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)

Synaptic membranes from human and swine brains were solubilized with 8 M urea and the proteins were reduced and alkylated. A protein was isolated from both sources and had identical amino acid compositions and molecular weights as determined by electrophoresis on polyacrylamide-sodium dodecylsulfate gels and by ion-exchange chromatography and gel filtration on Bioglas 1000. The apparent molecular weight of the protein was 53 000 on the acrylamide-sodium dodecylsulfate gels. Neither neutral sugars nor sialic acid was a significant component of the protein. When the proteins were digested with trypsin and the resultant peptides subjected to chromatography (n-butanol/acetic acid/water) and electrophoresis (pH 3.7) the peptide maps were identical. The protein comprises 1-2 percent of the total synaptosomal protein. With regard to amino acid composition, molecular weight, peptide map characteristics, behavior on DEAE-cellulose columns, electrophoretic mobility and sugar content, the synaptic protein is quite similar to the monomer of swine tubulin.
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PMID:Isolation and partial characterization of a tubulin-like protein from human and swine synaptosomal membranes. 113 16

The formation of the protein-protein interface by the insulin dimer, the trypsin-PTI complex and the alphabeta oxyhaemoglobin dimer removes 1,130-1,720 A2 of accessible surface from contact with water. The residues forming the interface are close packed: each occupies the same volume as it does in crystals of amino acids. These results indicate that hydrophobicity is the major factor stabilising protein-protein association, while complementarily plays a selective role in deciding which proteins may associate.
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PMID:Principles of protein-protein recognition. 115 6

Proteolytic activity in the acrosomes of ejaculated bull spermatozoa was demonstrated using an autoradiographic film as a gelatin substrate. Incubation of the spermgelatin adducts at +37 degrees C and 94% humidity, which was kept constant by ventilating an incubator with water-saturated compressed air, yielded reproducible results. Gelatin depolymerisation started adjacent to the posterior segment of the acrosome within 30 to 60 s after application of individual spermatozoa to the substrate membrane and, finally, increased to a white circular digestion area enveloping the entire sperm head. The observed gelatinolysis seems to be mainly caused by acrosin, the trypsin-like acrosomal proteinase. This conclusion is supported by the positive correlation (r = +0.83, P is less than or equal to 0.01) found between the mean values of the lysis areas of individual spermatozoa on gelatin films and the acrosin activity of the sperm population measured with Bz-Arg-OEt as substrate after acidic extraction of the spermatozoa. In addition, prior saturation of the substrate layers with acrosin inhibitor (SSPI-I, II) from boar seminal plasma prevented the lysis reaction. Extraction of acrosin from the spermatozoa before application to the gelatin membranes resulted in a complete loss of any proteolytic activity. If spermatozoa were stored for 4 to 6 days at +4 degrees C or -20 degrees C in Tris buffer and afterwards applied to the substrate layer, lysis areas of individual spermatozoa differed markedly. Spermatozoa from undiluted ejaculated frozen at -20 degrees C showed no proteolytic effect on gelatin films. In general, there was a high correlation (r = +0.83, P is less than or equal 0.01) between the number of "living cells" characterized by live-dead staining and the percentage of spermatozoa active on the substrate membranes.
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PMID:The lysis effect of bull spermatozoa on gelatin substrate film methodical investigations. 118 Dec 57

Upon fertilization, sea urchin eggs (Stronglyocentrotus pupuratus) release a protease into the surrounding sea water. This protease is in a particulate form which can be solubilized. The soluble form was purified by affinity chromatography on columns of immobilized soybean trypsin inhibitor. The purified enzyme is similar to bovine trypsin both in molecular weight (22500) and in susceptibility to inhibitors such as diisopropyl phosphofluoridate and soybean trypsin inhibitor. In contrast, extracts of unfertilized eggs appear to contain an inactive form of the enzyme which can be activated by dialysis at pH 4.6. The enzyme, as purified from extracts activated in this manner, was similar in its properties to that from fertilized eggs.
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PMID:Isolation of a protease from sea urchin eggs before and after fertilization. 118 29

1. Anti-heart mitochondria autoantibodies were developed in serum from dogs following experimental myocardial infarction. 2. Heart mitochondria frozen and thawed repeatedly in a sucrose/Tris-chloride buffer retained both their functional integrity as measured by the respiratory control ratio and their ability to serve as an antigen in a complement fixation test. Mitochondria frozen and thawed in a potassium chloride/Tris-chloride buffer lost both their functional integrity and their autoantigenic activity after one freeze-thaw cycle. 3. Extraction of the heart mitochondria with acetone/water mixtures to remove phospholipids from the membrane led to a complete loss of the ability of the mitochondria to react in the complement fixation test but did not affect the ability of the membranes to bind autoantibody in absorption experiments. 4. Treatment of the mitochondrial membranes with increasing concentrations of trypsin caused a loss of up to approximately 50% of the membrane protein with a gradual decrease in the autoantigenic activity of the membrane without impairment of the ability of the membrane to bind autoantibody. 5. Removal of up to 90% of the sialic acid of the mitochondrial membrane with neuraminidase resulted in a considerable increase in the complement-fixing autoantigenic activity of the membrane without changing the apparent ability of the membrane to bind autoantibody in absorption experiments. 6. Exposure of mitochondrial membranes to autoantibody and complement caused an inhibition of both an inner mitochondrial membrane enzyme, i.e. cytochrome oxidase (48%) and an outer mitochondrial membrane enzyme, i.e. NADH cytochrome c reductase (rotenone insensitive) (37%).
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PMID:Characterization of autoantigenic sites on isolated dog heart mitochondria. 118 45

