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)

The ATPase preparations from the hog thyroid was preincubated with various amounts of trypsin. The activity of Mg-ATPase was consistently elevated. On the contrary, the Na, K-ATPase activity decreased with increasing amounts of trypsin. The effects were similar to those which were observed in the enzyme preparations treated with basis polyamino acids as previously reported. This phenomenon seemed to be specific in the preparations from the thyroid. The Mg-dependent activity was increased after pretreatment with trypsin or poly-L-lysine (PLL) when CTP, ITP and UTP were used as substrate. Thus the substrate specificity of Mg-ATPase was low. The enzyme-kinetics using ATP as substrate showed that the increase in activity was due to an increase in Vmax and not to a change in Km. The activity of Mg-ATPase was increased even after 30 min of preincubation with trypsin, while the Na, K-ATPase activity was almost diminished. These results suggest that the activity of Mg-ATPase in the preparation from the thyroid is specifically changed by the modification of the molecular environment of the enzyme with trypsin or basic polyamino acids.
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PMID:Some properties of hog thyroidal membrane-bound adenosine tri-phosphatase: proteolytic activation of Mg-dependent activity. 23 39

A protein phosphokinase (EC 2.7.1.1.37) was isolated from baker's yeast (Saccharomyces cerevisiae) after a 17,000-fold purification; the purified enzyme is homogeneous according to the criteria of gel electrophoresis and ultracentrifuge analysis. The enzyme has a high isoelectric point of ca. 9 and appears to exist as a monomer with a molecular weight of 42,000 plus or minus 1500. It is neither stimulated by cyclic 3',5'-AMP, -GMP, -CMP or -ump nor inhibited by the regulatory subunit of rabbit muscle protein kinase (Reimann, E. M., Walsh, D. A., and Krebs, E. G. (1971), J. Biol. Chem. 246, 1986). In the presence of divalent metal ions, preferably Mg-2+ or Mn-2+, the enzyme readily transfers the terminal phosphate group of ATP to phosvitin, alphaS1B- and beta a-casein and an NH2-terminal tryptic peptide derived from beta a-casein, but not to protamine, lysine, or arginine-rich histones or to yeast enzymes such as phosphorylase, phosphofructokinase, or pyruvate carboxylase; serine and polyserine were also inactive as phosphate acceptors. Km values of 0.17 mM for beta a-casein and 0.2 mMfor ATP were determined at 10 mM Mg-2+. The urified yeast protein kinase also catalyzes the reverse reaction, namely, the transfer of phosphate from fully phosphorylated beta a-casein or its NH2-terminal peptide to ADP resulting in the formation of ATP. AMP, GDP, UDP, and CDP did not serve as phosphate acceptors in this reaction. As observed by Rabinowitz and Lipmann (Rabinowitz, M., and Lipmann, F. (1960), J. Biol. Chem. 235, 1043) both reactions have different pHoptima with values of 7.5 for the forward reaction (phosphorylation of the proteins) and ca 5.2 for the formation of ATP; both are differently affected by salts. Phosphorylation of beta a-casein with [gamma-32-P]ATP followed by digestion of the labeled protein with trypsin indicated that all the radioactivity was exclusively introduced in an NH2-terminal peptide possessing the unique sequence: Glu-Ser(P)-Leu-Ser(P)-Ser(P)-Ser(P)-Glu-Glu...(Ribadeau-Dumas, B., Brignon, G., Grosclaude, F., and Mercier, J.-C. (1971), eur J. Biochem. 20, 264). By subjecting beta a-casein and its NH2-terminal peptide to the combined action of almond acid phosphatease and purified yeast protein kinase, it was determined that the phosphorylation and dephosphorylation reactions proceed randomly, i.e., all seryl phosphate residues are equally susceptible and that the rate of phosphorylation decreases drastically as the number of bound phosphate groups in the substrate diminishes.
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PMID:Purification and properties of a yeast protein kinase. 23 75

