Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
 3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A chromatographic method is developed for quantitative estimation of the collagenase-like enzyme (CLE) activity in extract of adenohypophysis and in preparations obtained during various steps of the enzyme isolation. The enzymatic hydrolysis of Cbz-Gly-Pro-Ala-Gly-Pro-Gly-OCH3 in presence of 2-mercaptoethanol at pH 8.0 was used as a pattern. The products formed were separated by chromatography on the paper; then they were stained with ninhydrin and converted into cupric complexes during extraction with ethanol; the optic density was measured at 510 nm. The optimal conditions for the enzymatic reaction were established. The method enabled to estimate the CLE activity in presence of prolyl carboxypeptidase. The specific effect of the CLE purified preparation on various synthetic peptides is discussed.
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PMID:[Chromatographic method of determining the activity of the collagenase-like enzyme of the adenohypophysis and several findings concerning the specificity of its action]. 88 63

Excitatory amino acid (EAA) receptor-mediated events have recently been implicated in dopaminergic mechanisms of neurotoxicity. 2,4,5-Trihydroxyphenylalanine (6-hydroxy-DOPA, TOPA), the ortho-hydroxylated derivative of the dopamine precursor 2,4-dihydroxyphenylalanine (L-DOPA), has recently been reported to have neurotoxic properties which are blocked by CNQX, a specific antagonist of the AMPA class of non-N-methyl-D-aspartate (non-NMDA) EAA receptors. We report here that 6-hydroxy-DOPA is a selective displacer of [3H]AMPA binding in rodent brain. 6-Hydroxy-DOPA was as potent as kainate in displacing [3H]AMPA binding, with an IC50 value of 32 microM. Ineffective displacers of [3H]AMPA binding included dopamine, 6-hydroxydopamine, L-DOPA, D-DOPA, carbidopa, DOPAC, beta-methylamino-L-alanine, 2,4-dihydroxyphenylacetyl-L-asparagine, homogentisic acid, 2,4-dihydroxyphenylacetic acid, amantadine, and threo-DOPS. 6-Hydroxy-DOPA (100 microM) also displaced 20% of [3H]kainate binding, but did not displace binding to NMDA, phencyclidine (PCP), or dopaminergic (D1 and D2) receptors. These data raise the possibility that 6-hydroxy-DOPA or another abnormal metabolite of L-DOPA could act as an excitotoxic agent via action at AMPA receptors. Given that non-NMDA receptors are postulated to play a role in neurotoxic events, these data provide an additional mechanism via which EAA receptor-mediated events could produce neurodegeneration in areas of brain with dopaminergic innervation.
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PMID:2,4,5-Trihydroxyphenylalanine (6-hydroxy-dopa) displaces [3H]AMPA binding in rat striatum. 166 20

An active-site peptide containing an aspartic acid implicated in catalysis has been isolated and sequenced from two Streptococcus sobrinus extracellular glucosyltransferases: sucrose:1,3-alpha-D-glucan 3-alpha-D-glucosyltransferase (GTase-I) and sucrose:1,6-alpha-D-glucan 6-alpha-D-glucosyltransferase (GTase-S). The sequenced peptides, tagged with radiolabeled glucose, were isolated from a pepsin digest of a stabilized glucosylenzyme complex prepared by rapidly denaturing a reaction of enzyme and radiolabeled sucrose. The glucosyl linkage had previously been characterized as a beta-anomer bound to an active-site carboxyl group. Purified GTase-I and GTase-S glucosyl-peptides had the following similar but not identical sequences: GTase-I, Asp-Ser-Ile-Arg-Val-Asp-Ala-Val-Asp; and GTase-S, Asp-Gly-Val-Arg-Val-Asp-Ala-Val-Asp. Each has 3 aspartic acids as potential sites of glucose conjugation, but the relevant residue was not identified in sequence analysis because the highly base-labile glucosyl bond was cleaved in the first sequence cycle. As an alternative, the GTase-I glucosyl-peptide was partially digested at the N terminus with cathepsin C and at the C terminus with carboxypeptidase P. Analysis of the truncated products by fast atom bombardment mass spectrometry localized the glucosyl group to Asp-6 i the GTase-I peptide. In the native enzyme, this sequence is found near the N terminus, well-removed from the glucan-binding site located on a 60-kDa domain at the C terminus. The catalysis-dependent method of incorporating a glucosyl label implicates the aspartic acid as the residue involved in stabilizing an oxocarbonium ion transition state. The peptide segment is highly conserved and homologous to a peptide from sucrase-isomaltase labeled by site-directed irreversible inhibition and peptide segments common to a broad array of alpha-glucosidases and related transferases.
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PMID:Isolation and sequence of an active-site peptide containing a catalytic aspartic acid from two Streptococcus sobrinus alpha-glucosyltransferases. 182 39

