Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
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Target Concepts:
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Query: EC:3.5.1.4 (
deaminase
)
5,113
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To examine the effect of changing the amide bond of anandamide (5, AN) to a less hydrolyzable moiety, analogues 1a-1l, 2a-2c, 3a-3c, and 4a-4h were synthesized from commercially available arachidonyl alcohol or arachidonic acid and tested for their pharmacological activity. Arachidonyl ethers 1a-1k were obtained through the coupling of the arachidonyl mesylate (6) (generated from the mesylation of arachidonyl alcohol) with the appropriate alcohol in potassium hydroxide. Arachidonyl ether 1l was obtained through the phase-transfer coupling of arachidonyl alcohol with 2-(2-iodoethoxy)tetrahydropyran (which was generated from its
bromide
) followed by cleavage of the tetrahydropyran group with Dowex resin. Arachidonyl carbamates 2a-2c were obtained through the coupling of arachidonyl alcohol with the appropriate isocyanates. Norarachidonyl carbamates 3a-3c and ureas 4a-4h were obtained through the coupling of the norarachidonyl isocyanate (generated from arachidonic acid using diphenyl phosphorazidate and triethylamine upon heating) with the appropriate alcohols and amines, respectively. AN analogues 1-3 have shown poor binding affinities to the CB1 receptor and fail to produce significant pharmacological effect at doses up to 30 mg/kg. Several ether analogues 1 were also evaluated in the CB2 binding assay and were found to be of low affinity. However, norarachidonyl urea analogues 4 have shown generally good binding affinities to the CB1 receptor (Ki = 55-746 nM) and pharmacological activity with AN-like profiles. The most potent analogue of this series is the 2-fluoroethyl analogue 4f which binds 2 times better than AN and was more active in several mouse behavioral assays. It was also observed that urea analogues 4a and 4g, which have weak binding affinities to the CB1 receptor (Ki = 436 and 347 nM, respectively), produced surprisingly potent pharmacological activity. These urea analogues have also shown hydrolytic stability toward the
amidase
enzymes, responsible for the primary degradation pathway of anandamide, in binding affinity assays in the absence of the enzyme inhibitor PMSF.
...
PMID:Unique analogues of anandamide: arachidonyl ethers and carbamates and norarachidonyl carbamates and ureas. 1035 5
A series of N3-substituted coformycin aglycon analogues are described that inhibit adenosine 5'-monophosphate
deaminase
(AMPDA) or adenosine deaminase (ADA). The key steps involved in the preparation of these compounds are (1) treating the sodium salt of 6, 7-dihydroimidazo[4,5-d][1,3]diazepin-8(3H)-one (4) with an alkyl
bromide
or an alkyl mesylate to generate the N3-alkylated compound 5 and (2) reducing 5 with NaBH(4). Selective inhibition of AMPDA was realized when the N3-substituent contained a carboxylic acid moiety. For example, compound 7b which has a hexanoic acid side chain inhibited AMPDA with a K(i) = 4.2 microM and ADA with a K(i) = 280 microM. Substitution of large lipophilic groups alpha to the carboxylate provided a moderate potency increase with maintained selectivity as exemplified by the alpha-benzyl analogue 7j (AMPDA K(i) = 0.41 microM and ADA K(i) > 1000 microM). These compounds, as well as others described in this series of papers, are the first compounds suitable for testing whether selective inhibition of AMPDA can protect tissue from ischemic damage by increasing local adenosine concentrations at the site of injury and/or by minimizing adenylate loss.
...
PMID:AMP deaminase inhibitors. 2. Initial discovery of a non-nucleotide transition-state inhibitor series. 1078 Sep 6
A novel bacteriolytic enzyme CwhA (cell wall hydrolytic
amidase
) was purified by ion exchange and gel-filtration chromatographies from a commercial bacteriolytic preparation from Achromobacter lyticus. CwhA exhibited optimal pH at 8.5 and lysed CHCl(3)-treated Escherichia coli more efficiently than Micrococcus luteus, Staphylococcus aureus, Enterococcus faecalis, and Pediococcus acidilactici. The enzyme was inhibited by 1,10-phenanthroline strongly and by EDTA to a lesser extent, suggesting that it is probably a metalloenzyme. Amino acid composition and mass spectrometric analyses for the CwhA-derived M. luteus muropeptides revealed that CwhA is N-acetylmuramoyl-L-alanine amidase [EC 3.5.1. 28]. The complete amino acid sequence of CwhA was established by a combination of Edman degradation and mass spectrometry for peptides obtained by Achromobacter protease I (API) digestion and cyanogen
bromide
(CNBr) cleavage. The enzyme consists of a single polypeptide chain of 177 amino acid residues with one disulfide bond, Cys114-Cys121. CwhA was found to be homologous to N-acetylmuramoyl-L-alanine amidase from bacteriophage T7 (BPT7). Its sequence identity with BPT7 is 35%, but the amino acid residues functioning as zinc ligands in BPT7 are absent in CwhA. These results suggest that CwhA is a new type of N-acetylmuramoyl-L-alanine amidase.
