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)

The reactions were studied of N-acyl-L-amino acid esters with various D-amino acid amides catalyzed by free alpha-chymotrypsin, trypsin and proteinase K in acetonitrile containing 80 or 5 vol. % of water. In the medium with low water content the incorporation of D-amino acid amides into peptides proceeded with satisfactory yield sometimes approaching that of analogous L-L dipeptides. In the media with high water content negligible or low yields of L-D dipeptides were achieved. Synthesis of Boc-L-Trp-D-Phe-NH2 catalyzed by alpha-chymotrypsin was performed at molar ratio L: D = 3 : 2 in acetonitrile with 5 vol.% of water and the dipeptide was isolated in larger quantity. However, synthesis of the peptide bond did not occur at all when diastereomeric dipeptides having D-residue in the N-terminal P1' position were used even in the media with low water content.
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PMID:Serine proteinase-catalyzed incorporation of D-amino into model peptides in acetonitrile with low water content. 182 59

Penicillin acylase (EC 3.5.1.11) was completely inactivated with equimolar phenylmethane [35S]sulphonyl fluoride (PhMe35SO2F); the stability of the sulphonyl group in the modified protein was determined by measurement of the radioactivity in ultrafiltrates. In 8 M urea, the rate of loss of the sulphonyl group was similar to that observed in PhMeSO2F-inactivated chymotrypsin [Gold, A.M. & Fahrney, D. (1964) Biochemistry 3, 783-791]. Incubation of the PhMeSO2F-inactivated acylase with 0.7 M potassium thioacetate yielded an acetylthiol enzyme which was subsequently converted to a thiol-enzyme during incubation with 10 mM 6-aminopenicillanic acid. 4-Pyridyl-ethylcysteine was released by acid hydrolysis after reaction of the thiol-protein with 4-vinylpyridine. The rates of reaction of thiol-penicillin acylase with iodoacetic acid and 2,2'-dipyridyl disulphide were consistent with the presence of an incompletely accessible cysteinyl sidechain. After carboxymethylating the thiol-enzyme with iodo[2-3H]acetic acid, the label was shown by SDS/PAGE and sequencing analysis to be associated exclusively with the beta-chain NH2-terminal residue, indicating conversion of Ser290 to S-carboxymethyl-cysteine. Near-ultraviolet CD spectra showed the conformation of thiol-penicillin acylase to be indistinguishable from that of the native protein but the catalytic activity was less than 0.02% of that of the normal enzyme. The possibility that Ser290 acts as a nucleophile in catalysis is discussed.
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PMID:Site-directed chemical conversion of serine to cysteine in penicillin acylase from Escherichia coli ATCC 11105. Effect on conformation and catalytic activity. 184 24

The binding and cellular processing of NH2-terminal parathyroid (PTH) hormone by confluent monolayers of opossum kidney (OK) cells was characterized using radiolabeled PTH peptide analogues. Time- and temperature-dependent specific binding of 125I-labeled (Nle-8,18, Tyr-34)-NH2-bovine(b)PTH-(1-34) was accompanied by the appearance of degraded radiolabel in the cell medium. Degrading activity was observed to be a specific consequence of binding by PTH receptors. Degrading activity was inhibited by monensin, chloroquine, and NH4+ but not by chymotrypsin inhibitors. Acid washing demonstrated that greater than 80% of total cell-associated specific binding at equilibrium was located in a rapidly internalized (acid-resistant) pool. Monensin pretreatment led to increased acid-resistant binding, presumably through inhibition of turnover of internalized receptor ligand and indicated that the degradation of radiolabel was probably associated with processing of the receptor-ligand complex. Release of intact radiolabel from the acid-resistant pool indicated that some of the internalized peptide was recycled out of the cell in an undegraded form (retroendocytosis). Acid-resistant binding and degradation of 125I-(Nle-8,18, Tyr-34)-NH2-bPTH-(3-34) was minimal, indicating that this ligand was not internalized. It is concluded that the binding and internalization of PTH-(1-34) fragment by confluent OK cells is a specific receptor-mediated process. Cellular processing of PTH-(1-34) conforms to established models of internalization by receptor-mediated endocytosis.
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PMID:Binding and degradation of NH2-terminal parathyroid hormone by opossum kidney cells. 185 Feb 1