Bilateral injection of D-alanine, but not L-alanine, (10-100 micrograms per side for each amino acid) into the lateral ventricle reduced the increasing effect of phencyclidine (PCP, 10 mg/kg, given intraperitoneally) on locomotor activity in the rat in a dose dependent manner. This stereoselectivity agrees with the potency of these agents as agonists for the strychnine-insensitive glycine receptor in the N-methyl-D-aspartate receptor complex, suggesting that stimulation of the allosteric regulation site may antagonize the ability of PCP to produce hyperactivity.
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PMID:Stereoselective inhibition by D- and L-alanine of phencyclidine-induced locomotor stimulation in the rat. 183 94

(1-Aminoethyl)boronic acid (Ala-B), an analogue of alanine in which a boronic acid group replaces the carboxyl group, has been synthesized and found to inhibit the first two enzymes, alanine racemase (from Bacillus stearothermophilus, EC 5.1.1.1) and D-alanine:D-alanine ligase (ADP-forming) (from Salmonella typhimurium, EC 6.3.2.4), of the D-alanine branch of bacterial peptidoglycan biosynthesis. In both cases, time-dependent, slow binding inhibition is observed due to the generation of long-lived, slowly dissociating complexes. Ala-B inhibits alanine racemase with a Ki of 20 mM and a kappa inact of 0.15-0.35 min-1. Time-dependent loss of activity is paralleled by conversion of the 420-nm chromophore of initial bound PLP aldimine to a 324-nm absorbing species. On dilution of Ala-B, racemase activity is regained with a t1/2 of ca. 1 h. The D-Ala-D-Ala ligase also shows progressive inhibition by Ala-B provided ATP (but not AMP-PNP or AMP-PCP) is present. The presence of D-alanine along with ATP also leads to Ala-B-induced inactivation. Kinetic analysis suggests Ala-B can compete with D-alanine at either of the two D-alanine binding sites, and on inactivation with Ala-B, labeled D-alanine, and labeled ATP, the inactive enzyme has stoichiometric amounts of D-alanine, ADP, Pi, and Ala-B bound. The half-life of inactive enzyme complexes varied from approximately 2 h (without D-alanine) to 4.5 days (with D-alanine). No D-Ala-D-Ala-B dipeptide was detected.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:(1-Aminoethyl)boronic acid: a novel inhibitor for Bacillus stearothermophilus alanine racemase and Salmonella typhimurium D-alanine:D-alanine ligase (ADP-forming). 266 72

An antibiotic cerulenin, (2R, 3S)-2,3-epoxy-4-oxo-7,10-trans,trans- dodecadienamide, irreversibly inhibits fatty acid synthetase from Saccharomyces cerevisiae. Three moles of cerulenin were bound to 1 mol of the enzyme with concomitant loss of its activity. Pretreatment of the enzyme with iodoacetamide reduced the amount of cerulenin bound to the enzyme. Since iodoacetamide is known to specifically bind to the cysteine residue on the condensing reaction domain, cerulenin is considered to bind to the same domain. Tryptic digestion of the [3H] cerulenin-treated enzyme gave a radioactive peptide; its amino acid composition was Asx 1, Thr 1, Ser 1, Glx 2, Pro 1, Gly 1, Ala 1, Val 1, Ile 1, and Leu 2. This composition included all the amino acids of the condensing reaction site (Thr-Pro-Val-Gly-Ala-Cys) previously reported by Kresze et al. (Eur. J. Biochem., 79, 181 [1977] except for Cys. When the enzyme was treated with [3H]cerulenin and digested successively with trypsin and carboxypeptidase P, a [3H] cerulenin-cysteine adduct was isolated as the sole product. This was identified with the adduct chemically synthesized from non-labeled cerulenin and cysteine, and its structure was elucidated by 1H-, 13C-NMR, and fast atom bombardment mass spectrometry. These results indicate that cerulenin, forming a hydroxylactam ring, reacts at its epoxide carbon (C-2 position) with the SH-group of the cysteine residue in the condensing reaction domain of yeast fatty acid synthetase.
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PMID:Binding site of cerulenin in fatty acid synthetase. 266 7