A rat preparation in which the perfusion route bypassed the lungs, which were substituted by an artificial oxygenator, was exsanguinated and perfused with oxygenated 4% dextran (M.W. 70,000) in Tyrode's fluid; a peristaltic pump propelled the perfusing fluid at 20-25 ml/min through the aortic arch and the perfusion medium returned to the right ventricle. Known amounts of bradykinin (BK), kallidin (lysul-bradykinin, LBK) and methionyllysylbradykinin (MLBK) were administered as single injections and samples of the perfusion fluid removed between 1.5 to 6 min following injection. Average total kinin activity remaining in the circulating fluid was calculated from assays on the isolated guinea pig ileum against respective kinin injected and found to be after 3 and 6 min respectively: 20 and 5% for BK, 54 and 21% for LBK, 60 and 30% for MLBK. When the lungs were introduced in the perfusion circuit BK recoveries decreased to 0.4% at 4 min and 0% at 6 min. In 2 experiments 1 mg MLBK and, in another two, 1 mg of LBK were recirculated for 3 to 3.5 min in the rat preparation with lung bypass; enzymic reactions were interrupted in the perfusates after removal by lowering the pH to 4.7 and placing them in a boiling water bath for 5 min. Following proper dilution, kinin activity left in the perfusates was separated on carboxymethylcellulose columns; in 3 experiments about 50% of the activity was identified as BK from its elution position and resistance to trypsin digestion. The average BK-inactivating potency of the perfusate obtained from the rat with lung bypass was 0.3 mug BK/min x ml compared to 16 mug BK/min x ml of rat plasma. The arylamidase activity on arginylnaphthylamide of the perfusate was 2 n moles NA/min x ml and it was about 25-fold lower than that of rat plasma. Rat liver was exsanguinated and perfused in situ through the portal vein and inferior cava vein using the same conditions as for the whole animal. The perfusion rate was 12 ml/min. The recovery of injected BK in this preparation was 40% after 2 min of recirculation, declining progressively in the following minutes. When MLBK was perfused in this preparation for 3 min or glycylarginyllysylbradykinin (GALBK) for 3 and 5 min, significant amounts of BK were found in the perfusates. We conclude that LBK, MLBK and GALBK may be converted at a high rate into BK by tissue aminopeptidases found in the rat preparations used. BK inactivation in the whole rat is a fast reaction, even when the pulmonary tissue is not involved in the inactivation.
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PMID:Recovery and conversion of kinins in exsanguinated rat preparations. 118 19

1. A simple method is given for isolating from ram spermatozoa a water-soluble form of acrosin (a trypsin-like enzyme) which is about 25% pure. It is free from an acrosin inhibitor which is located in the spermatozoa. 2. In the hydrolysis of N-alpha-benzoyl-l-arginine ethyl ester the degree of activation of acrosin by Ca(2+), and by some other cations, is dependent on the extent of contamination by the inhibitor. In 50mm-Tris-HCl buffer (pH8.2) activation by Ca(2+) did not exceed 40%, but acrosin that is partially inhibited may be activated by up to 300%: this is due to cation-mediated protection of acrosin against the inhibitor. 3. Increasing concentrations of buffers (e.g. Tris) also activate acrosin but at above certain buffer concentrations Ca(2+) no longer exerts an activating effect and may become inhibitory. Ca(2+) is also inhibitory when added to assay systems involving anionic buffers with chelating properties. This is due to a fall in pH. 4. The above results suggest reasons for conflicting conclusions in papers dealing with the effects of Ca(2+) on acrosin activity. 5. Inhibition of acrosin by the Kunitz pancreatic trypsin inhibitor is increased on addition of Ca(2+). Inhibitions of trypsin by the acrosin inhibitor and by the Kunitz inhibitor are insensitive to Ca(2+). 6. Like trypsin, acrosin is activated, up to 60%, by 2-methyl-propan-2-ol, dimethyl sulphoxide, and some other water-miscible solvents. Effects of cations and solvents tend to be additive and a common maximum acrosin activity can be achieved with various concentrations of solvent, salts and buffer in the assay system. Activation by solvents is increased when low concentrations of the acrosin inhibitor are present. 7. Activations of acrosin by salts and by solvents are more pronounced when the substrate is N-alpha-benzoyl-dl-arginine 2-naphthylamide. 8. K(m) values for ram acrosin (about 0.2mm) are much higher than those for trypsin, and k(cat.) values are slightly higher than those for trypsin. Considerations of the influences of ions and dimethyl sulphoxide on the activities and kinetic constants of acrosin and trypsin suggest that conformational changes are the factors mainly responsible for the reported activations of acrosin. 9. The following conclusions are reached. (a) Acrosin plays a role in the penetration of the sperm cell into the egg without becoming detached from the acrosomal membrane. (b) The enzyme is a peripheral membrane protein which may be classed as a cathepsin. (c) The susceptibility of the activity of soluble acrosin to cations and solvents points to a flexible molecule, i.e. one lacking conformational restraints imposed by association (presumably ionic) with the acrosomal membrane.
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PMID:Studies on ram acrosin. Isolation from spermatozoa, activation by cations and organic solvents, and influence of cations on its reaction with inhibitors. 119 Dec 54

