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)

Carbobenzoxy-L-phenylalanyl-triethylenetetraminyl-Sepharose (Z-L-Phe-T-Sepharose) was found to be an effective affinity adsorbent for bovine pancreatic alpha-chymotrypsin [EC 3.4.21.1] as well as neutral [EC 3.4.24.4] and alkaline [EC 3.4.21.14] proteases of Bacillus species. These enzymes were adsorbed in the neutral pH range. alpha-Chymotrypsin was recovered by elution with 0.1 A acetic acid while neutral subtilopeptidase was eluted with 0.5 M NaCl at pH 0. Thermolysin and subtilisin were found in eluates with 1.5 and 2.0 M guanidine-HCl at pH 7.2, respectively. The resulting enzymes appeared homogeneous on disc-electrophoresis and showed higher specific activities than those of crystalline or highly purified preparations available commercially. Modifications of the active site serines of alpha-chymotrypsin and subtilisin by treatment with diisopropylfluorophosphate (DFP) or phenylmethanesulfonyl fluoride (PMSF) resulted in loss in their binding abilities to the adsorbent. Complexes of porcine alpha2-macroglobulin with each of these four enzymes and that of Streptomyces-subtilisin inhibitor (S-SI) with subtilisin were also found in nonadsorbed fractions.
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PMID:Affinity chromatography of alpha-chymotrypsin, subtilism, and metalloendopeptidases on carbobenzoxy-L-phenylalanyl-triehtylenetetraminyl-sepharose. 23 66

An acid proteinase from Aspergillus oryzae was isolated from a commercial powder by successive (NH4)2SO4 fractionation, acetone precipitation, and ion-exchange chromatography on phosphate- and DEAE-cellulose columns. The purified enzyme was found to be homogeneous by ultracentrifuge-sedimentation analysis (S20, W equal 3.63S), but electrofocusing in polyacrylamide gels and electrophoresis at pH 3.2 revealed that it consists of two very closely migrating bands. No difference in the amino acid composition and enzymic activities of the two partially separated bands could be detected, and it was concluded that the acid proteinase exists in two molecular forms. The enzyme activates bovine trypsinogen and chymotrypsinogen at pH 3.5 (the kappacat. and Km values at 35degrees C are 11.3S- minus 1, 0.10mM and 1.14S- minus 1, 0.18mM respectively). It hydrolyses the Phe-Phe bond of the synthetic pepsin substrates Z-His-Phe-Phe-OEt (kappacat. equal 1.65S- minus 1, Km equal 0.640mM at pH 3.5, 30degrees C) and Z-Ala-Ala-Phe-Phe-OPy4Pr (kappacat. equal 0.37S- minus 1, Km equal 0.037 mM at pH2.9, 39degrees C), where Z represents benzyloxycarbonyl and OPy4Pr represents 3-(4-pyridyl)-propyl 1-ester. Activation of bovine chymotrypsinogen results from the cleavage of the Arg(15)-Ile(16) bond in the zymogen. No other cleavages were observed. The use of A. oryzae proteinase provides a simple tool for the production of pi-chymotrypsin in good yield and purity.
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PMID:Aspergillus oryzae acid proteinase. Purification and properties, and formation of pi-chymotrypsin. 23 2

A chymotrypsin-like esterase was purified from beef lung. This lysosomal enzyme, not previously characterized, seemed to be composed of two or more forms with molecular weights of about 52 000. It hydrolysed N-benzoyl-DL-phenylalanine beta-naphthol ester at acid and neutral pH; it polymerized L-phenylalanine methyl ester(Phe-OMe) at neutral pH; and it transferred the Phe-residue from Phe-OMe to hydroxylamine at neutral pH. Phenylmethanesulfonyl fluoride, an inhibitor of hydrolytic enzymes with serine in their catalytic site, inhibited this enzyme, but pepstatin, the cathepsin D (EC 3.4.4.23) inhibitor, did not. Sulfhydryl reagents were not required for activity. Macrophages, especially pulmonary alveolar macrophages, were a rich source of this esterase, so it is likely that the enzyme purified from lung came from its macrophages. The esterase hydrolysed and transferred monoamino acid esters, especially those of the aromatic type. Cathepsin C, the dipeptidyl peptide hydrolase (EC 3.4.14.1), acted only on dipeptide esters and amides. Pancreatic chymotrypsin acted on both monoamino acid and dipeptide esters. The chymotrypsin-like esterase did not hydrolyse hemoglobin, casein, or plasma albumin. Thus its proteolytic activity, if present, must be limited to specific substrates, as yet unknown.
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PMID:Macrophage esterase: identification, purification and properties of a chymotrypsin-like esterase from lung that hydrolyses and transfers nonpolar amino acid esters. 24 Apr 26