A carboxypeptidase B-like enzyme which catalyses the hydrolysis of synthetic esters of lysine and arginine has been isolated from the starfish Dermasterias imbricata. This carboxypeptidase B-like enzyme has a molecular weight of approximately 34 000 and shares this and other properties with bovine pancreatic carboxypeptidase B. The existence of zymogen for this activity in the pyloric caeca of the starfish is demonstrated. This zymogen has a molecular weight near 40 000 and appears to be analogous to other monomeric procarboxypeptidases B. The zymogen possesses an intrinsic low-level activity toward synthetic substrates of carboxypeptidase B and is activated by trypsin.
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PMID:Purification of a carboxypeptidase B-like enzyme from the starfish Dermasterias imbricata. 23 21

Elastolytic enzyme was purified and crystallized from culture fluid of Flavobacterium immotum No. 9-35. The purified enzyme was homogeneous on polyacrylamide gel electrophoresis. The molecular weight was determined by Sephadex G-100 gel filtration to be 13,000. The isoelectric point was between pH 8.3 and 8.9. The optimum pH of the enzyme was 7.2 for elastolytic activity. The purified enzyme showed not only elastolytic activity, but also non-specific proteolytic activity against various other proteins. Milk-clotting activity was also observed. The enzyme did not act on keratin, collagen, or fourteen amino acid esters, including N-benzoyl-L-alanine methyl ester, N-benzoyl-L-arginine ethyl ester, and N-acetyl-L-tyrosine ethyl ester, which were typical substrates of pancreatic elastase [EC 3.4.21.11], trypsin [EC 3.4.21.4], and chymotrypsin [EC 3.4.21.1], respectively. However, the enzyme selectively hydrolyzed elastin when both elastin and albumin were present in the reaction mixture. The enzyme was inhibited by o-phenanthroline and various heavy metals such as cadmium, lead, zinc, and mercury. Various inhibitors, such as diisopropyl phosphofluoridate, tosyl-L-lysine chloromethyl ketone, tosyl-L-phenylalanine chloromethyl ketone, trypsin inhibitor, iodoacetamide, etc., had no effect on the elastolytic activity.
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PMID:Purification and properties of elastolytic enzyme from Flavobacterium immotum. 23 95

Kunitz bovine trypsin inhibitor gave with alpha-chymotrypsin a stoichiometric complex stable at neutral pH. The complex has been characteristized by amino acid composition, molecular sieving and zone electrophoresis. Complete dissociation occurred at pH 4.0 as shown by gel filtration, alpha-Chymotrypsin was displaced from the complex by trypsin either in solution or by affinity chromatography on trypsin-Sepharos: alpha-chymotrypsin was recovered in the filtrate (yield about 100%) and the inhibitor was eluted from trypsin-Sepharose with 0.1 M HCl (yield: 83%). Lysine-15 of the inhibitor was shown to be involved in the interaction between alpha-chymotrypsin and the inhibitor. When the complex was maleylated, the maleylated chymotrypsin-bound inhibitor was displaced by affinity chromatography on trypsin-Sepharose. Teh recovered derivative was oxidized, subjected to tryptic hydrolysis and the products separated by peptide mapping and analyzed. The peptides were compared with those obtained with non-maleylated inhibitor and fully maleylated free inhibitor. In the fully maleylated inhibitor, the four lysyl residues of the molecule were blocked but in the maleylated chymotrypsin-bound inhibitor, Lys-15 was unmodified in contrast to Lys-26, Lys-41 and Lys-46; therefore Lys-15 is shielded by chymotrypsin in the complex. On the other hand, when inhibitor with a selectively reduced carboxamidomethylated Cys-14-Cys-38 dislufide bridge was allowed to react with chymotrypsin, cleavage occurred not only at Tyr-21, Tyr-35 and Phe-45 but also at Lys-15, cleavage not observed in the case of the fully oxidized inhibitor. This result shows that under particular conditions the bond Lys-15-Ala-16 can be the substrate for chymotrypsin and the side chain of Lys-15 can be inserted in the chymotrypsin specificity pocket. Apparently the contact area of inhibitor with chymotrypsin seems to be similar to that with trypsin [J. Chauvet and R. Acher (1967) J. Biol. Chem. 242, 4274-4275].
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PMID:The reactive sites of Kunitz bovine-trypsin inhibitor. Role of lysine-15 in the interaction with chymotrypsin. 23 47

