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)

1. Chymotrypsin is inactivated by N-acetyl-alpha-azaphenylalanine phenyl ester (phenyl N(2)-acetyl-N(1)-benzylcarbazate) in a stoicheiometric reaction. 2. The inactivation is reversible spontaneously (first-order rate constant is 1.2x10(-4)s(-1)) and accelerated by the presence of hydroxylamine. 3. Polymers based on polyacrylamide and carrying ligands containing the alpha-azaphenylalanine phenyl ester group were prepared. 4. Chymotrypsin reacts with these polymers and is removed by them from solution. Trypsin reacts less rapidly. 5. Chymotrypsin is slowly released from the polymer spontaneously and more rapidly on treatment with hydroxylamine. 6. The reaction of trypsin can be inhibited by competitive inhibitors. 7. Chymotrypsin was separated from trypsin by the selective bonding of chymotrypsin on to and its subsequent liberation from one of the polymers described.
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PMID:The reaction of an alpha-aza-amino acid derivative with chymotrypsin and its use as a ligand for covalent affinity purification. 460 21

Trypsin and chymotrypsin concentrations were determined in 180 spot stool specimens from 110 control patients in hospital. The lower limit of normality for each enzyme was placed at the 5% level: 95% of this population excreted feces containing more than 100 mug. of chymotrypsin and 30 mug. of trypsin per g. of feces. Chymotrypsin concentrations appeared to be a more reliable guide to pancreatic function than trypsin concentrations.Fecal chymotrypsin concentrations were subnormal in five patients with chronic pancreatitis, borderline in one patient with relapsing pancreatitis, subnormal in one patient after pancreatectomy, and subnormal in five of nine with carcinoma of the pancreas. Subnormal concentrations of fecal chymotrypsin were found in seven of 21 patients with chronic liver disease related to alcoholism, eight of 32 with a partial gastrectomy, three of 10 with adult celiac disease and five of 16 with psoriasis.It appears that the determination of fecal chymotrypsin concentrations provides a valuable screening test for pancreatic exocrine deficiency. However, normal results may be found in some patients with pancreatic disease and subnormal values may occur in some patients with other conditions.
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PMID:Fecal chymotrypsin and trypsin determinations. 555 Mar 76

1. Trypsin digestion of Micrococcus lysodeikticus polynucleotide phosphorylase (nucleoside diphosphate-polynucleotide nucleotidyltransferase) causes a progressive increase in electrophoretic mobility in polyacrylamide gels of the single active degradation product. 2. A marked increase in primer requirement for CDP polymerization occurs before a more mobile product is formed. 3. alpha-Chymotrypsin digestion yields a product that separates into several active species on polyacrylamide-gel electrophoretograms. 4. No separation of ADP-and CDP-polymerization activities occurs during electrophoresis after either trypsin or alpha-chymotrypsin treatment.
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PMID:A study by polyacrylamide-gel electrophoresis of the effect of proteolysis on Micrococcus lysodeikticus polynucleotide phosphorylase. 570 78

1. Using the blood-bathed organ technique with cat jejunum as the test organ, it was shown that kinin was regularly released by infusions of trypsin, chymotrypsin and nagarse into the blood superfusing the tissue or into the jugular vein of dogs.2. Intravenous injections of the three enzymes, in doses which did not change plasma bradykininogen (BKG) level, induced generation of kinin in the circulating blood.3. Nagarse in kinin-liberating concentrations did not liberate angiotensin in the circulating blood.4. The responses of the cat jejunum strip, and the systemic hypotension induced by the three enzymes, were enhanced by treatment of the dog with a bradykinin potentiator.5. Injection of the enzymes in the blood perfused hind leg of the dog caused a fall in the vascular resistance. In this preparation, bradykinin potentiating factor (BPF) potentiated trypsin, but not the effects of chymotrypsin and nagarse injections.6. It is suggested that the blood pressure lowering effect of low doses of trypsin is due mainly to kinin release. Chymotrypsin and nagarse, in addition to having a direct action on the vascular smooth muscles, also have indirect hypotensive effects due to the liberation of kinin.
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PMID:Liberation of a bradykinin-like substance in the circulating blood of dogs by trypsin, chymotrypsin and nagarse. 578 13

