Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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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)
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.
...
PMID:Isolation and sequence of an active-site peptide containing a catalytic aspartic acid from two Streptococcus sobrinus alpha-glucosyltransferases. 182 39
The selective non-competitive NMDA receptor antagonist, MK-801, potently blocked convulsions induced in the mouse by N-methyl-DL-
aspartic acid
(NMDLA) with an i.v. ED50 dose of 0.2 mg/kg. Similar doses of MK-801 were also effective in blocking seizures induced by pentylenetetrazol (PTZ), electroshock and by sound in audiogenic seizure-prone animals. Other less selective non-competitive NMDA receptor antagonists including phencyclidine (
PCP
), thienylcyclohexylpiperidine (TCP), (+)-N-allylnormetazocine [+)-NANM, (+)-SKF 10,047) and ketamine also blocked NMDLA-induced seizures with a rank order of potency of MK-801 greater than
PCP
greater than TCP = (+)-NANM greater than ketamine. The competitive NMDA receptor antagonist, 3-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP) blocked NMDLA-induced seizures with an ED50 of 4.5 mg/kg, 22- and 560-fold more potently than the competitive antagonists, 2-DL-amino-7-phosphonoheptanoic acid (2-APH) and 2-DL-amino-5-phosphonovaleric acid (2-APV), respectively. MK-801 was the most potent of the non-competitive antagonists to induce a motor syndrome including head weaving, body rolling, increased locomotion and ataxia, characteristic of the behavioural response to
PCP
in the mouse. The syndrome was also present following injection of the competitive NMDA receptor antagonists, although they were generally less potent (probably a reflection of poor brain penetration) and less efficacious than the non-competitive antagonists. For all compounds except CPP, the anticonvulsant ED50 dose was close to the minimum effective dose to induce motor stimulation: CPP was 5- to 10-fold more potent as an anticonvulsant.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The behavioural effects of MK-801: a comparison with antagonists acting non-competitively and competitively at the NMDA receptor. 255 Feb 53
This paper proposes a new method, Adaptive Neuro-Fuzzy Inference System (ANFIS) to evaluate physicochemical descriptors of certain chemical compounds for their appropriate biological activities in terms of QSAR models with the aid of artificial neural network (ANN) approach combined with the principle of fuzzy logic. The ANFIS was utilized to predict NMDA (N-methyl-d-
Aspartate
) receptor binding activities of phencyclidine (
PCP
) derivatives. A data set of 38 drug-like compounds was coded with 1244 calculated molecular structure descriptors (clustered in 20 data sets) which were obtained from several sources, mainly from Dragon software. Prior to the progress to the ANFIS system, descriptors from the best subsets were selected using unsupervised forward selection (UFS) to eliminate redundancy and multicollinearity followed by fuzzy linear regression algorithm (FLR) which was used for variable selection. ANFIS was applied to train the final descriptors (Mor22m, E3s, R3v+, and R1e+) using a hybrid algorithm consisting of back-propagation and least-square estimation while the optimum number and shape of related functions were obtained through the subtractive clustering algorithm. Comparison of the proposed method with traditional methods, that is, multiple linear regression (MLR) and partial least-square (PLS) was also studied and the results indicated that the ANFIS model obtained from data sets achieved satisfactory accuracy.
...
PMID:Adaptive neuro-fuzzy inference system (ANFIS): a new approach to predictive modeling in QSAR applications: a study of neuro-fuzzy modeling of PCP-based NMDA receptor antagonists. 1743 39
Sodium channel inhibition is a well precedented mechanism used to treat epilepsy and other hyperexcitability disorders. The established sodium channel blocker and broad-spectrum anticonvulsant lamotrigine is also effective in the treatment of bipolar disorder and has been evaluated in patients with schizophrenia. Double-blind placebo-controlled clinical trials found that the drug has potential to reduce cognitive symptoms of the disorder. However, because of compound-related side-effects and the need for dose titration, a conclusive evaluation of the drug's efficacy in patients with schizophrenia has not been possible. (5R)-5-(4-{[(2-Fluorophenyl)methyl]oxy}phenyl)-l-prolinamide (GSK2) and (2R,5R)-2-(4-{[(2-fluorophenyl)methyl]oxy}phenyl)-7-methyl-1,7-diazaspiro[4.4]nonan-6-one (GSK3) are two new structurally diverse sodium channel blockers with potent anticonvulsant activity. In this series of studies in the rat, we compared the efficacy of the two new molecules to prevent a cognitive deficit induced by the N-methyl-d-
aspartic acid
receptor antagonist phencyclidine (
PCP
) in the reversal-learning paradigm in the rat. We also explored the effects of the drugs to prevent brain activation and neurochemical effects of
PCP
. We found that, like lamotrigine, both GSK2 and GSK3 were able to prevent the deficit in reversal learning produced by
PCP
, thus confirming their potential in the treatment of cognitive symptoms of schizophrenia. However, higher doses than those required for anticonvulsant efficacy of the drugs were needed for activity in the reversal-learning model, suggesting a lower therapeutic window relative to mechanism-dependent central side effects for this indication.
...
PMID:The efficacy of sodium channel blockers to prevent phencyclidine-induced cognitive dysfunction in the rat: potential for novel treatments for schizophrenia. 2148 71