The purified urokinase plasminogen activator receptor (u-PAR) was cleaved into two fragments by mild chymotrypsin treatment. The smaller fragment (apparent Mr 16,000) possessed the ligand-binding capability, as shown by chemical cross-linking analysis. This fragment constituted the NH2-terminal part of the intact receptor, probably including the whole sequence 1-87, and contained N-linked carbohydrate. After detergent phase separation in the Triton X-114 system, the fragment was present in the water phase where its binding activity could be demonstrated in the absence of the rest of the protein. An analysis of internal homology in the amino acid sequence of u-PAR revealed the presence of three repeats of approximately 90 residues each. The ligand-binding fragment corresponds to the first repeat, supporting that this unit is a structurally autonomous domain. Domains homologous with the internal repeats of u-PAR constitute the extracellular part of Ly-6 antigens and of the squid glycoprotein Sgp-2. Like u-PAR, these proteins are attached to the membrane by a glycosyl-phosphatidylinositol anchor. The hydrophilic, ligand-binding u-PAR domain identified in the present study has potential applications in interfering with cell-surface plasmin-mediated proteolysis.
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PMID:The ligand-binding domain of the cell surface receptor for urokinase-type plasminogen activator. 185 Apr 23

A glycoprotein with Mr 63,000 purified from rat serum was found to inhibit trypsin activity but not chymotrypsin or elastase activity, resembling contrapsin purified from mouse serum. To obtain further information on the molecular structure, a cDNA clone (lambda CPi-21) for this contrapsin-like protease inhibitor was isolated from a rat liver cDNA library. The 1.6-kb cDNA insert contained an open reading frame that encodes a 416-residue polypeptide (CPi-21), in which the first 29 residues were suggested to comprise a signal peptide by comparison with the NH2-terminal sequence of the purified protein. The predicted structure also contained other peptide sequences determined by Edman degradation. Four potential N-linked glycosylation sites were found in the molecule, presumably accounting for the larger molecular mass of the mature form. Further screening of the cDNA library with a Pst-XbaI fragment (302 bp) of lambda CPi-21 as a probe yielded two other cDNA clones (lambda CPi-23 and lambda CPi-26), which encode 413-residue and 418-residue polypeptides, respectively. A comparison of their amino acid sequences revealed that CPi-21 has 89 and 71% homology with CPi-23 and CPi-26, respectively. The primary structure of each of the three proteins has about 70% homology with that of mouse contrapsin, in contrast to 43-46% homology with that of rat alpha 1-protease inhibitor. These results indicate that all the CPi proteins presented here belong to a subfamily of "serpins" of which mouse contrapsin was the first member to be identified.
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PMID:Molecular cloning and characterization of rat contrapsin-like protease inhibitor and related proteins. 186 37

