EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A 32,000-dalton protein (p32) located in avian retrovirus cores was immunoprecipitated from [35S]methionine-labeled avian myeloblastosis virus (AMV) propagated in cultured chicken embryo fibroblast cells by an antiserum preparation (sarc III) derived from tumor-bearing hamsters injected with cloned and passaged cells from an avian sarcoma virus-induced primary hamster tumor. Since sarc III serum apparently contained antibodies only to virus-coded proteins and not to chicken cellular proteins, the immunoprecipitation of p32 from AMV by sarc III serum strongly suggested that p32 is virus coded. The origin of p32 was more definitively established by demonstrating the existence of a structural relationship between p32 and the AMV DNA polymerase. AMV p32 cross-reacted with the beta polypeptide of AMV alphabeta DNA polymerase in radioimmunoprecipitation and radioimmunoprecipitation inhibition assays, indicating that p32 and beta share common antigenic determinants. This relationship was clarified by sodium do-decyl sulfate-polyacrylamide gel electrophoretic analysis of the peptides generated by limited proteolysis of 125I-labeled AMV DNA polymerase polypeptides and of 125I-labeled AMV p32 by chymotrypsin or Staphylococcus aureus V-8 protease. The peptides which appeared during proteolytic digestion of p32 were a subset of those produced by digestion of the beta polypeptide; however, p32 had no discernible peptides in common with the alpha polypeptide. Further, all of the peptides produced by limited proteolysis of beta were present in the digests of either p32 or alpha. Our findings suggest that p32 is apparently derived by cleavage of the beta polypeptide of AMV DNA polymerase, presumably at a site near or identical to that at which alpha is generated from beta by proteolytic cleavage.
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PMID:Virus-coded origin of a 32,000-dalton protein from avian retrovirus cores: structural relatedness of p32 and the beta polypeptide of the avian retrovirus DNA polymerase. 8 16

The binding isotherms of native bovine serum albumin with cationic detergents, such as octyl, decyl, dodecyl and tetradecylpyridinium bromides were determined at pH 6.8 and 3.4 at 25 degrees C. The isotherms for dodecyl and tetradecylpyridinium bromides were also determined at 3 degrees C. The average number of detergent cations bound increased with increasing hydrocarbon chain length. At low detergent concentration the binding of all alkylpyridinium bromides was smaller at pH 3.4 than at pH 6.8. Dodecylpyridinium bromide was bound to native beta-lactoglobulin, aldolase, ovalbumin, haemoglobin, myoglobin, lysozyme, trypsin and ribonuclease at pH 6.8. No binding occurred to alpha-chymotrypsin and chymotrypsinogen. The free enthalpy change, --delta G degrees, calculated from intrinsic association constants K was determined.
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PMID:Protein-cationic detergent interaction. Equilibrium dialysis study of the interaction of bovine serum albumin and other proteins with alkylpyridinium bromide. 49 43

The distribution of lipid-binding regions of human apolipoprotein B-100 has been investigated by recombining proteolytic fragments of B-100 with lipids and characterizing the lipid-bound fragments by peptide mapping, amino acid sequencing, and immunoblotting. Fragments of B-100 were generated by digestion of low-density lipoproteins (LDL) in the presence of sodium decyl sulfate with either Staphylococcus aureus V8 protease, pancreatic elastase, or chymotrypsin. Particles with electron microscopic appearance of native lipoproteins formed spontaneously when detergent was removed by dialysis from enzyme digests containing fragments of B-100 and endogenous lipids, or from incubation mixtures of delipidated B-100 fragments mixed with microemulsions of exogenous lipids (cholesteryl oleate and egg phosphatidylcholine). Fractionation of the recombinant particles by isopycnic or density gradient ultracentrifugation yielded complexes similar to native LDL with respect to shape, diameter, electrophoretic mobility, and surface and core compositions. Circular dichroic spectra of these particles showed helicity similar to LDL but a somewhat decreased content of beta-structure. Most of the fragments of B-100 were capable of binding to lipids; 12 were identified by direct sequence analysis and 14 by reaction with antisera against specific sequences within B-100. Our results indicate that lipid-binding regions of B-100 are widely distributed within the protein molecule and that proteolytic fragments derived from B-100 can reassociate in vitro with lipids to form LDL-like particles.
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PMID:Distribution of lipid-binding regions in human apolipoprotein B-100. 273 Aug 77

Complex III was isolated and purified from bakers' yeast by ammonium sulfate fractionation and column chromatography on Ultrogel AcA 34. The purified complex contained 7.03 nmol/mg of protein and 4.24 nmol/mg of protein of cytochromes b and c1, respectively. The specific activity of the complex was 17.1 mumol/min/mg of protein, using the decyl analog of coenzyme Q as substrate. Electrophoresis of the purified complex revealed the presence of seven polypeptides with molecular weights ranging from 15,500 to 50,000. Polypeptides having molecular weights lower than 15,000 were not observed, except when the complex was dissociated in the absence of proteolytic inhibitors, suggesting that these low molecular weight species arise as a result of proteolytic digestion of the complex. The isoelectric points of the subunits of complex III and their stoichiometry wee determined. Trypsin and chymotrypsin digestion of the oxidized and reduced forms of the isolated complex suggested that the two high molecular weight core proteins are embedded within the complex and hence are inaccessible to the exogenous proteases, while cytochromes b and c1, the iron-sulfur protein, and the 17,500-dalton subunit are substantially exposed to the surface of the complex. The iron-sulfur protein appears to undergo a conformational change upon reduction of the complex, rendering it less susceptible to trypsin digestion. The core proteins and the iron-sulfur protein were purified, and antibodies against these proteins were raised. Immunoinhibition studies with these antibodies also indicated that the antigenic sites of the core proteins were embedded in the complex.
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PMID:Purification and polypeptide characterization of complex III from yeast mitochondria. 628 57