1. Titration in sodium barbiturate buffer of acrosin, a serine proteinase from sperm acrosomes, with the ester substrate 4-methylumbelliferyl p-guanidinobenzoate gave rise to an incomplete 'burst' of 4-methylumbelliferone. Studies of the effects on the reaction of activators of acrosin (Ca2+, water-miscible solvents) showed that titrations carried out in barbiturate buffer containing 1M-CaCl2 and diluted with 0.2 vol. of dimethylsulphoxide produced a rapid quantitative burst within 4 min at 20 degrees C. 2. The net post-burst production of 4-methylumbelliferone was neglibible because (a) the acyl-enzyme was very stable, and (b) the slow post-burst formation of 4-methylumbelliferone (turnover of acyl-enzyme) was virtually equal to the slow photolytic destruction of 4-methylumbelliferone that was liberated during the burst. 3. The standard procedure permits titrations of 20-100pmol of acrosin, i.e. amounts normally taken for conventional rate assays, and with these amounts the impurities present in crude enzme fractions did not interfere. The burst was judged to be quantitative on the basis of comparisons with titrations of acrosin with p-nitrophenyl p'-quanidinobenzoate. 4. The burst reaction of trypsin with the 4-methylumbelliferyl ester was inhibited by high Ca2+ concentrations and by dimethyl sulphoxide. 5. The association and dissociation of complexes of both acrosin and trypsin with protein-type inhibitors (Kunitz pancreatic trypsin inhibitor and a spermatozoal acrosin inhibitor) are rather slow. It is thus possible, in certain cases, to use the ester to titrate both total enzyme in an inhibitor-enzyme mixture and net enzyme, i.e. the stoicheiometric excess of enzyme over inhibitor.
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PMID:Studies on ram acrosin. Fluorimetric titratiion of operational molarity with 4-methylumbelliferyl p-guanidinobenzoate. 119 Dec 55

The uptake of [ring C-methoxyl-3H]colchicine into bovine anterior pituitary slices was studied. The data suggest that more than one site exists for the binding of colchicine. At low concentrations colchicine binds to saturable trypsin-sensitive site(s), with a dissociation constant of 3.1 +/- 0.69 mug. The binding capacity of these sites is 8.58 +/- 0.60 pmol of colchicine/mg of wet pituitary. At higher colchicine concentrations binding occurs predominantly to sites which exhibit non-saturation kinetics. Subcellular fractionation of colchicine-labelled slices shows that 90% of the saturable sites are present in the fraction containing cytosol, where the binding protein has a molecular weight of about 11.9 x 10(4) and constitutes 0.7% of the protein present. The nuclear fraction contains 10% of the saturable sites, and the mitochondria and granule fraction contain only non-saturable sites. The rate of colchicine uptake was studied at 0.84 mm- and 2mum-colchicine. At both concentrations the colchicine space exceeded the total tissue water within 10 min. Equilibration with the saturable binding sites was complete in 120 min at 2mum-colchicine. A concentration of colchicine (13.4 mum) which would give 81% maximum binding was found to decrease the length of observable microtubules in tissue fixed at 37 degrees C in glutaraldehyde by 83 +/- 4%. The colchicine-binding protein could be partially purified by using a standard procedure for isolation of brain tubulin. Colchicine inhibits the release of growth hormone in the presence of 3-isobutyl-1-methylxanthine (0.1 mm), but does not alter basal release. The concentration-dependence of colchicine inhibition is similar to that of colchicine binding, but maximum inhibition is only 35%.
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PMID:Colchicine binding to bovine anterior pituitary slices and inhibition of growth-hormone release. 120 Sep 86

The dependence of the rate of trypsin ultrafiltration on the concentration, pressure and structure of membranes was studied. During ultrafiltration of diluted trypsin (0.3 mg/ml), water and sodium chloride the flow rate increased linearly with a pressure increase in the range of 0.4-4.2 kg/cm2. During ultrafiltration of trypsin solutions of a concentration of 1 mg/ml and over at a pressure of 2-3 kg/cm2 deviations from linear proportionality occurred which enhanced with an increase in the protein concentration and a decrease in membrane permeability.
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PMID:[Study of ultrafiltration of trypsin solutions]. 120 99

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