The pH dependence of kinetic parameters and inhibitor dissociation constants for the adenosine cyclic 3',5'-monophosphate dependent protein kinase reaction has been determined. Data are consistent with a mechanism in which reactants selectively bind to enzyme with the catalytic base unprotonated and an enzyme group required protonated for peptide (Leu-Arg-Arg-Ala-Ser-Leu-Gly) binding. Binding of the peptide apparently locks both of the above enzyme residues in their correct protonation state. MgATP preferentially binds fully ionized and requires an enzyme residue (probably lysine) to be protonated. The maximum velocity and V/KMgATP are pH independent. The V/K for Ser-peptide is bell-shaped with pK values of 6.2 and 8.5 estimated. The pH dependence of 1/Ki for Leu-Arg-Arg-Ala-Ala-Leu-Gly is also bell-shaped, giving pK values identical with those obtained for V/KSer-peptide, while the Ki for MgAMP-PCP increases from a constant value of 650 microM above pH 8 to a constant value of 4 mM below pH 5.5. The Ki for uncomplexed Mg2+ obtained from the Mg2+ dependence of V and V/KMgATP is apparently pH independent.
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PMID:Chemical mechanism of the adenosine cyclic 3',5'-monophosphate dependent protein kinase from pH studies. 282 Apr 83

In this paper we report that while 55% of the total post-proline dipeptidyl-aminopeptidase activity in guinea-pig brain is associated with the soluble fraction of the cells, the remaining activity is widely distributed throughout the particulate fractions. A significant portion of this particulate activity is, however, associated with a synaptosomal membrane fraction. The specific activity of this enzyme rose as the synaptosomal membrane fraction was prepared from a synaptosomal fraction and had previously risen at the synaptosomal fraction was prepared from a postmitochondrial pellet. The synaptosomal membrane post-proline dipeptidyl-aminopeptidase was released from the membrane by treatment with Triton X-100 and partially purified by chromatography on Sephadex G-200. By contrast with the soluble enzyme the partially purified solubilised synaptosomal membrane post-proline dipeptidyl-aminopeptidase was not inhibited by 1.0 mM p-chloromercuribenzoate, 1.0 mM N-ethylmaleimide or 0.5 mM puromycin but was inhibited by 0.5 mM bacitracin. The partially purified solubilised enzyme was capable of releasing His-Pro from His-Pro-Val, His-Pro-Leu, His-Pro-Phe and His-Pro-Tyr and of releasing Gly-Pro from Gly-Pro-Ala but could not release Arg-Pro from Arg-Pro-Pro or from Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg (bradykinin). It was also unable to release Pro-Pro from Pro-Pro-Gly or Glp-Pro from Glp-Pro-Ser-Lys-Asp-Ala-Phe-Ile-Gly-Leu-MetNH2 (eledoisin). Using [Pro-3H]thyroliberin we show that the membrane-bound enzyme converts His-ProNH2, produced by the action of the synaptosomal membrane pyroglutamate aminopeptidase, to His-Pro thus competing with the spontaneous cyclisation of His-ProNH2 to His-Pro diketopiperazine. Purified preparations of synaptosomal membrane pyroglutamate aminopeptidase were used to generate His-ProNH2, which could then be converted to His-Pro by the presence of the partially purified synaptosomal membrane post-proline dipeptidyl-aminopeptidase. This preparation was free of contaminating post-proline cleaving endopeptidase, carboxypeptidase P, aminopeptidase P, prolyl carboxypeptidase or proline dipeptidase.
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PMID:Post-proline dipeptidyl-aminopeptidase from synaptosomal membranes of guinea-pig brain. A possible role for this activity in the hydrolysis of His-ProNH2, arising from the action of synaptosomal membrane pyroglutamate aminopeptidase on thyroliberin. 286 1