...
PMID:Purification, characterization, and primary structure of a novel cell wall hydrolytic amidase, CwhA, from Achromobacter lyticus. 1083 71
Glutaryl-7-aminocephalosporanic acid
acylase
(GA), an industrially relevant enzyme, has been immobilized onto very different supports, including glyoxyl agarose, heterofunctional epoxy Sepabeads, glutaraldehyde and cyanogen
bromide
(CNBr) activated supports. Immobilization onto amino-epoxy Sepabeads rendered the most thermo stable preparation of GA, with a half-life time eight times higher than the soluble enzyme, keeping 80% of the enzyme activity. Several parameters that affect the enzyme-support interaction (pH and incubation time) were studied. It was found that after immobilization onto amino-epoxy Sepabeads, incubation at alkaline pH and low temperature exerted dramatic stabilizing effects, increasing the half-life time of the derivative 130 times with respect to the soluble enzyme, while keeping unaltered its intrinsic activity. The loading capacity of the amino-epoxy Sepabeads proved to be very good with a maximum load of 62 mg of protein per g of support with 85 IU/g at 25 degrees C and 200 IU/g at 37 degrees C which makes it a biocatalyst of possible industrial application.
...
PMID:Optimization of an industrial biocatalyst of glutaryl acylase: stabilization of the enzyme by multipoint covalent attachment onto new amino-epoxy Sepabeads. 1521 7
Catalyzed by the Rhodococcus erythropolis AJ270 whole cell catalyst under very mild conditions, biotransformations of racemic 1-arylaziridine-2-carbonitriles proceeded efficiently and enantioselectively to produce highly enantiopure S-1-arylaziridine-2-carboxamides and R-1-arylaziridine-2-carboxylic acids in excellent yields. Although the nitrile hydratase exhibits no selectivity against all nitrile substrates, the
amidase
is highly R-enantioselective towards 1-arylaziridine-2-carboxamides. When treated with benzyl
bromide
, 1-phenylaziridine-2S-carboxamide underwent a highly regioselective and enantiospecific ring-opening reaction to afford an almost quantitative yield of R-beta-[(benzyl)phenylamino]-alpha-bromopropanamide (C-2 attack) and R-alpha-[(benzyl)phenylamino]-beta-bromopropanamide (C-3 attack) in a 10.5:1 ratio. Further treatment of the resulting ring-opening products with an N-nucleophilic reagent such as amine and azide led to, through most probably the aziridinium intermediate, the formation of S-alpha-substituted-beta-[(benzyl)phenylamino]propanamides in good chemical yields with high enantiomeric purity.
...
PMID:Nitrile biotransformations for the efficient synthesis of highly enantiopure 1-arylaziridine-2-carboxylic acid derivatives and their stereoselective ring-opening reactions. 1728 38
Entrapment of permeabilized whole cells within a matrix is a common method for immobilization. Chitosan possesses distinct chemical and biological properties, which make it a suitable matrix for entrapment and immobilization of penicillin G
acylase
(PGA). In the first step, Escherichia coli (ATCC 11105) cells were permeabilized using N-cetyl-N,N,N-trimethyl ammonium
bromide
(CTAB) (0.1% w/v, 45 min, 45 rpm) which then immobilized using glutaraldehyde (5% w/v) as cross-linker and chitosan (3% w/v) as the matrix. These conditions were established after preliminary trials with CTAB and glutaraldehyde concentrations in the range of 0.05-0.25% w/v and 1-9% v/v, respectively. The hydrolytic activity was assayed using Ehrlich reagent. Permeabilization of cells caused 9% increase in Penicillin G Acylase (PGA) conversion after 15 min compared to the intact cells. Although, immobilization on chitosan decreased the conversion compared to un-immobilized treated cells (13%), the new biocatalyst showed acceptable operational stability, maintaining more than 90% of the initial activity after 20 cycles. Optimum conditions for immobilization of E. coli cells were: CTAB 0.1% w/v and glutaraldehyde 5% v/v. A new combination method was successfully developed and optimized for immobilization of treated whole cells on chitosan matrix.
...
PMID:Immobilization of penicillin G acylase using permeabilized Escherichia coli whole cells within chitosan beads. 2318 Oct 84
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