Proteolytic removal of the pre-segment from growing nascent chains of pre-human placental lactogen (hPL) occurred during in vitro translation of placental mRNA if crude membranes derived from ascites lysates, dog pancreas, or rat liver rough endoplasmic reticulum were added to the translation mixtures. The cotranslational proteolytic event was inhibited by the peptide protease inhibitor, chymostatin, but not by leupeptin, antipain, or elastatinal. The proteases involved in cleavage were solubilized with detergent and converted completed pre-hPL to hPL (post-translational processing). Direct assay of the solubilized membranes, with synthetic fluorogenic aminocoumarin peptide substrates, revealed no significant tryptic or elastase-like activity, but activity against a chymotrypsin substrate [(succinyl-Ala-Ala-Phe)-7-amino-4-methyl-coumarin] was found. This activity was dependent upon both an endopeptidase and an aminopeptidase. Although bestatin inhibited the aminopeptidase activity, it had no effect on the endopeptidase or on post-translational cleavage. Although this endopeptidase cleaved on the COOH side of an alanine residue, it was not inhibited by elastatinal. However, it was inhibited by high levels of chymostatin and by some serine protease inhibitors.
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PMID:Characterization of an endopeptidase involved in pre-protein processing. 29 60

The synthesis and characterization of protein proteinase inhibitor homologues with variations in the amino acid composition in the vicinity of the reactive site should aid the understanding of the mechanism by which inhibition of enzymatic activity occurs. A homologue inhibitor in which the reactive-site residue Ala-16 of basic pancreatic trypsin inhibitor (Kunitz) (BPTI) is replaced by Phe has been synthesized to study the effect of this replacement on the dissociation constants of the enzyme-inhibitor complexes. The replacement of Ala-16 by Phe causes a dramatic increase in the K1 value of the trypsin-BPTI complex while that of the chymotrypsin-BPTI complex remains essentially the same. This cannot be explained simply in terms of increased steric crowding. The Phe replacement probably causes a small change in the local conformation of the reactive site of the inhibitor which leads to a large decrease in the stability of the very tight trypsin-BPTI complex. This conformation change apparently can be tolerated in the less tightly bound chymotrypsin-BPTI complex. On the basis of the known structure of BPTI, a cyclic heptadecapeptide containing one disulfide bond was synthesized as a model inhibitor in order to determine if a smaller peptide can be designed to act as a highly efficient inhibitor for trypsin. This heptadecapeptide which contains all of the amino acid residues of BPTI taking part in the interaction of the proteinase inhibitor with trypsin binds 3 X 10(7) time more weakly to the enzyme than native BPTI does. It thus appears that even though only a small part of the inhibitor molecule enters directly into interaction with the enzyme, the remaining portions of the molecule which hold the structure of the inhibitor rigid are essential for the strong interaction.
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PMID:Synthesis and characterization of a pancreatic trypsin inhibitor homologue and a model inhibitor. 30 Jun 29

Fifty-nine mutants with reduced ability to cleave the chymotrypsin substrate N-acetyl-DL-phenylalanine beta-naphthyl ester have been isolated in S. cerevisiae. All have reduced levels of one or more of the three well-characterized proteinases in yeast. All have reduced levels of proteinase C (carboxy-peptidase Y). These mutations define 16 complementation groups.
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PMID:Proteinase mutants of Saccharomyces cerevisiae. 32 92

This paper presents the experimental details which led to the elucidation of the complete primary structure of S16, a protein which belongs to the small subunit of E. coli ribosomes. Protein S16 was digested with trypsin, alpha-chymotrypsin, and the staphylococcal protease. The resulting peptides were purified on paper and their amino acid composition and sequence were determined. Automatic Edman degradation with a modified sequenator on the complete protein yielded information from the 56N-terminal residues. The combination of all these results led to the following complete amino acid sequence: Met-Val-Thr-Ile-Arg-Leu-Ala-Arg-His-Gly-Ala-Lys-Lys-Arg-Pro-Phe-Tyr-Gln-Val-Val-Val-Ala-Asp-Ser-Arg--Asn-Ala-Arg-Asn-Gly-Arg-Phe-Ile-Glu-Arg-Val-Gly-Phe-Phe-Asn-Pro-Ile-Ala-Ser-Glu-Lys-Glu-Glu-Gly-Thr-Arg-Leu-Asp-Leu-Asp-Arg-Ile-Ala-His-Trp-Val-Gly-Gln-Gly-Ala-Thr-Ile-Ser-Asp-Arg-Val-Ala-Ala-Leu-Ile-Lys-Glu-Val-Asn-Lys-Ala-Ala. The molecular weight derived from the sequence amounts to 9 162.
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PMID:The complete amino acid sequence of protein S16 from Escherichia coli. 33 10

