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 novel class alpha glutathione S-transferase (GST) isozyme is expressed in the hepatic cytosol of rabbits treated with 4-picoline. SDS-PAGE analysis revealed the presence of a new 28-kDa band which cross-reacted with class alpha GST-specific IgG. This new GST isozyme was isolated from the hepatic cytosol of 4-picoline-treated rabbits and purified to homogeneity using S-hexylglutathione-agarose, CM-Sepharose, and PBE118 chromatofocusing chromatography. The isozyme was determined by SDS-PAGE and gel filtration analyses to be a homodimer of approximately 28 kDa with blocked N-terminus. A heterodimer consisting of 25 and 28 kDa subunits with activity toward the substrate 1-chloro-2,4-dinitrobenzene was also purified. Immunoblot analysis revealed that the 25, 26.5, and 28 kDa bands cross-reacted with class alpha GST-specific IgG and failed to react with either class mu or class pi GST-specific antibodies. The 28 kDa enzyme had a pI of 8.2 as determined by nonequilibrium pH gel electrophoresis. The purified 28 kDa enzyme exhibited activity toward 1-chloro-2,4-dinitrobenzene (Km = 1.60 mM and Vmax = 73.5 mumol/min/mg) and cumene hydroperoxide (Km = 1.02 mM and Vmax = 6.92 mumol/min/mg). Amino acid sequence analysis of several fragments resulting from cyanogen bromide cleavage of the 28 kDa GST isozyme revealed a class alpha GST consensus sequence. In addition, proteolytic digestion with alpha-chymotrypsin yielded peptide maps which showed distinct differences between the purified 28 kDa GST and another purified class alpha GST isozyme present in rabbit liver. These results provide evidence that class alpha GST isozymes containing a novel 28 kDa subunit are expressed following treatment with 4-picoline.
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PMID:Enhanced expression, purification, and characterization of a novel class alpha glutathione S-transferase isozyme appearing in rabbit hepatic cytosol following treatment with 4-picoline. 153 65

Brain pyridoxine-5-P oxidase is activated by the tryptophan metabolites 3-hydroxyanthranilate and 3-hydroxykynurenine. 3-Hydroxyanthranilate at concentrations of 0.03 mM relieves the inhibition elicited by accumulation of the substrate pyridoxine-5-P (Ki = 60 microM). The results of fluorometric measurements indicate that four molecules of 3-hydroxyanthranilate bind to the dimeric enzyme (56 kDa) with an association constant of 5.5 x 10(4) M-1. Differential spectral measurements failed to detect any direct interaction between the cofactor FMN and the effector 3-hydroxyanthranilate. These results are consistent with the hypothesis that the effector molecules bind to sites of the dimeric protein distinct from the cofactor site. Limited chymotrypsin digestion of pyridoxine-5-P oxidase yields catalytically active species that are no longer susceptible to activation by 3-hydroxykynurenine. A polypeptide of 16 kDa containing FMN and endowed with full catalytic activity was isolated by ion-exchange chromatography. It is postulated that the structural domain associated with catalytic activity composes approximately one-half of the molecular mass of pyridoxine-5-P oxidase (28 kDa), whereas the remaining portion of the macromolecule contains regulatory binding sites.
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PMID:Catalytic and regulatory properties of native and chymotrypsin-treated pyridoxine-5-phosphate oxidase. 193 34

Limited digestion of caldesmon by alpha-chymotrypsin generates mainly 110, 80, 60, 38, and 28 kDa fragments. Affinity chromatography of these fragments on columns immobilized with myosin, HMM, or tropomyosin showed that the bound fraction from these columns was similar and it contained 110, 80, 60 and 28 kDa fragments. These fragments did not bind to myosin filaments, acto-HMM, actin or tropomyosin-actin in the solution, and they had no effect on the actin-activated ATPase of HMM. In contrast, the flow-through fraction from these affinity columns inhibited the actin-activated ATPase. Binding studies revealed that the 38 kDa fragment and its break down products bound to actin and tropomyosin-actin, and they were released partially from actin by calmodulin with a concomitant increase in the ATPase activity. These results indicate that, unlike the actin binding domain, the myosin and tropomyosin binding domains require the caldesmon molecule to be intact in order to exert their effects on the protein-protein interaction.
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PMID:Characteristics of the myosin and tropomyosin binding regions of the smooth muscle caldesmon. 252 36

