) M stimulated aldosterone production, and human chymotrypsin had an even stronger stimulatory effect. Bovine trypsin had no effect on aldosterone production by adrenal cells. Chymotrypsin treatment did not change the sensitivity of the adrenal cells to ACTH or angiotensin II. These results suggest the existence of unique chymotrypsin-susceptible sites on rabbit adrenal capsular cells, the digestion of which results in stimulation of aldosterone biosynthesis.
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PMID:Proteolytic activation of aldosterone biosynthesis in rabbit adrenal capsular cells by alpha-chymotrypsin. 255 36

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

The polypeptide composition of unfertilized, fertilized, and protease-treated zona-free mouse eggs was evaluated in this study. Zona-free eggs were radioiodinated by an Iodogen-catalyzed reaction. Light microscopic autoradiography of egg sections revealed that labeling was restricted to the cell surface. Labeled eggs were solubilized, and cell surface polypeptides were identified by one-dimensional SDS polyacrylamide gel electrophoresis and autoradiography. The unfertilized egg demonstrated 8-10 peptides that incorporated 125I, with major bands observed at approximately 145-150, 94, and 23 kilodaltons (kD). Zona-free eggs fertilized in vitro and then radiolabeled demonstrated several new bands in comparison to unfertilized eggs, with a major band appearing at approximately 36 kD. Treatment of radiolabeled unfertilized eggs with either trypsin or chymotrypsin (1 mg/ml for 5-20 min) caused enzyme-specific modifications in labeled polypeptides. Trypsin (T) treatment resulted in time-dependant modification of the three major peptides at 145-150, 94, and 23 kD. Chymotrypsin (CT) treatment, in contrast, was associated with loss or modification of the 94 kD band, with no apparent effect on either the 145-150 or 23 kD band. Taken together with previous data indicating that T or CT egg treatment interferes with sperm-egg attachment and fusion (Boldt et al.: Biol Reprod 39:19-27, 1988), these results suggest a possible role for the 94 kD protein in sperm-egg interaction.
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PMID:Characterization of cell surface polypeptides of unfertilized, fertilized, and protease-treated zona-free mouse eggs. 274 6

The steroid-binding subunit of the glucocorticoid receptor is known to be a approximately 100-kDa phosphoprotein composed of an immunogenic, DNA-binding, and steroid-binding domain. When isolated from WEHI-7 cells, this protein contains between two and three phosphoryl groups per steroid-binding site (Mendel WEHI-7 cells, this protein contains between two and three phosphoryl groups per steroid-binding site (Mendel et al., 1987). To identify the domains that contain these phosphorylated sites, we have analyzed the phosphate content of selected proteolytic fragments of the approximately 100-kDa steroid-binding protein from nonactivated and activated receptors. The approximately 100-kDa steroid-binding protein from WEHI-7 cells grown in the presence of [32P]orthophosphate was covalently labeled with [3H]dexamethasone 21-mesylate, purified with the BuGR2 monoclonal antibody, digested with chymotrypsin or trypsin, and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Chymotrypsin digestion of this protein yields a approximately 45-kDa fragment containing both the steroid-binding and DNA-binding domains, which contained both 32P and 3H. Trypsin digestion of the protein yields a approximately 29-kDa fragment encompassing the steroid-binding domain but not the DNA-binding domain of the approximately 100-kDa protein, which also contained both 32P and 3H. The 32P/3H ratio of each fragment provides a measure of phosphate content per steroid-binding site and indicated that each fragment has approximately 30% of the phosphate content of the intact protein. This is sufficient to account for one of the three receptor phosphoryl groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylated sites within the functional domains of the approximately 100-kDa steroid-binding subunit of glucocorticoid receptors. 276 97