Phenylalanine chloromethyl ketone covalently attached to porous glass beads was synthesized to serve as a solid-phase active site directed inhibitor of chymotrypsin-like proteolytic enzymes. The solid-phase reagent inhibited 20 nmol of bovine chymotrypsin per gram of glass and covalently bound 30 nmol of protein per gram of glass. Sepharose-bound lysine chloromethyl ketones were synthesized to serve as inhibitors of trypsin-like enzymes. Sepharose-MethionylLysyl chloromethyl ketone inactivated and bound about 6.8 nmol of enzyme per ml of settled gel. In a preliminary experiment, a cyanogen bromide cleavage of the methionine residues showed that it should be possible to release all peptides but the peptide containing the active-site histidine. The immobilized trypsin was also reduced, carboxymethylated and digested with chymotrypsin. The potential of the solid-phase approach is in the isolation of a specific serine proteinase and in the sequence determination of residues surrounding the active-site histidine.
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PMID:Solid-phase active site inhibitors of proteinases. 42 26

Protease-S was extracted from thermally injured rat skin, and partially purified by column chromatography using Sephadex G-50, CM-Sephadex (A-50), Sephadex G-75 gel filtration. The optimum pH of this enzyme was 8.6--8.8, and the molecular weight determined by Sephadex G-75 gel filtration was approximately 30 000. This enzyme is active on the N-acetyl-L-tyrosine ethyl ester, N-succinyl-L-phenylalanine-p-nitroanilide (of chymotrypsin substrate) but not N-tosyl-L-arginine methyl ester, N-benzoyl-L-arginine-p-nitroanilide. Also, protease-S was completely inhibited by diisopropylfluorophosphate (1 mM) or phenylmethylsulfonylfluoride (10 micrometer), and N-tosyl-L-phenylalanine chloromethylketone (1 mM). These results are very similar to those obtained with bovine chymotrypsin. But the enzyme is not identical with the chymotrypsin-like proteases in mast cells and leukocyte granules. When proteases-S was measured during the inflammatory reaction in vivo, maximal activity was found after 8 h, at the end of inflammation.
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PMID:Purification and characterization of a chymotrypsin-like enzyme (protease-S) in thermally injured rat skin. 43 32

The physicochemical properties of nuclear and cytosolic glucocorticoid-binding components from corticoid-sensitive (CS) and corticoid-resistant (CR) mouse lymphoma P1798 cells have been compared. Nuclei or cytosol fractions were prepared from lymphocytes that had been labeled at 37 or 4 degrees, respectively, with 30 nM [3H]triamcinolone acetonide ([3H]TA). [3H]TA was extracted with 0.6 M KCl, 10 mM spermidine, or 4.5 mM MgCl2 from CS nuclei and with 0.6 M KCl or 10 mM spermidine from CR nuclei. As reported previously, nuclear-associated [3H]TA in CR cells was resistant to extraction with mM concentrations of MgCl2. Loss of bound steroid during extraction with 0.6 M KCl was minimized by including the chymotrypsin inhibitor, carbobenzoxy-L-phenylalanine, in the extraction buffer. The inhibitor was not required during extraction with spermidine or MgCl2. Nuclear and cytosolic extracts were examined by analytical agarose gel filtration and glycerol density gradient centrifugation under high salt (0.6 M KCl) conditions. The glucocorticoid-binding component in KCl, spermidine, and MgCl2 extracts from CS nuclei was considerably larger and more asymmetrical [Stokes radius, 57 to 59 A; sedimentation coefficient, 3.64 to 3.70S; molecular weight, 90,000 daltons; frictional ratio, 1.8; axial ratio (prolate ellipsoid), 15] than the [3H]TA-macromolecular complex in KCl and spermidine extracts from CR nuclei[Stokes radius, 29 A; sedimentation coefficient, 3.23 to 3.30S; molecular weight, 40,000 daltons; frictional ratio, 1.25; axial ratio (prolate ellipsoid), 5]. Control experiments showed that the smaller size of the glucocorticoid-binding component in CR nuclei was probably not due to cleavage of a larger, CS-like complex during the extraction procedure. The larger size of the CS [3H]TA complex did not appear to result from aggregation of s a smaller species. No difference in physicochemical parameters of the binding component was observed if cells were labeled with [3H]dexamethasone instead of [3H]TA. However, [3H]dexamethasone complexes were less stable than those formed with [3H]TA as indicated by considerable dissociation of [3H]dexamethasone during gel filtration and gradient centrifugation. This may be due to the 3- to 5-fold lower relative binding affinity of [3H]dexamethasone. Analysis of [3H]TA-labeled cytosol by gel filtration and gradient centrifugation revealed the presence of a single binding component with physicochemical properties similar to those of nuclear [3H]TA complexes from the same strain of tumor. These results suggest that previously described differences in extractability of nuclear-associated [3H]TA between the CS and CR strains of mouse lymphoma P1798 and the lack of response of CR P1798 to glucocorticoid administration may be due, at least in part, to the presence of an altered glucocorticoid-binding component in the resistant tumor cells.
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PMID:Physicochemical differences between glucocorticoid-binding components from the corticoid-sensitive and -resistant strains of mouse lymphoma P1798. 47 39

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