Human polymorphonuclear neutrophil (PMN) granule extract (25 mug of protein) released 60 percent of the available 35SO4 from labeled rabbit articular cartilage in 0.5 hour at neutral pH. N-acetyl-L-alanyl-L-alanyl-L-prolyl-L-alanine choloromethyl ketone (NAcAAPACK), a specific elastase inhibitor, was only minimally effective against whole granule extract, and N-alpha-tosyl-L-lysine chloromethyl ketone, which inhibits trypsin but not elastase, was completely ineffective. Preparative disc-gel electrophoresis of PMN granule extract revealed two separate regions with independent activity against 35SO4-labeled cartilage. One region contained elastases and when tested alone, was completely inhibited by NAcAAPACK. The other contained lysozyme and two esterases active against N-acetyl-L-phenylalanine-alpha-naphthol. Purified lysozyme proved inactive, suggesting that the chymotrypsin-like esterases were responsible for proteoglycan degradation by this region of the gel.
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PMID:Identification of neutral proteases in human neutrophil granules that degrade articular cartilage proteoglycan. 23 25

Pyridoxal-P reacts specifically with a single lysine residue at the active site of Escherichia coli aspartate transcarbamylase (Greenwell, P., Jewett, S. L., and Stark, G. R. (1973) J. Biol. Chem. 248, 5994-6001). Reduction of the Schiff base with sodium borohydride, succinylation of the remaining lysine residues, and digestion with trypsin result in formation of a single pyridoxyl peptide, which was purified to homogeneity after chromatography on DEAE-cellulose, treatment with alkaline phosphatase, and rechromatography. Amino acid composition and the results of limited sequential degradation showed that this peptide corresponds to residues 62 to 98 in the sequence of Konigsberg and co-workers, and contains 2 residues of lysine (Henderson, L., Roy, D., Martin, D., and Konigsberg, W., personal communication). By similar isolation, a second peptide was obtained from unsuccinylated catalytic subunit, containing only the pyridoxylated lysine, which corresponds to Lys-80. Derivatives of catalytic subunit containing an average of either one, two, or three pyridoxamine-P moieties per trimer have been prepared by reduction. These species, which retain catalytic activity in proportion to their unmodified active sites, were recombined with regulatory subunit to prepare partially modified derivatives of native aspartate transcarbamylase. At pH 8, fluorescence emission bands were observed at 340 nm, due to aromatic amino acids in the protein, and at 395 nm, due to the pyridoxamine-P moiety. Upon excitation at 280 nm energy transfer from protein to pyridoxamine-P was approximately 15%. The properties of the probe were used to study changes accompanying the binding of substrates and inhibitors. The effects of CTP and ATP were small. With the transition state analog N-(phosphonacetyl)-L-aspartate (PALA) or the substrate carbamyl-P, two types of response were observed. Derivatives of catalytic subunit and native enzyme which contain some unmodified sites and hence retain partial catalytic activity gave large increases in fluorescence at 395 nm. However, fully modified inactive derivatives gave much smaller increases. A derivative of native enzyme containing one triply modified and one unmodified catalytic subunit behaved like the other partially modified species. These results indicate that there is communication among the active sites of different catalytic trimers in modified native enzyme, as well as among active sites within the same modified catalytic trimer. The increases in fluorescence result from a red shift of the absorption maximum of the pyridoxamine-P moiety from 315 to 325 nm, which increases the absorbance at the excitation wavelength for fluorescence. At pH 7, the absorption spectrum is already shifted and, consequently, the binding of PALA and carbamyl-P has little effect on the fluorescence. Therefore, the binding of these compounds at pH 8.0 must cause a structural change in the protein, which in turn causes protonation of a group in the modified active sites, altering the spectral properties.
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PMID:Pyridoxal 5'-phosphate, a fluorescent probe in the active site of aspartate transcarbamylase. 23 51