Glucose transporter proteins (zone 4.5) which had been photoaffinity labeled with [3H]cytochalasin B in human erythrocyte ghosts were subjected to enzymatic dissection in order to study the transmembrane disposition of the protein in situ. Proteolytic enzymes as well as glycosidases were used to treat unsealed and resealed ghosts in order to explore the various membrane domains of the transporter in a topographically defined manner. Limited digestion of sealed ghosts with trypsin had no effect on the apparent Mr of the transporter (55,000). Similar treatment in unsealed ghosts, however, resulted in the generation of a major fragment of 21.5 kDa, along with several minor fragments. Thermolysin also had no effect on sealed ghosts but caused a complete loss of radiolabel from the zone 4.5 region with no lower-molecular-weight fragments being retained on the gel. Chymotrypsin treatment resulted in the generation of a single peak, Mr = 18,400, in both sealed and unsealed ghosts indicating its action occurs at the outer surface. Digestion with carboxypeptidase and aminopeptidase indicate the C-terminal end of the transporter is located exterior to the membrane with the N terminus located at the cytoplasmic surface. Treatment with endoglycosidase resulted in a shift of mobility of the transporter to a lower Mr of 49,000. The results obtained indicate that the carbohydrate is located near the C-terminal end and that the cytochalasin B-binding site is located near the cytoplasmic N-terminal end.
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PMID:Orientation of the glucose transporter in the human erythrocyte membrane. Investigation by in situ proteolytic dissection. 615 39

The sensitivity of highly purified human fibroblast interferon and partially purified human leukocyte interferon to several proteolytic and glycolytic enzymes was determined with respect to antiviral activity, isoelectric point, molecular weight, and thermal stability. Leucine aminopeptidase altered the distribution of isoelectric points for both interferons but produced little change in molecular weights; this enzyme somewhat reduced the activity of only leukocyte interferon. Treatment of fibroblast interferon with carboxypeptidases A and B did not greatly decrease antiviral activity, but it did slightly reduce the molecular weight of the interferon and substantially altered the distribution of isoelectric point values; similar treatment of leukocyte interferon caused some loss in activity, especially of the 17,000-molecular-weight species. Both interferons were inactivated rapidly by treatment with the endoproteases trypsin, pepsin, bromelain, and subtilisin. Chymotrypsin shifted the isoelectric points of both interferons, but only leukocyte interferon was significantly inactivated. Treatment with neuraminidase and beta-galactosidase changed the isoelectric point distribution but did not affect the activity or thermal stability of either interferon; such a treatment reduced the molecular weight of fibroblast interferon and the size heterogeneity of leukocyte interferon. Treatment with neuraminidase and then leucine aminopeptidase greatly reduced the activity of both interferons, especially leukocyte interferon. The data indicate that biologically active forms of fibroblast and leukocyte interferons can be distinguished by their relative sensitivity to certain proteases.
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PMID:Enzymatic modifications of human fibroblast and leukocyte interferons. 616 Feb 60

Conditions were established for the generation of limited proteolysis products from purified H-2Kk in high yield (greater than 70%). Chymotrypsin, trypsin, or papain treatment in buffer containing Nonidet P-40 resulted in removal of discrete segments from the H-2 heavy chain without detectable alteration of the beta 2-microglobulin. The Mr = 47,400 heavy chain was converted to products with Mr = 44,200, 42,800, or 40,600 by treatment with chymotrypsin, trypsin, or papain, respectively. Papain digestion removed both the hydrophilic carboxyl terminus and the hydrophobic regions. The size, detergent binding properties, and products resulting from subsequent papain treatment demonstrated that chymotrypsin or trypsin removed segments of the hydrophilic carboxyl-terminal region of the heavy chain while leaving the hydrophobic (membrane-spanning) and glycosylated NH2-terminal regions intact. Chymotrypsin and trypsin caused rapid and extensive degradation of the H-2Kk heavy chain when treatment was done in buffer containing deoxycholate, suggesting that the protein undergoes partial, but readily reversible, denaturation in this detergent. This may account for the elution of H-2K and D antigens from monoclonal antibody affinity columns by deoxycholate-containing buffers.
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PMID:Proteolytic modifications of the carboxyl-terminal region of H-2Kk. 618 64