Chymotryptic digestion of brain pyridoxine-5-P oxidase brings about a 4-fold enhancement of the catalytic power (Vmax/KM) using pyridoxine-5-P as substrate in the assay mixtures. The chymotrypsin-treated enzyme is less susceptible to inhibition by pyridoxal-5-P than the native enzyme. Fragments arising from limited proteolysis were separated by affinity chromatography using P-pyridoxal-Sepharose as supporting matrix. Catalytically active fractions, eluted by pyridoxine-5-P (5mM), displayed three bands when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The molecular masses of the three protein bands are considerably lower than 28 kDa, the molecular mass of monomeric pyridoxine-5-P oxidase. Spectroscopic studies, absorption, fluorescence, and circular dichroism revealed that the microenvironment surrounding the cofactor flavin mononucleotide is not perturbed by limited proteolysis.
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PMID:Activation of a flavoprotein by proteolysis. 277 60

cAMP-dependent protein kinase, derived from either calf lens or bovine heart, promotes the phosphorylation of three lens plasma membrane proteins of molecular mass 28 kDa, 26 kDa and 18 kDa. Correlation of the maximal level of phosphorylation of these components with the Coomassie blue staining intensity of fractionated lens membranes suggests that the phosphorylation of the 28 kDa and 18 kDa components may be approximately stoichiometric. The protein kinase substrates could be dephosphorylated by a cardiac sarcoplasmic-reticulum-bound protein phosphatase activity. The 26 k Da component comigrated with MP26, the major lens membrane component that has been localized to the lens fiber cell junction. Treatment of phosphorylated lens membranes with chymotrypsin did not suggest that any of the three major phosphorylated components was derived from the partial proteolysis of a larger phosphoprotein. After electrophoretic separation of phosphorylated proteins, treatment with N-chlorosuccinimide confirmed that there was little similarity in the structure of the three phosphoproteins. Chymotrypsin did, however, reveal a cryptic phosphorylation site in a 22 kDa fragment that appeared to be derived from MP26. Treatment of phosphorylated membranes with reducing agents resulted in the disappearance of the 28 kDa phosphorylated component and the appearance of a new phosphorylated component of 18 kDa; neither MP26 nor the original 18 kDa component was affected by such treatment. It is not clear whether the original 18 kDa phosphoprotein, present in unreduced samples, is the same as that generated with reducing agents from the 28 kDa phosphorylated lens membrane component.
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PMID:Characterization of the bovine lens plasma membrane substrates for cAMP-dependent protein kinase. 299 Sep 30

We previously have isolated cDNA clones for several mRNAs that increase in abundance during the differentiation of 3T3 adipocytes but whose physiological role is unknown. We show here that a mRNA that is complementary to one of these clones and encodes a protein of 28 kDa is expressed abundantly in mouse fat pads but not in several other mouse tissues. Sequence analysis of the corresponding cDNA clone indicated that the encoded protein shows 30% overall amino acid homology to several serine proteases including trypsin, chymotrypsin, and elastase. Homology is much higher (64%) between the 28-kDa protein and regions that are strongly conserved among the members of the serine protease family. The derived protein also has key features characteristic of active serine proteases, including the histidine, aspartic acid, and serine residues, which comprise the charge relay system, and a potential cleavage site for activation of the zymogen. Primer extension analysis performed to obtain the sequence of the 5' end of mRNA that encodes the 28-kDa protein indicates that two forms of this mRNA exist and probably arise through alternative splicing. The two mRNAs encode signal sequences that differ by the deletion of one amino acid near the predicted cleavage site of the signal peptide. These results demonstrate that adipocyte differentiation is accompanied by the expression of mRNA encoding a serine protease homologue that can be synthesized with two different signal peptides.
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PMID:A developmentally regulated mRNA from 3T3 adipocytes encodes a novel serine protease homologue. 390 Oct 3