1. A cyclic hexapeptide, cyclo(-Gly2-Phe2-Gly-Lys-), and the corresponding open-chain hexapeptides, Gly2-Phe2-Gly-Lys and Phe-Gly-Lys-Gly2-Phe, have been synthesized and their susceptibilities to the hydrolytic action of pepsin and trypsin were determined. 2. The cyclic peptide was hydrolyzed slowly by trypsin to a hexapeptide Gly2-Phe2-Gly-Lys, the value of the Michaelis constant for this reaction being Km equals 0.00022 M. 3. The cyclic peptide was not cleaved by pepsin at all, but Gly2-Phe2-Gly-Lys was hydrolyzed rapidly at a Phe-Phe bond; Km equals 0.0091 M. 4. The cyclic peptide inhibits the hydrolysis of Gly2-Phe2-Gly-Lys by pepsin in a linear non-competitive manner, the value of the inhibition constant being Ki equals 0.004 M.
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PMID:Synthesis and hydrolysis by pepsin and trypsin of a cyclic hexapeptide containing lysine and phenylalanine. 24 Jun 80

We have previously demonstrated the existence of two types of endopeptidase in Escherichia coli. A purification procedure is described for one of these, designated protease II. It has been purified about 13,500-fold with a recovery of 24%. The isolated enzyme appears homogeneous by electrophoresis and gel filtration. Its molecular weight is estimated by three different methods to be about 58,000. Its optimal pH is around 8. Protease II activity is unaffected by chelating agents and sulfhydryl reagents. Amidase and proteolytic activities are stimulated by calcium ion, which decreases the enzyme stability. Like pancreatic trypsin, this endopeptidase catalyses the hydrolysis of alpha-amino-substituted lysine and arginine esters. It appears distinct from the previously isolated protease I, which is a chymotrypsin-like enzyme. The apparent Michaelis constant for hydrolysis of N-benzoyl-L-arginine ethyl ester is 4.7 X 10(-4) M. The esterase activity is inhibited by diisopryopylphosphorofluoridate (Ki(app) equals 2.7 X 10(-3) M) and tosyl lysine chloromethyl ketone (Ki(app) equals 1.8 X 10(-5) M), indicating that serine and histidine residues may be present in the active site. However, protease II is insensitive to phenylmethanesulfonyl fluoride and several natural trypsin inhibitors. Its amidase and esterase activities are competitively inhibited by free arginine and aromatic amidines. The proteolytic activity measured on axocasein is very low. In contrast to trypsin, protease II is without effect on native beta-galactosidase. It easily degrades aspartokinase I and III. Nevertheless both enzymes are resistant to proteolysis in the presence of their respective allosteric effectors. These results provide further evidence that such differences in protease susceptibility can be related to the conformational state of the substrate. The possible implication of structural changes in the mechanism of preferential proteolysis in vivo, is discussed.
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PMID:Protease II from Escherichia coli. Purification and characterization. 24 Aug 39

A method is described for the simultaneous purification of milligram quantities of complement components C2 and Factor B. Both products are homogeneous by the criteria of polyacrylamide-gel electrophoresis and N-terminal sequence analysis. Component C2 is cleaved by serine proteinase C1s at an X-Lys bond to give fragment C2a (approx. mol.wt. 74000) and fragment C2b (approx. mol.wt. 34000). The two fragments can be separated by gel filtration without the need for reducing or denaturing agents. Fragment C2b represents the N-terminal end of the molecule. Similar results were seen on cleavage of Factor B by Factor D in the presence of component C3. Again two non-covalently linked fragments are formed. The smaller, fragment Ba (approx. mol.wt. 36,000),) has threonine as the N-terminal residue, as does Factor B; the larger, fragment Bb (approx. mol. wt. 58000), has lysine as the N-terminal residue. A similar cleavage pattern is obtained on limited proteolysis of Factor B by trypsin, suggesting an Arg-Lys-or Lys-Lys bond at the point of cleavage. Although component C2 and Factor B show no apparent N-terminal sequence homology, a limited degree of sequence homology is seen around the sites of proteolytic cleavage.
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PMID:Limited proteolysis of complement components C2 and factor B. Structural analogy and limited sequence homology. 26 15

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