Human serum contains enzyme(s) able to degrade serum amyloid A protein (SAA) and amyloid A (AA) fibrils. On the basis of inhibition tests these enzymes are regarded as serine proteases, but further characterization of the enzymes has, however, so far not been done. Chymotrypsin, trypsin, elastase, collagenase and kallikrein, when added to SAA-containing serum, all degraded SAA to peptides within 2 h at 37 degrees C. With the exception of collagenase these enzymes also destroyed the Sirius-Red-binding ability of amyloidotic tissue and that of isolated AA fibrils. Hence, they altered the conformation of the beta-pleated structure and possibly also degraded the fibrils. These results suggest that any of these serine proteases could be responsible of the degradation of SAA in serum. The enzyme concentrations needed to degrade amyloid fibrils, however, were much higher than normally found in serum. Thus, it is unlikely that the amyloid-fibril-degrading activity in serum could be due to any of these enzymes.
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PMID:Do serine proteases degrade amyloid A fibrils? 619 37

A new method for removing nearly all active endoproteinases from fluids called "sandwich affinity chromatography" is described. It is based on strong chelate binding of alpha 2-macroglobulin (alpha 2M) and its proteinase complexes to Zn2+-bis-carboxymethylamino-Sepharose (Zn chelate-Sepharose) and its ability to complex most active endoproteinases. The preferred performance minimizing unspecific protein adsorption is binding first alpha 2M to Zn chelate-Sepharose and then adsorbing the proteinase to the alpha 2M-Zn chelate-Sepharose using elevated salt concentrations. A suitable standard buffer, in which most proteases and alpha 2M are active and the protease-alpha 2M complex remains bound to Zn chelate-Sepharose, is 0.02 mol/liter sodium phosphate, pH 6.5, containing 0.15 mol/liter NaCl. As an example, the reaction of trypsin with alpha 2M-Zn chelate-Sepharose was studied. After saturating Zn chelate-Sepharose first with alpha 2M and then with trypsin under standard conditions, the bound alpha 2M equals the bound trypsin activity (measured with Chromozym TRY). The specific binding capacity of alpha 2M-Zn chelate-Sepharose for proteases was determined in this way to be 30-40 U trypsin, i.e., 0.40-0.54 mg/ml of gel. The balance and the fact that the bound trypsin is inaccessible to soybean trypsin inhibitor indicate that at these conditions no unspecific trypsin binding occurs. Chymotrypsin, thermolysin, elastase, bromelain, ficin, and papain are also bound at standard conditions but not exoproteases like carboxypeptidases A and Y. Advantages of the sandwich affinity chromatography are the simple loading procedure by adsorption, the high capacity of the gel material, and the possibility to reuse the Zn chelate-Sepharose after eluting reacted alpha 2M and reloading with new alpha 2M.
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PMID:Removal of endoproteinases from biological fluids by "sandwich affinity chromatography" with alpha 2-macroglobulin bound to zinc chelate-Sepharose. 620 48

The porcine uterus secretes a group of basic, low molecular weight protease inhibitors under the influence of progesterone, but not estrogen. One of these inhibitors (Mr approximately 14,500) which inhibits trypsin, plasmin, and chymotrypsin, but not other proteases tested, has been purified 10- to 15-fold from uterine secretions of pseudopregnant pigs using Sephadex G-100 chromatography, CM-cellulose ion exchange chromatography, and Sephadex G-50 or Bio-Gel P-10 chromatography. The inhibitor which is relatively heat- and pH-stable forms a 1:1 molar complex with trypsin which is not dissociated in sodium dodecyl sulfate except by boiling. Chymotrypsin appears to bind at the same site on the inhibitor as trypsin. The inhibitor is high in half-cysteine residues and basic amino acids, and appears not to be a glycoprotein. Antiserum has been raised against the purified inhibitor in rabbits and used to test its distribution in pigs using the immunoperoxidase-staining technique on tissue sections. The inhibitor is associated only with the glandular and surface epithelium of the uterus. Endometrial explants from pseudopregnant animals, cultured in presence of L-[3H]leucine, release the inhibitor in radioactive form indicating that it is a uterine product. The antiserum against the inhibitor cross-reacts with at least three other, basic, low molecular weights plasmin/trypsin inhibitors in porcine uterine secretions, suggesting that a family of isoinhibitors exists which may constitute up to 15% of the protein in porcine uterine secretions. The inhibitor(s) appears to coat and to be taken up by the trophoectoderm cells of the elongating blastocyst during pregnancy. It is suggested that the inhibitors may serve to protect the uterus from proteases released by the porcine trophoblast or to prevent degradation of essential macromolecules, such as uteroferrin, which have to be taken up by the conceptus.
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PMID:Purification and properties of a progesterone-induced plasmin/trypsin inhibitor from uterine secretions of pigs and its immunocytochemical localization in the pregnant uterus. 621 38


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