Rat liver alpha-mannosidase II, a hydrolase involved in the processing of asparagine-linked oligosaccharides, is an integral membrane glycoprotein facing the lumen of Golgi membranes. We have previously shown (Moremen, K. W., and Touster, O. (1986) J. Biol. Chem. 261, 10945-10951) that mild chymotrypsin digestion of permeabilized or solubilized Golgi membranes will result in the cleavage of the intact 124,000-dalton alpha-mannosidase II subunit, releasing a 110,000-dalton hydrophilic polypeptide which contains the catalytic site. Consistent with the removal of a membrane binding domain, the chymotrypsin-generated 110,000-dalton peptide was found exclusively in the aqueous phase in Triton X-114 phase separation studies, whereas the intact enzyme was found in the detergent phase. Taking advantage of this conversion in phase partitioning behavior, a purification procedure was developed to isolate the 110,000-dalton proteolytic digestion product as a homogeneous polypeptide for further characterization and protein sequencing at a yield of greater than 65% from a rat liver Golgi-enriched membrane fraction. An improved purification procedure for the intact enzyme was also developed. The two forms of the enzyme were compared yielding the following results. (a) The catalytic activity of the intact and cleaved forms of alpha-mannosidase II were indistinguishable in Km, Vmax, inhibition by the alkaloid, swainsonine, and in their activity toward the natural substrate GlcNAc-Man5GlcNAc. (b) Both the intact and cleaved forms of the enzyme appear to be disulfide-linked dimers. (c) The two forms of the enzyme contain different NH2-terminal sequences suggesting that the cleaved NH2 terminus contains the membrane-spanning domain. (d) Additional peptide sequences were obtained from proteolytic fragments and cyanogen bromide digestion products in order to create a partial protein sequence map of the enzyme. These results are consistent with a model common among Golgi processing enzymes of a hydrophilic catalytic domain anchored to the lumenal face of Golgi membranes through an NH2-terminal hydrophobic membrane-anchoring domain.
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PMID:Novel purification of the catalytic domain of Golgi alpha-mannosidase II. Characterization and comparison with the intact enzyme. 188 15

A metallo-endopeptidase, which appears to be an integral membrane protein of rat kidney, was purified to homogeneity by a series of standard chromatographic procedures. This enzyme significantly hydrolyzed human parathyroid hormone [hPTH(1-84)] and a synthetic substrate Suc-Leu-Leu-Val-Tyr-Mec (Suc = succinyl, Mec = 4-methyl-coumarinyl-7-amide). The purified enzyme had apparent molecular masses of 250 kDa on gel filtration, and 88 kDa and 245 kDa on sodium dodecyl sulfate/polyacrylamide gel electrophoresis under reducing and non-reducing conditions, respectively. Its pH optimum for activity was 8.0-8.5 and its isoelectric point was pH 4.9. Its activity was inhibited by EDTA, EGTA and o-phenanthroline, but not by phosphoramidon. The metal-depleted enzyme was reactivated by the addition of metal ions. The enzyme was also inhibited by chymostatin and eglin C, and by thiol compounds. Of the synthetic substrates examined, the enzyme hydrolyzed only Suc-Leu-Leu-Val-Tyr-Mec, one of the synthetic substrates for alpha-chymotrypsin. It did not hydrolyze synthetic substrates with less than four amino acid residues with tyrosine in the P1 position. The enzyme hydrolyzed hPTH and reduced hen egg lysozyme but did not hydrolyze azocasein or [3H]methyl-casein. NH2-terminal amino acid sequence analyses of the degradation products of hPTH(1-84) and reduced hen egg lysozyme by the purified enzyme revealed that the enzyme preferentially cleaved these peptides at peptide bonds flanked by hydrophilic amino acid residues. Amino acid analyses showed that the main degradation products of PTH were hPTH(17-29), hPTH(30-38) and hPTH(74-84). The ability of the enzyme to hydrolyze peptide bonds flanked by hydrophilic amino acid residues and its inability to degrade azocasein distinguish it from several other kidney endopeptidases reported, such as endopeptidase 24.11 and meprin.
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PMID:A membrane-bound metallo-endopeptidase from rat kidney hydrolyzing parathyroid hormone. Purification and characterization. 188 19