Plasma membranes of 6-h differentiated Dictyostelium discoideum cells contain a cAMP-binding protein with the properties ascribed to the chemotaxis receptor present on these cells. We have purified this cAMP-binding protein using DEAE-Sephadex chromatography, hydrophobic chromatography on decylagarose and preparative polyacrylamide gel electrophoresis in nonionic detergent. Photoaffinity labeling of the DEAE-purified material with 8-azido-[32P] cAMP shows that only an Mr = 70,000 species on sodium dodecyl sulfate gels contains a cAMP-binding site. Two-dimensional polyacrylamide gel electrophoresis of material eluted from decyl-agarose and photoaffinity labeled indicates that the cAMP-binding protein is the most acidic of many Mr = 70,000 proteins present. This method is readily scaled up to process up to 10(11) cells which yield from 25 to 100 micrograms of cAMP-binding protein. Nucleotide specificity studies established that the cAMP-binding site of the protein is similar to that of the cAMP receptor assayed on intact cells and membranes. The rates of association and dissociation of the cAMP-binding protein are extremely rapid as found for the receptor, and its affinity for cAMP is comparable. The cAMP-binding protein is a concanavalin A binding glycoprotein, and is resistant to proteolysis by trypsin, but not chymotrypsin. Like the cAMP receptor in membranes and crude detergent extracts, this cAMP-binding protein is inhibited by phenylmethylsulfonyl fluoride. The purified binding protein exists in solution largely as a monomeric species, with some dimer being detected on gel filtration. Based on these criteria, we conclude that this cAMP binding protein represents the binding subunit of the cAMP chemotaxis receptor.
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PMID:Purification and characterization of a membrane-associated cAMP-binding protein from developing Dictyostelium discoideum. 632 68

The cDNA encoding the smallest membrane-anchoring subunit (QPs3) of bovine heart mitochondrial succinate-ubiquinone reductase was cloned and sequenced. This cDNA is 1330 base pairs long with an open reading frame of 474 base pairs that encodes the 103 amino acid residues of mature QPs3 and a 55-amino acid residue presequence. The cDNA insert has an 820-base pair long 3'-untranslated region, including a poly(A) tail. The molecular mass of QPs3, deduced from the nucleotide sequence, is 10,989 Da. QPs3 is a very hydrophobic protein; the hydropathy plot of the amino acid sequence reveals three transmembrane helices. Previous photoaffinity labeling studies of succinate-ubiquinone reductase, using 3-azido-2-methyl-5-methoxy[3H]-6-decyl-1,4-benzoquinone ([3H]azido-Q), identified QPs3 as one of the putative Q-binding proteins in this reductase. An azido-Q-linked peptide with a retention time of 66 min is obtained by high performance liquid chromatography of the chymotrypsin digest of carboxymethylated and succinylated [3H]azido-Q-labeled QPs3 purified from labeled succinate-ubiquinone reductase by a procedure involving phenyl-Sepharose 4B column chromatography, preparative SDS-polyacrylamide gel electrophoresis, and acetone precipitation. The amino acid sequence of this peptide is NH2-L-N-P-C-S-A-M-D-Y-COOH, corresponding to residues 29-37. The structure of QPs3 in the inner mitochondrial membrane is proposed based on the hydropathy profile of the amino acid sequence, on the predicted tendencies to form alpha-helices and beta-sheets, and on immunobinding of Fab' fragmenthorseradish peroxidase conjugates prepared from antibodies against two synthetic peptides, corresponding to the NH2 terminus region and the loop connecting helices 2 and 3 of QPs3, in mitoplasts and submitochondrial particles. The ubiquinone-binding domain in the proposed model of QPs3 is probably located at the end of transmembrane helix 1 toward the C-side of the mitochondrial inner membrane.
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PMID:The smallest membrane anchoring subunit (QPs3) of bovine heart mitochondrial succinate-ubiquinone reductase. Cloning, sequencing, topology, and Q-binding domain. 921 43

Negatively charged gold nanoparticles featuring 2-(10-mercapto-decyl)-malonic acid were synthesized using the Murray place-displacement reaction. These water-soluble malonate gold mixed monolayer protected clusters (MMPCs) effectively bind and inhibit chymotrypsin based on complementary electrostatic surface recognition. The effect of increasing ionic strength on inhibition was also studied. It was observed that addition of high ionic strength solutions to protein-nanoparticle complexes show almost complete restoration of protein activity. The conformational change of chymotrypsin upon binding to the MMPC was investigated using fluorescence spectrometry and circular dichroism, thus correlating structural changes with enzyme activity.
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PMID:Reversible regulation of chymotrypsin activity using negatively charged gold nanoparticles featuring malonic acid termini. 1678 10

The kinetics of alpha-chymotrypsin (alpha-CT) catalyzed hydrolysis of 4-nitrophenyl acetate has been studied in aqueous solution of alkyldimethylethanolammonium bromide (cetyl, dodecyl, decyl) surfactants at concentrations below and above their critical micelle concentration. From Michaelis-Mcnten kinetics, the catalytic rate constant kcat and the Michaelis constant KM have been determined. The bell-shaped profiles of alpha-CT activity with increasing surfactant concentrations indicate the interaction between the micelle-bound enzyme and substrate.
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PMID:Kinetics of alpha-chymotrypsin catalyzed hydrolysis of 4-nitrophenyl acetate in ethanolamine surfactants. 1906 48