Limited proteolysis has been used to probe the domain structure of the type I DNA methyltransferase M.EcoR124I. Trypsin digestion of the methyltransferase generates two fragments derived from the HsdS subunit, a 28 kDa N-terminal domain and a 19 kDa C-terminal domain, leaving the HsdM subunit intact. Extensive digestion by chymotrypsin, however, removes 59 amino acid residues from the N terminus of the HsdM subunit to leave a 52 kDa C-terminal domain. Binding of the cofactor S-adenosyl methionine has no appreciable effect on the rate of cleavage, but binding of a 30 bp DNA duplex containing the cognate recognition sequence confers almost total protection. Following trypsin cleavage of the methyltransferase, a stable proteolytic product is produced which has been purified for biochemical characterisation. The trypsinised enzyme is shown to be a multimeric complex containing two intact HsdM subunits and both fragments of the HsdS subunit, consistent with the circular model proposed for the organisation of domains in the specificity subunit in type IC methyltransferases. Gel retardation studies show that the proteolysed enzyme still retains DNA binding activity, but its specificity for the DNA recognition sequence is dramatically reduced.
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PMID:Probing the domain structure of the type IC DNA methyltransferase M.EcoR124I by limited proteolysis. 760 69

A ribonuclease (RNase Oy) was purified to homogeneity on SDS-PAGE from the homogenate of oyster (Crussdstrea grigus). The apparent molecular weight estimated from SDS-PAGE was ca. 28 kDa. The pH optimum of the RNase was 5.0. The RNase released mononucleotides from RNA in the order of 3'-GMP, 3'-AMP, and 3'-UMP. The complete amino acid sequence of RNase Oy was determined, mostly by analyzing the peptides generated by BrCN cleavage or digestion by lysylendopeptidase, staphylococcal V8 protease, and alpha-chymotrypsin. The molecular weight of the protein moiety of RNase Oy deduced from the sequence was 24,359. The sequence of RNase Oy contained two typical histidine residues in segments common to the active site of RNase T2 family enzymes. The locations of six half cystine residues among eight were almost superimposable on those of four known plant RNases of RNase T2 family. The sequence homology between RNase Oy and five fungal and four plant RNases amount, to 43-56 amino acid residues. The amino acid sequence of the N-terminal part of RNase Oy is more similar to those of plant RNases than to those of fungal RNases. This RNase is the first RNase T2 family RNase from mollusc whose primary structure has been elucidated.
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PMID:Purification, some properties, and primary structure of a base non-specific ribonuclease from oyster (Crussdstrea grigus). 813 35

A previously undescribed high molecular mass protein (HMP) from human erythrocyte membranes was solubilized by Triton X-100 and purified on a calmodulin-agarose column in the presence of Ca2+. It was shown to have a native molecular mass of 522-560 kDa, comprised of a single subunit of a molecular mass of 28 kDa (p28). The protein is associated with the lipid bilayer rather than with the cytoskeletal component of the membrane. The purified HMP showed peptidase-hydrolyzing activity toward substrates containing hydrophobic amino acids at the P1 position of the P2-P1 cleavage site. The activity was inhibited by serine proteinase inhibitors (leupeptin, phenylmethansulfonyl fluoride) and chymotrypsin inhibitors in particular (chymostatin, N-tosyl-L-phenylalanine chloromethyl ketone). The enzyme exhibited maximal activity at slightly alkaline pH (7.5-8.5) and at 37 degrees C and was stimulated over a narrow range of SDS concentrations (maximal at 0.05%). HMP was found to cross-react in Western blots with an antibody raised against the rabbit multicatalytic proteinase. The single subunit of HMP therefore contains both the catalytic activity and a sequence necessary for its association into a multimeric complex. The properties of the human erythrocyte membrane HMP described indicate that it is a novel peptidase related to the ubiquitous multicatalytic proteinase.
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PMID:Characterization of a novel high molecular mass protein with peptidase activity purified from the human erythrocyte membrane by calmodulin affinity chromatography. 814 98

Previous investigation [Tsui et al. (1996) Biochim. Biophys. Acta 1269: 41-46] showed that two active forms of alcohol dehydrogenase can be purified from grass carp. The use of a protease inhibitor and the results of SDS-PAGE analysis of the enzymes suggest that one form (ADH-C) is a proteolytic product of the other (ADH-I). In this study, the protease responsible for the cleavage was purified. The cleavage enzyme had a subunit molecular weight of 28 kDa. An inhibitor study identified it as a serine protease. It exhibited a strong chymotrypsin activity in both esterase and amidase assays with a pH optimum in the range 7.5-8.5. The purified chymotrypsin also cleaved the intact grass carp ADH-I into the two-fragment ADH-C, with an accompanying increase in enzyme activity. A similar effect was not found using horse liver alcohol dehydrogenase.
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PMID:Identification of an "alcohol dehydrogenase-activating" protease in grass carp hepatopancreas as a chymotrypsin. 944 19


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