Three alternatively spliced forms of the amyloid precursor protein (APP), APP-695, APP-751, and APP-770, were expressed in the baculovirus expression vector system. The recombinant proteins were secreted into the culture medium by infected insect cells, and APP molecules were detected in insect cells and medium 2 days after infection with the recombinant APP-baculoviruses. A partial sequence of the NH2 terminus of the secreted protein revealed identity with the native secreted protein and showed that the signal peptide was recognized and properly cleaved in insect cells. Purified secreted recombinant APP-751 comigrated with protease nexin 2 purified from platelets and fibroblasts. A 15-kDa COOH-terminal fragment of APP was also detected in cells infected with recombinant baculoviruses, suggesting that recombinant APP proteins were cleaved at the COOH-terminal end like native APP protein. Recombinant APP-751 and APP-770 formed complexes with epidermal growth factor-binding protein, whereas APP-695 did not. In addition, recombinant APP-751 and APP-770 inhibited trypsin and chymotrypsin activity, whereas APP-695 did not. Growth of a human fibroblast cell line, A-1, that required APP for complete growth, was restored upon addition of secreted recombinant APP-695 or APP-751. Thus, the appropriately sized, secreted recombinant APP proteins produced in this expression system are biologically active.
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PMID:Expression of active secreted forms of human amyloid beta-protein precursor by recombinant baculovirus-infected insect cells. 194 49

Random mutations were introduced into the B. subtilis glutamine synthetase gene by using nitrous acid, and a high temperature-sensitive mutant was selected. DNA sequencing of the restriction fragment containing the mutation revealed a single base-pair change resulting in the substitution of Leu 318 with Phe. The mutant enzyme was purified, and its kinetic and physical properties were characterized. The Mg2(+)-dependent activity and Mg2+ plus Mn2(+)-dependent activity of the mutant were less than 5% of those of the wild-type at 37 degrees C, and these activities decreased above 15 degrees C, whereas the Mn2(+)-dependent activity was nearly normal. Affinity of the mutant enzyme for glutamate was extremely decreased although the Km values for NH3 or ATP were almost the same as those of the wild-type. The mutant enzyme was more susceptible than the wild-type enzyme to digestion with chymotrypsin in the presence of glutamate, ATP, and Mg2+, although addition of glutamate, ATP, and Mn2+ completely protected both enzymes. These results and circular dichroism analyses suggested that Leu 318 is at the glutamate-binding site and that the substitution of Leu 318 for Phe reduces the ability of the enzyme to form the enzyme-substrate complex, probably supported by Mg2+.
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PMID:Temperature-sensitive mutant of Bacillus subtilis glutamine synthetase obtained by random mutation. 197 43

The large subunit of Escherichia coli carbamoyl phosphate synthetase (a polypeptide of 117.7 kDa that consists of two homologous halves) is responsible for carbamoyl phosphate synthesis from NH3 and for the binding of the allosteric activators ornithine and IMP and of the inhibitor UMP. Elastase, trypsin, and chymotrypsin inactivate the enzyme and cleave the large subunit at a site approximately 15 kDa from the COOH terminus (demonstrated by NH2-terminal sequencing). UMP, IMP, and ornithine prevent this cleavage and the inactivation. Upon irradiation with ultraviolet light in the presence of [14C]UMP, the large subunit is labeled selectively and specifically. The labeling is inhibited by ornithine and IMP. Cleavage of the 15-kDa COOH-terminal region by prior treatment of the enzyme with trypsin prevents the labeling on subsequent irradiation with [14C]UMP. The [14C]UMP-labeled large subunit is resistant to proteolytic cleavage, but if it is treated with SDS the resistance is lost, indicating that UMP is cross-linked to its binding site and that the protection is due to conformational factors. In the presence of SDS, the labeled large subunit is cleaved by trypsin or by V8 staphylococcal protease at a site located 15 or 25 kDa, respectively, from the COOH terminus (shown by NH2-terminal sequencing), and only the 15- or 25-kDa fragments are labeled. Similarly, upon cleavage of the aspartyl-prolyl bonds of the [14C]UMP-labeled enzyme with 70% formic acid, labeling was found only in the 18.5-kDa fragment that contains the COOH terminus of the subunit. Thus, UMP binds to the COOH-terminal domain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Domain structure of the large subunit of Escherichia coli carbamoyl phosphate synthetase. Location of the binding site for the allosteric inhibitor UMP in the COOH-terminal domain. 198 78

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