Fumarases in the mitochondrial and cytosolic fractions of rat liver were separately purified and crystallized. These two fumarases were not distinguishable in physicochemical, catalytic, or immunochemical properties. The sequences of seven amino acids in the C-terminal portions of the two fumarases were shown using carboxypeptidase P to be identical, i.e.-Val-Asp-Glu-Thr-Ala-Leu-Lys-. The amino acid sequence of the N-terminal portion of the mitochondrial fumarase was determined by the Edman method as Ala-Gln-Gln-Asn-Phe-Glu-Ile-Pro-Asp-, but that of the cytosolic fumarase could not be determined by the Edman method, since the N-terminal amino acid was blocked. The N-terminal amino acid of the cytosolic fumarase was identified as N-acetyl-alanine by analysis of the acidic amino acid produced by digestion of the enzyme protein with pronase E, carboxypeptidase A and B. Then the sequence of five amino acids in the N-terminal portion was determined by analyzing the acidic peptide obtained by limited proteolysis of the enzyme protein with carboxypeptidase A as Ac-Ala-Ser-Gln-Asn-Ser-. Peptide mapping of the tryptic peptides obtained from the mitochondrial and cytosolic fumarases showed no difference in the amino acid sequences of the two except in their N-terminal portions. The turnover rates of the mitochondrial and cytosolic fumarases were determined by injecting L-[U-14C]leucine into rat and following the decay of specific radioactivity incorporated into immunoprecipitates from the partially purified enzyme. The half-life of the cytosolic fumarase was estimated as 4.8 days from the decay curve of its specific radioactivity. The decay curve of the specific radioactivity of the mitochondrial fumarase, obtained after a single injection of L-[U-14]leucine, was quite unusual: its specific radioactivity remained constant for about 7 days after pulse labeling, and then decreased exponentially with a half-life of 9.7 days. Similar amounts of cytosolic and mitochondrial fumarase were found in the livers of the rat, mouse, rabbit, dog, chicken, snake, frog, and carp, respectively. Similar subcellular distributions of the enzyme were also found in the kidney, heart, and skeletal muscle of rats, and in hepatoma cells (AH-109A). However, in rat brain no fumarase activity was detected in the cytosolic fraction. Two putative precursor polypeptides of rat liver fumarase were synthesized when rat liver RNA was translated in vitro in a rabbit reticulocyte lysate system.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of synthesis and localization of mitochondrial and cytosolic fumarases in rat liver. 381 85

Carboxypeptidase P has been purified by immunoaffinity chromatography from pig kidneys. A single-step assay with Z-Pro-Met (where Z represents benzyloxycarbonyl) as substrate was used, methionine being determined by using L-amino acid oxidase and horseradish peroxidase. The enzyme constitutes about 1.5% of the kidney microvillar proteins. Triton X-100-solubilized and papain-released forms of the enzyme were isolated. The former had an apparent subunit Mr of 135 000, and the latter form contained two polypeptide chains of Mr 128 000 and 95 000. The undenatured forms were dimeric proteins. In common with other microvillar hydrolases, carboxypeptidase P was a glycoprotein and each subunit contained one Zn atom. MnCl2 (1 mM) in the assay was necessary for maximum activity; in its absence, 0.5 mM-ZnSO4 produced a limited activation, but was inhibitory at higher concentrations. The Km for Z-Pro-Met, in the presence of MnCl2, was 4.1 mM, and the kcat. for freshly prepared enzyme was 1230 min-1. The enzyme lost activity during storage at -20 degrees C. In a limited survey of peptides, hydrolysis was observed only with substrates containing a proline, alanine or glycine residue in the P1 position, and these included angiotensins II and III. The best substrate in this series was Val-Ala-Ala-Phe.
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PMID:Proteins of the kidney microvillar membrane. Purification and properties of carboxypeptidase P from pig kidneys. 403 59


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