1. Chymotrypsin, trypsin and elastase have been purified from the pyloric caeca of cod. 2. The enzymes were separated by affinity/hydrophobic chromatography on phenyl-butyl-amine (PBA) substituted sepharose. Chymotrypsin eluted in two separate isozyme fractions whereas trypsin and elastase eluted in separate fractions consisting of two closely-related polypeptide chains as revealed by SDS-polyacrylamide electrophoresis and isoelectric focusing. 3. The cod enzymes consist of single polypeptide chains with apparent molecular weights of about 27,000 Da as shown by denaturing polyacrylamide gel electrophoresis. 4. The cod proteinases were retarded on gel filtration media. The retardation increased with increasing pressure. 5. Isoelectric focusing analysis shows that the cod enzymes have isoelectric points in the range between 5 and 7. 6. The cod proteinases are rapidly inactivated when stored at low pH's.
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PMID:Purification and characterization of chymotrypsin, trypsin and elastase like proteinases from cod (Gadus morhua L.). 277 27

The glycoprotein thrombospondin is distributed between the extracellular matrix and the platelet-sequestered pool in the resting state and it undergoes redistribution upon platelet stimulation. It is believed to play a role in matrix structure and in coagulation. We have studied the structural domains of endothelial cell (EC) thrombospondin by use of the serine proteases thrombin, trypsin and chymotrypsin and have characterized the heparin-binding domains of this molecule. For this purpose we used purified thrombospondin synthesized and secreted by bovine aortic endothelial cells grown in the presence of radiolabeled methionine. We find that the susceptibility of EC thrombospondin to proteolysis is five-fold smaller than that of platelet thrombospondin. In the presence of 2 mM Ca ions the molecule is cleaved by 20 U/ml thrombin at a single locus, to yield fragments of 160 kDa and 35 kDa. Trypsin digestion for 5 min at room temperature at an enzyme-to-substrate ratio of 1:20 produces a stable fragment of 140 kDa but not the 30-kDa fragment observed in platelet thrombospondin. Chymotrypsin, under identical conditions to those used for trypsin, cleaves EC thrombospondin into four stable fragments of 160 kDa, 140 kDa, 27 kDa and 18 kDa. Chelation of Ca by EDTA increases susceptibility of the molecule to proteolysis. Under the conditions used a cryptic thrombin-cleavage site, not hitherto observed in platelet thrombospondin, was observed in EC thrombospondin. The location of this site is near a chymotrypsin-susceptible site, which has been observed in the long connecting arm, which is particularly Ca-stabilized. Heparin-binding capacity of EC thrombospondin was observed in at least two separate loci. Both thrombin and chymotrypsin produced small fragments (35 kDa and 27 kDa respectively) which bound to heparin with high affinity, and large fragments (160 kDa for thrombin and 140 kDa for chymotrypsin) which had low affinity. Chelation of Ca substantially decreased the low-affinity binding of the large fragments but not the high-affinity binding of the small fragments. Two-dimensional gel electrophoresis of the chymotryptic heparin-binding fragments shows that each molecule gave rise to a heterogeneous array of fragments of high molecular mass bound by disulfide bonds, indicating that there is a difference in the rate of cleavage between the three subunits of EC thrombospondin. Trypsin, despite its limited degradation, completely eliminated the heparin-binding capacity of both high and low-affinity loci, in contrast to platelet thrombospondin where the high affinity remains intact.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The structure of endothelial cell thrombospondin. Characterization of the heparin-binding domains. 282 10

Chymotrypsin, trypsin, carboxypeptidase A and B, elastase and enterokinase activities were measured in buffer solutions and in human duodenal juice after incubation with wheat bran, cellulose, guar gum, pectin, psyllium and lignin. The different types of dietary fiber led to inhibition of enzymatic activity in most experiments, e.g., lignin could totally ablish the activity of isolated trypsin and chymotrypsin. Only in enterokinase was there no influence. Inhibition depended on incubation time; the effect was proportional to fiber concentration and inversely related to enzyme level. Treatment of fiber with hydrochloric acid (pH 1.5) and heat (95 degrees C) destroyed inhibitory activity in some experiments. The effect of lignin on one enzyme (trypsin) was reduced by the addition of another enzyme (chymotrypsin). It is concluded that dietary fiber could affect digestion by inhibiting proteolytic pancreatic enzymes.
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PMID:Effect of dietary fiber on proteolytic pancreatic enzymes in vitro. 282 29


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